From e8146aea9cd30bba4c98a8a871ec2ca7f2a40062 Mon Sep 17 00:00:00 2001
From: Xavier Robin <xavier.robin@unibas.ch>
Date: Fri, 13 Jan 2023 13:21:21 +0100
Subject: [PATCH] feat: SCHWED-5783 accept ligands as input

---
 modules/mol/alg/pymod/ligand_scoring.py       |  116 +-
 modules/mol/alg/tests/test_ligand_scoring.py  |   77 +-
 modules/mol/alg/tests/testfiles/1r8q.pdb.gz   |  Bin 0 -> 144068 bytes
 .../mol/alg/tests/testfiles/1r8q_ligand_0.sdf |    7 +
 .../mol/alg/tests/testfiles/1r8q_ligand_1.sdf |   72 +
 .../mol/alg/tests/testfiles/1r8q_ligand_2.sdf |   47 +
 .../mol/alg/tests/testfiles/1r8q_ligand_3.sdf |    7 +
 .../mol/alg/tests/testfiles/1r8q_ligand_4.sdf |    7 +
 .../mol/alg/tests/testfiles/1r8q_ligand_5.sdf |   72 +
 .../mol/alg/tests/testfiles/1r8q_ligand_6.sdf |   47 +
 .../alg/tests/testfiles/1r8q_protein.pdb.gz   |  Bin 0 -> 122146 bytes
 .../tests/testfiles/P84080_model_01.cif.gz    |  Bin 0 -> 93792 bytes
 .../alg/tests/testfiles/P84080_model_01.pdb   | 3200 +++++++++++++++++
 .../alg/tests/testfiles/P84080_model_02.pdb   | 1670 +++++++++
 .../testfiles/P84080_model_02_ligand_0.sdf    |   72 +
 .../tests/testfiles/P84080_model_02_nolig.pdb | 1442 ++++++++
 .../testfiles/P84080_model_02_protein.pdb.gz  |  Bin 0 -> 25987 bytes
 .../tests/testfiles/P84080_model_03.cif.gz    |  Bin 0 -> 44891 bytes
 .../alg/tests/testfiles/P84080_model_03.pdb   | 1523 ++++++++
 .../tests/testfiles/P84080_model_04.cif.gz    |  Bin 0 -> 43048 bytes
 .../alg/tests/testfiles/P84080_model_04.pdb   | 1515 ++++++++
 21 files changed, 9852 insertions(+), 22 deletions(-)
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q.pdb.gz
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_ligand_0.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_ligand_1.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_ligand_2.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_ligand_3.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_ligand_4.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_ligand_5.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_ligand_6.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/1r8q_protein.pdb.gz
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_01.cif.gz
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_01.pdb
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_02.pdb
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_02_ligand_0.sdf
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_02_nolig.pdb
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_02_protein.pdb.gz
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_03.cif.gz
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_03.pdb
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_04.cif.gz
 create mode 100644 modules/mol/alg/tests/testfiles/P84080_model_04.pdb

diff --git a/modules/mol/alg/pymod/ligand_scoring.py b/modules/mol/alg/pymod/ligand_scoring.py
index fa60fdbb6..85d0af427 100644
--- a/modules/mol/alg/pymod/ligand_scoring.py
+++ b/modules/mol/alg/pymod/ligand_scoring.py
@@ -20,15 +20,19 @@ class LigandScorer:
                   No additional processing (ie. Molck), checks or sanitization
                   is performed on the input.
     :type target: :class:`ost.mol.EntityHandle`/:class:`ost.mol.EntityView`
-    :param model_ligands: Model ligands, either a :class:list of
+    :param model_ligands: Model ligands, as a list of
+                  :class:`ost.mol.ResidueHandle`s belonging to the model
+                  entity. Can be instantiated with either a :class:list of
                   :class:`ost.mol.ResidueHandle`/:class:`ost.mol.ResidueView`
-                  or of :class:`ost.mol.EntityHandle`/:class:`ost.mol.EntityView`
-                  containing a single residue each. If `None`, ligands will be
-                  extracted from the `model` entity, from chains with
-                  :class:`~ost.mol.ChainType` `CHAINTYPE_NON_POLY` (this is
-                  normally set properly in entities loaded from mmCIF).
+                  or of :class:`ost.mol.EntityHandle`/:class:`ost.mol.EntityView`.
+                  If `None`, ligands will be extracted from the `model` entity,
+                  from chains with :class:`~ost.mol.ChainType`
+                  `CHAINTYPE_NON_POLY` (this is normally set properly in
+                  entities loaded from mmCIF).
     :type model_ligands: :class:`list`
-    :param target_ligands: Target ligands, either a :class:list of
+    :param target_ligands: Target ligands, as a list of
+                  :class:`ost.mol.ResidueHandle`s belonging to the target
+                  entity. Can be instanciated either a :class:list of
                   :class:`ost.mol.ResidueHandle`/:class:`ost.mol.ResidueView`
                   or of :class:`ost.mol.EntityHandle`/:class:`ost.mol.EntityView`
                   containing a single residue each. If `None`, ligands will be
@@ -46,38 +50,35 @@ class LigandScorer:
                          lazily as required.
     :type chain_mapper:  :class:`ost.mol.alg.chain_mapping.ChainMapper`
 
-
     """
     def __init__(self, model, target, model_ligands=None, target_ligands=None,
                  resnum_alignments=False, chain_mapper=None):
 
         if isinstance(model, mol.EntityView):
-            self._model = mol.CreateEntityFromView(model, False)
+            self.model = mol.CreateEntityFromView(model, False)
         elif isinstance(model, mol.EntityHandle):
-            self._model = model.Copy()
+            self.model = model.Copy()
         else:
             raise RuntimeError("model must be of type EntityView/EntityHandle")
 
         if isinstance(target, mol.EntityView):
-            self._target = mol.CreateEntityFromView(target, False)
+            self.target = mol.CreateEntityFromView(target, False)
         elif isinstance(target, mol.EntityHandle):
-            self._target = target.Copy()
+            self.target = target.Copy()
         else:
             raise RuntimeError("model must be of type EntityView/EntityHandle")
 
         # Extract ligands from target
         if target_ligands is None:
-            self.target_ligands = self._extract_ligands(self._target)
+            self.target_ligands = self._extract_ligands(self.target)
         else:
-            # TODO: sanitize given ligands
-            self.target_ligands = target_ligands
+            self.target_ligands = self._prepare_ligands(self.target, target, target_ligands)
 
         # Extract ligands from model
         if model_ligands is None:
-            self.model_ligands = self._extract_ligands(self._model)
+            self.model_ligands = self._extract_ligands(self.model)
         else:
-            # TODO: sanitize given ligands
-            self.model_ligands = target_ligands
+            self.model_ligands = self._prepare_ligands(self.model, model, model_ligands)
 
         self._chain_mapper = chain_mapper
         self.resnum_alignments = resnum_alignments
@@ -134,3 +135,82 @@ class LigandScorer:
                     extracted_ligands.append(residue)
         return extracted_ligands
 
+    @staticmethod
+    def _prepare_ligands(new_entity, old_entity, ligands):
+        """Prepare the ligands given into a list of ResidueHandles which are
+        part of the copied entity, suitable for the model_ligands and
+        target_ligands properties.
+
+        This function takes a list of ligands as (Entity|Residue)(Handle|View).
+        Entities can contain multiple ligands, which will be considered as
+        separate ligands.
+
+        Ligands which are part of the entity are simply fetched in the new
+        copied entity. Otherwise, they are copied over to the copied entity.
+
+        If
+        Copy ligands into the new copied entity, if needed.
+
+
+
+        and prepares the list of ligands to be returned as a list of
+        ResidueHandles which are part of the copied entity, and suitable for
+        model_ligands and target_ligands.
+
+        Multiple ligands can be supplied at once in an entity.
+        """
+        extracted_ligands = []
+
+        next_chain_num = 1
+        new_editor = None
+
+        def _copy_residue(handle):
+            """ Copy the residue handle into the new chain.
+            Return the new residue handle."""
+            nonlocal next_chain_num, new_editor
+
+            # Instanciate the editor
+            if new_editor is None:
+                new_editor = new_entity.EditXCS()
+
+            # Add a new chain
+            new_chain = None
+            while new_chain is None:
+                try:
+                    new_chain = new_editor.InsertChain(str(next_chain_num))
+                    next_chain_num += 1
+                    break
+                except Exception:
+                    next_chain_num += 1
+            # Add the residue with residue number 1
+            new_res = new_editor.AppendResidue(new_chain, handle, deep=True)
+            new_res.SetIsLigand(True)
+            new_editor.SetResidueNumber(new_res, mol.ResNum(1))
+            return new_res
+
+        def _process_ligand_residue(res):
+            """Copy or fetch the residue. Return the residue handle."""
+            if res.entity.handle == old_entity.handle:
+                # Residue is already in copied entity. We only need to grab it
+                new_res = new_entity.FindResidue(res.chain.name, res.number)
+            else:
+                # Residue is not part of the entity, need to copy it first
+                new_res = _copy_residue(res.handle)
+            return new_res
+
+        for ligand in ligands:
+            if isinstance(ligand, mol.EntityHandle) or isinstance(ligand, mol.EntityView):
+                for residue in ligand.residues:
+                    new_residue = _process_ligand_residue(residue)
+                    extracted_ligands.append(new_residue)
+            elif isinstance(ligand, mol.ResidueHandle) or isinstance(ligand, mol.ResidueView):
+                new_residue = _process_ligand_residue(ligand)
+                extracted_ligands.append(new_residue)
+            else:
+                raise RuntimeError("Ligands should be given as Entity or Residue")
+
+        new_editor.UpdateICS()
+        return extracted_ligands
+
+
+__all__ = ["LigandScorer"]
diff --git a/modules/mol/alg/tests/test_ligand_scoring.py b/modules/mol/alg/tests/test_ligand_scoring.py
index 7309e2707..16112992b 100644
--- a/modules/mol/alg/tests/test_ligand_scoring.py
+++ b/modules/mol/alg/tests/test_ligand_scoring.py
@@ -12,18 +12,87 @@ except ImportError:
 
 class TestLigandScoring(unittest.TestCase):
 
-    def test_extract_ligands(self):
+    def test_extract_ligands_mmCIF(self):
         """Test that we can extract ligands from mmCIF files.
         """
-
-        trg = io.LoadMMCIF(os.path.join('testfiles', "1r8q.cif.gz"))
-        mdl = io.LoadMMCIF(os.path.join('testfiles', "P84080_model_02.cif.gz"))
+        trg, trg_seqres = io.LoadMMCIF(os.path.join('testfiles', "1r8q.cif.gz"), seqres=True)
+        mdl, mdl_seqres = io.LoadMMCIF(os.path.join('testfiles', "P84080_model_02.cif.gz"), seqres=True)
 
         sc = LigandScorer(mdl, trg, None, None)
 
         assert len(sc.target_ligands) == 7
         assert len(sc.model_ligands) == 1
 
+    def test_init_given_ligands(self):
+        """Test that we can instantiate the scorer with ligands contained in
+        the target and model entity and given in a list.
+        """
+        trg, trg_seqres = io.LoadMMCIF(os.path.join('testfiles', "1r8q.cif.gz"), seqres=True)
+        mdl, mdl_seqres = io.LoadMMCIF(os.path.join('testfiles', "P84080_model_02.cif.gz"), seqres=True)
+
+        # Pass entity views
+        trg_lig = [trg.Select("rname=MG"), trg.Select("rname=G3D")]
+        mdl_lig = [mdl.Select("rname=G3D")]
+        sc = LigandScorer(mdl, trg, mdl_lig, trg_lig)
+
+        assert len(sc.target_ligands) == 4
+        assert len(sc.model_ligands) == 1
+        
+        # Ensure the residues are not copied
+        assert len(sc._target.Select("rname=MG").residues) == 2
+        assert len(sc._target.Select("rname=G3D").residues) == 2
+        assert len(sc._model.Select("rname=G3D").residues) == 1
+
+        # Pass residue handles
+        trg_lig = [trg.FindResidue("F", 1), trg.FindResidue("H", 1)]
+        mdl_lig = [mdl.FindResidue("L_2", 1)]
+        sc = LigandScorer(mdl, trg, mdl_lig, trg_lig)
+
+        assert len(sc.target_ligands) == 2
+        assert len(sc.model_ligands) == 1
+
+        # Ensure the residues are not copied
+        assert len(sc._target.Select("rname=ZN").residues) == 1
+        assert len(sc._target.Select("rname=G3D").residues) == 2
+        assert len(sc._model.Select("rname=G3D").residues) == 1
+
+
+    def test_init_sdf_ligands(self):
+        """Test that we can instantiate the scorer with ligands from separate SDF files.
+
+        In order to setup the ligand SDF files, the following code was used:
+        for prefix in [os.path.join('testfiles', x) for x in ["1r8q", "P84080_model_02"]]:
+            trg = io.LoadMMCIF("%s.cif.gz" % prefix)
+            trg_prot = trg.Select("protein=True")
+            io.SavePDB(trg_prot, "%s_protein.pdb.gz" % prefix)
+            lig_num = 0
+            for chain in trg.chains:
+                if chain.chain_type == mol.ChainType.CHAINTYPE_NON_POLY:
+                    lig_sel = trg.Select("cname=%s" % chain.name)
+                    lig_ent = mol.CreateEntityFromView(lig_sel, False)
+                    io.SaveEntity(lig_ent, "%s_ligand_%d.sdf" % (prefix, lig_num))
+                    lig_num += 1
+        """
+        mdl = io.LoadPDB(os.path.join('testfiles', "P84080_model_02_nolig.pdb"))
+        mdl_ligs = [io.LoadEntity(os.path.join('testfiles', "P84080_model_02_ligand_0.sdf"))]
+        trg = io.LoadPDB(os.path.join('testfiles', "1r8q_protein.pdb.gz"))
+        trg_ligs = [io.LoadEntity(os.path.join('testfiles', "1r8q_ligand_%d.sdf" % i)) for i in range(7)]
+
+        # Pass entities
+        sc = LigandScorer(mdl, trg, mdl_ligs, trg_ligs)
+
+        assert len(sc.target_ligands) == 7
+        assert len(sc.model_ligands) == 1
+
+        # Pass residues
+        mdl_ligs_res = [mdl_ligs[0].residues[0]]
+        trg_ligs_res = [res for ent in trg_ligs for res in ent.residues]
+
+        sc = LigandScorer(mdl, trg, mdl_ligs_res, trg_ligs_res)
+
+        assert len(sc.target_ligands) == 7
+        assert len(sc.model_ligands) == 1
+
 
 if __name__ == "__main__":
     from ost import testutils
diff --git a/modules/mol/alg/tests/testfiles/1r8q.pdb.gz b/modules/mol/alg/tests/testfiles/1r8q.pdb.gz
new file mode 100644
index 0000000000000000000000000000000000000000..edbba7c0f35863c02bd6164a37dbb84cce18ee63
GIT binary patch
literal 144068
zcmb2|=3odpU6jbc{AO<S<i%!U4fj85f0?vuUgz0@?H_Ztd9mG0o7LUCpnA^qKmY4D
zKKHo88<9}8>85Pf=DY7U+RMw%o!z3M*TbfxToAk2Bt6mTQ;*u8S!qATzunz`;mMg3
zoxduz?y*eYd4E~mzN@-F?w<HoKjGY0Z@FiJ!u#iSY20$tv3xG>w0ZJITlVX@HEJJZ
z>!jk9zs=p#{vrQ(&)f)+1M@W(dNTY!KXbpbqg3#Z+xkD^erU%OO8pgOV^6A4^^f7b
z;G*=oyF-?P_2#AzGd@MTd^Yf1Wu{#d&b);~L&v9Ko8s}OPG%0X8-5*X+1TT_JHJQ2
z+00>i*rK03LedLvUrU^}gnK1#LHNrFxhFDtW#66DT>N~7>d%GA5&Dvk69WwVWNNdm
zo-Kc=pWPt$aJ!0cp5eA1E|U)RN6czxye)T_<;)MCiW$a};vx@i;{BLkS=G4St7E62
z{0nB@xnFGFo{Tf=nR@mZgTH3cLvg0<9c>Qt#AfO*I_$MChS_&gTKcROn}6NE6-&x0
zxc)LTwyRm{ZgL7_<-L&Au%JyM`rT!jq}w))(hKe~6#tUF{jRdjboWo*3ySF*3=&(;
zXKZBLmCzpkfs60&AMyPk=QMU2zl)C$`!#)n(~Ul-)`|$`^6v*$z3p2q*C6$vj^Tu2
zV&WbPw`Gp!GDXfzydcf6&+yB^{hw}&PO0wI=s)a!MoOb*C%=v)L-NkVfT?BX4#`V9
zVwv4-o=!TZ`S1%@ec-35Y!(kRrz<Tx=~F2EpkeurUAylD_nZn|cZc6aAa2@nsRy^_
zC9Qd@c??25OZMlSGV9N&y!VYBp8VQ3&i;+wR_>a|Z1URb>&n;S8R-*(|9t&zw%A;#
zMP0+QCNNEp>5|g^6IC{sjHX>sI%V$uHm1dW+SA$jQnwyz_DuQwMPIU-JHyXlxx?o2
zMF-fWSDva~ToZpRY1UpR(XZ^h_dG<@*7G--)!h+rF!&_+K!)?^hQqh&v=^-{)PE>_
zddH+7=>?ttZ{8NR&MVF5Rj9jiW&8b%O;_Jatyt|~bs#@dC{%yL@spG9-er7bz+30w
zq48(Wi42ztr}cj(J)5&ceNwzcr(_kIOQN9`_hj!1p4PL6_Fqn1;CYU<MkR6WsvYrn
zR(WwOcKS0hK%l?3_K~mhwwH(W`(8F&I=Y~Q$>Pdn#df}Hr4rX(RiB<a;T>N^Yk;dk
z{La3;+t+mVYce&P9FcEZC%J3uf2G;$X18sh&A6uaRE)|66@f#gQlc3wvjjqJ?@o|O
z->}H!*{z%hMpJ#67EV6+r(nx+t#i(tis^HVrMl}aABZ2hqTZL5v1~7o#$j{)#=?mo
zy#<%#OaF_KdHGr`$z5#2_OnyfJU2d^vA#gYk})TqeUby`BsanPd)hrWbzXY1r*g4@
z%pApsT;cpTzHs*(-(-Ax<I{i#M_hS2pG<XqsOqaO{O`CI$HLi@nv8i$yn9z@CqC9z
z5q|hyXrBI)rDfCo7cf3_=xz-B<yYl!`SQ2w&;=Qr<Da~Id8O_$H~)FVTFY9egdmrT
z2H6Z6r<clP<(@mq>9lvs=12d!9P-!uevKEOA!7K%!pGu*s-UoHu=!cp6Xy(iIUgOL
zbykz5+Hd~mdGq)-Px<^-y7!QSpUW|xMXslf`6kTSyu~8^l2SP1JfmYCZVeFzlZ@v%
z|84s}^_7SruTYKDYOjcmAF3+-H;2#p^lPnKvbr<VZRy8*I1?(b-eKGEc}nA4HU3x*
zld~%)`FOTJoZm6MEH``JKb;Hy-74!<w#4KcHP`P+d~ESj>9LsCjV}A+27w#iu4}2B
z<vjIfg^9tAFEgJpnfgt&ihU6H<5s|gsn@w{C6YuNlumqWcr3V0e&gx|t-EZdY3|6s
zy)3U^`rO`@xeC!6>zt*3h0J=Caz-xW)7-^(s^@1$CL7&jwmx=ubM_tu&K2zK)(;M-
zs@$p05?WVK+R*E&p1Eo79VQL&NT&=w%}7)AJEC)vCOIity)7wC_9|6&FqGh~b*h!v
zuw^Ct)5J{i3dY~r=9^U)E?mtUw#%Vlm-!lA_E|YM&oMpV3TLmFa&5WIiAtS^8@v8(
z*KSVhQu^Wc#8=ZQw78eiKY(S@cY{X)dFuji>G8$Acz%9ahpBaeNNB>DjG%5!%a_up
zGemMdc(<4)D;btIK3&dvPHRcP=D34u-v16Ad@OipVcwi|H@Df%Y!Pi(c9UWIu4fg+
zowW;6x2l@VS*~hw#w_6aeD)}9=Ce~9&&SIuEIDPc%+lrADTTi#XPXQf_X|!-&HQ#l
zYPXP4+yv#L5%c+;Uf#{E#hJ*H_Sj1JK>O1i?j6C5T0DEa7wp@v)?jgDHPd62*eGTf
z?%d})ln;omGrQowxo2v&<)0~Y{TA-HX{z7wy?uMLN5J84PfqhMIA;^Sb<S+It~_yv
z>KJ?Z*P4<lj~n*3hVboiZR2ESd%5z>mrtv>_xPl}FK0`wuv2+x=*y%e&iZka)~jhM
zmp*l5Tk-wu63f{2)W6u{ke)&7N3U!1*{3@k-^#;z>8;R;e&&T=`fu!Q&}X!EUSGiS
zF84UggoTyXi~sDb=Xk??gGp-IzU!?i^V)@?qJ+(UE3f3qpEdOi@6Js+Eb7Kp4o+p$
z*cHMz+f2DIliTFCgW-lBw|-kPXRPJjBF_BRn`2`A>*n2#ANfM3?=YVg9^1@#TFB~)
zLVfabiD_Hhi(T3)+9mTB$0*O@iSSFl@q6x@)Vl`iZ#S^Z802!c%-FBpcuYm0T|J{)
zVd{J}%demJ%}~8?%bVZOyI(T<lfVY;w3{i{bxWVWT6JL6;p(a>4o~Cc7`}bcXq@(V
zs@0ces(UzODu1ray!G~Sg}$)2{@G(+pE0;sNA5fsE@7=!$<ZdfSw`niT<6l39kblL
z%<i6cKCmz@Y}$nTNeZdvpTzd~FJ*A@d8v5p-rOl0nCEyfPGIq}{^DbraMSv`Q<%fz
zFCytt?X?f~PVg?ZxOP&Tf!)?sa>t>ojAqJiBHC=lI{E768>6R{h3bCVAaXEtLG;EO
zQ+U1>g>Dw&cG~9gVcWaT`R6?Jzc)HH_FlZ=kSe>aLFwaN%OcJa8}7FkuDsc+TGyxg
z%Q_+a$WNi7m~X2VIA1ROzGzvYi>FcC?Jte~uQ#yHxuUq^L!5}`y6(NX{og*xeu$KP
zBzvo9(@zVDta(h|M0RlOICPb5+w%Hlb9cTzog4n{{Fe6T1}mCM*H4SSl2Rv{{qxYD
zZ=rlgb{S7T&v<&$ll`lLJsy4D_ReD6_h*$az89}F+F)wjr+qJ?%{ltdwBl)E;s1U-
z`y^Y?x|;cnvdq0_CC7qxvJ08{x|Q7w*t2%4$c{r-r9DH79>)BYIuJJd<F$}k4|Kf$
zih6ZVs5&6FY){Q0%k=sOuU6Q+-4ntz&D!?VjE>gX5&N%kwCnf&J)*Ky=)$$^)>G4k
zd*3q#^CWc62sj+QE~xryfYasg7E4oJ&3e2;uP@Bxd{M7wg5QFy=aW~zm5V7an<35C
z)!eM&@n~n}sqkZd@fFQ#+t&ysR#hKRF6e%IWA3coJRT8DrOYX(&c2$OsmtW{`nAET
zk{yRTFL=BXcx8G#aJJ%pb}w0}3m(UrYHn(7+xul*q)G|L-Gm$Sc!k2Ou9Wv*bK_(B
z`OE5wQ+tL+-{$7<)XAmQ=?7K^Ro(q`?8#pCS)u~!vX!YfcD=jtVO7w9bF#Y&%lNlw
zJ>V-jvG&%6(h1v*s_tGqzUCAAvWC`fm*-0wSk2eeyKo6?51O@GFiCi(ZQ|osg0~G!
z4<B&YdpFbiG?Qp_wM5vL&!_o&ZX{HcX(z4L)0o$BV_xP|!Dzo!zdIrGrd?Q7d}^QQ
z#zL+l#t)B`%v2KRDC;P1TX-|ho>7~5b;sKo0(>b)?n%vh7{P6=x~k;GyRtCJjf%J4
zoJp<xsjR&1;fy@VjUTVxyJISN+w6Pt#XO~?*WdPuZj4=V;8jQNj>Vp(DoNd0Y$Y1X
z+c<vpUGKUv&vMyCd5MkUbqD`DT&xqxU)_3m`gzf}9tE=&#qNt)oN-@D?pz6D<!gtM
zJBx4bxb-h@;eCD|#$~T1)`~QUem6>Z%xk?lbj$5)!I}($dQ)=NiagL^s>`^@SGm%Y
zF|XLWN-yBmg-Z)qw#;61_rmw!>^bVHYqmU#@(bP4+|ss{<HthR-P}eWm!0$r-Ez9X
zdRoZw;D){JK})7G`K+JH^yT8Alsy^c8!oL6ZpeI~vB2!t$FI}v4Oq|2@SQc`!~BRX
z-Mw1A7yI;mqbvVD3^`&}K8stGqa}|yNmcB`w6$;N?BASmJhMCONL-Y>nd|OU>9vdQ
z&I`J;rRA#$_X_p(T<19N&tR#GInriyw`gzLtfOXYpDS%!_x5|+O_!YWw`{G?E{a}v
zSLE%pIuj;8CVR7_>fK=%*G0eW$UV=oAuTrf{cXW&{<c{6oXZBs&eZJ5xX!DwX4ay+
zA69kfs>Qz9ubw2|{bFm}b-Cq?-HQw?&qv$e+g+_)-qdN!%3ieOxIv<7)Vw94!T+q-
zE0#+37HaOlvsT^i-Q^Sdr%XFHs~%yMxUOTHbb{{?)8_+@cP!#>rA&Fm#}T(f;)H(W
zj6Ih=XB`k-#}{yKeQxgbssB&#FS!+U=w$0Y!=jWOf0a0%unGI5M{4-Zf5o_7lmGp9
zU%jaXi7yRVMbuR~Vto}KUz%`GDtXr9cXi&IzxcjB(C+S#{4S_iG@*{uvT@%5R+}l_
zXPZNR^(@ww%UAjQQ*gSS^fNQh``dPzK6n<Zpv<_ss;%Wh>l~JP$sIxWt}J8-<rEgZ
z5VQLvN6P)ePE{#|Ua|YiZ#`}ZJe@ZEUTJ`(%u;5af}M8vV#IFGxV+-tg(yb(`*H7>
zip82c{(e@Ai;Mgsrk3>jezI?Q!}Zfos`-yxm7B&do3J|Ne4fm%WxJb$R_6Q<*nDvD
z$3Na}tF5c<elPm1R8ldU^N4}&=D^~LnAeArr*FEfkj7GxV$%1aW75Od4EHi_+<tlC
z9;4Upsi#W|dAog1=st+C?zybus_MkSQ!BA~LdU6IdHs*mIZ7=yhE@yw;QP7ArsH#7
zu-(+zB{r`cU-o!fgcP64FRGdwlW8Qs<Ji?+vjFu@RWIj**_|z>2FpAfPtR9)v!%pR
zUP8@+jpOrev3l$Dsn_RxDxYOoc<<QZkB;^Sf(|WI5Q%Qo_VYgU{@~#`A2!atbmXuS
z=YNfe_cJ<}Z{EDOc(=mc4C8(C_uTaRw?Ossfi(M_EVJI`N_rj0Po4L9vw+w43D?xi
zTIRpvEjLz)d7Q<3+P3t3&Xl*F7KLj%4z+z}Tww5~ht*Z+!jb)_JuaMX+g5FG`_fwx
ziP@>o4^Cm)yUF1Yk9Z3Iet)LIJ9}oo+sF4I{^9gf9{*y`*L$+J8>*O9uHVVe^W6Dt
z+Mf-ab&0E<U71+Gv-Rb?<HnU9M|2V@<<37*6ujJ~Tkxp%(uVKTzI|}nq<NTcvRF{g
zvg>92zw$0@*nP;8bH2eF#+c+A+cNEwZ^Y`E{Y<?1Z(-YAxeE_Y@@evf^0l-ly{%Yn
z6wJ15dE<vSigONhZd~B{e<k0S<n~tyd0m@1uXp?^vPxu#SYGBL*YQ3+SHtu&huyc#
zz{!azlb%MHbOc45^jOxoIwp6)pVEaX<p(S`yRSM>)UaJ{!>q0&YpXsKJKsA})*5dw
z+mW1cZqL<Pj+RIAI`8Ig->%1OnkVb|?dRsNstb}HZ#T9n{-RtW(OMr?y=Jn*xmL%P
zZ*{8SWopx&K47_gt}}U3Oioc(mkBrXHc6&OJPdozFRzn&(9HB8*5Fuspv{)qaf&|{
zY!=^fzQFmz8SgKR3f}8y8**9~^F6y)ZBYAr!O6wy4{R9Mlysyk#OWKztu61;Ww|!r
ze|^z`m}UF4T{J4)-#M&1Vsh%gE!(=HyNr%!zIdHj^o);jvPx&N&dXJ4_PUCOGVI6A
z?wfBvJHI%y*&&!|`~7<3eKTh3CVZT(-Vnxm=Z?y!$OW-xJ4H6M*fG|8dc}NSpGQXW
z*Q}iXcfXWa`o!ufM)5HmU3vBCUdhUD-+~?pPmd}PSad4$kNbDITMjyjewqyT4NJZ$
z1})@CzxA<qNByhQtxrw*-5Vu8U)Fh0R1tXok@HQKr4a!RM_!sU*6scLRnI`k{dh>f
zZDfg3$oAk09;3u1#z&m~ecB^a`@p=CS7xO#gNf>fpC1IO_%6I+Zog36@Mu9!%<o?t
zPEO<f+Wc;X$<3VF3IW^gCzl0Hmi0G|@m_gyTF~V5FPoNLIo-#b9Q1u5-&(r@kJ-hu
zbF?MD^~7zPT2<*bId`d={ktim>+-fl7S6f!di8Tvmj{MEv(+6WrE5-1+^YDk&B1q#
z*|HammU3mG`&!nmezxjVx}3v}I_{&-ZmRrHiof1o+|O{@+W3d$xyYKHg19B;w7!a8
zQBF512`Q7lp(5mauYCG{k;~Ex1^u-pt?w6=n{QrxSc%)wCN4!?rzugx?|J%EvkgYl
zQ~0bnCP}Mp3;S*PV!h4LLg^Mm5q15i)5<ED=Y4Hhu(&9=uCh6<HYvfu>FC+K%?)P-
z^NMU7U*9wp5)ah7HN&vx0mr<wrlYJco|$^ypDdWL*gQaj|2(Iidix;;tKLJ!TsyKt
zI<1#Re!bAb$*FDL_)z)9#I0{WakLfhbu$;?{;MgkKmXQ&Vh-ji1;?#R9vTK;(64xK
zHa5_0a%b~ZYpXZ)L1HmZOmpOg;(welvfna&_r)~U1j(>ho?8~Y)pr$o#;){7`HN`d
z*OVykpYDuz=ctNkoxk?y4okU!M*8!0ip$TNM#>$r5h&(6Vy3&dZo%Q_=eeR4TUvD8
zp0YokT>N2Q)58@8)@2&=#hW%?f4XF<MHA!Sr#03S*0N^K+~dSw%a|N6F`y#6zF^|1
z3CE5;mQwG}-oq~Ra`|hKx4I9kT&uZv_+9+>ao?UViK_Osl~<-;{j*O0;THYdzqi)j
zytDT8>EpbWTVy)^e0gfRE-*fBmrmKt*H3khhn{i1_q}}Qy!6@GyXQUKaqrf;^cTO9
z@Bg0ZcD;0OKTrI!Nqn*Xm%q17;yb&wbcNZ>Z{OS2FZI6jKmE}3y}?|jwVcZjO<x;*
z?AF8V{B<^5Gu9rS|M0b5jqPIRrPYkLS4KYS{IK;++<`?OOic~fEpTp?v0CT6bvCzg
z(1Fk9;#F2P|DH89@rf3_*unR9dH#hjB^m42I&a-A+F!Ecl<6$Dt7gainE&6*6bap5
zCUsZa@cEL9bH5w+{_|NJZ1rcq&tk4J3-|VEU3}ZKmj@ockv;9@zu3$#H)sD7&MXm?
z)mnP7-74m(l<(qG-!G^){C{KeYK>h#@3&{`?4&|xc>kX1R-YqPtHrv)ciGts3ooV2
zT3CH6&pdL=dYhTwCTcop_O7#&n!EV$Lz7?kL(cuR?{Uj5f0<F}($3N2+_!tps^BBj
z=GI?gEBn3u*uHMn`<Z@=u85zmJhir`zwzuu38~7?`swWKCyqXfpZLGJlp%`A@~8I4
z`svvljx{DWbkFuvtc#P``px=J_y!iC#8%#V_Q@%cJLT09Zr$}-$NyHuDJkdX<HZlI
zG(JjLVia%p)1{e9;%>!HpN6dsYc%-h#6{?TYka<fX`PB<Zw6=0Cyx(OCngL1c+$D`
zyKmj6KZn^Wv>Um3Yki!GKWTn5ZkQ79z2H{l3gd>X^#8UjVOA#BjozHfIdhd~ch;w<
zw%&_wX<tMa_u8DPIGUmCe=5fCmdAsxi*8KeJ!V2XlD14dAiB7hWt~{AN<rxL$p=JZ
z{h8*!Np+9EaYXaM%%w%^rPlR7vkWO*S)UkSdhX`in{1yR&3Np5mhVV^(79Rdiykdu
z3@KQ^ztdLl%h94E^7o(Qv1-q^cYE5`-gjbh_8$8XCjl)pk4U9St6W;_XO-8lS;tV-
zqxN?4!CgXXjhea9Atg&Smz{Co*ZO~>ep~Otw^p3rooDOR$7c4Qx4#oS&1=W0uP1^(
zai4A79a8Pkzx}ta@M7O}Wykt{Nc$eyex=#tP8xIm;q){f=GV?*1yz&H{&-n99`3c9
zBfil_>xss;bC(P`*Pl6l{Li)HK}q@THOliYp76^&W~S0)H(mKomezuDh9YSW=CgAy
zGCa-x*X1jEOXPRQ5$0LSv-UW-DlA+4`QMJ6ydt{<+0)b<U!2~|oMHKcPuN~7s(s<M
za~t30UHlucd1dlM&=^=rg;YjX+Un(n$-!^6H(kxwoaa}$&cFSw?TSx)85!>+0(h^n
zuPf5^X8dFS=I`xIs_sQ99sACQzuBJXfBhcM{x){kbIhNbPM3(5@dg~tTd;KL|Nr`a
zD`xH7U3p|vD~s02hn9y#)F!f~WL5pRs+W}&yX4{ac@5>2O#igD@8xpZ?_B&mfBzqq
zV>Od%*L1N4aPxPo{+#cBVE;|w5C7KR|0BsMx-DPSbcucq=fAV_89p!7P%><~IV-qI
zfWL%M^L9<0c5~bF=#PI-FF*hP7xTJ3`R5Ox$avs>XWg&pbJw5hzqhyD&3~T#<?-pi
z>i>S3KHvWD<B!hwZg~Is;C-n5|I<9Jf3x+t&i!1TUuQLcbH1H|?Js_2uZd6h@A(sa
z<KOZ5bsqIx{~!B*oWJj({eI5+Uy6_aKfeCc|7HCj@jtI_|C+YW@N)fS|9$VcJ34Cr
zJv?4tY3YCJyG{T7|9@j<+wX08T(H>cJVX7T-^cCi-R8bHE^l{H>Gym4x_?hu4X@fW
zf8J?yZ~s~01&&EOpFg$T@ke^b$D$gWrN2&dJiJi<S;(yB+;RWw_0IJVT3>R9|NO|b
zqENw%@z>AGU+=$2ZecUsfAe`D<N4O3^64KwJT~86zqp>G_iWwj=S@t9UjAI5cmDYM
zb^qJyCNk_=)bRi3tG~bZRJ~F8zx3Vt`h8U(escqV+}_i(r~mVe+uISYKks~8CHMcM
z?0>ZE|9!r?dw<ohD|7$<*mU4qv-*P?uN!`%`X^pjzCUgM;n0Iym4_>9s(=39v!|`-
zSKEBM`tO(1tLLq6u&+JtF5Dn+k^R#8rr)(OjPY@wZ+~-bQ1|nVXPR;ElQ>hGlsrQl
z_XF?B?EeA}a$COU{?Bz-wuI^T+`2ys4fj9F7li05ugQPN?XJNaU;laX<>)^_4%_(u
zFdg_ZyW!d-L+KBpWly;zK2NXN^h8Xe?$=pMo&2ZWc0X_DN&Wq%UVl)_o^em^?7!UR
z-?qo^Iu*ZbqwN89<v*Khf4rTZKU-h!q4NRu?Pv4*Kgj?8IA3f{)CP|IUNe4_-&j|E
zVEw1$jr`XO_x}HzZ|~g8UG{ndqhIqkX@e^Jzh8KrZr<-y+ra$8y2mHm>zDGM!*0*^
z-<J6oEjef3-kJWw#r56wUZ2jl|4RBlkL~&XJvHC!_y5^$U;ppv{`!CK@@;JEe?NQr
zzwZCXJAwaMK7WXryT9)LVf+7IpUcO|9_YXCT=Q&t{m#5?^?x5emp`}v`B{x~saq_p
zPgSmO?f&+6|Kfuy?a%4I+W+gH_lwGY-gA0PLfd|+#Vo!qbnnyj5aSqK_KyE^9q#@)
zyFAeIK)?m3f8Uw4cIv-~aN^5PdfPtb-o6gIPZAqeNDDpU)OdXB_U-(w^D9|a6yK0O
zyXV-Cu+*5Xd*9Y4v|Qs>@R_>hQ8vfVx81*T?EgFws9vFS)V#Oo?aN8l|BDWMuGN>_
z(7OG=hb!4S`5(Psl!zbLU;AH}u~cXM&ONd+i7S?y{$Lkpow?`=<Lob&EbcD*^DWx8
zQI7H7hv(;6&d7e4<J@O9r*FpXu&<m7ey7-rgZh3<`|5mJb@tcP1}~r2k}s|c8!Y>G
zGX9F!cdPdLe{GDHHqKkVUBw{xv(+*i`G?Q<GY8zBv%k$M!K-?8{ex{6{okekd}=XQ
zx|3&lG2i|c@vjxPdp6JMH&30t<x6U;_&f_c{T&I-J+J@#_;GDt%bITr26eY?ES_0=
zIzKSs)3<5=4{ZB+y#CMf-nC|CUu_N^JfN?^^{bs>|0(|Ya-XlCum3CUlhd-PUhZM+
z;+b5_l$!Ql(WvG4F>%tC`7S?1rnD&5RYe{A(SPLM<<tE4=k0$x-G1V?g(*{xHyA9c
z|M62Ma(aV(A&bn~u$yt>O$YQd692{j|M|7`(Dd-RS6*{mx3~JYz-n&%f}6jq#Ztdb
zwAp^W+|TyGCjRr8Vol8dFKZ<2urFKxa8H{Ye<EkkcX6+En!OMA*d%RlkGU^*Jn?`1
z^P&~;)h!Gn6H^N^_X#CjUmf-}?b4nTOJB*oJi5{5f54B+TjyM1`u9uucFzCr#qQp-
zixj)({<|>WRZuEs;pZv!Zt1RHO8=_ls>L4oykl<iPwiQ6J!J2ge=`3wx!~TpdO_9i
zRr9w0U^0Ar|HqSgDZljf<@Y&WU;SPF{M>cE3j5sGetDVp^~#lY`6ugJ`=2ru?fbC%
ze181D13&lH|NZjt&e{9_-o9=5_kR9=QO&ma)G~)1MGT?gRTIwZ^|ssn`FlIx{{NSy
zr%syIy{(nFY5Hciz5moV`Z@3av3ywV=F0G+HE`ndgB|skEo0LB4|_i^{4>2<SvUAE
zfBy%4k1bDhKZVCz9Fo7zbLqEu30EDT#0!tP+u7GX`2PN1KxzZ4O@H05BmBw<Hu6&*
zn^^p}NU%Ep@;d`h%CCp^=0|?V_kH?yG&MrZp!|Rl<9A`LH&5SgX^Z|X6u})Kvf+X&
zTfz;;!!6BXoE86eUERKX**4ZSvITXYer{C1vT?3LqI-($WQG67A~%)Zw)vr0?-%CQ
zrdHPa-1`6jix+>3nr4Vvf4RQ=`jh=1FDB3D?A`R|$4~yN7uLA@3-=dIvp;&d^3MN*
zi_7~yL>nL4peQNvD3j-(;DI&w)=DN$nY?MQ>$R`-2Q&U3IQFmT!1_;*|6etKdbpDR
zuX{zXUCmo_R(Z4gQ$9Sk{=lb^e~MFL!^WqaE1oayQh&gom&2MOv;F>!*6IHbet*i%
zWd7ZpwV}2p@wsu83ad`f6C2sLe|;?(zyEwCTjAb!==zem?>%lP*Vk6~U)_Im_N9H>
zve^#I?*3rP@c+9>+5e|cXZP=~&yPNE{)KW$)Zzcq)86m*xw*7Hr)9p~|34p>%m3?=
zejXq8z5VRft1a`NJvRoq)%@9q@AftS8=nQNzn$I?|MYnNnTPM!cm3-(YQHR2&GsX-
z?$0rqfB&35{MRVXh}Dz-u=>xBUdum!x4!=$`0T^%eER~v_v$b2SM$~HS9wrB#d1s9
zEPkk_y2fe$HHtfGJ1oC^fB13h^A9)D?ni&I{qvB&E7O*R<+s(JD-S}y)PH?>c)tP9
z@81lOI~iuS?*H>Qzvbu8&pXe|zxTgMKqYHQ{jZO)N2CL<{n4wxD&GHLz5Ktgt9w4|
z|Nr5+zkdDir|Z}J6=MtFkFCF1G5^d%|NkF2Obc>XcuJgjIis%P|I2*)KiXeR_VfP#
z99+Ts`~R=!@9qA6o&W#SUHkeUFF$Xe|Njr?%BK2#jE|J#J|_PEe7hiL|DVt14>|1r
ze?I>(WB$LN>kG5%f5yj7`^@cL@$<?2|9|a&{_@=Jzpw6*eLdgOf7|tcUSL=L(k)$g
zpP$>J=}kQMggd9?_y2x){QUfSr~DilhqB%)H61xm4G-?;{oz07mi@_?e=l1n|6DG9
z?pb}}yX!f-!r9+{I(Z`U?+5L5R}A;uzn${+|Bsga-&lXY`#-Tq>S&na?JwWu1Ka<7
zy3W@5ZMt~gtp9%>{*8BkC^&!51v7bp&xa-$KP?jZ@ZYk}XVUHC@%#G!|Ng!I|5IsJ
zk&E+JZ#u{H<6(CHhuiB74;6o|{robXRp9FP=jrTQ{M7C+D9`l#ce=UvDbv3{k&K6V
z1@0*S)Zfn@aP=?~N3FQSpV&|Fb^HohF8&90++~~?KmGrwY6iph`*m+E|9s0n|8RSJ
zHQ)ZfT*W_x-_CF_)9B+U@Lcrcr+bmShpnx><bP=&<3ITuv_4e-`d`N&!LCsM_$T`l
z{=cy;TJ^vB9xxpE|L^+ew=WxJtYmM<WGFIuex9$#L94FJA&2c>>+|)$?d2JsrM5^&
zG8hPPckFz#|JeJ-C4c@rRz6_F@U-~fIeUw`wToYU?h0j(_;1V4@S5SzZU6eGd%jdo
zns5K<KBGv(jNqPW!5=Okw!HIPX5N0uO70%6#R41TEv5eK(s#Shc#h-tr;`%AcHKU=
zKVSdheWK9fzvlnH?mzEG9GJhanx$ff>rd<YZ@NwP4fRFc1z%HFf4TozLV$PsFZE=X
z=kiB9c9@=<|KsbXgFD?z<K**Z8~Agn&7NQNFR?G6{;qrb&g4fC;wKsR%$f4pJTcLr
z|L^7x`y-1wSgpdvy48MvylBVs+VdcXUDExR>lt;P|6c!CpJl<B@A~}=&pls07hZf|
z{qL+~mD(+j>;D(&c9?DF&Ht~`knH{9+X0OqKdZJq{r<<|fc!l(S%LkW^%J-kaUVW^
zwZ4D;U!K#8EVuizKba_X{knegqe}i)Vw3j%czmOqKY#Yu$<GT9$6qkFKEH8Z-#_t$
zLb-cp%mMD#p8JWtJZ@Oe@aDR>_<O^Iy*(eM7nZ#Zd~?3R)|0#X<UO<Gz;pNS<WH>I
z@}ZsK*82nh-v5sO@L}7_2BVincYf{L+}-r|rhde_KgkD@BcFaeX|vz{TzBYtqa5*@
ze)ZwX4-V!UGkgtuDJ?$vU!Z<t|1X{|`?uV8;?JMW$DvRYG=Fv7I>tNVP5=LjTR!g3
ze`Da!WtSVXVwd>aM_&XV&5zk}T>OoV=HGd*-Sg(;-aW&zvHWTBfgHP^;;{{thF^Sr
zE+3vVr*5%5gU;!v7ru)>TWKHh_vf2>!G_&)KQnC5E56}=Fn7`Pta`@z|2BMo*uFlu
zw)V%ZYuCwRY>&VF>({sJ==l3}xvyW}1{wBy>)Q4C`?r1l`u6&^ef$32x^|tgBCTuJ
zzt3MfiBZMD`_s?nUGJF%e#Uy6{8%J)F}=Z~?ADs!@@WZu{%i}cfAaiy(f^rD)THy_
zGo2@^{I@F3Fgo`Cg3P}ky_f9IpZ|B-{Qln`KcCD0`!{{MeVFeihDV$C|Nd=mzwiH_
z!~OH)FaQ7fYx;Nj`~QFa{e8av@4wmmYwL9XKYzVk{@DLNLJl=$KZ5^W{<r+w^2h#)
zHJ_IY{1>@2-^uR(``Oq1=iApg&wPBn;NNZGIsYHm|M?UZFVEyQ^Y~}3pZ})Y?|=3_
z-u~aGkLTal|NZm${=etj|G)lQUvv2X&+YT;EDGy?d^Fv^@Bfd2DW_%TRe!uLU-##S
z`|^B-e}7K*Kc4KH^oE~l(Wg)EcO1I8w$nWI&+^anKkl~^dHO@PA++3_!G50qweQbc
zza>{z+UMWff6pXzKTE;&ySfcupZ=Z^fA8~qxo0dce2yCbpa1Xw|Mff5U515;A8cEf
z{a-)jw0*67{JsAdROYSz^IU$0<+N{ov8j(;d)5B!s=fI%INTxA_eQq+V?%ED%hMS*
zaU5k(`}bzA=r;p*j?}CAiVbhI6Q223E&9=)YnIp0bW8rnlSA`k`DGr-E3sCCOyIc8
z74b88$w$8l&d#g`iyuutn;6Gf{_jd)>jhnoKfk!2Z&=gNYhQYsrDN{vMJ<0?i!0VN
zu-CuZ#%U>iK!48R(v};piB}BROD0?lP4oKY{j4B1wL_`pLaBoW%cW>XN9%{)47a%?
zRFe}Osy43*+s|XLuA$TZH%Gt4t<2W9r^TLf%}`BNT+DUbj`6T~UxDpu4O#p8toY3W
zeHTyaEwSIS(Xz+NjpJ_LyiNM?J5EjazxQ)<zd)0e>>uuM%Q(B8AJgTh9?7qpvLgM5
z(SZ$2a(`BG3oeYk!f5&9KHDA{TONzNE&mvWzF(}+d!{d)7|}1sR`c)8)qgwkL%rJS
zzrNp}pr~5(FQiaR@8*lbu>U8XGF+WG!=jzxWxvSNihmcBSsN#RR?m}Y_~PER|DSVz
zh|Zr*_b!EB9uKeAznR!I)xPjH!xH<TKVRjmmTd4pH^0K2qlm|Hp8XFG$3-vxtXwSB
zf2H02k4IwU`T4767|X5Xum3U8OS=BmHc5!Y!i2YfZZiH>{`!#LK4^#Q`T1TuD<{78
zp0(`n#@E`a|F$UXU3*);dP&eTf14nNm;G0^*Z-J!Xw$Mw?xu1p^Z$QPo~l)!b=b}>
zC}<j&<97QZ`DJtMe{=j+{`ywFZb^arQZu(3@?dqXic6DwR@n#L|M$>cEC0_*ZpD6)
zrQzrA|7h2X*yHlt-zMn(EcaKp@Bj7q`{!>uXL10~?>#D^{R^ffZgn<!*PSdSY@nr(
zT=4ws?PAa8`lnB4CkQU-;_tHf`s00f&UF?at`%=P3=4m;FM4xW-hFjaSMJ{ZU;0=6
zR7?nSFzvc+H%mg6>BqlI?)Uj57fL-ev|-WV(m2d@BlM9_ON8|T1(v=K#|@c}e-qg7
z&2?e1nAfX${u<TnBF6J}*PTo3c&Vsx?5|_^&*n9owq-Oi{$~&W*}U#k`_5DHZ?tCr
zZxfug|3c(b{#~c!pJ~<aSof*DbgI2gEKFd->NWL;1)s^hihr@@6MO7a{^F_jH$u(+
zug#bKbGP4q=Qr1drN&`Dn`2XFZaI**(%$b+YD@jUhsXb${S$w+Z|$}dpPUc*d2?n>
zI2ZG&|3ldu^8-H)>X-b^b?|tu+ra;?<1gd9m7#J!XEi)kR5<rQo>@ohTqWb3^~FD)
zHuT#|PJ6jaL!fnok=W^e!OYo=KUoceY`<<gH9t(UyI$nOLHUjLzkckOef+*5lyUw1
zKhh1gfA05vjAvYbJ8jMset-W{XB_`r)9Ro6X@ki7?Tq=W|2*i|ng8e0rWcxb#E;%>
z-_N;X*N*Fg%k24nB(ywS`{$$JJAQvIn{)q@IRsb&xmJ90G6|o#GwmApqfg09$M`bN
z{jVz8|KhmSp&v%_&+MG;I;B-!Z><DzQ`KM9&E05kaH!?_l^FA9iwxQ;Z0r0Pjde78
zpML6prGMMo{FKiDo7#hm1TL&8`kxx3vvKvFP0TZnab$|NRq%Y~P5!B&k=nBOaPrJY
zoHMQqvPHRkw%qal@bQx;IU}qR{{Kz=b1^1vUq!j!fm@8K|AarupYB_?Iz~X_-L~4O
zHJ@GzeqlM19Qv?yD(8x2R%YA&1-i7(_}jkk>x_=K<_y8?Z!XV|-%`+JY9ACJ(sw^d
zJ;HvclG@7KJjEGPX8zVM?XRC;`!9OF4TJp&M}zM!|5Ib$T)6)$h1tUIZTrsS_GfJW
zIez<LeBch_)x5RIEy?|_UH`RS4}aP4{q<_O_`1n!yEiGzF4$Ikzg_;B-5-PR58L%`
zx3h$#FM5BNzgWI*#&3c6|E%3k2mbxOz32Po?rRHsb$_niu6o_|W;Gkj{{P>_p9)V9
z-4k)NYR)r>MclUwqihT2IaPZHemNW<vj5NH^*h|2{Et&{yvBIH{@26Z{}--zwy4*x
z+hF?SZTKhW|J&`In2tR)&+lJY&!4c1$*$?2(}DT+b)VC78$0jI6t#K%wEu9DWlyb9
zU1`gQcE<TNMs-(<B>R8mGx=#67v4(eoAdvZsZ2hP+OfB5ADuh<Q<p)m`1hpm+jF*m
z@8?dK@-8g=z_)7;4$g0|&TEsoujN<B&ht&^_YMZNmy=6bZP*!u&D*wjWE|y`=wHh`
zEi|y6^-R*@dyJLx$9_y(%plfwue8OxyyrXXh7&UD-rC1G*RE#&9Gah#GwE=&>x)>1
z%eOz(tS^q(>Ux)T!yZ@9hP|Q|HyC)5`Oep8ir4&o5?kFH%kVjx`%L)U-SZqz7f=1o
z5nRn}moV9K53`)aP0kqw#pyXmZZLk|e$*@G`G*N%Y2^okX1H8&y?O6enAL-i*K*{N
zB^8hLEz1Z$@MW7}ZS@{imlNmx?>WsW-XU>JTOrAI{vlq2Q@Yi9UZ*~tbT=#BQKA}Q
zCt3ft|4YaE2G-Rw2LGoj_dH&*<V)CF?~OUqdt7d`ONoV6TAoRClAhHe##!{mti^|Q
z!#>@@RiXx`?e;J&+s<6A`|R`iQ`>HSH)3r5`=pew`^{nPgc|Dyo^u;G|Jyv@FfF(4
zQ(Wu;t=}IQ6~vhT2G2;dD)*9VD9oL^S?`qI?+^b@3VMA|f56sn`#S!Dd0E+d{Xe1d
z`?>kuW|Yr7%&T^?QhrO)x5OK<4s)iwf7BeBR`5wivHt<*j^l;3bE{9-p8laPZ-3Xl
z;-BQ43B@heXLfz&^iVwe`m}uF6?50a&u3+`JUAFqSmoV5XNuLgM4M~Nv`*Xg{8|>n
zc>Z*PJ&OS6zT&Cby22km*hk)<@|&Z0ih9E><>w!JIXue`Jj;8tBL9@^glWGl4|VAl
zy_-^D^7-Vu*-f2?>|z+><NP1@oy^&?-LvT6H510a($eK3?+#ll1n*Q|u%^gDeEIvs
z5%;_PpWK}@TRWjzdk4cge>;KN!^)!U5B8aTk7O(iI`{j7ozu>J0xaunsw`((u6cK{
zdH0u(pBD?}SxnurZ<fuMwSAlS>~;O_yYTYYpLT~nPviges#Pt$^4;Oj+iu?VKlZkB
zUSGL`<>}|g+&1t`Z@z1Gw022BTSk}18n+73J-JGU_-8mXBqbj=vaj^~uH(*cJ!RPm
z-VKR@eg~TT?ehO7-!ao%W4rL0V4A6`Uc>V_rj}LKa>s-XS`Xj3agtRht7}KYTG7nJ
zEjQH<#KoV!=<GLl*$LSV9jwv^JuJ_Ens!$GcfUx{t7~?5L_h2ausn2G<j%}8`~IYP
z$}wklmImI+k}q?((f+CDTJMpD?RV=o<=<9Vp7-{!<sqNn8|G~9Tk~n#R(-~nxgY-t
zd}y$(h|`f=F5GP-|7)%Jk*W<E9&@69Z(t6KZ0S&o-=wj2hQFQ81FJ(jZneu6h?`5j
zH@egPdC8KUr<RL9xM%hw_L|+C21&KsJ5S|Q@$`s2-@WI|!(S&WxALneJT$I~i{DZD
z;Z<vHUqN~7<~4O*%T>%-ZQR?wT0P&ea4&CP+`8gq_V2OhUM-Jd{GHp(mp*ZIjPs1{
zO+RnD{hea1uzBkZvqL8<xgYy_zU(|W^Q!+&rnc>FQg`&`S0yb;%6oJ8Yw)IDn&Ag7
ziyTz6a`&j03@gYk<}?59tNCjA9Y*bNN##2!w|)Fy&2j#|?VxOHc_r%;Xa9VW?LBj*
zD9=<^*rm>zrg`t_Zw~&v*`L358y%W*Tx-7fJLY9q?cVUdIhWgfoHKprsYP#YerB3h
z8}TVi-tWNL6Os2mMi(TDKK_yN-B&YpE5EhEy~lGKB)2KZ?J~%FbNRuS@SW?vEo9Uw
zvb?bPQ1F~XEN9*+hkm<i_om@_;n^f1V}q04R%cyr{&CG*U0czUdwEe$!Fi^NCErxj
zC5?069_Fjao9;XJxHCht!S4;bx`Vb~wVR{7CX&Z*-h|IZ9lK4R$Jn!8l*^VcI}n>Q
zYsJR);+8p0d9}Iga+`JY-yZ&XvgWNpd*HhDWju@j-eGzdc`PO3cR}BTo9gEtDt>=B
z@j1t0{uy66FW7CEohN<wf?;>>UY%1ff9N{(oW9sR_q6&0rWN^|&nEo-u%|%%!Oo<0
zo;{QQe>})>p4;>!hqT}Gof~YrSad#m?%?l#|J(V%+;hq@1wCJ6uG}*(JGuJnRvFu#
zx&8-uKR9GGT%VpZyY`68IsbG2IQVOs^ct3HZVImqo*>uYY4PT;(7c!p*8ZoI9iskM
z1XtXSuwT05s&p)4Wsn@>sog!>RZbj}TgLJ1!d{t#7k_`eRz5Jd`{EZnounh&36YP@
zPTSqNEOh)@-qIWGTf3faNc^v;HQ~2$)H&S;d2ej>3v-xnblH57ba?J@dPnZ5%E(>r
z`TE{6)eQ44PdTFU?A5&Do5vPi`4RTlat&BC-*d9-%3tSe&m{V0&q%#_<M+NB?TUSZ
zd9#n~Q?V+_n_pOab<?qZ*DQ0oYb_YgKVG$PRZDO0P8q>-yX<e99Z!<yJD{>&#%+b;
z*5oHl6C{e?9^R(=?V*uV<dl%Fi)6ng+InbL*|h8Ge0#{iv+2E`!ltK*QvJU_{CV;!
ziceSX+d~E$UcWPvK7wH#2~*i0{Cu#ZUu2Fzvb>bTv%m+-bBb7!JwH#L{QAd(hX&sg
z%f$s&Wx0k)n#*iEEB1_|{QI`d)Q$Xy&#<<{-cKzpJ{|G2HoA9ds{FQHH`<v$Y-ukk
zJ-zPXv}^X2{MpOjl(zg%l9xI#Mdi@RRlG;!j%mG5Jo{r!L+(a?UIqCI7L~~=yH9bj
z%xyURb?dvs$s764%832ae7ZKnPvPC;$*sNLDq4<jyV0K3qWD@%d5O?Q{o@?xzaO~U
z?jG^R+4#_vCp_<Gt;jsgedG1yg8PEvzY7>%y%qX6&E({~-u8biIsep`AGI@4ev;ju
zdpP67PnIi&hyHfvGE1KYIke`*VhcMS(K+*F+AYhO-u+Xbe$>unzRczuW;_$-E6>?^
zQTW3L_lWE1Tb?sLIA_{f5Z0UiJ}vpTBGaAs-z2v-xL!IKnv`Jp_Os6KZM?_+fl_Pr
zg!G>=cb$_q7P1`kKk#5)>YVl8+Z&dC`K$ggy*S9szV3v^;;kF2^%&arsjVqgoU5#p
zJoTeTWwAs-c9isP=40kYm;Da3?R4J0!y<0)Gj~^}e^-vPE8FC+aDG-`|3pXrcg6JA
zS(a-WGPiD2e{k%8g{Gv@^p`Uly4P<%ml&7(hBIPP%$oMN4RcQaJNfP+H^+ep>DxU9
zUX!vfGgQtp|Msk%W5%qlX5Y?)ZJG7uMeZgG<&#^R7e8Qnx4PGskzYuCmEB^;ID1B)
z^I}Wantk)pGtla>Yu&APj^q2>2JZ8TciWHe+E|@nld&SsR^!d#of;?4>rduRHZNm$
zF<JHL)~%&>*N^PW`XKv(LHftz+!hnpAJgWP1y0M(Nz*>{uKiu4?5}?U8{U07S+q=0
zcBOE^$yvJ6(&1a~-ViQGw)?r~*Jhc$vtIp4F@Ga7WAXoYd>x<l(=Bt0UM~^czS6^e
zS3~OE8?qm2mhkP|*soO6Zj-d(dE_^9Gl4h9-Zi*ZWbNQzoHP5vvD%ImJGpnPm#${|
z^#0J%St%{K0oLbEFRVP5+z_p~eqO|e-w`5mJ3rU<&32jbDDBVFRKD;7i}zP)Cj?6!
z$}ANzy?0zV;9T_e>Lo8y>uU@S6|cVNVgLPu8o%9tO~dwA?4`~;f3HR}`tNV~_i^39
zp5kQw`1dS#?u7SS{^IYqn|YIK#<88N*4}lGSQ2$mGI3IGZM?{`E9bxObmQFqrkzvp
z&AiVNNz;1wGCkThafY^$ov+X1iEAsWZa>(4&%Ryy!OxyeHWCL-410e@_58lD?vqvf
zhZpw8*_H2PCMcaz?VM%x>;uc4yXhvY-1Ao%mEOLP*%BM^bn@+sYxM<AzLC+BwqE64
z&$>pajP3OL&igX%C48Mh^?X+s?`N8~tRPru%C7C2y$jy$%)N73ai#nJgqFZ_Mn@0$
zeK+&@<XLUh?rHnWI^ot+JC&u(fxD9IZt_|O+p<Xi=G*an!Ldm>Z%lG>1S;<I@^-&?
z?%&T)Jb|a;u6e2cHqIR_bL-<6Hs87NJ@>GdxXpZ5rpeVtB8#8dF|IUL2|cm=_{Pnj
zcxUg^-I2k5KCwR9<Kk&MpSg;aj6SoPZ?*0y)_Wtyo=~g(u6Bl%^CzZ?sGNfQjr==L
zE$^MlepJJ@@@r7KM;t@qzLV<ay+`Gm4|ASAxmPAA-Q%8H#Ltt@Cvwj|mpHfh1)Ivu
z&#7#G%-W}(Pn+m}e9Ku8p*Jbw1}9jn<sUj8DBfz`dFk!pZH)gfn7V!ta`bv<*Ulbq
z+w#|>#H#qq@l!^z+kCIpoDwa#EMhey^V7-79O+LDcLkN^f2yru*m1Cj+biS9Y@?18
z50NUx;A25`f9&EI;~x~H*)f(*o-E{6q8Gm@O*<jhW8qx33Oz1cJ{j9zXWLz7q}<NQ
zW~*Th>Ho)7F)M%fog2M78$Mq=^|#6P?5(@=oxi?V-?02?*V@8)PusF}9!Ba4Ur;sq
zq*_(ap<%QB@-L?uVmD8x^v%n^ZQ%a@;YIb!9!-yfQ(AQ8iur2U=UD#o<TCA6T39_p
z#hTHzscC+VmHs>712TVAT4(t$TYPxN^d%Ek%{_ef>-287&iBeXk#pSaSWm29cJN)d
zo%5ulAJujm#2NoNsl@hNv3N$?XO7L+?zNw`)3N<r!JN{>=D5{4yz++GiHkqy-!bkN
zKTxsna8k0dz|2W1>wa_mJ-zUachNzHu%}z{Z~Ru+AXB=o=+lXlHQK&Ki44nxJ??Z>
zd2BM3Nqu+t)hwl@>2mTt1<!>8Jm=ee|8%Bdy1IGU-DyvnBp13kcG)dH{<1^*)~k2(
zQlGs@FFLsHlUlylvN!xrZOk7c6;>QOsv;*RG->stA0FSn?b+!*MM6gJy2#2*!%p^u
zpvgb(9Nx3<+)f$Cp5m#oZ7P-x$5iARBF~z;bhlopIFnnv#_)#d1|7AHj5>GBTsMh4
z(CPi5IFCVpr$bqvVdq(yO9s~N5mP<Pih~|{_WB>-GgaHjxJGI}-|h(?w@u{c@UP%w
ze4X#}h_NCrI+S5%6#LOMJH}kz%{pp^#b4&XZ<sxAO7XvwMz-g_7~DFTS}LA;U1MY5
z$%p-mu3f9Vo#Uml`uFL_x6^L6?{@24-w--OB5}Hdz>V6}oY|kA*xfPps$o5nc){|`
znJq8w-q2p)*7?4{aq;1~Gp}u{oj2vhz4qNMo%?q(U(<?nI5w5@UT~^w{KU;~qBiW_
z@Xp?bY0Bd1o98^`-R{R;Qv4-R{k7d4w+>gq;3pYQrP&oPSOw-S<vuZ4C{Njj-}y?Y
z-IK|ltnV81_@_x;y<D`TS3qxO)fY!g?;8(fFZ9d53!48afp4*0P@sOqzVpc~dI`6u
z&AC!hb70jZ|8pj;vpVG;{n+tvpV+iHR~TH*F0NV}sMkI-#zE(nd}2&d5Zi|YzExeh
zyoc>2UZ1XC5*1Yx#1^2#{$Zmz)4Qv)ir0O<p?7WiKeqx4{<~%$Y$7VAswEVzU0=3w
zpOu2ogKtXJ5nb1VjMO$pM+@FM`pZZ;=TYyaV|IHtPT^gUU%R#Y>(&3yiUoJ%3TzTO
zuvgMP)$;UfnYcCU?VL<+ebiGfX!^8E@ORhj^Al43oQ#T>HJF>%8o|fIYw*pOq1nGw
zdH?mOc-ajvHdopecya|s-ZM$!dskZ#vt~VC#Vn<rt9oOXa%E0?5)<U1ov_~j=gdU{
ze;M6RZ1D`(o>6(%ZbjY+lO2pF7hhi<!{8s^KYvEcoH^$$Wq+ooY`pvX!;7z)<_?mA
zs~&zh>0uU;e3JdmSIzDI%O;lS`5l~h`l!U56Rj10oPTizaTT)W+%a3RVB(~=CdzX>
z?(9|$dHtGi$K)KLmPc)qp1ur|@h=Mc5gf!-INMq3<@2Qt^@~1aZCADYr!F6CbBd{H
zW_0S-#aBF2qxbJ=S*4Tk#<EH||FHb?pZ=RpnY`ZQtM|a}%btcC#b3%D65|xUbqUV%
zcij4YVR`M*d5iZm&3j)s^>z2g_L$b-JMJ@VPb+?t`767jYr>bz$1YP6I)raB^1rw1
zv30L!v=MJk^|gIGIWhb8?PIsw&#b-anwi`Zbc}`j+k-_<93Qu<KRvonf_-bZ5#!9Q
zM`!azOQ%<gWC#2_Ap3Bio)^1~xN?X1hD1ZZ14R<t+bYb>7T<l(&lqXasc=beyYKAZ
z8`c)iE)DD}4Sc4azAI_L`qQ2>pQM~=E}teDyzN@}|K89hafzOD4^<ow#((ZIP1+F=
zFZ;o!$dhT(nF(_mj(?e6ZhuGo@X=qd8lGF1xZJ(b`#mxH*y8(lCkyFa3uo_<+Tw7+
zMBsyj^zW>Ldfh@{*Zy|+H%CZ6)j4dQ##=G7A&*gE=g&3^Lx#y`WdFU<TXw>(C`e=K
z=jR2fcli%oo|dS!*@M;BP4Z8~6m=zOlZbor3|VtU*qBd?`X5LXOZALcU%X?}yR+)u
zmf=VI9d{O*&VN&6ksJ~Eoq0osYw6YB0&mPVYn=T1WXGm=yb8AJ(_A`Qj+#X*<FNkS
zp#8dz;o4`}bxAr0-P<qjyQ*(_x)5Y(Y|zUMxf?d0^Vf4eq!bgua@wxv)UN$mGn=NV
zN`C07KlDp#8uLBY^QPT_k>A4|3Y^OfpEt?uwPAMjSMpv{^zTPP%k!gBWpfW7x~;Y?
zw{DZPl7ivOzkENs{xojjc+v3KS5nQ;S(UBe=8Zt@o$uzK;XT{azo+V8+=jd}jVZI-
znKpmyofTv9dX?8NiC~r8$AU!q{~eSuo7ba|XlEC6jJtq4F6q{_+~lUrOw(yjCgN+n
zy%%tG-Zh)sv@f$x(y-m<cG_(9)bGM3XEJN{^b4#$W6l!&?g2;oT#;?PyEQb|-d@K1
zXo*bL?Gx(H1J^X(K4#pReCqYKnZ-N8Wfd76pBRd-dCj^Z>3W{Du#v9NszqBTIi51^
z-c)VaenMvNO|#-al}#+)%>+K&=wW?5>0{FR#n<PA=!aL`{j%#;D|`3kO|xIG{&{<u
z?#eTa5>I#@Pf6V<GwH5b9-GZKt6$m)A<KT~O>ME9xoO$z=#30up-UTzg(IaHZdt~>
zFg(5Ji`6gpVu=iSwW*6cPv+!IKPJDl&n|}XeC>=7UB#Ci{V8@gQ#ZRjdy%enS%>SY
zl4Rh`3`?Ew3%%_+E%jHPF?32zn($P{@=$Jyw!*>(>pm^*vwOPn)WT>!*SNg~UW$)e
zoA$jq>@EA3!DrTS?I3+twL=|S4ln+0U%7U%d_&~Z^aqY_UtPT2vQ_*@$8@V-j1^3(
z8}|hX9WeN&Xp(j3_3I$_{AU|93Ku1~3a*k8)9LVeXSe6dMScg4;ttJC;v4t9x?y%g
zYS*`iOZ)Ei1b8fXK2iDnLxBh9eiw;WJOYb#nLG%T6;hQep3xOAD^o4I_tdIoejn`m
zXSq$wc=Bw`mxFb;cjURQ2Ne!|eaH4`{AyZpVow5pJevwAtRB3)9a{OKUu~Q3?9M~a
z#1|clbFXJTQmqsC$gNjF_q$A>;CH(>rC+}LPt%Tny>vl<#iJVxU+g1azj)sr)SM&z
ztiVX3sq~)NS$3NgdAo>IE33dwVjE=K5@f2x-p#)B`o;Q&=NBKl^$8W8_t^DKTAIhR
zyk&3SKf6O$78gf~Ej=^&Q;VQTwd`L}0}Xf0jtxm|2VR=Fzj(%!w0`ma`b`>h4}8dp
znPQ~$c7jP!zg!=4RP;Uf9mYCb&vrz_r~Wwoq4e(W4bx0r3@qR76qah1*(-L&c-Icm
z(~;}``tD>1TY34g=Ix^qS=A=#H*1-)>Vx$fHfV0$#x%eDo>^&{_Pmsu6E=1A3@bKm
zeIlgJ7{fG4&bK?$Ra$9AvBvLr7Y<ltyeaIvaP?hxHArXV;~VWRcg~0UO+Nh7rLgIf
znwd+2TLkNb!ozpIYzpu{wLf9z;{Sg#T1uxE39ZYsYw^9n7#qdpeJ7_Qp)cUoqI0rM
zvv;u+%P+FJRU7=x^z)7NON-^F`F+UC>UvVU?vs#e9OLyfj~VWm8dl`VZ{<%mNEEv-
zeHSE@<D`4&qBhfx-a8tTV%{CQ2NIj}R3)jF_2T^34Rsv}@y7jWe8!P1TEQGIFRs)U
zs@*t!$NHJa87tNmUD>3@Rh_r!^v%lne|9<9&k7mRIO8U)zMOG;%1NWO`*ebGvY%b-
z+3;29sPCcL#CvA`9QQUJ{o3?)&bQ*-IZoaR0#3^=A6u9Gt?XvI?ppC2cAGCvx<#iM
z3eF^U`F~41{hC#K|HP{WTlRIWE4q}z%((gdk&d-%#B<nrlzw*Tyi+{5#bD}!RsN3Z
z(ud+U6!WcCi+-(Fd_yhS=GW0Zf8?qU&T?Y@b$o*RB#9hpcm6rL^|!ZtZJOJlw7noo
z;7l0HV!<i%H$+Oz*(knd<-Y}ASqtMhXXYjI72e*pn&<G*xDCP+EL|=L_r=;*PB9Ig
ze_3v0%eSVtA|(u-ciPTpzWe&+)pC>XO{ubf&BGnS6yLtOXJ+Wiw>q?R$8_f6FWUu!
z4mtUAiGCEAD?M>(jo`~z#?Ms;%MK`<tlP1j=heHQ<9FP5WO(RF|JHcTdYkdL^rr6Y
zV=CeMWeUFTn8sZE<-RRb%3=OHHv)T?2AX%xnX`N2%*E#7IqYYgtP*Rz6cc0|V_CM=
z9@rMQp}0lm-$9YiN!Pt+Gk)p6SE$o@=-scy-?niCm)|#Kv)+`}@wj>?L)>Y#zzl|)
zg-Q#ah4n1WRT2N>n*8T6lf*Qag-l8E%T%70MlL>bS^BJhO3P)j=`IUduN<g&ntPe&
z=!zJvo%h5KY!O-X%z&X^ZC#|4=l{Swnd>5#tlFKAX0Y-E)wV2O;2~2TWbO4$e&v>_
zcJ1K~Zr2KHCnmK#H#z_M^i|P?)BpZsC=j-v`F){U#<sHzRsACBCqx$UIe4(0STsSo
zX|K(z=?g=j)^Do%5`JKf=v9MBPnNt<ejL0?{>sxzqt+G7AGS!$s#xqfIVLqkajLqJ
z!j^Jh#Z{6EEBt1w?Ofns$e{mJ<+M!D>pHPTd<V3)is*j`K4N;iovSLdZbyG=lv>IB
z<vK#0dI?(%UdF42T(G~ncEhqelR5A5AMoW!(ck^dZFNnR{KD54mrs~}VXvg(&87OG
ztC~K(;<aDu@aqz*j`xc?hDF<ygeLUx%$brTcC<AAWzwt*wc^4}k64V8L!FlH*w^;S
zvvN|*f|*%P-_!V_rwGbbd@$}<TH9j!qxGlfmUoYHTPCpB$Elpx=~)o@A!z=WwF}m?
zaNfNg`i!G{#ouXfWgcpD^wpi1@=)pUuIqEubES=z2Ygu6v*2*f?7Mpt9-rDJ-{9!P
zq;cy2+i_=k-38(geF{_W&K6X&bMdU!d$K+GM8g#I#B`&#_wpN@fBbcIU4PDhUa!Ha
zcdvyuYw&}nLuQ7xXia*W(q($C_J!7m4{MLu?O}R!jE`vtcW}8_;IzZ$w}P*nd0fl4
z^te=(PD{<CHs-i_Cc>V3`{IIUTJj%gE|yq&N4VJHl&4qZQQm90i)S9UR!HTV5cNFr
z+@p8j+)q6{w=~YZp8bx*?3--u#=cuy)ORVZynZpB@!<;@78QYCKh9Y4?9&N)Rr=+-
zU|5Bp#`i0W!`XY~C-uKu^x&WYXZCK5_8OzNP7-qtM)0*iXZ^6=ob&a)$1g;0&23-O
z+C4+*_zHi`tKWlHL?mqY?H79N)G3pgdcHN|Tv49g{kBI%Ww(7C%8pgvbP*S0nU~R1
zcE8ED^sbrle5ZZluiU#^B0sJ9(!WpqfX;*8%nr444B8#H`O2snN(8R6oPKLp?lTVK
z-C67>I}b@qe^XT2^KN&~-R$jW=Qvjd=?AXr|8R0MTTT5ZJ#X3C8Uv?e9R`PDSJ`)c
z4USQ?){=-wKI!#K#M3B+^ZV1AM;88k@?^^6ES<9#YLB(K-TbJy^P<5#29amGSI@be
zrE^xpFg1Fi=LMCiH`9_AyvX+0RD9{TvxC@zN0a$AD>%)nqyM;SuHI<!e8TiY*^^et
zNSoZeG2Q;qE-CM{K!fu29G@44l!<>{r{5*b;dSPsbn;4OIU(7)x4&+*XZ$R6*q))W
zvG3pI#e$PIx0J}NzOuS!2fJZRuR`19m4|;`wq{J{nRey=b(NZkH-{s47I3oY{@$>{
zy`DAXDCY;+GEVE|nwu`ptN7w-`^#EEpSfp)XXcER|1|c==`8LAwYn=>w;23pHPKuz
z9V1vSzp3xvVOassYfcW8OPVIi_4;>J1_$n4uboi0SmJ25SgCi+hR;h__V4NQm)djj
zx7KAZM-Ka!9PYe7wnikgu6e!sy7HV=$NsMp*U4LRuxwwL;@aD3@$q~4B#z9jb@kr<
z*Y(%wTw#M<W@g1-z6&;qtdg$g4(f<%Q*TXK&0n!*{XLeH&|j;w1QKqaF^P#d|7lb1
zt8M$LK2JWG%AU@0o9*bH*)yH(^O|$E)PA)}n3QB1v*FGBprwmmCr-+iO^k`(Yw5IV
zexQZ>DVym{;{Q2UWY&IN_Q{i(AyW6#$>SFu@`(SumU{cjo_$r5kNIzIXW`npal7ZF
z`?YFrt5R#fswudB-nfx7g14~g>3_Y1*!aDi5qyj)=h=#9oUw~Jb?>_C&FkUstqv(o
z^s_11oU!7^6z_TZzhBJ^;>gPhi0j@{rTn<LV&DE#$A7&#`-;CU+`uW0FLc!-w)@9S
zUBBhletpJKE~^+W-um;g?@qC)>l+d~llvdI2&LN0Np)dS%roe^?y#oRnWZ}B(G6w;
z?{D8iotIlw6}No7slHsbFPFhvNWWp8`=-F8l-xVg)#trsZZjF_?DAY{8g;BkouN|o
z`s7=u7d^1;xE;CVn;(mxv5L+!j_&wpC!>-UKgebHzV=1dX_>U>zYp)5?cNl*u3?43
znLo>4ST6W*;>xVl?~-?KFM43hV4A|eeNpGvtIs0u&5zjtR_CgfzCk{eO+_~C_Ku_3
zAy>_~?lEuZ`tqs!mGJU;o7EG(b#7g$>HLXnhj%TPOMI6H`;1NBAD#Zad>PNl-yAEo
zo1)vhi}radd)3T6EGnS>^mA=Xz?*57XMUY@YgD)Ev@~%4|I_YJ?4>*omWMl*XSkf6
zs8OIFaqZ&&s`x2tO41cv36q_aSIpe}#>h}(UdpVqyiP1twI`0L<q9l2QE*nnB9CGE
z;_Fv_?P79UxNYx>1?o9(0v(xOhJN3cnN=Ih*u11qVD93A%XzabHvC-7U7>UK*%^+^
z+PxtQIUnixUtIX=b(g_~tXXGgTHdkv=qhcMuat3pFT?Z;Cp>0mnx!*5Jr;IOM*Ht)
znT79dlr%DCot1Q``oM54YlqEl4YBxw*}S$sn|CtKXnpWEXiB}r((*L*`8(#6l~tHd
z{HDmc!87u1_bJ83&V<gb+{U@AI^Ij}GI;r|I_EcK+l2#5KQ3RaH}M<a53aApHP`g2
ziX|4Ne*c;N^Tu?K-wZs9E^u6&uBD!;7JXRt%^p3kXr;GhEv{m%Uq7#$vF4`n-t{Fi
z-b?QGY!I30tmU^MFyc?s<}=9&N^jEwXZ$;wy!4gfmaWzcPER-!9bxof?xpTuB5ZkE
z#pZM;ZR^#Zcm7TH$p-!d3UjXqd^}&bxO>BM;fcInzi096V6@pW(cJR1L1+7Xrmwm3
z1rhP#4%5t(r(U_@FL|;x-6rB))MQ5UVvW+zUj7NYQ@q8$_;J0?^I@y`u;zSd-l51-
zzK_~}+h|_(FG_v(!u~E}b64zFo(h8+X%F5icm2(Mb!i9K74}?M)~(d|apozPJIAV-
zjC2$xGn&uWIplkL!LGNTmzeC&j(Au4<&}Q<?5A79L-H@3QH$iVTGebjE9_nAmvV=d
zv)xa`)$A2|bL?Br>^q<ig6q^t8xN{#39+%tDl(n7JF~a%AKwkLg&#LRV&VTg<xA(j
zM=ZrM7k=+zn)hD7zEIdUsbuO==96cNY9{e5d(X9Zy>-Hs%`s*lgHH&(YtXx@yIKBk
z`NM-8NA39zop$R#WWlgGe!kPYgPax8iI;l5t10bOPiT9q(Qt76sWY<{@9*8<;T`Jb
zWBN1YjzR3BGy7$>$p6i4QD>N$xnllw1-8YUe<$C)b-U)|Me)hp58gIe?R9RF2v*iu
z!)0^YbLW#6><UFe6B}xxB_gG+hksle@=4X*o}qlPivGIDxo;nDUT-l`-?Ga1(6#RC
z8e6A_UR@C%FPCf+U-aeM<e6*F3Y~9rJE!5&x?#EfAyfB!hMBuLwE~*L^=C`pK6~-G
zcV8WY*;?icAy&Wi&kHW9@8RCDe%j$BA2%NsIC0WFpuUnJt|R63w#?N}4Kn{kUKR34
zX%V&YRxGo3nNZzV$2x^)2ZLNl^x0*ya=R*bnU|fv7|+-o!=@3pI5)V(*k}^>JLRjz
zU%vaN?dN)-yD}+vR^R!_bzgR7-?fjJqVOftZn<XWZ{e@Oe{Q!~{_^j4)95|2aL%0<
z4a)@|wk&*X7qnyXnx_WhuD5J+rIa|9CC2aC5P8i~XZ2G9`<XAb3Z55e1#lUJUeLd^
zSUchTa*wr<GfNqRT0>fmCr#qqyoB4b^5%_|&x7?ER&3?fS8`WQoR(~Mw63gn={*0P
z3{LyD3I%N19{5%E%jDRn!k;?s$up>h{=K_&r}$}2w!)<9q;pT_`R}aV6cZjHQ@P~P
znR|8*lQ(OepHex?)pFOBIN|F#tNuAz-a7qy<IEMBpG}l`v;;OzU*Z@$`Fb(ykr}g0
zQ|G0%oSAme^xl!{v!xt0f9?!qTkSh@Iit?1ZB=h(&nkYlt?;qgOv_*AuM2)^dg|PN
zJFaQhagp=(XF2KvUv=w#Hfi`efyp6^RXz0o+x{u<?>$mAN}b16P?Ejsk>}BwPj;1b
z#C=bUUNzxV%H90-d8xCC4_;us{Pb${IiuGv_E)l;xM!U3W>r)9yq*OQ#2M0_y^!w<
zSal^-Q{?TW=sE7^=R3z}zUOC{Jmu=c7aQA6S%f~xJp6R>v<$dfH^?skzNqoz*(13J
zB8%iTpS{>$&7#q(G<EmPEfp&^uex(W$e3dpS0;nl*^2r6GJj4_=?T)%I`h}{p=YJZ
zp>5t%t*TcYE}C(7R++tm=c_3zos7Dje8nWZd6H5%dA?ef+*X~uDe2I;t<#-cM6;aU
zm@b~@HShAi+%Enb(>8o&U=jA<iu3SyXrFwuf8WoyeiFZa{77iAko?5*Vc9Vb_WuU4
zQS<d1N}~^*v)y~F?n}^Tji~RtHQLH<tL=8H=JmdD^UOk<+3ibOZ@$`o&hpFK!&1{X
zY-YXVGP_mCBBR_WgHyz;l<~4qnOS$xmf7mcO>a(`YP>kOJ|}f=FQ+yC0TnUkrkPwf
zo~du&dZzfM+1|dm%LlJcnar{?chNV-`|g#odo)beHO#7vVT}BI;`Bn#a*mkz%hGGL
z`OD@ypS8KisQRtnFMQ(mvm$lw$Mx&wx3#(^Ff6@VDY}u@<dB4E|BL|hXBS?-c;67&
zU3v4F%1yb}0=c`dy<fdJ%q!5ARyQ$B^OMKfxS20zJ&W70X7PNTCdP`4c14djZ|5A2
zJlT58<K5E@tG|}YCtej>9Wuq9al7iB=geBOpFTgoMW%{V$L^=V<Omu0+exBE3h$in
z|Gs#i(X(-ZMDjHMd5fHXcADS%eKDS~`-Aj~2fB5q-iUwjX;lAS_a*#*O;r(Vt=sE0
zjOSM?-Q2`qp1S#tePq?Sl#>phmK@oc`=@=L<*)a0wM7?JaHQ^<v})bA(6XyrW-Kzb
zY0nc>xD$TmSJ$i!^BQj7dY2OU^qS-(aR-siH=8s<<$ig3SImmZn5$UHXmkJ5l4TxZ
z$Csbu(?7ZX`suaCD({tTR5~1YGPOh=Gv?yt{>}+f$UG(Q*ozX?Ixo2z>43X;YHwIM
zf7+&@vyQPlSzk)juwkG1DVe`dEN2Lc=}ukxL+X*3@#D`fv+Oqa)qRp-Q`i;0>a)kW
zNyk!tUo5_<qq0+KUh~fsA*q|3p(iV5Gk$sR{OpDOeRqy$j+fLIa6JflaI!8_f?I><
z{J|Qd*IyM5O;hRH>;LhOddsnzH9x1wWw>Y+Pp-XjrHOa3E7P-syx(QB?NS*IZO=66
zT<OUmT`jlwY<}#Kuv_x)m0ei&bVW6__y~S`ZT@X*=V7iL&w|+&n2ESgvGDq1aCTjy
zc-pO^FMPd1_w8ruc1yey{&aH9hPqiAORoJ*naOux#mz2_Px2frypbwfHWdfYY<KH?
zU#w9pdtTP*wf4#lvF5ISTyIW)a_GXYhNk^GTqgrm9!v5)|J1YY_A=d*t&A1(*2Svo
zZ2GY8)CT^-<Q>N@73!R9Wt{QlRKL=e-V>J=9B)z2`jdKl+LI>9hZj{Gl}i~Dw)W&+
zzIM#vJ$FLHByP3<xs@7Lb2wN+i>KYqJ^bvR+Rg;KpAY_uZ*>$Esr+=OJ+G-vHV!le
z$2Rq>i=Kl=KyKTruKz3nTN<~Y_0MrIc=ch|9i}N#oA+rJ=FL7@^rMjR&D0q214@>G
zKhCzRaBZF{c<-;^H?MWv2~+3EPvCpe+vwKvIdVV4y+!Z&8FpWZt4j8(uARO;{r0l(
zqPupHe#dqmoE>!6tXO{6y^KWJzvcaQkye>553LtOEWBY^!q{BY`F_4mZQf#!37ZO2
zW=r3GDm3}h8HqP<CrisOHPE>sadweOd0+&n$>_B9W1_t1N2avP&NtfU9XuJA+;i~W
zvw)1>v(^57%$Vs~m>j=kZtb5ra&tsp+DI;$s9Cdjp<&(I51W`KDgMl8>7AIs;o?&D
zCG}U;!RG~H*Dn75mC?d8L*a9Cq~oTIQok?sCQn}f@#Amz)n}?wmt48I^3R4@yZo0h
zd%bsG|JILf{_0n)T~GWjJvn5?xH|pzlzaXExH{h53Jr_Yd~q}ALhK`#mw#WZZ)o4J
zDxz8Yd*aGxlkZ-refbwuK3pycX?1Zhnw@^-DMa6n`OCe<S|>`ZvXL^H_ga7Yz5ai8
z?IE`I|0_Ri+qfmPW)uI6>3Wv36I5@{(s*;TE2q}>{NyB#b0sGYm6xna_+Jumw`=BM
z*H4A4YgTW(a*Shf6rXSKtK7Oz`<^jPtCjeEHR4snsZg#cB{u(4LQ;262z?E-vy({V
zpP9vcH^fI(T#x<xudd@+I;9RF^(Veg6)iaR`><*8bA#N~8%;oI`a_T0>|JTgjven!
zo}8G}yL6|9u3G7VqeVB=<fXq_=_SPUF12jmyO>dQVL-Oos^;WRo&hEweOZ0`V;=qN
zak@MyWp%DjpJmDV^-DIc*G`zU?|$>)o!;}0+c}x5hfX@SZ(T#A)q-#HJU%eF-H_Cp
z{?2*+t02c@_Y>!{4lVNvQ($t8?RO2>b!{(GnZB^o?IkQ`FXP%>XC_YD<JNiIGUv36
zl*6qX2CrAmn{u}2f_+u&>wjE3yeEme1&e;)##hXD(Xu?beC=;*1=hZTgIZVD-twp}
zdA{NL#rp5*YT~=@wzoNK`65^+W_CK~6RZA#)lOP_`~Gop%ntgJD<Nz7_VD3VF}qq<
zEWHjYZ=-D)`Awg{>N$8#{d)NN#rx|&T}zoNz1pa`SN_@7-0xQH&E9*M<dk+dm<8PO
z-g`rEm#ecXzurft4jBibV;0?eg<`f8-nLP64AhI0a11|i>hV<9PyxlJm5Mk2$hE#v
zRqR=ytsrU|AEL`>8@;?N{)6S5*3vI2ENdGa7b!|8%Ky?R$&yU`YFg@jQ|$K!_0Kn3
zB0N5Y&Q6jKK4`su-W4thvEKy@tE`yL>{2oNHt+1y2h&b%N;`R@oozz6-Kp6L(aNop
z&dh$a>f`iDAcgNP{o@OhcynaO>~H=Fud3E)eKRrqws7X*#VWN+j%1h{wm)N6nR(Ov
z+d{@1ufI=ssWR|0`F{$%TQRSv_6DP1@tvdB7w=%J+56DbQS8)S{+s=Ex7yPJ%ifx(
z@c&g~EMi=9o*~@K`}uEnT~_B%nK<h;pG5BTX`e2++pazPD8nXkAurMLlMT<)<f_8o
zv`#cSoF>`evFXv~E{*pJ<}-TT->*`g@bb$)h7Dfcp)v6l&4r%*2B$-lYi1tawJDNK
z;ZEdE8I9P+CI8=C6ZzZ2|2F1u+RKJB1s;3j4%-{HHz%<KADMr6>e(a)>Ca0tR5h;j
zt(9uNY(DMPsWiz3PnDO2@{c%}3U+LNZdr0!evP1E&NRjjHNK$FCniNc`}vtAM&re4
zyEVTLDZQ|f3Q4`Jv(o8~CFAm2T17|JeGR?(YZud^8R4rQYMkr#pT~IeZRgVfkXYKn
zl06#j#_y7p?0e4XHvHbUfrCxq#<!v`JN`e)le!Zh9jzx_eO=>YZA(g6a&mfa*NsaC
z_J?+6Px-;;Q7$Ih>Zs(MdTP~k^@Cet7a#fV${EPDs8aDE=LX%d#k=`uF8*I4pD6S)
z`b^@4KSkQ#d<(;OUcXrX`Eogn&g03me`$*7KG&L^WwAXl>SgJd@&mnMZxqe=-W@(E
z(eKZ54m2a<qqVhMF1kie(owDT$$c|WB9~~jXe*Ha7wa;0!%0@1ZD)7!Pd!`o|4HrT
zs=dBC?M9*%o8ny}t7QL*3hbL3!B;c?AhYi=m2ZDjS1zt+@z|#kvcjCvXY$J5E(%Rq
zx9sccSWZ~QKVd2}biJjbF7Gc>@a#o>?T?d@UPT$_mM&N-$n|1&@f-L5wG~@57XO_*
z=c%o<!}MiGFTC%+f4sdrD5Yh}hK{!Hta@9kgQ{fro>D696p7g|TV}7UHMe+=@5<kj
z^Fh9FdA%)`VJCks|LYkwr3b;YLxGbxPjH5?`pom(!z9=J<0=EsA_K<7vKMtGHRL4R
zIel+hoO}Iz=YQ%Ii!BTpw#-otKfmyc)i3P?!BWQ>BjvZAw<hvBeE*fy_wTaufkTx}
zcb2U$n%SUd+t!-m*1P|@&xUPIPAomrhfE?@HQ!xap7G{2*N)C@#wjg^@e1*0%(nW!
zTC&3N$45J-mf7Z=w*xFWzh(t<zKT5YWkt8te+CxgPZffai8BuuNpP1H|9$FQ8UNis
zP22p5M`o?#!P{ZKc0aTOHNm%N@C5End1=gb>fxk+1^GG8UM!c|&zkZ?`K4C)#96Nz
zX0xC8oO0y{uR^S0#^wWm9B-6nh1v!lTfMh0t~luMDl6L`vFD98r@3~WX1{-Ib3!&~
zvd)Z?Q(?Z7U*W`%AbZVq7vrjB|H=lO>K6Rwe|>Ry4eR?`psw?7muWMeO!B{%_P6M(
zZu_m*FWwh>2r?KPPkg-K(%xCOkEJfV8s}cm_(s)I<h=N?9~-3|%oAgm_SxAmJxR}G
z4&L;x_v=-g@6!qcCvPxo_&VW&?dpDqE}36u=Vc1CIA^weWzsmWk#8|&@)_yhN{Jia
zKpJThOEiC5w)2V|&a})iJ~XqYc%6~Ez3{cPmiA2?CtfvMnpg6j<@YcWO%%G8*0TGV
zTVy21tyfRv)8bj@PJOJFn9H!bj6vtsk27MN8~XqHpYuLc#qf<U+|hQWg8PR44+Y_t
zF@L7iy{LZsR_&B^&j;QEwW%KKR@ZzCR!ew!iSfgV49giok>*R!mGpfLwo<4%$Dwdl
zS8%&TX%I*GuIu4DerWzRcWU&>h|<wcoPEuVQT%z~&fG&s{a@}6yt;him*cM8-c>A@
z1s;CAm%1r^?fgr{K_51%)>RzvYKS_pVzQIzf@;en-SaOo28x%ycs<?p)4lJCx8rv<
zh}$1!5KBzD;L$Z(FwZI9M&H11r~2#VXU-@`|M~QFveN;p-(fEI=PdSG^ffqbQNRz=
z*%o#=Gqy=OthZ}zO}XYjQ+bLSpKrKyUGaUh49Um$+HKwc|K;zg?VXc;b=OZ{tEs^X
z4`<v?>$F_c@M?Js<K|1O2ajB+wGeBS)Gz0|>c5jo?W$71-lZ$9&tS0A3|wRDUeDT-
zEFW}2?^~Fg>;><ltMeA`uQ%$vaKh%@Y`1&4nKP<`CjHX<?mx{XadLno&#{k=n{B^O
z7L@t(vF645`De0xBz%_yvO8y-nV$Flw3hl>zJ2vY9*aVcE>hfd&V6S3*UR#znWY~@
z4LUvvui2oqIwt-3)@Sa|HLQBp+^pr>u5r+$Xlh375zZaI=kK|8vHwYE*vbaq)2}Dp
z>#s`wo&Gb(-JW4`#`l9NiGtDFKE<5ne|61Ub}ysI*BKg}*)~TnSLW0itc`p1f<58N
zyco|%*A2uLRl41++FP}9vAJ@N>l^2`H3?z<pH9B}yz%wYzIzN}TN73~Ht77~>DjJ6
z@5<7?do@M<T@%C`W*ygziu=2vc<+^qvvUuZ&#<ienR0kLr~jWRpb2@NOYf)o^!!q~
ztCQ>5SA9F?)r+$nH~arB?V5OGl}obxE}oMh`-(lzsa+~?eO?e`eMva~OOSg$gJk;Q
z+fC=06HFUUZ;Sk%7|pf5?QXjehvu~fEXK{AYOPPU*{uhSQdMNg7wk(Gxtsafx6t^(
z*6SDVGb%4W;@V{<F;{x(zmwN}R)bXS$PJR3_Vw4SqkC4|DFC%y;u%-Bv1}@typ*}>
zjDOkDxGYe9f2XyJO;BfNZeQWSP0uc~Ua2|NEcnjI=~vAOPu}llw$*N~ukG$J%r5(E
zlmBYb^>FYCD#x%s%{@_em5=RG{4MVNI=+X0e$A(UN!;t%6ee*>yPsHN{qD-cFozpg
zYTY8;|G%yc6u3D>P|mmL%VzPQs!N$2y8_!nO__Q<S2az%pUfunRkE}XH22`XKI`mb
z*$J|N%~JCeZuK9VIN@`dd&JgfAGsv9T&=8p+{*Ir?3AENC&NVvFMm5bC>{-;801)a
zvm&_Y18bV*?u>{~W&^J71|y!Nf@6+cXZ^FzdUP1CS;aV`^?#R&bGbHKuIRd%_U%uP
zZd!F_k&N%^2@(Q_%#1EE>b>vQpO6?j(?2gVN4kvJ?cx~&*9$YR_ntF!w~q{E-mqeY
z+m-6V=~j&g(+XwhTSa_lvdBKmw|0Y=8TT*tp4uBVVWQR6lAPUqKe%q5`J<GiFLY$a
z)PLu9Nnfws@NRuWNDRMMMhaKvj<l~Qckki9_Lr-p>rrn*immcv!z}FsKE>jx@@sx;
zFNk5|Fz^1ngFj64N^;EYH2F2ZMGdmPMvErt+N_*--B~zBzF@<<aEA_C)4mC;zc^TW
ze>{A7QQz(Nual`0Hy9}Etg3M`Ri2>F7QQ5>u5aF?$Yq;KL)MhV9bT6>ZAt6Os$}u&
zA8+oSU&Op*vgnsr%RMcM7T=zH<NCe7Q+{(SZVA7!mv7>?NZC8{SX92hTOPv@_*UWS
zK^<XtJ4MOk$8%rAM1K#?YhZuPFe|91>uf{2`g|Ve^C8>#4y;hU6`Hd4VDXK!i*(+9
zvT{njYcI9%#6^!yqOnJM)Sqsfvrc#I`%QW5EB?tTeRGO54cMFWqRw-h-tA>izsAmM
z*mHA{S!(-di@gnR)YoKdzutYvT*v9FlvF~~vaG4go-y4qiODUkovxm6WA;1&&kH_6
zSBwwlt}4A%zO#N)n82eT4oBnuw#)yXOuqd~&;P)&97!9FLhUquse*`D?rEi8=F2e|
zo!P!pC&(ys#}^mf#_cO=r&}ik-RyV%HPeuHy4r%(osJWIf9stW?9zB@`G59}_T8oy
z<=<o5Ec3k--Hv2Phwoo;!r}d?HJj=WZj%3N-p{bIsMFzz;+uVuGx}fOo`3j``8O^J
z6?gx%1u8q2>0H`;EBe{3d-6<^E=q--)m<gz@6Voo{ejIZCvS;=>|7sJLuO5xX|{5|
z!O=gi7tNn?Rm5o+zOIg$>Ev~on`8HScJD?zXK#ZBk(y@fgMw~X)h_s#t(5(0Ar{pn
zyKvd1)u)u+ZeHp8`S-n`@_QGA*b=6>DCS75`j@xu@af3~^3noQQHL1T1XZwJa-D3s
zCYZ_m_obj5hl~tP<_#+z7k9|1KN9==E33{>pVPB#ngPT2ji*xFl%`sGAO4m;e~x(4
z+XC?iuUE#NSoBFnHt6@Z!sHFr>lfEE%t*cMqMLoItxe^|{eLo9poU%Ra#yz*tOfl~
zxy`=a1C3o-ubehJD@i0+;IB_z;``Ds;RiH$=bSuk$5D~vcIZ%V*P9@B`Mib+!QuXK
z&ka(GzuY+$rngY>+AKl0y}uThnRrY#-1k%NuU_ew?ShN6T_&&5ed-Xf-u(0FgX-7b
z?Umo_=6dYvy}y$+)HtGc@*Zd3*Os3Aey{vr(G90;Px$+><S4t#uacLzUv2-(TA_36
zlM7y@1#_4Luj;SA4Hgnt&Jw+IX`0|G!#KT!_n_`|!H#B?v@Q2v<Wxz_JF>6rrF%U)
zOYr{-EDJ+co}YI4LGo_t*-_t(>oOQ#vTd5N>x7p7C(jSfnY+I%?&oLF{OIv;&5_>N
zbl1e1Pbbe@tl!sbkfE~j`mYC*)we4DI&y2S<*)PG1)I(;64Uv7x+6N`VYzv<qpPB@
zy-b7SlIe!+HPg!%ZUoJa%Li?~B{G#iszlVY>Y2+&mN~2Eow-=N+9>jWYS$^=glpw9
z-|kvyX65<m>B(9NP+dH)dV9(7^mJpv%hKz9t&@ztyw{$gr7h*c1&5~`{SO<MFL2+z
zoM7nslv!Yj{Kx4p;}&RsQ<&8H==qD8CWfw0*(UVb1=_Uq_U66+##!+9>D;LAn^)8@
zEc)2mGvQmvwyOo#{o@!eZ_Ar4c|7d`({i5uth}ox?c5jhz05!Hu9@*AKgDY+Y>hn=
zHj1sO4ho9dewHQWp{5?Y&EgI}-`d%=y#?zUGVhwHMK5GrAp2i0{jq+#w^hYWGtKq4
zmx(ici*gTXd}GwUStO}?)5b{m{B39dq;yJ)J>0)Za-;5<a$WXsi_LE@>o@3l-XeHN
z?1<f*s|Qc=-+jNgFD_f|Hz$Mhrfnzl9quj(y&U!DY3c1P;?Y{!3@h_G-MO^6)*T6H
z+9eXWPT8g^;5(PcA--kY4m-WHGIONM13?`TgDxL6hMPsZysYwK_~yCqfBqrKJM}Eb
z(j>?E4K=r3wwqeqO`if9&t$wbxAkdTx0us@_tJBpxMoZXie!%XTBP7=DDM`fl~?zF
z%G}Z~n?uSN*jAozW<D2cr_*cy>!F<-`(pOnE1jKlG`gp7JuArC9I}5Uujh3){%Z`E
zt~+xHhcS6Ld|r6}&o=8dn}7aDXmR|LY+!IBV$aRq+8>eyyFB0XGc2Am*`Rf1%GBc=
zlCnk513)9D0d=OlXNt~$o}6s5`pq%^@;x?g{ACPUyJvPCwD$L!aXq}|liu_VOD6nU
z$iC1_>-N0d6MTs)dQVJx9X4ghk_l`Iv)Vo0m_A(SZg;S2@vnOsp59!U3~IXX&m^gc
z`b5tYU*rAZo_Ac32XjCq^IU_#Ca!|jwKHPAZ=0gpn(};u1~c>T^(?n5b$_^Q+IvN{
zHRYK>W-fnYciHzh4g1WsO20g0Ot^YO+wv{zn$Huz?2m|lt-f8gHHC5Oh1Ty$o=RLA
z>Z(7p{#2j8`2BVEwOJcKOvyi`_WhyA9lz{rIgD>Ce`zZmS)^L$F)coC)w~7s-`q9>
zH7r}$*Q?mrELTs6@H$*`V8^~H;R&aDIKC&^D>2)gtho6+`8`P0nM;!=)OFPq%}M|1
zx$)S&;xFGVQ=ZB)IdaW7wrD}m!P*yv`)`Nm*L_-dPMKBd#Ef;qA5N-Y|9W+{@{}_F
zsD@dy1HCJzao?zx-MeY-ZdZn{pEb^SteV`!o~1nJ^z2RV4(HXzGL&nE9j@(IF0Cx%
z*pq(feKn|^WVUtRIl)KsE6w-lFEP3s`VLgcIeQfxxU2JN*_EFjvirDxfr>(9pILX3
zgkRRIC|c2X;l5e*_I-K9C!A_HoD-a%J8R64y|7gE&6$h!RV+6?Yi!{^opwn+L+`1Z
ztH2z?QpU8~0o~H6A~!Bn1TWj+__@0+;#1lyCZ2>vdf(LE7v9`*G~vAdZqU3~q<Dhe
z%xO&3=T9s;qqgB?=Lc)o^}ewO7_ON0bZp2sYH#~hy+-7V=my=lAAY46$EoG9Ht*b#
zz`uFp-G8Uol$pK#V5PvTQ&_VpYC~yOl1!cD$$Q)8neOhJAfo)t&3vASuxg(FqGDa0
zw;#@M@Xr%z`OOfa@<ypayy{HRm#8-{A80>VSLd~#KV7-!i;Hbq{>tUe;Rh77_S?$V
z<jvMxJ+I6@&_k&svpwDIgpXmf#HQS5i=O;BqH^q~(c2Ga7H!xqwrSf2){Xq_$1M7L
zt=mg8+tckVU)rT)@-eh0_~m7Lp5v;h46b7JojgN(^4d+g+cFELsY~yUy*GvPL|ssb
z@5CLwE5GR5vCdUJATQrjaJ|M$z;k}hEsM=spFQ0}wjHXh=a^v@EOadG$g&jcoovqw
zD}&V(q9<PBzFir#P4iC3e4E9`pZd-$-jP|Xn$<J6;kU}9+<ht*@?5`{l{j48>d4SC
zQFTvU<~$MmH#IT$rf_OZ5)JLxy3-?Tv+?Darzy{>-p;<n*li|r;aoO@OmW3KMf(|L
zG54lKW{YKR4C}QFIoZOU@QFL_+v88md>o?UWA`fGp2z(&h-)L0nRGL6^m*1dQc50|
z0+rJPH^`c8vu|(jJs9P1G5pk`qM3nz1=JV3o@KcG+sBU_<(!*0oQ#PJdUZ1VZ>q%K
zzlsSrTvQv6?#Zy5dG=!QOo=^CX*^|2VP}6N>=vmjy4$1vR4m)%;x2yk18P?fR6JO9
z=3ySMpLzA|Z8^ysgawu^4Ej28(;YM8sV9R3#5den;qgLTee2z3w$j-;r?w<C=bziU
zHk|!F!_LJYmbpYuF<GqS&lOmCv$n><DbTZ{=yt%RV;(Dan45LZe9zB#(_qte-NlO!
zZb_J55wyhT?1~c%PmHw!CrYTCoT|QC|F?J!_g<?XY#N6WBSVrMw#;94;@NV0scA)S
zu4)R;{KQ;;-7|}RR=Fns6sZ2}U(q3(c=3k#&F?P+Vvk4O3!l3*^>#~&@1qOJQF|+<
ze`VN}n|Ax%199HK$py2H2ygI|H@@)w=CW@W=C$tM$$vP(V_m}qYms~6-o=-MwsY1!
z_Aon8Q_rDs_Sw1ie-mmm<bG|K^zoXjB+tp$>fE{Vf@PkmQpuXXk7n!gv^^1>aI)^(
z-l;B$GPiWXU%ltDkeC$iV3`$~H&e!k|FuZXPu6`?FRR4aS$ceBfBo%3Qpppyi5tG_
zM7*l=pL|2FtE4p`(|Aeq@!dSOG5YJTFWMBj@8@T8mNz%Mw0c)AIu>`)qwG~zPWJA}
zsmboCn`0QepD+}>4yY1&^ieJQ*)20&t=UicX7Fh?cAQF^S$iPyab=%>_o=j<OlcQ6
z7WKxu2-Rft#A{A}Edy4!WlpDTRpCKCODTa@cYYh_)p@;8Z(#IX8J%V++<(uIad!H-
ztvh~biWy|iH2iJdlw_i{X1*y~R^i8BorJ@g4>+0w?lwiH-v9OL?+f`JgX~PDmrXYd
zTo0)}+o0nW^=As_4(|U_Wr8d7c4wA56|$GNbk9#>oaxgMdrs<NRkHl9sAamkb*ETZ
z%6}vn<X)}|N<6YJAn~mpSZhUw<`F%i9h%&~<9fbzJ3Zc%d+E_~9)~@uo>_U3=Npq)
zwYNTJGrTdm`j@7#K#9c3unGNhO_tvLD-wRF>FlCq^OM|9EK<x+PfL6y7d-t((X{Xb
z+w8vB&TqOVQgnO61J>0x%5$bG9OJ53!(YqpGGph;rwYY8{5v;4QC|~%?^=6ZUx37<
z*(JG2_P_Lvo)<;P|Kjx68Rqs<sB`OWo*s4kGl!1le_Qyzp?!*};?4t`W7ZTEeO$SJ
z&8N-$wUVo2LKiH_wEt!E*zEb!2j>&x<bUx=JmtBp7j)p@aX<g4jKEiS?7j#Gy!y<S
zTQJ}C!aDiAcef@K$IAcWo3TVzZs!rB_TyV*`1Ze<dn&9f`Fsz*bZ}xzD1)=fYMB^r
zv+bqHvwQpliu<ynE;yUkNSl|Of5#**-y<+{o09UA-E)>~eemIH4EMI2*T>9Oo{2r>
zxoO+VyXwjs>sIeMlgRn{m|5jswWWz)ejYf^mzMl{UtH(wWAl_#+~sV-j=x<ZW2ZUg
z`>wk;idz~Jr)pjC-m+~@=OJ}l@fn}DN>}#<Ji0c4&*Djwtl^E4M2~gF5!ZTcxBDt6
z3yC>D<me8a6Crd>`$5orp<i2DLi36a=G{_NcTLvW`I2AAB)zta^-j|yr>!?*Hol#I
zXPfmE)*n9#S}rZL=?Z#b*<Kj2;rx`zo~pI=3=*o}?sEs+T$SuH%`Com{@GJ$wOy<!
zYq~F5Zj`wcvNNY{y3C}kwAxcFJdfNOjvh=?^0fJrSg^~jI`&nt+5<H$*)`X1FAY83
zaq!X8qWKNGt}MSHcuh}e?fDlfeh+kh&tLOZv;OBFbEa=!+{0ewPw`qO;(K^sw(+A>
z`LMPAJDKM7PpbR0?CpnT8`LE<|8Z=!d&+l0>iE1EhrEIfzt_!e3v*cOzmvJ^N7R(I
z+L|t3y#sIe9Q*e8Mtk@Ht)Dgl)~^=+YLB1fpJ>Yc?V;=hQ;wd#Jbk5)rb^y_{_`ok
zTQc9?Hb!KZXlT&O0}_$Od)UkP>f;zr?y9$F4_%R$6WO0@{44Cqo9ACW9&SGO*hkMG
z)#cX~wRP$FJ8J(vNtJ(hckzB^wUa+S$hBPi`zECB$Cl7tGvwuaHcZcue{^wiM-iK$
z*?c+YRi}PCJG?aSS}^NO>g*zu>1HXX?e6S$uV-AdNVfA&+$2k$=G0m9u7rKKwE5iP
zldolyECX!j%f_AA{pQ*%!w30ukIyviUZs6$%g;2~sWBc4e=6IAJumG0z!CWN$Ok3M
zSO4^;zu?v~0}ZL0I9;^Xky7f&PrdSE%C>EXqun~DpRnqe{cz#l%L(VFZobnd9#FP_
zt7`Ski02n;j9x$6?6GRWq5_xB(;roKUU>cDtIqfBOuci=H5d5=`gzSZ?LQmtmj|8>
zQ1NDzp6#`;{mYV<4gYrE0d)sMv$d6G-!i%UO8oe-yWmNK9V=zdD*7e}R!1BOj169L
z{h~bs&m-0eyIYDL2Yz4*o0@&_o7FFC1x<nHbxXELKH72kV`Klrdu9gH&I%_m99|cg
z^iBHi6OOXyg@p&Et2ab_pP%25;o}-BSYmnocA7@(vb*6A65kw|aU?daO=)k?BxNga
z-;({mcE9nm+or6i_K~55YnQ|vS83*{KUtor`yZGnHu*-+grZi4C!UV23nNqO1N-*O
zIKnm|B_(P@WJKNOxb<t--`m9BziGyiXOmwR7zf^XvLs?*@^se=eY-&Fw*1u#I5f@h
z@bzy0c?{Ps`cJ;W@F}tVDO<Yq_OmPe4|2plpIG|kvWna*m-bCQn@x7O^K6=#`*_-u
zfUrX<;#KQ7`~0sqy^y$)!S%UlMV!N=7@f&65)HT3a!N;gEA?IEP<EaF{ixRS{(kov
zro7jSzXltq|J=HLN@smNN5zNOV@VmV*S}1^{OZRZ{f4>THH<n*r%N(7XY4*TZ~hxD
zbJ@Lpak3xYrA{)`>kkQxomkt(ao}@-_)?w51&kb;X*(0T(+c}9J{Np??cUeYFIK;-
z7evJWVlfCY&U^F7`hh#Bt-DBMdC^p7VWCrIH_zP+|7%+Xngd9&{}w2;vHywFs=7rV
zUi^LWe!fmf->Rr(t}$EW-W4-XYX7phe#@yfP0i<*TY0C7EPD3HxK#43S)+on)5}%7
z*CUR^ecG^beaXR8zKxT86;AX7tkHd&CA0gi?`!QJQ%)~_{-U)>uIfr})OVo?cfK5%
zlC!<{_&e*WzJFXCVe@AwEnR+XZNX&ilA13ve_1D#E;c%J<?FO($M%(6i(p*6HfBbH
zZ<Sua-x#wWX{DXr;&VY7?b>IC+*iw5efZh6-oGigw}=PtOn4q3^;}Nq%mQVTZN48~
zHud<NIn~O#;q5Hp3Ca=d;VSV{{HOV+_0@&wML1kk%)9kw^{m(2N44w{BJ^+AnYR~A
zeX!_ll!UEN>zB)WY9$_nc5cL03oVKZirb$%L&-qw?rpVYUz^@Gg#P~ag{w`W_8Z&#
z)3HxyT<6~Q|JY@gn@6}gRz+?-|LVauwVl^2bzZYt+gq0Ahm_`}38r@W`+2Pa?fIBp
z66o@0*{h4QFMT=s-Hrd+#rmo(r$Qg!Sb5sO=Tz#KzamkSzcsy$-0Z9D>H3Ok!W*f1
zS2$<v5fPex0kk#6O^9i7<hqS!FE5{5Z)#m7Tf3eA_x(NH*K9vm3%$(Q9RBRx^d~Z)
zd>f(acsY3HnlSUPn(NF?Uwr-Iz4DzYD)kvJOwLaE_3kr&f1G>0{KIv#B))u1+V(g2
z)vAcy=Mv-Yav8U8`Dgw#ReWOiYvq#S#qC!v+Dkojyv)qH^3jhsmsR-u&CFiE=#4gX
z*SMtVYx<`wQ^B$+bDp?E^U+<RvKv-h$q4?tGwH~Bfp^988|E#(zT@nUTi+G;EBNv+
zp2&DmYj>XO`HS}%XNIf&4~VGytkdlAY?mmg*SAKAqw&&)*c;!EFH(7bE)k@Nf9~#B
z-$zq=v&(iI3j!@OoZaEP_?cm6uJGGMDd!pOtNQ-gwFio--*A>Vcvo|F<lhsQE*5{`
z7jq5m;ahgCeDNzbyIuSd(>RvLiikcx+rHub@>lsc!&;A}-Yx-6{A+VQoMk8;+WW|*
z@{-(?{<WP2w?fnIEHmGH(^qO;Nc_I93$Fd`Dd2Ok$tk+c5x#PU(y5@Z>p848VbZ&K
z9p<Haoyj!4q@w=(>(yw6(?PN}jQ-~rdffb7_TsE<^iJDiIk4EnWbXIgNeKy}lJlDP
z=X%BDzTuPDI%E5Zr3`IRXFpHA`-ExroVC5S?lVFRXC7T&xcRJ0S$tN1+_tS7)fGIY
zYWZHq-N<R>j|h{l*6X@)!?kJGl3XdfZ}0AzEnR2!O=h7<>h*bR6#~v|mbn&im21cP
ziA(qGS8!hZahA&eIZ8PZisl`GR?eT8W|(YR!sB^jyI<n@4^QlL<|<Y)pLuoCJ7LqT
zJ#rQ9@16#1H{E1nzf(j~lDT4oom%0eL%ZUiZ76GdlH20jYMXgo*}z7)_2Bw{36lF)
zew1|Fq;b}4rq?u$k7hS@3YRX>?+!BkT*0p6sWE-g+-=<DD>rk*OtPt;zVf4FL*^G>
z!KSxAJy@OJ7W}>^w^hf~F0I9VYI!9$Q$*U7iqDx*A_Zoqc8|^HSvRYlSl6p;nt0>+
zg?`JBG`YjP1()Z^&wA6e(V%)|yXl?nOqW2TbFB}0qc&^YynXZ5r_M<>>Zf*yIxEUq
z&RBEXbyCdnDH|AiuirNNy={jmv%o^hrEA-Kt3|GHzW9{eXRDLfDydjoyz02iGNaEQ
zraOPzEUFV-ThDW1M!2vWThZdlD)HB9cjU~r)y+G~pmVEZsaH71s<nNVYqDoPw>q?E
zhbZ%gSF?kbX7EmY=6I}G_-%br<ee_og2_KjS6^K$;?eJ4ww<^5%jLBa4ZbH&?zUm%
z`0szLqPA$-_u9Mdwe^lxuFodST^BUTr$T<={Ixf3@8VZqAdp?IY3#P7lI!ME^}h3U
zYkn6n1vT=x>vQIo&NtDOu#ro+eXaHe<7T$v&};I6m(u*a%GR$J0|_;2yid68lIW55
z`PjLAN;fY)0vWd@Y;DkwLlP-7R=+u=zaf9=-FD##5A8JkG#=zJ{spZ#d@L$3*Yv}T
z&Cd#z6E@yDSGR4^)UT3ne`{+S=Zc?ZoNx0)T;P29`@><^)3-2-ao$bl^W?g_^h{n(
zPJPSoUp?mp`=n<J?Kms(R;6rLLvF2`dP3KyX$Cu6A8i#><@+rxy<7IR@h!&J2}~R9
z)$J^2Z+`PUc*bJ$^BL?dMSI+ww@Bs5f0>a!slOdO%6gMYX!V)RF}?p355Lz-*s|+L
zB8O3`;*~?0x0Xygy<)-itq)Rfn#I2U$0xCMeOyOS_3pP1y~B29-;HPNF6g*v<;~E4
zal4Yu%k||YYkzAeTvydQw69&`X-BQ%otJIz__yv`*WlSwbi;OIQOnL*(ziw3Q#tZp
z3Hdu*dEF)MaPs0B-ebQx?n=#fE&>g7U9jwty>Kc`?0UxZx-TCY6N2{Y&r1wrm)6@T
zZqIWkC3t!T!=}=SK~|HdR8EWRkh;68L3jda4}-a=u7A?bMITOlTU^g15#OV?QC4y3
z=9l{NG7ptF-=*d=m!9b{w^DKKF1gvJ$+VdB(qiRH=aPb$e>`ToVcai%Kx;d9^UU_J
zU$fO0{F;BqxZm6%^B>o4j~1_GX5Kqk48soWs#yGNa`9yUWxqsNin9vre%3O+nR%RB
zA!TBVv(Btt96rk`4^~a(Zro|6ENfuYmGN6;`r&nx><TYzIkeRA>MjjiuNp?3TZtUC
zOnhBAXSP`<EVGywvf$(Qj}JMPGN%fzH+jE$+RF4T^BX`4@3elo(ky-<Qfi&#t7CHv
zydV5Dy2SWw^5SQK9{1h9Z@arg^x$2yh3=jD4UtYucd%E~Dyn7AV_45-V{j{Z2{T)Q
zkfJ}A)+rgb-MKbVP78MDEnz;xQ9NyqM!(FJu(!e&=A?gNdGl3s{~w<NlFg~h1bcLD
zd<|%t<twvF`;Fv^%|6>7v1u5xU(L|GaKf;A)6VJ6FTQGuJJfm?BqzHr6p1=3Q}yU)
zqe=I7_J-XtYd!>j5LCU<^y2PW8@5v(7uN1z3_8ktRsI9pIYGZ&3f;^12p)@@U-UcW
z<Z=b^4c#2G-+p*h`K7UT$;7og`U56$J4V#HTJx7WtPieCP?KMB!CGNAZ_}lN(!Vdb
zP5K-A&0ccP`uO(^zPEffSnWQwP11%vOtIp(f!J+Rou23=9XdijNwHH@pKWMa73T0Y
z_+5i4r{+!-$;7Qi*XHdz%ekWNlx#rDn^`LYrvDJj*>Qfg2G1LjPyYlaykqG&%b+Fj
z%AhpJ-)tM`thY6?yaB-zcbwY%mT&6DJ%XF$|CaZ=dAw3!nmFZ4=C+V;N^f>DwTWLg
z&0$(Jvtz@Yn^~fpX11^8`{phY?{nRNTf=rjlg9jpBx5nw!kp_x2lm?SZu50WIob06
z)V+ep%ZKmIS^e&qU!`YJ@6MCAloG`)Rn`=l+&=dDnPkSJ*(%c+MLyO@c;C2jQ|sEV
zyS@GgcB$-STkt9Oz~Q!+Z6R?+Y8#I$afnD&)N^<==1yaHuq0$MUs~Rc*eTmocCsZ*
zs!(+LZZVhjCim=^58KafRN2Y%U_$=UI-Sa^+dp=sBrd-8*QaQvE9YJA1B>}`pDTWA
zifPEUG;p_{9Fx}4<IybH`L@Y*X8O+pPMgMEscH(AP5~#>y<g1RrSx3=x#pj`HMM7_
z)y}vqG(o0ecZZ~cz!6tXGlRM{Y9FoID>*&*4t(}qD1M=(F|g}p2;a7~)ydB{v8eDW
z6fe}_oE&PFD>-}hS)m!028^EEGn&)#pT6*2x%aiqI^{dl8<sFmaVZts$g9)E`o&9x
zIXF>GA(LVDDt}`IPR|dLkybI14~0KOFilFETF$yetVnax-WPm3u75Y%AZw}YZNFEz
z;2LX--lgt~bEZ4XvOT{l68SAL@ZNRVfDpZfy^}dBZm_Y$CD<4&{{PX=$?Q-@&60?X
z0jpkSIB4zTUa@Drw!)$#fpVG>ZyB~2Da=!fOz31+_TDborerG0x-T%(DMzOJ(Yz^(
z_N;er2(t04UX`$TcIdZ9HyYjK<$nEMbVO-8Z|_&8yxk{ls%mQvnH7C`<oR{AtgG{E
zkzFiz+posO$C;ns&@1zo)nMPoAG7#tA70G<w(xt#>O^VFU(yQEzKx%DoxbQD_UO!G
z`L^6AFZ3HcTfO)^1;pOYy~${PeVe4^FK&e|GAe-{x2hW}Dra>+5@leU6x++3$G~qo
zZN=H32gUub_)Bh<GG2bv5Pd*RdUoZMP0~{Kt}pKRpX+9}W9YuJG(f(3vj4o_8+L*A
z!$dABwyiO`H9=M=QS0KBum=mjGrks@Yuu1?uJ4yd%$nuZ(aThRJe$@wx8XNPSmaAf
zZ*R9~pTBW_*L$05+gzUWB-~nBH*YW3dBJm`YRm7(PD$=O*DD|r7XD4qGhoGekF@0K
zHLEtfy&a@=+f#Lgf99+=%ggR7?rcodu~hkaK%_-;s%b;dUME$@r+<BC-}<JKvg`Hi
zBGx-@TDGp8I<i;yoR(W?Xb}JNpTLA`MmMI)D01|c@y*p*;@~t%bE<5EXNyRnk6)={
z%m1GJZ+55c-lrLUU`@?z=S9jA4>^(=Hb1E^iuFomS4fIy(h%BlwdcdFW#68&7SwNC
zx+$&2cc#M{9hL`ca_-)pbA@w<Tj%fS#&7<<H<(RN$-Fyj6Eu52|8<Rz6*cF2eXN{>
zW;&Hg8S(9?pLSbHbz8$J!9+jliQi6U-k<m8@Ve6a|4-&@QJBBzsq40jJ91-gFU!6g
z?|$RUl9bGe2Q2SA=lHw$`qp>v=j%+p>e?)^dusk!f3vda#YetP-nfh9O07k($3Bz4
zAQznFxEas?hA~HQi^q(;6JEW#sDFFe)vps@O<ud!DxkQ^V@d7iw~o`f%UJJRch6#C
z3%$4S<GGqH!{>h%<Ym8BzRJj7`87yvyV$LBXCvbG_1^9KI&oG*O>lr{wTIP?o41ec
z=kL$0UE;HmZEu50pcMxf-^GP9=0$AS+qaMTU2@Azo*t!{AA}9g?rM19<vq8dFm}qy
zq$#_vC{JE{(dLVPl}OuK(9Ypz4IhUCeOfO9TZ(^i*j~LaY_PuDXzGHBCmI{4@6h=D
z=C9zLrs={P)^sP?%{*oO`{%Y3i<V4mYkoIpw(0A?FSf2(S<dX-e@N-~hRnPzHwAwM
zP6RE$o}u!Xd9BGkvu=~xnn~QCzHNgl_tD<(Nq%j1y_?_MY6nd=8+bovv<dQ2bbYv^
z{J^7|H$>9RpO&Vz>{+<5!fEce;;rh_Eq0fFQT$T(rQD&*C9ufEgSjcKx9t2{j_8_=
zPfOV*nEtK_R#{Qq^IBVVdZ*xuQ`x6pvn5Q_@;Q-e#@ln=>ersMv)3%ocvsH7*}f*_
z>9$V&OP!adX;kftdlB{h(n^~z%B^j+p(~~x+HSf1tc~Wu&<vi1*>~+3&MZ<tv_Za$
zW36V;o^nf2*CoM{Pk7h;Et@vXKJrg%_531MpIe`5E~_VOj@_pJWO6BZSr=RCbS90{
zo*NaJt`~7QR>t=;wBGRD$NWlddD;AUbx{euS-kJmAE>=av*=%<%5qq>ZW?z&RJz%Y
z?cIm^q*hEn<Mfu}X3eJKWqb>-U;O{JddoJRxo<da*{5oz?BMTNu*I@_)0@MfrI#&Y
zj)JGwdtJ_-mh@y_)k07d1~w^wSKPUMrDPS)Z^@kvr_y#Z2gM1A>)5XPym8j4ibUR5
zdcQYZzj*(-f!JP|0!7uURdU5IjwVDJeXe_Vm|H<=hLOtzm1nJ%Icgmb)x;y-HP%+h
zCteaXGC23W^3CBl&x0d45;mp%WpUWIwTspJXlHRt&K>hh1#wem^yE!8m2Pmg$_!Yn
zDOey>vB>`z_mXFIH3o;Y+<E)_Ct31ruCx3trsG`jo}Z!IvMOZW$(W}W-inXB{>F-_
zK2yz3bCdYcu5nl?#pZHSX}tBKb;>&4*Up?-sG$}fXvcUpSK{rG2fG_ePtKA&;E{T4
zm6>1gUwwvW>YYxX1bnWYsVfo)GGabinfYmI4HN%;kHgzvrYbEcyBN<mY4)MnMxpiH
ztMi3toG`ADW<J58{>Utl;c>}Xy}#3^Tl&1Zc%O0Q0cX|~YjU3FxV>0c#KnC-jp1FC
z)U_pznOScC1wv}hXQW@a`XToW$4ObY0C9De-14+b_4P@XDqml`SN7o%%vmJJ^1Ses
zrOm>aPom~Evl(w3(O+mY$L33J*h>48KQ6R_#41)K8F{5{wppxfK5M?j+btJ)?k{8B
zRKDZck{cSjtC_m;a{PPkTkiG8eXg?QZcLb!H~Y|Yk=40HK}YZ2*em~6cEYxd5QRxk
zj@$9%6@L?`vj1hBaIuHqdfMk}hW-upwO>J*<7G4>=R~LVCJ~*R-^B5OvX;O?#)T4r
zojmhnauiO~P6sX8SfFA2PD&ta+x~g$Ux{@jTsp{XaAI})68rDT!nr;FPR8wT5H48j
zZ>TI1<s@2U<CbxhA@;l3m%1<a|NazbI=4WtIMAXhlq=5X_2&&i7pB+V0PS;H_-Bjv
z#aXNT<;}96c|K^n@cZI@caO(nle}KtJkO_pQGA9iBm4W;Tr<oh6T_?v=kxtg{k-Gd
z;jPa$TDL}sT$`cju2uK>%Zo_aw`UVUqhwj}?j4KLzP?HSwRl(QVnxtUn!;{l#kw7y
z4K;0%PPIvvV4<aMf)e&$E+3!WwEOH<8PIx!faoZvmD4Jx>a4v`{p)b{4RNRSi}y2c
zVv~{b4f(4ZBydCgsH(cLVE*|}JwlruIF-}`-yObb-`Z5C_aN$XhJB^ANusX$(sQfM
zJo~nQbK&zB`~N%2t+e`<c<-uzV6?TUal4+S<rkU1vJ+HnJhU>;vl_Rz%TM3|jiQ{n
zbe$)B|EcZAKC;9-{VRT8-s1htMkiTQou-DK-|SUe{B@tx3(H^D2`^gfr3(9Ze`Jd3
z3VdPt>$l7)+a0Sj=d7JnQ&j5e=TPzGx!oQnwvCxWs~(!|m1%QuiC}(wS}VLZSgyz5
z)Mro2B`MM~HYwbZRb0E?UAf0I&U#a%fV<56o`<`>DaOf7aFVYnnzq4sH{YiI^AZmq
zW(l@j_<iyJpU6K?<&N9Q%2$2L2wC1g)mNlyRUWiF{ruo{2!9!;pv}!2RYC6>99LiF
zpUM~E6#DPtYtY^p*T-g0Za2tS$$mJyysQOOq_6lISi#ivK{l=4Hl$#OdTZ&I`*#`r
z-*?}7<apY~Ja~Qkj>g}5?=x$s`^xP0e6w03R=YR1`St0o8^7<_cUpMDM!h|!S8BAM
zJC^&$RrB?3o5SaxPMFc`(f@9lAln>?dcN17)n+TMi_H)Guz%W%Ir~rj{-sy$AiD1L
z9ZMIh^qbY6Z`Ov0Y<j=x<d2YtmIh+n{aVu751Dt)Tx|Zni2cr%pU)KE9{*r>UM%W-
zjqS4+XLsAUpKx=C<yMv}<9l5d6n0=<rO3l&aVMHW!vdQZ%wn0X+NvjAeY1USx?Fz4
zn#T(yr*Ew|F>Ue=@toH)k8>vo%(h~zP=8?N%raZMP^=<*pFP_Z1MbB~rhJi9_VLe~
zea*OE{J@gis+~I+yV_UnOz7UtAL;)8u55sG$V1Kx&&({P>Tj;z%geJ@veVf3&_9c*
zz6{?bw^vSD{QQUnNW}SY?WG2WS54Q73X=KOEdKwMFQP3sc<T<E+pqZ73%V_sou_i{
z49ClhhciPs8*QFuJUZnQ?RG-u?-UE^hR`Z`)u$a3Zs*yoY^~YEbnK|gJ4KC4TU5Ma
zLUpY4k4pXHxSS-^KSM0S<<RzpPX$CPTyEVB2nFRYvx~Ma?<LoEX>Xf4JDOJ<lyeHE
zn+dBtKB=C+`Eo#^>uKi~pcA6hZnFF{Vs>)u`B5kTYrF6I#ryTWawdH|`KD%Tr>7GC
z-)F(rOus>6^nC$8&0HDN?`nLTlr8k#>ep+I<}GdwPY-a5ZTygU@YmT6X5Nfsq1pav
zlAf2oeXO{h9z6T-)F4is%SLJ&B^6J<obkn;rJ!T)g3~*mzYaWp(I#lIQsVUkJEoOC
z`n9RAKf1!z`Ib!(n?Y)2|H?&2Gxm1s>|E{h_Fq50+lt!!gAcEmEiC=AAo0AL_y(Q+
zDU3N%yq>Er8vSP7U_O(vCZ6H-ClB5OYAkLulp@_N;`ctN4!UAx)IVkB;bp#4Z;5T`
z$h~o+a__#d1KU7WtUebM_$qaV%8ECe-`$*b&L-&D<fZ*n%#I$LZ6xtn!Lf4V`V%sL
z*Y`7Q?#g)+xy^Srqi1}S)`nX*K?;+v9{RKFsPndMNt`Tem3vMrn=<elKIhPw#Zq`I
z;j+|(7{=X?T0Zc%f9s!CsT6&%YNb}qjXZfV`3>5BF$|kC1P@HsT4WQL6P#ndNo4u8
zzoG%NWWNcTN!#btacTOk{jIHV^2rHL*{tmIKN4gAK7IPackORcfm!E@YL{v;emdM1
z8MDq~PSkhp2bIoCm+{wLe09d?`@-lragb3TUby|%OSker{V+oJ#?#3&7th~vm9Zjj
zjicSnN7=6<?fz^ieiQY*{&(li+YeW!2P!Bpm^RgilY9UFq7Kmht%!RO@tq&M@^dq}
z8SaV%y@~q%UC@Z(q{hZQ=QFh&P3=ER?7sF_cEYS(1=?95;%9ek&%0z_1{xl^$~R@U
zis*+qe3NHX`jxkU7Q$a`KCT{K`S;VAS-JbN+(p*@E?~|%tRg1&Xpx}ET{f1+OEL!2
z-YKVS6LaiQ@k`k{f6m>-;y;(!NF{d9_15uQaxpTi?oQhu-VVOIjM?WGi$p%nSgbVr
zch9E2f5lZ>G(zo5r~hh5zM^mcH|5!j`n~-h1US>4F!0^&zbNJXkE1ZCZg2kv&->9r
z6-PeI`S)q7UIOcp*`NL{wp8I=xc!Ig=_x69qpz#@&8qx!Tc77U?{TZ{0M25DM&-FW
z!5Z@`0tG*{RosqYm@Kkr)6IqFo{A)DXU86}ayn~cCy{tQDC73KZBLf`@xONFv8+LM
zhgVm7m*&ZXwJ%Z+oUD1CTg=##%%|$GZ^?wR`87hDwftfjn@gVguA0;!c&<oj|Kfw3
z5?{9MWK2`7m>f4fWcC94#d!w0M(+K$pE2$5G?u<|Wp=^zG=8Zw3&poTJk5Ol4d0EX
zG|d-N!vZJ1e93=(@$-2Pa*LUt<S3Nv_l!%O@3QI3k)i{SxhMZ%OqjG-oh3S@u5JBx
z+sdyu`v3iwRtVASe)6@Y_CC*U{oJ~ZZg2j+n7YlXX=@~B%7d9A=N=lSPW*OtZN#~v
z_wM!VDdPMyiXDSICx8Fyb5!G7-Is8OfZC@;32~Bt4*&GHsxF=bR^_ZUqd1fya;c?U
zRXJa^{V(l=t0n~#)ZRu+k<7gR_leV#x-SnI7tAQ09TL^-F|{}Mu@}3`vlr^OZ!&Zp
zEwJ;8wDA7@Bjs33%z-~iH_tJDh`Fki*Lvkg&ZmrCmfq?wrxG@Ic;1QMTpVa3e$?rJ
z=!P{c^HSxfg&xgdnCBKGc72VgV#Vw)?q4%kZ{#sMUD~pS*QL~eo57#^o5Al3!k`Ao
z?5A8Om>iZkZspRv9lrj@?|}PLv=b%>h{|cEy!w>ZB%$E9L$PU9{wdLd$w4v<kAeeR
zr<^r@CAR2NuDO<*><3YwzpECm(z>*GvAVd+fjgE*I?c7**e09}diZ+dvE|>pUVGM?
z3mlR88)9hG;F+yGV=|L-LB*FdtrfpFd|!P1&}zXot@C=_I%kW-rT)IK+hpwx(3bJZ
zY8e^Hi`h><IOw$S;{3y_6q~pcrnqy-{Z*T~_F`DXZjr^{_EodV&!naeUV=+gLw8QH
z+xQ){Gvu}FO|yLh1?%HWYD?Evr{3+)a2GkKCM5NA@@*f*+<iM7-$Z>6KcEn$V|%UP
z)U|`nuG<dn-MIVO-`bYhX;m{$wX`kKJz02CeIsaOcjLs#ZNInl)ves{EvqK!`mX);
zMd!bCoKl^2M<Q&hceJYe{VQQNTswuPF0QcTTC~~n^u@jWOZ)8XBow_<7GDzH6lCB&
z<;GpJ-PdgDMD#vpEZ=-`j^nI(n`R2=n-^E?=)bbgv_Jg72e(x`ldVIah%b|P@UUz>
zch27rA0Kke<Z<#7*;dx(GfP+NySQt%oPNXlTM=`7TU`{CWS%YjE<1mjY5#XYBWuQ~
z-ZfP>d5&_tO!z+eVa=aEca;xFslF{-vF?PKe*2zH9CdLFkBgG|UtO?tDsu5_w)YO)
zsc2%yy=?22J2zxMgwFSG$tYVJG=GuvZQ=O!PoEw$YpD6UXdCC*_9>RVxsUgqUaMpN
zjlpH{z9Tu3)pMM93OxEZ&0e|tRO!x*Z)J?u%eWYdTw*kyzsYtZ|LuKuZruHPeD@x2
zuE}2mpKqJFbQ8z-o$rgXPxsm~G_TlcIQ5Q;?J>Pm&vvD~jmUe$DB*gB!8B~gHopUh
zud(jPN&lpAU!FlN&}Lym;FDwLzWEkPPU1N=L;Ciag&b$*HQ#))<V;fU>tk{564Rxt
zk0hJDUC3vgx40m9!=wl6d}3@a6(vhMytFL77qUlY(V3?O+J7w1aK~=&?n(*_NeF9s
zV`6R~b~HI@LSoX3CT4?92hL5dp4-lTneOQL-F?Ni>!JqUj0!1NcfYtW>B%R?@2z?k
z4BcNMUL28SI9G1DE^uOL;FVvy>NkDS&^g4TrSWX*vX1I$pf=57S4}Op6Gi8Re0IE#
z+-bPf(nr(f`Nf1ljZ3p#+8CAghH08qnU~!<)UDep(cq!?LgtfX?rYZ9TGuw|Up&sP
z>>@e&hFMU>*66A;!ljNv#`oo!(sDJ<v7M0Q%>H~~cjk^Ozb|GpCg^Xi^u5)-&#R?#
z{k)wClb<hNa<Bg%-wgAW3vSNdqq#Z!*=DV;S3q5kiQguKR84oil{4wIZ|X8o!?dGm
zyN0XtjP)^VYbyi=qMvX0t+`z=h?{w8%oIk)&KbTJeypz9b7NPaal3BjHL>#==RR%V
z54`vEowLQ^WqBnG-?n{Zuz4amH#ckkk&Tk4jY}7oP3;ajym7}KmXi#E2JPt$g|??t
z8S=EYUeC}86|{NxZtdwbPsO$AJDC^N#YKdw=q!GID1jw0x%!xpcb&bRMB<fIXVg+v
zB$?(v+xD^Q!kmUw+tb1mQs3P$+i^_6-MIH#?b^2J=Nt6Cy!>bW_}DX<cS@f8np0E$
zOnJ6*duGPn`wWpc`Tu244!CN#Sjqp1_@xWG_A{iVehuBY_M*|Tw6k65T}u|0)-#K&
z6FQZ%)M`iWwA5Gc4ueFNOj5Mz(0OI3DslRtuO3LzY-g^o?!D>ryC<1tTkc4=T=nRP
z>;&0ZhmVg|m-m$zvn@ZpJ@MY13(MIPCR`DmX%J|C)8fJG=laWMOm|7-_uJF7Ve-^@
zqN&OG&m>Dv&pI*7wDS-n$Gz!$G#BLyA8C@feT;kag$e(DB(#JsVTxFycuKu{*MjKv
z#{-W4c0RDEYQvOH=ikc@?-G3%*_Z1n!gnC{c5_p#s`}BIqN<`Vk2b1su|H7MVd~o;
zRPgHDM&;$~CuIKmh-f{~p0UeSPLoUPNkSCYGWAPApmY5e3z}&vKeRr!>HEYdr|K9J
zlKTFAu5EF&P~!M*da>Ao@AIpl?~RJT%wMm3ME&wMx1z+`dRd&A^`Dj*xc`4$8fb86
z#ngZ8&w^jga9*N!=QLyeRFHc#q^-YJeB-ncYTYo$=6cVn1h@CAg}29t-r~8UbZlQ!
z%8}!&uW#MRtlwA_&n)m!YV8;OqAz8)|DD{P8}$19C(#1$*gFZ2)u*p~{$Yuo>eA$k
zzc)2_tyy|Z;#1YdnD~9Uleden{+`OPTaC?nU1GAoUD-F$3XiEqRq<(oPU$QUWe-0!
zczomR+ibB(PhQ9~s--U5_(yiyVVkOx`f-b8HeLL^N%_u}V?7_81!UHqXq&zu(Yt){
z_f&@OT9#GEYA41>^!fAU{eL<^uk_2^+*)5LBik+aHDZJx&occ!ao3fL{0A;SxT1C>
z)+%B9T+=%yF}to@ye+tDi->Vwg5ZrqtJPQUxpr~3;3Pid7Ozzv5BtK;m)7W&eyROh
z5X5I_@$`l1We#N<MU!Qqy?#?T(nDP}PP~{U_)GlF(!M$dv6q)vPAhsn^xm?t`hF$o
zjN1dN{(dccxq{KHt#`|B{=cBpY$ph+%5?3}3_l_<Cr`F^*OiO<#Wz$+?zc=6c+M*Q
zm&F(4Aj><d-&D6g@V#^QUGJ~yhe2kq>WaQ%_Nl^hxn|IxqQ@p%-@WYpc0=pT&RCn3
zVJ(6sJozGx3hS*bKuzF+`o-6j?mhKg%G{Q4ZmU+Y?8A*LhHp4l-)T<?4)i*DO@DW{
z(bjkC8<g(vTKTEv(`IYkM8oIPYAv?DTR;DdgGJ74=WmHx&lZ-SRL{)1yS~A9(pry|
z+P<rOKY4y#`t8z{UGa?kks=IvM(w{jk`{;@>Xm<VWVS+^q@r))t4^7sFSk}Wd9B{R
zhpDV>Nq}DUy&pE3v%Q+Q%Q@dR9oO2f?%1=gw4U`$bN^k>%F0!lwwhZ0payk?++Kxm
ziD8^U%2EGxtU!av%2Ql#hDe_O#(4be)2j{3LArX9m?nQ$owEI=25(@}b?Lj-&Yze#
z6jpLikm^qPeNWEcX60UEmHdWFW^%7&Pu-CHrl=);$MOzH)eX*GM@_ktuXI|!{)%F}
zeCW7YL+H`CQ)=_$*yN?BHA`OsnZ<U3sccQ&$*k6yp=F+*bS@j!<S?JGD7*A-(~l=7
zRqxf#5|b=%>$laAp5^~;m)RU|=~YFGi_cvAUnQ;BWol;lyef6!%ROQ>S?)=F|9=1G
zXf|nFns&?ZWPq~36Xv)z>u3JEVS4DKkpf5lc?Gx6s`A0RBjVNOFX~Eh^!L$yCRw_5
zRnYE;c;o1cR~Xa(tLpffHt5OEmc07Cy}?I|!N6n1f-@m$)kVqMyT6*+&-~)I$KA6p
zPUcC<o~nQ9@oUy|o|q-KA##&P<cxF?9!>ENNwuX8DN?4{%TiY4{AS&u+LdFQw01q8
z#M5QRx=$YG;#pXDdy2YQ+4+mvaqETC{DWKOI&akQ<k*&(srKmUi{SGY;~C3Sm%R-V
zxI4c|@ZlHt9a)<t4lH@=S9Q8?*X+{=pC&H{jp&%&ZD)Tf9>ANH#J77le|6tKt{X11
z<mT_m{P{bizq9VE`y`pa$_G|)&RTG4Yhl&m+}b7A1lO7N@BMl(d+M?`o?p!cWml%P
z9Nn7RxAj>e!#uNXc3&cyo!r(L*cG1b+xqNckHL|DJ!)rtXPyfCA8U7QmOJx|&=Yz0
zuXb)(J?D>QOt#!v_00<<c+M?&azS$YN&lqy<58b27;a17*ALMPvDD1H(!0s;IBQI{
z9Q%T0dN=J|!z}y0unV=u%}~wHKD$^l@r}rre;4@e%2w@@%ei;xki>g+hL6soe93#`
zVoEyoXC4<d*cWkZ2ji4aR(F^u-RBPeZ}5}fcB`nJolN4(*i?ScW(m&^uk^WAR=?+G
zlx%c-zEvfsDS1<5*LjXbdJTy^{0B4^YL-b&Vy~b7wDe@Y<l*VZ4UX|9)IX?v@@QjL
z(vBjNC0r86elWBcEuNvUW@Z}y!@?kiH_w^2wHoFzG+*<asMaComVA53tLwdKD;M|o
z+f@p4awo3PExLAG>PW=5#2aD7d1+@CP0JF$`g_&n@1-mKBN-28o%40bY`?C`vTBLR
z@23x}9#|f^I%l@$I%n7QH*)x*^Jf%K$u42MoOSN3N_a??djRXa<UOY^tSB@$EB+!c
zS6kFCA5^Oq75Vkc65Zr9*}vuG2iB~u>lS-v9{h~cQslf{%HC$v=V}Xj477WtYT6U*
zZdNm$VBGR7hW*XU2kZQM%+qwd;_}~!ZqVJOG`H{9uGdd5Z1IYXckJ8}zw6Yx-ybSA
z?owjj;3;dnR)1pRjJekZj+cwKTK-~J&WSp?l~cD-<!POK(}Q<<TxWiMXK!f#Qpu7a
z;uI<QRWl>>5v!pQ$c>D0T4J%6mwjn5v%hI-aZ~;Di!O-+*Gl;d**9x`WU#4G)$mG@
zj1^?9S$c1}mS4)&TsOhglXWeVS6R4)A7OZ>Wx4A$N4juCiE%0DP^S95%xW)ZaRjG`
zA24BfE!;oP=p#s(*Y;%^h0;$#*@Cy*U3_@v%C7mll-M?Gc)&VmqSk5~o%W(1uFjTn
zt9$PXn@spCaNEs9W%Czi@dGcyQ#UzxY~85-V3}fY;6lGeRhkV)#qXrG-a5{%ye6xF
zZRKAz&ZYNnEM434QPg0a**6xE#tw~Z_Cnj54deQ@G89-=X|6RZV`niAlF5JOa^7;y
z;>OICc1Jt%mu%hmmZNm)>=(C>JX}6SJ?qb#qq(_nI8Q{YmDbMA`K3Sq_l2vXC(m4z
zmabk`#P70c4d43v8m$)YFS-^#TUWY%n{WTWOGN_l{dc(5e5!Cez0vJ?*nw>~Zm=1=
zsMW~t&I<eLUzQvXUe~f(W$OZgQ-XQR+!JdLahw8`&pTFk3C^0|CLXx>zFNZ9n!R^G
z6^KGb_tRNhn-a}R);;WGy$urbxXY>Rp_RGlLJEt)+WsqCGsL8CGX(h>d}Ftt*&Exf
zFFQfiU0$v)V9olb<qcC!9#38!?>A}Y;`wIZ7<euTF@EgQ^Rir|WP1N9>;G>*my0uA
zF)m^Jv)BF%hwq!$#!}{|^BX?=&iuB=Ew^JM`%14@{Zm%g&j1~+{$Wq*xyc_-?RoX{
zec6&p-#A}{6+O*Kiq}rCJpV~st|CU_ciN*HUp=>fzw`Qqe9wnHE{rDv%58ZTZj2L=
znjWgB_AQlB_-S<f&H6}&*|H0z%hZ^69^ZG(wNZhE@!|Z07Uk-0|FZK%o|{+lGJFkQ
z;2QLGa^dMWvjZ>hnx%AFOT4!>mhrrB(Yuq^SDe=rJ9^73ueDT9>h~^YrzrjglloUX
z<=^(cwYFP&Zkd@_fRx*#$>uD6S;l)G`W<+4ej(_5q28%$B@|oV7_=V+T`v-0@~xD;
zMY?10@wSQ9JCe)fcU>1R{xbhv1N-xyh6=843b!&J`xf@gy?$YD&*T#NL3?$xp;O4e
z<(x0J=_T20G2a@=7#RJ{>zKv4qG`K+ee~EVmead=4_`x-u4CSVJ15rXR8L8r>hAE#
z<avytLzm{)PrF0~M2**9`Fr?c^W)?_4Nuk;g<ktBYGC-5(V-~c|A0-<OoQilCI_9?
zSs%?9_}~-QZh_-##4aD+6*B*>`^2`mxb1aDC!Q3^hxHW%StrQ<TD|A|CoArVlY*70
z3@eISQbQCI18ruBwH8%Z&Sh<}R{uR=&*82^e~jE;w9PGEzu5f@W5cd0fjf5Q`eLmm
z|8{lX3o6$(`+oH`Xye<0?}>u*`5T(`B0dS<UIsdU;CokZ?XHX;S9Z-7<6IG5@)kV#
zcgLfuYN=hNLW0B=mMhv-HK21h-#1K%eIWBlZcW0^tv^q$J12D2s(QsKhDGj)lhhX!
z$~UoRi5;yEE}LArrJ;A8@O_ad2RCRa=LLTfmaaCRdHn0->{sSxstIyTf=k!LZVPvK
zynIf>U5Vp%cZ|ble$Ab6IB-5w{mt6x<&T#~9B{GwrmYoSS!=p7UF?AR&FF1~pxu{B
zg=`LPZ#M9^KMppF518n)`+IvsKwZ_*;0AHNZljhrrzTIz-4_13u8Z}I$)q1AEz&mZ
zYrA0RWpdXw^O*m}28+WxWXyKTd^@{O^WyU@&(r=)5&f{>VCO!@neU5cE%W&HI=INV
zu8Z}~PKotCs_IOBYgZM^?{anKsVuQil~s%=m~oi*;v-wH$+PQj|M>Umh5P@@<t#kO
zfdyJSH5gXi65PP95*xY1=GVph3>$YbEU^u}_;F>w!TY-Ntv0_d#xn%|-FEVr+m5GS
zj-{PdR+{t9+5XqX`;6a@xhgJPlf|3D?(^=L+}{`a4XvUkJ2rB^nb9?myR>doeywcc
zu>{?O)H!Y4hs=*odUE>PlZEz=dJaY%n0r*JCU}EjmWi5SobC5*iGBY*%Wg2NIOgxR
zWOLJI6TeeS^%8EHxz97aAu4djq|QigiPV|Mw(8frL<=5N@s$02vP@iOyZ2p{t(pz~
zQUWR87GIZG!^pC6-zkojsa)UlW*s^2wCuQD@&<-0SGk4uKU2S4d1jfEUcAY%@B;@`
z;~3BT_xieZ$oRR|mCkwk;|Zq)+w=<7I}(}4Js)l^?lb6-Yh7{v<2fT$=KJzYP9BW;
zT$9&{>TWsadGlJ{y!YG>9tg!Va<5;%;`XyYPd@fMd(iH4GU$!rjZ(g+6N3tyXQ?D!
zetv;BX@g=~|G~It69OkHJ+wP=z9~{9yky0OzPRKKueUksNh_zE&E2|6c7?(xpNW@#
zU;N%X_ZUa^<lhsn6yLe=xX2-LdigYO(9j`EI^XI&g?!q|zRVYN)iuG>o&StdybYy(
zXdcdR509;v-}aT$K-s3ZD}06Zp&br9MJ!Dh-kgb_l3dI5>wb+vMVr6cQs!&dPrP2(
zxcd3U=^NJiJFvU_SDAVEn19}~Lsqi;a)W0q{{KZF;QXdNRqa=dzx&r29ok{XC@k=4
zQq7BIw#!}LPoCbEC<_|e7rb&bQmwzveMfdp(bss}v`ue>4Z<a@3>Z|DnHv{aWN;o`
zukpk*XMTgFQ-Dr<^|dm0&lbtVlKy)u7Ed?uKHs)5`f}y-y+NV=W@YnA8FTmYhaZS@
zuV-e7{jhcWJhwB7k`CKbcK2BQl77I*{f#AM<Mqngv+Fj!{BV@v^oqs%8PwQx<1Q9<
zEc2L@aO{TJJkJ<6*}tp?n~yWOomf{Y`uE!zj@bD1Angj9yp7uLPBz-YV*WBdDdtcu
z^M(x`&Uw;>`Tc=Q``YjA1)Wk=!@lN9<fCl|t7G_!4?5Kyveg97GIeO2*ts#WRkSew
z^`9r3++3&CN__SGdHVT&!3{mR&667iC+)AX3p$>`KT9w0k!ZmEDb@*&3LVqd+-RT7
zKAZ3UHqF5MQ?wuayzpAsVeU7n3X$V>HJft3_*OEUm>lFH!F2GeqScgnEx#i!HTM2Z
z;CtxVn9x7tI%fsXT-80N-)X7W2Cr*)S>v2CmHUh(%k|vlMd8XF)9;?2|E_`KY);IS
zrck}J9(GM<lgz)J=T4Z?Tg$35X#uB~u!~({%kNLZkzXfSP5*KJzQ6|c470H6gqECw
z_6uJZs4jTFO58q0db-}$bcThc{U?OZ8U0Q5p2VJeRX*{#(0zt-J+FxlDXbf><>dUo
z>J8f8ac5=!->&SQgIg39H9T(mdMEnR^<7u)adlYmKAZ6N@x#||pDiqZD(;o_`ssyw
z<rICsz6rd?9`^Qy^SkX{F6W%8U2W;(P$H$|%O)+Ae`-SK>6a%LJ;~iGQ}ru(ae}Z5
z->Z37j>$C~{XSjO`rAJNfiUqM-aa4ZH7HK442scA^YXcU`XIxnV}3zCkz3=I+B2Tr
zyRRrpzn!yVo5GKju+@h}Bn{hRY6Q)moqhW>fuUGIfm2^JbzZLCsYmzprZaDSXMaC@
z=f&bj9NjjHH}giWt8+~}>0J0ooatK*tIds5mMNNiefKJY6?Q$j)n2LLx29ntSIQkT
z1HHoJej!(#uIhu&7Fra_Dtd`9dKj;hS)_l7G1iP*I%K~+%N<Ln4R6bt@|5!?Kd$;R
ztu|uY)k>3-tiP(B%LIM;Xkcn5pjmdlh;#L4i^<&XH(RE(-w!Igyq0s<nRhbNc3AZr
z?{r|7*=F|c;3Cze+LnK-!!NzE@pI6)n#8yAS8-oK_Oppy@0{a5y|Ovy@3xTpopab_
zqp9J~IR0{Pn{u^sPPb5nyx7aQaIMYa$$YUVk1Lga>38dxa?zl3BH!6(FLs8`%vqN+
z_qe6gi3gXPj_!1|DzRhSegAlSEZdsT84QB<JW*Z2Wh-?=4ji8TCGpT@tNw43Cs%y2
zIPB5hcZ(}W`ug?5-?pE7>?4v_F<sET<!HO>%$E<&PG{6K)j9WAVX8^lv!}H?IxWTD
zcxtY@829**4c`H;{ViE;SBzSje2rGW*;i$%d+sqq%OMw)<ujPdo+eaP<mHqHX2s2M
zXWo%$7B}0%j`d98X8!5N9-Y3pI<-*lta@^3{8!C{C6y@${2k1B-P1Y?<=7JvABxUr
z_;q^r!nI1`59U4HrGM@*gU^#><_X&vbZ%50G~4g8(ZK!xPr(GMCr!3pGl~;etevKw
z`o7ijSN!`1581bS_HEPI7bh7y(?evJ|ABpLrFX}B@7O53o!9d1lSZlA%YHQ^-n}6!
zaObSA*O5gPLBVbkZ{zOx-+R1kqq+ijOu)ejM?Yp>ZSlEV7nJJ%`q;dND;HXKMT;J|
z*<%rFm8~OPeg5^acQ5;WIqv;<qR{6*!*ku)>l1XUBhA0DERp_r>qydyi&s3Cri;Ic
zyWV@3vH3$nVC0G1$v*0*mJ9k_yI5bxa^e~9imwZM=Pv#F-a~JPJ3oKx-5Z}L&-}@j
zJY895S)kM^{ykPJFTH;8|JUDirgJe2rM~fnxvcAoB$R!`XI*2u0ov_Wk{EZ?<k@T^
ziAhuZKG^NNeleaQv+IOR(Al>vbLN^}dS-mtYyIN=%$JrmZcwW8)(mR)b_iGy+r0Vu
z#d!OlcTRN7>_5HmmKvY`tFK^nMfdm0DLszb^!DV}C3ihvmVOC$Na<W<6LdpQVS|tC
zxx@KxF;%jEYp1SU)H*4$FTm&#SH!&D3F=SnoL<z*2Hk7vWtep-fn}rL8P+GWKV`H`
zxpi1ZX$h0+&%|?qNvBzDj?CG8Uhy{9<0T1t+<St8Z@$X%*wo(Qxs7jE<0h|a*YK5Y
ztGTxNt=m{qV*ivW;%Q)&>*7@hdTo7^WNg3xvf4Gjh&g5Hq1E#q2Kl^J(#ZQUf6la&
z*9<IIH)U?!C9^kogU?OIiwt`1?_boN;+;@9EBr(QM}n+oX_o3v<u`Sw-cA;lEl8>2
zlYCfEbLrXXV$o|C&!@a*xD$EP%i$P*;LE&iz0uJJ-Q3k~W<8(qOy-qQ%GA$$a=%?|
zirs!z>bF$B>(maRtl9||7R(oVwn*n>t7t)Qt)xTOO(#LFdi7NW%f4iMwe+r$wzrc|
zoV7VWYOUV9D>`xBN7Frun(oOngk2PMyvVj@{pT05%FhnWTX=5Km0Xbid9hu=U9}SJ
zk0;OD;4|~G!N&EB5l1YXT(9dj{Qfe1K8Nh)lY2UAB^@?-EAA9mU19y$Om)qZC-cP*
zn0`wQpDCUb>UN>>U=QEL4*4p!^t)E?Uq9b3v|)Xm_5AZkLeIU@_fOpu5?1+NUi`qh
z-@6#(lybkV@(Q?dL%H<`+pKpS*6*`fTlSy%Z7}(3Pj0f)_mlf&BHaG|6PR#lo<>jF
z?#XwztZdDFeDj8B$-V2W0yT$YUHA(0#k|+J9y?w=UDEBnQ`vO?wyix`OJbAwHeZte
zePQ!P&GUC#-{>TWycE%x{ISW_zA{A5LFe}WCnl|LuKA~Rhpx!VJeGdH*IcUhz#6rW
z{_k1daL)R0?AY-e?SXnXQsy_jdgpxYVtp|?i*T;+#AfF;>%+crzQ{_NzzDh@dvZy~
zG1k)op@NdvKYHvG*J+A)&(E-Vi9z7p&d;$erB?1Q_MV;!xt(?`i-FU;DJrau$$Won
zD^_^cFkUfBxgc(N<iVXqhPVEzH-JufXYe$3+s(N~@BY)bPq)key7l{F`SmsG;s-i(
z^cUB&`b;bgN;p^f@i6$H>cBZ0Pk&{7%*1$drJQi>_C?=7%gLVkD@02?*=Bg8^F??3
z)qDN_xFTFV1W%=CzJ9u4w*R*s#aq8G-rrxayjOPVv%<emK0T4_oqpr`nkS1U`gw|W
z7Mx3v5^8<-RaAfDdd?HaRM$s&dIYE3G5dLPwYdJq^^qq-XSUz}vW@X#S&Pr=_5HpJ
zJ*1Uplm@+V`?RZ5xHIO!3hooT<yDux&ockEW`W|%PU+nRQ@dkR|Ht}GzcHQh3iq_)
z_JmoYcgjkiYcPEI_>rSoVh-;&lcvnson1TL*xizT&(F|(N6(~l>T`qnfhPha4x}b8
z_kNQt7I#!(8HZ^0$t$Mwrpz{7{Zi=ntcDz?FH%d-vbb3sje9luw?S-Dym8=(1N`?=
z|IFohbxUUNY>kw{J$G*iPsp;j(A>>ZdU?f$bK=`Rb5(TKo^?rV*xEYz63YjPz4i_}
zzkGkVQ6;)Mi(^f7%+HPjwS{FZo;!K!wly97sCF}p;pZKNkgF=ug6@6uW)<F3f4)H_
znmu7!XzPMlvEp^9#b07FHD@gax!k14ZAI4fFYfcyK7M<0?A)m|$KW@@8?3Lb;hVOC
zgKKf&?Ja43U8k?8*01;;w7p^X7bm9>m5gVF=IJ-hr)}C4`L3b;*uEQ~Y{ePOlk!&I
zpEdPt5i5(ZcaX;xi4D13TV-s_xO2DN^RAUu)DLNScXQgtS*KdRxa3ZKIp?1DU8XRx
zXQvmba3;NZ20E_)m|vBCDR+fOdXdYtvdZb(4=Np4w1Z83>pOc}sl<yWGN&5^9^N@?
zSK|C#N8IFU!QUvSYhwI@Euxc!PO4e{R7%<Y=5W%Kk2(rWkCKGA4^}JR&Yz)__ojQ*
zM$oQp&l7U1&%D;2@yUwAcK3AWlisFx7+hqcmEPtg1YJG*Vt&nz{*b`euMcu`w{V;Y
zb!tk>S{6D#_0+$dWm4yQCVX|d^7oP;Up&8y(RWUbtlC%x&2X*r8P-#*&0jY8yWG(F
zeerzO4#tjMg&$v31}keBb({8GogDT2L&U0wXE+=)mN4%-$&oI8^iEByTUvl`)3Vh+
z4>heVlK*sKVM(3abG@u6?Su#+6Xp$GO&>xfcZDtu{iU_Lw=t{NyXja@zz(I^ANW?k
ztzZp4a`%R*E~gapjff0^Bhs$5UZ(0tbx*D|)#seW7_sECfPExa+%gSShP&zurl~p_
zGbrv4TEaW!nrH6iy=&{Zb-(>F;gn+b2o1U<H0709a{TdE4eJ|zPg-Euu#=;E!Q>~W
z&*<ALeh4{v@xJ>Ejo*#_YW&+4X}4_T|64vY>ihin$}J+bfl852W&CX0)4yt(c>6XT
zV+dotGigfYIkS{Ep3j)d`s2K|?XF<!i<{`57ua`i&2?vkvtM6)e|Pad!^afv*nn4G
zm+j-N^4oF##XZ|!+zLMZ8gtio31n}N{IKcw+{%;s_4OPbzbD+;sTTO?rYd_((s$pR
zyWQ)5r!28PA$s#jL{xUooyFVB`~NX%{Qb&sV?$`>!C8}o?o2);^LNb`^M=gHf?S18
zZ;$fL_$#<gJo;rmgJ1{C&z7kzN4F_fA3L(b*8Ttb`+sIO>=k*mz;5@J5@EjQcKSE&
zhTE;Qb+2c1iDnJcW0^RG>A@D6viPvQpbJn7{14fu6mj$a?UCQ6{&3&C#rv7u+J06{
zbFL3w^)sbh{+rC-+Lm6kZ;F1&uJu*I97Wc9LQY<6mwxcF;qqDw7flf@yU)IvcB@wz
zx!2#i!T+q_vU%!dgYMcFcSF+NmVS95#dg4mLGan+@<@#r2d~-aeLP%xn@8`X=!8o_
z3l`-EG22NC*d%Yh0=k3CCEjnD(c~+$j$RBBkY)JmDjD-gRN!Q*+W}|R;$?j4eAyid
zH^DpgJDftker@`Y`)JML`k=g+YT3Wdu8DqG@~QJ~UywNe^5p94psm6wmcoBTrnQN#
zoc`*gbNHb}M(*qHz79K}>#4Pw``MWbwfAbPd|Lls-F<y+L*upUdR<#ZWvh<M#7%Ju
zKM*IYBl*EkD^YpQB9pp}`);j?sSwMwuPXh(b;3{R)2l+|1vAR8&1zN8J9=?-bH4JD
zCFg&#n4CJ2TBu~5@F{#J=#U!oRO`(rgU((`$&|7EZf8?f`r+y1hrMbSTko2$U29PM
z;@HOTYs1;&84g-ck)HkQ&4pD`d=+(<DtrG{^A;XrP<wjNi!s6U);UQj#dGTKJKCil
zwJ@%!aht3n`pU1mu;;>C0bloXaT|V_AFjO9l6vZbL#u0cSY>5!*nvH98)OAazXVmd
zmKki}cqYR(-+Fs~>fVIs9GZvRTKD*NxB1*%aXY?W>)3mKhQw&^hf^yUw>=iUbnxEO
z4f(&T4wfBINz#9FOKj)Ho7>8kG~2%JPU8L6^tNGU?UINy(kun@OBwxHiZg<4a&Kc6
zb8}^gm|A3MTDtJ;qjQSCFV5yJV`7_jJ+xGA^~d0%Sn<@E&fgZBi|4Sf@lh;nah!i~
zX3%<nv8CS^zZY9`??_Ip+Sk*Kt7Tk5UoXtvob%>h|34;<?McE1l(|^{W*nPSd{d_y
zG^(+LL)y&j&C5k^)plh+%jyB0t0x=qYRQKKrcv>xQj>4ImGwC&`ua!7fnz%lbDZ4Z
zrjTJi{|#41p!!iOJ6VCPeY4Lj6k`Z`y?n>b=(6aIednj#>J~^$77O?Iq&qvbZqvs8
zs~=}7FIgphZ`xvw2Zru1o_(Fsy7Bi1iQgMOUA@f4a$<Re+Xbaf8{Zt3xK?YyxN=!*
z!-QW|xyNKC<sW=!xbF7`W;e6@PlN@Qn&e!w*>rOr_Y9CS$EOQ4n|3IEd)Tu@eg94&
z&)72gZ$0N7t(dfTF8YwWEKSN{&O27=)4TYe%j7wBnMS+_>dMUR{FnERRr>WV{^uP1
z3Re&2<Z@Q^_!jN-{BQg2wcVSB-W)rzJqGK`^XA`V{P2N!63>s>Pn`BoOG^68X83%`
zwKcs<>QC)E=z0Evia6VXfNlw;6HeY5#%!}|*=zi7Pl_>UF!T;h^FGvUoA%W`syIj+
zbdAEZ$rDqa%7pnU`aU=O)mS)f!R#l87<6oQ*GxB8yf*FdoYd>bmTj8qsV8wjS!61s
z;IEPyhV73}&ORjbce%BKi29LZVlNqN{u~xLxv%Gg-`d|ZV<Z|@EbXYO<y6*S{j8V&
zE^^tmzdm|11gH6`=tN97?<zU%uxi~7(4L_6YK7;YIMnX<Qt;U3YpNS|(d7Vp%-4N9
z3o-<A7Ugx;R?Mh<vCQZ@Xad(|hkuiV;6#gQPE$BvbmhDO%`8N;=APfx;LDJEdd9Q7
zH|t94<rCNcQz)NYGuw*suEd*rTi?AeKH;HYWVcZ3^pybXJ23~&)qS}<*+_ZGg|hbt
z*t#yh`7r64(y6bLKR@#1J)m;+z#EnsCbBtKx9mA_>E7>)t3C3!`z&PM?WxeA$TVeg
zPnyzo^#t(M^$}lnvdbew>dzebG5OD@d!Qxy66QDCw{UwKTs^q)r{ssd-xu#^dKUQ1
zvwb<sLuIan*i_@|u7UmkxOND4Y+SF#s(*XKz6;fdYTZ_r+Ap1PR%V$-=@&=)N_kC{
zm}zl$+Wv0r5&6uJ!^2{j=PZ}Asb=<z*U6Lf5@+nH%}WwYGM8ex$nB7zabD2ud#oO4
z9jM^NDK3i4Cx0&Rcp4#cUqtiO@;i*%or7l<957C4{ryy6{)&H_Vvqf1K2Q<0L26g~
zUgoCHIs8(8*;uLr?VsAU8@`L$AH!0RH~TKX^?TR9Q?wOcxlTR6tgUFi*h6gol$_1;
zcP74)a<J<-aqm;n4Ide6yOm$=pWb*R*D7$L)9pnTj;(GY+BYW6QDxqjGux^nUOPc8
z+(ks4q2u1#v=+VamM8!F`Q12fM=dH|^Y28jl1n_3#Pl6!8C<4+*Qn$2QxB^wyLm7C
zb@oj&Q{BSZj1_S|9ktgaK5=p@uLydh|Dw-8zi>9A#@gEwa}Sp-tm;Z+Nxg2G3_jC*
zapwuP*Fg)en&?GLSa7Ge_xkN4xjYZ{$?wWtH81t>?;`F+k-IY=nK5t3ykY6_``wz_
z8M|{gZ?TJKyuE8<^%7aRoGZDD)l;WTKBE4KyV~|zukB||cfspDimNuATwd;QU*+ER
z(&Y1B-1%qbJ*j0~e3@_ap}jKSHsrmT8MEM)mYc_9iy1!@o4fDHyeqtWqnOY8k^tjt
zrY*03S1|qY_j`TpT|=bswGaL*1)HZeua-MprN4WldV-c#VcXlFrln;z4~5=?#sL1L
ztXQLz=PY|pXor6Kj`O@8?@I69klirhK7+$Ly(KPc-48B(FJrwUJ}vWm^TymOMGw{#
zOzn<L?Z3RQeC==T2gkVTpH1(+VODsp!QQ*RWbJQmg<EqSgk*BWc5IjYdA0DMoBhlE
zAe9O&wyGyx9a&d|omsqn?a}PhGG%Lj|5g|Gn&X+*bvuozEp$bSY+}tuo#4$Hie86i
z{k`qI#OKnFl<9NMoH99VWLi99ipZ^PYs|`KG~@+KZ_78-2{v~6B$Z&PqN^pJ&*iM9
zmvG*u>s<_gg>(Oo7qgA-J-xeTQ+C0&d6hAYH&xwV8dgjQm_Lzs!EKJ@eA~|zj5$-J
zo(fN3HRxZ#(QF0M8^=(7ZsDC9jSbNz$|a?p->(_>Z?|j-;`Qh9V>OaHc;`mll!_}C
zySpwLI)9(qJ!z>6&$a6vT@O4<;`auE#)RKbn5f#r)6mQ=J^#e-_lx`fF;&dE80j2Z
zkh&w6Z!>@F?X)Ww;~5slFWA|j_1mC-nOTSYj%RmPERJVfsiL3nb*PLn!F2sR?*}*C
zL4(8}<X9Bkr#aRdZ%xZ{77JS<xpzII#7Ze=*>f7*mzG(U+Z3J!UDU!iW5-0siU)z`
z&CW2jx_$Sx4BM-3e8{%bM!c6>LxitbFMNNs>`F$r_ovS+{IbANu|W7hWOa1y#usei
zmtWM*^w;wdS+r2kZN|~i*FHScFWjiIuUZ=OZ57{@unFHoRb=Pns*2yykq?lZ6n<dU
zp?R){bu`|YO5ffq6ZPJ`p4COm_Qg{Lv7DaxBKd8gKIM%2Mbj3n3(=di{(i{;^ZVN}
z_sajR<-5tjET&V;xPiYso$tD!mh&gOcExVbIU%!CXS+T<s9v$%S8~#KOP8CiDQ8vk
zihZ^fe>vS7nVx*&q*#IQ(g02KzHJN!zgyWt49%XTY}PP6Eqq~?$Y-hNh2L9e&p2lI
zB!zp0Q(20hh>h~&U#tG@z7yg8|MlWr;YBq@*~=u$wtcO7C$rA7>e`E!GViL@KbXkv
zjoc|PpTm5ssk=SndBNOC*B9#<J~F!|Qn-}))~v<b8y2p5x?yFmvHZ#hr;mUYJ)R(#
zCL=A`KlA$Ox~Wys#b3(!oU>>Bn-H#_drZ1?b@OeIuF%W!x?SQ4IyYXKi{)qc)iH&2
zmO7?;y6@<pBVwiaOS<~x#oMl$kzaCGtnYuF9kt=A`K{>l7yrMVKA+=8cFmT@qJBL0
zBtQ5r+Y<6Av?uEP#dt>J==77U(m!6kT^!F4XHee)x^PjLd(p~%*(VF<J01UU?(X92
z#b3e?tf+Ytn<W=mv1NAcjtfH5YHxrJ`?Q&5v-r&##=U>Co?W=Alws>$&%UNTVuMbe
z!=&`v`#1uMzmy+XQ6t^*cg5*wo(0~~xgZrHrvJ+97$+*vN!jzGrRLJ2Ys>F!?`65X
z;na=x#-x?X3NNoUd|vQ~b4R~H@QWRtX`)Lzdf&~tt<-3=pn^$m&XkNrN)n024SB4-
z$$kHRyQ`<Zzx2i6vC*E(6Q6YLtKuo%yZMs+m*;{dEK@`McUJ@z{?aU!eONRt7<7U6
zi!-{beVpD(spi#v+qU%IvKR(s)5``<UIx$AGAHo85X&~${_!8fhd+~Vr8VVBK6uUB
zma=Du=xdp8=1=X~J#W3+@S%U-yg<9cO1_%Lw59)z+H;(@oqRk+HN~Jqc%1`Fs7Kn;
z|5i?!>s;!0M(8&EDUtuQ#6~Ld=F-nnvlErA%v<{w$6vehAoRRfz4akokNtsGT&iB@
z_8A-299Qpu^&p<(hIf&RV_cL<O5~KlRu)5t{^t(nnPI>D5A=G5-MQgD)s^#dd|us-
z^-lw3_b_aVo-8D#xq98CGs=#S^WNC3Y7ReeZ1J%f%z7$2(v;bx=YN@;W$Ui*c=tl^
z(*-3hs}j=-Yi^l5?+X=9o_jcJGB>k;t@tL32b$h&d;GRu^|nj>`{b^gxSB$k>4~pX
zkFM32T(tA&Qh~M4U%Xd#sf*lpR!z%ovfSkG+i7zTA6658Bh#kF>m&KhxhQec$8GBC
z<8I~@9qbc0soTb}L*v8Ow&=ilb3hkJ+R7+auVfGW&nkSF>*mf&j92t$pKRsSaGlJe
zW8@T^C|g_m#%=BIi7^r4u6pfrS`Qc}#~YN?9M}`bSNpY0ck12Ht8YJDaR0tdGj*?w
z)q~2mWP^0en;zAlOP{|;s;e<@N;#{lbto)PRZ_~{dfV=X-&K}A4l5T3Zn8PL{#dVU
z`F_Iy?cA?!zwhq}e$(pM<9k9q^NQ!uyYF{iIJL2AvG9bw%@g_fHfbb&$?5gCS|7;p
z;&HQJSZ<c^(x)ayc9*YLJH1ud{N%4<0#}sQX@P@kuFoDfmF~SL6`sH4|FLFHr@{kI
z?R1Q%M*ex`wRYK6>A6DbnUhNlE-#Oma@b|sB>oxU`CFLTR;^~5AljP1B74lPByyQ=
z(U*@0IUcWDYgM*W=2l6~Jd+*yTcezkB^)<-b=r144~{jENYcGw8yB!WbZzAxCMOvy
z&iAWNYP~N`7N7t8z<bd7e=Da~Dur<rpHo}&_eQv_&cZ^bS6f;CB~Ek*m>oFrZ2I?&
z@3MuY)D^B+u}o<CJHvT4W4Ul^?)6#6wIA$U_2J3FIX%8SrxUy4Th%A3ep@Wx;%0p)
zphfW{Td2q@gDqF@Zq3~wuC}m{sp+ZCFEbqh$7h8mY+eucSKdxLzgqpOKf^EmZZ)?%
zt)Zs7+Zsil8LDIkMf$J$e@rWO>qP0JU5gY?YM8rqPWr9)zVz!7HHFhN7sv&xSZ%-Q
zvHSFICFXyB86W7?ae6H5IT!l!%caA${@)U#Z8eSCU4^fOGC3Z9a!xV(Mc;=A+m%00
zT5{ZPbLi2LY+Lev`3CUS$zD77KfUTLoPGCI?M}{YIri6{X9e5T3g2{GJaB!Z%?)+s
zp4IB6?lY$5A2zPN<!%|Z`0if*=uJL%4GyV4&@o$QB+5JSdbXOt6S2Te)qhi7MLAUM
zo4{hPvSPRYadrF1r^`(H!yPg#(*>>WO}%SAzd?Pez>A=)8M}lFrU(4h77~7R(Z4q5
z1VhEiFfKlyW$##8e$_qT=w8;mxb*CwCrrg(npavgUKYqxvS%%vEm@Xl7rw;w>hE3s
z6DE}i+zI1besY#Aw{^da?c{%n7OlG@q6I?E2ua*m7gk=ktN1kdNQVcNxf4^PRIfFN
zeVM%Nm&*P-ZlDU@BfY4DQS9UNbkmrcOWSt$%KYWx=x$u})b&dTW5tZ$7j#WBl-=up
zKUvXqd(T6!3GX)joqTuGvTLtjw8{y)F$pB;FLHI5$joB+%vt_V--@-MS&@m~EN+P~
zA6adlJNv<Qj||W$WD+Xkti2yKo=i5Gx$7Z#Y+-#v;O%!Ivr2^?>J;<Eo=SaP`sKU-
zJ0?L-PMgwwr~Q-ornJmlqs6W9%5b*Elg3ml`ITqur=P5xxkk&neU5d(t<@WRz8}8R
zp6B@Gpv>Rp?#g$(^w0R8D%&>2`~4D`&3*IkWo%z{<GA`NzVt^N-ezKJyuB^bWdDj9
zgkEeu8!GoJ=uPCeZD$QZm)!W4-pZ^{Y7IH_^{G%rU!?nfCbrt(Ng5i>w*=3Aow~R7
z#IxRD8~ZOY!2z~O9B0gKwtqDEeSvqTQKb3N&$<fvFRriX`Ph2-U(4O&c9-Pkdkngc
z{^EMI^+>|yMEje&W%>-XcCKp>sjL*8#lyh6(QNJQw3&wuw04Re5Z6#Q@0+m6V+a4{
z$`^MJtyb>wS|_@}v+cR5hy1VXZ`aOx$|i;s#WI@ji4S;u{q^cIQJXhOdB0Xq*Pdt3
zSe_~ONovXGD7S_CG}lMV%op9D^YXzwE%u2M&ueJyIP%MCk)<a0?aG_&3&V?I876Oe
zS?7Cchlu9alf@nXW*4=@oh)TMb0~57oUO|yG?}{Id9D4$YaMsO#HK&jRdlTxGVZ5t
zU&*`Hb26Wqa*Dsj7j6%yrdyjVtMbk?+L(a_wHfcUJ2Jf1QLmiz@!{dbO9#JAo_r#0
z(<FgqC-U|%{BN3C_vIto3MSPIhXubch)6w2Z^-my=RXk3GW$Y9!t@`B+m-}ew@a~?
zn9OI^@aITz%cW&ylfU&SzkDCZ2U^q{KgF%o@m70e65r-Rl`LNy>E8!zQ!X837GPcR
zD9m8tMiuc1Pd@EoxVK1c#qH;9F@l9PEj61at60qo-2PJ0)XpcMoI&iR8`A-;mSdWC
zSRCq;<-G&0Gk7sKspwk!9k`h<vaR>IP1Dwl=3UGJP49~=19C-E?=KD!yLxHf#dFCC
zO}o<g_-#*Lxt=bc^Z8_6>4%Argszy*_c_FJb&HDDB)3cQpKRWFCic~_m7e7Yo{$vx
z@L<|$j$1VkmpQ+B@wnMi=hl}E4|El6k8O&)b6aidRl7CGEv)<(vqj3A=I1ztdM_%t
z*`Apqx4vPf)MH08lSgKglR~bAJhM79u`-6SyW~&xO%Z`hjLR4dcBETwy=rIDV8eSN
zs6|_Og-zx3<=6J=oU&u^Olgs-7nn7zl4;X?M*C&g{&KDO6{kNtK=<J+-`meRna&$-
zeHVTpwxMA|ckf>PK*4gp<=6gl-8iRhU({mg?NB8BGC?IHM%r56wEx@Wm$w%(9$c2P
z=Wx%3-gAZ@^EPcy3yiRA&OLl9+9QcyF6RR`Z{MCPHhu?m<V3dl2H1U@vbgcrM(!O~
zY@!_Ers@ZFnaqfhIC(91Z^CuUm@GN<1fiK{ru#N!cHHLqZf4JUSAOTsSN#{xnrvYA
zXl&%#dxU@cObwfwT(MWr&%WyC<Y>L+<8bQtM!TaYF7B9Qr&IT<LSC`R;LOa7-6=cL
z!VVpZpCXj=^*Bq&);{s62VC#IxN_xewq5GX!;5Af|E)gxdc&TsX;03iXopz;0d01y
z4XpUTH-)Qn<H6qv-<PVpK7BIv{40KLk5litUE(*{eW^`8-1EUbBIj#6E02!aic4Z5
zM;LGastJ4$xsA8@%l><e<$|UOQYqIxs`tw{<QDS!eOoMlRbF_5*EO-k{mzrPC%@&1
zzkc_|nT!3e_^q9`g(Xh@=HQep;i-4+*3O3M=0{HyUsUf)O4bkc(EKH8;=Xr}rmTSn
z|JUgT7H<nz?NZ&p@@$}f{;815i~3G*v-BM`T^%f@X>-%;>!)QBd-ZdkgkO9-<<f?a
zCvQ)Fy*lpRl%FTRc*h+|2z|RP|LDVgnjlr3n^n4<N*Pn~)6ZYqmL?Z|;Ph;xr#rdk
z2i~|LRMxjSxBT1d>HSre!OLvKyIbS7Xj<E>TzR;1Vo>Ds51*Eu5u6lIea|dVJ387#
zdiTy_m!jO|ceygmHtKwO;DK<nL~fq+^s_~4O1}sTytVBU-^gz&Ya=uNi%Y_{h}SRP
zaxA@FEij+oJ)i9|-~PDw5wBl}A5eR^ufT(ArBD8sh?$wEW!9B`5#I3X*u5n;!|hJI
zl$qYFJ);<8T*2~bn!jzzVkh3&my*05q{#EMgpL<q)EdK84=+tVaVg5(o>6cMhm7LZ
z-vzaA7c&&ZyYD#nFvz`LKGEX-<80mvyLm31->)uypISVH??S^9kHa%(I2W3ifhOI9
zjx+LA^h#|v+`_W`*z+6V{dEkBR!(QRtkKe$YaHxxGrZKgO7<_a!`XZ9X64LXm1p>i
z<^AHda(@}F>`=UAWcIYn=VilX*Mjef(Y960CybI=F0aZ+n&Db0rkc0fJwJS=Bai5e
zqa5xlv~0Z<w_aUrt~{lzLSo?u{>7>vekfiJbl0z$ZFjTcg=FL<0lTouO{*?V<}L&E
zmCaus>8{=Jepb-^XWI&Q9yz{Z@qWgly%QF2zUuXBD*xtvxDV9v)|t|IT4_0-boD7E
z)%_8VB}%_&E6moGy~Ma7^W?UryLMVuO^cG6HI4C3-va-Jc~2D^e}B<=>@PX%8p9n^
zFB#S7#wg>{nfmW89*)n?h)Qe8x!l{+ujQzFDM*iXt|Uvfd|Bp71(|Qx_4WsxFF*O_
z@Lki+{yq2FgXd}IZrXVB0L#ODGf(OGZ#x@!?e_*|wQ1K4|6ZITn35cSu-2`A*S+@Q
z7L||t799%ZT7N3-owNO+$~UiTE!<D^T`+Jh;|xvpzFZW!?9GbI_lGSH9lG{>Hd~WP
z)SZ0k`|)Xg_wKY8x4f}sZc%DT^kPrh{>^Mt&eePE#kW69JILYL<h3kBY;L9OYwf(f
zeQ_&g_i`}rIqxgB)ZOB9;yV5O<oOLz^NU!|Tx#x4e6G^q&2{o-yZVA_%kQ{*+%h?#
z?%1?TRnp-+w*}*8r+&kRDVhwi1|CcH@@{9+ewLE|_!_8Yk5cdQzxPx}{B-e$CCrbm
z{l4h!JnaJasu`Kumm-rVOIu&9t9__dB=cd%*E-PZ3k#K!{o36M?;rnSI(k5MVNvJ$
zhS^`%rM-yzq?yQK_(A?}@7kD0)(X+a!3OSmvull-7R?Uoj|L5{i-<9n<W7+@_6)c^
zd9u>q7l%a!?rDVY>|CJE@Lc)n@@9XBsQ8Zu7cFop+>&}`m8i)lO}}4{S@!JF3{LNC
zl%FTElmB#zM_kk~o!e?L_oireA5n^9I@LS(nR@=ZbtgD0Dua83t}Nq}VsbOQcl=nH
zetSV>@H39gr48O^4pdCID)&VAcxBHT)ouA*flY@xZgd7^<=@uW!_;{E|C7_RjjnFl
zA>pwyc%Jr+@ciPNI)&WR&6hGaSt#C&o}{ta>QU|O3a8_R-P6re`zEwRS=c?%aa?iu
zgnk99e&OrCFZTa$ymJ4X>!Kf_PqmIOdAM(-wonY$FU}SDr$hzLy9Hj2Um4#w`Ig|k
zJ)m`x$_Lb@a{thsaX9DPrtcT#H~d<5hp{+#W5y*`^NX6(dhcGVIkkx&v=>`pUR<KJ
zdhAn8;dZY0;~zW0foQWO)<|A&T28d8#`lRyegE#X^D}H+tuvqL#8=<vhU>dGtt*;b
zTfwU1q~Ls9TgTyEn4sDEOZItzTO;2!yfN#LyLO{LW1HFJwP&~TKR#CXW&V5RHH%`q
za+|9K*X~b$>J<68>a_au?ypxrYZe-)Xo^j}S|P8<^!=Eh`0LXQSqmK#mj2H?68`vg
z<))bv``;aBS3c4z)l%d+$)=@_m;YL~<(vkP!Zv5oiYG-8>-6>6q-QSQaxI+Q=gNVE
z{TG#<#n|yIcy8mijcN9!poPT~Z#27Yi9DpoIm;kv!<3q0ao4r$xfSk4Gp5Xby=L{j
z`3(K+(l>p+Jg#kVbg7K=TV(!i3gf~0FZMq-TnZ915S=J^Z$=w;Tm6Z!`S%v3Y~A;+
zVYZiDmpPaF3O|Q_Lpe$QxtD^31-uG&ZET)0dCAXZIeB)fm)hrE3K9$W<@qwXHP<+7
z=GmFC2fidNS*n(>@W=csuTOd!8nVZiykI$_?-rHC)TJX{z0GJpkK2TY=PD0w@i=vF
z%Ct=li$u7xe1l(~4zRWfJhdbBtW6xFFn63qdtlg2jcaMsw^cE{>wbKBy{b*l$uIH8
zjH@DcEvWud6fGmqyd$@$cB2%Z`L_&7W{2-rPal8uL*l@)yPic;!`J)S-gt2BqI=ig
zefBJ8_P*DBb7+hA#bX89a{@wDqAyz5u?0MdzIfKSsO9FV?Z2dFTmE|a<Az|~rHcwm
zGurCjH2>;ma`-MeRi<_iqnY4|#t+u>u3hn2YOfPfe*246)l;EzF6o?8u_^_DqV9pm
zBz<;o_&qK6GHAt?`$YGyUC%gQPS8(SHn(9bd+GWHff-Zp6>Q>9Hl5yFpZwkGm-T~l
zpLS`jx_qO({p;75<IA^*dppWEboLf6{X4m51K%mt7S+GKwR<ACeleW6#i8u=ne9e<
z`$id?uuzr$vjG=)AA~)%Q{m*#=}VDY`Nl42&EokYUl=1IPP%g5aXzzCs^{s0mzFNi
zT6>u9@p_gXNS(^RapUSv%OBI2i@)5z!(jM+<x07ntG_Q;*u}Xwdn|tcxVGiP*RCAt
zZFYy%qdSfLFR2?<{`n_h5F(hjsD^vj+}kk@1&_^2LysBHmkF_LE1uq*nS1h0ul1o&
z$@4m18A|6xO;fUV9C>*%_psHkmkqN8pRJp@?R)u66|TKJ6)8&hEFL7cG(Jpwb=zfQ
zu8(Es{C^!!_DQhsxy-Opqy3H<&&)?nbGM&uW#9egu&oZ?4~9D@^CxWUvF?xCx@v#j
zo9zB><~)Xe1t--jWnQ;93-)Nf(|Vs-c;KwM{HmHsFJ_4b#{PX<yW{y$M)`)&*>Y(+
zf1UT|>%KD2{?I0i2h1CI77ATTx|Am|$zMxcY31T$jOGm<dOWgzH_VLLZih8}-*xKu
zqXvG5Ej@y{VyE6s(n}A1^-pX2QAYEIjh#UnyZIg!&G@%Tf3@7qT0_1c3@&~lQCvZ$
zZ0|qaY2O_kBDZ~;Zq4kxWr@j~Z~xZ&y7-P+*zBWo4=+=H%6Frp*7W4Gh3l_xJ1h80
z@$xeDr(7MMIz0|F^iG(R$;AC?{p%lFwtUECQ`j=cb+`WGB-j3ZKVNPAY8T_@HF@%<
zv(5f)$qE&lW{946k+fRj+UZHT-|cc9U98{1+;mZ^VUtGBCw_-=d9%*iyKWT|TtA#D
zSgpgw&Cl_prAJ(|y@u(YTSb82`>DRS%$YXve`YAT%k^zB=(gVEOY^g$cKBRm<X^Ut
z;hFkEt!FRn@4Bs+Rl9!fl<8d@Q#ld}Jr@=>i~js)X(OSSoqzS(vPr)pQtzbl$y*z3
zu4lUEw!-Rd#r&_wmR-vJpYs3MF`xbQef(jOzk21I;(c!kEUw>le7hy1Fr)k#MVIv-
zPO41(JW;B<sM0O`z#f-rRn0LkYF_3ZE-<cQJS*|0)qBq!Gxta(Z{`g_>3vljEEE&o
zonKTGzvCs#8t;^o3}&X!HQsOvZdw`oG<)W}hTlSwMh%(Q{oQP4pOU}5Ct>fmj}ukG
zg(Hm`0<0337q!g3xHw;JXV+@OIwm=gcDLL|2b^Ar<R1EU=;4+I$D%I}*&;Ibb*k)$
z*`O%>`m}FRVBA%gX=k?GG^=zomS351KXrefUC^~lF4Nc&(j4ucu33GjJ#ks{;^;t$
zl^-*dytmhO{3xxN*mg`!;K|hMu34{Vo|rV#d5!?XB<4PDvuOPTyEjVqo4+!g%gM)8
zCCV9dGAw6Xb?oPUInl#CRc9Dle#~95R?H&$`LTP;O#VJwb=<|vzP85T(5Vwv@wP64
zi>{_I9=y%{-OwL&!}Nql$K16z7EFw{_;W|&Xhcs{&(9Qt#veUyKcCpFwl~|pG$G~4
zwH3!p4ru5K{$P2K#M)ab;k{wb9YMCxIXn73C<Hz-)mkoFD}P-5@zJ9Gxa+&#D>g+|
zl)AiJb8s1ZPJiZ(Bi^q+r-F_m*G@>3W1ZjQv3y54v%$}8zAvJ_hdWHsIAymamSb`0
z2A{y45AtS%CUSk0n4P$jCJUa6n^|}Mn#8Vaf1CY}_4Zb<-b=M9$(-Hrul5FLH<<N$
z-B$&VoDQwEFYTNyUzX<B)vM#{z@lL2bZv%Wi7CTp*ZXOIpCp3>SNTtl)l}Abyd))l
zhi2PW`PvuPY+t$Ye`GTHC$wkI;trv-mgg7Sx61!z5xHd|Uv(}~)bgQYY4Q5?Tjlq%
z`s_ZE%M~V`E4B9C^l(3+!?*hDex__I(so+>Y#ZmZU!N8gC%$#hci$muI8DipY0+I}
z_15nP?wV!W|KgNr&ps9)`aYys-frgMU2fCV7MKX%bmipgc`141L-+Nhh~F3e4=lK}
zxc!8vQ&`Qe?d_}UC7j>8ueZ6eFY#ubPNspb7f0!`hkV<4BY8mkGz?q}r$t;n`)N{|
z*wMW*pkwJCh`CfviDJ27mUyGxf6~8&pjl-$-)(80%!j$QF>TIkQu|W(CH#QzZ`PET
z21nL$q}|?;Gws4}&@`8KjL3v(&Sp-kJ>okWDi``oA6Rm$*7BW{hJ601jcvcL`Rj4l
zRxy|b)n#rm|M^7n_`Y3fr?<Vdth#&Suj%1!H&sgf^$guIs@bde+9!ceTRStU@=W`k
z_QFpxtD^r3I)i3Nm{YHCcFb*cluf%`;p%J%I?c@>#Pip2oo&9eT8_OER(Cpo@xHyK
z?4;}526qL@Y|qG4l?H*8O-Kq~-+Q;n<KVo`L(haOoIs{c{&JZ);hK9^j{xh%cZ<G&
zRvr0#YA)Kj_4MvJ^9o#7oJtY8c6gWlmc!jv_f{P8OuJn%b?wAOylRQI4CgaXF`c-T
z&+#FAckUnmb>4?=F-%jKClbB$;nmqKZu=+Zr7ZaWS25xJ(sR?E@Azu&tP;KI%JteC
z(^|eV+^O7MkbFG$`314;9p4p;zZfUxGA#Z2bLXuMVK?92sR-KlStIKEN4AK_QkN*F
zDXyBvdBs0oJ_vB)xBhG=v+~pBhj&c&?>QZLk8g5Jfw0NKBXVW?nBKYCRJ}@Gc<{5$
z>8G9MQ9=CH>l>7EbT++W_Z3`hJ$?QTQPuAoK8qS;*V}F~3Otjw+cdQNw#d`kyNu44
z_Q>hpQ2WwS7<4B$c#2}>{KEmN=BL^w?qTw6E&UKa^V)Ug1Gh|e9uRPx`qzTtZ|#k$
zna{sYzOC5X=;88o?f%)lZ-1S3{j3>&Aa?d<^GsvMgEP|l=I!Qxy-h&Mdg~mkIZ5X}
zp6b~l&%5wr!TZCj>Q0FYYz$9aHnF{T{T$BMKb~-|04*I@`u%w39`>8<-1m>2wFwe^
z{#P+!f5OVcjp<8n`hR<LBj<J!M=!HMru=-BMQk=zhco!s^%SHeXJzYrJ@Dh$A?-_B
zR@D^Ev0VAU>+<}DQqyT_3${euT@v@@&lBBQo8PoYzS<|{{nuPB$L4@KL%L+K#98&-
zmQ@ih-5X69w>$s1@kV%dK=}P<iz;3j8eT~@ou;NR`<v4&x$c9OCMuQnEx)%(d8Y-I
zZOrwW;IUiN<b!Lw(qz?Z5wjXL&TJBw*_)=vKK<6gE!#||StSUt8VT)bPOIV3J$Uxs
zB-3n`Vm8C&6EzNAd+xi<cbiGw`q-kBf?FKVcn;K>99`!VF<)JM_UVJKTSYS8gC<aZ
z+$j1oNsX)6Oxk+a_Oo%~2W6NwY{e(7$W$$DIF|d^s(<&j<uQ!@vyHs<8m5}eIDAt>
zcjw#3%3D|UCY)o?(ejly%@$j-=cQtJ3hR_Jk9iHUkFk6HKi0eVyw=x8+h%sG=`m@t
zWH#7X**szLQ(sNv68UQfer(E}0Xn%(Vr7ealCBto*qbNG>GLn2d#2%LaGXJH>4MX>
zJ2;=NwYKZl+|*~F+hi%W!T6YIU+yZS?_aM*Gk(r0_?Epg^Y*(le)>0VJp1+O^u6Sa
zR8tG<2aeItww^9I*qQ%q$qva67hYu*e7o@X=P6f9%{6!ZLyxo{^DNAty=^_)bD4)5
zz5k~^6S}Nd>wf&{gI}lDu4Q{JlX!93<&cxM&o5jEn{UwMWF6MLnVHS2VRFxLlbDGr
zhfnnG%IA9h!u~F!YU#-o?YJnnupZXe)n8_TZf5l`%-WN&GxwR+cGLZP&M3Zq(R=VF
zqwwG4o`8;&qaAz)o5~-z@9m2dZr$mA%e?oTYheY0h4P$2(ev?)pC<*$H#FYe`qSf~
zs?SvpbH)pM`Kx9B*0#)i@<d_D<Rv=$H}cmW*tO&eZvwyI5x@CzKSh=_-+d7SI+*X+
z#a$gf>$bG`oYy{4`xSI9Uw~GcL}b??3H{>RHi{?P<J{|6&#YlzVDfiev4!r9H(9Ta
z?a1}^y4y2>)hlCn@RMzx#?gX*Le%05CkL4;r%X2wDSEiezn6Dj{p`Eqs_y?YTGsfr
ze|244J6-VqGG;&KTT8B-<v7XUv{EO=sGzK^<bZLLIj6$4wJ+RXT`=1^`^y5)gjF;B
z@9hoO&r2=Uwpws1ZJ*pCi^fp9oQ?zXiLrOP_;wgOo)A<Dn<8LzHhzo7?^j_Z2fSD-
z^K#<igKnC33dad3=jE1aKjWzWt!~x3BlnF=)vp^9w;s8+c1H1ucbyq6fvw+5Bercm
zeWf=s`fit{lh>t%0#mo~a`Z0CII(u|a=-pk?PuFOSGhU}3*BCJW5UXG%Omp^|G(|;
zvyJbi(F^%^ufk4ToUOZM-WNuDMpO5C)-_oLZWC`LZ*-g45cmJ7M0MZ4iyTK)p0Un0
zpO`FhZMuE?ti|;vPMuvx)L0u#XT7-d?55eq=P%wjsCHRSUv(zY_osJX9H?aH&d-wY
zzQgfyLtU5tY{_KMm_tsMPT=1;LK~W01?Jf>f{s@;2!1@zWNqxZPkF4{W51gjx&QxZ
zcj%0eOwp}E%Y>=R+nzi#+uFHCV)=*PtN}vJNd;U98zl?OTaR3MbNu{E#)L2>$*0Xb
zHI6O*KA+**#s5|EiZb%KZao)M6e7<}vUmEl@11hbo^2LRMb8(!O0&_t&bWN;?~lKK
zb1=IG?mQLfRrIRh?4@Vj(nnUzJU-uka*|2NQrGj1(+@98zuC1n<$Tl9wQaYbadEs4
zz7u^+C-8$%PwkH1zXOc>`x#WHdX@%Fk<NeWeQ(N&na8;k-k<TF9HF&l`^=oXf1-@P
zO*oKS%xd$0$uw#2cJb9BT@zOB25lyMC-`7pqk@&4<iRaj=QbTT>fI~9SIS$trf5%N
z*XLF5SUnx4iR@~LoEG{HbQSP(=KepNRf-!kI9@-Ps<CeV9P#Z*4DW7f3ty`jeaUe9
z<EgWrM?r@>MO;<M(^@(yH+8kTusA578C@KVx(}XYQ(M6ppOf>w=*8a`?;FlcTliD$
zw*5hCQ_<FameX%N3X^cil!;t=jNM6fw&Aot?pm_l(S{6yHj`ZySL?4ne?2$H{HE7Q
zhsR+O4y&RUd_S%?OXBzv)tq%7esfBQZ9l}Y>7de{289MiY3^&nR(&yEkHaJmc)4!U
zl9n<5X42U#UzWDynoH;DGoGq8Hw$Vs`ex;@{V9^ybJt%V_=quLt9rPonW$>5&x^X^
z`3-yAI?r-=rZ?RS@2#?wC}f`g+~MA_-_8e?<w~yfZaJN(<!53aBKlcMRj$GHmcgR+
zH`TWLZeEoar+inqpjU|hfR2dwmY&X7;lpCQKO3^AR4_R8+6R{R)x6<3`0}IPcJ=Gw
zk&BNo8@$p=&pk1zqM2L4%Oo~`%bLJPj1{-0h=iP3WXg9SQD`yey5A>LLFV}ey$m__
zy4%QO;nmzJVwE>%YHVbD63W?nEOy;`O=TX{%KwwY`|EPpk4Tsa?mrb&ExoGph57fZ
z+N<638D{=Fx+rC5?kk>|dHcEobwENl^%*{`^=z4aNu>MUyqq_is=honZ_?Y_nUl7E
z<L2^YefRZi<n~G?F4Rb!wv#zFPi>94{d^(NF$EhuUA1S`ybU@td(GFUVf9CLRefRp
zFd-=S1P6O>*Nu5Gc?%g?SM<2&hfAJUixSVAJ4JE6&BSS4d;9*ax8EzgA^*m*sPDIS
z=s&)=X;q$_uHrYVU)l;OT>PifCOzn#Y-GKsWorG7z75gw<_C_boKahP%R=+4&EmWl
zcHcl(p54B`(EHrA`GJoc^phG++r0s8uXldMz%b*eUCuV&weQ2eSb<L6ce!ylVrJ$J
z{`5_zKbIy3zIq|wTd@3x=p^f;bF8~H^d$RFNiK`NyuoL6L3?5G`=Z*ZS#~%1Sq$C(
zpH+6)nWK0t;t1n*r?R;H7d>9RINq+j<deOXRE9#v#Kj+F3%)I`=QuHGgSZXjql?EG
zI~J^)zM#|AeZ6UaGc%LgEkB3M+I^lsDsPy*yZGAjm$kxemAxqoV;*rzJUuocsGuKQ
z4)JrYUvSu4fU|q%Vt)Ts&B^C4#xvaf9%g6x_PDB+ke=@H>y~$_7k#jDYMUM3b%C|8
zHgap|`hNc&Tlf0;&PA>hR@)yDxtVk9xcRiIzJGituH~M%`uVE&vT!x0(05<2Zd=OO
z$e5D!jP+sI#0@Kq*><lNS)9rj9U&#qbALzoE6b*=Rc~v2xT>OL=ZkI#FXCLC6%iUB
zKGia1vgHXSUNyE=U-$A@c$&7&yvF#jw`gA1w7u`oEb8rzz4LnYSFd&43O`IYZH&IE
zay?In{eET6-bt_7PBiTop72Fy&*{xyD+_j;x*nUtYkaoG$nuE6tS<}ucUMmT`^4$C
zc$CxmQ$f-mVy(A!Jzq2>El+y-t%EvS7OL_%L`ctGv+0@J?6uNgAK!TUV*6RqfM2sz
zg)}M--qO3R_kV)ZMDX?*;e)~r${m7XliR%C<sPp4A}`llkS@2cE4HF<!_93yH}}fi
z=>NCdy<v&kquiHq2XstM_?vy37^kCqkm1sUBU<8|%Z@50PMo*l_l>5L7lh8py!*vs
zpm1cu%N5)j`(hNOL#3mdBonQk=zPAFwBpnUnVRO$FTQH-4_L9}znhEM*VsN=txdB9
z4klTyY1nJ`l+9yl=k$9EvL;{8zhm}pcF~t#Q=}D~m%cFBV!J_Rk6zcr>34oJAJA!g
zwz_OlO5PO)wfw+{R4@NmOdTE14*D;<V0LC_T8#1fua!R0>-~2!n&sXIpL8VmTiW?e
z{1U0j@r(y$?{R9>YENqMYd`psc~jp%L4{QN4?Uaq$C=$`J7e;`$rm)k%YJ8x#bZ^^
zcukWvvy&Rm_9riobN_#MzT~^tG6F6)ezq?V*mcs_N-x4@@x5bydqIii_EXo>y+3<q
zmEZgt90Y2gsGZc`&*2%_k#g)<+04w9pyMf4m&GkUrFtcJ*^7V=+zi1WRe43u$_h))
zXWZ>M`0{IfU(bz251umpShUMa|MrAwTEV;XzjNAv^twlEoiB3RsKF!6SMd7vWNXDE
zGV7FcrYu%u`a30dm-$!!GEw!Q>$|RVz4m*_YTI_m>BAwW=NGov)lbUt1udnnm{s`7
zX43mse>un4lmmA+gAZxZkeXC`qvGHysjmw2cl_RvefK`&O$}Z{b{S&>L!GbJpVls2
zS6cr+MN92+hWNk44bu)!&b_?&$acXZW#t{GL(i$raBJGlU7^$ZlWl^uRD)xQYufbO
zNt^fjA8StJ`po`7kI`dBv9HCP+-ZBKo0{)pYEzBAIM=DJ=;@+>%aUf>bX#xOY*#7;
zEppXk*(5w+>#8MdrD~<kndj}g_E%P5R%XZT4V@=AGg|uQd%Oj?gf*uqSlKH4i;lm(
z!dl0>rF^F+tu;`da%`ej$fTUh&SDdHDX;O~mc-!nb^A#ft)D5|&zi^Ds~)XA88*Xz
z-L0ZoYnM&eF#I+ly;c>p>z2dg^@A-6n;85i#=V$ZscJc8irG!B-MOn~D6KiT)N{{y
z|FV_)JEOiEM<<$XGdbEPq|m<6L_4Ez>aX2B6TrfDm6tc)SyWS``)u;vI>wdHU;O{{
zGoQsLxkYDPrR%47j(d}DHNHO0{e3BD$Bo!qmzge$xf(9sY1g}|`&H(z?1r!Bq#Prb
zJv3-s@NA!^t$Y3d6t(RWOoM-!Y&CTIb7AX7(2-d)wx;?_dLvoHXzU{JcS_YO%U{+D
zme^0K(dxUWQ{lNUNq6bl`hO+tJ+~@#wPv%5y|r7v{;0~oN=BO_$M!L)y=?e3D`ocq
z>8)$3&HqmPwC&wtISGBC{l_?(11_Y`j#3f7vw6<pUHrNa6uS?pGt|oKh98-GSmt`|
z4aTWSozt2EUoDvyS~mHghH2EdM0S?i_)k?^ScA6s=IX_!POqKuc^AL6!jhNW&zP2&
zyqR&5b-#S=6VsgUiR?a?8YflS{(O?)T6I@zNz409zc(-|O;URKV2M$oyV>~{k6!Ek
zo?!Xwd_TiwJ<e>Qtl({4pDtd1=e<{cZ=26=TX#|AlgmY{>^h$wfBZt1^L44bocD`5
zhDCc%ZakCdbL>IM(~KZc6LZSFgPxx%114`$E_wYGB*NGeG^yEA$MwzO+_(*O-B)K+
z+5h^@5qYFrC48#?x@m9c+?jmo_r-Yk4v{LM*Q-4RQ)Q<!cYVLpdlz)NY^z6`Tx*cl
zZvT0Qg_R^tFZ;f@$FPY(>YBLkqZE$bj>px3k6NzZZh6PP;M;#TTSr&T?;ABT>|V9L
zd)YJNLhb+Ag1uZtK{NUm*QN-!=ABu%MYZHU<HLhtiJMhQYqE?ArSF?+9~atXuACzE
zPV^F^^!ZPQz7t#izh}6X%XxRUpquJRW8U^CW9ePxoV__5IZofxTGqTgsGiN*o5>_S
ze@B|KyZ)Z_@7ND#<{$cf>*uS3Du(%8w|8lPuF)yD{;z6xN@3t8+uf60;*WyFYFplz
z@9N$n*>`Wv6R&*^E>fVIb-qepSo~qa;&dmLhbNE8S^nZqs7*GPyb>n!>q7Wu4ZW?(
zAj1S!YhRV;dG=`Htu;Fuvq2YmXfK#nzUa-|s|6=rI_K{@9sBy9ozpburn~OfY84_Y
zSxRGnUfZ&s$J6-Gl%;R^^i{fyqTD7}AF56DkUDVcHrp%NMKwvYlJe{JUj(UQ_DC~5
zH7i2BRLL~C>xcQb6^pNLzOz|$`NVT>nE^b#EGE2>^X|4U?)%5)!7MD}CtAJovWnln
z39(Y3N$2(J7eui%Hl%J7IaAl`FID=*{J@&KuP1Tcyqe)7XfI&$>c#u{K1z{-K}Ju0
zJ^MO!z71n_bkNMZ{}24+kGd9;lAO-{!nCCCiOh_UXAC`yT#o$?2)nt(qvDeFjOxda
zn+4sTo|C=wjWg-uwwrU_zuvlGi4l83)$J{N`W{JzEHG>=yw9C+_}4C`Nvy{&8SG5x
zb&sF7#QxTXed`*g9t)b7X7(XC?W=pmqlWE?wQC!m*LpZTe!1x55*F?7iZ!`e;RiN>
zjGOqvfaBhqzz&u0`!_1%57)kyxu!Zbli}un?qin}SIe|Np1fMWWKLCI++(x5{Ayq0
z*R8ibIeU`(A*t1GmQ4V)NoLHNBF!E;Y5lgNtD<kts_Og4wd3N)#QsAX>PvOrt^NJ#
zD`-?r@w?P~=lq<<vwlj>pSO5_|ArN1@m5DnXJ53e+4TA~sO&LV*}`ghq+^SC@TRwA
ztsb`S{}ZN`>z-W6RB<M>F39{;Q<U&SlLo`p8mVH^w?+1-#A{Aj)TVaGl0i8-edDz?
z+I~KJ*T0%R*<f?N(j4Z1C=R9xjUGEhy%kqU+qbMuQ=0Q^a=BT!)%x|zlJpPe<k*{6
zy_o%Jdwj&TE51A*-cIteGy1&4lmB{R^6z5sRPB*pi@XAQ&%daf(ffARk;=>FPwkvs
zo<>M5+f|&+b8R>O=Vke)lpRE?53X^rRlSjZ<(}Dl?ggNGj^<icg%t&6y%z{w+|D_x
zv;{P!>sn>fAtYjQZ1&#Vngcp!-$Vr#We4q#Y17+S`Ss3)+B8{Pt>}DZ9W8-_N2Hdz
z^q5Ee6%5<BaeYIp(KQ`&HHD%tm3<f1UO#>2Vtt*7Q|9T8T;aGSU-Rd<pYJW$)Xt*U
z{#&N&RlZ0(|EtTzw;g`mWOaG=@watCV6F5OJNL>T-8*yd>|)qdR4~n+OL(#RXTf*x
z*XmBrd6UEad2zYrlLdi~v=bKW6Ph2G_5JNP&J+IUiY{n;6cs3u&|H+_Fy~kOGOHV3
znNCcrt!J1KVe(~_)y<e26F+wPKlxjHLE~d>OOM=!*iAhJvoG#^W1ilA=<4b7_ibk#
zULe}K^#sRbovC-jw?BH$y5aM_B_fM9hisVO>6N-uLZf%n$*^$Ft|?W)j>Zhex0`}^
zHhlM=Irr4+{4K`Me}8<);Vo>L9Tu_q@#K{o$|kSXxnEz;pt04q#%;0<V`1Ee->0@m
zhFO-~yUts{pVVdGJ@H6|RKslRLpLhp#Sh&3sO7C+I-@vvU+H&e7E7(!Pq`vAS2@<^
z9NQS`SXr}ax5k-^=eeYqcdVQxwm0C$jm>@kJQp%fF8{Xe;(keWRnME&v-6G}-uCP6
z^`7&a_>&{^XY)zih-=DP?JD!Z;PwRBy1>f5(!IHA3o^ckzI@YkFC%!%A5Tpd(UbS(
z8JZ5LXRY3?rM^7zVBGKJYkqH7yZtOn%gw|7_m1wp+a{;8F2BCzc-3v61GcLw>Lv*s
zoD$?Yo#kxN?IpQ^kMF0yh|_CVk`c7|Qf++uSogu8iFa0f<agNeTI^_N*Uv?E-#$za
zlzm%Ubjkdw-65fr<jL!fdRzHAY+tHiyy`taqj{)bTD^OS{S7yXb-zmdel3e(aGoxA
zbyB2CrCX_i(w=|n+0Q<5-MDc}eDxmJ%HXu_mMJw0g-*?qFs)-g@vd~sp_Jt5Cq+H|
zeFSri79X=`D1T>db|~QW>x^fU#qV9;m3u2_{q@N|H^}gPTvGAX*y^hM$`Zkl7{;sq
zJDIxl%=9BF<P4&oFA|wwe_~q}Xj$jVQ>oLsSk*Lm-k+Wtbkb7iYt?D>Zga0x-#h)y
z7iOG_%G;yk6=wgGt7H8tCJuT2pI39-UWC;foXU9hl`Ub}77_i3BbG^KPfHj4`q?1$
zyUL(__LhjV9B&P}<IZaR?hcw(wf7$LWT`}@pC?XbT}!{=S}4CVCO&8HJVu{einCm^
zIh^_HEw8H23%OT)qJ)(vhg+-nXm`rRXLf7qn%YD&-}5uBwzAvv@W3}&PAQ$P{keTh
z86Eq}j`)V^ExzJ;@T^1~7sK9Dtgk|5u(8Na*vgW1&~4^nqm_A2JKf{AJp0I)(4)0f
zDBfl3p_)zFzVp3fqy%^lxGjxJtC>+}-I9AtTy+PVI{5U*X=>*lpW`+=5yR(Do^0%H
zFD<}xV6ICP*O^Cu9a{2LG8U9St2eqo<wr)#?2MV499Z_n8%f{R%|5kM@8<2e+P=vP
z11GLM!Et!S;^UFul)QJYm|w)c<R`CXw#$?o<y(9YJUPD*bR(jI^v|uHGPB=a=4XBp
z7ymS3({|>7-xr(>*gs0ueEOtUZNt9nrCRlEM!{7|vt6V989CfM!|~U3C1@vKV5`Q>
z=xyhm3^Mm=e(Zc442sZ2O#yBvHn40vJ7IAp--^0ZwJnQk7Tq+qn0(p)q@A*cu{&s_
z%u1+rNt9Bx<)^BSNxP2;6@5{w&Sua|J}Xl@&3u_e^2z>ML-+r$YXi3=J=@Bu%yDMT
zq`A`7tTEYgzwZRp?#o;hux@?WS>soiSc_vpN1k3{akN`_xOm2f;wmxwHQ8q$GlbNx
z7cRK{<k-5aI$iH)y#)#BC<XtBY7uju$eFxl_unO-_Fc1?<-e>)^mA3~?;^Fojt9%-
zSJtkrH0i!HYuUpY!mUDH@ggD)zvl0`W+UZrO@F^wmd*YW-u?61KEFR)yS7rM!7(Xr
zeWc2=4f@~tBFyH$IwmKi7MSs@K>rZOqzA2LX)k9UKU^yJeV4}Luh)An6-^2{|7+Qm
zng1+mE*5>#>NT3jxa5eO#H2TiBzUJw7>a-Yb?d9|PA0cy_6!vl>_XHxRe#azwSRwn
zQI9!;>SN_YzFAw`g^!mRKj4v;Ox?pcBXxJfuiHobH80P(J<r8r=HmbFF3RNH*z=$u
zY1T|rsqJTll_KAjez}#j_3VN?PpkHdOvl<>HLXYMi$MJ}rIY$cZaGIsFO!tGU%M>t
zUFnzb0}8!I;<x7Uzc$GHb9DKF=b-WCJ2zrFP5!Cy?cijw)!cJxZ{NRzGI>>BOfJQ}
z)!NM@cx9zQZwb4?rTvF?*&As0IBxsNvg7R37bj-A?P8md^m7OQ%(WJ}9hpM*D;J-C
z8}aJvE(3{gv7tpq-xCFG&rQ7k`IP64?+32D=5=s!of<J)rQ@QQZt(Yo_D=kvYa3?g
zJPGIEbSpgZ{FvL)o!k=BtM>9qY+?Atk}^G)<+57u{vSeOOa9KNvbApCvvI3Q&(#Dq
z-sjJmR+Rp~D{H{X++4c&tLr8C+jrXY-sZN&roH;AlW_Hr_OswJ&l_Lb@2zEAzNT~K
zb>oKiYYpkSOR9aizs<Z@_vZCi)8q|Tj#jy*tUnn);cR5t>Io;_Z@nJA{G<FE=5xKW
zPkcG2-QE84_Opof>-lcDsLZ-5FSPw;PPveI;#uvde;E}n?GN(Xl*v=J`ET$l@nVhW
zi1q7#o~)6LoBZX(l8br5*Y2^NmJ+P4J?pwq{r{??PrtbNUb_GFMfVfXI_5W~c1zYO
zW$n3r`rz#wOSA80zu323#c8kHKfRFpoJ|_lhPR)6`1AA<XtsH`$-V=^0bhzXyi5q+
zy0`>%vv%~vq?X7@|BO?*EWg~F0#@Z}_36-qoL{ecS$HR(f46AOPZ8txFWzyhO%xn9
z?@aLPlFm#w?LN7DhX1o@rtj0l-{d`w)?YvG?D8q|7GGadFRtLIxJqvCBAa#-#>Mgz
zbZp)0*>ybE>Z`4p-S)R+>Rp$_mzKY@6GZP?Ua`sZ>fiYH>z(qQUu6D@ZtxI4A3n7(
zb#_>A#sjbZX`ue1nWl@a{mh^T2App%7CSG~`Djoh&3xjS;)HmPNsQ}v-!xm-WIkD?
zEk9YT^%w8@imz4&Z{KLo)0!-jc6hsFLwm_1*HVLfLP0&pjDM-Lx(J{Cko#ua#a~Z%
zX}5ninARMvel#}whgn+7l#NxKNqaWS?=CzLE9+Ob%CJUyvxd%}>Vvil#Tlo1C+8m&
zvq^2sPiBaW_#mX3IJc>{R(1cjrk|d|67Q$Pi9LHClNwfHn4W+0TwKB&-bUYq8iu5M
zM<Z@+2~XShRa4J)*^xag$JiCLIF;Q`D6n}jY;#{Iy-F$Z?_WlRl;*2;HY^6d!70^6
z$;WrG96Kvxw1~5?x$10hTz1Vh!FS#Xcg`s0z7lQ}{ckv1f$iL;Y|A6tSdOtj&|AcI
zqdiMVzJ2G$Sk7*t{?-GRW9w67CRZ@NIeK)K{bIo<uevtyT@<KbOAtD^AyGc<p~!dc
zYxUD7gUW7;HS2xDD`(ID<8riPmiv2thQLKS=N^Z(Sc@;)l@QTwIxTnd75|;}My<0R
zG_aq%xczVhU*56y{H2N?Zur|B`IV%?CV2j?obC6k$$fP~6=&2x-#fsOspA?Q@~_3(
z-Tb6L#ToT>UvA!}Be|P$U%a{Bo*Cbqd7Q<jq$SX2VlLO2JnhpZciVG$mz5sSFyk%l
zY@KQ5dc(n_%-_rET0#`N%gg4x**XoA6+0!iR9ij)tMfhb|3TOb<E*G-IjbLUesfsn
zTEeY4&O*n}`KL`}%ka9GlXHLasX~y6XZSAmB#Rq9UzIzhY{$Hi>$|RpuV+6wAtkkV
zsRGmdj8{p|3kvh6hrR<}c2c^?U|PYQM4et0@f-L5Et+!lflR}ty?hO8W**Zz-^cbA
zd}^<L!wacttOchJ9Y6QjH}U9B>-OJC1+y$wR)48kvgzC6`|g5ILnr3QCPwr4F`t<H
zQE6>*1h2VM=)=wr)q-n(f5>Q=Z4>n7S!dPWpUZ4+x1YJ_-+XzEk^fU~k!0D89}XVj
z@W1loX6{jmIo~Fq+}XEy;b%MfUr#>sN0#RE_!&EW`{c~MIF^fnfAx3KySayD{;uyg
z+ZGY;Ssmg28gw)V>+g&8|2Yg+>KUpY4BoW%y#A({r|oo7cW$h%u`1DR@(ua1SgY#$
z>(i<g!RwFTxuN`^Hp9Ky*XsYmW2x^BALjR%r26fnozsa`;yZJ<De+ZEuk^7nT=zBf
zR#7tlfmkK44GAYXoIZV>v3k$$?~1Qq*xUR{;i^)q^Z35)hV*aGjcm#4&yJZjh{RUA
zx_I)Oi+nkM-pnJWI(bI}9tYGNUj1#J<C%vW+|TdbICJs;XM8*O56WcSJ$iS`-NyUR
zQV&Ef`}*-9ha;2d>+I%6vDs%{R=kLP&At8EZ{`C^eCGF_YORmE-Oaq?Tw>%MF5~t$
z|69u=Cv&G7-#)hXl+Kxp{@V|oQEXiq-~A$ANh_#l{qs#e-B&;thpaJ~*0n<AfXY0<
zbLvcjTg-cMo>k<RS28_dHL3hswz_ENo%Yw;0^6R5Zt$8d+p!_=Jfq+_1IE9<3&Pu;
z$QA@oJ?(7yHaAkFT>f3+#IrIDk-xf`47gw0v3|a=dnbe0ce711nLqqlrMoga><7!4
zGs;fo|2QspPdzKsuzc&(l)x2reAo7hnitI6)mr)`*zEEeqv-dJwrxlEJU_j&;>$bM
z-K*yp{ZA3%xnRGvqsr&@8M_kElV0a9u6}U=JY(>2nMUvb4Y!Y7Rn-IC5~vfjhnr>D
z75>MbwqKb*J>3<X{+;lATU6`I$sMq+=0NhrRZ<O}LM;v&Ny+V5HdWgX?E<YS;fpM5
zTqh9yo#~A5gCbY2;Ct6a3&g7weqA!3d06DE`tR?Gj~LumXE7ux9{rUS=q(al`mBJn
z2h_&8$gy%Ece1AU+Q_YsRvZLf09o~Q`f<s#I_AqZZaFP;?g>+l^moa(py@i#l8%cH
zpH4WFyk%SO{@g12U)m2UC0RDgbnUAO-p&7h6aNnV#A%Ej5&bRiR*E$FZ;L%V@6F+D
zEs<x`<+a}2JpKC74w*xfC(XI^`{I53nY~9Qwyl=>z3Q7?$zFz+?(%XBpJb2K?#TSw
zZu<O>ig@uC<1<NimMVgqR?m{w4a>cHl|#!tMl0jk(VLa=fi1-mapKQpc70mArpH9o
zgjpa;C#&`$|6$YHXPn>PzR~X1`MzOMQVElM5c9oBdlPC8Yznzh;t==OQ>T4Vk;!6)
z2`v8k@^VtD`_3zBZ+EZ@TsTQ`!jX%`y-S@#d*038^Ln-WJGDPgXFlQD7o({9-IukO
zQRmjF-lK6JzNTpzuiJk1*U95Sj>!x+m;VTTJuUHe&#E&Ymh4%VciYKZ;@~ZXx2iMN
zzBm>%tNYQj>94OD_nRMBXD8bv;XT>a;iGgqA4o|2KyHC+nW!w+NfwpZNj9IKy)QqI
zC$6;fz_z=NHmmtwZ0lJWecmR{O`=t%UpQE`V`6T;ML1ha-mZnJJO`FEF7V}AKS}E}
zzy5*Ze9d_&8JuZ>5h^VcgVgxGetG6w_}I*3CC}=tmdWN96%MG&7uCvcwyKEsomhIi
zBzKyq!23e6<W9wE7M12mk?E!W@1H%cZK<%U%xdD;e^@%UDs|U<nQg71rVI<qHQ3TG
z7CpXcA=Gg1>(P*w#L$_RDGoxuGP5H1eydDky<eoT^Xi6GXJj`0<gU^)$PVje=8I~x
z29<bWQ)fC0WiNa?XR1XY&*_q4f39oyH>^6N{+ZK(`-{%ITuGaVtkRtgsix2S44txO
z7<|@PJ!kp)^2~)>-y9AIFJ8y2RIik2(dE|6Zgoli{4S?}(BF@n1=T!b4~Zmto=e<S
zdF<@>7ugxBEw3|f<}kfz7c%egog2Ap7eqe)5OH>=WqZ5Zv>BZ3th;Bo*L{z(HFMwi
z><&xMD)!wMxgGLM&ia=%XRbN2;n^LQC3g<3?qZl!pRq>&`p1<)?(*`rMImh|L3$gP
z?%KJ{w|AER&wuO&O&(EKa-HwJUcFB>BQ;H*eY?Uesg@h<;SN*(A6TSfIPKDkj|XQz
znt8-D%kC-P3A2<N?ONdxYpY*h3){f{_BXS`3yY5Ei<9<fE~~z~QR?k!yPjG8JNpZQ
zJwGh!O8K4U*Htg?c6Rw4@m4vT&D*uuGMvAkz2ClN-=SvzWsiGzH7t{yzjNdK6G|7;
z4}h-z%ngqAW7#P)tM}lp!r8M-=6_1KouPbp)xLS1w^i)bLsyo9I!+qBM=}e%Hf>e?
z?6LDNQ<m4YkDYUuGHHIemp?@;$HcThM7)@Bb7_svgSev)o~&8mcS7jooj4DjHGh93
zv_v`uSG?Gr@l)g*&%Pjy;+*&Vj4S&-2(?>eZ7R$Ox0x^5{PKs71BaPsT>q86DNC*1
zZRb6AWzFMc#-)e5`*cK&ovysz;m*JPc}dMQ*M}dS`s{=aZd=}o;hq-t{qV<`4URl#
z?ujbJYPen9n^3&r65~dDyA_7Pi{~y93HYn~Y+}*x-cM2UE-?xh)F;=o&nQj}7X4zN
z&mO*dRodC*cNk9=)j3u;?qPUU*f(d&?v2IUE-?yk=-eVXJAakAmAk~X+|7Dj&w}4I
zh%9TXUU=%{@1CwFTQ4NYCe|8WV*EBaTIjmY>ItzkE-gNqe<OV6;{RVVrp{d3y1(dz
zUC+fc3*WPrto^-@|1!f8_SSu0&V;2bOej0>%#IN>mlUz&zL7P98{-_obLwADZv{;o
zEnS@xY8%1Q(r4NJ@9WjA@8lVbs<xcA?U4DK!V(+t{q(k%QQylC^giF^wN_c5{c!Ww
zvpd(7*0V41{1f!VGIi<i8)ohL^WtYNHoty7Ce^6);;l)sB90&A>b$-jWza7E^6b~E
zhE=EkU2@el)m3k}n%^E?ExT8RD|x?#Vf&t`-DNJl)2ydo-@J$Eotdl+<K}JkT8FCK
z`l?oOKT~&KfBoWp_Y*m~R*U#<r{&CkrQLcB)Kgodbgp}`_|*Q~y@BTI!$A}92AylH
zc2&MoU%vEhpS9D<#r)<6G<F8+a2eY@(3$C4DD58h?1j744W=OJj@xcNkCwVz>`lIY
zYpuRk>#;b8f^&-ADH}IV?Uz-zto$A=e)ZPc_1q8E{avzZOMkzX;JyBNvz?Sa|9IRi
z_)clxx1c2}d6zDAQ@w6nysqr^Yc>zI3*35Qj6IvvvtvT*ujgJ~yPi8?@&~z1>AsWx
zrEZz?Y-6GO4UmDBzGsTwNA16}q+)UZh3zsfum5rV@N!b#<|`aLV@r!szV!BTgRR?_
zEn6r1@Z65GACIlEKB2B`&=)4VZsQTFU-9ycn;yM%HSW9eP^Q5@WA&G;Wy{w6O%Zcy
zel&6E8qFSVv9+`B{GJf?-8uOBx}wzY=X|xee-?dnJvlvhGgF$hQSV*nq*nWR4O)4u
z-ySBsTK1s)<U?;0=Vf9OTJ=1*SN{l&w%W6U|8HFGi4vxN^_tb&W4tHHcot}vGn+4b
ze>{Eaa{m<OyQR{Sos3%F_D?Y6TDfY;&4r<Ue=Ur(oMO)U^lQm0Ih_jrA=S#LXmk15
z%^P)7ca+B(**45%)hp5Ge!cIFT<yM_zh}>nli!t6#h`7hy#K_{7J1A0A3y3p{tz{P
zSIR2JgPHpo7OJ%D4zs*{Z0W8<wNIKevkvsdJ3m%qo_M5Oe}T{He+K<LvVZkvW*z9r
zC@WelmD=`os$uAL)+y(d{h#@2$0{UqtoV6yTKE1<n?m#VrAI}B)<>}Z+H&jY@qOER
zmo4~xJMHC*_YIM5f7AMeJ4@$>u)NNHvvhGilhea~y}W1T6>b@-(zkDvYs@|V+}b6|
zo7efnJ}&-~|K=C(Rh)a=dVxp5g&2Xroq8T=@&z?3IWJbV&S7<#SJ5gQebnsWUZx9+
z|NqTw^^`KnEcpHS&zBXCAJ>WO%01VTvDxWEZlB4TSDT6poF7S=9@Wt0wtb~-uBKkj
z!Rz6(^4`Oe^$nVme`O6m{SnEkZ<sb=%Y5hWJC8^te|>$JD|Nz;@RTOqnIZFf@5XDr
z-JH=ikxiyGb9H8#Wp0_7Rh-c;P07E!AH4H+U%hl>NpBrPtdU&Evi77BhL!Wr=&F?D
z8y<0p{Pp84|F75lM_(|g&AaHeRBMm3l*@vapUX=AFK3jA?@C(2cyZryceyo_vu3+G
ztXvtbIxl!P_p+zQ9J|6KEqUD(1NZu!ec1Yn&3WHry%mhsr#?GI=!k5|Kk#yTWWmpW
zzcw5?;P(DXpYsHlb18orc5znld+z4Wb6B-k>{_prmBZ8ji{6W@S7$wY;^ph5s)rVc
zE-ScIkPvxpvs1EF%KgNPwR?Fz-Y{k!UZ~^|)48arEc{IO&u9DRX~*c6E?Ut1=-L#6
z`JYVWH@w_;k5R=ffJI?`^Ixu8p*0qJ?;GVUxP1L`KhO60??cyT&Uu&T@P0Xa<M)@Z
zZ@P;ev&iDTx@*_YZ63BhcduXWKl3D|DC$H+qIF-&)$qe#B}(G`*Bf+&i&`j~+zsx3
zTNb=oZn0eM%x}46jE@c}c{v|d?vGuy$o<==r*fBn>E35_f7(4SR6dlq@665bMy#d}
zuD6S-c^(ix-*(u6X{yaGPKy=6_VNsyeFA;Xm@QpjV|Oa|Ov}yoz;{!u6CU{d%l75g
ze)DhlzD?d4Zvx*<d2apW!wjo_mMK#-RaxJ@v+D^`ty?FcF3mb8BJ#=1S3EarZ~OdU
znsafQ^n|*@7yMHe&T}`lUs|%iuA{Rpeaq6i6obYU;tl;uHU<pWo}BhHSQISUWOh>T
z)12sCf2X~Vx!B$;u9J9awH8b6fg{uUkF>XXJEeymyk(YmfHSC9izU}V>Z<ZXnRAB^
zPD_8yRdD>uq^mpiSaJ^>GE)1cu|mW5ZNBjv(S-YnhOG);`4+nT({f6Yc{OQQbkl9o
zuwaf`4N8qaCS90O@ljnwvW|C~v-|(=><a5H@;UsOTk(W7B984&`LFdMiXO~i=U%9{
zSzP!(FJ1oEbH%DJ^|p-4o8PXCR%F{;7$5ZYsHNomAkii>h13r*508jCtljh3J9FQ`
zoadEaULNM^{=#IinN?`-){U=gDxd7J>Noi2v-^Pa%e5zLROfUbzq<CfYyn4hKkGZj
zDLnJ~3<J(TpDMcI&<^?APp($(VGJwlU0A@kn5Dhw?SfrXr?Vc2eDRz);V_TX8iD;&
zPS#HSdP48%rsr2HYxX#&Flt9AJv#8Qctsui9<b11O(9nw*%q$lat_n2*}u0ZH?F>)
z7^$`7#BH_wScbJ1dUG!<zAv_et-xS))>6^6E52MSeelwz|KH9-$EpHbj?B@Qw=*-m
ze8;`*`rr4@xz@*fi0r-h;ES33fmhp&swZlFY|p(sgN3zAFfji7j9ZU{D=w&q$8Mf`
zA>^7xkOjM0=zr-|oWG|(x>uz-d)-a8J^!TVw1+UvoWnYY<<C)mF+R3c+1nUB15X?j
zVu>)g7|uIudVkWMNWKRN&PVkpwgvXoGPK(tVa$oVY8u>sW?!+Axtj9wMSc3ywJ&vl
zOf&3{ah=rM@ATxt%CHyzrh!D_D?c53H);8l$@li1`S|km>v`$hmep=CpXb{l;cm3@
z@`k#Xv%WqB)%lLKUjjWmg&AjjS7p7sX8WP1rT<yxbl;k2F=zEN*<A}yeA>02+3%d)
z%NUnWH)fjc2w$;((@nF}umAnzoA{w7@bmobXKhq3zYCvMuyke7{c}dv)$W(9V_bU#
z&T++ZSzRg#eRsQI5uaL-QIeEU{@e97e*<MNbgd}5&!!S&QJ;F@wL@*_k<NGX+PBUw
zy3f?3y;kA8Ro}i_GtF=PdFHhK@RZ+Itj}z6GKnmFt!Y<QBs|~Bcc(vN5%<au3+!%O
zd}HKY+bQ#+DfH<+-WwHtlBr8yEKiwcx%S-RheH1|85V1P*L3(Wt#euHqP(zYD|YTz
z>Ccwi8(>|gJd5p4IK!hu?cBSR)Mp!Y-)zs8`^!6l?Q3rK${$B>HT{jQn<;Sjy3H@^
zgh!JYN*4d|){Kk|TE`h3|M|uHhU?Yxa~clE%deZ>bzt(HqWiPl>)Cm7;(bfs9I@ZK
zknwNRlUeTnS<X!C&SdntdqVHP?}>lQGp58mTb#14fbEQ_cfI%QTZR7lZ<VE0r{6Pk
zeAOQ6R{CV!{e{u0@3!~Uy%BZtZ?RH3ZnkyR<I^H4x({?0$2W8ye>*{nQ_}Ws)v8TT
z&N(?P{C~Y&H0_(*g3D@Nt-+gD#mrRq;IWryOcZ4Z%zrTJ@WZZ@)osS|OYa-~`pkFn
z-_egpr-#@I$9?iXyYRlzFII^gh3w%D?m5BdR`mT0GJ3nc=O4o&8}ELfLY|#_-d4}-
z5Pqi*)_dYYov?ylmDII;jO}k<-^?vO{eu6&oHI%frs%9Xyl~m{`EmPGzr2$5Q#4t$
zUS>+SAY;`NVS#I<ZuQ%EMOwBvUD>ncd{FJosW*?W6I%Rt<C1ohHwFcze72f@f-c>>
zaX0?qI-%$TYNCF(idrvs75DBtanJGQ@2`oiy>rzvS{;9BrY~}=?A+*XC_A6mV%_8J
z)3q{9Jo7~MGQ?(A@dR18sb;P`zgS}5Wz(*x!xxy}b?1jL-Me6@b+KWw2m79)x7oAe
z8fJU)1{U3A%&d|XH@x7zr26NK=hLT4RP*G96fvxHoXt2xO5E_(Ivq#9$NQW?3Rhp)
zvaWh(!2!#1>ApUFbJOO&I_ar02M*nC36rR7O`YuIsq*08w1tcByQxZT@ZKz1WU^~|
zfAZUIgZ+!$|9|(_KH}jmqPFwdg=J9-<qP~)`$rxZs(pGwq-0*X_h+-mKToxtP5Sn5
z%daWC8fQbbSXkEywFgVA50gp@&-kjzZQ!}~VKu9FY}!SJ4L{>pBp!eIEGVF?%ONm5
zWV7RLYgKmHP|<TM-P0Hoo)lJ;Ty+0>qRucks`eC{%KB<ChE1|Tk0<86o_KdAcWqQ{
z7gI~3aLp~t__S^JcTL~RQO2^`Kd`?iaN2@Bg^M@LHH+E4@oc@M!|lqLxo=CHlKQwk
z&#d|+a-CnSO8;u*orcc2PMnTr-&US`I(^xHj%}ZJFfJ~*H90`ny1VK>ufy%i5N(;>
z&mv+AvU<<6&e-!=V4csZ&pQ~6%|$i1Ib7?iX7_woa*;h)CMTL8c;8Z_boyRXX1D)R
zN7I7m9_NjS*zRL*J7XIA(s;eI^1GXV?gi;xJ%f*Rrnyvz>~6OBO}!3LrE*u5n~!*N
zWp8-5cu{8T$Az!ujHg}S>%zBsva@vbm4d~EVg)|!pEiUy+`Mu6^*>II%|<NVH5M|H
z@BK+~H=cI=FYg4sZwD`mt9`yuax>%{*XG}W)2{y&7C0yv`rIho;`GiXackTcCS82L
zA;&@D`bGcs#jVC7rMGs-_=RYFv5sjd*;TON$kS(wj!lSdIBLDoaM8Q#?V@F3&ldlT
zXS~5@yX^O3s|k|-YFJ##nT~KSQ|-CSt#Gh^`s>~uQ)3jat?OV|TE+MLhKBm;b&_Xu
zzJ7lgRup;QluZto>#QpqdygHjZO_!+`K}?<BS1JZ<DqB6YpK%P@(cR@)iC6|5pxb!
z45;2Kw{z8m8*^oQW_x_xXrAyePx6hpReG3bt;qBwlS^Smkq)ym4lTLRl4G)&_2sXn
zBHy>q**59*zC%JY&k8B8FPKwq@s}}_IqrLV|Jtw<e^;IeR?N8aD(u(v3~M{F4U(&F
z|6;wMzj*Usruw^DUs!%>)IFKta`G#Si~m0^*Bt^bkLUklELm>4@WQXxhq;W4pLV>E
z{aK*l%=$Jjp1*lpogIVPw{WFJ<&SGE&Tp$+xN9NziWPZTt-)!B3q$*Ee79=)nv@eF
zDSFj+?_tfyAJV2QsLhu9+<PFIQPsba$;h~Om*||{X}L3s8Fy{-2)M1i>NZ=>9;FU5
zi*23HCVdKz=uxPeTWr{^YT>$WX1Gnr*@acU>n1+++sPcHs<}DO-zzjQ_-@QL<1I@2
z?baA<I4|y*78rPH&5!$%d#5)X-u~vfvI387M=ifvK;SdBCH^00#ay_l;kczLWy|V)
z*2P^fe^{-I{1|M!V%}7RDrT{7Y)UilKJfMuRq6KkYl~ha<f83h@L|0>TmBTGPq_k&
zjyt$3P6zvy>YY&WTGys>HE6l$uH)f5pK8927kPNqd~S2={f7bjQ@68OpVIZWY}nwe
z6qx^@|B}C2Xs!0tz`V*+zr?LS$9wu%{*22Dt`{*E(cEtHl!4DOVdMA3KAMs3&8xr2
zKb^K*$6->7;l^p4DNERHFIp%bd0At-O)BHH{f%E6KQ4&5l5727&!;I5^4=7k4!**5
zRJr5*B<{@Yv!|jxV)80aF{w-z_dCG7N@?Qkb=n_azS|qqeD}s{6}95#hWT={_gt7D
z9U58WuF{~e#{3)8o0wU@;+j{kke$T0pnmz46!UM9i3d7bPR^5<vRp<nt8yn();8(i
zYYY~4II?W2?*A8Ozvcag8@;s*C$~0VnfW8&y4{?}qwRH10#@I>@j5=I!23tv#FG_2
zG_1E(8g7!_db4*g!%S_bhK(OTn)-D<Nd585p+7G74YNnx4Vwr1KKSR~*IfFm*XhEc
zugBsVN_Ji0HsJKM<G#w#aCaJq&I1$1=j$YVC8ztmDmk|#DtP<6n`UXr+Y^}lSUFaG
z+nSs7<k=y~VDGTzyaP8Eaax!^5YRj#dRa$rqnOL?H+CD2*4Z(o6-+zfGQT@>Rp5-A
zoaB3nr_~<BGz8Z0?{A+ldAG`=|G|p|ELU?`h$@^vHK)G$sK{A<&sS2Va~C`iU&?fj
zcg9R-pLXXbbzFU$=QjM-&QW_1qTSNURk_7yng8mXEx+GB*!b+C{(-Ig*OgDV5PA4w
z{*Byu501V&ocR4Algh+^hd&GoJ?89UDye2nJ`1|vWy#hfw~n8BAK<y|us74bXBY1?
zYI_R{7OeaAFfH_Mn%<1s9nUV>-&ZWrOySbd{aPkv@=*0y9H^D?Ie&xva+{^af!}$y
zHcns7J>#vNO+(FV)o&RGWu(9I-Hl_|B(;}6eCgb0-wX5`o~i`@wtO-@W_`HxoEt41
zQmafXRPtVLw>jrtXl=LH+<DH81}FC)%Qo%L(Ec{pss9bzoW0VIT9}T!DftvV=~C^5
z<lV9Hf+A7%b_{8GvbF2w4m^12`+DNv?tT8wa{{!FG|bMQ+0$j6I%od8`9BW4{@1Ub
z@W@PNt-%JrRj+#P$^LKYb{13@NqECEW7U%FvoFVW>6<hh-Kpd^qx?iTLsf8Kwe|Ic
zwcpNcbL{`O-oHUY-(z3=it7_Pe}?HznQqM*_r2X>p?qZ8O7X-bncat?{$6}upd5IF
zb1y%4eX87b-@CVElgsB9S-KgYy|y+&v|fML5;ge^ZS@&R(%d(EH<vPR3gmN*U;5$U
zf>-Sa)9>~h`fLtmF6&ERZaq?v6RNdjdateT=1|5-j+~5#E>5V3cNE+ctKVeUoVjgP
zxdo$#kYS(9ue=Krwr`cTJd-hNE!TvQ<oh$us$RJte7w$E+o1oSN%U3aaF(~3my?eL
zOl+R7zu3Kg)>`Qe2d_?ID4g5$Y9aUIye9_Tysmu7GQOT&`?Si>9t+gti7wmLaJ5Z|
zOCVW|t>2b0cEh~f$L&Wp-wa6k+nwSSZTX8!r!`>Cw`alD6VCprVK`%?n!e%L#HiW3
zndjxnIeuHrBi$t<RevC}xHcfsL(Y@$@0UB?S$@)8GEbcj&N+VY4P(`lW#1M?Z*P3L
zn$K12L5lFH{7F+kxUZbW^7PbewURGdB0Dp+_i4r_Zg1JgzUj%!;!Z~v%Vf#R(`qKF
zbBn7yoWaxFu{XCXmF4erMiIS_vIZM@d9Nn0pME_n?7|MN*OD#XHS8)uMTf)LJS7jS
zfB!i3uM*p;d!SZkZFj%Xhrnl&S10~a++fTx{m0J}3CrvC@9$g?YdtByj+N`a<mnaR
z9P712E-Nw1UBCb6eEhr%7vFE}k=k&gBlKCVYcA(MrO$KLEcWL=aNyeF`$|cN-*Af_
z+;w@@1HbZPMp6zbK`DRqzPwyfr<rFhku}YDS|RhLk~vowc=}AT-}dTB`|I@vwJSIF
zunBxUe5OxbrS*o*jXz18b{7}_KQ25$$geKtjMkEkSC?nIiT7>i5ATnYYW*Gf;?+|l
z?+Nqo6{_sMtu*ugr&ky6Grr`Jt??9{rlGdBvgGmMomF4_9XeW0+~vI$J+a_@@7wyP
zdB09`Pq4bb`Wx#ykF?W!|DKSW$g?~2>-4Y6$3uM{udivlH9_n0|5KO0OczbasJZz3
zq-xXSeqYJG)ypr;T=MJmtBKhU7U|WUW?2!rY?(`foTTlq%kg2_XQp;%T0GQXyslDd
zZaO<#&engC&+Mf|b8l!C^O}896+QPbpqBmp&Sw|v8DwM%4o#ikqq}<7k~_=($9#S<
zzhOz`5>dA^ZL4cO>N{-zW(w-2DAbB{ZZy2LDONsx{RgwqYx|sc2ES{t(PuR@ll71g
z+)%H1HvE^r)thq_0lX4{Wz!mUo_sG=llrnf*O;faYI5J=AGdkL+|*A^|Nd~o8~vko
zsfn9y7#*D*zD)hVH<e5C_mtB!ThA6Ts|ekD@<r^Mho{Tb?ACv4r!QXUuk9e`aKZAU
zV(FWJg&n8U4&D%Roqw-?j>=+jZFwK{n~@GR)hQbyA2A2~;n$3K_2<On9c%Yp5K=q8
z*nj@Mq9<wD(_gB5<zYLuZ%)d($}i_d{XDf5zAbwACOyvK>r<5%{;!g5ZJgHRtTC0t
zApc5F(dm5=%xty0W^7|n{+%4`A@gIp(ANNI^T|!g2iNm!?>Tqj)bE0%g!oj)2TUbf
zMUDNVeWDw_@co>qxV3%b@@x01c%>w6y-vCnnfU6@i8tG3Ee+Ricm8ao$@AmF(Jh;u
zB>3x2D~MS!ZJ)}O`Xx?~xr95`C%U0kwDm^&nO*aDhq&5A)VJOgyUeGsNcR+z61%s%
zK<uph+%qm*{Qs3xVAYrWK+egWx8HeQeH8ucz`SVj%jc|ng07rZQqSC-7rffP-?3^*
zcP96TTPLP=?>eJ2BP%L+@7G|R1oNX?M0<o+uP>^ZaU|G0le>GmC||J8?FLEH_V=pG
zwv?aZ)@9UuzMfxu$+INJ2U9E`EMM=weIIv3v*xl~hfhBrRqs4mxnjy%eco)26CsAa
z_MZ|Q=56xrxm#Cv`XX;<w$V`&RtxR@hj(4NeR;B%+1d>aH$^UsC`|Q`oN!tv@$<fS
zZpXh(>;{=N>AKeeO*hrg8scsGCNr|-_L{5-FMKrnxU%xErf<{q{*>rd3F|~Uyj*^V
zQCZ~QeGT*Un4sWxCB21(>ngwaJ9tS67M!|syX@VRN9XzGfqK*e#$2<z5|)SDc{=g#
zzI&j=tF2<ibhMpg(h98&a~Hgr{>U^seRAC?S%U-Y-=t%^&cuDUo_y-#)8*Hf%>TsF
z!*PqdJa^@x@+mQgr&s!YdBI=kwD)kESM|g7v%fHU^JagSS}MMzLpZB7WyWXO)jg?8
zPKM9!EWA7`(&6-k7!_-yQ=K&jlw1!VuoA7^`Oc7Iqlj}6^CV5x?@PE;Ctg`>m+AT~
zy=dXbpRad1-Pm4qS-#WU<?7ov&gFMb=1fyu8RlWDv5!g0Kl_$?S<OYyvuTo(Udc9X
z_lacqtG(q=vT{uAKgB<vK}Mz(_Aj()y}yv_`Kt4~*w4ops)!~`SjABl6e4PocJXL=
z#*qsePrq+%txa0hxRY__{f8&r7T?!6;=1t9J`n{yms4L2a`cQX^J`Q8|9Ew1LJbq!
zhujmY3zFE*PCT`bS?uxmt&E44NhJQ$^>i&?I=9Gn`-<DGik0kVY<$IzZqXE8|7{zm
zK4*n^+Y{Lh1yYSV3qDVoV|+#JSIwJFxxXKO2Q@rk4k*q06#g!-R>WSVt?%EDT1^L!
zLJeu%KbKc;w!XfCbx!=P_u0&G7yoA!1zJpBEH$M}J|T<Y;^O~*V-i!<jg+n>?fUrj
zvi0Qao6gUj{o>;PuYWWaF~-jnncHqP=d(A9`TE~?pQ)N3Ja<q?jUmkTl<xj7!Fh4t
zr6*{;ZGPEQ67p0n=W?n3Z|y0!t_x4NCn<GJ<m2RR3aeS}thc<g=iOE1$!v@ZIsUe7
zUb1ty%Y(3Kd2!#XTBq*b?%Sq)H96&a?c?v2pLfMKXv{QgQF^gDpzv=*)Bd?;=Ig6j
zB^W&9-ZM7*y^&^izpL`zo_C@T91cghNlaYim#zIr`@yr)^$eO8ztlS4q#QV$w)4}|
zcW!*AU&p;NTOH~bmnn3xsdm0;?1U`6cXK!Gc{jh|L43XcHZx_tw=ZqZO?P|vY1e*6
zr|oAH4WnipvAWNj-DP+8aAM`%`ihjCHz(e1=Pr;-i~3+Wr?~R&ea4fo0(Wf}c_Q}9
zqs!vsrxRzV{5DH?<RC2E&UG*GqOGR=oX6m?Pv^%{Iue;%g8Qn^oQ`m-IJmNCe&rKA
zR?mB8zQKBTA9@v6-d&&IX}Ys$%H!3^tzFuabPh(pJ=`;IJzpok!c>+S4{HA!&)QNv
z<=;`!&(Ai1+^ku!ohj(3)BVJJ>G;2ejB3(CugzkD`sY|m-Tt}ha?FVhdoL?~WLna>
z;?IeRRSc?;k&}=6oW8K-^@JY`lP-#Ff5??T`>}V-U9FF-5xE|F{vB0Wd*<Y%IYL+e
zq-rJI;lEM;_uq4IX0AiBAO1i8zf$y@a>qaasGD(#XXbc1*1CALo#n`~lhkiF?f=J|
zkbEzEilX;%*1dQAq<`~0Uu7BLu<iekzDqlniROuav5H-OLFSsxFZBl!*~yo)*!*uj
z5OurWsNVjx)W21MY06($$-RH3?T#>dUVGr$>!Vf&gZNIr{>LYwSbJlC>ZW_Q*ZQm~
zu$t%$7MwAGRX|~loZ+8<>j`t2&Duc&mTPt_(NIln{C8*R@2Fhu%li&jy=oUT@P59r
zsp*0xV^see`FN0dGY<MVpA^|YPjA{8hMaZX7g=xk{|#Uc+8*Y$%;1O0w5vA14Sx08
z`2D@W6qG9bTv6%YvSapF-|WgvJ(C^1k(Y5@!pmQ$TE8p)pVqB3>1uTRd4^>LNz&XN
z%?~zi6f9H8Rd{y!hq22-?QItumdrkH!N0Jk$@TBLgJtG+dl)Wv=ISUE6|cJOa6#;=
z#h%&Di+^fp&cAWY?vuuzje!D(ZalgBuOsiT!Q(>_8_(9ZGB@M|&UZPkBY!me@Y4fv
z-(NC%bid%yVESv^u)ytgY8K<|&RmlOSFdlpjdjPZZJ0Sa-oA<ZvU2_|kSkYikYn)S
z`IR2|$6{%n#hgPGY~NF_=9(m=?si&ro5f7$rFD_UN!4p<8LnY>k1;Je!@ko{KK^6H
zW|!*|b=qb8?jB<*y1r(k@J;cP`=;tnIvIS%?##z4xh4vn9~X;Uu4v7T_MZBsi1kUy
zD>JDL@9!J6T-XrO>Gvg-@$<^t83!0Q7s>D$F+Vx+`rR>Ku?=%}oy~1sc$(4s_XZ_~
zyEj)nKQ@2i%;-|--G?N1J~K%1sJ7p7H7i+~`v%C`NfVXwZ2ug0z1^^7d;cZ>yT_RN
z&NT$jskn91?5wU}O2jI?!?{c`YqVb7ORJln;TN7N?5-yLPISU_^V7TrpL5-VIPS<#
z)vdc`m-CM6^ry6)jB0X*zOn@+lHJ=}7g-+Ad+;f(k|Bvtc3tqkudgOns$K7Xz!Y;&
zhyQ?HKTmz_q;qPlFD|kgm+)EHy^$6u=Qve6asMa1%@+hBmhYdF=)2_cVOELOSJ#fr
z^btSiUAZ%O!Q%froMPse^sLS7dcNi4y5kkc&VK&PXuvglX~FA`rXRJv({BH$_#L>b
zmtTBA1+$<nn>zQ+7w`HX^?RIX-1|<xVFC9hN0y2pg=wLpT|3&DOTK8?*)-@H6)K&!
zvr#%F_4b%qe@t^PKfl7Urhpt{)uJ1^DqZ{T<OV+$%ocd?s5W&bZ+K<i(eNi5PrhEP
zA|LQ+igm)nGo5e5Q)VU2eYNO&)nZAdJ*w9>G`wMPomqQ?>+m_Z^}TO*s-|chtG8oX
z^uhTjSJJ@+Q~s&$=IfPQb5r%&g@({A+f6bvY&TW4$Gv^cG{xpAr^VClJ%VQqmWOQY
zRX=lHBVKP~8`~S3P_ZnFe=jB9+x0iiTR1a1srR-rza9TY<^v@iOYFL;S#@Op?)u7i
zRHJFx)SYkKg*ExpSMK<<OJ-W%Kh6_I=QS=Doj4ht${1Iy*uHe}erC0oKLXe%-BUbj
zCS9=W$Strkjw-RKTq<@pdoRA;{w7ebI0AJ3p3?jaM@*~QTRBBu+k9zW3ep?L7?##;
zd?hZk_4u6w)197dDEU%;Kzp0tAHK>whQG_ocb+f5yo+IWFaLS2pR#FbZ!Ue=5Nz}{
z_O8*gbuWGtF!Fu7vh+6pwFglhUb6cCC$@t^d)47B^6c$LX4vgGUHebjUs_(zVbWDo
z%bnH?Q-d?gID0L1)>pq;9@9{5li_lpvwxG%Vt+&3+g96tzSLd++gc&BN-O-%(@9#l
z8<+noddzJwci%l;gU<)MG`l2L?9R8Xzw(}ShJU<2V^fmL{)ZZ@C(p!JGgg@?Sn90*
zt*&tV#>A<{@v~}zZhNb3-Sh5!L!ivbNoN*yCe7FUdicdL(98>G$3khBQ_cq@e=LYy
zs<nRqoQ>7t@#pP|ruX))=>Am`z4YFp(`((2HebEIS=%MfiB<8!ipe*`xE55V?B-v-
zGWq?%iGj!7v6yW+9KYbz4Yda*4azgDw#{-mX)G?}ZxXS-f$^{BQ^^*A(Bom+Z<6}D
ze%{}5NLJnqT)_k%zt><im1U;Q`VSvuqDo^g=pV>=<ZQ}l5Pr_-py<N;pZxNpHw&(*
zZ9jUXUD{xC#0zg3b&aOGYSOtoW*z6=FzZLad5t5rF-I?(Xp07YPhXkt!}IeekHyYw
z0x9>BZy4|Vb$hSPu1<b)1=kHhypn-oE97qOcROzI@gduurms(b&0f6c@ZYJ=y|dcn
z{&w=4CnQf4h@C%q^6}uZW$tC`17E!GuUQecLv1SiO8IZOcdj(QzC7>ntBa@CZV!>o
zU>8nEK6rKdy!F=~pU$uR`r>`V#L4bk`YP<_&2si%x6_etHE7nRdAG=nHIBE_G#t(=
zYqVcoTyIx2?U~rIxd+~>$vNcv<bqT^lznuRUu@R}Ynyn>{VZ>@<^IYV6#sA8mFmjZ
zUaSB8)i28w6?rYYI}J<xXEVg?pR#9X@!q{(n3g@Ny(yZMCHv?34=LW=9T#_J|C~{{
zbmfl%=CHhg$+2^;$W#S4%v<W;=lF4-j)K+EFDE9ye|mZHtGlMU`x!*vdo!D*1z+TP
z>SuZE{oddEpYAC6^4ia`W_HWvwq=S1i#NPYSm{1}<?P3oF4{9L-eSPLjX!eE*<y=|
zD}6H4`~GoqeAoH4G{MC@^WQbQC7&;J?|XFV;(Z3ej8E22PG>n}7rql&U()~llHs?9
zT?_s?u8aD?5bJB6cle$2Z@%5V8~JV74hsG}FB<t!?eW%kt0ovdijhs$KcFL8wyC@4
zhw+=9eWB&+BHQ?WKUY>b7G2MKZPvt;GT{o23%lKtdCZR4^`B{bAHw^vT%!EZ<z3c{
z28Z4KkKbUQFjw;A@kYke`(C_^`=+;2Vsh_BeuXTTCucAHoS?vX=4QKH!ZyQgQHeqh
zE>TL_H@|NR-|l#BRq`9=6U^S%Q+Q`puYULR!P6=Qp4Yv#v$zwcU)naarf7MreUACE
zb*wpM$@&M5{rtq*F-i2Mc-man9qrC<%97;|Xni;0&zv8?E&r(HKVSRZ8|)h%zAodO
z_M#wQ=REU%yTzi*K!c=nmJ8UrRq(l+T<KW(e60cN?v4BkT=psA?GN_8?45h(;cW4Q
zEz;GDmy|#G^D~8Txt`-XEuFAQx|%VLQ+-{-$%DVHZ`vy6u>BI>qFwiH@NgVrS+hiA
z?c@I9XAQy&uE)2X|1K0K_#jK~!jxRQjXO_Dl`y?~9jtfY*Vfi>sSU>Ie2dR3Gdwrj
zzv>Eiq5RIZ(dU`?X0E?}!$p46B;Avl>k`kg-su0}#q4Lt^WyHo%QqRqs%vKU&UKmp
z>ET50Fm0bzI|CNKwkTxmvU|#>(OOv4;&fYi^+~C#(<jIDEB>0o->~A;#c7NCgCh29
zJgxKYA%pB*j`cbUIx`HI<~FRl@u%J@_l)(KmmKTg*tx8o<h3+ID}`@j_}ybue(Nkq
z`C_tpDnt0oc`bT>_&&ZnQBd|j=+xT+18Hk-w|vH%{T2@<2Hsq9LQ$h>`|Xbh`M+FG
zZe5U`dhTP^^W95jKd*kowO-HR<cs+Ym0w*_li70{qyP3RN&fvS8`P(pvr41!`NJ*c
z*V~N`s}}bD+S*{lxFK%8K;PEq>$XgP(YNxfLe{##{bCzj|DCcC>*sk;-u%o=|A9a6
ziO(<WbEQkpu5eK}+j_WI<LT3h)34ilZsROC<?eY#YiX0kw(}`WtoskYFuwc<G@spd
zttV*Hk&V8#+dT3o9tMd_+pm}%ZM-u>Uhd?!{E$hHKkce#Qi@!%tM^IG=QA7f^x5Bh
z+Es5?6hB!bP-?=&)vqVo`c?OVX2Ap7M2^h<k<4y;<yh{vV^2%}$0(Zr=6?P4#oSjL
zd-Ap`1!?EZl)h1ZV&R8bQzNe=6k5sr$yNS4#X2E%{?5`{7u;`sH?lmrTic~S?hLO<
zLh^SdD;cK!hY$PgJ|ANM5!Fc$oTcDhsKu{xL;K5)BOBG6xu$+h`odQ^N9?3W$ea_u
zH{8m;!sO*v&%Wo<&J$D1uGDH~+<!bjLuYoiMaan)?;Co%)9*VP{aWd@Y)NH_{;w!r
z&5*SdqGtxaOJ<tKb>XbrYK@)q-fw8SyIpU!p74z)6Yri&cIp2&!O1)!&Ft#-6Sj$r
zE065?C)yzQSFv@Kd)~zA&jo6S=PsJ^FYmH_*h(S$@Q$B+yXRj@5nyCkettV+c9^NS
z%ejBN##cJrpNabI<GSX)@||7I>dzI-GC9E<Mk4HQPo*gD4{^Qq%EpdiVpkyhp5joK
zl}7Pab~EZfd}a*junyUuS;IQTc9k;g_5075V&)!aPY@Jy^o=<aaIWI!`h&-|S@rWf
zyy#pZz$xE;BvX&MEZn?`(d=?eL__A$_P}LQlY>_Xtye9VU*ujti~H5$2k#eMPCL8y
z#`DBi`knsLYAVwv*~mr4T!?;p<&B4;$No2_;z_gBRKgl~WeXNb6;6FOVZn(*hk9kI
z3=}^ysf3zw^gb#UUaGdcUh|#u_Y9{;ydFAQ&va5vRxMs4{(9nFu5^Djm3#d)N81IS
zh0j~>-oM8=X;RMag&ZYc>T9anFSyrsZ%aSBG2-B)|5IP?4^rG1_3)F#`p%<LU1x*V
z7H{J01ogF9-V_{5c2&Hd`-^Ydiz8*{59@_K`v2YjpE<+knklcBvpsc6UC#OG##OD-
z$u_fUZ!GnyVL#*ZbisNXOViou@^1V0^Rzx$&#$fXM$(h_@F~aNnwux6xBU-X;`Jvc
zQP@A0r)BxNqdQ+L&i*#(@dK@o^)}%iA|(Q+n8dF-2rADtsndM7*JeiP|M~KAkvon!
zzG^SHk#gWoRZ_|ssoi?Nj&m7b-*-ZK@n?VjD{pyU{0myJ_`kAUSj15;*JrZ>cX`{}
zvVGb6&iKuv^(P)4ws!g5tl>7-p6l2(ql600%{<qZ+l1|K`>SWY<iKaS>s)`O-hA3M
zovqh|_r*lPf=MciKHKH^#(&B4*aK?qgddRnQPA+{Np^3apu_g1a??R`w#;Ih`FS<V
zTVgr9^lRSi0QGz&RQ~C*=U&MX%L!u5sMGu`RvXH==Uq|2h14pgxi^l_e)^0h_1?oh
zuJPOj3Lo3f6n|0;omAESZ`;i6FJ7;ikmGmL!KY61`J_*CCmVD9v6p9%)|fV7vX9<O
zv)uHzJ0()jL|wUfooUJ823d8B#q)g@$MwHi)qGI<`o-xClN|lhd--kVy_{tAul?!L
z4#WJ5*O_`|JZ5HmkR>upkn^AQ9@ltw0iAS_mLH4cW1niyJ9&(C#~01|fAI|4_U3Y_
zbX`(jdMF_1`U=6%w`zBM(KJ7hefx{nCo4XS<KI>-lHawR-?05LXtG(w?*0nCaJ|iM
zl-PEjtx|0gnP&I&;|bZ@%Q(tEbG`3l_TTnovOM#SFPi)g^LX9AUv%)W>7N}|&a0&7
z(7Df!aZ`GfcFb|V-6vh`g6|zW_T=l+w>AGY);y6iy0UD}OO><R?B6I~fBbe0qk6*z
zr#WW6qNOWSUNM_3o-CwqVkNWUL$g-w)AcrfIl(pm5~FN?sVB^PGn1`6s3$e#`1I(x
z-mBf~*_TAFbu_A8c{`;vX*XvDNRh(V7c1{H+1zY7^3rwwq_F;fd^e6BT4cPsRj#sl
zTHKm%MYpV~7-iC1KV3fE>ikG1<k4f_lP5D@zmRWODf%bqfr!)DYsPb*Fn!VcwFPvb
z1kYWgwHrj%-8RWpcs9-F^0kZh4B3-vZ|pb|v`t~wBK`II=WOfy_wmG=%~LAsPEG$I
z{66~p-S&@SwP*J_ab5a3apv;{uiCfgwf@!E{vw+(?t9^kPbc>9pAUGmd-d$thq}L_
z8W=Z=?MOMgf6C>_UiwLKKK8#WnS#u;8gy>%ldCM3d-?z6JhPLV-nDLO?5Qic*jx0Z
zz{c=V@8*<yiJR6`vwEn+$!v)9VtGDY=+70N>2KFR=UVwKG@|2_@fH0gzIF>83-7u1
z-}-c(-QiYw&2kpS`4Z<%@>jiK&4~Q|YNEU5BUc4&n`bKyic2j?iTo~Y(0FzG+yyUW
z{Y1A^PqVXBJ-sWuAz{(M6YGjE)HzLjBK>SZ(83O3X#?Y_&5xYBgjX)zr|CB3_0Ra5
zo8Flx2rj?yTGr{}tS^72JecL0erC_%8*}Ub2sbRRn_;kB=`iEdF#A0pH}WQkUHdCr
zu%OPPAz?*eMEI4554d<I$o>7b;SgUi^OO&Pd1?JU!Nng|Da|<l?K9(sM|=k>H6~Z`
z7e1=<oY_0q_2k!@Cp-CW9P?dgaP{NUT@s12E}fVEc-Vbm=9P-}3w7eID&6MaGj}@`
z&Z*evtYmO$@#d!08{S`ESG#lnl&7Wp8T<{`iudInsOk&6sed8-+jigWx6>HocFMK<
z>^=UdarY9vs_Ad%OuPP9b^^Oaa%*oj<JXig7t8xSL1Q-&2|@q%rm+R*EUwo)*}HGr
z^}p@q9kn-h?(qJ4c+t0o^%f59>$jcNoN4x>t0e5`#mX69?Y^uDNnlvL{p?STCw<-r
z9BZcCx-fG}^>Q8Ay<e6rnbUK^)aBd~wacvh<$X%*>r3WO>-)zSVfboJoo1xouNzm~
z3x8{7g4PzNG}`X3*f&ogyZM%xUblj->|falu9H1#tk}J`t}Zw?<@X!+m&>NEyq73=
zyi>&_OSC{OT4KAl%(AIF8LjtlOlWvKZ(-I(t)w3}HLAWWpSseH>+7>Xj;=E@^0)tJ
z?Ui`e(7h^ZrgTAqg|*YfV<t0`mriPn-{o&EyLUrK!gR^&JW_o!Nr9DKMg8k%_ti0{
zX(k1HIlXjMW!Mj;slMj2f7yHrY~95ImOd`d+xuwp$4kEM`x)0Oum51p!mYWf_MztH
z9lt*;TO9s=LuubW1Cyx@{>PW^cZoNb-CNZjJ7>YHp8oajvUlQ?Zp`kBTPsk-(DN&H
zVzbb*{W;RB7l&&<xmhr|lJCpa@~FT`*7i@CVlG~<|I8R|o^YsPmG(!+w^QvV<z1*a
zx@8Nf)BW_W`dXis;$3}j>!yHu=9B8?728_uX<}bJLqhMh9Vpxk7L@R3|2iZ6dj{WL
zF~ezn|9+m>d(7EsVQz59-Djz-ix$_{P3gJ3j5GG@FN@&6L6fTW^=1DG8>IB@TX1*z
zi|l;qqMar0!G?=%JdnHSm`;w|-l{M6TBgsL*7tAcp=n)f3>I67`~Ur*=CZY6(c=1b
z6Si@Naa@dgT6W^uxu5R?D&qYQbX{)qTh$>tZS$e+HIkoS{Qt<Z#^MuW$BX@&eJ}me
zxOunz^y|8%Y2BCQF3wHRPV19-aAn8re{t3ppuT;=4a2et&z!D)`==LduDiaPyF;gB
zYNX5S$^M6bxiZWECEWtnIg)eb^VnC%H7HKHS-#`ll;hTGZrtczcx~!WQPw%{^ix4Y
z#=>ktiXYA#x?)>->dVZ`mF3Y&0orqz9fdiziqyWfQGGsLh_UL+e*3i>uJz2}-=)M6
zWPbkP(bZax?*Ff=J8XKfq=<V;i%Y3>U&>MQ4v)iSa;oo`<)h~~P0vlUFMadQ>STPw
zw$D45Ja^fpuHemS(Oi4s@YEPy3mwZk+c1tkkBJS&o~3#(4<G!iakxy*JfVHhjO7|!
z$}fC)xy__arK@k8TU^y1+G882{Y&c9xmi(?@BH&`oO{d`^V^^!@5`y5=S*+a%IUaW
zewmQT7`K1QfrCQP-lb(NQHI;@J4tQ(ydq2@Mb38DyAM}-pHF|Z>Gy&uSJ>A)+T#64
zxJAUOY@bh=$v?X}-x_S~yq&l4#xI`ul9R_GUhA##4dyb&N%!wO;kGaQTkuAELCSq5
z^RpTJ5vjVWZ~3=;ylDHH>w<3R*%ba8pZQKE^$XAMx}i2-qWV{xWx<6D>~8|~&K!9A
zpzDvy>NtnWhdKv^+~ha7{}p8RcX`TH9cWcG$#m!Kw6N*}t3=(*&aa=DJiCBRASC`-
zCs(Uo!qi{NACEoLdBBzaEq^A@kvrY<?B?1f^y>;4UbJAG<n{a9^wS??_ZTj5m)~$a
zYLz*k>w>Ok`;TIQzw-V_9+s}JjZnN=bxhp9)#JvEET)9*%_XJ^9SWd!#gFSNF8TV&
zUH&Gz^78hYBN<k;2lNg!IjLxQPyIZlX3e)v)(@XD`Fv}LZ7|{MH`e6oSrT+Lp#ROY
zssO<k%w>$1T+jb~s%FMh%)Mx}{jWbvI^P;>`(wIAj%_yK`pR|p1morNA&UcgMV`FN
zog6S@)5WiWQ6E;yE?BX`Z6VW{&4sNiH!Lc6msqU(d+Jh|U6~@QI2%-XIG@k(w(0v=
z{q=Hm$-;U&hM>t?lUgS{U(~Wc{KlKgjPDQ23=g^AoP6D=g{>ojS$;!paQ%Im3I(q)
zrx4Sif`ryB2VFmGdOzjb-vzQk+vDZKX9#b%kD3~jZytTS`y`uAQk@+`Q8Jq;`=4pE
zvwlt9**Kkb!RtjWD_%`}E|UH0(9cgZU2Yyby{&W7#rurP%O))_pA|W^Qs(468Fizo
zFZK0I^B7rNr>uRv<G9QH0_m>-sxG10K95S{53bT$C2%EP?-$Sd-^wnb%B-30g^rUn
z-P9T1pL~A%!12JT@4n~kPzjxQNKW_4)*IiA-a705Y7&W^`c5=q>MZ8p`F;DBt~1-V
z+Ub<$j7xiG#T|dCdsX|zbfe0k_f|47{GKHn>g*WAGUPs9KAc~<>ERnDlkb}<+cjri
z+B=Kk#PpD<lWZfKwWS5jD_ic)(7L;NVY{Q8WJ&TXhFm`N%A^YM+O+k*za+NWyxse;
zq3{(${;KHL`?ec@(hJ=cuDz!9y~sP)z_h97{m+*^IC*l@yKsYlXP;g0Y0CP;_g$d9
zOqwU<TjHiQzj-4LE@E1cGkc?S>s!^PvnMyb6HS=S!x3s;@v-{$9*vBGegA71bPU!V
z-s_{iSnK7+AWpMwhQAHGpMT`LvB5Xs$bpTfq4E84H~%hO;9mdsuyw-pw$k){yjJ;d
z*IZCN`CMo2adm~6&m3)7%Dt0Br)+jI_dn_FuD|w-ZCg)`>yx-;n^>$4M9;XN`}ac5
zY|tK>X&dwQdOoQP(=$l;Jo)&Zk}u^Bn-+V?B=fV`EL{~9#|Iv~6|#)Gy07E%+RY8m
z?w$5_{~wbm6vf0dXT{X*cekAIIvW4bfH!;VA+?`H{Cf^vy5i3Hk8A1YA2AO%eP17v
z>29C6z97P3^C6)(+amdFc<(u^5V{;csp3)_gWK&K)7#5jcIWaX9Phkq$-VU4ZO@vf
z&<i(2)pqBKB}~uWvhi2Pi^I{+B6r>2;O6r0vtYra#U=0bgWo<+`EvK0+gW$bqj|Gg
zBMdc!wy@;nY}AkGfAcB9u-`d<HgkmG%<@eiv`kgASLw3}&Mf`%k~!f(=iQ$&Dr`Sz
zJ{GQBziQ93i|eEFMUPc>soy`{YJVz3UiHWAv>OR8Lv9rd-_rW)wBqGn?`8SVepZ5(
zd2QljSjQ<MzwBU~Blm^=eb;QNxI0dzJ@=ea`pMeoxUllgUA;dwvgQ7Mmc4dxv(e%+
zjQQyuhr4$tJgfZj@vt>d<4V~M&&we_AGt4_e{pef_`yk0iBIKh_so5%{k~yx*o*y#
zlbV;Z-nbBQfa_(t+uA*Id#63r&iFLT-T&}2jt^7jRzLft_(a9?So!+?N9kX{<B>@z
zg0t3rdA;!CjN=MPzcxSo1X`uOgi&SA@`NeUwNvKadp6xIG4At=`3)O49AnRu{ld3h
zrM>OekKX}*_PuKextQFh;=_AsN>F2n#oa}DAcfj%dh4rrg%@Qe-1@h4kH+86v)upx
zIpt%gY4f|;O78aghq>R_CCYwXi#EN%Q>MA?`~>%RyG!JAU*5}^J?-t<?F=hB)E=2K
z=A_@M{(bw4{LUNE`HWo~-<ap_JksF#({cyz>pQFVe&ti(@jCH}=Xb$_zMC$aULCu!
z_Ga{Z8zYxEla$Uw1ww+dlm2x7PdsK*Rr*@jVdKJ|V!>Wk{QbH?U)uAZnY~$C9%kVp
z%X9GRSH9D7H{7*Y{>%DRzm|PIS?!BNKu?DJyXbz2$M3eiJb15)yP#l;tMZl?>hAlW
z)><5yuE@93z52DR!<09k%zFEu&J<a2dvcTX<@4?i0finnwU+x@EI!}-)^le6rOkW4
z@+GWYqtS9Y%kPy`Z@#4Mo_AN*mNPg{%bYi(x;l1w^hwt;k$=`}zFo6U;+30dP{Co?
zyX)>ei7!X*yo$;HcFkH_XOZdZErJ;}fBxwne;K_p!DP{@<m*dgX1sa-)pka$|MV;G
z?gcR((iQxY`057tgs7J@;;xr}nOer(siBv*?)vhT$=V0FmexOSvY4{&;hGDo9~z$g
z`Yb4*xBrWG=bW%Du|}?~*KfBgOR>MN%5gaLL^LT$uJdM+t+vT5_s@Lor60l?WDnJ7
zaRh4w9bt53`1`qlWA;<Fj`e3I<;E#?YFy2?+##PT^7z4C#!PuOzI)v3KS)ds;67}d
z(7qw^UBAzroqdNHndhGHN)T3m6n#C1WA;-%4Zp1^0*yxAiSJjjzUV7D?JO~=+###T
zS1)p^rglh!Ua&cTqK930$0@7Omn*ioUq6wT>QwQN>5~4_@5QaH_iwUx7%ueuH1+T0
zVtGm1U-!?8b{&-r?Pkw^v+?=zfQW~2j2FPm4qDx}Pn^%Z*Lsr9yu%M$L#L)29e(y|
zW6;dbUN5y*?IO#U7ax$4Tl4d!Z|A;u4U2@ACUn}dWybV{nC%O3UFH(+?{H&fU|3gz
z=Bg(Xv-I-ROjk>qEoZ1s{XWB~-!E&!x<i)xpBbqBs@ivWQfgS*6R8}VTU|edZhx@(
z)i0lVHh!5)qfdFC-hy9FAy58h-I&94=FsuBeY&diE^d{(S;2DCeO}s)J4_;%6;=AD
zu0HaTBW{wtg;1A5Xy$tN41-G()}K+myyy4n?=Ma>xdms2Hw3yxC+%MHG;*txpnj2t
z;!LmKY<udmb}U)<cg7CK;#u7JNxedwR&L36I3*+W|I34H<Efm|e|v1AoH&n$-1^E@
zs6Y8bEB7STl|L@X*2Wq1{|mWwmdp710gZL;S&N>O=JARpp9ozVTPxzz=5)R3d*a1U
zR^O)wowKPbk$bIl@^Ve!zf(ScRk^uUd5iz@pPuPn&wk{q=O6t!S7Ld*8D`XScNaao
z7=1u#)fqj}rN@|?u5rai23vl9@m{;dUOJWW#o`!w^%cE$@8$|G{Z`7JWAm`<Q|g|>
z$C96X&%e3bZDVyPdko{bbAOyw)`*<T(A${Z-EwxB)dT4dUAwfZHy1Q-*r=(%?6==4
ze8FOS*$=!HANdNC_{};_+-^5EmELl@Ji?c~hPg~;g++q(`hdzLm+0aR4Pl=n_&w#6
z6n8DzR5NACwqEUP8s6^p>?)r;AF4SgU+=qi)xA)<HT5NEX2*SAuv`D*)mff?AB|UT
z0@Yhq3oSG9ogTlpwQP7MtG2o_q`zlo!IPP7b#ad;uKumP`+4G~S?*s?Y=~Q?_|`&1
zi~Gw@?O=~*>n>!;i7M!+N4yRF6Ljv+6q7$&n5rG)7cVzBcez(OxZYFt&J?ygUymH<
zzI6SC=G|sXXW0`+o(OL}^zGBs;H}qRX!aa-n{i9Q_l2S3-!FeY8<<x2&J#@v(_U6(
zw0r&AbvN%uovNFXxBepYiL{1TuMp4atA3r<SLLnlo!2jvdh54{_OmU{f}1Rg_-~lJ
zHLa>*lz68a%U#e}zSMUAm#<!Y-=soCO5Pk+T5^FW^GMu6YbWl<<zG#AF<iH)l4NFO
zephwQdHamE!=SATVHaPgemv?o=bcf)CwK9wbKaWnV&GP{GU>6{6!%_2D@gH-_TA>@
zrRy(#KJg>;l8oq@4L3x0sr;O@dav76YnOSGTK2_<O6z^!UVh_^>8h}frWBD=slm*@
zPj!nHpS&Blm`mVbkU&>p>f<?Aor+R@S#7IId*vLiaCbU~H_d662JL4t*c&$M_|a)j
z3nDk<-Via>niY0VUwU`M*~e^4sx=q|-tu$seLJ?U&aL0#J7{;4ndbjzY2pn1d-86$
zZ)*tqydrEyYMORh>V(n*%ho=7c$?!ezeA>+=mVFU88a7p7fo7}XFEN#_1Nx9HmmxX
zq)T@(Ey_4s#;xgozg@U-%Ox8vhi}cfI@*e_FRl&R&k%bmRWt1K4#wF$25TowJ+LG5
zdag&s)B4oal_3oUFBjyLd{RE2`_1Y3!v7~g%B;Elue<)gI(1Lql$d{9Yo7%&x^?ao
z_&a$|UixCoACqKe?A1EEm`Uc+<W)xZb3#Og%FR{oSyfGQ(s^oPSh})<?Q&5d`~1jP
z7vmN`+rFpt3%`S0mv6K6&*j(8$$Xf8FXN`wujgD7>sWV49^@}8m(zFHo*28W?;qQY
zo!?v=R&em!PI#Kumvw*PRhzs62NXGaSIe%E4qdeHkw33?w0l0|{*I&@AJuyddQYcT
z&YTpy>Z(ni!=+gt-B%hlFUvcdT)WybWHo3{k2;TFuhmAo)V%J^v*MV}WtsM8wPpx#
z9TeO2J+^F}d9wdz{^{5Eid+^;WiFo1-Y|Q{;%{f|_h|3bNiZ?J!5d+5eepuGUQ@fm
z;0vd_RVyOnzLz^}I*{t{gEdKJ=C7AKo%fvr&6@Dd{Ld>baO$sF;i5Y=u4j(L#eF~T
z-qxtpYa^aNt*|Bh=Jt4v)35&>wmzaf-BxYO`&Aqh7u>0y`N$}=Ike%;$)HM;L#1-p
zVk5OKPm6q`TprvU+8}#f{in`H|NJ*ew?uVjUOtv5eR@~?T$x?o7an!oR$ehL;K?-o
zXou6g?l;W!Tu@Te$@*?(?cL9*pZTU=|0`SYVMV;vMs4f)Dzz7PKb{YA<GKmbCW7Zu
zb};!>RR^ce>Ibj?67H9pv93zo<@dvw?Q4GXTHFj4cfJ{!7+XG5Rs4R`s*=;Y!nJ)q
zop20`D390QUvk!K`<m*lP9>WAn7d6f67I|Kd-Vz1Ex5Ap-=E$SiL8zx#S0?Z+76cW
zZM^;Q$c$@;4!t@2v^1ab=H~w7Hwsak%Q}QFr&~{dT3XNEBV!n#raIYlN^|-5y*{Tw
zvr%#79Pg$a;QLe{ey2aCcJU;oxbO0Ek|L2+?Har)hP4xW?x{LXZM=0|{XpOkZGXYf
z-}WA|iQgrvJabun^j-$TTWV(`)BhITb5ni!tTS=nrwQjC%NiKA%U=5;Bp=55;@k9x
zlYW5q^*ld0Wl`w97nkRS__bNS%QRk<`Ahr2gi|}Yu631{o_kz7RdMd|=gP`G%nAGM
zp8mpjx7T*b=N~LbI_AHBy3+c{E%#N$d6)MW^xM__(kKZHD%I;?&ATpr+g7GRuC|In
zNVl8u;?@Iu@0>qYCVH*4`pf*V6U%*{DJnhjD0|heA0rqL7IHa$t%2uT?sF9%e6pX*
z?vi`_V&95o`+qHESy^l9vf8)WqwM~=4L+;=GncEgp0Z?}w`t>PzZ#E>hjCvnzX~=>
zXmw<%)2z6%#@_3b<fK&4PPiPMtN+yW)ThtwUbyS$`wJjN&o^%Q5_shO>TIL9QvMs6
zUo~G%Ozir#mm|gX{Ku2}iXXT968Rc9q2lt7<)@sk+`MY1lef-%t)1&$=RL+!YDPO8
zjr%L>J}cj-dVO*G)wM5@-uq9h{u9{eH8(;uu6W_SsxQ(Le9U&_HGk|mQg!WZ!uG#`
z`L@4!Ep8tEvb!sy!{ynpBj1ERRK32a?a-mNvNdGKO{@OpdEaU~U$1pvFITCic~^O@
z?xP9n+9fXyzg}A$-*9B^>Pw8%C0iZ+*BA4*SG~TtdVNp!WR6~s{LOr>v+@n1!~6fm
z|8J4re`UF&xJ=FREvX9ImTL$FpFchQHE2ou%DS`C)na-*?8)hGQ@@mg);V;p{c5mr
z&i*2cFEeu9{^flDQubMHw=r}5(}HykDLa+YZm*I1`+1__7RQn^8~9ed(%x;ma#z)t
z^X_>PyPah?Kl)hfy*PN?ChXnC<Ln8E%+{;UDb8JSYq{-D-}(@(facmY0`qD`3Y3x-
zygO>qpclR*N$&4^e{Gk^^RwbR_%&Vi(v!vYAGA!>&)U$x{*0bmN}a3r>s8_ov#;DY
zTOstEf4|6&n#3)tv!&1M-PpPL$$sZwOaFY$Y*j2Y<I-Xg{I%?tM&3^TM^EDGYoio{
z3@<e;u28JGA)CDWHk<9QdYf>GotOT(9=@r~@LTfJ)W41rrmn_DZXAL?G!`81SS@X6
z*w!V}C4M{M!)z(Z&5Ya<k59{S-d5XQ|6F$2o~}%>4Mj8iXK`1avJ1I5-CO0b{{QF7
z4?OOia@jiLhgmG+uC+d2Dz2W8_<ADKH?Din#^Z&5YZvaidL_*8?LMa&3<9?+HP`g(
z7j9&ptD9i1oNShm{Jl72hEUjz@|<SJS?`qjjg8#a3Y_b?vbJMQkbktf*P7_>N8;kX
zzm}4%ZY^+MP#f`clGU{SFT1~3^_POi1(()4DSmw7y(;&vhVFgaT=0ORSLl*Y5|xjO
zJbie~?PB7-n>+AadRBX4|Ab@AzUGC8YTHl0{<rUtVo--tX70w~vv*?FKTB#}`k8O0
z_4K8WCntW{8UDhk>D8xQ_3JjIDt>4<J@4wD)EC=h52QU&$<1@vp%UP6=g0EtyZCPH
zU6dCa_r3hUNlnR{1}yuSM3i5+y2nqy{+HK)z0Af@yu9Y)dfk=fFaAxNe*JH8s|{a&
zmxRxn(Bk~|^S@VlyX!XuaV<4WsgORR#*wtCQ0HK~z1==N*}t*|AOA7?Y8xm2d2(9+
zUTrC;g*KCY`lWnJgN@sAL@(X8`L(O$i@!tK_lXDf>!)0~V*TZ_h}DxHvWs>qv_vw!
z2|9A1)&I$z;CI~rL|lFLJuA;(?7qS;{N1h7u&zz;{B&zp+h6?JOFoHR-#Bq<P)5<4
zHOuuo*gBs*f2>@**r4cw%gRo<_Vi29zxj?&H)zsP2z9k$e|u%l5)F&j>))&|sN+;V
z!DMzrX<>(9M0DYwjh)jT#4)}p{m=3yNAiR2X8RY9?qAQSdnmss=SYtNw?)GK22r<(
zrf-v?G|QGOsBE9%&hK{N@5I1~%YsBx4@g98jrQ1nY46Q;)7d`)I&Oand{FIRSoS<u
zIIVQwCRQCayO4&3Ma^xk7lJ)1nO<yqm%Uca?oLCiGW)BR?OOlLytH0Fui85EM*(x1
zS>;bJr4GI|FQOXWHE7+qu<Azv^CjCOy-qx~4uQ@W!|ooOIQ99(dZrZl8&_Yx44N@T
zY?AiWwIWd~e+1M{aV+QDYG1%t_ECyG;d^>SxRqH*%?`%S{OKP~EG&#F{B^qWSBQC$
z!_^!y&x{SZZ1t%jw>-HFLJwHp$=MQVcA8BmX^Zby=WAhSn16`Lo1IR(+2B$*Id^iz
z`sGu&f2uO(PdmGb@#T(1?&oZ(*&crk5j>o`?NR!I8#=FKl>+~E<*;?Igp_Lk$-S&I
zJC%7-G}mPzC*cE=d(TaG3fP<@#>%nwZFtJ_yg#=@R-e)rGyxeuS@JPUL?nYm**qux
z8-HJ#o=%HwP~G77O8dhG=T#r(YAgIa8+Ky3Xtx8O->*|AIzOCn)zb`>D3{%nJ^jUN
zz8z9mujKgNFuQp5^-TA7LbZ1pnRlx+NM6~$!^?_)!Rg~|_g+8e^q46Um209lL;u$b
z>wdl2tf?hOl>)R`1ZVY#Zl7`eb?+@vuc<#cZ?uG(zL>P=VR3rN#qP$4w?V3POn#Od
zlb`g~-Z+=vd^B6U^uuS_Z>P3gb=auzB(+QAmC&Av2Oci^|6HD7O?4~tHwKsc{xVz4
zYkPO4KG(~crmismh9}#LtjFcAUhlk}2I^~bJY&qgr*y8zM9HC6#NJNkP})xBN$ig7
z5A>3JLepNp1Bq1H8F4+nu3Wz6!!Pc0`IR>=?Tt;G*8Pu7;-}rRX#PHRk>q#PmcP$z
z>5}_<e}2P}hbadPc6ilzg{uB+vrM^A&N^p)7>5`8T(i)Upj(e}c7V#t{dSCpWT*4p
zIA^<3O7y{L<zV}#@*kNMBw|9!&fTfhY1gy(lX&Dq+TZo{OZ@kXm@q5z&t9x_%#eA{
z&5IESGUqHvv3@YUDR^hmtZpAK);Y^Ir7$eNvM;Y8MYXm6(vEMgN!QkBdH>sM1L_dI
zDXKB`Q_qmOGn3&)+$%F<Np%g@6Tz>oRzH}af1dfpx9P8^+`9f*Hc5%!S9Rg+X^)&Q
z^L-1~So7ODA?4Z8uO}2*A59Fs@Gi*u!G>jX7KkX+9ab<=t9w%H$y=W#k<ou@*1q*p
zI-%{ebENwcf&<G>6?}g<<<@oC4I7g`mCE^XcDC<Z60=`_f@EE7#KI{*^&C!ky;%I>
z#KEag8t(l1%($Uo$%oJz?9-Immu>6)xc%boWvmZtZRI7Ue|A^!^(N=oo;n+<X!_;F
z{~uohCn&@;+^8?v{#r3!uYBD?_xd$2MHTLB-Y2wv%DHA^i5IDPuF30ve_<53ymei!
z@Py@8UT+HO?AKOzv<)#`^IPjxP^$5R#RqcaYJ|U@c*l6#$&~jsZ-hn7?^A1DED~}I
ze!kFpGIue5U2TM-X|%AMCEv8Y=Y?;V><{EHy?UPgz@P0Gp2{xLGM{mHOZbbc`wmPC
z<<0)ex3ELqu1qwsE_CJ0({r;EXSIE0Q#tQ)&x}#?ra<2BUBP$O^Q`}UdBe2^1F^10
ziB>cJf3+7nxqu~zH=C8?Aa|&%QFrC<m$P{HpS+r6#GB2_@lEn$f;9V_<%e$O#-D%V
z{N+WxefW)=!GE%^?qPEmn(gsSHlEk^*X0di4LcqL9(iytqx03oyJZF?H&!L?W#m67
zZB}T|%lH2rcz5S>u9NMPR~H++Y)pwR)sFcX<=p>IetsB-o76^*rjq>jUoUq)jOpHP
zle*RZ#LS8NRCfPY%CK+!_>R9Y<KwjDG7fS+u77pbozu*W_^`TI_wJ`DtTQ6=d}6+x
zi99f~+Iug9{0ES#8H)rSBy49f);N21di1WRn%omsDST07zkZ-V?%l7%FQ1=I18s`V
zk%(oP8~5n5fPAL7%H8`#V1-qm*4R1Cky!pu<M4BxttF>}MH13_C57Y)+_%knVm9q!
z&g_!Y!F&o*#@V;5ecHEO)7hIlJ9=JG)XW(HZm+%^IT&O+xoy?^S8X-k&o$Fq*BV&P
zvu)b6X|tZb%cgBrU;h7yUr~E<@dZ1cR&%rdu(_vNdW-n<{WC#}C3s|l>pRm$zq)-_
z4h}rN_eFUBKQ@o)LhtTruhsZ-**p3S_vRdN&>C)qo5j8ipE~%YSQg$o*mgI)u4=XW
z|HRgr^;Iz(i!NQQd-CLSLi9A7r#qc2BqwP_R4s0Q>+{tAJJ$m5@B7zv|KsyuZe)^^
zjGk(DY2)U7KM&qof9J=ddM3V!#-=Vj!Cx3JJt?|fP~fS;^-DIOL+HA4@;njSqEN}d
zr?*MoF|B5D()JC$r+(b*_^f?*?k%i+l3DVlsO!S9W2g45l91^Zec82d*KfXjt6!`V
zN4GW$%|CT8$oBUK*PR#gtg2W~NNwgWD9{kvHrF&aNB+XA7v>5-=ch5~F`bv>DM`OO
zJN}ff`}!~o?&WE&&z2uqwkfbYAZqu^7hkP=gp$24$NN_AKijssA<TWfoaH*M=NUm0
zLfS0<nO0rCxH^~lwpdk)rA%LMK~-Stw%L7k>o;t!J|li|<_@h%eY!!lo;7(^Ra>3*
zF&RnUNW9beDr|?<ud>S*SC?}<Vp&^IwA40rEC1bfk-J~M5LL*tUUhI$hvOn%QTbo0
zO-mPxTXv>+7`U&UW3$MU?_=Af$us89`>6|>c@}W`!@c403;jnEzH9n#><3Sv#B4Ee
zn9e<ELA9Pk`GmY^t6%C0)8Fk5xH~B?b>EqP8K5z#CxLku{EFr0uWwz|mAUTHe$do+
zK*s8jUGASWN?wU}?P2h;f4b8tZ{_5E#^UGamJ}JCDf~RewErJpgu#`zuoJ?jMwfp{
zZurGJi*5by`{zZ|G+&)Eh%nC4n?AikIPUxY`PyqX<!<uHT+~>*%KiQPcF6E(c$QdY
ztDuhp*B?>aW4R*Ro|fw8Oxrjm=6d5Ti#f@sk1u+&Ml<xQ)|}kRyY`IDXL#BIIX#PJ
zbtS}pjEV*|`}!35M7j)4n`HB!d}$ti8`PP9RJ5pJ^C@@9RnG$MKF$U;P}iq$em|CS
zJnGY2>tMyE^TipyCjIhuT&J`fbq_9HC;#lt?tf-qUi|;ZDR7l}$8N*fsxtSkpT2Y3
zZNA^eRacY`v$y?8Sh}g?OrZCdo3#Z$g4e8K?P%k9J*{#Q<Hvbr9&>VYlD|Ei<*pyc
z^7zE-9lY-6tcBTgE*_u$`s}4^HovSD_`Q-Dwf3LhSZuq>a>v0-v)unP78E>cem%wR
z+{1IN)2&m_F0N;K)bcOOXx;2x>CzvT`EQg@-TY2BA+b0^E2(4R-8=iI%=vRtDi<_u
zleW(A!inOU)zvL4cK*C%&@p*xYb(<c1~IE#t@p?0gq%Hih5xNGe{$kRM&bUjrB4h$
zJ}h|V`E)zWp7l1Zrv1sC*QMP5mt5>t*yU4Nvor5c?i!n?j271MUlvFN?tD7oNxOcw
zQ`(Q$kGTXB>Ms6%zQ;0M)bdB=sffx`yc;&B-w!|R5G!)kZ-dF(kEwQG(Sj4ERkCY1
zo_DNVC3iDl@!;!!8quPly&uwkYE!5Gjov42_=c;s^nYS&b9335KMn2^wC?Uc!g<5`
zW%bUt{fGXUxtxC$Z$9<cTG^cKzT3ZlVp_B4?>ZZcProcyuCiIWd;e3zH+yTsIyh5B
zYD@Fh&ev`blCQt*Q>`!Wu){G(dvlSuahAjX#b*-UKV{Wu_TIm0#=ek^Dbvbd7+pT_
z<I49>OlNd_m)tj6<#Fjx{6y#Se*G8Vcn*qW(h+Kv-Fxp#?A-^!3*SFwmJq6sUB=5d
zQ%^fJJ=~<_*~Wd-uPUeSV|w)D_WImVwT}<(#4+rZP;C`xV_o({;g^!0`tzFSehcRu
zKKu1S>3@0u1A5xtXJnSg{XIE7vu)FFzTdZQh!t$$ygmJn>KDE9l@jr@xG!9+XW_Xt
zxofiipOU)M+q>`8P07sQd?dxO`Na{QlW|X%mq)Oi<i9oXtVYx!rX@KdixwXE!}d$#
zc(}^%Q>}7O{3_QKbj=XIqV(#K+$Ya(rgpX}&fXWaTXrWr;e49$@Aa-;@dBk)AzNB_
zHRh;pa$WW5#PRM0KjK(yJ>I_Nn_=<l*R*>!u8GelEt22Ct+92zdV-k#<<efcUnWP}
z<EprOI~J+t9C$s~myM?}*7}j>foA)%<@&OF4OCJO*RB7iFL_3c)3fVV`@8&|`m%q8
z3rsFvR8JI^5nud5Tl^PjS-xR&+qcArn~d+)Eno3l>E=6c_x~&|*L#*E3YmP}yfMD+
zbnVL*@B3|z$j?s7UD+rbz2u2?YuPnW?>ya2Wy^M_1r~mvZZ2O?{^bS##;~;lHqu7P
z-Dh}aJzu<M#+R~d7wyA6=IzQ^%H%C76ThnDebMs-z2&dkgG<jUtu~tZKHx?lV}nW1
znb)ry?<{=<+Q#9*k*v1kk=@rf{MVCZ^fv9cTVqiC#Eb8gf|B^UYin~Kiy10p{Q1c+
z<423ydy^e8lYTk=4eE(I|L$<+t9I!P2Eo(sEfhGlX&%E1zY5035m))m6H<ejJwzl6
z=17|8=l!vD4Yt42aHJ<C^qIt*xR$$o%W7Z9@x8b>|JOpM6!W@AmLJ0VcJ;lL=X-JS
zf8DwXZL3r3o}6rVzE~su|A$lmzwgDZvB!+e<lebT|DNz<x&PZ2kmB$PTiOAog&!^4
zRPV0W`Fh*t*Unv{GiU!x`8LVonBA3lllh_xe!jf>?4q_q#H?EVNYAG`gSaouopd?>
z^9%EYhkWP1r%bY$+wT1L%bh11??1bkf8f-VMej8y=7ch@>Iixe$GE-ni?qSP``qjP
zbiRKoaz%M}pYUI^{y4^<yyMEOPqp92^lPxbQwHli@l<qE-I`4sC+~W3*JkPZ$}ij>
zu59eA>U$|LbMlD-o+FFq-}?qC{ck+D|Do5DtwwI%#c4+pzsm2tm0Qek_z7cZtk;jM
zBd@yehl5Wb6LpC?6DT=ny~fG159)DWK{_i`?KXaxGU@7l>)#)AkG1v1<<9<mB3oW5
z^G{cn(R=BGyVqBKDL=qy$;r04r0z-G9idtG*S_#}*PnHK=65djFpuWnON7@MYZ`Z6
z0?qvIXBN7@uK1-%%FXtN47<L?)V_Q%zk&Jjq|`5#wnaa-AKD38-sLyt)yf%$tQ&Im
zgS!&$cGsO<T)%F^!{zQ}g*8dbCFa&<gh%Y(5)x)_<R)IaQBdzq*S>EHPiMaW@^@-T
z*!lvWmwyTl7tBe}{GDQ>BJZWOo3Zn{fTbY6&vX0DMwibP+-Bl?%x--;F7d^msfoL*
z6}K+B)b--MbE1bG<ICKHsu?rBrtwDHiCNF({E5%vfsFq~Gq=(MqOnKY*ZFa=w$A5o
z5KgtbvROI1R^+RBWa7Tc_E3pQ<p<Ob-(3BpPB3=e|7h(q$N0;b!=7k<@pio4!!Y?)
z`@0*mH}qGDU9x#(`bxjpcJ}$h1#BU%^Y5~UwPY#gI_$EO7OrFppK&O}m1ny-*TW<0
zpK}!-aL`hjI8im}@thl1#Xo<$<;$JP9OplkO{h@9?BX%Iw+~*ezEUl_taZsf#lNvD
z?whc^xfOM4D_=w7<}AgP<sRpFJdU)lc+|Hwr1s>J2zPmVhQ4g&!{4(D0@w0|t}1e$
zU;g5SKes3IIju;|zs5@1t6!X!mAM(-Und*yUg65N`Thrmi13D>R4KO!tY^Mmv$oPq
z+W6qev>VIj%)jTIxMw|RYf@u=$2^B*+2ZRp($iV4hWG#Dn_>7%=6XhI+pJSx^JY%@
zt8w;T)$@rbMOdFFCbVYX|Kq&FYNz&_Z`Z8*?-b~pU(*ln*_&@GWd6J1Fi4%I=<mKm
z98QWJlb`&pwRpR>Jj~<U+KMMfz8+rT{r%mIx%*1K94ebOo!5K*$%Y4;9&cZB_29d;
z+d=CCn<THX%vd63?Z5BOp$Tt5?W8q3<_O#lxz^8Tt8upU@+*)~jsWk)xlLYYT0{Ci
zyju2e!}|i)_<qqzGh|}9Ei~BgJ>b6Zw&DA}MeC2d&lJ*Wtnzf8*0k&Ep9OQDU#$P7
z5t6phx^?}<CEIwP=Kgbk=_bA)?8Hrtn;TR_$`2<lbFDYZZ@>OGem;Y;Qu{#>{!KHi
z7N5UgclyOe`Phc4CjzQXv1Nt77aw_8>}vJ*(Nw(z<{<qnBi}UN+*>^gyO?am9OFN~
zNadNiC+AkX$_}Ugk`2#%L@(#D$Z^jIyMBi0(&Dgp#{Ow<zAfWp-*2`3*+u(s3swJv
zSABCIIv?xaw`S#f&<PiOEk`1S<X6dmV}7y8=Qrr2z$FLEe!T2;{c=ye>>GRH7t{WK
zoHw3KzjUa`_lC+(@m$yEm0#xHOFZc6FPf(J{b2Yk#&&;|X61cS?b{i(J^W{|_Z_+^
z%KCnOT;*=Ji;L|afB3@nQg)J@gVD-O@;lY)SLMv#Zk_s0)XZf=x2wYx?^vU+8Gj_c
zE_gqMc}DW_ZJv|gr@FqaFid>?xoo-40j4r}HbIlPL~E9L5BsfOelA-sbHKtX+;v%n
z(42W8+k-fM^W~SHVpQ24zf65YYeN_Raqlmt`Q@i7+ZlfrJq)`f{$J$j^q?C3CcFId
zQ;~@tb7nb4J1T8+j;?(ubojCJeNAqI_lFyo-eRn8%z2a7E_W-pcz3Xv!t7_p_Y;{u
zSeQ%`f6Y+x|I6G>3^Px3lyhA243J-XXPL$;(WGB9_XU69Vi#ArSh$2GM3(RH@1+kc
z{dmPLHr7nJC23&#Oz-L2=MHHNa@`Euf2=$x=MeU7F`IUzgSFMl2m76Uvj2UpY@Om(
z<Ns`v@PfXLcWqd^dgk*t%slzg<kR*-$4#N77BilFJkAgn+kCZQ?I-2tYc3-Fi%q-h
zylXdHul@7kgw4u1+xkVCHtqU)C-Z$ru|MxOhD+`q8m|_yI~==Refx>{d6O@#exWK}
zDP0oMx}`!)MOC-Ud8diA-t*6IS<1JM(QM`>+ln3HnYELuQm*gd+;Ti#KFp&nv9&s=
z@%F)$uZ|pN@7blbNWPNq-MyxrA5^QJ$==>^TTQR@1MdWh#y=-Aq8)9PsC4OlEkCl9
zua4o7xYOmsN2Hadj2-?@>|WO;;jlzFWa<2f#CsvzgZ^~OO}!N?YS|FHOk>iX$<}t6
z^UYeP$lTi&`T2#VNT-lTk%!Lv01daFJePRuo)~}{)(NQ#53<e>GT(VCEos8fUh#9i
zpjyS_&*2XDcTVCV)9fyv4?YH7Lv(V_nIjI#Z&$y*^!H2d)#J0=|JS6<`|D`k(%Jj0
zp_H@t##(iiYYmy79yV}JIda<W{fDEz*-Oq&*u#8jMb#I#i_9EdXD7w)@o_(8rLwJm
z&!Y8BqVodtQtrRV%c;2genJE@TV_Q6Ig@`Sed|B5Y2-}%|Kt9D#shoy8?hDC^RGM@
zc5Zh0%2T~ElQu-YYv^Que(BHcbNi==h1@;1f61f`k#-DR-3*mRsX^{b@70Dr^8k&k
zxs`D&eR!j}w7Pxfv{mt|q&#ov$TM7bwO6fNqjjt-l0|v8jcVIdJ&i{vO@n1^HA7c*
zz5BTJ*~R;eD;J#<QBIqk=3DyupTwq#zVj9_8Xox*t+qQryZF_XL){zQ%__SppQwGE
zrBU-H*k^aH^yk1$CxgFm34XoI&~#|&Z^_VkkJ^=PKG9^~@L_`UB5uFD!>!4iCf?t-
z>0~gULgCXHEUfd(lDy>fFMkxOO`W`4#^Kb9nLX{6j8|eVJbrxFahLLJo2LwAax5;7
zA79Q=TwA?!-<RMI%(j(Xaf&^?`%fP2m>rWY7PNQcsxw^OCxiJOd{q=Kw&>m=Id`Gi
z)?cy4JDOg0*L_{W#m{tz#bKS!S=rkYbSLdUl%oHOnPaW;*%*#F4cej4xbL&6ZU-gC
zl<u~2i(5kbGA8Z$eOdcx+!uC%f6^x0nj1n4Ww`G=C_mu7^4p^L1|!C)F&A8q$84Q+
zdag_7p7{7L+!J0XOs%h)8p-lE<Ls>Y7Z<lJ*Z;-pA(X1tnp87KGii!=z4VN@*WLdZ
z(suQC9-ir%w%xkl^v6CW39beDzgR6&>%5*73x0fP(U7-TAk=N|#?b3)3>03;h@6x4
zp8tT~R>t&JZ|$s@9eE!vC#!~AJdF9$ZgHUD)%A8!wtFXBKCJu1xB1snmhW3u-pqT$
ze4@BU$^Y7dQ<p3^9`<I6>%M#A`NYXSpIau(UDCDu<kYyjs;#$rYr`Z`m9$pdtDKE}
zI4ApC(~^k%H_RQM`~9Q^8RXLUO!~9QxJU8pv9PsgOfNEMcgK8--Y@bvKl%Q{4bssJ
z7dOoNaf);8mlJ0`PPN&!`Qd}9bzd|M*L-tNC^c~9>lB{9LVZzLd9wLp|C<dLUh~C0
zd~#XseUpl+-MeFXZu1v0E|2-pu{JS!h1s^#+Yf>!oDxJH@onQ@`{75IkGG@w`wfz{
zU2HAB56d4-Y;wu4S+nY8@pFae_P?eud(3j*x8%S+ckkHO)9=1mEm?btG3U<Oy>+K^
zKI<#9eSi4i+3B+{g1>N8-tkNluY0Bcev8t64e<wye1CuV|L31LL-=+ltv4zsBXyUo
zTX*p#+gsl+n*I(P?Vc5?ce|==F2_}DDA@7qYhi1Er$D#r=VM{oK6dTJB^Q_5F#de8
zoK5ll;f<;9zu4W0Uf*r^l&>Op@+p>0YQ2Y&-JQ?<dZ)bD{r_?I0|!}*^aNuhj)(32
zX|>XE`Sbbp|G%7=(4@F+UB&e01v}0&{=dx7RQjJ~N!A>f|C?&h<ydgt`s=>VtkP!b
zZ-tBYw=bR0dAN1s<mk-z+Kcxyx=m}kxUKV!|H)fC7vBCzSod>1zc!D}NB(3rmuHdB
z7<=AT-e~ug<4+LVEWX2kGOzPx>D#>tzfZl8e?Q^zp##Ca`;RnK=Sp9n$Gt{ouFX6#
zp;u-hoBD&LOnyuC?hDqii7frJ;#PsiOV)`F0a@D^kDuOl(B{|u`3#90zw6HXent2O
zo8Z?p=A>=BRbT3BnOxrfxAu~lE|R|T+;(?8vr3zWj?{hAS30I`d&yL?QdZ!@izgo$
znlAV<rYHPv-6Gwp8{u8RedCO%!1M>HU3YA`ENA8&topX_^brYALr3QJz5Sh2kIvNc
ze!ejJca+sH>xAi3bPUTU`vf&dEwuhppaa_Z;I^-S``<&~nwL)MJl-tp?f#!}Ls3q!
zYskE2t<66&kAgOP2l6h=ZFW<<D10b#;r)*b|M%}=GD}G2Gu$}G_;y3fS&9AI?azoZ
ztp9!A|G+N!nae9)9d3Ll@_o8dH)rSLpbH&a<-Ra1`nd9y%@^m1k-i>#7*B>Yb5GQ{
zu>7au&ppoeD)Y{^9LZ`8b()}H^=sGEn4f0(SD4C#g<iWKW4w?e;28LMNzupU8hw^N
z9%~r2quCQqh?_k4`{wZUej{IxHTM!HMtTGk2=ad`$&dfDPfc~7mP%Md@k>Un?_Znp
z^mfRnI=R<_HdK1C-ZT5dchbSVG{2jFhEK7gp69tI>$x25+LcnL&t3WVVWCB!Ver{j
z)*VJwM%{fuzpZqd-mPv<kBE76oGX&);?cl;o2MRl_v1%@jBl|c<GI|#gY}DUZeW-#
z-nF1|%`EQU6BoY-TGdj#gze?4iF@Nu#aLB&9(a6l`2oG=dkaMjqe9<r_${A0!|4Ls
zn@1vEZmKy=SNpeK`Qra(CunAJnsKl2xlCq5^Xs!gQI}Kng<tNc_krhJFSdE**qs8!
zg8Hk!z3uXoR6pNrzg#|PK4`J;L__7|?EPOW0%kpa%$yd?5fm?JyVCcKpN?G8fmhR4
zsa1VhF0dr5WAk*biLJWl_zD-@dB%F9Ji=EogW1pW*UJ~#9sByUHkW9x-`wD<EuLhv
zX_?Nq7|YM|W22jPugfd``r>^9ua#!mvB$MD$__*}-RGMJ8fI2G%HjThMx1*?`?L>_
z?wW(z`w<o%i;UtQ`DmGM-MIQUUwHq&pL~xu-Rkx!wSJXwt3A%KXdP&6a*@ttRqeT6
zYXWEG8*qE~EsimeXH_aHdjBwI%bW6u!>98lZGWwexzM1oNO1T1Ps-Q#9{Oc8O>o`2
zUk$O7WTc*)X-pH}l`u<d&g-}@romg;-!ProliOh%uz8MI;9KYK1s-SRHgE^*D0-r&
zv8^?8Rqxv{*ALzQe=<lYK4VRY;M~Df;=U#+Z<Srbc`nCCtqYT${jJz>MBhZWNBaW%
z8m1$<?t(2Ti*FxY5putgy?NUg#%ei9N%lK;v>0CJDP9#f)IY>rdqD4ig0r+zdEvoN
zw{@4i5jRxZ^X@8RwVY*|-AcpxleawBJwK>Bmp%GG&gHJqUDKD@ue;c3|N7m%d)s?&
z-T=j{PfmeP(!vvg5i?&&m2Pg>S@Pw)XcM3Fl|=^_(=DFvdwE;*9B5s9+nIxx1RgKj
zaa;aM<rl5D#h~tSf&F4JwO1W;jemdTySwOJitOL#<tHXGi=6xtcrK)4`l(ATeQ`@g
z**AFfO`jN-aoRmgap!x1xbIqPE&6-7KWcBjX!dbq`SwLA`)^u>_s6|5+n9eq?Ww5R
zwYY^J_q|xT_4P-YXP|`}E1#WsyZ!2y{MflS>R5JHeK{|>i6OM@=7q)YAA0>fDpa#h
z?ys=H=?<1F=Q3A4e>uxEI@0KO!Pgh_`+L;1d#we<7w;=&G!eOO%OBqV@38w!AxoY4
zOLgP4f2tNm*#3IX<tV%)*_)xi@}FqIuHv%?t_O(v{pFijE2j7Pq52BH9Q%);WnTwg
zC%8_Co3YNT{Rm&@>u&X9F8%*PEKCy~2P`?Y)8d<*%D&#?X$SxChCaO0a9V3Y7qfrx
zre#sJr61OuJa!|QxlGY$-Osemt3Dg-HY_uJ^?+GIMS8Byzs?^wVnq$_oZK@*<@@WM
zPDadcYEC7{$T5W8Jtn)bRj|`uo?-pttPgWHl`yVcB|7W#g+E_b1+u>u{giR_K;4m$
zM60`9zl1D97V}+uZ}5n()5c-?thLMUn8(#smEMr}&G2c>wIh{AJP$rw^2aWI9J#!A
z<9X%JGbSIoCAUg>p5fM`lP2>faBtgW@}0|4WMNi^2G>^ZU7XX-*yVI9W->m$6RfB(
zV{y^_z?J^>HX6&?{#UINc-JIjxWV=B*V}e#(s!@hoST-L`qJjpwkblTA1vZn&QALH
z#yW=QB)bB?m$uCUuC45@a|%wXZw_7japHc-&Gx%A#JKE>Y<@k>;=K25vB&d|!V2|w
zH~nZ&Z+)v8k#(tZ5A&q;9XT(KEWKQ1^5E+CBQtU(di$Atnj0;C8O5>OynZp+r}5H{
zoCA7(TO)Zy*MHu)+P&=Nxy_3|OV~4>Iw8TM`fp!m&7V!iRbSj6Z)TM4R`V>D-svuN
z?!k$d-`xV&gk`!$r9MBvT(VzDxbnrs{_xO`PmftV4~<&LVEKT@MsCW4zBjhN*U2W#
z`15OrQ^cE#1!atOlD2G@b~IdFBFeQPz{j`2==3j_4Ix(w5AVF^6Sa|1cnWtwfodMN
zysP3Lg}b6<lf!ZjoS7B<NXM5=?$*KEvccWm&PzqPCd_qO9P)Bf(1knuH?hu9TYIBH
zXvtxwaJjz*rSZpn8g4H6zA)sL;qjiI?J=vmvhrBl-d6rDaM{hzuW-mx>9K2E;>EtL
z>%P8_Ir;AJ)tCuRDi>Le&3T?%<}SLwcdqj7+6sn?g)Qui^6`e(H#;qMGWuO0vYY?9
zazA&&&l|oh4bHbkcda^Ox$15^_XcjunW2X=xU<)5ZD;N?+I6p;OW@DpQ|~9#RmIkd
z?B997>em;BoJIduyjj$mD}06PE^`@Ab?>@E7CX5%U1lk-VdCbOF!&)HcyiX^n8n-^
zJSx^`@J#MsU$g9qOMG_Q{(skxi%!$}v`Z=cK*;+IzZx#aE#{t(6~9K~&FdJOsLe^*
z-f8mZQr2H&^>BU`v4>3|>z{mNaMjCM3*FbRyU6Nc8F!59rk_Q|{BN_BXR_*ild^5t
zXviwds`x3*(rV=k>-lG%mY&aBZMfEI+ZA5VlT&A8i7bmsEL^-Ew5E_JX1U_)z?p|_
zw&pIg-dw7;{<n34lfTHc{-PS$ZN{P*;Ir)RGww`fNj`rnWzR;>PcK{REtb2)pLbU~
zD9_SRBzLR)Ma&o0tZ9$E_b{GZ+w8^kTUN+3Mt*~zMiA5Y7mt}Y6kn-lJQO+k-ows)
zv$RiYHa@?&oL{?z^C{~IXA9#yDc@Y*e@x*1vFG^o9}H$Ym#DGN+TvvEeRs07c#neR
zz9UisQ&lHjKgn>iVpGGTZARQad;0W0GOnq2p5)rly#4Hz<Ke|h?M(LWQ+t;MXD%=3
zOPS|rQL_Bo*Cc~##&zc&^BN@U=<ZZyN$lI6JHuIh+y4`*KmUk$*wP)CR-cnJQ!ZNN
z{=NMV*8l&>F(dJ3#FIn)Rrgl>zpQ;DM@u@i-$uGx(BPu=&CeJ9YZQidMl#RyyJ>mo
zz4qp3Vjh2OHm$Ur(JvG}^#@x;ZK|PGquYcEbH{p-`qtH;qZH(m0?(gOFtxMWas37B
zj#Wp@4>WaVGqk)>JY-q2euIT-6Vtz0oA?6yWsVxOzl^%xSlxE3WxIP^=p*TbBL}_g
z4|aLmde5)CTlMbPvU=}G_M8I^J8ggXrmxd!J?o<^Y_R-f=!6rRuNk%;vbmu-Mcq|=
zW$Q`h>c@UuZA=Plf4sM6tmxXcbW?iNDW}DGS}J_+?0mfEe_~j&p?&Ux7MWdl!xqnP
z5P$N2zulS%RR(WZTHiM9*(v9czrwfC=fiX6go6c^R}L(wU6SCLn`3<HY|WG{Uo`m-
zSlnpoecl+nIrOb_e||BeUhS#J6E)c^4)0s{fA89ti|w^PGp)I^wqo6c5>1<lL0y^0
z@7eE6YhdkTb>XUI`gZQy+DNMjk;~KORn~FNaQ}Z@c)}6M=KBkK8c#(|<*>1S%@lfd
zrj*#_RYITL57?cFIr8H9#O7Xp-33oH{SWB%rQF~sVNEGrUhy*5ao^Y1pSipr?Xfhv
zxcf!VJ!#E|3IG4suq>Ix=k)ks(-ou8sE59Lv=qeWtxRN}P-(V@KXR_*IfwN5-$NIu
zSp*;c!sRS+%F^=l-#zbB|I1F(H#L335Z8V<;r5v*7mf<I(g|nxa7XOFa>ao62E&b=
zGrWb(F4@Q*eWLkI*38!Q4MUOIQMt#yay#eMzOZZ+3n>qotiAS-Mef!!ofS!}&R3l`
z?&ZA5D!DMLNYi0QrsB3Y3^}e#x6kv9IXGucynNV++bo4jTlxbFJ72QymS4(p`N^dQ
z+k!w{otbwnw7<N#%zF87=;Ul>Hka6rLa(V>u@((+{;!yPmYrOBPjO@T3t6W>UYSSJ
zX72lOF1F#O$xaakUU|3vEk!jF+kZW_yLiB^$k11h)njqp%Za}?ZMIwXbUWuou?@4D
zQsQ<sG&yEgq-bO|P1+m$^4!DQB4?b!SWohL2rps|i%_3`BkNCa$?UbPk!RQQYpbl)
ztxwh9&b&Rxs;od)NAEx)*CZ)}&2vqsT$T8Cb?)QS`wnMvP2w^LVDVP}{@}*54DELh
z=R_v*E>l=}Pce43&&LNZyr;gKoXQe;AcJetuZha`MXzFtXDr_|MYsJjlUneE5N(yO
zx7FGY`Ff{*nde{Kc$QDg`~M%tgge?xDmyv~C)`uBjo06G_8NCUMSQu#D^JxmB2PuN
zCd@bTF6k6z-8wm5KFnf)>EX}`k{immI;}qxdEnl^pBxd|@*4y;1?!e+IOIPHZCuQ)
z<=yZ8E+X-9ztc3WU9C@U7K`>Aa!h^6Xt9C6^U^^z_EWXD<fnu=++E!L@8?v_n#1~T
z43p)u9xqSZ?S6h{h+R+zOLo;O)(`oWDWb{d<+tC+?PXP&xxC_T@;lzxFTQil<~?}I
z6l42~U4iwr#m>`R`xY^kY(M+%qCJCU5yzRdg`#Z_T9ndmzX4quGs)F5x8P#@{-;aM
zIq$!7eU;|{^8}{gIrkO6FKhDC{!{CbAEo+0dP4XycAfU(lQE3%^jWQbO>WS32zp)c
z)=|##1;@2acJY#+&{92lO&0ff$7MGzY6nQxmI!|^^DXsbyd+`t<-5`R_T%S%rDjDO
zbm)(l5BIpd!gBJf9~#Chgc{BH)+@yR|H<KT&}xTwhS3Gb+2{S&@7U<;zszboqx6eL
ziK~V;uOIY@`}|9jHTlHU5VQ4O)>oxYiSti*vSrb$XHCzo!=0vEKjoBY_i1%_Jj;#e
z)s18I?M2J)Fj|*r#&Bd!TD~G_)^$dG1DD@F8E!oAXp=OF-S_FH*~zVoH7`_au3S^~
zr1P8mR0-?iolhV8pI;a7Zi=+R&8ci`EW7(JMcazpHV)Bwkf6Ep4V%x5jxMdjq|4Kb
zl-i{^U-|QL$byy$uUU~SE?34;bttWeJ$!29p$(yr_MAF*UCBUW?WT}#yEkq<wa#+K
z&U+g|AMtubMYH)#wVv=b<ksZX8haRWr$#WhrHaWiM3`OWol+xyA*}PN^6_)6g?;;G
z1&IWiJqhb<Un`V<fGbm?PV<u3JXcq~y0_VtckSh8X7RAh&@NZ#e=oCi#XJA}8(JHy
zo(M5*^PP34&v|P7_U60u?`;T8+UoS`)+d+dzP7|$&lPz$f7pI@%k(Q+*5M)73^(|v
zZRgANx_L+G7|*v!R(l(6?o@9*_n7sDU+KENU%sYonSO<7kDTd87Ka&oW8y9Or{4P|
zU9DE_DeEA^_9V4y{hc2R?k?}G_B@-Tueo$B$D3`l3=;NyUhwfK$EV$C-tPMu`d<q8
zn?&^V98}i(&UKfg476%iw!f#%l<V=W@Rn^2vwJ~HYYP(AurM~2|M0bKEZO&oJ7K$g
zDr21C*$43)Zj<5~T(9TaI3;s>gT`osY7a1phwfT1=gG<wZ{^~%<@TPK_34JTPa~t?
zu~_Y%^l4S4YhQ9J6{@a}Zg_IwYQ;0AL-IGGju(6K=C>A}UHqS+!^`@rc15!M<hU-k
zy^pomfhH7R$K{<VKHzfY{VAF6rLTA1%m5$q{APxubD;SA8xODSTNXdJJ6rCra6z8}
zGsljta^=ULAKktFNWlIrd;HcH6lpLuG8#6Qnazs7C2ue*_><LFzLSTVUf=k0;-`h5
z%IQ^`-fxhuoO`Q%ZNY&^<MkJI{Hv;YBQ*WGt-n@(W!{09)Kxi87VOP<9q1ny{s^>Q
z<<iF1T;Z8nBK+qU{`TqF0Xiv2_4D<)PSQHFn%+(0cmz7tH|-(c<+996F&wWN-rma;
zo__srZL5jou8)knrA(??<(BU~qOoVae?udG`w79E>%wt+8g*EIJu-d}$87fSw!<vv
zmv3KQ<lp~{q4kMmK|Moz&YL4uRj<Niz8>c;RMM0EyZ@i#V%=m;X@SQvg<n3~t+}1W
zzu9?j?T(T!@(f33$#otoPvt)G^@QF}6+PL%yc7ENoM6}X=goc-yLB_e|HT}$pK?Z|
zq|WfI_<QqwrNx><x859Hx_H06k#F;g`08m^7umXZG2Ll1eR0<Qy4@aTvn@u9DvO2A
z&2jH~vG<hFJGWcy@?jiBMX5ob%EQ-GSINJ#_PJSdc1e7@wt}JarW404zj1%Jv`f3a
zBxzTgw86&!)mvtrpQo&x>u+<ijB)u3(8jAW`{m^wJ@ZsFqfeUtsgZm#VSax@@Fcfw
z=l6V?x{z@%hnR0A=n}G?gQ^mbE_@XBiDca6XgzD;s_bR=7xD-*c7Ce<)XINg(w`vF
zOQly$FE=Qj+AW;)c&5~~x0M-kGv9e!HND*+$n3N6Ki6_`^#?lp%)K3FE%{;Q8fqbE
z$n)}^SXlE1>p5oeX1@)*-RjxT=x{10y)6p3=V<M@?e6`eX+8fqI~u=<G?nNryZU&h
zSv=FZ7@qrS%wj)J&Gr2B<VmfKO1zf$iFDEXZfgaunNOL;*{zV@y;;1uqbbJcW9}8M
z>?by?a?4aKER?r&z4nfo;I6UnEZdsv*XPb*^~jlAR=m(8JUUQdzvjMPCY~9872j^p
zpU1lC`@(wt!>|9XS68^2Yq9vajKQy?JYNI%Of*zoSNY}A^~t>5^W~aKt$s1*&z{W6
zbKQ6K5zzFBgzCp-Q#sE+lsLm@U)hr__qVw9#-b(uFP$D(+V6cRRXq)K`3K|SPZGz&
z_X#ar74~9hW^6;){7sB24G)Xkh#M}F%5u(&%8T0g?Bacfm2A<g@0?aLvAD*VFJ8Ox
z*A(6g*VvsN8&rJmCUf5Vdn;TgZ2ls-nWlDI+Fd7YetcLc?$Ke>{(t@d|K4Y?alLD*
z#5no-i^nqJU*2UM@CIemhS;|KMypp9tl2An^Dk(3y6l9MxiV`OZ**%&Pu?%f2hO&g
zCT%vKEY4LtR{a%a_3LZktA83V<_qjsEG|}@|3W+Z)Y8g!Z})oUDXTbc9q3g}O5MEb
zg;xpx4bULTv4eMfJ5FUro%^};N7Hnn>3#qBEDS_u`<|BkP++0Cs9g91Xca+OfyK_h
z$83L9@v+BCg+01-(Vp?+X@=^A+&6!t`_`S=d_W`U|1|%pJ5IGs*Sh_zVsnDtF76D|
z{;JmA_sJ#|na%PJ@s7cdUS0hExc;N+R<C7~pIcwD?3jA#$Gf6$3!l#nd-Up}J>x?w
z*W=e7B)@s#rs-GcKl|$9{fw7BUX65Pn%<qCbtA{&zV1V&Db`OpZ&-cad&93{#lNDw
zcQKo}1Kv$hSBTMFsPbfi=BvQ{hkIqhKtpGR5)ZbY34OGVzx~~Q=Tk4%*H*C07#&wn
zN|1L=Og~^-dAC}(bjOKHb~WoZnCPuPqVtyj?aJ5N9xCm52U=MB)Gsk!`bg*V?SBqk
zalP5$vGBaRpU}=}2bJ&sQmc6W$j?O=RN8(ve||dX_%iK;k9>u4LGkP7<vup!dJLL?
z^NBgrdRwc#^tf^F8uz==`DYjZ-{2(KE1+`h<gJnu|3ML1+?v65QD@yT^|A}w=b7iM
z11H8Al`GDMr*Jc#d6vbuAXf3NW_=A)kJF*%Uejey-{>gpy4=fs*4+I2CcV4qH6mx?
z7CZ@bk3Y8XV%^ic_fLaW+YYl>I+*U`dbIMKX?adL<M*f6i(5l_CuIsuFumw*DZTsW
zpTjqn@14${;JAA22F<7Cn-5NU?i%oj<6B%<gTiMOvu`FkO}oRVMk<01#ba_|bG@y`
z`P1e97n_wijlY}sO&3oPXMELa@Z;O;+1BpL>9q%P-ltyWo}hR{Lejai%Wy`i^Tdr-
z{W*6+{FctGeXg~>=aA)JzSvW$E!L+Vt(l``sHZ9M>_fg~-b2yc9P>HSpwkAY2urh-
z$s9bk%ujmyWxlu1&Zj#}`LfP_atgC+YEYeh>Y8(pAIpk)xUsQ&-mj{$nYm%-O^uQ-
z^)?JI3mn$Y+Qu(_waYT$Zf>*O-~0A!3x3L9(>c;P+4E;|IoFz{Q;*J!Qq1|A@vOZh
z|M<^SpO?BY$o`F&XB2*a_}Y%T8D-vke>iW{Kaity?u_zf_nl2GCwN~UmRSDL{~uTP
zMvL3pJ#QwuP5UzS=+pMIMX`)mdlRPj#VNH{X}z^+so*%eA|c}U&r@~@#)===)+7iX
zIKAal<%+gjJmpGRouFY#9VIpU*v$)kPyZD<2+A?tK4qF~PgJgWmwI0F3)37mm9X~$
zOsY57xt|7wTkPe$c%9#V#)JsQP5m5(r8BLspR?=vXXmmps`bb(?d1Ee7g9b<<$u7v
zRT;EQwcrHHl@qsFKg*dXeDt5arQ}PwgH*2fd!3DUX6XHjjnulEzf#@GDa2z<*ook+
z!sj<E`*qgvTh2D#borgLyjRJw%k2xEwPlh|)$Q2wgWMZtdS@}m#fQ$3OuXdW^RbxK
zWWNDl|EqZUuo)2<t%Y~z@bcu|f2GA0Eb(kokTwhB)Hg=L`w!b)QGF`bl)$`7PxC8Z
zU~z1*Tjq<HfaSgEeNi7?UQt~dX5qT(tnB<1e`HQ9ym+_$!><3o)g8<h>nxhQ=+{}h
zeO>46eL~)aPM=csL@$13ukF_G(7tywZZ%crzM5pzz}(<_Y+~!%yVGkozu?|5!`th<
z^UmN^Ev1WB?&^(x$dd0I8zjBq)Rhg#SPL)dO9y+c7oX5~-S$U&X{Pp~8QCG*x}AGu
zubRF}UHr1*ZuEfzUk|N66q=+pb5`P!f8lX`!u$^N)U>Dd&rqCmUU~PD3nhEr$!pJ9
z)9+NwZQOGCX1gAzmhAd!W{#C*2bB3|&b+zIOD^_iwN>1Au??rcxGb7i%p1nYW^d|!
z{PjI1zIQ(^Y;eB9zn*uWXTbHjkG{EmTqc@Z%6#h2)4wNNtxt;2x1K)j`rrNkI^X4n
z#)UctZ9XY_Zs%*WkeHHsP0*Ei9W$@a$W~*ScQ|u>zP#(FDe4L$A5#_@?U0?*U+VBR
zn=cczo|pN&(;*wpcdtX=>RJ5hSE@WEYp~f}bSGCB-}6TwMOW@)Fwg}ZOWiYzV}p0G
zWAxjf4R1>2<r`Z2SL<i(|G2h1EuvZFHIp0Pw0R9XWLNAI_$lk=d$}r7@!gc?T-qY7
zJqPwrsq|QQHh-HMcwd2ra`%Z-?kChge%Lq5x_IG%$B(bS|MPG$PvF6afiEX+S9#v6
zGXKKj|F17|tq$pQtXTN(-o~0Wb$<;Oy8pjk-0E7jcr~v(Z_d%<e*d^$`u#k<T=Y}8
z+QthHMAg3X#Tv<3{j|vaC;fC^)tj9LySum^2hWhOUc5Z^z1xOJtA2k6GsYz!x75hZ
zn`ZU4%DhP9Qe_R(p~YM!ESCKJ85+Nrt_oT5`NzYFO9f_z9sV#QK2`eQtjo(doIkO7
z%-dyTC)X8L^<;(I&0NK$N`1oq4$~&a2s%HSKX22m)%#|cFLd``ewKGbaj~eMu#<|l
zS>f5`Yt_EIc)6vL!RTenH)Zk5&-~6h_?0k9FHiG7pi;XxZ0FXvuQj&kbGIs#AI&Ug
z&WTB5oH(&F<&;<It)ls?GBQH;jMeE26z%seUa;_7^Z%)uzkVH8KcFGs%>DR!IRC0=
z2`*F8<kwYxaf)8Mda7iky}!KctbeCCS4Aw{|5JB;<rja4Wvk6XGsCyfo8JIl{C7Yu
z^oY;o+~D)>ns%I8Yr!g%b;|C4o!bBHTiW~l`wPDWziaS}nz8y$_?BPIr{=!nx>(u6
z?_gy9aF=46K)tun&af9^rHVg8bJAHm(wNq6FbX!$VC_9^f8@RQ#<}JSt#Z8DXI6*T
z+cfQZZ^39dugGxK>OhGdiq1Ldzw)NAW@OGtpB*W%T2p*6tHkn>)6c&Co4MO$5>rX^
zOohvTs@6?d^RhjorseXwWqW_WyDYw-)bLWj47>KuSuHB=&m`CWI{fBvT5QiZu9e?(
zuRc8R{)0fpi))|5HOf!PPPo&(gLlpoS*`w$;`}FDK;<>#GMzV<jy>I1#Kyc=!evQX
zY>!#OR3#~1(Mk6*0voRW)m`jfAJcP%E7RF|{q-MD_^Qtwx!ZgH&0*92xR!7sk3%(U
zH%sxE>aVcBV)rF@vuXc7Hjeq<jtRLYZvL{!N$`4|;@ZkD=SAHZ-#A^jO1k&Nf2wXK
zXhnJ1oaUUL8fwz6vhmNj4CFzp(d~*(>SQ;0^5-~w`S^66+3DAD5#JZ3wxl}DU^p|^
zx<9tNa(DG>(Ajbd{Fj#g<(TcMv`~iCxANq4(9x$8ju|G{r=6R9+Ee?KH*Z<x-TMqL
zw`lU*kg|4sy2>f(`V=GG^}nBU1t$f2ne}qK$=vnGIX^16ac|$HuoeA57pzYCaH%d?
z^iJgZI)jaUcD4-G5g|uZkLjrVkk{JSX8wDzL#o&9XX3@3t%urrb@MoFW||j>mp|9c
z+nL|->?5DY-zy6BdS#)(@i%QZwr9xA*Y@d@mD<REFst*w-xpJt&lT)zG9(WM))l4M
ze`R3GPw{d5IceM3_Hv7xu>y%Qq3-8ChQ=FJ{o?)m^SJwg8!E1kMV|$8%$jEXeL3Tr
zXGf;3;JUr+tNyn=%k^hj#^1cYB3eTJ?3^3Y6S(AO+WS55O1Cm?fAf0Dr5DeRgf(bx
zXjf5l4!*9my8MN&x@JnxGXFQc5#|r%K8cDXl=#0fJlnbUequ^!+Qi1%pF9d0>oO}F
zr6*f$Y%S^WS;c$LtogP=vOC`g`_Fc#dO+qe+Ic%ZTX8{Id*{Y%PCmmcp!=hY)Fa*=
zHU3q@vvuQL;p(*Fr2GRs=hU(`IyqS`TDUuR*-wqlGlZjUKds5x+CFn;ypqKY&K<K^
z&t&<%;k{uP$CNkS$n56?r<KC5-8O8VDO}CWcjnX)<;5}=DvVzJ(*3=3)lJ^m4Qsus
z8^h(NuW9*j8fx);R?srdi`Qi*F#T;4{gmRGWP5zG)AYOTC)a`2SReezQkax@V3+OX
zqAyQN6HfoDVc2s|cFCs6r?p+$Zv8W}{F$;xM&(zPozYgKhZj2L$A#==n8a5t&$=|h
zRXjwVRowRP7nLH5GLxUj(l%<JapO|Vli3i=pL2=(ql!lUM~14&8r*J1nwm%0RN61J
z@%By9JX>jVr1OEcc+m>&%00||7oTWxRJ5Nu_}jIbTX^aG{s!#_Z?X@aHZ-4cjq}vL
z!&8_4>C`HWp1PDLO04d3Gv~ICBBjgkOP>XG95yIUewDMaov$KvzsUP*r$J{@ZOHL1
zkP{FQ-P)YOd(U4VR3<s-O?)KVwQ>2Uw3l{Ijlk<8ryV$WDXH)LWxj9ix2EiQcCr44
zhO^GOmIJ}xxH?z9jt!d0XSP)OZbK&XrWr<`zD3SG{wns%ix|zjD}J8JIm+`<d!j#I
zWBQMeiY-0Aw#S%1(0KD*)Fn>*{Mzd^X;N)nukL?h(s^)DX>aeH4Pm9TpYg5O#jyLY
zuKa-u5ik3Nu5RbFh!>JCh_AC_QY)OJ(V4k=`F<X`IluXqFZACYdgO$`^@fg3o22yQ
z<j+0ZE%Eei>3;^Fsj?Lh&i@k?x!)#t^K|g1Z@cz0s;Tsba2(Px{o>L5>*Y@Q)atwT
zjMEeQcvfgd=1Mz1FnnK7eb=6$U8Uc2gPp>>MS0&@^((9I+TVMq(C)TtP0Fn29KR>V
z%TyEz9q;6qXWgGVbK=j?F9EZsHyAH=uYYk_dP7&ad~Qya&8LSU>fcT)mtWS%SuNmV
z8@R6a>Zwa}4j=b3f3^N@`(YC<@$kR1GgrqnKV9WvzjW10@6_U1%K~?Vdn{7C_^srh
zZvSO&34Lj6_RAU}4R`7mcRKUj_-f++fBT%pnIiAp<qBRdD8DiN+qRYNWyQ7^v_lpb
zFqiebJ?8K4@hQ3cl&8YGd#7JqobUFKEvF*n+P4md*B**-HPei$?=I)pULwbE#l2b5
zu~59}RQFudStnKn?qFQs9rtEufUMfgyL=Xz({@QGFLwX`d*>l-#`aRyNPDiQpE@cR
z`~P*-^*80Z$~AH8!M?WH|J51mCC}9{@?F-r)8Oi3#^%4CxwroGz4$*eMceA)b44#_
zY~tH3vCze#$Uk^)as6r4n#}$BtT&FZ7<f-UEn&X1bwSLU``6ig-sJkn8Y`;H-_<xN
zb*DUH(#PLH4FOsQOx<o3q|4k}o1Jzq@nrn1_uh=pPVS$gGUwaI_FF0Sx2g}iI6wWq
z^q!*lvCe+oq<f3kR=j+j`tD*qlgd%6drzYt2H4wP|H(2<=G1%d`qYqVLfh{jPz$iP
z4fk_eT(IT-b+#qKv)2cH+rDu5oj3cY2Zio?`Qr8}`AZ+#o^C#3zjraC`gMPQ=6U&6
zzjz}muDmze&@8?G*}0wXKP+2(U0a0N+U#X2|9<DU1^T~c_r)=qW&Tn={yXjP&CAlI
z{Oz;*_N_0vzcqH!kJ~Q$rca$6wpo?wGatw(kL|Ljtp%HEIu#1o=loNSmi^17(k1=<
zvxE7+YyZr)IQ?H7A-k99h>qT)+a-Zf`F_7`e{Fhy;nj<;T+_c*8%*DP<=GzR-A=0)
zhrbsHV=SrheU|)vvgh8bGT;q%X$d9Qme&-zXfOBOw#tV)qx4JG?SupslkGAE$5t`<
zP5(Z%|GMp_i*nz&x;3KQW5Tq$Hiz7Cy6|z=^@bPP;m<lgxHK<$-G2AE(DTQo_3?_u
z=9_u!&z$=Cq_<~!KWHQ_r*7)DY^O{2YS*Pl*@2FjDR6$Vn1g?tYp7`9&f=e-M)$!k
z$z5|=lCDfzckXAySrJ3Cgy)`8_k;4{if4qgWcPT1PK`Md(BM;={pgqXWy?!9ZyffO
zn|^(7fZp$w2e&Dl{WtN6Y}s?|+qF9+CYc{l$vR`&uwcW{EB9`^1D&qm?{M$NMD`_$
zb|DRQk2Zrw5OX}`TW-v#y!G+Fj1H)xP7rH!Oxt8r`?lD#bbb%}dF7+W?=@UMCy|t=
z@OXFso_A++O}`(VP{Z&^;D&~k=B)24`t%P+ZffXOtYlVM$nDM(JB54UibFq6hv&8R
zuVoPTtSjtXY&PR-_pVw)mHY;m2a%oT!a42Bj{kVBSoNj7e{Hyia(C6#Bg<EMpW6S`
zp#R_c=Umq3S1<Tg`k;Kq`5B$!t)*^YLFv~^I#l-0c)Zl|{RO5=b3gU_YwH-5OMZUg
zz<4g}_72D2J6z*e?NngNZ<%oa(d!NT?EPma9oPM3)gW`s)lgt@cl>LnJHpj>7OiLX
z5IxJOU{T&&v#9QLonZ2vMf$87!M(R1aHXHps{C?V=doDrTrr_pkH3@(e-Dld*8bxC
z{jpfBtb>_rug@CQM=pQ1dxbt0tJOVlv}oCriM_?=VvMsyerfM<jZbflel0QcdBL*D
z6AHV3dq>(<y?p)kD!0Niy=+;>lMC0&l)AmYSGC$bpV2X8O35OwM)k0--X9+yzPh-c
zDJkyT^+zJX_twmgc{g`c)tB-E2fu%szT@vDN9)kD2R#(e*u{X3DW9>L{XqY`Hm+%R
z4mwmu<xk_iQQ;u(+vfMj+cNY~%o@9+>n>!;U9aVKT6<!ak$BU&7ICiUcP^(zon6f2
z^8Q)3OHPoFwbidLK@;YLeZCQHuexDAZ)vXb<*?Hm<11$VZCvr`IpYaKGj4|LDM45B
z^a2jNoNKniUi0i?rX!7BzYW$JbqA&Hx~XB&;PrV2WBU}gragyONw=PT&+4GO$fRF-
z!mHFt73zKs#|%SiBx6~!8ZOza5=}axxHM(w+?<4|KHcJ73JZgKKJMEkI#E`t^S;0=
z6^F+)sllq-8oqiPA2UyQ^s)TNccIkm>+>@6s-m5uOK1P)N>7_=#i3uK|6Yl0CSRrW
z?v^}>$62ijpKD{|%Re|)yNOSf?cL9Re0o|>{(&<Gt&Z%O!#anvVF}+irHC`CK|LRN
zJyuFsJC@E=pSt<hjd!l`Nk1<26tZ?OcDtlZ>B*AWS@_lW#)s44J%y|h8#i8Guw_-t
zik&|mJ958%ak;&m<J$4ohKWq4_tgBKw)dB!l)u#+>sVuv2`l#q?FhNLg}HxbUJhe7
z?{h!@EVX;>Gqk#I`<H6Rm~r3nsIv|0c&xqolKgg-bxcQ<3REpWto-ql<HY`_YH2x+
zH&;!c&LZ=C7vJ-9%A3u-pQ$l_d;DwZgxjmcbwpo)H|M)0hHuwd7xmU-Tl}#J4<oKU
zyu);6#!|im2i`tNW{a2<f5mmr!oxc^JEeSK5n+vxKJ#mTDi`;Z^(TV3>iE^}3r^f<
zdXnjz^8G&vXYE?9|E;%SJQ?rFqjY4+cc0H|4tgoR;o2PYh2KHuXZ(}j$M;^`ICZV*
zPf@=a`~KCiv~+y(Zn(JjZo^G;^9GN&pItczv?IIj%+62xaMMilOI6DDlc5(D|9>p3
zAgp%k+3l9MB2k;?&w3~pzE4Sd!zr0xulI{C{r~dbwQog9$>76scplYrSPNJsl&gj2
zuiIaC`;7iu?M2}l|JseaSJaf(yz-9kk4nB3?!vh3#BH|6*H)@;cy0DIH~H}Ee?Pij
zxQo@#R$%?KN84LGp)`5+oSYur_iVAZe;k#boy}LeeEZg4Sr#UqB|Uo?)W0t}(XzJS
zrltE{r|-+BclT}#=ho~<O5Ai`$c^jWdYc;m*eP~(c1(v9ni|?&;&;D^S+09`_WZa!
zvtxD*D-KLpJ$uUB)AK4qcfbG6`rBGId474vyer}}4U1T2mv7$6w?8lV!s2klZBYv+
zJf2;W|9oA+wcAIuf1kK~>_+<S2fGw+eKFGtls|fP*3_q^`Ww$$=q^!E%hCPJ$nD0)
z5WV3FAGd^W&sqk>GyfOyBpo$-t-U=(xAu&63}|z*Lh`PapOv><y}MV{;d?`D+;{&2
zUD16$RZG`z=Wn0(h9UTKAn33hgWTB`96TQCTW`zj?p=}wIyl}Vc&YI{#bu`gR%Sid
zT)VGD=}qZ>PJzdM`#RQX>KR#2&eB&|ame=94@QAo@AXgpw1}9s`x$6A`)|JX&W+{?
zPmS(R=du3NWizp8?S(B@GUflh{%*ftA|S4f_0Rvm_35plSNHv!|9ZK0B*WCSj-p7m
z{1>m!2ZU-QaZP$QeN)L7e}@T^xo7qpCcJ;j;P+iSJoNXbh6|pei%bL(!b7(I3KG=}
zy}D0FA=02$d=vAoh7-H<g70R1Vt1dmbn$*hr!}S<oJ5YC4)KYNS}1)kH1zi_##3Ai
zh1NBmuIGu!$w>~saV|ibX^MpOGNGxAFS#^Ke3F-@ebv3bI_P&5(<Os%`8zyHYo^Hj
z+W&Rx(r;f`RHk2jKk24NkK3|0@m{_AuF9QqwU=jHIqgU7Qk8;>i{2KmyO_Zr@tJS-
zm3{9TScNNJPUNl)yw&b|^hTaNE8`idti_Dlucvqau(;rU^XuX24JnM5ughgEW|UT9
zWjpgHu<Y{weLm`%7cTy<V~WdUt*e@A%lYE`+s!T$oByA9%CmK2gTS6C=YkJ!2oe?g
zEts>~J<h%1(5j{jE0S*~9FR5qUY@vz?fxve@+Xt7XFBYf@<Q7^Pav)#)%e(Y`EBvV
z8HaZ5XB4`+l{4XC`3<w>d-t>!=gL&hW#zeH*7*F#gz4$Q4JXfjos}Uszu#x8epKSp
zN69nK?2GSzla+6{GVSE+H|`53PGji^tKvO#I_<#2;GPTj;y&%VZ9Rv%pC^uCZo3uZ
z_t$3L?*69iOj9__0%K0JGs{iwSi1XUX|7keR`j&Ke|$FrITqD&2yw--E`JtKbG#E2
zzX$Y=i$9w^^^{b1XyhmUcF@$vq-q{UrCA!SzI<Vd8M`)~y>#(D<4HH050xI(eSGb;
zukUj9mbI?>yn=D%w|K^mg=Vck)P67CGW}Fg_*{2h54O#m@=GsGtW4Z;R&?S0h5K_u
zo?m1Na`P9reO4b|f9>pcO?~0@1ubiAo-)N0B`0kbwcDq4?l9BBfB!VrvFhEi3ZJ)#
zQ9b8jL9dX2Ty6gB2j*Of>7QO7=2Gw4u_c#j+u70!?|voLdCRq*3f4*JtC34maGSVu
z@ow=4?+!2gB*N<PP{#M4vZzEYLsVj*wDqo;R{|<ey`6Z{w(XHKgPN(&lV9!YSoL(i
zh0jacZ?ut}L*QG%71OR)4W+fW7T%4i>|)JX@<l&LVmbfpTb=x|i-k(!!{#kwwAOgB
zWn*Do!Z%logF&T_58L+tn_tgh@UGv9h56U148NelzX5k=-EC(pIKQ}_q3=Mr!-0nr
zc7_~ixckcOto5DGFLV{urpC8B&l9ptDb>GhVsF0f=I0mk4HBZx#bzsKxNZGl-26;8
z<NoIt`Tahj4?9JR4n$sIIq=6QLgvZ;(B`WRoljL#OmxE?{8r6>^y)=o&$g@$QWF;4
zYum6cP|0ukzjZ>vIggpQ1vhVPxNvducC$?l$IdL68up{|)SKmO*^DQ5^o4QEm7Dvk
zS}7}cUt#dVIf+*jbQNS>?h9-*dT=H5(aZcdm026UEjFo{a_m~rln(aLcg4y#qz<h-
zD74_hmKOyIQ-5vEeZUpTlWY3ZhW!L<IBytpP>%4&6D#IkcHFJZ-t~3Q4YuPSLBkMr
z|C_%n+FJenaw#*y-QJ(E|I>421z*!;>v{euKCRik-=}<yctMlT=By236Mpb+apJL$
z2|pOOu-qb{=fbLkx5_=_lvy~6MN&ezE?k{;^@1PowYpTPPVfGnAW_zTx6Aw1x%6-2
zs(upMyw~>A6VarETU+@r8|t2~(+Ik5^K0wI&unj=$T<sVTE~Bh<z~3s8D4sJaXr(d
zhi0*i4{8JV71<nXj^|hf>f}$*S(?#0^_%=s@#D8Ef0TR0etz-3A<3$Q@sQ&@zjuq*
zzNmW?eBI_3fBzke$*(N<l`o5!rJv+}o^|FMS46{;3sHjS7Ba{6s2@As(b5GTw7ZnT
z%VlABy@#Q^v!U*RUBcGz158V*XCzDCyV05acB-f7`-axzJ^PqM9y~DOR_S^XXwH6N
z-G<xR4z@+lisX9?G@n~ndVO?1cE#e2=mv)M&NGi>o0Lo3T(RZGb<<a~_Fh@L__@((
zBl80p-usvgBxjj@`#53G#W3Cn*Dl^?V81u>-i>rEmnuoMpzVGC7(G-OW#YduzSv}C
zrf_!t=LnD($9IWahf6Li9lIIs@Ui{u)wPSaHxzh3bYIsg|FgjL(g)7oQqWa4SFSI<
zZ*=F*I#D@yBNaov1k<Pccs)KQGArzQH{;=)bNM%Y&mKq*1_>^`bVilQ>WcBj)R0dv
zgt9+2h3xca6#MhV=>1`vtD+9}(%-o}ikAPGfB!#Ig6-`#mD@*nmS|5tw)}lT-=*66
z<kNFMvACQx2@g9ec>l=@rdji6UDW}NhwkaoW-xT``ZV?NgV<UlIk%?2H7qLIY^Tn@
z?(S)=;<x>$W?FLk&S1Mehvh0-XBO{u_O1vnddPb5SRK=)DF$4<+J|;7Ss}Z`>C>mw
z0Oo&xelt(dGrM&|WY6M5l2hANrrMf5n9sK1)3JTbZW`$uoOT_bFzfB4%rBmw5^D5T
z+cL%Q&T5-_(fW<WM&|xE5%D+qZ+(6wbf00R)bZPFy5h4AZt`BHGPRVyeb0^~{tl<6
zXC7HA!}qht<Awh5@VJ;q(h1XUEZcC#`1PchvDZ?*B}T?PVprI>a-U&HNB!xq5pVbQ
zc&t#pb=Ywh_YCn13?70k{L#U;ZohHkQ@wfEk<rgCcfo>%Q{}?9KlA5Zt$O?LLxyvT
z@~z*}rfsa?zOZ$g)12R*1t-*NPHndkSZ=-g@#z_ixB7$LKHR_{JtbO0P^9k3f?C%*
zeg3*<<@mTJyc5|qhatkm^WV_`!LI?e7BUWAOD}SB{5f&Fee<1XVKWXhf(~P8kY)8?
zYMC@au5$H+7wvD~AAW1`@jinLm%-!32}>AwTi?ApB9~_ozWwnL*$EM~JD4<*76iNB
zj@-RYcE_o@+PK8-J4cu9pUmKG*YM9Z9<1uMS!ee85|51AKE(%S)kbXgmGduFOpjBP
zQ`)@vJKLOhjM3e`a-qeHjLYw+{_rjT%6FG}Ti9%yd2tMy4vZf5#s#~!R-FB>aaOIL
zUBI@gOIV%xSnQRh-S^JE$liYPG2<HxnI$v4x3b%E9G*KV`1OX9k1N|{_oqJ6E4(m|
zKcSv^4rp&vLehoS`IZq`>T75Ga|!7Qy?k=<FO4a)4m!@ge7j`Tk;{Fr44{XKE&A*D
zZ*tHP3m#7|-aCgI`ON0p%yVxuwPo}wcJ%F#vpX%4D>K(d?*NanS6A+W0@teD%}Z0x
zJ99_)eA;n_mt(^TfB$cZvafy=Rezb0zHZWSUXP1mk1n?<wdJ@SyE6S(Vzydkh;~b?
z;!|yo&dplOmOd%&bbR;gC&LVtre2%%kC^<92Yfts+{}Kjna`&c44tuD=QwP&VoMxb
zmGrKz-Ih7&IPZyLr9Ms%wHM5oX!vgLon}utQH9?9&Kg3j1@$6URd+rM*#5fD?@%;J
zo`+*`hfhxW)sKbMj2yp0KJ8$%p0Y-ycCEI8oaebO)j=;dzU<vAWg?Or;-{UFK5@}I
zi&nLIBYm0HFUR5<j_iNd%X_o1&u7~GhIbDytiF4LeS_c5U;!Q1Yu<(lb($XE(#*dx
zp1E<Oadol6^HA0oUzZrH_sxI9dgH>k1?3zMMP;`<KT@|bXl3n<-dYCFtoB^t9}_<t
zc2rzsy<+$FSX{&3{3}zI<O;uBvh1Zy)uHbAw8p-F-_;$?a63%aW;A#q*{ZjD{iU``
z(!UudS<Pi&e{28Be0l7Zvt^H_-fZ`F|6l+Aqjbaa5_zlm#U0!)pV-}e(cN1R3p&5(
zrpSWu`9G%@E!kAEZRc`ub7ehq>#Ue5jtTNv7X{obcQzbKt7N+L!znN3^R`ZPX<q%C
zFD_lQm#;jaGppwRGx7TN3b~v9HQ**v<sHu2+^TYx9WM<{tgqPegBN~Od}CLgw`2O|
zJiR?La;_|0TyJMoWARW`y3lj(%$Scy4>8@f-=tl$uHZoM_D#OxFV*}X3D;&<9g%!;
z>tl@KRy{*s!_Ug{@sEBiTD%^#wQBJN%M;2MBsa*u-}m8C+iY$BhwE;BQd)4Q?S{^Z
zM%A1*i%l16?tZ6g8a}Ux+2=<64EB4LA}7<?d_PHFGm!f6HL>-2y>qel35mvYcDuOF
zxv#9dy#HL<thLe;j%M9>(E46v$Bp+}4xJ5tb}Cq|L883rlhcIU%jc}W2!Gi5Y07bB
z_M}k7{AaTcKkQoa<}#~x$(Q9fS20vBa(rCaGc)Bq*M+P14*7VRMqgFFoG;$*!`mB^
zcx$(L*>^9NfTR_-u5a4lVIwG|Znm!B^<tB$uXipgipgB{Z7D<G??tCOwVJjZ^q*Ss
z>$&2iJMr>iGcNvI=H6Bzq$a#-(-W=eg9X2SGI#_|-{Wkx?*)r}aZTIWt{eSH+3~+7
zYES1#dgz|_YvSD(t68Ie-)ayv=HwJuFDbtNk<QMSx;i1DZ?l;vU0s&4ID~J(rq_M@
z-W|DR&%0o4t>%Gw7L_d`P4}LDi&R?IQ!dx^ZgbBYj)JdD9!upm<SvNtP&#{4wxC@8
z*wNp+7{hk#c=)aR4_|j#bgB0;i?;gO2*ubho#ziLYTGP7dzwe8V%h&1h9zRp4k#~f
z?TlM_%B@%Lz?;K6D&qUy=QY<?ow&GiMoG@ZHhuHF!jJppw3mEL{-H7D#{#i!(k55?
z6As>rb1Rc7XlQAlFULAvV$I!i$Nb`U@;_5Ned1i5h{>9lvX8dMOi_-kTq%EOE}!B@
z`+9~Qv$#W=Wk0=`XzvwR*=4Q4%M{&m#QeZPXa3CJ7or!gT$Rq|`;9m4q2muw6ZrbZ
zmjMfQ@&0}PSa8bUQ$jl5>gP3BzG)E7<=5E#>t_4A1tuE~3kccEN#3#C;`n3Y@_Fl@
z|GIs^K}PZ8=fwf3om`U}86VHQ_QlAQCn@06*LMxPEwUn4h34NlWx4Z5nMv;1#qld|
zzGC%>dDD^m!FyrToKtRpt1a(l#e07^#Qe_jIe$$OzwMEOTNyK7hW)l`uq?`I<Gi@#
z(2`5h<x3L0x8J&c(X+6|qO#6wQl!c5_0L<2b?;`yr?<}d(9~;NSo3t<sv~((7cZ^-
zRvP9ZYxRdEvpe9zuF39PVt2Dm?q|hwPuR;|P!xQ_G4!#l{JyQt7o#t$HYxKS=8;+=
zF5K|&$Cmv&{%xyST`PMaQbOPs*OUO!<eG|1)*n(;$@0DDf1NVvXi#P^?KNBPa^ch3
zZ%Y}%e=C33W_j}QY)<JfH}>1D7kHbX<ZNcgzxCqA+l=jDPo66)oQ+6Wne^<j_KL^a
zI~=R`UEMe31DEZuBabs*PI&QZV(dRfoAfWo>>8H*bh{}j|Mb?4=*P}qYxGT>UDla@
zW7<=v*m%1@xIboUZkn9_!<d~{_wgmH2r^naHL>k;AOGa@qK)U=^50z6Q0aF6lk{Sm
z$1S%VcaH2ylb@C{YwhW7hBdzr*lJFBcQm!2wfLX@(v-_NR~uTtEADu+MSk(F;6Im_
ziCoT!ZJ1Kv{&E)Yx>{LYi{8VZ?Y&ITUgPyR*VFnlev<z2bxh~puz9=Q&@mDD%@m_m
zI%W3H0*N4r@HtC!O22%Q<(mDJZ-&AVcNT9>{<#l4UE}p{yWP+!KhSf^s_t^5_MAZG
zUCCJsGynf&@VL}|;QgkLT+e^%E}zb^jcfMPork90b5int|KY-xN&d&OUtBz`Q~I0F
z)3tknrbp__FE6@f9TFG?YnSr(``A{l)A?wvvupkHQ?C;)ZAe>rTlA7!+No%#P?dRn
z6}6gzSCXz2JkHRrdeSSqabxCz9a^E1@9j48uP!=vxglpuuLQfwiUqsU@?{G&F4xsY
zDCSBp+~u07m*F<y_Luxn%g31qw70cIB%5+6Z%J>T_JHke=%V%f+H)@Lotjg^SL(Ub
zhTUgEaF)f^LpD2H8nl>>-q@|)>U@bgN2u18@glc_;r548ytgkc-*Y8F`q@Q!(>Y8r
zGJX^MS7hzk%y8*WrB^+VS9q4iS3XVNBWvBQySbh&Un=)@o8j*bsh1Z_+-KOpmOs1k
zS7OTVGhe6nx?E%uyS(6L1Lx%b2OhFa)Y-WF<+9^H<d@E3>y1(@-6L3W$<ZPHcg*6a
zsv?<ZO)^9j+~Y&y9`IFIx%MRS7K3iubKK1Mb9vj}89y3AKfj3I^ZUStVBT505*H4o
zJPiH&$Wg%AmG7V3oMn!S8E%Iue&p)+>k4}@&+N`(e|ZLNi#ff~Gek`0YA@J7=f<7I
z|F;~{NZI3fQzOdbx3<6c+YJpTO)^9hGVVyX${Y3>hpsA;ZsoQ5wO>x2)v+pl*8{D)
z^G{|U7OK#BaOy?mCS4Wlf4tv=A0FXc7ZIA)`fU02aJT;qYXVZ!F045C+p5$5o9Du{
z>wEsOd7RZ{oa5P%a?nx+q*J~j;6jSzb>EsB$-eh%N)1-s^?JGfe&UmCk$q+gCaWH6
z|G1r&`o;Xf>p$FcJR8%U?GIkgseRaG^5sSUrFv$z084@F@VY0fo|gWr<dFRv_-nPO
zn@v&LSHZu_%I~&)oAmp{YWM&D{~iC&_F$4zfWHaHPZzUq0mrAWj>%Z<UeEr<$x!L}
z<Z}&G1y8<&YgC>R-r%@i{gdCXU~k2k)qA&9eJOXyiqK!^`26rg7Vo>|D%q<+S31eg
zxw!nm-P^0I``4AnKbEVlVetF;vXfKcZj<NS_H`%O_84d$t6R6hB{3=GpN1oUVa3h%
z+1_V<Z^(0);$v>B_WGd1-ST7E-tPZd*7TMJap)C%%r7nYaF+KLX!%;E68|>;#IpE%
z+Dp7|uRRD}*Ur&fzai7oH90-*K(uT%Xz_cB^1Yvvgt{);EV=N)e?7>onv`eqK?lxf
zx>^Ts+kAgRo;S#){4$mYbY^Y4x9z#oyE(gaFD#z^vQ%mV*VVP&7yOE6l=sN4&AYPi
zaNV-&H{JbaZuiZ<qhWJh<K@vi)~R}>2IU8izX~&n@vE3V^JP=Im1p0+_c9V?T^1V|
zGk0y%SY!U$PR=3x!==MP?Dk<Nmis<$QmM22%dqRBxR!{$JfpJHBgG?~2kp$cFX(!F
z+i>Ne`GG^hA`dMLBjztUZnSH92*0;%4fB~bIjz?w+MiOaxcv6LET6>fMIFLY8#YHQ
z*17fSr^emqTNWQ!-yzIpAik0Bh36Idr)w@e(fpsvFxxhvUpeya8Kc&AO<k{kyYlo4
z3+687zrkvel5BqF%#rYG!HO~W!ub!&Z8&9|yW!aK=1|kA+l_BI>OI)P{)X|5)6O@C
zcG-)G{d7BKEU(H|eL(L(<=<UO|EHz4e)RdQvv0=s#qR%)Gf&vo{pX87jKj_aQ`g32
zT}$4?{)TCZk^FB<A4Z+sbw8dhV|^S`dqD2MteaL0k4z_>lDinN_28u1_M>te*f(@W
zGbIJN2>ouzy(WB^DQxzSHQ(G1=Szf6Jg9x9UC>0Q{9Mi((8B15orgS^^DVt1z@i;k
zS$H0_PMOogD*j!V3Y&~pMA6<=zd#2g@ytEEQ$^2Bb5+gGo$NVt%sxgom@J&r8ZOH<
z>-F;TM~B~i=C=l~CROS7tC49@nw<OZ|8W+X`n7&FVhK#E`4@6XOltQ2@%zX(#>u`l
z=eTw%+`Q2=^VY)j9hbg%e}574vUbNV(cWBR!JVr2+HaqKXqSKG&Eb$Yb~X*7hyEN$
z35a0VaM)gVBY5lY0>&~CrTyVMXZpRltdX<Nk!9uTGj=fz&LxW{y8lti57aH4e)dxE
z_TL4JL4uQ)CW5+7_1_XdcJH#~-ObOh5E|?l?K|h*xyyWh`u2NG-r9v|uQ^lPu#z$4
z71xEWUtU_?sNKQ9t@gPo$;9Fpm%Bi0O%=}(|5ZB;!nZfA`PMaMO;?WeTJD1Lhv)bd
zCo;wz7yT(4bdpPM+04D1=NMnJ&9R*Q>`>gpBfFWMHx+11T7Bwk*L2neMjt;58ic*`
zJa|vO;q#xMCh6LzS+lrbO%yzLaNC6aMiGasCl_t^&0Dr}17qij2uXqX%0mG;@n7^B
z*&DmF^fV4^bqcxh^2e>a(VNUZZ9i*pww2f8oO|a^rRKdH=XkP>stfB+f7oSzmi6xm
z=M{OKdpQnqx-PnVBTZg!eKlw2(gV)&taft}SWM3`m3^wX-Vp8Z`ukFbl{Vew5j*mP
zXYG0sJ1Z<6G_K$AQ}c|(e4Yvslf&=teFN=X_4&Z&^gQrM=_%plTTM%Tf-Vc$c_?B=
z5hr)<E8pDts*5sr+)k^!TmM5N_QtuHnSVn0y^2FUUdXKQ$zr_paKe&m?&c1b%^{3y
z{&B30TXTPU)ss6F@`tKgvNok_lx=>?zdN^WW0Kf6jij746PDgqm^RPy!PPWIu>hlA
z>JM6uE&rrb%48$I^heKveV{{tnqLGPd9gCs^n83%{QTD}_j=|f6%(8U7p?A7EX`46
z=y~V9a?-{7;WG^8iHQYw`oF2Tmsq)z=|O4zni*fMkBA1eXge)DSs-_F-G-V>?Pt6*
z4%W9m>-prJvb-z*vHXUuQp?sIsr~WtVT11*>-M}n+xG>#I4h>wJmr&cxSt;BnS3C)
z*|*M+H*fC#dD<;`HcSSJi>Et&m%h-O`^v!QF7F9t*3R1V?ask%w^eux-%ru1JoR~E
zqS)LM?9;rzAOAG*kmdGg7gYRrGOO+2{KU2M%%YOT`d9Ar$^N}>&nWbC&OW1>=NgMI
z{k|Yuekt0hR9dm);iN^+m@?N~n5@J;>#sNGG`Zw$zPI<Rw@x^8Y+0f3oaHUfe|h&^
zU|7cwa*umd>fVsYHcRtE)iP`D<X&F2^7fg_{+<bUyYGvKdX~*|>T>e`a4FijboSp9
zg7&6WDPqrp8KTbFeR==%n(y5-=AgZAx@2Cw)OvopE5A5+ThxKXS7y=%hhv(<I9_vk
z)oeQT;_f^Vt<+U{iy1b{@O@BiV+;SdZ&tX(`wzS9OK0;&7(AaQC#l?{@H#N*-orRX
z+grVRwcbuXU3+Br>py(2^XiX$44UxfWZs+0{)%b>dYZqiCvM+TpDzC`$Nbw%)&SR+
z(pv;p>g1}q<>=qc&@W4#|BZd8_`&siH*iMZsF_`1%)I6OhFiV0_Yx<aV3bS#a{Jzq
zTVF0cIaDCBcO&Zr2A7*$nVPKr>JMr@?m9konfbTK#JPJ8_4H4=^5XNKN8hjh-XI-a
zo0>D5?XB{TE$&j&YL?ok{HaQw@6OkJRBA(L^Wr_<e2VQ)ecC0y>p{%Y>P*Fpb}j8H
zr@g<0m))$b1ue}z>f6omba{E&;n;?MAGd;5B0Q1g-1+<g%b%Jl7ICj`fF`$QB(7y&
zndDn!k+Rk4`xemQ3=S`69n|(Xq5gZ4(#dVr2R2=={ljp=i8<?xLBc)7kFgzDjJKz!
z&0JOPvHxzqz-)EBUzL3A|B5aycK`qVIhXb4jgxr}EGVz)NICd?i?Unrz1q$1Mf;>w
z?4Ef2zR@Rqool(YWzW^h8it~ost1~;=&xMBaF@Ak-MPoS8ytQ$6!_&B-wybFVQEZ~
z{+}9#Gau?z59o;hy&-9PSM%5Oq;C&n<{p<;n3|@RXKR)yot38Ds`M`Wo>f(u;jHB)
z{M$pjHfkR?%l*FO9?Qkr*DvxLLX@6#&&zFD?~)O}xZIy-x6|wITNz)<uH!Ic`p{Fa
zWG*XT@bX1|!|HEGH}5n^TePx3Z&&-_YZvYBB_7pREj-SCIQLU$Zp^H(`&PfC6Ph<k
z$-AcMh2%EA4u8Jv>+f3)vPyA$oi8UX>RlK0DzB&aPUz3tT!&k`n@i6yRYZh-`TynJ
z6vp+x_uDZBEotDG=C>nN>g@Ko4Rw5Ft=Har+Zq+#v{YGkV_BlXv3EAR+{%<A_OIu)
z*!f0=z54sXS^MU6+g0zMvhmqP?x#iTysFzWigso_%=6cpeCnUINZS)xgG8}AMJJe-
z|4#XG@&D2uP_<a`*Sz_)*#Zg0Il;%LpS~iSE%%q#V6E5hQcqsCoZTly^P67CGi&gi
ze6HNDGd<+=rN#2kC+-%P?=$TO-J@JIQ?>l%@|3BbJ43b$wkrN)Y02pL#c`=ESa$x)
z>d;;do|F6ybKhp{*zcpOA}h3ee=2xEwnUk}f~col|Kyrav)2Y#YZq-|Q<<ija{Q^^
z+Y|pp8J2sx`i0$Yo3&b}K7I>}YiaS~^@-JA1h${BKC@wiM~;kJd?owakJp0C?QL%_
zwr|k(UwGT^gu1(w*q^cw8*G2^df2|yYh9qlJ8Q|K!_&(%s=lyKkXi8L$h#O(%jOcz
zIUlNm4u5;`Rk`?W_pHCM9l}3l`2P8y|MudmyXVB_vXUwXmDO4zh4&Y}y_kJ~?``gr
z8?%z;uB$u!Z*6+@mtPYfZky#Y-|6n1!%7<aT8~E9{;L1`-JVgxT;a^;!du>{p6yBp
z_bv(R|HmmI9PV25FyW;|#qrGLPi}~MeJN#jDPGM`aO%niqfm?IW^0av&Q@XH#vNv1
z@oUzt#^V_^XF#h-ek;4L)0xPxwC1JfmDQ(f|G7_m@tRYj!`tWifvCighJS0fSA99(
z-=xSF64?2P&)=hFvXjIC&{~zIQh95&y#ZgQF6)xH<MsQ*BL7OJAi>^aYR6A9reC_c
z^Ub}gNYLS1mkKW^D>pA<3|-EAFV1PA&aWxz3OCM8+!V-XalWHv_nMPTL2qBn&u4fT
zD!TNLU$LCOf7Y)fQD+?Ny#7n{HL)Fgueqt&Ja_gQC&B68O+W1l&TCK+J0-KFT#x1K
z-{`vHXxYlUn&u9-F8uA*U8Yo@S}V89IoB<&{1oqogQ|`GZxppd4ry<9xBs*&SnmCV
z75gj_Qa?r6*}c7*zPV@9I}z@Vm76X-nY6(6{miv4!bS2sJ?x+IdBjf-?^w|-(bV1)
z_m_=#*$w%n{~3LBDi(g%zijh)=1r-%MfzMpeV5|bPpFw1@cYn(!wcX1J$=^s(woDZ
zt{(i)d*JEJYvonkhq&38HM=HyKWKdSTH`N&!eQm4R>v1jw{;u;E!@5FbQpWIgHYxN
z>p89K843!-7ree;aVm^G`hb$2+ZFc&Gw-}tHYKyUlfS;$xkB3cruLg4`#G-b8k`Ni
zrcFz@|M1G$R_2HY9qi{<9Z)ax;kxj&s|OS-lO~DUc{g%DcC5DE?b@@k>Wh4sM9Tr;
zr6u)Mi!Z7@cqY3}?r(efjUAWz+SqOehnBMLh!NDd>{onn&4f46iT%f}XISU0zMCF;
z@XiMl@i*aO!KV(m_Uy{H{b9eWA=F&lL?O@i)NJYapxST??+@uK`77?ee|Cs5r@Hk6
zN0Yms#qsH<%i7ZS+sRC8lxWTW6S#n7>5FXUWwVP8=De|b^RR%yFuq@JwVKM$g$#F>
z{a<lej*oqVi`h~h=N-k%&rFIpE93rF5THG0&b>#bi<z&SKUS7rzu?x|&4DYoTviI;
zST&=lXWzYRVM{Xha-6ZwIhnSYeZuzMA7=xPKNrZpd|H2L>g--UheziMxjDtOLi}yE
zz52QI*@dpNZsH2L!tcTkJdlvwtCh5)=i|jyAhDS_AGi#^OjxDV{z^>e_RV!0ZswFQ
z3Uz0F$d{^_y>QmQ8^L-B+i$*LirIHWRJEpN%4AlT`4QGT+~?b^HTY!LlAAW|?+%98
z&#NzPYkyMDSTJ+L#=ksP{a;+){+aT^pP^;_TSXH&hoY4eZm4bMS~;)jNw@r)7mF(Y
zY;fw7DSEIj^2*H>|M{vfwH#yiNPcWAFVy(bur!`A<VeA4rP^wbr~?O>-(CEYzH{R*
z-RILew&nACGIvagIKv=p+%#p4=AJ*(4EyVZrA!lE)ZBV<@EYUep2OPurV+nlWt|o?
z&Ux6Pv}F1HJ^DJ=@0#6B3p%}8Ym-UOHvh+>-)fVNXUb;lKG-nx3X{(njzv%QZoVWx
zXJY?W{oj1c&o1FpxXSHlH}lQ&0*>B|`$d}EK<du;%vrF=YOnQ-eJk3wE-ahT-z4|9
zzOJVI$pwxBC-$e_HT^6vY5U9G&emw6<HxPs+1ghmHa(inxA5aS<CUA8o}9j78?SnK
z%{qqgYbF;K|NooWYWcz1M?$AA^~Wss*L@MPB08^qyxt#fH1eKQcWRE-v32kE+RRFO
zb<DtA;qQ|GALfOI+U9F5-mFb$bp8B;Wz8ki*-713{8zqeE$x4IdOg4P6Uns}#|l_o
zQolJ>pS0a~?26A_<{3wGO$#>kIZC{0nEQ^=I`Z=m`ErL(Gf(evy0z-Vnq3YjHnG0H
zQ2XTM{we?eFwB_I!~Qx@YhB=xtqgYyE10c***~gn{bI;gp8v6U`9G~zd7g;4y3><)
z9{DbM?4+FIm-NK-S~09VH)^?lCCJwP+TgTg`-(n4#u)7-!PnPXE^z<v{_6vu_r&!!
zk?#F-`ok^aS1E1IT<6iVI{M%xmv4LCM<iaB@e9whS@tLBT?6Zyppu$|Jb|lUc70#3
zvww<pf~!r3N7%Q-_pg>e7cYH&C1xVC$F5YiCld`P9>4l--jwfC1B<L<CNj@3)aB{F
zS1CVF&UUZ!`$@A-zn&-QXt?fD?a?z?9}<q9$n*OeT~@qz=bm@(8+>;ZXV-D<+^y+0
zA$t2v(B>%%ZgcU9lE9$QM>qb~T1*FBBv??>p`ci^@n@*T_f6KtiF%-&7sb>1`df<C
z<NMC8Pxk+|t6!cWlGpv3-JK^^$!hB^A5(SoeeuG4;v0rCxpJqCXA>?4NWS7K_{*R8
zsj4HT>UMySvo?>?dhc1^pSCF#SKjqzlDo_{$EDwK@<jVnff2&Kr@1YjgDwO#o5$c`
zy<~Hs=gVIOAC%g6f*OM+UJVTCiO#M{L4VH2ZU%cpw(UKKt3g9TQP;NJX>k|q9zUx6
z`?H?0B5Omp$FX_4CT~A)C$lFe|Jc#rRSeV4ZRA~Z;No-c=M(?VkBix}UOJ)O_{F{@
z4|3OVO**-Ii2&!{8U_{i|5`mC4+bmt9gW<gzOA;s`+F(#8jqs~>{~J`pTFFc-Ksae
z0z5IWPAccYitezAw$1zh2E7oTSINj8P~)1x|2R&p`m3u-_q&g*>wnwoJ20>F*5Zj<
z`0BOq{aAs=(IM<M>zbZ8w6njT@NSBV;kkS5afvm{Qb1S5-qM@P*?YnB;-X!*Zs?Ws
zsXmB5FS=;z&Zebj_D|W%pBXl<+G0tP)dT4X%dURZXYDhc@nKQN)^%K*$<ZO~F}9!1
z`0RYbV$<-r&g#KCJD;;92d;8W^bG8qeB<^_jf|LA?|tr;9Qdl-%^>h^<(5amMzw+r
z=S+OqYnas@Cc6g~#j1Z3<UP9Gecm$WbqvQJu=zTLwycobb>}(LBG8(3r&r61o(mfC
zvVB{bw%Yo6;j;{@2V4ardNU6#=UvP?RqJx@N@tH{Ru7~%#O;5$&0m&f&aM@&-yeQk
zdY<*<jwJ#|iccMy@I+LuQ|YN@+}*Ui^}nSPTFgb&f|TObb}itth>bmPC+<7HgT%8V
zWqaQB-_F`FwTwGMMx8Gq>7!JkxS^5TyJ@jy-|jCgoO9v*hNk?>GfJFJKGyUw+iz~Q
z{rX>Kfn)DQZi{TZW&HlaeY0bQNz6@$PhRPhn<jk4rvJ^abBaPir8!^uk{=m)3oksV
z`F*MQzlSlOUxaViGKJeILuKLdC(PTzLNm>K6gKmN)^9X)+H-k@?&u0VemphwEU2X_
zky!b=mq+RF3yW83)2*+ht*iXvf54;WO}6}^du==WS6#|GaWYMQT9(wcjrk6nPBR?s
z*q33nw_*A%@mse+w+0E%$haS<6LKIVG)@0q&!Na&nGyL1&V1vxkWosjUvchn^t_<9
z%!qskwb=^Cj&-!0a^3os@9xEE4`f!fZLLa)@D98=)6AspP~T>!|3}sxG+A@i{h_2u
zNs#Y6^`*M<v6E~<&Vg)UmcA*d5IXUN){TqeK31^@QlzeNZRl1}Kg4Rg`B{(jwX0l<
z&RVzh{WDo3uF#s_%k9`%r+B6D&hx~DFGKYbE;db<=(lT)ICsNr%fgpdcRyKiDcfA{
z181~H%S1B|@iEJtQjPrlJ3bOLCBPOht<rxYc#~O&#y-y5;5CcqCOW75_K90~$>vw&
zfls^se>l<0*}Gu%BDQ570eMSn_16DZPneP|vP3xG-Zg8LdCk>wpfV-AZwJ#1wZm4Q
zmVH|&4Js{v3n#cOwM|Y_YjNM57(2N(WpgfQizKH<;vE)+cd1;nzFDt%`gY=Gu{|;l
zN`HOSOdbU&be@Y#{KkGqxxlhXeD9&gJXfLfc2>dHGlOT_%IG|J>u1T9bS1<=R=Tr)
z!|ICLDfffRx80sw#B-$Whh@Y4314PJ<uHDiz4vZPvVz;T^LMVVuJL>uptAo%Li+Bz
zn(P84j$Q`}lP(v$c@Y!zZ29%P@>7*5^FB+Ywz5i{_<Ol{ciQIr@1}eXEYiGmKRf;n
z=f<bU^lhsqtob^(h{0P(T0mw)VE&s2tDDpJ-_?9I@hR5<OAf35r<P=GwPF9v_xr7%
z<-E+DUd?R3C#019W!S~+^Ze5;@dG7qb~;VynRlpw%e8Nh-VdIW;E0IX^B_rz-Mjep
zk{6fC);ByY{U4*)d+~{=-^^z_zbAgL+)xa<?8Y!j^mtfW{3GE4G3l-w<rZg--D|MP
zpQ+s5<et~Q@^?~-IjDgDu<NN&^=6itewX^EXMX3jDQ4Nc(LCYcngo;G*YYd3U-AC-
zvdLodm1FlBWR@&Wyzyh=VZF^$J_cQpJ(-ik8euKZH!;q*&~p1<r=4f_Zf!7I?0<T7
z*Ry*?7VYusT64OJUcL%eC=8bT%cR2iML>J%iKAOK%#_Fo+4=rL+85~wZL3*V%6pZ*
zOIiF<b+NqJ;_!yO9xTyIo)vg4`>4t-VYWEDpU1rJLfg(~0$=`!Y+q{Ee)h#xuIFnG
zeR}+?>5<U&=|NXFNbdc0O5&<x%8G+;`!BaSJDy>lW48GEdxOGM&PQyg=5JrmvFzUN
zhKmN5FFo4wJvOsl&cW;F?q?6uzZlnMrrl!8nK1EzP0t<wPS>lsG5hsp4)3>HvteW2
zlqQuwL2A)g-al)qwm6eCBa_R(_2Q2M^Rx|ui@s04dpPl${#l>f4O7+E2bxLk)Dr3w
zFx{u}U^CcA9jCv&6FL&Ln&$0!cFMEBTr2Gs+nEb>&5|m@fm1Im`1!6$!ePaX%vTfJ
zS-d?~u8cOks{EVr`J8VyF>Fasx^+(`KbaSDf4Ye1vAOFakCrgj%E`GK75!{AS#!$n
zO02Q}o-#(aYB{+B_jYV*VcfMPx8(BuZ1(UoyMF)VhzM+6yXVlFX4PAB{5FIHdS83~
zu&|W7qJ64x{u}45xp8tkZ+s3|yJ2Gm@7cPneXj!Z=7oG?TJy~&WM8q1-?AK&VzGi-
z@>fn3=&kH>T=UDu<~G~2pA+45-Q{%Z+>ZI2R@%^T_d@cejTX(X^WV(KX<$1W(C+;G
z`$7Yi{Dut-&)Z6~a%M~NExf3|EcDBby4sk;b1}s$CUf?FoHF<KY31VyFATXhoKR+$
zbYS56pw(0Db60ASfy(=SnZn#hN2c}KZZBmB3Mp^(^q1;-Y2m2K<+|b!r<h}qo9ah1
zpCdI>G|p9&J7j$;{yt6n?H$Hn^3{x@%b%_1*Us^|%(OM_fvlUa9p^vgZsU8x24!k~
zM@}8NW%6}f;iiVJgU#ueCa|5E^uu9Cr{-np4ZB3oam{~focV$w?8AnMtS)L5&li8m
zpXQwdo|u$x?Mw-b_&$?+a`kPCjlQmPR==O}m_^iWVx8CDM}-xu9w)zOO1r(}_S~X5
z3yPizOE2dMTk&U~&9RE3Z*IoRhf7@K*2sD3ta|0}s#SSU3K;Lbo3i;3mtC0~%R$o<
ze@`6!I(PMq)-~^^FiU7G-v2N9#@tK!mHnwlQs1uoP_|shVbiUi2*r}1$ZWYl*&@dL
z@>5JHuG)-Z64jp+PCEA&o<Cf&JNO)z<s9#vg-(^HW(L0SSKrC-)bHo<|4g?n*Iue^
zKQF%5Il`;)^13?Bc^lJ@F3`QzUhc3?{Lw^d>q)%6$3An|h;F;H-)>F8g1nC0;E4H?
zz6a#|TDn7C6|}65$0A|<Y0b^PcNR)qeEa^$4N<+$E&T5rM3~CzQY>>%EzIP--u{_M
z<l0}}2`mR3vo<&#^LAydy4<V1V)6gdw};gg(u!PPE}tO(=4QM3tMxxmy|@_v`vbGW
zqr)v4Ji-j;{quK~zUjKqHAABOfc60;-U=QW`AH{_Jv>*seML2+nOWU`hK@rOBFir<
zQ)fskUzKz8gN<yh=I7NCDk{%vBbu#pH%$(UY1sb4n^EbP(%+0!)$4Lq9_6cpudG$P
zzeqo|ZmPtDzqxFmH<oKW%9~x(y^k*;<If4#HVc`r?6Q1*yxSHnSh{%q<7KXr?Cu->
zT$Ya7`5;g)JL2<;o5~u?g3I_?qdjaoH+?SM^*OcOFzztu+!37zS`QaDyw%w>snnw4
zR+rQ@n_ub)eKnqj(<@$x{yIE0D+09oQ_@$L$z}8WuIyRbkA4cpH-Ki4XI~HsdRi;N
z@40WUOZ<zA|39+$c&IaIIPc2}`hDSZ^V$g#vgT`<B_=+uJ$zwP*O}nIL3@l&vs&z*
zGJ6`E&W`D;d+e68cx?Q=N3QnhgrAR>l`=5T-VoTMdn@{e^4tDLpiPLNYk_8DOzQRf
z7P;zH)fMCFoeWDqS1>PW5uWJWoXx}?7<%E~rxQ0->?&_6#g=oNJFL^?bm?-x@HyY_
zek+fv*l`IYmnR+i6TKsbZ|d@jy$xL9%i`t3A|7_QhdV?+_KW&k{w*<A?PH+!ksVJY
z9NL-!-9vWHbN5~`Lvf*yJg-G%t7Fd9^D^?c%-&@-%l-ANF;P%8zaRX_*^1vZ{bc=<
zOd)wzi4TEF-dhu0SM4Z1%(_Hr>!JnELsg$e9{e(Oq1~i~eAV(*|Jub9{#+9I!t0S-
z)|Mk(HisjSb<RBB7}n<xt{)fucBsK*`aB!MbAO(Suf54SgO@dSt$~t=r_W>c@Gr~W
ziL956F|_myykP#I;X(iAhPGOZGTGUyir;ne%Knx2cTiI0uX(Dt?CHXlwLd;hoxN~@
zwnNghA`A8SpG!pVGTm~2*VeR;!O*8gc)rfLiqAbB9q$U3au>{Cv01HEn3m-(`uo}n
z&U<xFE-dprAgUnvxj_H&ekSv^4|8%p^Hm#g{$Sf9H1A}kmsZX<qe)g9|8802KDj~r
zfRv=bvMEayv~M(AwcS@`#QB3wCu8?T)zIlbudX~-dVTl$wt2ox>+U6XpSjX1@Rcd&
zwpyQ`^!G_keg9M*a0w_c&pdt6G%L2}&p`+A1XIo*Y&i;zO)H~s`etW2ZmGBUk|y+F
z&#EIc*S>sNu;4TE6Yixk27gmG^H-a5{$N{Deyr1<FXw#dIsg0}M{a?<60_DoS(-Os
z_2GHmo9EiT%IB?}#Ztp8md5*FlGh);<-bndlbPSu*XVV?Tw(VAi(H0=>s7Qre|ceO
z>frwWxUj*27jy3^mKG-JP7SGgZ8<;WL~;nzItIhz>G6z?=QVWn<7bwBdCBMTFh*DA
zcE~pE5Z9iULKRsFvVW6XQ&QBYF4f!gJ^4_X{;Q}1SwbIpEe!4py7ruVZ}2+P_ui6)
zQq%h4D)@eOn0B0Xy3MvXu&C6!-MQ#!w)g^27x>E0ePLg0XNY)h^Ekfsu==E{8^GsM
z-~F@q%=%UHK1|Bleu&BM@b;Sxjrlv@>&5R(th#KsZ%-$iX-D6`!^(&4epIy^XldT%
z+wpyKgXaDz)(=WqFWh%+*f8x<C;!!dcMdb!{@QQPs4bkef44;izmJ^IfsaAE+WY=}
z$i2e#u=>N@9oGUptoGmCvg!4)dPcFs+XJ=Nd|B}&@I|fYrKq**V@}<6U%9MfV!ud}
zx!KIA{rYB0uk2#j9%4FMGb!i5iA7uUwL(AI^|a?Zn^nHEezUA&VOWRN?d>zx$No0R
z`DIdbDE2^Nmqb=8tF}+h4VV2>4o^6<uKfwCg|DD9W7Cn}z9nnBte0kHwcp<B`fq)g
z1eZX`jQ6L6+cZQtUp0JH`y6Iq8!DL0%=V4t*RsZ4k_~^S{9ZQy;^D`EqJ~%89TorV
zF7)quW+$ayssF3#;X<vX6{3sEKkMF&p0#tr6}yt`c!OENt~`GOHQ4?<dneg*|7(s#
z|M$>`yOx2Rv|w9o!-wm~4bJ_{zjM0q>|$~5?mfRWU*>;k`L8$QuuuEpk7<gWyRZN2
z0PSx#*!=9b_2)HbjDE~r$Gq*=?PFD&a}K;#zVNtSU9D{PXM>-{8Cfx)GSaB<t@Y;>
zFP&0smiiaoE+_;Y95HEnA$vkDkA%Pft7DNy+Dq<VpSh@lVg2K-bNk;P(v+O2#DCjz
z*OmKR5C6<uv?AQ&pwQmKK8&}v9@-iG>N?lm$J+NwzWnqkdT{=mubD}x-Kl3=*sot&
zer$GM9dl5PhqUzvp07rtwrpZ@@3_|X)iJ7lEd0Tzvq!60zIMMe_@2%O30@b&A1qkO
zWBRal+WUHu)r-UXV_v!}6uoqOWur1D+nIH%qkGL|_x{qD(N(urU`vbF-1&b`TwO18
z9At-@*rRxk70KaR#z%y^DvZuc<y%#;cBK5b-f%kAS7MvWMCT1PIouMtg2|PkzW+4t
zm+1M~?K3%gVuR0FyBMoq)(;XUXE3#}>RmLuntyY0&h;H7U;Gd7<XzvoQBXcC!1kZ4
z!)wKr@{+|Io&50=dcPTeDflsU=?+jPa9Z=tcV*-euG@ht%TKS`q`gIM5|_Z=_4$Q6
zb$p*zE#WT6-@A12e&(`kK{ew0-k#w9wnX&u`sCvvF|%hHwdryVfgRc#TiNz~+x93g
z#OJQfcdo!izqoR?x=&p?`Jy@K^mK!E{j*m>8%_l8Q_>b+@vZcbWqfv6puwN7g{@~8
zCpT~FP`<M6_6~Vf^}|>0HuRqT|6==`9h;V@EmEtlnOQsI^YpY=S`Hf?>=P=N3yci<
z^74s&(a%dhcX=Z$f_^ATx-urr*An@7X1&%S-J@4R8v?#vuGBDXKfGNrXiYV1%4@})
zjK<mf_X`!9XC9~ym$v?Kd)e&I8+1Nvzk2+!bFONWZu)JP+wt2P4$o=l5_oiS{Q+&&
zV=000H&w44ySjKkv)Q$?m)E*?GF{zxdcSD$dbz*C0>#z)l>1rFnse>CJ-KVO`~R9J
zT@4+3RCZpH+v2}Fy1BK$X>Pl8!3T%JUoSg*H%Pg?skRPxnfS`)PD9D-kNK6pQ|B&U
z5q;;Om*`d5Qn^*`ZENp`KM8JA>8?7|?d{j+?XDlYx#-OLra5LCix(TbW1c2=(^ng`
zF1TWD{oKcg#eOcHquIssLM|S(7U<2Fs{Nh(`noD_f4!b5eFYTl4n4E}sfFrX=Rf_?
zXZOvEH)<_>^Glf3Ot?Psr6zx$+i*GXNnFsH#r^yaKU-@~f3eD9&%Ru=y+r=vV*9;;
zd!42PE%9P+o51B7BP4PtcwNCGn<)w%>;f(|B0Q<f=Y@pqPc62XksJJZRYBB&GiI&#
zJ&*aMXsr7`*IjS*p-e_?4jU2612ZS)+3KnnYI`qO^{1xhNt^|v{3RzV;YE*in@n#n
z+ZOt85A&m<Uwt(jF3l}k7g(=R*1BMt_MGqK9lu{kFZv(!)m_t0Qh$;A|L^_{27HUP
z8;TZd+lAb2o06mVAV&1uaqA_*zoSk1m#$Qd-|*u5J;kaoD+;0xuyDsbsp?#<lvysP
zsa^E`>C;mEJ?o2d9$gS#+F)GxW$O8WH@B}CaPOEBV}2mp)zOQkx%!J^_;Z_&QN5>M
z|J&)LH&aY(viP<wH;$U@4*^dW2V4v)<y+{nq3qhh>|e)0D=YT+O+RM8x2s?1>Kyl1
z`MW+QW}8K5RksEd1it0gxty8ms}{dae(CLmOvXu>bq*&*x`bC<WB+=hu5=x*w2tn9
zLw7s51=0ei6sKQ3_2tfTZL{0w(+`{z^}EoU`2M|V^jY_p2id%zPqd6zo5k}vw@Y&0
z%XJ&vrFG`^H*J$v?O$-*<SyfRyILvZcO@H^*m2cWU5QUidTSwi?vK#9uQ|<2H#==$
zTjzdkagxkDGufiUJC`mNKi;`%%~B)gn0QH7lR$3yPo34bbY%a^e%N&*pe!#&VEK#J
z7LUJ9XQ_GlV!pP|rraH$C4Ov*YWOD#t{;nT&g`ghQhEKWprBg<bZXk3rc$pRFQ*Ib
z5Eu9&Q}7?OIkWsg!$#{BmL`5RS9%UT^9x*42%1k`GWp1{WhZ=tHZNJvAb+81vj!;t
zE`8+JUt^=vzM5|zL#tvXyG*_F5_en8$|pPA#rKvTc)a1Bj`RcxgPH?ul1$O({Plla
z+F-H9yqig7u@K8!At8R-FBe34j|S!*&}{wq^iNBeTJiH;g??qP+mov|-(fWLdJwI$
zspR7O>@Vx2x4ti^-W=hOwXLXrruBm(S%F<n=g%)x()sa|W5(tJ3+2l~eU@4u6Ye$?
z`$!kaImCF~53!ni=w0yp3vU|^2Su^Z;hym3;S9N80m}<_h0f1?RQWyBqrUXOP6q2M
z2VY!tSNq^|_sOT*@*j4EGd^cr^Tl|-oTd0X{bY{gOeH5P1V6tBJ+PC3eMR0DC!4B^
z%#j7Zs(u%UT@KP;9qrhx&&AMuCHK=#rdj$G2NNW(28B0tN8E0$pHUwAB#$%iexkAN
zSKf%!S?LE1*jtoh?`!@Gf46MuI(f-m4JZ24Q=G0`(O2EM@vO|UrTZAI=lFk!KBv>V
z!o4Hvewc-?cP%rY*{PrN3Y^)O|1~IGe!k3Y#rmjM(glk;yx$u*2YM6<oz492^yrA~
zuP=$MGL}3uPagHUE?iKR=?c0AG`V$VY;wV^6gC;p+SK#5%hcY1Zs2<;(sfv|@XOLK
znwQ@%SNZbde^rghjjf+5Bb1oK&Ki{-w%pP5a!Zn_IG4<x%+?oIlY@3z@!!3d!F6_-
zD7V4?+_1X#6<dVoTCKQoER|*Hh1{r(442dHe%|suZ>Gf2`|XF9iLx7TJ}u%($XNAl
z>Yf6<*38RYpHHm(xR!mH%CjFCMVodXlE{fFwBtIm`}(nCrCl?ZzN|^zUN<9YOXktY
z#FIX6H6~1sDSQ-ga&dH|m*LGVNsM93lxzHbst)?BEA~7(eg3^y7yrMWpRsM)<(P*3
zyoDAEug}gZNZDh`brv)~ZLP4=Km4N2rVp#;2j(5@=fC{wVtquSpkqnGq#Em2{STvl
zUD*P<BV^j4q_}U#=l!yoGfg|`+e6Tqn2~`qTJ$7tnpACG^=G|~?Jw&DmeZ2AqB9R`
zR{2!@J~jFKL*Wgn-|Sm%bA4TM?#+XDzs`lOh<sp}$GGxYMC7$8Vw_p>d@L`XYI55C
zx_@4j?MvW-py_5YH^0S*ysk_YyK(VQ@}G@Pr{-`NoLutha^)HQ5c4Vb>i(YNci5zv
zveWPq_o*f4{Ljz#D`I@)SGn#3mn}oY0v(sY^6xJkOA8qf{;pcLf!ov0`27Z#chB_9
zy7z;IJdYQ*#x^Zga*b88;A4HUKESHK{vX@X73;);8g<3j7Ia)&^TJ!JYG+&&=rX0&
z^D-)36ZzRqS1tZ2HGd1}_+4w}L(=n9x}INKT^FjNEBjY?gW0!LPV;&)=V=`?E0rz=
z7cLX(cs_YgWRY>2SSq)xN5SBJ{l5yPPb$3Ao)qkp;oGWwb60O{qFJVEtn7THf9+1T
z?i!0$Db?kGPYRK!^^3A+2$Q?B-L9)%Uw{2?YlX=l76iE;@N7Cz#t?rm(Kxe}DaBj<
z*U}GMm+f-j1&h43extVbMuSn3XizF!&#~|$^-mHnb@AS~!1pXS_~VJ($^H*Io-+AO
z4%0Yr=Z2favK1-~E2Fp`%JG2~|Lkb_IdkWc0;h|L8-GW;_5b_6T(mDWk@0myOZhJQ
zuGziICiz4y42!t^Npxa=QJv;PRS`$fK_Tuh7pOX{SO4}e{ho&9q@UVbLLXIC1qJu%
zpUGD*om1DIw_OQzI@|$)h?o7-xIL8@otnP4u)-81<}gc!>#$7D>=UlNwQ{@c_k!jE
zW~6Ez`MNmcP5$I9^PLMXcO|VpB0V9-`bIh5ak0R?Th@2{zpTB@YY&5Fgw~_Z#&7N^
zjMw`3?|#{KOKT%jPVZkCD_gCLPs==frn$YdUbD?>jeO+?YnG?eJtqEM9FTf8IcW)~
zv9|8vY~JQ~5AT-CWbgK0<9ju%^D0+jy6@FMtBotqi%)rQbi=AQT)9&t-XA_?_m){~
zNAS<urL*U5W!)lKdzM|`;G~qL-GBFJd;hcEBKeo?OhR0N+R^yRIZrnJn&KU??eDJ*
zPFjMW7`dzMe-vmX?z?U3eKqaNtBJ{vV)$9Os@i97<N7Ydno(DEHSJ4Qt7TznU+<eH
zqw~j?e-FEn<F=oX`;hsnt_QCtCAMTMq%r2Y?PpxwajKc;4Y$Ds%jr{o2hKYC;;M47
zf7XVZ0na9`wq9KRwA8{&p!V-)_J-xvr~7O6dY@S<aVO|j|C@J*w=G&PozTW=%xL!U
zxS26mtS4XJW6<S%+y3R`F-(r*^4*f%{@gp}V$+YG95<BnrSBw%w9R|9s9f{K0!O7^
zyBH_UmYdF@kfMICd0N{~)yp8`6sCGu+8rrhEb?>D;g{N67kig!KiGLl?a&{wMKfI6
z>)AK38%wO1m-c#!65G*RHWOU6ckWROe^qF@^Ib#EPmj1slE>b^O$mDZbb6EA-*(Y7
z$riyG*6NQZ`%9m@Yi2w9phH&cle0}yI!C{L;cDvI=({0h+u5_P_pNeEd|u0uq$|54
zP&WSP-<NmyyfaT|y};F4_$zz?TX1<-cKD3ExbM;%3eQfJlWcAj+CE8af%h?Q^YzuN
zC(d3wX>WN#rZno|zb|=l->X_D=G)%68nWw>^zHM(d2!!g$u3h|s`V?~Gk)<8C%Fe_
zU&qy^PRde_Uv@~c*Xzbv)=zpR=MT@mzL)7uufKFi=gLPbyEBh1ytwD^?CXEo_S8vk
z_@ZgUGR<P{Z8nwrLB^m~)tObRmS?x=sg%~d2sEsUs!h$`Rp<+v2<Biuns0cv-5|Cy
zX~&r@TR^kLM}9w&vt3qs;h5dePu<`HGOZVUaambn|6|L_DvRAK3vQL~m=e?PE*Cgu
z?U&t4mDcyk{876u(Kaoh{}_9j<d;ALe=V(p+{<3?l25J6j5@@0Ch3Zc?1xj@b8cNa
zzSY&sc+KT!d?&8-ofJDGaxeGP)4N_rncSScZ!`q{FuTO4u2m4$-mJae`@+Tl&(#lH
z*xgb*mB0P&+KSDKJwNRF|M;@<beX4I9t>;T9|zZz#UHZywZA?pk>^cPi{#8N(Q>Z}
zKKM&(Rcb^vF+C~p^HBeC*?RfelI4>_dfY;`u>74WJbmuPQ%iol;P{*$6uFuI`K9H5
z%xw%`y<(lvnDlI!J=3`}*ZOyNJd9gh{4#i6gKv+m@o}@n7ui?p+r8(1VpuaNOhJ~#
zGh}P?-D=5gckKNgx_&)OD*4-Km?A68cTTzbtMiHE37&VuJlvk=oS*vf@?~fK_YGyO
zAiXlNITNoHs9p~GUU&M##l^j~>~AhGFA#8H7m5h`d%uI<`1K2WrY=bZwmX+iSKSqg
z=@NW*?EkOVoHrc$j;na>WIDHP;r_F`zka%O@${DOWhQnWB^}cyRNih`nQ!}k`lRW7
z|2R4NZf?J^YO?vshqw1k;rIkPmO*{<+n3i4AFxZD@Lu9JyNKRLVSzNZBdUFKdY>(r
z<gUElSQ@<fpx1keh-H9{E8_~k{8-sqxBh?qKN!|Xbn(_ppV^QX6LR}+>i3D$`~K~8
za#?dfq;P#j``0_CukL3m5>dS_JAv6RN^zf=Yx1n3mr-`lcC0#5zi9pSu$z@d6I|q3
zcgnqWE`1%k{@c{YtAwH*cDgw}KF=f3?I-sad~b|Gu`9=hlgg_ZSq_WGC4T=`!}26%
zeUVSG{{dgw+wTsCs@B;UMYD&L98zr1))M(xUsV{|DX*OqpeJ(gL8oom_sqw)ic_y$
zJkH-Rq137MNJDA3>x)All_DY(H4^`^ojG)TpOMxtU+?+(@n7z;`z(uA<aOBg<>BQt
zw|i!>?(ypw1kMUwU3;TJlCM|cLx^7JRbvnHU)O?O1poWB!Ko|4I{bM-(&cNneR{;R
zf6ZC-GAzd-YttvLjkPN-&AWQ6EYxGcyOnvZOf0;OLLUT|d|TSWmba2?8Skp-jf|^%
zQh98?b=IBU{cUQzNxvoU<+T9~yhpd3P~tsP8FH5^{N&Vyi~s+9IWc=;kf<!zk`jC6
z<+o3pa>@RUpTF-D&z&}B!|7(<!Y%|nc)ZVfRoBYA)~Li&F~1L;(rB{%{B@GG$9E>5
zWzh@kH1AA4r4#7lUNgttY-2C$l%9X!yD&eq9dT#49qIKw-OBU((d<glb$Wq%zfS7?
znc@>R_4Q7xUwf*)$TJ+Ca(Ll_`ICCroMfNU^N*9`p5jfVgIjDe&Hp9(wx99O2WfL;
z(Vx7x=>m7a_f4-a&kOJW$2ntZ%B<8p*L!atd@+jQ)PHt<zdgf4y%W4r27g~}k>t7%
z!&sl?09t>^sJ=u%;%oObtFvymP9}fSoL+f$aePB+y~wf{GrgpSnM-%4z00oz9l(&Z
z_5Re#8(VTq9zFiV{~0tQza%qvQRR}U2S4Tfv;O!Hv}58;Qph2{Pc9oTF4bE9W{x*#
z<H9Aolu`pN@5tL}_YPa`K9u(TVU`|G+M+;>rj-JWhj01MJj!eFa^02R9~d6#DLQ;{
z6FxsR>iUZ>-yd%H{efYVrs~!YKV+{Z&k+8zisP04suKN3wOB^hMMX;Qc<NGoxlAuk
zzu9g&<I-O?okyXeJNEnBy}eTI=KkO;lcm3TJ(RmGel>CR<xDb}enZtSA?fUSb_Xxz
z2-%()Y{omAx^nM)7O?vD|IZdD9|<Of?N>st>-;{#X%W5h(%vY=Iga~J{+iaT+7oq`
zbH{(a)tYzn59pZ{&b+IunQ^y{@2Bg0CiC3TUH2Q9m4!Tb-4};3?ohQ<=`D6nI<we*
zY4zSi2kmVm*aPNmGVL#DEoW@kyvzMk;-L&nL+@vip1But#LPujUY_z!RH2GtN<;cG
ziIvqmfA<N$`1<eH9w(8~PG6H5GpB_xz2g<z&#+kY?rTxCx)h1r`<*Fjzl`2*Pz~M{
z-k@82Q_}BnO8g4V7kQga-^<y4-gj%#<dkX0l3G8V*mdU8o#_1UFXS6OaH<rCNSa+Q
z&3SC~;mO^_^$bay1Xf;A&el!}mE0@8<-Ocr<_U8baQ(h@!J%o%y@w_Bn!DZWnN<w)
zAJ1Z5A~1ES<!tRo>n|9om?t=FaOv-f5}Y~1zf^zsmzQ^RoP!v}R$BHPYMQ?4?4rAc
z>Jp8MB_?rg=zJsls7TW8d;XuGU8x>=4ps}b*}XMxCf}IUm2h`m<hyB#E5js?m<gAg
zX4af5c`UBUqT<%2xH2r_dZ+A7T}4*b7vd`0`{L?Oua2HL(et42VuRBrS=v)y{QI)4
z?;l%41k=a4J5I7bP8PM?agDJOv`~BMR|XahJMWh_l=f<5e7bhgp24uV?M$4*nzy&A
zO!k<FZ|nQ_@r1=E&I$W8{%zmnTGW|hU>UOZ%(h$dC120!o4L;|s#z&2m9+M!MzVXn
zSb&z-mfQosvsQif*u%eF!Lsa2DZ9+0=Npba?7hpkY~GyTCzNM~J!6xxk?56^6x1oT
zxmEe(O&VjedwjXWm9;M$bT{#zFZecFwm0@+-@bPZZ_X;&wCm^@t=4)J4^kvHVas>k
z<-C(WZd#^Vvj1im-?Xe$Er%1<`=7o}lhi$NF?_Qs({H}rnW=gXpYl)4S$<%0YfKGa
zZt1OC)9<z)4zWnBS8S4fW6`*fy>i8^@EX>bi`SV21hrEcCw{G3s_8KOz+_Mna6+f)
zkcqC3^|e{<-?i6+M&6oga%Ss^iOKCgUo!<XI2ZP?>q3rG<&#x%H}g~1$^8}Hu=v|m
zMV6MA0l_C1d(S_&+Wr4S?eJ#>n@Sy?l-=<HUFNsvU41>%n#rfnJvcLw|M|?%5;f`?
zGfuDMdd{|laal~6+uO#T`~He6_Q~+QxHzBdIop(-r$aLN*IZwn{wVYldq|_ia;-VP
zWR>jZB-OcAZeA3#>z`TW*~R~_*E?Uk625(r(bC7WGdOj!U#YGA@J{5zsf9Uv8HIND
zzkiy#I?ku{^6#ZnO#A=sJf!m7Xp+0pnVDMK3YSj?32{oW3e*|Qc)XZl^Yn|;L7f5(
z+5AneUVkoUyYDfpbqk0DjeBn~)>^;ev$FWv;)2$nsi0Bspp{z~Hk^vtY;tw&bGi7`
zvy1E3378ccEcJQQxiFLS-9v_Movw}V8$x;)m20pT{?a&}VD_uIk*n&<e*3i(jvp5=
zUa|2^G5ef+wH#KfU;F3Ds~VX<sd_T+=aG5At;O$jN>j}3|5q@v$sPV7`u(G+pSE!{
z<AR&*fvb+}pV4_S{P*II*1wmX+@o{Tu2o^xxytJrI?OM(*RZQ-h8%KlwB)*5bzH`D
z@1HM=LOS0!G^+<(3ZG^uyi(I)`^)~f|33=~-0#*o=(@k=$e!=H$@dqAbk6U;b0L6t
z(c~oC&z1>)-S?T@oL^t_OT*&Vex>ySpWUAC4EDM3Z#iSk9{p)fU#|X>kkIjqpUEG=
z6y_ANT`TC(quRR+ndv7!nnt+SM=U$S@yYz#qgvZAiwB!aWRrKi*es_LS92@Nv-|tk
zn1?YlMebL%+xZ@!?mpkmW2uM<_k=44I`eIh+)_DXA69)cJ!#68ig@z_CpOz@%$eM%
zqrB?G!Tn6&OVeGvA6(&a4G?<v-pIRZx7)?V_FPh1omjR%=?TAiXMx#P{=2uti`Z*#
zt*P@$KPW0%TId<LVM(9<^tU{#&1!Gy98e2qNd4luX6dS^h5rM0+2-;ocv+>S`yRAT
zQ`9{0u6|0Q|7>QCwI+8@OPF1+IPin1gf}hm>N5Y?tPz!GPAbj6z|eG!f5B>L*0(<M
z&DaaV{Nw~p53|N@^yz)Q-ZHnyB=65(6LE$1KWU#88D8Zkd$ByzPTv{)u3@UI+P-P&
zQGvyB@5RKvO?>KCxlUkm#eSvj_8ChS%$xK$K4_<edEMs|TMn@ZO8c0d6aA3X$h~b*
z(c}9Kt*6hnIINd+=AW9~{y+NMrOG|bX*|kqUsP|Wz5B-Qu~9F<JnxV6gqWTm+Kb)m
z8K(tD&Z;x(vT7)Le7zwlD(+?cK?|F&Q_s3@yqzYsH!l8c>p5Yb3<k$%>ut7NEG+n*
zIML=QpT&*y&$NxVK4$XSt>whzQ7$ibGI(CYkEJ!Dk_k~$F3n$2|88ygq>Hatx<5PN
zxFS!YT!=5B)PJ^8<tg3?dA1o(h1(UDZhHNcsf7FSQjd8>@rtTeJSRT8t&czV?w(WP
zJ0`EUuYdAsOL0sTmXmr~_U&Q!Ceg!zQ{vWtXXZE>o!VqBsm1s8#Ix-=+kO9Es<LJ6
zP;`k8Njz0!ArttMdn>cb;duG58$W*id1dpmHEmnoJm!^)??$ipS$sXXAz)SwubQgx
zgPS+Z%jVxSGo8W6@>k@T<G$ZYw>DUO$g!UF`<U7L4PDPZ@<k}@QF1WY*|p*Q_hV)I
zi$u>p78VG7wEmdx5}_Si_tl-&Q|8#ZXFh*}%bkb)P3}t*iydY8mMzV@pZN0<Glz(R
z%ai!fO&5<e8-CkX$j|=e#d(G%UXSQp27ykdGwZ({JEwn8sN_pJLt~uczM_eayHuo3
zrMIrjc3*k7B>%UTb@;q>f3M!iT*PwMe`eUugzddgH2oa}%JdvK;#Ta~md%%NVYl`a
zo2Psp_B&7BPAgg$ZpO)#*DaU8y{vjQL*U%Sy>pM9RnzmmpR(BGWbnNHGfVBOrr()t
z^=yU2zUS)#K25P!_?hf}uYI-S<tvpho@@Gknqr;sh)G43Z*KI=%<$(IOiLJ5{VUf^
za5stj&Ce_Kuy0N8Tk$5)g6){Z6yq!U8#gZ#JEi70ap}bWC*FFO=Zhw|7fqfilOO)W
zs8gu;R>=1<W;VZ)7mN7se3@U>s#m^lP34zM3nZ8K@d`KSXC4n!DXcqvaDHpZHJe}7
z4;};>mMkyPOFFX7FULMU4pewf?(N-g^*vA{)Vg0LPN^MqB7KMAjfsrf+l|iKsZ`F5
zR*LxiVt)Ubg&cE3&L|ng-xQSsm&_eIw+B9%mtnSI-@MgNwC-lfT@81$Y?|Z5yne&`
zW%VofUD{u=x-vvNC0Qt`C;W@s^KGHaZ=9=d5Bt1>QF_lR4uMY`B@Le#OO_@sEq~l&
z{wOZdyXNBJE(a9`Th-;i8bJ5NsppGZCA@sjVYlejy<hvE>Xn}=ZngNef5rOgH&2&n
ziwD(P^1B<HtB?-(6ThFU-|`^W){twwu5G2qg8O5n;~8hHcNhQvPJj8wpyO`+|N8s;
zdFH9rzU?V1$ks9~cHcR5>Eh{vs~?M$E|=NB_;<=7$3K1tY>na~LC4mxovU+Q=r3;D
zxoPhbQSb==I|0Tc`Yl!tyEZ-Hv(*6!<>=@vIKpnzeuni_?86e}_N9yef8b-E9(iE%
z!t5tLQdN?cu@6e?*<R)y;B+)$IBNWM$H&X+<=!kWF3xw{#U-E`#I(eneWCh1(O<s{
z*cM-xUhSo`T~>`@Q_;g81<S;%^;Y;!jq_(r+G8r(#C7?{?z{-|@3QB%c!i1uJX>Cq
zdTq|dqxBs3UaDryzxm>;*@Mzu3!Y4BE%JQ!bk>8n&#E@pWbU0;*M7rn=4-PbKeuh(
z`1i9w-1mALM)uc1FBUtTG_8<cd-<6E*%kIHzf?&VY?{gVHz>i~dDRiwu9SMSn8xdW
zFTU1v$k5zpBz&Tyb$#xmMbT+956i_bXY0=Wq}t406r%feyPR#6%&#9&4Xtax?pq@4
zCmp@r{!V#>^M>QsnN(^;;)86Ct4BUoo8HuS?DBc`1KQ2{OcpJIB_%<Z&q@C^Y&a<w
z|9qmO%wnIcPs*!vC)di>E|p(nx9^;L=1gY4HB&h5%|7gD_W2)Ix9z@j);dDTk0&&+
z1+BecyYJPfUDGf9wQ#*_xl^I@GxMD!-Kk&u*6#wXT;Fr+NSkWO>s;~0*5&8cUHBG!
zO!Jl5%4Frw4ksN1vtt)e+65YA32e)E>y$Y$QQfNH+u|E_U3Kj<qhDQkAapyD-{5Pw
zM6SK7t&vjLtedxHJg5!xxHz5d&t(R;!`mfu*9$~Xxh4N8I`5X|6`2jsz>P113&|G`
z*zGxd;&J&k>yqTzyQ;pFJA5*lT5Y*eWx1+9S0ZEg!`nFr6q=P!#u|K5H5FO#x;_GQ
zce+PR5}Qkm|CAEjT^SV@#Y^J5@)t7%&T{(QENZfJRqo?eSG4!M<G=4#J4Hu0@Zf<4
z&WXET#A>>@_WuK|o)8pTZ`ptHicCk#W2STZXSWAxx2Vc~ePOMg(I@gK*GKnT%cI*X
zM3eqV_)eA0kri0J%WXF3$b$c`FS~PI%1ON#5WKjq_!Ilm&|NvA_uZJy5(N(wHr+aC
z-K1-GP};aOB(Y|VSM{T57sbzNrG}=xc(py})s1J{=X7cI<U8!DdO5@2=fT1o&nz7G
zKG8G{4VH*+5OMQvUUukC!m4#QZ%Y_~R!TBhRBX`?J8?1GsxJPlx%mMZiBO5~{+|1K
ztaD0IE*<lGC2LkM&lfClzrjRu*6jj=6>Y|IcDcnmny9s`IP`<<%%p~NyM&Xv56`sC
zt~)GsI8da~Jwoe^c94XCX*>5zpOY`I%|4nlTc`4rY{7=epW<6vBdc%sKYiTYv@Gpp
z@Vkb&D|2UjJGbj%#gw&o{pA8v|NLaAc-wQT;YHK|1;^}~JM-hF**yKp7d};jxzzDs
zPnP_yi{aC3o*q_Syu|%gg5QDkppCuq$&20VIc#1{Ts~#)!L<uAe9nI?Tq@vkU9{1?
zHgyV{2KNDnX{Y`bzn)aZD6?&b+4*grK65zMb{>j)d-&bd$P2X>k8WX>NK6s`*T%`9
z(5W?b*X(;ryMKO7Yz=vsa=`B9odvHf`}2;o&-yl>zoA$CpP=(3K6V!Gs@AxfOQ)rD
zXL1*8deG0Xy2G?D@T9jtmwSiaGFgW*E?%1`(`;+0q`SK-Pkq`oJ=#Cc%;dq;&aJVB
zcHX(#X?th=9#AS@!k!Q&s>5<k`^NTp;Pv0u3Z@)0Yns{=?;5&Ce=K_qK5_i%E$zLB
zr#<!4WH+dmtc{KPe!iTeiScOrm-0t7A<KKU<5q))DkW6yTIO_~JHFtYbNME>)b+oA
zFm5>5Zv62?rcw8`&(r^wcgX$aw74417TBaV^>F&iRZbUf2fXQ$16{*;X7;ON7q2hO
zy!+fU@<0xg-&Ut-Ij83^7*$)IJNZ}jx^w@(_5RY*=k9*t)6Dd7<rka3?|<S^n_u-c
zOfHB1>gMfFIUDoE^c9=;)|tZ9dhVN!y*2leTWTe~Re$5jC1>(?mK7)EJ7h8|$G_YD
zO6I4~@81P8gsYh^)!6O}4v<~gQ2d!c^W5TUiz}IaZ+Jbb0`&w#PA)lB*uS#Qf0dK_
z|M~OfB(E}aO`Ep#{K@IBy>pml|AO{J>V8v=Dp2Cf2{-RyFA1OF6QwwvKl(ENzf&dh
z!8H|4OCNa`IjDwa9%VbThHW3i#ls6<yk_w}y1j<Q_38C?QMGx-UgciN2a1ke5xf6~
zYxBE0JBBW~R=yiY%1qkjisKj7wx3-h`f8$K?C+{4dsY=cmo=Mzj6b}5YS;>Qx!$SV
zHrkW31b#B?GCF_C>erWt+Uz;JR{J)w%vojioc(RC)NP-YF-cl3PXd-4{OJ<C^1`ui
zKg<+3v~Qo`ov|a&*Gn(6euZNEQT1!r^mtBMC#1Zd^8Sb%ONi*nSKHq#PqUT0eTG*e
zg(D}aXvL28^J-swWy%t7d-7TK+aa#(l%-exS@889P5&PH<wbw)Gd7*-FP8n*oL$HK
z7k2#iZtVMaBW+c`k>RaPMHl*5V*XD1%e>8d-lrHvJspb=C3$*0wfess?pB1J-4xDo
z_4sz4RR2TWe}4qNv6~|ISJoiukMN<LQAfURmv;y^2>}&>8uMzWEa%~S-Y3g@wxy`~
z8|eBxw}+LE*N&LBXKV^I&xp7E_1xOWyVYg7Xlt>%z})y%#m*J+<p<8>@^@`~X}>J`
z!<_c3+rKob_Iz4(tD*JomVHZFJ*D@q);TcMH1x}h`ueEE7c!P6Gp4=%#$IdqJudF^
z3)T2(r=Lro6k0!F?aOw#_V7QP`lV+V?`I6+(D2d=(A5;NWJ`Lw)Bt=$gX^=pwFSOX
zv)2B%-v1QT`Sh3~b&)m1@9eK-WeH|8ck?gT+`Pj5ncG8ALzi`1%-_y=V^sQj7U)jY
zDYI9~@|;q=DY|M_^MAfd(6KgMpD&Bgz2kc6_Fr#FJI+;$-0M&2WVNn|IkD*a?z8_s
zoIgCXx5;gd45xs7@u?+66YIPJm-o8QZ&ThEbRp-!xwT*3AK7<fgQ(o|f`a1@uWE)q
zvQBs$CC<4%A>H<7erCS(e{J){3vM=;{9EZ|cIxjG%Mh`EyGPQ!rvCWJ_i+D4-r_}{
zjA}P;c6;lhnQ_JXNzRsnk4;(e!JsIdmSnbcL12T1%cKuodYTjbU)^k9*K97cc1n|5
z?UcS#LC*|7ZD_dr-r#1#=lwhhCR<o;^4&0-@onCb+m#whk!$Ln3%+%6^$uuoG^$cr
z<GE}~j)T5ki}xeYs_~>tvv<sJe6;rQ%&=PLqhevtKe9y}xzv8VyxDqNt;NeppC%m#
z3tH@0`cL;4!-R`hly}D@tzZ|?O=R|)m+Tg%^+;vC7t4{v((oJmO>_^|q<#}+JgzRe
zfBmz|LILcdYqWlfzg&FaRin!kBU7KFH_i&Fzu6XfPsjW~m*h1L*MeTNeao*~m$aW<
z*!%hQVXl>z56c#K6ldIivHs1ZCkKUo|74iqdPaJOf#)ihyQanI^$p#tB0^uuE_&m0
za8gfE_pXyq+2-7c=?YzXU(w30GxB>#vxU+5H{ac)tG={{F1@FiXSr*7>bjem^#LDV
z{0qt`)(o2(r6{Z}wB0`7N`Q;eb~bLa7QW}t;uKxhi|F`jzG4&I;;%oa*>NS`bFqZ9
z#X?;ht=o%_cQ?Fh|7R^@HYd8lM62!fjpU-NWmy~U>I-hM$hFwcaB`PZ)T_ziH<s=C
z+EaIP&tZ`qi*h+hTZT;=927g=M1SSldt=!`_y5O__X}0rc3Ek8Wzi!2?T?vXd&!=Y
zb(rF{k$<PT)%oyw`(hK5Wov(ZIPoJ+<+F^CP<}6eZjSz9_a3+3ALRdcOE^xrbTV8{
zsP>@vw0)muKKpqnlf7{6w}-+4xAwl@GyC81ZU*tb-A*r;-(g(3^OvvA^Mm4lB_DlA
zD&f(6e%{?7;I_uLh4CCQ7ecR}(GY)QH>K`WdpQR;_b#`cha^iEe@K=0vVY3SA*kxQ
zVRE;G=l2)jI%6yU`-V#Q4HEkbpC^l(N1VFkU%Ag&<Xy(?BWio}V;`27mrbiXRop6L
zdBirNCM7nq=)FkA-T(i#9GV%PKZSczyT`OH{hMwfl|u7Xrh5O<Sil+dR@>m{3el;a
zJ5BygTkTh4k}x4r=>*dxADLUc+26OE^i{WGH}DADe&S5)ssGi?ziuykedIV((O&^0
z1s@OHbopI2>_>9cKUy|Cah>$xL``qk@ppZ>e?<M}{>V7M(0=UoUC--leE)iX6q@gL
z^0;Ts8FxYdSOevi%q1Cro~lMPUH|J>^M%Wh=lAZ@HY*o3f6L4@KD$lRGn#$LRFO+D
zd-aZs>;39#{QlgpP`O>{?-c6?0^6@1V*6lX{rN@kqW8}mR=>U8F3Ojer^tQ6hU2k@
z_@df&u?<<T8<;EJ-aW$pMkmInJKgEa7u|CY+KSgOn<#vFHskT(_Zwaca{imk1gg5^
zW}ZGb_jAfAroNDEKTBt~fet^eO?}s3KJUFpNdIG&sc}J@pO)_bmT1@TW%A<7Y=>`d
z_R<de;;VTZbjfj_#?-Pu)0B_jvKA?nudKWq?a*^jI!4Li_(ZO!jz`VFx0cv5h`nr3
z7U4YOe#ddQbOC6qnZmDAAIjcEB!a3A^N^g=umAneejB~*?XljJ=YK`h%iM2wS1>zI
zU$x6N^YrT5%K!hj$GEA;&3wYPdhKS@fXJs-iW6Lzes=WKY<7~1_YhTMoKw!F!S>tT
z@7s?k`J<%{Gqt)iT_=nDy5Q$@ugz}XHLhrRChzTiYd)WB-s|z}Ms9G4<qi2lrb+*~
z?zgdKuiteg(Bf?LfmNpua)0=9a@y|a1p*h&cgVfEeA_zp%f)C1$yHZOn`V@KTa{H7
zyO2?)_Di`#;qw45@kcJvPo8v}b^p{@-2d;_iMW`=O_5I~1x<Ruzc(%N*NeN-4%2!9
z;-7KtEx2=BIlnUg%!IW?ADCRc`$F=ivxDL!CO`ghOQ@nq?w<Hmr@trsldBd@j?n+Y
zd9hS>L;KwuX}6y|tc_(@&9Se(^#6tOi_<G_z1jci!@j(RFF|SN4xZTVHv9LchQq&i
zF?v0BdU56c=ecH2x8z5QXo~MQDHT_EX65zM`B|@$Um*LN!{KuGuCp3^|Ebyj!s@|~
zsLW}b#Lu5!R9esOV^qwxQmahpRo&i#H>&4m1jo(VCH3LNA&x~ZwhYs&&Zt_aZ{z*_
z;{R8%4dG{7`YxP2^|)be^m)eUy3AKu2QFj>U3wQ6@=8wo&edR}t?!mEd&kscwCY7R
zk4XM5#tUzkw{7&>8MLf!1M>?@js?dXk5qp7T;O5$Jb`hu-^?rrvB-sIgPtDY3x30T
z?$Wmc4cFy9><a4}E-=nq#dYbBZP<>fH7U!VoHuWXo29;AVYMFnn;^p^xp+pY%i6xn
zeZ(Iq&hgzaS29fISHs$Ab8^BW_~#m3ZFrJb_w-)Jt0mGYZw~*peq!@$rqR`gnVr!+
zUK6W-M(|$b@Gb8@V+RtIZ+$Lr#no)HY4$I(jQ#iI;urVFseS&nc#Y_$Kp~k&a<5fo
zXXVCDyy#xfT4GepwpY~AVoqfzqn$>@bC8&enybazM+egcYiE|9`o<+u`{lc6(K=<5
zrcEN^A^bbG*Dn4h`|Z@@zq054P0{e-F}<kpc4zUGLovdOOc$(>_-W^Ds~x(1wb4A*
zocJuKEo>^n9MeOlu8O>3<sIE6xc8K)Vim)s;tz-BP8Jorn^$9_a#^5Y4d=zG){Vk@
zqWRB;c-q=8c{lsIh;scJCf?(79u!zqtqH#xZZ@x(^^M?PQ3J1+pH^RA6mUIT>%+&}
zhZlbB_{Zl_^&os&4u{0!$XLc`QRPiab^923E^TRRdok}y?BcqOx!b-@xu*O}TcOVF
zUgE369j~QYCdxm03KB|~c;nsb;;9aoXZ@a_>luAum8Ki_2Cj|2SNm5z<a*6y(th~A
z)PZkHHQb~ol&E=mv;I6)oNV98H}&y_S55ySu5$UObFSNHQxtn!?N;vRa^@S>JKr@t
zs#VmQ>a+WmbZ@nxgP-J&k7=!*X)ES86df?z`5}E_LHg;Z98s|ajA;+|C$+{|c<1qM
zwfuJ2#lk!3>eoHi*SJ=;_rA&%xV1`d;)L(-4PNfL$8;vv{mF!z2OkK@znZu`XIfE8
z?Dgn|7pe_!cj@I7tT0URUnQHv_4g;+hO%{Yg#T%;N{f?^-#v%9+9fR3-+q(GPwQT(
zMLFJuN^e?iPhTvF^|vp2*B@i?+)#tj@c)6bXJ0;qUccOb#^Gw|Ct;cY%kuW>CePv8
zvwGd~@DqwIEB*wWSL~Yey1?RcS+ezd_votUY6?dgUY^_)*LHdCzuUDh4sCd<o$&bO
zrQ0^O!OpoCq&9U=U&;6F@ma3bTO^HVDvEx19N_nR8~dE8Yv$)OxG%lvZ6t1UV`}87
z-zMD3hfHq;*&A&x&IoE~b(omF_b~fA8TKXXFHV!1aMkF-_3H2KRvYENBy_)yeDvFT
z$tl&m{YAMq`}j8-t?b|A7X7MR<MU#LUrM*t&fW><GLtfWKOyRS@s_1=is^lmS1X(T
zGArJo`R=%p(ZlsZj<y$nJX&+dC;Hh6`LeRstsA$;zEb(W+GPThj$_VDtqcYA?3WE&
z_PW&?bS~h$k)kHE<Xe-#$vJlWwypX7Xt5^?uLDn?Z&9z8lhCF|tHd_Q@}H`Un94Cr
z+r@V2`VRuXzP!4gy!&BU>rIs=wFf^-cWzwRda*l3`|P9dz2U93U-sW;T=?vo{x3Dr
z`Bty1E=b(lS<GtQ@5QoGH0aDUqeGLFIyOf#D=U>9RIW9f$`Pdf<bLaiYhPzwDS7_L
zS*c@A$W)G54S^}mj5C&GJ?oBoShgc*V&#{AXO)W+<fk~zev*6Y%f>>BH(mdxFvkk*
zxYrwXV1fU3yNErjG;d#@mdkCS)h{M+wR5rcoVPFjEqujTe!JST=hS1?3n$(FWf`T;
z&JhcJa%)+nhS;aiybHv`UWUJIbrQ*$`srku0{7)<-b~^958t}16Y`t&V71^$xnmOw
zJ<d-$aP|F$P3BuBKXtU5S<6__zT2Wz^`>g$>idZ=g3hRxmizT9-e&7>HT|X8xSG*6
zI5b00)QtPM+F#A|l_zX|{pPA(^^be!jZ^O5(hM$KYhHToul#q>Dn)~!uE;;m+f$4W
z$K7u$U8vf)nlUoVQK=*LRa~I;y1)ijo@H6jN-hVyo<8NnzG-e3Ot}n}i7#F`%hzGe
zij$^MODB7uo!nKOYU9QJuVV9|3+`!Ox5)nve#CU=+`oi}FP}?06j&%TUY58mdv)8*
z-AWfTHotJ6mZf_mG^xr<S>tW=Hp>a2p=YlsSI?<@qPR@%_1Qm(l^kamT}(5Kx9sxv
zQ8nV4x@GGjUH)x6YpZA8e04WN%4w>H9oJLiheF|7bGNNrWwhnp`i2FWKi_TfZZp=a
z^4avNsjSs@(SD|R(Y>vX>Mc=E6lUKtyM41DHREnP<L?)rg(oyxaEW-jF0M|`%(#31
z{=(P&K1L!{XTvh4$)7ts#b?)gYe#*r+^&4*aEX`e*2tXO;r+evLXX#X-vb&qC#=`{
zoWC)6Sxf7Ae!*HTwY%nw!S93CFM4qHf#=)9x)XaYem!sA5b47!UOQ#|oNE?)+P8h5
zG|Th*%JLHe&sKY+o61+#J>B(wukKHSmv*cg>rO~slZ`!;bTzo|?~Geb9RW*!t3Ak6
zbj)HDS(>o<*oG+uiFg06XZ)gecX`-}D!J~MPg6rpUddmoO_r-&UbaKAj#cdR!P*mZ
zl#Jd+C79*%w;T5V<Lcm><#AwfJfmNG+V7J4Gu-RhpPVRe5#7i9>Y{6PdES}D`<cun
zbNC(9&+b{(Qo>nt#!lw*i}el9m45K8zA{ztqJHe7&lA7@zEDz>>F{iy!k>34sZn!w
zE&20Lc9x&sU%r)k9=(MhH(p;-^nbyvgPn)F1ea{<-Eig8%adYE+ceKV)fbLCvrTh)
z$G&r-UHOky<{VfgcK+d_vq_Blf`1v-TzcKHZPS(A6R!Q4vO#?RBaS)p`C&JH6+U%6
z#U!73mfPbu<9C&;e>L11DJkk_6k>ud2d!)Pwm3%V*H^yaa@QaJcf1Sdnfbqq+3E6y
z+2H%Zj1#pd9~PXc?MMu+KH%-LpCNK-!Q4lUO4rZm9BtqBJxEXRFGJ5<>z<HM`;F?c
z2G{lqg=kLisAKH<5iiELd*MR0hTQunk1}4hS|s1Fax>cko8ToUOmEhneET)`#p0J8
zbqrOKM(hW!oIf1t?|JT1g6@MeLYx0w{GYah``NyYH}5cbM>aR!ic491Wv1%3h8ee&
z8+ty@h?y^c^nI%F%ltnTn-4ubD7Q|0O}a?KN`c!K)~E%4oY}DOG+Vz1*UHN?(@vUc
zC;6;T(+zp_+tcUfnH!(m{rc8Vec1C>Q9Gzw{krUgb;|25>dgJuePKqQt^DkpbLI2H
zES5bnQFPpRx&GbZ4-XDrTh{7jl92p#<CjXt7eB%yllI&0i+cZL7t_4w3h$@i%Kj4i
z<L2Xu-#ZJxUG!f#iM7JR{i}G4z{)V4tt~gcxokRQ_e(Qm5#z}Rzg{hB*b(+Tb8=t%
zDdp@h`}apDzNwVXn(^qo@uaT8^AgKT78E_-b>IDJ{5{3yp6f0(8ELo5P1at@sXxWy
zW2?uQ@V57-aq0Yzzw=tR*{3o+i<Ew9;hQooZKLVbcI%}#|4reHNO>g1*RFGkF)#Ae
z(;u6DU--6sMY)F{gUe#u{LLN#FBdA#Vp@7?Zt(jH>YhmfawmP%Ju}ZstZ#qoAK37Q
zo5A<li>b#e<>oC*|6yj&y8t8_l=JnF=)%nla&Ere#;bmE<*DTJ3r;fx+l0-oU7YxB
z*3zu#!#WGr+V~w%Vm63iET2?1FJ;e{19KnSyp+!m<49YzB+_C6>+;^>Z27$1_OBAP
z`-L}neU{3+GD)>;v!H407nwKi8>b%UykWI)qp@nO_+1I<>gazf+Sl4>Irzmm&k<@p
zu(?h9X?tgQ&;QV;fs8>tO&jMGO#8EDdCGoyNoU3C(8`d8oF9i7Z$}@VmQl&~JMl=4
zQ{Ythy-v$me(986R-d|e?Y$_6^f^oGY(M?T3JO|&!HiYx?ypm~!){t_dH247-8#)l
zUr%Id(iFLt*{?3_+Rx;s*t$!PxhdC}+vK_EhPMk=I=}wMCGqRe3Ju<01s3UHEaj*A
z*rQ`Nz2A^-Q7C8hT*_rK>-SHq^s86*=iX1;_P&5&(QCEh);TlUe|<{XJm>qTZGuz3
zbjjz3Rs6akqSm>0M?sR$%pDPOX4_VOlhr$LW${I^*z0q%xeHd`3cUN~iPFYx*Jq`K
zEo(`enwhT7a{OWP?05X1`To9nvZ<k9gVlM(E*am*&tG5Ni(KUW_3>G*>UR6kuQvKC
zRSS>Z42V8(^JFUH+%4C4`gI>v-P$2sXy3W%*Ugiu47IZlD!cM2+}V=0?b=@NGqc(r
zC2JqJvQk#W{ot{AkrO`{__WLq__*<^b;`u4MH87`q^YpR=Zh~7$-1j=_bn!IYKi<6
z+1(`$bIwZ1eBH^a)As7x-rwRU)ec2w#eOn;8P<_3-Wzt`dZ%8)iPEj}wr4suWf{Lc
z^XSw!*>8U9v=gQ#w(EU4DdiciEvNKLiqE-pc7tn`Y+;S!>aNDn)iN~~e;d6w_~N(j
zw{mc;)GdiQi)Oe4)(NO@d%5qF-LL;u-vd>OUgcEJ>+ee4HJAC^>F~h2SGX+u1m`)|
zKQYL+?Ynz}>6pH6>1^#1rPHmVLCbA5OC1-yS6V4GDYN67vSMVl_an(?lkT$n?LH;{
z?CoBeUvrCCbz-Y_cJnEoiCFYB_rBku%3S+<Yd+X~in(w0Bhl}bt=NNUc4r;0+TUkb
z_OByuh1<gPd+td#`R|`zc&+)}J*`SCoMHXNRV`ix$+_PX-+Y~-t*~W|wEWCawTdm1
zRr;l~f1g-$@&7-*3C33nZ-xBS@K#`ouiVZ5Sk*7`rsc#Bok6CD_XMuDI~B&c>X`Q&
zBZh;4lgd4wmhv>tRTlbiBKo~{+@mS1C!`qeDaIK;nzo4H`}K@HM>MtTHSRntzAeI7
z61n&AhP}a$RQ)2gQy%on=<F{F5@u+w-|)1eGx!=8zu49)TYj4xC+BkW*M2GeaxtDU
zw*3Ak58F+y`BvVA=Z&69WXLXGBf81E>6XPr%_cMMYld$n9Zh2&O<}xowcCO5nJB~k
zv^LRyii`Zu<-IYp=W6wOP^-G}=_3Exo4#(Gyj{AQA?ZV_O#D30o@E^=1#;WtEm?PO
zyv`My-eWw)@r`-D?WR-P8ZPF&*?LGoMcYZWk|+KAtGIi|t2A%+?qyiI*WyH5pPxz8
zvt#$(9iH;`m|TOO+uu)<x{Myw)rkbuZ~tu|x_cx01I53A>rP*squn!EQBr<ZrDWEt
z-n9&qD>lgNJ1KZY>x1F#WBU%LnSXn+Rw8Dnf{<9n6KBReX@-@n*2<jwx9Mc@hfCrP
z@zR3-CT;Mz_S;C>+WK*U)&VP{IdNuXvox6m)VHaZeLMCrq(P;xR`IS-M%C*h`?i@z
z9!QWm$Jy~#DN=Ce)JXXmyS~Y~JudJ&pwqQAXY=Zsl%>-GzHNT^W6_kumW<scXAao=
zeBwK-GGD>v#;+T17RU2FXIT?#yq5DPC$sNzjns+@nai(DEV8)D6*<{yYZLRTRY{>6
z6SlIhDU;vzGcZc<SIOedEi2#8lH06&?V4f#KR%D>W7{5XS++*xq=M_-zZ%JMe?>2x
zoa?k~9fO;#T*>=`eU)Fz9sJUhY*kNli7TIo_S=24Jz4JW--(t#Bz_xsMFeg=cggOW
zG^nW&Sdx%<x;<ubp)B81#mjo1U)<$2=v0!6O8a?YVR`cx@2u#53Wc%n53`;y6y6}>
z*V?gYt@XR7xtyI{7rHD2-QpXBElX1@`sKoO9vxxUoFX?t$&bf@Z?=r8iaOu&JgHmN
z8<t8vYGHcvrDeU{Q;Fvfr3&Qd-Agn+(#aXIG?Le4lgjgj@v_%G9&BFQuIRTyw9U`%
z;eqoFTq!phW{C#9{<r^KL&mH(SNQtguA5XX;rH9F-ec|W`}Y}(mas~#uXr6QdB`&B
z%kMKnzhC^{!JOnUwZN5c#+^>VaNDOFo(ONwjadBux~xH`bo&M-`<g1g*OR<HKGY6=
zT_>o1h3n*nr7W4t@+U9fJmrzI%Xz84N`5{EG>S|@cCTTvSr(IcYTC9e#%|4RZAW+Y
z?~OV*%Pep2%Uav5r#`I@KN`lWVe&w)RE*!WUoQRjw}KUCMWRI$Ud;J+;PZx)Iumwo
z+|Hh3?X$6zVUwwkijK$IhJIV&#~oeU?8=Il-LMLO(Gu}HR7ItG-S>H=>6!JcCiz`!
zUrqF0Z&NfY=}3ZDYSnM;hR-j;H-_38wTkSU6>|21`W7GkTTTmWpJaekvMU@nI%fAI
zjVW)tulF_4$eu#4IkjJTg#R3NJyw0{;I^FDiL56&>*EWA4t=%Z;TNpcz9uT!(0*c-
zv)9qns!P{hOxAxB8NGGgi3!u3#AWU&Mlq;-e;Qs<eWOh1ci^m2*AQ)%#os<p>`s|B
z&F^>cb0%)zTcVM*j5X5nEB!m#CjE(d*xXZ)EWfwNHB6hOb=!H-qAAfAycTu@m+2W!
zRo|+;iQ%N+!99UF89B38eKNcKV596@Z=KB#YwTTbeD;txIJrP;O+i}c$H21R8)WBt
z*RZ~kn#AyBQsk-C$Dc2Jalh}J>OLm1g^D$*59?d+{j?9;k^3xF?#pxO13JY_=gK91
z@*V8(%x=BCQov{V`i(umCTcSF`K_~xc~n@lll}jMsaH&=1=?>?wv-GKV`scO>3e;^
z{Jb}d=O;_@DqId*P~nkWH#5}uNkSQW&Sbl)dS)M`t?p9$L$o(t+kR6h+fqKeH`S!U
z_g>=5T}O@^*>2~rk;?v3e<!?yWyv0AE}8ZP$0pdi2KAc$s=sT`Rm4|xar3<PPaCeK
z-BeSN&i+!ro4IZOgyrtXD&Ad<)@9yw`u3K<#qV1W)fIGo>J-?csVK1EYuvSMH^236
z3tYUPY1u!%$r^2kGOr8mh?d{oEA>}4;8$>ft`^IhxS99N7UeH?t7q+*drW?bJy(PA
zO7Ex5Z>_gf#b>o%DLi0z=27zUrFL(>{nb1xzii(chR79iEyogCye`>=y7DbprN7!;
z&G#$!S)-!YTeoi1pC$2ZV&vlZuc=!Pm3XW%|74cCGBY-6n{LAX;1r>y?{7QKIwfn*
zrOUQ*mFdS-w+y$Y$@f)$$!Dm1Rypyj`>jge+1bCJZ8Za(SpJmD;eOotb88ci<lcXI
z|Cr4$ZH0CIH@+%v$qYF=?Ly(Ubse?sfBkkcg-s0p|Ej6%W5DIt7wY!zWhywg{^J6+
z2`<YY>)Y5rT4-`CQsc(D4U)e~%2l5FY1XvMyq4<9;@!<R+c@5`#O$=_haQ<7x16I2
zJ#MdhRdAzj%7vRc;RjUizKjp}-&=IizgBup0sjl$+A1cuhsn-nlcT;{h+jQ+uk7&F
z3paJXmwUKrvnO_J7ExO++cfDm^EA_6uJh+L7;N=9aG_K9>wgu4+bME;>o*@_Xy@pE
zb98&;Pv`Fwj$|au{jF_1v%#5Zd%DHnEOR>@<Fia+vwfnYLbrHv+}!xx?Bx98?uECb
z^?N%0F-cUtJN-R!rsvk{w!DWj5?#KCJLp@zji2%9-I9HKj?KN&uAv}jHq(q@;-X2H
zmt9o#i(38a#_3g)kC(kWy#Jnj<T4Gmg%t_%hmsUNJ6yi~>qf2I-~4<A=l#<c*NEH~
zd9W?(*s-~vrS`7fF#Ya6r~W02&hSb!RJR**y??#UDdm=Gh0UHNb0r&u1=b$EZ4Dk|
z34d{}U-1!}&*lY>8kMsd@~ks7F4r>M3#<5&<to(25t^@_aJPS^!qhMC>+gi$U_C4_
zD^zo3uvHjCzwQ4Gt}mZdednt@koNP|!quOI4Sv+dt_O*2cDiqS<5q2sSk|%ddz(0<
zw!ZuSHLrEa)!MImI~p7lKWp31ZC`Wo|Jl7iPhGm&s;G47rTlfS*}gMpxx4-Q!BVr?
zNlo{|iIvYc_U{UdDANq?+xqMG{XeO#6V9fH%gF8IJl`mLJwNv*lN-pLOkeo26+bjM
z6!wV5d3+Kxm?@Jp{kwv~=QVTJd7XE3{qihsTZ6IR#s)vN?3$gCIlik;JpHDWqkGok
zDVN7A1@-lwvr>IsTupY_?h7)tyun%VrSN2}fp<pNFK<>p)(pQl7v1aQ6}9bVR9t1e
z{wATT?@ic@^f^VWC82ybu6Vy%y`9N)<y+OMb59=R6P&IoCYy3kc~OI@(!z+9wx3VT
zao=CG;n!jjPPvtfjy9D>6?)y7b??RE_crZuypL;a@5D>U$E)m#bunrY-Q70b?AMF;
z4T9UcA9@*<yqj}r`^``LZoOE%pQ-F;*qN9Uhkj>e-^;kWIT9?Uc2VMZhPS%NVrT#C
zTgNpQ_y61H#GWtNFSDd&iAmF+d3rb8<p0V}sAZH;3tGA(L1fS4f3n*^Ykm6P6rP#i
zuuxq5&?Jj$iK_=SqCe(}C<sr|*Po=7@Xp^T&WB%mw&|~<+h;adI17fk6i&L3x7vEm
z_Rhj-!lE0^`c_Gn<R;a(uTwwv_?B5_HS3gf6ZSAI+N)R4Dr3{&p`{^Ty?UBM^WTqY
zt)9PL7+z63F?Z7Jb3*z1i#*#RRx>!ycR!!#k}&g}-jdgQ0)O*aJAeAe_flu?q8+6P
z*5*@{Zam-TmF^M8xOa-R0pI%0%j;Ii@-Oa=ddYLrTEY5HeC;Et7ni+T-rkrz*>hQ-
zQDI@o*<bDlCg^{XnJ_u@W6?dgpsns-!Vi2-dcI_#&M9k-nrk1w8eH$$`BeUW_=$yP
zKW;h)u>{V&ar>tHlnsA=vTg8>I((u}&2HNX!!M$F?xhA7*QY#EOPI=Kam=2TG32qM
zJloQXTZ4=Wg#{*?JXsuY<yy|{<(^NcybLocWEL<qGcUWotNrEKXIrzU-C%mAuPeNq
zLDo!PE$50~f28vA(}(R+<UwO}R-U1SWd-UL=lc)cRF6LJYia5ukp-_0cf_W@YFqZ`
z>DqhZ%iFYPTCjTP%FdcsBVxMvgJahEtp_KFWd5?qS{xbks91i}VR^leUYoD{&9UHe
zStZCRyun;5f$fB1xI^Ui7aQj%-o2IJaW71w&%uA1ZtafXJyyBfOzM8^wZG5MRdptt
z!{xz`S@NvxZ`P@{ugNu4a<n!2+VP;`*trQYfettP*FRpuW~!9P<Yvb3Y2svtXIIrr
zFCO34Aarp*ql=O6v5B0sQ+eMsKi{%d<Qk~KG|&I)6ImmsK0n{=uFUhlAMIS{rlR4{
zlC)>d2g4+Rwpk3<YJ)AOwuDTxShp+g$+p7!hf9pY4qWYwHIIDs`Q6sYB-W074dSz}
zKampsl~8U`esibrg|trf2bJwloaZdNXHxQFVpAP|#^xhct$H7`CpR+6Td&TzlK*as
zk7({x)p-pHexik*dzQ=<P0w5(G5h4Lu*gT89W!funF`fUnwW0eos<1#W@*t>)v*4a
zC9Qvg*EPHf$q+Mpo|x9=liGPzxq0HTS`L41nR8doUu}zdB)lPFdc{?@hqq5mD7!A~
z`0L2MA7(R8O1u@~cMvpA_+`0$-u6Jxp4g!8EIHRy<FsAgP1V`2#xifiyD1y?x}AUg
zcZ1$XCZ3vh*Q`K=R;$n;^XXG=wx5ffUcq2?iS^@D&C{$0rfx61ZLJ!-$8Gl!Zh;=w
zzW055#R9Hyl^?w(Y!ETMqE^Jm_X*qkcQGelUAz5sqp@eJm8-$3v{o;59f@D}c5die
zn`teoWPE!?Fv~78sVCXxr=D&+b+A-BYM!SeD4R`XFgoM-sw(l`=|p?g=PWvAt_BQ>
zW+5CN58rl}Y{@dY@l`*)ukfN~)7KLj=F>71POja4@8P}7^CjFRT?q_H7P}{xck&C&
zo%O6z&i1$PY|~%&-!~W~&3Z3XpKh~6Jci-)wC__Tx4jlQ$TUTJfq5oFfob5iwbL@w
z_BZ<p@;IC?SD*9f+`~C%r9K+*oo8Y@EZVtxT|1lVrayd|5$h`?i>=MXYwg^6|8Yg!
ztYE!9<2k$8w=8wf=-lTuJyL%~1Jce-(2P7188u6yqWv~=*_9XXwOzvc8cL?^F;F`m
zevkL)x#KG?-e(M4uxw4~<Z_8;3OyUr@1}<>6b*M_bn2RUc1lILN79Sh8QZ2YZFeYi
z{bF6R(75a=SHj%<IcAl=PrO+iA0xOm_tH<*r8A96(=&gyU!3$rcfsc01*Yp4UJpBR
zy45gFy-?}b+Y5(<FWj!(!7y=RUE#m2%h`8N`IvNX*>9uI3+(T$xp1*;<@I^28_tD@
zmbh+{wszUgA9_C7^2nE(?;DqU&*^)+;{F-Nt5x#r>TH*+SaR1`V1w?;y_>F1ICJLV
z%i0xIT;8IIN8kKX_Wvre-S>NHmi)`w9rqOVD!lB)7=4Vdc~^h(e0ITRFaLGr=358j
z<SjfiIOfT#Ufpf+%Krb4`TC4+X1a3!$p8PVfB)Z)=lB2nyx;%8Wto4!_kUP_?*9KO
zx$47A2|PbIPP}1_e7NVuex2E@_UjqWi+|>iS^Th^sgJihZgJ?9WSjL29XTtODH^xE
zk!KSq@B00gH{peHvPNnllicd#>d`?j{FysC?%iihzP`<Ujc&ipSB1M}y)VQSbX4y!
zdVd#T;5e_Cxz1z5xk;=x|6kYt`TCD9S$<}#W%Z8W3C$PIW=mbz=X^)=;d=7}SNvaS
zJaQIf+Pvydq4Hy0hlsA-%x#}<X~Y|4t|)9he(AX1cc+I;ElYn`D_D4667W6AV8W6e
zS-SoIsU5+W{#SoKv1npjh^F70&sx_$Gv#fwVT@c{&phL|O0UYLFB{J@NXotGRouxS
zxco?Y!@5(}PyR%&@LW6b@=LqzNsNbr?lEuLyW>PAv#$T!<ohYc;tKDk6tJ`Ww<v1m
ztG2h?n|ms@pqlYg(7jrb`K%N8qNJKO-~GKy^|F}4I}y+=WR~m76&;s^b?4mCc)=|&
z?UUGt7eYH2?|C(yXz^OMGuvbr!^7I0<?jRBBIlX)^cJiu*f@8gYr$Dd9fv3TZtXtY
zXgp!Uq2pnu@iU|TbA5QvCQ#_Lm$|HI`|H}p8%y`juB&-_U-9>g)7A%EK5o@}z;eJ-
z#X0+isrMd+M9r773aMNc?Y18#1_w8ow-+-W`h6;2e&*xj4-RrAMDwNZTmBB@ne7cv
z_6BWG5xlTobf4x09S4^$@9u`Dsc~-2bXm+9<*W5Qb<6KJ)=QS|VP2vq=2da$hU3&L
zmNg~6PrRtCVV<$Xl;{0~<-Suq8xDWDQ`dT;wzXVa<?h^5!ma&t($}<aTlV%?TCd%{
z?ILs9ebcr+`Z3GT`isoB{u;f<^7(dNNfC~sB{?l3SN6*2KVo|pm)2|d@A28rv;7A*
z_I#S^9jy1Ucjayd!HdhS6Xsv-x)&`oQ**_>h8yn=K4v;HchdWY8F_lUlu{y=uXz4i
zcANcCrb9t>Q`YbQ_dK8F&2t&4PnDr*8#7BTgp}TT@>cYK)Zd@N;ttz(KRzlxb6RuY
zcJ2BX@0pUg4Ng{8u(pK7KH-WqIPzop)oihMUuLk*c)Dfh`VSJaCcYfKiCZ;xRqx7Y
z6tm=C-%#5pvZFZi(z)*EANmgOWJuI}tDBI|`?%$2LR9MC+N>K)N9Gpod#9c7>apLX
zo)YKsH&(fK=89M`MlQBLKT%tOP1TC&nVqSQN-b;7eZ}lA&l5{nS!#C)&X`qu!f~A<
z-*H>PEewUr=hPh#{cz`mZ<U;;*TJ3JwG=B~SH?7a*cY>h(Q0D5vrB8Pvu<$d@;gW3
z#1wR%?lE20&^|}+hS`(a(rNcgT-R})WaaR-)IVyiP-%AKfsEzdDXXOaZTPS8Vc$K5
zZ<axCg8Db*PSd{hPGm8w$NSg&HqPyk3<!($o4rRx{{ES^=!TBqx;x($TkbD4w6`#{
z4WHT{yME?U)*Daa_PuxZ>R;r)>dWCoOYfKS?B_IG*~MS(uwo6Df-Rc~gWf*h${(lJ
zTs&@_Flm-e*oj?oPFpGuJY#>)z5Cnq{@=&^oS2UOSgvqZ%F|fo`@)-&ivPH8TK@TW
zJX}t!A+2uN+=U^xZ}&dm+vBtQR{MXWd53rIObdImeSL|}Q{k2R?RpvQL6;bgERjyF
zGShC-wcn(~@aB%C)+E=5ij)4o+AVxv{${>y`?T<|BTQ~#XPaiowcW1x%9lUs0r!SA
zYdY9U=CmI9^+_OkwvbqX#ddMq-!Bf!8U&qbSn5-ixX}Ns<kJU#!}GMYlfpYBck2|n
zRz6wezH_G3-nw=^`P>v&lLhHdT()U04pMKP%l=^P=2FI8Q$;T}yx`7?QS7uyc)0%7
zi`1&QtY5UXljL{GeLC@F-;MQ?u5)eA6gyt|#kMn1{^sU=F;>jXa(6Z|^v-K$?a|gw
z`kt7UyTwcWy1*>i@>9JJ_A*>P)fHn_))jR0={8G~*-vlGzu`0ge+_p>x!VDaSF-;C
zwD)Ar)H|?glhQZYBrCq<r~588P2SuxQ`q|d1=-S6SDgf_B|99L6xc(34-|+eMmOZ9
zy1v=gXe75<Y)y@PRa*AW?rHuG*IwLbkdyIIO?HZ9zY;l7dwK=PD?9fc_Ihw<eUsT<
zeV!#Z>r&4x&VSF>9?~r$`NOq)8lT7am&dpb)~xBMO(~Fd74*90b!yh0Y3~<Xi6z8D
z3UYTG;XhqyyNAQq^~-j?S*$a{!k%n8q|$$;?D0b>{sXh;9cDVCtzE=e@-F*S$-&75
zuVnAB6pJN9Mov7vEi)*7*+0ci$J&3LGWVR%8WA3Lq%Jk(am3!#?L7u9VM32j6-R(P
zqPIOx*kLBST&me6mOFK+DU$#Hv0Vrj>pQjei%`LD%dH!?Yd^91^?^^oQ1EqiyUE72
zX}zx*vl;)M>Wa}(b>F#W1^X1$X!GzLe@{jHw!c>+a=x?vipkqgue|Tcb4KpvKfCu#
z<riD+qMg$VSsz^7yF;mz>zP9RF58VOOXt69=#z3R+Ab6GFzNeVY2%FypHFqg=&y{c
zOgZ<u<ayfskW=M553xpsg|Rd=ujKA`l!{~0E4|cy)ph^b+X4Eipu}Tv`NjvPa=z4u
zsZ|f}?cc+2`&3tkgGl(n<7Gm;A0Dq@I@?=g#CX$v{{6KR_Dl@-4}4e?v%Gh=cay%u
z_DxDsA9~&jq%3S+=CRFUJ@Yr-tGSH7riyNC(DdN9xUE$9TlfC69p&{p2R49|-r4QW
ze&!S3W;yx#$6NFd?AW9vC6M)JW`mDi;lB;v__trz$o^uhy@)}P`AGkzmxcxJuVp@d
ze`hD_jPNiQ<}gLuy>omt7e3pui2I(KiVi5PNeKj}Fjky+!&)KaecSR~@b@n#+{0X$
zzcFU&tD88!5t+N|KHCG68xuu0Ht;0IxzC?k>9PE^N0Q9#-m`YU%o{>qY3Qq8;j2on
zD}FumaAWP4ciT2P8ZO##@PxG4TEUPvQ)G5K?cb#IZSjeZrrWrs`b%EbN&nc;fA4;H
z#k<4K48pMw7k;(b_o=S6Fx7R<(k1skpI|&O;a>E-!?O*AxeeB?>DZbov@71Rf-i?P
z;NpwiTfZSmEv4Q|<e#F9|N5rmw|Qo<-jJMB|NE!;vdCX;OaC-!I2y9I?PIvRDB@eg
zRi?6jhDU4`u^;rjmrJa5xgfpq1?vr+gn8OLUxHSPa5x7T6(-Eg%imiPalnZ2rvDS`
zbe8asI(iQ739kzd6<%v7T|41&%I_V*1s1bU)!tQO&~wOVJl?kU?`t=~4a}C7D`nnn
z+&aaue;@O?%558G&k|0xxxmUlb^Feh3-k|UF#f*(=9h=#hPRsY=Bw<HIJu==RE_(^
zbL%BK;z2AGS2Ef*$CpggN!Zr#cTV*~g9-gk6PbNN=URC`JloO2nxUIo=6Cq@bP0bh
zlbzyxzm=!|wc9ey=uv`P^rnT(+$Qe*Zz9{e%h#>~sl1oQq0Pjod4kL6p47T0Iod6Z
zXRZaY=}PGp$muZoSM|)+ej>6}cfr;vnP1u~{{DEbc(=gYiec-7zg%mV_AHj&F3aC_
z?z>U$`x(hw&eo=8YaX6hllrhyF}i1ts#JfPNP(#P)`n|AZu-j4XR;Pf+HlaZ^s=(h
zqibI_ZJi>Sx@#YQ^nJ6mwypa=Cx|cDI_2Zn3BAd@3SL#MJu`kz{d{@b#%V_0Pvg|q
z^;TFmUNB}nEevwV;;qFuR1G_s&2)lR>@NSM?~tvjoZM2jEa-Q_?^7Flv{!Zu3f?Y{
zShJL;zu~cJQ_gI=Ikkcn=hnw;i{BaH{qdEb<YS57Jg<{`FH{+8<T6HiOa6QrKDBs)
z(#lqwc4e&txw;2Lvo$BrXntodSUvIchK?iW8G3$;MtMuttP7v+=U8^6yzKs>1<P%X
z&x&Si2A|ztwr}Bd6YnES?rmep?`7k@5Or!n{LarelAiZWS1evqcINQH$cJj&8M>)U
zo?MJOet2Q~&J}ysW^b{}d6T4@x=SLm&HRFB;g{S)S&Ml1EpH_0rn0ma+?u;XK_um9
z$3ah(?tCc*^@Od{j7-?#Vt0SxskyPWd3nrS?w1R91gu?prf1^xlX~%fVO?pxtL(h)
z)IH78O)YBi4xf~-WXtvMq0h`kqDlWxTnl<uA5oQVIw^~NyKm{MBYx5MmqmF?in`{#
z_@c@w;2)ir9rkQCX9LLf9O4#x4t7glm(0rR?JwtF=dpE~k&#<R|3>wV8&_Vgv-_lS
zZINh_G;2t<=Hu53>+f~u2UmT)rW^Tnm;SHfx}|I~VhwL%9<hDDQLK3?)ifgXcS-!#
zX+qcM3e8+!XcQnbmwWSdo<(n?52Wd)s$|E87dzMP^l~nV-RHYi_L|s*s8c6CHiw3)
z3Z85hW!fBklp}5P-S)Flr!q_`ruyxClf2t8BPLkn^<mYkYnCn%UEZ;zVE>X2eCfF&
zHvNB<qrD|_s>~xoj=yOOzO!?~d+q{|PPQsf);SYJZr^K`n$Gj?PF?G@pf=@`ol=eR
zu2+O+X|(m_Zceq{ou;e0*19!Oipk%?SMv*_F3XV{3qdLW<g{1HNfwVjE!bRgMz3_s
z&b-{6k=~w*H(x!;lO42YQA=9kHKwM}=&KD&R%IM0TyAo)kELMhg*9hxX=Lt>cF5KY
zj?v}h7h7)o_^D3S+vMcycjrFh&({2$;cv88Sn9EF5R32q)8=!(fpTL(ORV^Hg@e~V
zFR<O>z2|Fg#I<V;+KbMwSu7%WhVgz%+!q^}?G4w0p2adUB=T=i^SXLJ^Yqzg2_RPn
zR<~#Qlsm3?Ai8;$d;P4qJ2#E;6?j*?n{v(4`_1C@MRPb4w#~`}2d~7z<7t74U-K+n
zm?PgF{u{n+nvsmB3}0=G(eq_XoXr__+1ehn&el}cIN}<wGV^pB^A4rUzq>Nu%WrC0
z%Gka%VV2GT#~CN~=5JZKeot-txhSu&d*bK!Xvwb4=?FV_=`g5dm~gsRa&4&Hv7N!E
zuGrf+U;b-XaxKX1M%SAUioM~J_FGml`|NkyzOT3ZT2NY^Y3X}zQS+BhS(hW59`D`F
zq_K59<MFvcPXZjQ`IBCRxK5qlaP#hR4Lyf!&Bd!9w+eFhhBJJ9eqdL;?-c%(TJP5^
z<@r>tzpX21weZXx#~GJ#Ux@OGEc8lJk$3$pw^qQI>%_Z<1s|>jrAe*t_+_WEbVKb0
zKO<Aaf|`8!o6+8qhZ1yTWn(vJcI-H)bNFb@`^E7M*Md%+s_iVhuUM1AwCdl}+Y*~V
zkyDZpsAJ_3*3y6HN=M6Q*>|}&qrG3UI=s4NaJ{s{&akBI*#=9ML*L$Ch&rWkW)aWy
zmU*h1jaCQsSK92`vvrCivyE-UxnCdlG8&Znmx=xT-f%6b&E0@6;)}kyX6mxYe;r>l
z<)geMZKOQBHhzjtb!Oh6S)O;g`6)*T?~VV?B0m?;X)pP>$S>(Y<ej=H3A(8jEGIM`
zc271At6<$Sv&`+m_S*J?QKxJyW^YkjB<9?1tiAL?iH!{3!6>iLLN9$;!%(iqj;ot$
zZzQc|-7?Kc|AU*GfMn*C;t!Xatr=c_JHmG@=-5R*LkGUp?}r|`tbX%J=1%OVLdGcX
z%u~Nt9g<VHt`lmhaxDB_+AUAns}0>v=M?!gn1v0ZqxY>;)p5wy%so+DDagpO+r;bL
z!Sf!k_DtXY(^-Da(jK;^&)UCrRtEiAQoz~$iGTas(k&Id7XO|p=q8@<Dn0o2(N()U
z)qEGDPW9ODxuZHkAko@${nT^0n{78P-a2Kc?77AJ&+nbu_CjO51H<2aGCtoOn9IB!
zfA)&zbCg_J*Asqi+s>DkIu6O2FC)siRKHocYZl&KlllInZOs%3-3L2@W8`z*?{0_)
zb>3LK?QN-;LF9p{zmsAari*L~(pki$)9~=6b~^WtO-H^kYHU*Mmq}kU{ZI4Dn^Lv2
zj;_{uC-e1I@cAyE{~s2<y?a}#c9!X{J1;o`E8-1TSU%8vtNq~KwHKF{Y%rD7_{SQl
zr}<Bx-|TmL2S`w3&z=oVoF`}8P5(SCEAURyt-Wh6E<d@!!F)}Ns1L8p#n`Cl56k3l
zN!13K{&LFP{Q0l^r8CiK%n3UD)2FPxs2;lbd4$`P$15x*{x3R{A!2;;TYrvjs+mB-
z>aW|>^p~D7&{bX99_@eq#YIPB9oAKOGx^ldJ8I2e!F1Lv^;K!FT*KktuZ)`o<2K05
z*|IC4@<VP(uUy09yCqZahxfBtc-QVb{Nc-qt4!;xTU(vhOqnXLar*q0&6_uQh;4{G
z@UXTrQ@_napFbj`;Z@Ybf7dRXRxzxzZjA~(A^*+n{HA4<YTkdhHk@PP^X{A?)w*Fh
z$C<R5J-?QlYOc@z!tiFAlc=(y$)`<Djf+;6SLD=6$1eW=SexIQ@#uu&8V5)HMeMsn
zdLA9FT#@~SK}N84T3bzkjnk_mw_a|szp|ue+ccw_I!4Q+r<i;7A8MYx?D)^i;1bkx
zQHPsU>;1VGgu-+c>{;w?MxE+-xIi(orRrSegN5B2|7LQYOwZPQoX@s;i&^5&hs;Y<
zUOt!nk>jf$?JfEJ?P~s{%1TAYg)>9F=j6`J+!x_JQ>i}CXtut7)_x0_rm81@kLg_t
zy0b|nOnpV#lYJ>R%TDRM-CTS$>eP)556r)u%$6~3)JWK7>Nu-@_r~t6Qv#>DZisNb
zG5PG2JugCE)xFmd&DKn|-V?w*RX94OrCR=TMSHZ-JpF4yZc|<^VRKk|L1mrCoR@Yl
zR=o+&&`sSGxo3vdCEXw86MlG|dU$8I($T0>37dP|riV}Y+2>L2`%!yI<Tv@FQK!Ce
zEI1qT^hlY|k1Hz;`_5eYwn+b45SwCCS4!kI-&Z{gER#eV&wrB*%hsHHw&~3r;oj#8
zDSM8pripA}-7?L{%Q=DfiPo)i8@P^WzUIoP&eV)wyVS?bTjbRH=_kY{sclZ$yWx4)
zk1XBP4UrS#EH`;Pcr<0<xk*~=`Lj)HwoWs8UAp}G`Tw@34o<YS|2*-#^zJBc$s94R
zn<p7hzjxa>ecQK(cHS{-m-3jMUhRF^`B2mLxJfgwCAa?0a@{)3XwJuQ`Bz_8DW$(%
z9pr5h|6<#em#eo<+3-kYrq*rgMd!0q=9-;+Tb*CKb(+yl#(n&S4XftGERK7g`)!`{
z=4nR7t9^GFojf5h?Y_|dQ^(`3o;A<bY(C5M%|S%UemnQR!!lO||2n6wjP#Z~F7)&G
zr$CM5Ug2!Mt)2X;rT5n?J;N=txqd^J^RiY)wY+Ip1X<rQu3gHb-jU=l6lU<^_{#k`
zJMEtE&)zy^;#-H~PLsOp0&FG)-%iWdJR5Z?W%G}9$NF!Tyk^OFopU4Ib=KA?2h$Qa
zhAv^|lKIlJbG`BN339JapN%?o!avwdIGSVfBh|w%7k5pU-`2Zzie$Zu<-WMsc$RsG
zcP%-mzil_up+w!(Bl05dN0V7k>O4IEdXfD%(GLX?-ZOKi*~N=oiH}g1cpSW3mi2dR
zgdktGW?`h);Ya6Z^ndPJc-e0Akrh(!_}U91ygg6<Zn~|^+@!*wzxlA09m|7<8>Sig
zPt@?8Qu4e-Z^w@tC*M|UgRD}?Hq7Lamb|Vh&9L}UffD1!;^!dY4Uut;HwDgheBRfd
zmdKb_91qfO!_>9ND?8%j*7%^z+9~bpb3o}p=3C<X$x2VnHD2jwF<SpOkhvD*wzu!|
zb=NI5JSmyQ4x(8>*3o?DqE3C7d(q_Nw_SFprT%JeR#o3SGjT5iC@pXsy|oAo&`1g6
zTjv?mko)_@IZ)cJxY+k(&R)qdpKz5MlC9u2$gWDCk85oBXIePU{U5OI#9`|#(~Q1{
zCw<TmK0W(GLU+{@T}ge5Y|Y21&EKCcEpEKd6cOf{JA19S%p6dRG+sXEDB+NCN!~!%
z(eVEBd!VMl<g=HGV=WSP7X*JkrFu`TscG{xqeHAE%Z<-A6&u7Kn|p+P<Man>Ksg}E
z;-FvswNS47gQXTZ=biIGS&~WEK}VHUb6e4sQ$1g|E$`hvZBn>P{LF2i4sAbJH;2bl
z<=FQAH((!5ZIU%NI~wS*AynmO?m5K@Q0^<@(0%y&h320n-Tx}*H}l>DB_y8z2H!UJ
zv}f&Uns8t51LwV{QyUmm3}@J}-oDo@Qk<K8JLhX|)4GfQ%}&dQcs8tj7}qz~coSdy
zhIB!e*v0>Ir`gAKcyHi};8FgmR^GE@?&p13VkN!*wnzS}sFeJF<XqUVR^Lj#hl<Yy
zAfgYrZa%x&vbm%!BX!*emOH=N9k0KrpZ%2o;-QW|x3-#po)-D<gMWD!#6tZSXAI-q
z%6>e!u4h~-FLy-<>JSE(JKvK`9_&2GzntOw^Mw$_Aq}g9UI(rbmo*7K#3Y}ZeR`K0
zzr+3T87h9qSRB~y#r7A!Ih^}J0#wJWR-E-Rc*%VJ&frt8Vm?&61#nyoy0c-*DL$vP
zX%do8^zwZVJU-aWdo3uf`_a!60{f+sKi>Fj*zCSvKcYQB_b9LT#2qb*oO|v~_IWi|
z@*Jq!`lxN`96gTZZLOC@d1~6Z1s2V@T`sY9>5fFr^aC$<D@p3>g(y7locqnDU106f
zFK-<x|10b&_BpoSz|>v6X`8%il=sKOLBD>e^NFrvQIX7=*Iw<Aty#x0Rpr#G;wjRz
zPcGD`*E!JczHQp0_N6H=OKTR!n+O@KT@_ht!M}K`i2bd5wzIEV{Oe4Te!kLpcIA94
zai=ZQ9<l#a;rRcx^u(0pl-}@#2G9g(yYjTe`OcT3X=aK~mT}lrdv{(7`m;ggL`QeM
zhE2|fbD{q~ZF{KdlC5dG^0!mWA#W|ut2`@L-*jxgw&QKMA6Tu4%kF)-TH!C2-SFO_
zp$@A0j8|6wnzB^;v8t!fw5|M`uddqEa4qQ2hA9_Z&5mt2tg?8^v14@+3%5?$pwqgX
z_xTEr`-(4?yxZ1kq>`=acvmxU%10spxz3sukFVW+cQ{3NX?(xF$clwYEuSZ_vz>FD
z+I;u@;S^of9_yp!r3W<{J{$_0^>pEPGnH)3#7M6vF~$`e0ynAbs;ZVQ-^8$XX-lGJ
zz*|q-!;;mR!9Q=@e&pl<a*BwhjD$^^W$r1Fn;uUSZ>MBy+FE{mm9!#6jXUUmGGEf3
z!+$GhtX<0Tv^Maxh;3L!{9FA(#%Z-qMk(2v#d5YaQhx+)?UfE@SuHqqu`Q@~b4;ed
zWxnAjZR33Br2(NIZwg5{Z<}VM?jo;pym+77_lFDTeEaNI`9tGc(6c+y9m=O8+&p<j
z=5DX-V%oHIie>&4&rffzT7BKlUC?jy?Qr<EX^Yt0mua*fx=^`cwc6Js&Ad0GPI<iA
z$0faf#;T;~*nnnb$LV)w#ci8r<hFC8rK8%SpzWWuHEr8JPu$LXabbjar?#J_MQ+5_
z1CK4acjQjxJsNdt&b5$}atr#Mv-V&2y!-2crAW4>^2*<n*u-aQt0ulHnkJ{aG{W2S
zu^(gM^4iV^Wobz()|O5BBG4e7t-0BCV}Rt8a<1c7<g$cR?M_|$(zSJpiO$nKOANkT
zD35IypJMdcXm4(zqDZ!8W+a#C!-w)k3HKFuy;Zi}J~fE*Xq1=#t9=&vk;kr_lK5F{
zf9{RUy@%JPb#I+=aS_MTel2(VtxXQWGqzs*5@5;=R$TO@a;nEX*`gT_*R<EX^<5w3
z{c>k0pWf2gZZ6aOy+=ho`KJY~UAn}K(Q%Tv<59osQN1g!p8L45;abqA9l=twPo}<G
z@nrMu5JRWJ#ND~8wob88`lWO<bi%?D&R@C=<K$e-oVHH8v{`n~i{xpS*&Kgzdo8@2
z`JMmg;VfNMes9OXh1GmEsgnY1++6nSrnY72E>$mmcuqCTBkg3RqPX>6XAAG>=ylhE
zK5dv{yhcN)_1C?!JtdvzYj^1WYR}SD?N7UR#?CfRUMzNT(42;nL)WIQ2D{*L<R_!U
zQAV>pW%>R!)(FkoI>qLl$d#$pA5Ii+(2(_0Ikr81XQcPZ$9|qZyeAZ5JEza=mw5hg
z8jI+xty7F1iD;;C+orMfuYN9gH{$mCJ8PCsDO@hH?Q)?_viwcK>AKr(k7}4?Yo;F2
zT)zEi=$z@IxsscW*b^#O%`ydx2BsZO{KoFuz9{cmt-u|=vr%4><zBCEt9h9VZ9SHL
zKKYKeV{4l3(jJ|Uid_{RJ)4;#Lw4yeYZu-f>8<(Lk27e48;fhD#oD{<?Zwp=FQop~
z*ZnNie>`R7CZlD67j3qDx{-MPVb3l%{sSNR&X+$^z3i8({>5``;Ysn2HQX<B9#pjV
z)iRd!R$e@QPxv0=<#!Voue-=xu*X@Yj>)#2Y5qqOzQsM;OI;U%L@PGDG_h0<KcLtU
z$v^vc-fVEQd%3UL&6Y_Ic9a?1t>{gynQ*HcWLe=Y85s#rd20{l2VB|@ZojqnGHY18
zr_JK0K$5Qd!bLYWTuJWRyTt#BX%$0Xg#HDi4e~cPGKem|xu|01nnK1kVg*O4TBCG)
zCZs3MeD+c&k?lNanB~~sGm)<r9n&vr4O}6o?7e62l0}=R8NGY@d9J8>qN{4~b?svo
zU%qeCF1Z$TY;VuM6*t`f7IC~;=%!+G^z_9@Z^`dQn*#TIy<j7<D{a;(q5Rr6FV-yW
zskU6;WhiIa+4dylEeHSBi(s*tzE@mrI<#U7vu;nRm9w_W)_fet#(B!yX_C@?jR^l`
zc@+{&(sQ>?snmBqzf4$a@s`Oe-1EMF{0JKG+A&>Oil^^gSI9PVUDLXZWx4*+>AI<R
zPOlSRRmggvis_%s^p|gSk4Ab+p5(mZ!vE0Hqk3|%adhB@`*xeQPcwR#TGI2yNQP72
zqG0-}=sJtsJz#5M4tpCh+iAL(i4`i@#4z5AI<;fEfAC_#x!Oy(nab{`^c-K#d@b5r
z^Kg*X>&g#@ZcRwMz$AEEr|`?Qpi?`7FL+P<vGrtaL&3#MMrVJY2?B|365;z=Wyz_2
zU`AX|VR~yHXxzstY47E^$%k}G%K7em`xz)#CAWC{w4mwi-qUZCM`qVdSvvEZ!8?_z
zY|YXLuf-NxLX&w+o8&BI<<)py^L3Z%@o)PgI!)<&(Y)&!U#geevSn+QUR|Pb@5if3
z=Q$5nUwrU#F-x{)Y3i+5@4IV@_f9^&zIMl1oudi5OZ$APRZmMEpRUoWc3XX`@7?1d
zu?T*nR`$a&Su6`*$X;E${r{<hQC_msnhMr=PA`~tuGM+6(|5U?4bv_yWllJqQ0wt4
zvg+)faOvvPs(lBeyuSaAGicK|v*nKUn$t=Z$J;*}M0jT^Ycs9a{(jN$lF@9jgS+2N
zmN1O)e(AYMeC_HFb!n3FPI<<L^B&Lh5NqB##Y|`ESCNB?Ia(@CYSSfZ8E=0!i1N<-
z<=1J$Z`mSo>R@+$#hc6L45Pd=GntC~WF#iZ7WnSz;y;+&b1mpr5(}&PQlA#_JDRTx
zJox`5Zkcw;Hn@gIC+<?6=bytr`A&Yj#}wtAsa&s-B|FFD%96e7EJ}Od`M=4~UAmRC
zL&W5B`x5R&>y{U9_$?~st=PDyUgW%{WvCq+SL)^BhJ<r+8zK%I<yaIZI(gUJ)K?)4
z`}of$ZEaB2W~!Rw!~3}NtcFA3t?zv4IbsD*_}LTLb5mVi_?|I(UtB7iV5Re*Bltp~
z?s8sRBd-J7wjNr$!_ns)6W@F7Qw6FQgbFkizRg~<D(Ksl`!n{i#zYF5J#n_??eB@}
zzPj^6KzyHO#DUPgt@($oJ}dr9EX$IAXYbV|RuGbZv1w9un`WW>GuMos-+EtXOk$N0
z+?&2x%AM=jyx*6SF8;2tjP#bgWBJ46OzqtEBZ|6~ZMQb&p6oms)fIhjda?@ZT}wri
zXE(KGpE_(hYt2%gcQSq2o8A?RAIw_hV|G$KI@<4A5L>z4Hwpf`2mM%z!;<Ul<PP1=
z(LJi`{V{Tt=tga))+MLpZx<DuxfWzq&L?hLo$I+qbfM5w`D3=b_0zI7^IX5I74`i6
z@W27Zy&eJng0<VG8SN-`zSFw3VP9_AD?9rsSCYX(96Kbt7c5sWp80J0;hzgS1vhV<
za&Ycv=SLU2gEZW%_0B8W#xUNDI`!Zj>&yA|8xP<0+?D@z*3nvBg|uwVW^49*<r8)(
zO}+n;;?|w8+dO40$SWLMli#hK9JhJXl`XgSUA9ll)|_k|p881YM(C9*N83aD_pDuh
zBuO{5;Q0dM>3qL#^#lY)#ZSNTaRP_dwIH=}zO#Rv*i<!V&Qui*%gJ25F#;5hJC3+6
z3DMwXT6KKa^uP1&ig$xt*(_q5d%bgm`levx()p*G^Mk<wDZ1c^_T;=C`}0CUpZNbJ
zZk+b0{d;KTfqfQJk90ma&|SKt{Y=otX+}GXGqOdpCQk5g$`Crkbhhp`*dCMYfZ3<M
z3v&8uK3>{x6r%%*1->Wh6&obXC%epceR<m^L@s&bG@)yA4+$`@)GE`P6Yc*!?2Z0P
z(6qsGE`9Z9xigM*tdf3L^Q2a3MU?l<JC+vg7O_odCOSR7Dsoff_~C~E;4l(d@S<j(
zLrr<D(X08li?)IyXF*Jw=Urn)miFQ@#ic(AmWO}>*gf^wi9@Ed)oa%W_I@sSFBA?E
zZ12jS?8a<o<X51}x$k^IShi;2QO%sj1?<|gCb?Z3j&6IO(|Z-vV@fgGsh%u<rG3A{
zMWJm^CP#p+exI7j`?&GQw5L1vecBfgv399T>2evT?!>J;F4bpO-2!*pPtJ9|yr9R<
zePZLk#4znU%Q-+@`MJ(Y945N2BwQ|*#qpf1(U185<L7t#x<A4n-CO5P`Iol;OEyE*
zlMfbC{v|g&FRl?XP?+#|%5Q$gQ?Fm^8=VL-n)v5GpTg6RoBZ!r=CO8^SKMk}BhXi6
z*YoY#e%=?XUuW+ZNqBMouWbmcg#F$_D*C#MV=Wion!&#~|93v~v!AJ#=KsI*pLIix
z_-n2Rd)^zzx_$0j7KtTTv1R=_v&}Pafm+VT_^tM=FVwSsexCn(KSLX5hwi+(kDoOT
zSOk3Dzklw1re!<N{ONrj*6>rB|CiW?Gx~?OUbFxI(4KLPu;^^Vdif2!SN=$PpFAFO
zCtauYyHVig|0k5Wc>;Gz)_-gZYj6zM|I?fC*v>QO=iIRL4axcVC)ZnW27i>7Uh&NR
zKN{CJl;-7ppXr|Wm`D3Y59^Aj_y51(o?vj_ifettyUPv#E;nqL^2u@fjw792dxQVg
z#((CTq4p~MTjELK560h%G=)WX@BaHpb2Y>3nmnifkG_XB<Sw{&{*LBXi4|Xs%e_jO
zx7Izs5!O(*s7`Its>DTg$74hi=B)T}<?HQfN(S;<p3Zu1WS^|L)h8tHSbly^<Ii)C
z)-~knY_2^PbjvWH{%gz*rd@@40=xb$+Nt62|L)OP#^#jfKg(s#iKTy9*5T4tqE^d3
zq1N)!%1@o5hrUF;(>}uT_)TAZJ+tNkofY^0EM@SnfA@Z&)`4FyMa?QRpXc-Kul)0^
zH$`gWujxNMDo&Ty^1tSKVb3e^tozRiRaObd(&O&icoW#Nj^*F)WwPQ4xa;mGt&^!U
zIqlC~?^TBxuGSwBJvhl~f%U$Rcep1Q?EkeOpYiS=qlneN->I^;^u5|3`S&~HVVA!>
zOLtfV+9zx3`Cj=m)BT+A)avKED`)e4?yh?seZXq^&zZuvw>G}oc=Ydf-ByG9QFlZy
z^rrrM#lDZ}*UpWX)8#CCjL#$+S1qbr+;Sz+F6_Fr_b-)%e<lk4|KC5+U)NB&DCvDm
zJWrTNg7k`q#=i|@z)?}aY?@I1KdaP>@z>8^9Dnb2@e5dG{WvqXX~y!!b<g}bGZ%ql
zqH<B4iYvp6#$OXl<P+Gm?7pryk`qbz{qB)o!$*nJe|%VF3}j6&1?}6rk@Z=zCX@TF
z7M;(=)0!65yZ`N3dc@=$YvaGXGCq#`F?U!EN*^6L&TzY(aqk5oJB}YO-P5#QPVQN7
zK<14*qy1hd&+oPJANK$Mwg3O0$MsM6V<YCsvt4KC=i>bJ;r)@xr{*rK|9Ag~{m1z)
cxW3o_`S|_*{@oh85B=vibNX?4qc<l50G-l#3;+NC

literal 0
HcmV?d00001

diff --git a/modules/mol/alg/tests/testfiles/1r8q_ligand_0.sdf b/modules/mol/alg/tests/testfiles/1r8q_ligand_0.sdf
new file mode 100644
index 000000000..1ac791b57
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/1r8q_ligand_0.sdf
@@ -0,0 +1,7 @@
+E
+
+
+  1  0  0  0  0  0            999 V2000
+    4.5270   11.5730   44.1300 Mg  0  0  0  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/1r8q_ligand_1.sdf b/modules/mol/alg/tests/testfiles/1r8q_ligand_1.sdf
new file mode 100644
index 000000000..23472524f
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/1r8q_ligand_1.sdf
@@ -0,0 +1,72 @@
+F
+
+
+ 32 34  0  0  0  0            999 V2000
+    6.0890   14.2770   44.9550 P   0  0  0  0  0  0
+    6.3660   15.4410   44.0120 O   0  0  0  0  0  0
+    4.8710   13.3430   44.4850 O   0  0  0  0  0  0
+    7.2970   13.3450   45.2240 O   0  0  0  0  0  0
+    4.6000   14.6680   47.4710 P   0  0  0  0  0  0
+    5.8060   14.9400   46.4770 O   0  0  0  0  0  0
+    3.4170   15.3790   47.0580 O   0  0  0  0  0  0
+    4.6930   13.1630   47.7580 O   0  0  0  0  0  0
+    5.1190   15.5360   48.5240 O   0  0  0  0  0  0
+    6.3360   15.3620   49.2550 C   0  0  0  0  0  0
+    6.1870   15.6390   50.8530 C   0  0  0  0  0  0
+    6.1480   17.1020   50.9260 O   0  0  0  0  0  0
+    4.8840   15.1440   51.4770 C   0  0  0  0  0  0
+    5.2640   15.0240   52.9100 O   0  0  0  0  0  0
+    3.9630   16.3040   51.3200 C   0  0  0  0  0  0
+    3.0100   16.3290   52.3850 O   0  0  0  0  0  0
+    4.9620   17.4510   51.5470 C   0  0  0  0  0  0
+    4.3820   18.6500   50.9260 N   0  0  0  0  0  0
+    3.7890   18.7210   49.5940 C   0  0  0  0  0  0
+    3.5080   20.0710   49.5190 N   0  0  0  0  0  0
+    3.8570   20.7430   50.5990 C   0  0  0  0  0  0
+    3.7710   22.0530   50.9790 C   0  0  0  0  0  0
+    3.2510   23.0650   50.2990 O   0  0  0  0  0  0
+    4.2440   22.4150   52.2000 N   0  0  0  0  0  0
+    4.8280   21.5290   53.0330 C   0  0  0  0  0  0
+    5.2490   22.0020   54.2110 N   0  0  0  0  0  0
+    4.9190   20.2870   52.6560 N   0  0  0  0  0  0
+    4.3880   19.8660   51.4870 C   0  0  0  0  0  0
+    5.5400   13.5630   53.4710 P   0  0  0  0  0  0
+    6.5290   12.6450   52.7970 O   0  0  0  0  0  0
+    4.0430   13.0550   53.5020 O   0  0  0  0  0  0
+    5.8850   13.9290   54.9700 O   0  0  0  0  0  0
+  1  2  2  0  0  0
+  1  3  1  0  0  0
+  1  4  1  0  0  0
+  1  6  1  0  0  0
+  5  6  1  0  0  0
+  5  7  2  0  0  0
+  5  8  1  0  0  0
+  5  9  1  0  0  0
+  9 10  1  0  0  0
+ 10 11  1  0  0  0
+ 11 12  1  0  0  0
+ 11 13  1  0  0  0
+ 12 17  1  0  0  0
+ 13 14  1  0  0  0
+ 13 15  1  0  0  0
+ 14 29  1  0  0  0
+ 15 16  1  0  0  0
+ 15 17  1  0  0  0
+ 17 18  1  0  0  0
+ 18 19  1  0  0  0
+ 18 28  1  0  0  0
+ 19 20  2  0  0  0
+ 20 21  1  0  0  0
+ 21 22  1  0  0  0
+ 21 28  2  0  0  0
+ 22 23  2  0  0  0
+ 22 24  1  0  0  0
+ 24 25  1  0  0  0
+ 25 26  1  0  0  0
+ 25 27  2  0  0  0
+ 27 28  1  0  0  0
+ 29 30  1  0  0  0
+ 29 31  1  0  0  0
+ 29 32  2  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/1r8q_ligand_2.sdf b/modules/mol/alg/tests/testfiles/1r8q_ligand_2.sdf
new file mode 100644
index 000000000..75e82f9fa
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/1r8q_ligand_2.sdf
@@ -0,0 +1,47 @@
+G
+
+
+ 20 21  0  0  0  0            999 V2000
+   10.0910    6.8570   32.0840 O   0  0  0  0  0  0
+    8.7250    7.2320   31.9100 C   0  0  0  0  0  0
+    7.9640    6.1570   31.2310 C   0  0  0  0  0  0
+    8.0890    7.2920   33.3370 C   0  0  0  0  0  0
+    6.5380    7.0670   33.0360 C   0  0  0  0  0  0
+    6.5060    6.6790   31.5660 C   0  0  0  0  0  0
+    5.5020    5.5280   31.3330 C   0  0  0  0  0  0
+    4.5110    5.6510   30.3590 C   0  0  0  0  0  0
+    3.5790    4.4910   30.1500 C   0  0  0  0  0  0
+    2.0900    4.8720   30.6080 C   0  0  0  0  0  0
+    1.4940    6.0920   29.8490 C   0  0  0  0  0  0
+    0.7970    7.0430   30.8690 C   0  0  0  0  0  0
+    0.1650    8.0980   29.9060 C   0  0  0  0  0  0
+    1.9860    7.7240   31.3940 O   0  0  0  0  0  0
+    1.9720    8.1170   32.6590 C   0  0  0  0  0  0
+    0.8730    8.3170   33.1860 O   0  0  0  0  0  0
+    3.1900    8.4720   33.3190 C   0  0  0  0  0  0
+    4.3400    8.2000   32.5760 C   0  0  0  0  0  0
+    5.7730    8.4290   33.1600 C   0  0  0  0  0  0
+    5.7460    8.8330   34.5550 O   0  0  0  0  0  0
+  1  2  1  0  0  0
+  2  3  1  0  0  0
+  2  4  1  0  0  0
+  3  6  1  0  0  0
+  4  5  1  0  0  0
+  5  6  1  0  0  0
+  5 19  1  0  0  0
+  6  7  1  0  0  0
+  7  8  2  0  0  0
+  8  9  1  0  0  0
+  9 10  1  0  0  0
+ 10 11  1  0  0  0
+ 11 12  1  0  0  0
+ 12 13  1  0  0  0
+ 12 14  1  0  0  0
+ 14 15  1  0  0  0
+ 15 16  2  0  0  0
+ 15 17  1  0  0  0
+ 17 18  2  0  0  0
+ 18 19  1  0  0  0
+ 19 20  1  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/1r8q_ligand_3.sdf b/modules/mol/alg/tests/testfiles/1r8q_ligand_3.sdf
new file mode 100644
index 000000000..fedde92f1
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/1r8q_ligand_3.sdf
@@ -0,0 +1,7 @@
+H
+
+
+  1  0  0  0  0  0            999 V2000
+   26.8150  -11.4220   38.7710 Zn  0  0  0  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/1r8q_ligand_4.sdf b/modules/mol/alg/tests/testfiles/1r8q_ligand_4.sdf
new file mode 100644
index 000000000..93d7d2986
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/1r8q_ligand_4.sdf
@@ -0,0 +1,7 @@
+I
+
+
+  1  0  0  0  0  0            999 V2000
+  -21.5950  -13.5060   15.1510 Mg  0  0  0  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/1r8q_ligand_5.sdf b/modules/mol/alg/tests/testfiles/1r8q_ligand_5.sdf
new file mode 100644
index 000000000..41abe8efb
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/1r8q_ligand_5.sdf
@@ -0,0 +1,72 @@
+J
+
+
+ 32 34  0  0  0  0            999 V2000
+  -23.1740  -14.1460   12.3820 P   0  0  0  0  0  0
+  -23.4660  -13.0980   11.3250 O   0  0  0  0  0  0
+  -21.9370  -13.7610   13.2140 O   0  0  0  0  0  0
+  -24.2720  -14.2880   13.2850 O   0  0  0  0  0  0
+  -21.7220  -16.5480   11.7940 P   0  0  0  0  0  0
+  -22.9260  -15.5640   11.6830 O   0  0  0  0  0  0
+  -20.4390  -16.1380   11.2020 O   0  0  0  0  0  0
+  -21.8020  -16.9290   13.2360 O   0  0  0  0  0  0
+  -22.2920  -17.7500   10.8800 O   0  0  0  0  0  0
+  -23.6090  -18.3780   11.1140 C   0  0  0  0  0  0
+  -23.4540  -19.8880   10.6650 C   0  0  0  0  0  0
+  -23.2360  -19.8490    9.2040 O   0  0  0  0  0  0
+  -22.1550  -20.5500   11.2730 C   0  0  0  0  0  0
+  -22.5000  -21.9820   11.3530 O   0  0  0  0  0  0
+  -21.2270  -20.3950   10.1210 C   0  0  0  0  0  0
+  -20.2380  -21.4710   10.1250 O   0  0  0  0  0  0
+  -22.1580  -20.6460    8.9500 C   0  0  0  0  0  0
+  -21.5870  -19.9630    7.7860 N   0  0  0  0  0  0
+  -20.9840  -18.6020    7.7160 C   0  0  0  0  0  0
+  -20.5470  -18.4640    6.3900 N   0  0  0  0  0  0
+  -20.9570  -19.5440    5.6510 C   0  0  0  0  0  0
+  -20.9110  -19.8230    4.3160 C   0  0  0  0  0  0
+  -20.2950  -19.1290    3.4000 O   0  0  0  0  0  0
+  -21.3850  -21.0580    3.9190 N   0  0  0  0  0  0
+  -21.9950  -21.8750    4.7550 C   0  0  0  0  0  0
+  -22.4840  -23.0410    4.2810 N   0  0  0  0  0  0
+  -22.0800  -21.6000    6.0720 N   0  0  0  0  0  0
+  -21.5640  -20.4530    6.5080 C   0  0  0  0  0  0
+  -22.5370  -22.8950   12.7330 P   0  0  0  0  0  0
+  -22.9540  -22.0210   13.8390 O   0  0  0  0  0  0
+  -21.0630  -23.4500   12.5800 O   0  0  0  0  0  0
+  -23.4580  -24.2110   12.3270 O   0  0  0  0  0  0
+  1  2  2  0  0  0
+  1  3  1  0  0  0
+  1  4  1  0  0  0
+  1  6  1  0  0  0
+  5  6  1  0  0  0
+  5  7  2  0  0  0
+  5  8  1  0  0  0
+  5  9  1  0  0  0
+  9 10  1  0  0  0
+ 10 11  1  0  0  0
+ 11 12  1  0  0  0
+ 11 13  1  0  0  0
+ 12 17  1  0  0  0
+ 13 14  1  0  0  0
+ 13 15  1  0  0  0
+ 14 29  1  0  0  0
+ 15 16  1  0  0  0
+ 15 17  1  0  0  0
+ 17 18  1  0  0  0
+ 18 19  1  0  0  0
+ 18 28  1  0  0  0
+ 19 20  2  0  0  0
+ 20 21  1  0  0  0
+ 21 22  1  0  0  0
+ 21 28  2  0  0  0
+ 22 23  2  0  0  0
+ 22 24  1  0  0  0
+ 24 25  1  0  0  0
+ 25 26  1  0  0  0
+ 25 27  2  0  0  0
+ 27 28  1  0  0  0
+ 29 30  1  0  0  0
+ 29 31  1  0  0  0
+ 29 32  2  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/1r8q_ligand_6.sdf b/modules/mol/alg/tests/testfiles/1r8q_ligand_6.sdf
new file mode 100644
index 000000000..7cc9861ac
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/1r8q_ligand_6.sdf
@@ -0,0 +1,47 @@
+K
+
+
+ 20 21  0  0  0  0            999 V2000
+  -26.1390   -2.3340   21.1660 O   0  0  0  0  0  0
+  -24.7660   -2.1610   20.8000 C   0  0  0  0  0  0
+  -23.8900   -1.7730   22.0280 C   0  0  0  0  0  0
+  -24.2470   -3.5020   20.5160 C   0  0  0  0  0  0
+  -22.6890   -3.3770   20.6900 C   0  0  0  0  0  0
+  -22.5330   -1.9520   21.4140 C   0  0  0  0  0  0
+  -21.5030   -1.9630   22.6040 C   0  0  0  0  0  0
+  -20.4460   -1.0760   22.5660 C   0  0  0  0  0  0
+  -19.4470   -1.0110   23.6720 C   0  0  0  0  0  0
+  -18.0850   -1.5850   23.2120 C   0  0  0  0  0  0
+  -17.4350   -0.6570   22.1680 C   0  0  0  0  0  0
+  -16.8120   -1.4950   20.9990 C   0  0  0  0  0  0
+  -16.0990   -0.5320   20.0270 C   0  0  0  0  0  0
+  -18.0710   -1.8620   20.2320 O   0  0  0  0  0  0
+  -18.1530   -3.0360   19.5900 C   0  0  0  0  0  0
+  -17.1390   -3.6720   19.3760 O   0  0  0  0  0  0
+  -19.4090   -3.5530   19.2270 C   0  0  0  0  0  0
+  -20.5080   -2.7620   19.6190 C   0  0  0  0  0  0
+  -21.9740   -3.2770   19.3140 C   0  0  0  0  0  0
+  -21.9570   -4.5150   18.6220 O   0  0  0  0  0  0
+  1  2  1  0  0  0
+  2  3  1  0  0  0
+  2  4  1  0  0  0
+  3  6  1  0  0  0
+  4  5  1  0  0  0
+  5  6  1  0  0  0
+  5 19  1  0  0  0
+  6  7  1  0  0  0
+  7  8  2  0  0  0
+  8  9  1  0  0  0
+  9 10  1  0  0  0
+ 10 11  1  0  0  0
+ 11 12  1  0  0  0
+ 12 13  1  0  0  0
+ 12 14  1  0  0  0
+ 14 15  1  0  0  0
+ 15 16  2  0  0  0
+ 15 17  1  0  0  0
+ 17 18  2  0  0  0
+ 18 19  1  0  0  0
+ 19 20  1  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/1r8q_protein.pdb.gz b/modules/mol/alg/tests/testfiles/1r8q_protein.pdb.gz
new file mode 100644
index 0000000000000000000000000000000000000000..9fab75c7a370b445da0299a836e2daca103d651b
GIT binary patch
literal 122146
zcmb2|=3oGW|5IusC#kykJ^4RJNpFJUHvRc)61Z+EUG15cbhbm}ef@+&jfAv@--o67
z?5$Rx^x!Ry-l!q6|IhE=`|UsY|M~Ib@vq0*>;FA}JpJ|gminK{=gvz!|N6h}yx8gE
z?wa#A#@S2RJO9x5yLn3g=ks5`|G%y;{lV$Sucw?AcE@`d-q^-8yxhFCjN#?<xApsY
z5{~V!V2Ep;alPK_qw!V7115)=*33`d(Qy67{&=QiZpuFMRSgq#fA(xhWBrlKpnd+K
ze*Hhj13C?FH(%^n=dagjXIZz+NGxGrUAJ|6@AD6Q5%$4J2duc5kJ+|g-_P?-y?owb
z>x7>&h7Tt@_b~L7_8Rn`f5FT*@38uVB@<&Cc3$K-+&V=p;r|(_3+Eng{TKhgf;Hmx
z*ZJ%Ip6C{`b6>$-P}ldWcfzrMUvCQ=)VIxHm{EL8y?w?xnP)GU;{HGVef<Z+9y?Q0
z9WT8<CpWLKl=-z}hX1no-^bU#WKCEa+Gp~gSJ~(Hk|%#|?%JN4^sM$r{Qp0k2R1!7
znBM6s+1ei`QOvmQ{FK-Ohkk$Hn_;j1c5BGG{ikm)`(DMc_+N^3`_%6bWesZ22{6uh
zc|Myjn)mtS>S9Le_lLzBwn)6RGTd@&OYkQ)pZS6Dd}V=F?+-s$Uw(-}!s)ooBk?u8
zv3Fi~*Im7y|M4h?_j600xn^bizHPeIzHxU$Nl=})ewgJY(b8T4_YX{OGUMZ~%N3nB
z`a6An{Cwp-|M=!k$Zpx|Yr|;ythn~4vd^bwf6l+>i7<cQbN#>HPh)>O&D{5gOXj+N
zxAXb5><;7l(+m9BWO!HKiL!0D{6D2Kc%HIO=lljs{RgjqEW616puoIrlKE3kiOl=4
z$~jwH*Ug>uEMWedeVQhLTljS!9Ph7OoAuniD{QvjjcNP~>XR?ax_*BsY;b8#Y{Q;Y
zAEV}M<qzIH&p~{{=WRQg`_6lbANYE5b9vp8OKf}g-LIYga(_+i_lLzTHMOy~*}p&h
z`ZDrtVsU@mqRF2=U*%w)>$PhioBfx?Z#T=>P5!;?LQvh`n!XRao+|IJD*O;>_xr=H
z++Dv<mQ>gM{TeexG5zPQ8@8XGF4*o{Dz9nfY~cFuCpW{-M@w$2Jv~+I(XeG>u<iVq
zuN-GDE|%pAe!^&xA*gr2Yktk$U&Z&$enu6Q%Rf_Ec7pfAtj!1A*Izzd!T8MLYVX|G
z16s>ExGhe2o%m`c^NaJs_34&XJ3BQ$v8>5Cxa?-ZH0QwiZ|sA1M*rTx{h)MVQp<Er
z4|Ubaj8W$}dM(q%QzL#CFixsHaXw@5<f5~Q*XO^vZB`le`$Nx$19oe!uRXk4=Fku8
zhLrT0{Va1*_~XRA7hd-4E|U9o+Vp~dL*x{pwY57Kr1cM(9-2`Z=oUKP#&m&f;-+s8
znf8R0evn}+(qA`u(s`};xQ6Q67yL7Se_#+Zy16d2PdT}zbjfGE*_K=8$E>NXV9=g-
z@%67o(d}`2CC+i|emzU{WAMM9pX-?mI3Ac9MXk@~bAMU$#midSde{3RLHnnCJMv~{
z|G#*(er-|rM;)&Z+k1a#`XAsp{`{6%N&S=4*KX!}oy+Grr&M=J)}W5BYSa4f9P_IZ
zpRCGz^YWLb>z^ss4^q1>DDHCOsGqs!f#EqBw(q_xA1$|Gln$HeCQ)%)#{bnU=kMDV
zT6f(`<?d*gyQgv2s3s^a%-^BNpKIpQFM9Uw78`TdUDyA}QG9cCjqXnV8Eb1T&Tm_I
zyz^YqW7n5QKQo=NTXXbQJG()M-RZe?EqQBJ$;^MWPjhS3?*hh4)pr;pPKYgO*Lx@Z
z+sNW?Xx=rukcO%H>=hwjM4neLbpQ6an)miFYlZCfLu!Rf)rF^**mVp2ah1GgH>dh`
z&k^M}t&Hh%_0M%K`(*zvV2r!1+VR;!(!g~q|Lolwx)GqL6E(9abXs>>u{8JG&N?pF
z>MgZ97_4ubcqZ{*=P+bF{flc|u5)zU?e^!BKi;}1qqc9~u{&<Rx3b>Z>@#`c+r!3(
zoTkY=EBI7vaauC*6Jxgx<Nu$N8IHytaPHsXn<#x-=hV|5zJFiMT<l(^H?Ki@!5&qU
z_8aZjTdNt?ix&GPS^bRHcdLk9G1J}RMM)fY_hOC%v+lM0e(~{d9p{aQHj|kBl=re-
zy?$)n(Wv-mFD~Br$YR5w-pW=``*GV#>t_YEMIYTQo^tMBj9bQWxAM!fGkgbjy*(^-
zKW2lh`cqMbHT6}&1-CQom!`e$jdGYXCA{H}-sNba%H;gumS-3C%AC0H`|<kl2H9@I
zCw6Ocju<CwEtKBOUu{<SM&i3&POome!|(n@OsTeuzusbcckJEKBO65@toU<5oN1R^
z)c4%r^`|e{R_&c-@r`ZIGR@7NJy-WWD|+La`Ev8m;u}6P)y#4ECm*<GeoDVzd}9;u
z<{7<rcW>lRzNO65m>e%7yK~$5efy%eZq&DKKYXKI`h(Rvp;f20Y|PXvZ`u5{{C1ku
z?*itux~CZ}LLsxQ#V@RrzP**--Qe3oNkx6HyrPSFzdta&dAHkU(MEprgeSG-j7Jat
z-uV9ahhI;gMe!+1{w`pSV^cpXIaBFLMe<bh2VWoT=ohh6JY^TsaANU<`9eQ9md!e^
zo__t~!glAI?WbcG1c>%_gw4#exMij|Pq6I!Hp#0u+CM&FN}66CdFRfq@SW`0Ix}l6
zW^Lp*e~`+5^3^rHhtoFN?L2<|mA;qxw}nh+W-8ASjLQsKAJ=d8IGM41BfqGETm_d$
znqS#fS&m%{XTPR?e`xY;;jF`4_Dk!+PI4~UXaCdac}#L9TeAEr!DC9ReH5p<{4VPM
zP{n_z)?)ES{;M3H9~j?J4K&^+e&P1)g8M$l?Cvxa?N+JsW=lW+&AFbD@Bie@AY~tK
zUEJnq@}!FCmRw?e^6d$|%ibL3t+4&lDJ$Q?wa(w~_MF`eyZ@iOdZYc-<lw~HY>c0>
zThz^~82##7&e|>37I%1e=K)9h<chLz>D&B*7yhoBAIKYFDSO9)ZCa6i`pxaR8E-&o
z^lr1o>Fclj`i?G>mDta)xO&>ln%ey=Yf9hR^VzSSEcEAx;-a2g$KrM}7=2Mq^cBBk
zdT3YpOgYVbKIOZ!ZXJtjc)9DTFa!J9Sf$AY`>PK3ce(tE1{)hN`S}KayVINBm+y=`
zeUK?FJ6Zlf!vPCLmU*Xb_!oTq`bI_!BsA-1(%hnhNqX1Scf0EcF}U5nk=4>UImVIc
z$<I4C4)O~sn6A!!GkL9q?&*u%dn~L^UhQ1`fT;|mlk<_w<aCoyua7tUyt{}eJ9+*S
zrbUOuAH3OQVST5ZQEFcE-S*3QZ$u^fg;t64cYS*pIpxjs>B>c4_S-OON?k3;Expqn
zcywRX7ugRUW*@F6w-~s7m=;qO_%QoTigwm_=kF8sw!NR;u=cb1=b6i1cvv^6Wv7{$
z#a^re`J?7j=~r>PD&6g$Pv+gQRC51+TX@1b`}t30eq1|gop)J7_9au;?v3IPzIyoX
z+nAoZ&-td|jn_KArDqF#ITqLO)oAfkJD)wdk8XTdbUhn;AkX|8<B|7^x=lZG9A8!z
zGyU*~ImbQnRQFfq9Q?Ld!=mW=?>S8FGlByCZJO!KZE<~dI%E3<0ln3WyFTul-%xdT
z*F9xc{ok*Ta;#s=ru_HT;YRtIKPL^_pRt!J&t3gqykUAg)Bhdb29IyuxP5&$L-X%f
zithjW!{_(pu+BWTv~%rVw+Q|9C-x>xT>Ss-)kO+R>-L`4E!?rxUsUPEyw4KB4|{VN
zUv7IiLp!yGZT2zi=#SsFEqwoL-<!kM55D$Xn&`Z#+c$ZS*l)Wlt8<=Du=#b`uBLCp
z;R8zy#MQHI%{$D!VfXnAq5gmS>;FkNXp3LCnW?gS!$<Z0oon=!CcU&Yk+$x1uV>GZ
zDN~zvKViS++ZQsbUVkk``v37&%sk}m5%B2Vvpvnbu5T;UZ`YCg+byVOcUtuOL)MxT
z>W|OLq<wrbzhUR+S`IIE*O#k)rI^2w*<A6(|3KU#3GY1{KX2REdEjwg&Zdrkf4+()
zbk1SSx9zAF<XgaL{Xdg|`~Hpdxxvbl{eN)oaGN7~G-HRqLmbb^`oC-kM33toGMD+Z
z?Skv>N<NXbU%n;A@tl-Sm?jgF{^;D+4T`x3zD3^sZJ^)wg!jXy8z=TIt?dZimvd&5
zrrXc6tEY=Qe`51^CSCt&Ld2UpGJc!p+&QhN-}WTAg?E09>`sXkzS}dM%@sQ5=o>xg
zx6G+9)2_Gjz3r(uaqb%?w|xoomFF<*39~MkvM&F2+mH5jnojx`<?Z9oK0LD8J<*<X
z?mU^lTXcdq=XN~_e%Ig_^x}xmV}HHs+YRh*`X+qR+<#oWq4CTPjTX16V6%xmLalKp
zL^e*buk$ZIz+Ys+J+DFR$C4wmbG5gxnaP^dCbBD|;rgNjj~6Uv-(OkO(z)GtgJc1>
zhTLD-4@UQ`?%!bE+3@<J*6XIdXKuYazp&y<`GM0#OV<|8ed>5UVp;lDIfv;NI;Ow)
zt*Y>OkKXI<LtCcoJ@e|t&uzR#U;bBoJ!vrM#K)C3hbBIo>3pBjz3<-yr>lz!Ud;2E
z#CJgCx}D1NqqR&E7TYfg_<FLSMBwuyk)X@P5;65Vy{7!IJQQ^!^GLA6&#QZG)}BoF
zI2Pqol(;|bi@CP+oXO7(@}EyU6IClet2QG1*+<3>7GBn?%hr6_maF0Zy#CWEn|lnG
zzw&MF?R7{wH)ltj@)!N~TfRk(jAjqFu;2Rak}&h_nxbzfPF84#79}!2<L<cIWoCI(
zD&6+?hMmhiVrL!~SAJ8$B=zF*^*B4p55Jxr%R8tdeucx5E9j}@-08~eGFIQUJ$>Th
z{3lIuPY>jKEzIujV7|TB|2>nVuH@v3YL6)~smI$lZ@+$a@8Tmz9v1mdoYw2PhjH_a
zBiH4QeJwrvlrJe}^&2CVgNz|+AK7%0_62U4!P)ycXLe@t2C)rNlOq_za%P{3<a(s@
z_J^V^V_XsA8<|w0)s`)ZWxX3XC%$>I<k4)Y`5x9GGmmg>@cd&{ruMjXE_X+M1>eML
z@iUJ|f7rE6idku^pUCXbEIiU_hH8dIU+m{MIQpG3{hu&1F1<?n?UB?{@ul8Ve*FLQ
z$)8~z`<||?rFYF7J5tux@7b4o#_o-f>ON+(w4@{F8WobhU)`JgYWD99-cx??d9*t|
zD=@q~sXRH_p;O47aj{FgxN&Yvou60H`@`n~AH~mWSi4a?;KeDGdza7Y*SDD8Tfy+}
zv8aOl-k={k?YTO8*<Ef}+PQgjA6j-o#-~*J_rm|y4gG>~?TRP0{Qo`KviQh*#z652
za>^>xeQbVd%voAH?LXgxZcCp}9;!PN4*#iEexs(oRbD<R^rO1?3?=8I{4am(c(~8i
zdk1sS*~Jx$JN4Tq$1I50^81x;)FI&lCHAW~wy7Pq*Lr=reu<dwL(UV^m_Kf0W~jdW
zY|d+&zKpf{KOG+x_}w&nQn}!Rmi&QNQSr)=ud^8^aoT)1xwH6V)VWhCW!c&XdjD0~
z9y)kWBj?R&>C>)^zph=^xb`b*|Ia9v9BHmd!vy(L{)RQu*6mlL;<H<lwp`xr(<rR9
z{`SW8*)4j`Mtx~(*R#&h-`=Fl-ohsE`)0$%<-3kvT>Et^!)lw^*O}e-ePr$Uv`n_R
z!1kBnny*_K^n;g}Y}_avt~htnoM^6-Oy@$mKH4+nRNpSx(I50GChofV)m|gsJclAL
zu9tijKdXKmIrHR6(b<>h^n=B2*G^x)WWu}#8>Llki~X0SG@DJUIk3e`@!fnL<(E-&
zysFoQq!t9}9eFH&OjC1-`hx@87II1H-8`p$$g{J$yk(M86;s&+U!~wXD^h;$5dG}y
z*Hzc$tteN_q5OB3$P0h1J+F4D9RHuf)w5XS5R;Jc_K#WW>n3aMs=L{;O6P&r$%j(&
zW!LOISN|-uEi$~MsPUcib?zCfRh~1RIK$nw_Y%kY<qKZ^zOZ-SGp&<58ROm;K7P%;
zvHjAF;5}{;Hu3tcp_4u{<V>93;Kmp5@{Nn$ftPpNHP=j%;jYkSJ2flp*zyT$*XB#-
z%P&jlzP|0QI%jso2I1}?v)=hOn)=_SHtEI%H=MY2X|~@sv$;=W*DyY1E^paZk;@#{
zEqIfgV~d1%!rW6$Ywz{;mOT3I?I7YCB(U;xuJJiL8MC}(@uOnvSNiK2-0#?TPW|bG
z$(eF{HqSY9_E(hs4T}oL=82XzDjJ`z?@8ii`LXruR)+P;(=8P`c}}ug^zXm(w;-O&
z{B<^C-1`eYn>Mn)J8U?`{r=s_LiyLOGx-Q@Sui1!<-r~4+2<Bd|KeX589!&ky^onn
z*VODzKapO{wnxrkJA=W|)Y`iY#^+`K-aWU><G!V)*3{zX270ewvsK(Q@<<I^w?H$5
zZNK=_-V<zEm-odpc+C~zZPN*_Vp<j@GI_(c;vH+&A6MUO8Gh4$VbSAdb~m3EEZebW
zy>!CVu2*W`6*u0#vMA;M<lpUTei{zn=B!X@Qq?(>HZ$nPO?DaiSr!`^Z-3=8H=B0C
zU460bmi@)kGAC<3I>Pp5j+grFwq-wmJ=vwI^QhM~;alP)g=72c|BEyD|1sb_*I@o@
z@|yLzmKSzE*qQbrGBf!;W2f|`n{&ErzMSG@+1shJRK>B!`a$W&V|v9Ag}0Xoo>Skw
zXZ;kFjzZ=?jz5{x1P?GSH&2~?gk!3P!{&{X1Mbe7-^1J6!@s{OFn&W`ECbi>{q^1Y
zVoML*Qrf((b4kCEYgf9C>NGwN{bvOaQe5~xKb#m8*AV?-l9+BH<En(HZO4LqUNx0w
za%Nr>%4@K1dNN(}SwO<=mg1mY^A~t_Pb*+w^4Q9*;<Rtihbx{Jw-t(~UKD!QP!hE4
zhS{H!sp8oeav#q;l6g^RUh$3DJpv6bPXfi)yk=GCUA(=QYi1Z<=);$KE~kRKFYTSd
ze8l<7Hp}iq6IF}yl^N0l#MXEp^WHfl<e66ZFTp3fUY%)PI{DJoucmi$C$IKQ%{y=+
zeTH9T;%UX#xsTHh1m~$u-N`uF;HY)D(6lwDX1&X6Wqkt@+T1di{q!Y)1@oMp`!{wQ
z`Dk4}lh{%_!?jN>b?e4hsd^^ehf9pgd2c>t?TB)kCU|a*-Obd^D$7)th<67uZT`h1
znW1{~_XXAYON4y2iu(g*NF-RQ_ZYn4Q1{f>u{vfF=d!1p!Y%bqFZ{Gxyj;^|SKx)S
zb~-m%E}JDxvx$3JrJ1Dk#>2Yu%RhB-VV~O#u20fWG{1Uu@pa2q@god^PkysLV4ZUF
z*QuF|kMFfF349zEzjS88tXYS(j&yoydo5g*dr)ZN$-C`KXD8fZQ%U4AbFE5!z4~pg
zbENZiI~LuCESIlv%w(yOwfrEX#;kvD`sxGCT|A;b!OBmRct5RBbMO2v^XyeP`|@3D
z*8l&&x|`$P^}xv|gmm@=wb<>*lfJ%o#pz$W7~}f-j_gzT<rFxv_@G}ro61#Cp3%R*
z?xV9k`)xDzoeq)(-(P?QU)ny?_}Jh!VM_J86&=;`*HUY3?Pjj8Svg&)^^ojwHHZI`
zmtJ_VQ$zRDHb<w$0?r%e-cI|`(EI&icWB$<$rjm;(+>0XOrF>JdzpjPgIn$82VTEO
zR95fXA?~$no%C#pN&h$=F5e@S7<X~!q3)pbo|T6=ycVebsp&J|a@X9n;gRW~8lh{4
z&$Fsr5c*f8=OwgM*vN)mZ0S1>Yfq`2?)_&jzrR1f;d*ZK1`WgGH-D|V9j_LDeJ{Vb
zZsN|g_RDc%3k^SAln%6Ad~B^jdL<}{_P+k|VoIsmG&lcOI=lT3EK<G0cyig4TU@{P
zyxx|n9{o}6@nkXGhkO<(w*{tK7%$-Ts4`i*C4=+4<&#=-RRcehZzXOovc4|`)sbSI
z$^Lyi;#be%Z~xr;h~>mJE0+asHzWiK4;ww%B;bE)e}cH~L(4<gcFtj09j&&RQ*42^
zx5on2KVP$2V#G_|3hY{$9r9f<)O~lp*Y=smOLb#^Z_sP{E)cxr%jQ#RUO9}p&kC8#
zJbB`7yT3Us5<27PcemYVZSoEryrN`PHI?!3x!#~jr|;gln<i)eKvO;Owf3fecbL97
zv)oOSyDB5Lfx~6lgeC6%>pVUkjSJd7^EhwC+M-FD)Htfyu04&}qhBvyHoNjpLu<46
zgI7E^%)V~$nXTVFW!G7oRf2t?izF=Wh@a2>-1cDZF5S3jMU7p#OqYciTof-SC!5dS
zYx=w3#-pvg7Ehbj)|?i2Fz@i3dv6XWc3)=^xLUAb->Nl5(^8ljy5mnyZPSgr-7ryA
zUbEZUa)wyHP{?P^7acEOa(_FMI5{QzwN3kDgJYB9&&&p^TXH~{afbHsgyVKqM{X8v
zKfB>*HrIrwVtU+6H@jAtG_Cvo;H=E8M_YM4uFjBcs5tK7R&ieO?zVqgw;!3ZcC<)c
z6i%D&e=pVd?DH*;xh{&oS+qb{;CSwbInzS@_3KU*=-)7W%WD1I&SkIM&h5><6IX6s
zwXE9mOoILmW{W3F90dCp6<co#$y3@ZW^jwUjM2^S+vMu*1$ob{o|!r=R?IZ}=JTy7
zw&6AJ%Qv$WPj1y?-&GZJIx(&KpxgneC&&Dfbl&a?JauxXw6tYa=|Q~%hn5ImSsuc$
zO!mss1>5)|-m+G^aXgZrsnq$o%2LDO|BJgzn5Vt=-@1M3%w2oEdCJnyYV^H-#*}x7
zk!yq5Io2<Sjs@K~*;;g2V!QH|ON>k&zYWs$)@uu?+TF{jR92pocZpFdfax*s_Ok&Z
zi>p>Yx%68=f1;L)ZXxrzgX<#idH#>ho0G%!lAl?^zC`gATTe`_i@)Pji*F0dt~|02
zs`O;HVHAv9{+e4vxytYK&V4bl6Zb4(o;RPzUh?}wl?<nVhI`6Wr<WX%ouI;85qLmw
z;od#3r+cnG^*`m~i}ww#TB}ZaJequ|{Md3c`xUc6>OO3eV5?pnIVq+zT=A;8k-`n(
zRRW>C6Kt0&c<Kc$xY4k^NXWYVu*jmk1IM<C$Uj-WA^X~Pt}5BO9s2q&89EP6Q|@ND
z#=bFX!k2s*t%&(=!Xlol$`-Km_$d5-F-bc2&&%wVb?)=0mmDZ=Ntj+|vW{z6c>ZtA
zsY~=@52QGKm!6QNEyQr}#Dd8|R~PMgmm7D9QB0sq_(YE>-_%QAw@&qcHT#KE+RKI?
zNqp{)1pTT$a0_~0=ZOBo{rREdstbSR6g`{H^Pe*|R(>I}XN!5Q_Jh#X7xu=b_H5X6
zE1&l|N4aCkC+B4w&WOH_E1I_<_rRP*P2!0xzFTv5RUdRaX>*TJxt(Q2MzfiP?H5nx
zDnUPu%$mJ2iN~C$EPd|ubI$AsvG-f%3M&4tW5|2>onLV8F1w#5hgRIZu6oYXsQ<jb
z-UcO?iEC0q*A%{W4sTRfcCUYX*jnN4jfsrb#-;v(sdM*ToHsc|Zhmoup?^s7!6%dV
z$bR^>Y$nGmfzU&{rtn%Aws)Sk&EzY$^jsTu=RnSEm6^xY6;ik~w)Sm~xp6nPf6D2(
z&7J?h7PT;LoVmer&d(L9doGHeTsgbtE1QaYI+K9ImE+IPBz{SqSTyO(<KmWH8+EPk
zQx;!0>z%J6|JQY<TH;#q)KBV%^;DXTwN58i#WD0aOx+M?+gCTC?D>-|1*yR)?|x0W
zRb$U;D6%&<Y|0G1DJ_C#Ut&C7=}dq4Ik(8K?6%ASp~~A1;?p>6JSE?*W9^o_e*4*z
z-~-<m{knK6aaxhq-^uS;9hN-&&APzG&!m0gcHdiShK7q`iuJ;G=bq!>PIa4bG<DLS
ziQkuVtpBZdnepoFXJ-^`R`wsc>i*^Aa<)DDE2k^UF4%TfQjtl`<j}dR@}a*q*G-UJ
z<CUwE={f(DXWOBN`-)~+@XVjn!^M-UGxtL6LSEn0<CBXQ7uqw1%y_@9i1S*6RbbMI
zZIjdvJ_vbc(c3s_y&~tuw)fK;G#r-t&x`pWRQhe(uI`{orqj;JJPP_T(Ne3O&DZMN
z(|&{KWKUhLvv>KqJ_oMMN&lRu+a=B6v{@rpNB6+Vix1_!<*PSMyU$e8-4<|Qaj)vv
zlO|kV#}|6-{n!yMaQG_6DQ~L>_5Z%|9uRJ3{rcTK%}(d-;ozMG+$=L|cPwFk*RaUK
zv8Mf8;`168v$ppapR3A#U^$ZNpez$3wQQCBs`c!ktk*4gDcCbJ@e8-asy%%>l-}9J
zTw*MD@Y)o{@JU&8>X(eF;4`x$tsZbj*eSYwT)bhIYV3yROI*DDwl#F_z4%<~@yTTZ
zb<+gjNqwl^*v5M1+tp}6zre@;6~%S#M$CR&v);+*cG}6`_ZgLUZ?<2tH2VL8e?<=&
z)UF?k`}EJ;L8<lBF}{i1fv>+U(YX1F+3fc#S%;9N{{?uNZkeg`iocEAc6-_F@b@)F
zJKh|TT$t;8bdTfNh4R}K+5PrcaT^qGl#1Q(V*aHai(aQrI^9=rEBt+rz^inDa}SOD
zgFig7XVkqB{$67~4->=cR{P34*>e?>^G$CrbN&5FR?0qyK|tfjF}`+{`?YFpQx<$(
zUCy95%U@c$!B<c{;NN?uwBN5}4_HYG*htShyyn|N&1&=ROI@{J-zl$=dAX$hod|E}
z{GyqP@7KrKhH^Fb`cAoiYW=-)KLTv-$3IPr-y8h5@dH<{z;x%wt9G2-Ug$gV+S}FT
zZZ}d}B4V}9+|NI?cf}nhKH=l{4tAb7RZ%ic)5h%)+wO|qj;(ne3w(u--)m^yyxm@<
z#LNAC&xXA}pUC;hL^EDH6UT7o!<xlMrfe<De<SBB6V0roBemnwtf*se)Eho|ty8}`
zIq<{1BX17{Rf{v#se4Au5e(aZMwm&*>tHnFw}8~Gm3-an{(Z=wt(P;+S|L<G?9a(6
zzL1I~S!cU`_k7C|*<-$-<;}^p5;?WK#nXPz=HA9V`zc?<&Z4$&i%&E>S-Gt@dJo&K
z{-6){8hV#bw|ALuv3`y%L%08$v#}DB$`73Ts;TlTDALMd>fZ49d-mmt9(L{=v4Xow
zH)veny=C!{@0KPFCocZ4>6;+3yOOWFW>e4u&-^4lu+WC$TfIz<TfP?uEqXddqd-66
z%EkX*W2PKblKvtxq0vps(Rps_^iD?YAk*2mTR2{QJt!@`#nH%hTQ=LlLe`AFdjhXt
z^UauX>ziWJyp-hkTvC(bO7mwcUb`-9Q1q%}QL#YYt5u!Mv+Q>@oHdyptlaYT>%|#r
z9_c?j_)O!&RrojVn^!Dh@G(@%id}3=bX<dXhRc*d)7ildHObuRd{h5D?YU4c_cCBr
zS}~V^oDHM5X^ds8$ZGu^y*D;xnQdp}7T#mO>I1*<_j55%gr{Hbd$6EuOTK5rfz(oY
zrFIt|7T-0dXH2+f_$-NKEb?15*Kf+M3kQ~dT-@H-wMGAc{E|Aq`Bx+J``lLCto;``
z@2JZy^MsUEH=)|hnjpVTruPn=D+^rJx#hKBSe(d}^UqgpN_+oh-=`e4OY7Vsw9hMw
zs9(^~`8#*B&F;=Et6d#`O_$RS>~CDVmm#)I<yBq?TTNiqN;}rZ=#{L;7p=&B-1YqV
z&b9j75<5Rjh5lK5e}&+;8s$xmlh+$P;3`N`X16<?B9w36dS!d<f!x}=jDgR+S1wVk
zJLRXh=kY<Mhf9neWby6Hi+jPDF@4R;rhA@^vo@Y;$e;Ih>#1f-@6>`n8|F{G^hYJ!
zvG3n?^#qZPtEV#dcjY?=HQ&2<*fCV{1FuKiiwUj|5B%^<4Z3rznkgV_iP3{slOuO%
z=B$dgS5N&Bd-&9<#p3mqH+Ag8TuUFMnMDR)SZQ@*apu%e_x~(Uc2#oS+`K+~@x2@K
za)ZNU|H^LY3Np$q=<7P->$qH?F<pKdNSRDy<{ypy3)=sA{8EW8WXd|W<a;Umo_mTl
zNeQ+|ue5e=PJ6#(sn`Sic@3WDig@2FpOe)4y&=ZsXHv@>dG}|j!TpDxFxKs7sOd5A
zK4!ha<2`GHS?mW}h39Va%4_Zfi3$Zb+gBDpzgKU>Z0A<N*f7)W>t~rG7EdOBZ#Wvo
zrzPHSyY<x<HFm>3w}35NHqVwE$<l2P<}wsqb^gybg-u)5uYcvea>|W0PYXV2x_i!x
z-CTC-xOjXa6VK%L;tjqlWLm8kE-GA-bayt-j@YM(y6j(1p13B~mp<9;oSutnqJMqM
z<tV;YbCwubR(4#h<LC{Edp`4sDr>gooE+DQk4*QJU8(=sGvU|q9Ss+w_}Y*4^Etct
z%?teVl(#~8(#+h+leWt6_3rP8V(REgVVxh;@vfai!0>lf&jjNKJQfSLMTJ<~yn6QX
z-i?(JrxO|7cJgSfnD#>_-L!q(IiX9Pw~8$0_tc3l*{;&H^{0hh{;!MEudI2xKup!B
zR_c7_xl8|C{)pTc@w^+wm)>&6W6qSx>@pwrD9=fGv7<jk>RORS_o27*np!v(W!;#b
zpCe}7emRQo`Q(Ya72nCs<<erc(0XD1GLU&j?#y)CQpT9pD>IBIZRXniMB4IZ&YPUm
zHs%UfZyn>Gw)mmJX&c{-_haL4POHpwn3SK(@Z?RdP%Zn<l<=P{G0pGA8zMvMt<AqX
zSsqpMYcYQovn_SrtI0oiEjs$pU2E=}x6*cHC!M%z^-jeERX4|OUi{1Z)Wx_s{%Xgm
zm8%5Z1Up`sdIy9*{Tjn)xZ~}rGr_$AH;syVnSWQgD{G|Nn@4TZ{T$K|dL=BKKk3}c
z+sAruH|Q=qWh2f!T`$7sOUdoxfO5Hye@^!lh%dci<j;CTO`KtomPPlk_f<<`zKboL
zzUoXc<GVcHUfY!=lVY~>T}+eDd&#iw--`B9`DJrbXA}osWc~d1s&RUyH@gkP#p*VR
z-HRT?@+oWlVr@tT3GMWXo#M1I_LIl+7kg(O&RR9WEaBNEE32v(iM~vnPkS!ZY?|vF
z{cI;=cS-qrAqjr1Jm)#8-zVO>#K`ZEC!%@htj<yA?$D=h)4VpO&XeBYb?kT5gA+GT
zMQXMNweH-nvF%K7Z$ZhrAb0=LO)`Glm%U?G@!py`FDr1tNvC5%O%kol&e?o-%T8`E
z54o{(ZBU1bldnj%Zb;0L^Dl3iU1j%Cd$WhJlk*6x{sQ%Y_Q{v~>wdiT^EwL>eVOt>
zxMB7zw;ey*e_s1_he=GhEbgW0m&MO#xnJA$evQPgoY{}0-fo?>Ve>5KIy3d<truTy
zpKJN$?crNKHzJwYuBA1~@ocrexrK#e_O6DzEpx9f3VHdg^MgcHQ7%{27wzc4&V`50
zNgHfF>TuA9QReyNcHPfgZXXkqG70q)`nk>X68oO~dds^aQoIS9TiLwJy0hd8EqUJY
zIbOg1(QWqAgR?Aiwq0;wEP6BFDpvK5nfs5qR&_gnZ@B5i%z9$&IqB})0Og+8&mO|B
zHgXg=h;}<LifKM`ojrL?waBE;FXH0Qib>@-7@3@A-|qF${neLKOV(w+W4)cT@F3fq
zONkvS->jZ}2q_9oR{36(vF(CG?*`BAP>oaZ4F_9(*En!~|NB#T+F`B6rT+7Bgf>53
z9KB`|Psi^I=A7Sc84t2INF+b>w_D`=wAcKW%AIodHD~f0n#_M|E{{K8%_>(C_rH!Y
zqRfAt#`z3u(+5YjCe5t9vGl@&pC|7WFDqaZQdgau``G@A?7=PJ^JP@Em}aiiS+zQQ
zYOLwnOPe2B>U1|8stsMUUWM~Dvqa8r;mxOFC#@}a(7N<uk4CTjFK6$H*)cCB<?LmS
z%dZp*Ub5lwWxw|6Z?3<ddXMM4V}C)B0Q1)0B560zYj{TN@OPM=@>+PpZpq-~+TVgt
zJ-aP%_3ZujNjbH8Tw1;zM=!2+aTQtczSl@sai2uu)S$?Y^?`RDrPSQ>xa_R%`ccMA
zp>(~-bHO>PohR2Ve!eM^>$1>1WgVXk7xfUu$E>U`?ze*nbSBJTkDS+Vtiio;`H!WE
ztd|(;ZN--s?Un1?klL60U3uRBwhJ86zE6Y07EBD9+4%jT0JqsYF-{ZyydC*BCe7jX
z*mt(UlgF27)5h}`x$9mpGRpBh$JfgC(s8nCidW+P(&YQIEg~GECv9e2y3oS4Q}{Ul
z=a*7t$;)OgHqY_w`<1dq$7x6ZN%iH2e&sGI02w$#C3<4Szh)-KXtB<yn>$yY$@DI|
zB2yH9JiGnCuTx4n+kFJf1M{}DtSxoq`nN|z!MU+#xy77klBTzxxq07cxc>5$QexnY
z@1fgkJ<Qv(b?#<xN*kP>IzJ*~wvzX3IpO;&K2Dd`b?hzR^Se+G%dj!(+cwE<h7)2%
zyuAY&{&=Wfd$`0QAUOTzeKYf@re9Awf9rcTYXv>gOqc(~IZIkMk=bqH*(EUylNTK0
z483X&8map8J3hl<!|M;z?l5VZid6<*x@mT-Xv1x{49@Zcrz`_M%~n_E>YgU}?jFZ$
z(6E;D_dg0R8?H)ZxLe%+%Dn<KW*ZY!{Zp7T?zbL${p~BR-W7F5^Lw(J`4{eDEtTJO
zFC%tK%X9T&_1+^j>{?+fs`zRh1aDT<8GYaBtK-;pY~tgboax>%in0!dH;$|G+jtd5
zZ_r%nD*10wfakgM&pDPJW3LUl!ENEof70#?kKdlD9S7~6P00N1IO*S)jFqm1$?*mY
z_SZcVS8uiUcgsuh+IR1o#QyS%jSVG1|Ef$6HF_9ux~Noq`TC>k;`4$<EI(ea4_9u{
z_MIuesZitQjVZM+j%{>|`Ty(hRjtKwGlO2e2(jC`?49&W29>uV)90Lho>jCks7T$r
zNKxj%vzulwG?wprlH>4d-Q9|*txa(ztaq30YK-~uHK}ECWax^6Pk(PP`+73(g`CLL
z_tP6(FBMGiSkjOZcz(s{?JGB~O_;^{=K9M=u8sYCQ{7#U75`1$P!uv<#<V@acK^RQ
zJ915Or`p|Qms#e0j>+ZZHWjY$ZHqGE&wpOBVB>;aPgV#zg%;FW1>RjX%UStn2E+6{
z|Et`N%Owh(PW14qo#X$`Og!P+!%5%wGjoM&dUZ-v2F<$g!fo0skjT0TD@`t(4Gk^2
z`1C<sy!XBTd>&WjYidOqZ9e^bGV5n?#F~vIc9Oc?FC^zW#u$e_etc}BV8+#Bmm;T3
z++^_}$Fk+{@nu!A;u|89U!HmRDucmQW0mRcs|PiISH+i}{OxUdvMc7&=b1B>9X%O#
zH)77S3w!rX+w))6p!oj#vk%{_I-h*1&To}o<$vphhkPqms|!^!TEFqpn*Ppt|C7J*
zJp%JhXZTLt>cGNUYAfa#dx?>0#~vS{TWqQY1>dcrrU<8LntA0sD*%lyB_>afy#8bf
zi>cH97rHMStP`HAXiNI`-o3r;tYz1^ozm4HMGL<<i?0c|JF9PtdOhFkS<Wir)9$+S
zHYU6b{xS2W&hnGum5gzsL9TuOrmHL5oU$gr`NfG;dB3$qFU1xuI{E#2w;<oLwQ&u>
zXLgn)ZFqb3t84kC@2CCwn!_s>Xc@oyk+?B;_gk5B{D~})2TpF{zQX2JwKCk+X?w<s
zO?&<`PbgxTDfxIs&8a7g-rj!3%eiXPp8whh+8&2Sgidf`ad$5IVat^`(OCHfA4la$
z{y^^q^VYiW*8e5-c*o*@49X{%-1^!saD2R=zAX4N$L#ehxw$=VwrkJqS3BY}DgTm4
zwH)jFBwJ1Hh~C;AjIOecXLg-2E7N~fRN$Q&IB)42XVwnw`KM-|*tSf>D=fcj^|AhC
z4EOaJtheu1*6w+8<Vxso^+!V0YqUyu0zs>wA~)Lv<!o6!<M0RONurj&?#D6mE&La@
zDa@ELpUMAQ=-m&OPuayZh!nqh^V%_{xn}QM&xtxys^uqTE`8&?RU_7l_oK7Cg~Pdq
zx3UXTH|y-HpAuxSs%x?K<glL{dFrQ)On+~PGV5k?(O1z5eKUtq-`V!dx*Ob9*EP&e
zvn^54t_@3lDtn4o?CHhbS)32@YxXnb+zFbxPQR-8<)nLw({>-*G1vKY+RcV1=RQ4U
zc**7UYkr>Z$@4!HiWl6_;TDkOTX$Xhi~8Az%OoahK03cJb+g8SMjOqoLMd798K)k6
z>0O$2Q%Blhvx@EA_AP=O1-rLjw=B6V-_foGvR#cY=5xoS$R|HfGn%}ef5tB7;sy?}
z{<c+{5~rD{y^CpZ&z)LyWZl=RM}F;M4l>jaKkPVXy4_C}mBZ4f7j}LvW!Ld}`9pv&
z{Z)?A{+@G@2a+OKq$k|?R`X@U|DbT*ckkEgo;{W)q*~V}Fem!f4cA3VyG+jX7np%&
z;vb$1a!q`4BFJ{rtEavOYdxp@*r{Py=xDM{%a(E1(X3D37mB#pKNq;P-K2fu=hKT{
znIDZ$P2BwF)B5`i5#QDMKL#sA^@WCAEy!DJV$yKf`9A~Ch6MH77A5j>$119l3(68V
z-(lSB@izAOG&}wtg{e-TApQD;q(>61zhB%}T_qH@lOg%`jM^KmXFvUUBDW+?f5X#&
zekT8q-5LuQx3~Xe^VlaF%~vtMlYQ1y&o{qMpSbw{7ngvKQ_w;_o*DeX-+LWccCgj|
zsbTF{6n=`e#LV@WqWXDrK8vC+^?Uz3IizZ7@VscsB@V_fXDw$fu&?W1FP6H!{?X<;
z-ApB!Q5uf_AAkQ+6sXlNASCAbabJh`+j&z2dwyJ<<gt+3?8C*^U#wp?UDPZ!f86|J
zqtO0a4Oe!pHCFhx@Ll5EP3!eI&VE@huIw|%XTcl?;RA1G9uYH;{<xY~A~Lb5r>v{E
zfn^Ev<G62P-Ybr*zaq2f+QdD9R)#DqEWOvwV`lo}^(TutEKGcfzuOYqV(U%3FXH0C
zUfYl~Pa|)0*iJcz>2l2t`-2|Gn+mU3`#^y4QCrHa8Ltw)zu@hxz01g)Z9Tci;H>yW
zeZSea%u9nZR)6~{qu4r|`FO5^vdh;jcg|O_Cra2BAKTB^DQRgR;Wp#>2EWvUY}e!G
z9r|5WXB4$FuutTgxMsy`uX^)4?J|G!*Nd?#uIfKj>(*J6aY_DNZ?DYXz{l4cI%-lP
zpB@Ve<~I1z@YH$rM{S24NlVT;@hi8+_J>`SPPNhSUDfh++bTW&eWxScuB|C5{Q2zm
z4zV{mYKeOp+1pt(<}>*fJ`K5KrMd5--EPkaZ3jL5WgF`E$?tuoU2)yg=TH@MS)Y#L
z$)odS{QeeICtIG$6uOqh7bxg|rf^f?ic5P}-aeMP?BTT#&eyCvyowa&o$vX0Q*^=X
z4Q$=fs%uOY?7XFBG?lJjv;N`E?FzeBwQOa|ne6<1g`HB+lWW^6pEn%d62zI!eB!*u
zH@m5m=ScrnOZ?c*r~`7GvU%$MX9W|EPFQ)UVxHixXEK{EX(g_8vuJf?2$P>#-2U9)
zPlL*;RUwC>dN+9IiA-&EiMIW7_|fVGhiw8lvsrH}VNMV|{(Osv!tWdZpCk%hlP)OT
z(e=pF)vhVK<#PPf+4DE?{av+}cg>z=j{9tHrYUBIS>F3Ig*jq+3B$~X8)QOOu9+Q_
z|MA&!9fwzzhZ_R6FWGT)-Q-0D%gbxGR(uY=#y^Qk^758|uqLy$j~S$%f4t3b@6VL4
z&5P`OJ?nR6yqt9Jph?$<s`o|R=Ju&imz+5M?8ieDZAI6mw;ZoFyn8B;Uw4XW$*vWe
z>*FV$_<gHAqy8z=y+0zX5i>g(l{Hya@3`#!xaWYyq_SK7mNVVA{5bmhcx%JkFKa#a
zSzdp1*59(z>DhIbvYHD9x*87a?Uo*$J-^89gs)878nd5gvu_8SmiTTLWBKd;f9{Rz
z=YGx!GMC>GY{??@?53I8vjoPY{yUk)7IF&-JAZo^Cz7&fk7bPIFY5#`U8alCUPZlz
z4`vG;-B$Fa{J@s)iY;$0Wu<Om*sBsAZTaiDdb5)E%;Rz@pVoOFzB75!5&z0MBXutJ
zcCMh1K7P~NpY3P*o%(vg-d^(Rj1-ebH(Akz8}IDedpmU6s|U~3kDrMO)sSL(T{FGX
z%>M7iNg?d_8I`r|CyItuPQCqdkJ+CWF^lhdMQ(mB({|*bNx{^F+9k|4?)vY$dhz{}
zP{EZA3QtQT-?{JH_;+*7>c#gPW^Vm`Ld8)q`r@aU!~CzdMa%AGO8GkDNN09cSN~^=
zKM7I0uU^bQpklkz==l1R5gxB3OJ9GzwYD#=w;*I2zu+dN&A%r2?>c`xZ@X0$YsAr}
zRyM}ei~b2UKjww(zIt)Be_WtoO3%t?A3LU*+rPP!SNbLE_5)eBzIpbMA9EMIU%n+;
z_Agt{o%dosJ>L%A)hYGttG<2b)r+ef7yJJ$-Z-&kl}oDpE}oNRs~3kCbDUFK`f$~m
zhYQP6?n~!_?Cap**{l1dlI4cTf}3V(^6RXsG}UjG$xn4C*vO_bL(nHkQ)T<t%IMNB
z{s%N`4-_7DEJ>eZe)Md^cF@?APlr&r-YticyzpP?@y2V{TK!T_;E0h5d-BWb=$??B
z56>@5k$d0Z>%`Q$`{W_Uxz8uZZk)dD)r<EHu`bs=Si19P@6?aDQnRaJl7FS)p>xVD
z=iMz=zP<OX{Jcidm*pR_nE75ltGs(9blv(jK1tiREpoi~|9NrCmy?XY1#BM{ygpwn
z|7$)^<^TET1%r$f6IxCjzchE(T`nQB()oel0auZ(oKGCjAISWD**fKZiBy*Nz4#kC
z))!{%)SB_B`b0x;t(&#7NuxsXmuY+c3k%2wE|!?*vgLlSvgf(m@(Zun++$q4#cKWh
z8>^1&w+zzC*Ko@{`P-gxrpWyWuhvtizs(L>q;GH=+*&m3W-#K(DOl#qrJJ91R^jHd
zh*0Sb2LGo{;yJzc#+J~cvwtk-$j=I0DwfK((#gr8W81_@d<B*9A2>u;d)0o@$hp11
zR8RD5PH>CW=c<dASCX~EuClFBS~c-W+?yEn4L5bxJ-%%AdLE<y+M83jvePyP{BPLH
z-+q2o(~f16HbgYodzfvm*>HoK-Oz98|K0D7EwHV#b@y1i*=o9U^MwwPOJ!$o%`V@W
zdu=c4lCDP#4jblaKHiwE-7)i-{;9OP_Zfd0EhsRy?yudv%ER{9*4$fZccTxeT+Q$8
z-1@}x?H)PPgI^iVU*BVzbmQ^?j=%-}jSFP$_t;b=Z@KM1&+U*??}n~VoL71}YBugv
zGW}us>)Q1BhfMo-CzXDb+SL-dNo3in-q_gV%k}M_GID&jK6RCUa=~-A!?SOM$Jd=I
zZs|O%{UXkN;<sQ~n|mxOzdr@%HH5r9aP^>u!m=8tu)hA=7bNwTt;z{)5H4kK)^H0=
zKk#_B|GH(HN}1I(FXriF``Wax6Fa)+bXm)xUG=7i+60R>P2JU@>3=HMlGifouioi0
zg{${ZCg}^@QCc;f@9ylB)pyMf?>o&dP;KWKTvjC4FCOrxrS$dXeW$Yz2d#*6V)nRT
zvhvcDn1<PH*~&M{e=;1id(u+S^lZX{dz^XO1>f%8V;8B#@iM3*(5S!b^1J#^9^Yc^
z8klbyeNwow*1|TU<M6Af4J#J^|Ej8RsKzm6;wG=dPtCJ9Uu<1*|0(MX*Kf&1_Qp#d
zeqt;!HIzELu5S8yj>svWX8k|#E%7>AdiniSr+}pb)=47YuAbL2T2j6=?B@Oi#rOYD
zYdfrn2~sFB+WlVS+2yZq&p(WizRl!z?qaj#3D0%P-Cx#y6Wey{ySGDu?Bo?YRRbSI
zzI^aVYL2l))S++oD+J~{FO8g$+5XFW*^J#9!S|+EKPX+eMCpB@GnZz*zCu|%zgSAW
zt9L-d1SaKjCS{*Rz6$f-1X&w=zOT=?dda2PCzQTkzLNH%Hh*JF*R&0c-0EB>mo>i1
zzaSfTul4t`Bm3Sp^m4E7C^4+yyFKxM?!GM{vxR=|Vh$^;QF~n&bmvh_{9*lPt`qkx
zQq4KAFI@7Bhga&nOB?>Zo7}E=Ew8+>#&#ojV930k&aZBn)$x>Fy||x2XHV{=DW<J!
z6+PeN=kr~Rbr8%pR}h^SCYP9aVBV|yH*VBky=c#9y<(c9iQy`(jym=I7s6%#${G|h
zr+?U_&X67;B$gMlq*%7LhGEj2T@{~<+IOy4{5))1*^?Li8^d}HPF|hAWU-@N&&LPV
zU*^7kA+Nk-oj~*EZ4;OmR_&b}-)FaRTYK80_TO3Y|2&g~TcUR69&fMVJ%8-o!r4C_
zvgOq9KbmaJaQxiG<ImWSRZFPVtzd9m!`eP=b@OGxj*PlW*%RyT>oabY@Lcu4C)zEj
z|6>uO#R{#u9gHU*_RX0wv2OA5mx(pPzYpzQ_o!WZ!i-<RLM<^%>!SRG<!|4;VL0>0
zLZ+7HhNM@gR@a<RzsSF=^vMhVKLLzRj|2}zN=omZ+jZ#6yUE?1@_Gj}CN2qm?L5C`
zh3rZ7Yfg)!j`E8>5aAa4nc5Yd@vz)HnlY=POFr+wiA$$V+AF48Uyiu0{PYw5!ryDV
zPMPcO+Nfe%wCD><%<6epFBY#ha$Fhi`jl(KiQPSAcbAw|d3^eMwpIdEJI7UT*E_y^
z@yw1_yw_{4^GsR!Uc6z6qNJ+H1%pF7Web?TIDNP6oL|JQa*6-<=>q)~n%~qW9ewru
z#X{+&U8h79cEtsK6v)ka^=;jJhU@WdMmx2%?l)Zd(d6DSecOwy9lzD14<v0r+nKDK
z;kdl#Pij`c)T>{g?%H0l_v<#xiDe!oYA<JUGIeiDxI1~$th;9H0<FtSEH4;)U0k_1
z|8j22Wu~&-xgpz}m>lN*i`6_8-?zPF!(Fq(d9y<qc4Wz}<XZAsW?oRohrDF}-MQz~
zi|=eO`Y(F6qcm|}w&jzA?PsMDQ_gp~c|7BPdpKBj&fg2Q@ugpaKJV~jFjTp1@rP~I
z>?>JO$KuUyr-9Pj!aUD@k+m9ys(nIN)^=R#Gg!aiovc8M>?}Pdt=?eI>f1ZIH-W0Q
z&Qv2#0o~=&%O8Jx`k?ZQKv&4pO<6558x{N=cE0(tlGpFMq-)>5?cogt=_iX8cTa1n
zOD{gRiS^C0kT6EGoiYw_+QFXQOCNmqKj^bM=q9hkPP=}Yf;FG6nEZRv{yV`#+xCX5
z?5!l{)}<jCeEnwLpJ(4%Am4MTIke%!SB+NBFs6wO=bYu&Sf)SQz~TIfPvWM%8XKEb
zH~-#^%jYw?Z@=?iyrJ{7=Y&IN_MED2>ENp@j%ZP=WL7z~eo15CyUN-kudJzee<Ut{
z(|xJ=Zo{FxwxojNo}JHsdF9`G8sy8BDO;s<MJ@66V&0o6ZMXV#cILTes<m!mTv^F+
zJkHqm%M||$k5=q6kJ{y_n0r9y>D<=dC0>`q&au80+Vha7em{fAwF62%S2URJB*~{;
z->Z9h$%HR5VTlPB{;duykL$LZxaN97kVh8Z<}2SAc6gPaXMIt<IL2K*p24hhZ`0+t
z&eDC8|Czr&U1Rj>g+G@kv)4lIcSmPMicIkL`gZll?^74ozkYpX*1``W`Cboxf8fYV
zpKZFi;po1q<$hW$eez9D!`oJ<pHTn3?d++G_Zd$%iwnuwE*DQQS(<2<uzCGG#ug*x
z*54WSL2N%JeC#@Z{GGOYJ-g1G$pUp;^+i_cKYcg4#asS*F0)9jo5_)B#`i@5lFh#_
zTyDI&{@%|gdgqi`ln%_uW54h}<;jbytIOR^yq&j%VJpwlX&>~&FNDkP-7t5$tHZ13
zoiit1SgRtpqOV|<`O!CrL*47y-^8qO`>q)K%H)vjkqY%c_dtbNLC4q9-U<J7Vn6QF
znEG<vr&WvhGyCZsRD75A)O_h&_pD!9FF>WB`wZ2ct$n9byNXuyT)1zR8yVkk>7r=I
z>3m_$l#?Q7SYKQc3iz|+6_dz=Q;QGSt#MpxzhdVUY0-tk>t8Wl+1BV~JT>q_+cNW~
z9nw7eGgdgi{<l87L2}oP#`}+@mK=R>N`LolHp^eZ;tT8~r!iHX|FCF|+J>LKAF7vU
zJ6~nZamYOEA^7b;@ro7uF9%)FO)z@<;aZAv+_5~?rky1R{kCqr`|tGL=Tl9M8w@tw
z_^6q5aNFWe!@osB0WbH*^$Cb5KXGIB>*^BfH@~<u&ez(;^ibzyr-yb-Yh=n24@lb{
zli7PO%<2c<jidgN-ydeSOuWD1xWlcOt%q+nObo3HxB79*%stGu+&-|QI&SOXU}YCR
zK}Vi@X6b=mmB~VreHY$(xYE_}zUrx4lXN|P7i9N5zEM%!A@eu0eYu_GX*-upKE}L*
zbBuC4`&jqv)m+__R&Yl2WY|5khZ1wXo;@bF-TW!TqWK~r!4`Rowf?U5cYOc&+cKR4
zdOxR}m}K{KQ=wmITIJ(ey|-r<F%$==CT6&;@!GaIyPyvwaB+!HT*PrtPWK%v_g1<c
zf9q>mEU{##(3RzS2kJUf4o+tQo8@qE>p}(&CGRi4o)!oF+3<PCUQPB1s@hV*+1^jD
zJWE=(^VCU=FW2%<F|D~&;9#|0@WH&p+5A5bZmFye_FEg-bo7?WvkMl&=NfM6S2$X^
z@7H7(xOP40y~eKRPCKVMMI2a?yuolyjKg#R$7g*~OE)yV-L~<r<($al38o6KwMD~r
z>V*8Az_;N2th0-fH>9=9J*<;q6z=0?`+L>?6EEubv-C8E3I&|;KC9ksRi!7)oc5~o
zpxgm9N%>oPqVw-GeOhuSsrOve_m7MgJEUgF?KoC^W9z|}>G{tu7~Wv^Sh_Ig>qPGR
zX6jQrg9OA2Uajzm5m(=GcQH#TyZ)(-35)a3J-j||MF-oF_lwL`KQ4MAELs`d(Uo%Y
z`f0&UUQUm0vrRJd@;bVA<HvxS{VXnrPlRswk>%}U{e5gQ)Av^{u4W4J0{gm_obX&%
zbffm@{si}ks|WcV#Q3z=NIARwPVQo{|I0YBO<2^j!K8eT#+~nFFO1G--WU0O(%0Sf
z3&-js`wr||&UZ0){?okDX>Yc@yrt5oy=-e&c_6>S?Ppuw_SIb!c(MJsid{qV?-_!%
z^0`^dzv%p_e}DMwge?tA%1`XkpYkk4czb8vV-JZ7_w^Zf-n{emg8#ktR}1^6^`wib
z=CwWfJ9*|df59@pRITKdKaOTA=e0eN6*yV<W$#m$#9Oy?%3rN#y~A_TT0ws6vF$#c
ztJ+KZ_Wfa+qTcVBV`o|PmHpMX6-Qs3>kT?|Z*#&!Nx8`p`dsC$0-45M?C;BGeks_y
zNAA{~M@@g9>odgM>^j!Fa?+8wl@s4w6y@A@xAW$Wz#BTCsSk!-r3$uQk3MQ;Kf7i2
zA!}b;&jgW^J6M!BXFvVIs4jiJxaPvSSHD>k5_=VH+?c9*aQm?zbBi*c8F0>i$~j}{
z98TG)mrZwzOk7qJzdxMvXUYyg2Bt|d+k1-CWcF4vw5OlzP5C3jJ7eh?iNCU)Nn5nn
z+&5*DI{8CWs^CKA0S@KhyNjYyum1vxq_wzu2|J4GbZHCa8?x`#IOcEJF!$&66!FGa
z*Ftv-cUbRGHmU1kb1_oXwao6irv3ZERU_GxKQ!4V>^LlZaErp<C6D@Q16#N52kQ*>
zQnd1Z@a)i=YO`DUT)kztCG1m~FGWw<`Ap2GUMuWEP<5UF^UUVQ%ViuE9WL0$RP#nh
z^X${*JA}j%x@GNM`vqK`m&}crvC_I<@8esY=mRP8zoz;xye3j}d%=U&u%9j#`Hno?
zGu}GyXV5%jbEN2j<s0`$I=?wzPwcLJah_wQqU4Tj;a?a3>lW*U|GpsaaAK>H*L24<
zyy^z?{u*#wt$*EK$LOb*z32(kxuUD5PF`L9Z;|SZx)-nGo~kjaI{&&jU3mLWJ@$IO
z_SzTX36G3<c6%_G%UkcyTxj}f3;$onC%^V+^1kEdzO{Do^;qt0EWa=4A2{>&!vWQ2
zmUE65&8WL+y~Xy+F*`|llVytp&DeT8*A|uN-k9{}SeWE|jb}1fws`P|e$2gd!8Xfs
ze_YQ5qui<P9p#qA*$3ag-YJ%&S(dyyB<*?8B&FP}--#@$yHAzzt-gChYrXjn6COMH
zj~f@?y0LG4_^i7((pz3!b?U!bGiS=n$xaL7mzjT)OmvA@YWQ_hRP;QThqLE#KbZQu
zx7O`MVfG}x88rvrN#yJ^RCz1ow|nFHZJh}&la2-$9$F=;?sMoCLs;;9q3c^+R@?k&
z;=QD*uAZv1^Cf?W=G<Q*yb_BhI4!*ybM@`~JKL-m&-x|8dqVb<uy$))@r-S(zx^yF
z*MI-cec;H(|Dg?CVY1enL~2ayQoi}ucCopv;l60OP3BYJPMNytG8((){F=fnakE!J
zjD1#T%C`^O55AOod-ck4nF9y3WLI2&eP>nj@r0L8i{>|Ey$b%qaa*W!TKX3O^%pw7
z=j(jc{Qvj!eTJBq{YqEvADJ3sxw5VHd)kpQd9T`2vLC9ZJel0Q<*@akc}F}7-ES<h
zd&=1%b$n{ff;$h=zTdUxjdWP)U&*xTN7SRX+KR4Fy#sIen9aJf{0^h^^Uoc(E-rf^
z|8H*1DF<+SFJZZ|m6Tn?qipwSAL?xnyk7qA&)27m4y?_X<E7p+*L3lBhw~5Tvk9#E
zJ-ztGj8|=G&$i^2-R}zev*%vMS*w2aoefh2UtFHF!*1`xU4K(H^WXmTVt&I+W4j&f
zp0EFvXwA3F74?0#Kdz@>YKH%}7b`nHu^2Y__dA}w^xfOxow=8z>Acg0PcrgyPn@xP
zb9(W9Mzd>uOa8<?v+S9jI_v(GumkrloLhYAweL0=g?asa`mbWkvd=nPxpMCD$yurw
zMI|rQY<}yd=e6*s@|kOuHp+7hJLgK+Te$DN_jFc`qbrNhmd`7S7F&8abeNajHMJ|f
zQC3mba@DGzyTI#x$)xj7H`{Cz57>SGR*}Q&ILrQ5lLO7;BZ6ABxXP#OIA?ycHPl@{
zy>hSUl@pc)f~kHrLC02B%Iqup6jA!6{J@Dwu1y;kidgMbKg;yx{!`GfQ%+Fy#0yu_
zR)p;@$+?re8Pw`_e3GGN-njHev!Hva@5E5||4as(#2MZRO_hG%B%TzyQ|!&E#q~@|
zmUVC4J!S{Wlv~?9N#3!Ycjm8GoB<6Ry{Ab0bz_!4_|!&<{f-Ueg<b!DGAub3azS*V
z-t(f{IZH3xsb!UmDLbVSXJjn!^64a*YmriGes8^(8vd!UC(Y*(uZPx)oPw}So{;mx
z0rzYe7fVl$=oKhxW$BpgB-)lW^}fz21GSAzERvF9If>Kmue>h(?ds;=1yYkEYK>&_
zRJhpZi|CfT*~D>-=a@=Z!-BW^jY3;`Ztjb#`pmMR@866gTmt;ok$F#YF6VB39h}j!
z?sJFLuVkV8(nXp&mk;s2(`2)}vaQg&=-3&xog0dLpZqY<?C=ZhSyrLf{)|oK`6HqG
z3`?Vhb8|F1XY3Yq^Rs);eN`uZy?cZT@Ajgv?gr|=w{G|7tliHtr($}h;gUtKf1JK)
zWtS#@?x^ZM#;|Rv)3!ujicMYbU)DPN*s8_i>@}4$6M8-?hq{I@nJ>Wj(dLfpOf`Wm
zjGkRH^>1iJ-r4!vCTQo@^4iA2?_ZNz7Twu9kD(>&TW@SFd(AqlU)Bm!ADOHvlJRlk
zY=0Y5bM^ktS1;x_=={D|?&)&>Wb2(jE)Qe=zL-D%Oh}(v)Uv6uTSVU#Gf$fQ`{Mqn
z)R2P{&#PN`mx?c%_R6?az37X&z!J9;v0G1?rfr<QDff+a?1giQ#*GT5PTRIESzQ=q
zX1-?qi(tLyr!E?^+OAt6z2%*yg5;AUR~BvWJ^pSssClmvCO=!Lbm_IN1(UT)Y{L8g
zv32YUluL}O@=i~_Z<Q@^VCv%i%zW>5GJGw*_rUSBP`JL8d3fJH%XZd~`v<dD-+nf&
z_ig^{sf+8+DVm>~D|4nndCPX+FE5)We>=G{#-L%bw_ihl!tI!eMZtC(=f{*hZDLE2
zeWZAH->hBxRzw_SU-PXgw%B;)Y8Snz>4#p-)o7Xj?Cs$jZ&-IT?Ea#%q{_4I?;$hS
z6A>l(vv0g*-OVuj%iBm%o{7KT<ldXU|J32Q4X@etg;h3)3%G7xHUHIv#K|#be9QMH
zoL7JTw72WrS<OXfUY_;zJQ%luyP!bawd=l#WtID^eZTH$RMo%Y{<fxQvPD^(5l?&3
z%o=;vwOhWj?%tH<sN^~IHIv58t+p$<4XQO&Dms2O*)|wV(lChpAtl{zH}`MU=AExz
zOt0NhSDe1K`pI{TOO}4?&%B%d<P4}QlQU;Q<Vv5A)vJGrgwIZ0XZ7njNArXy%Uk?D
zd#)^>UvCjE`?t6y*2M6^<E4v!FE?2ok^Q_NV!P8>#WnvG_PjY&RG8h8mse6G`**dV
z-we5s38(t}?bQlvHg61cUw@~|*lC)d<f4bycQ!uZTUHsza6{nM+K7hGC2s96&WEbj
zxjwY}&KY4@)p`5P>b?0tS@Wu9OyS{JyXkq@nW>=6zn<rx;^sf+BGr^;f`#@on~Ak7
zxU}Kio8OsJp8U03qjqQ|!}2q+;*%}JpU(2V9uZ~v%lbh=VaBS;GdZ_a_G%n0KJfh1
zMf>LlosU?mID!klpGY&a-((Wr_wVSUj;@O?S$nlZ%^xlP-Ei5(;_IRgi~N~q_Svu6
zZyM3+wmEm&wZFmwQ(K<QQWU>B<&jJ6WjT>XR?&x7R`={Uo0WDsRBD}B{Jv7B*Z*8B
z%oS{NYHk~ZuUw^cDr#+Z8sp}z8;`RciEKMECq!AcsA%K*d8{T^53+ywB%?KbZ@Z@X
z_spl?&Q<Cxv--g>ssHRA{k}%Q)gB*Z{^SPF+PYCZVN%k)Q`4CYuS8kSf1@Uz5R@tX
zyT_nA$>@|)@P)H3yY#o3cdz8T*5Gk}y=6=F!p)*~54M<nixk<mQJcNg@peefn|Jrj
zOe3U!_e_|*$@_emQox+eGPx^GF}X=cM*Z$i$xw-#{PVo>Avf(OtcC^qN>VZz(>irH
zohLns?%$AJQ!Ib&=!6;uv5!wI4Q__S^;fvRdm7N)t25W%ZFN<ZoqD=L=+i^JrTNbb
z3{~WnWt84<cK0(KRu7c;`-*>u`>JE<>?eiHZ@XyCTzur=hR8`v7u<H8c;>P2hO}id
zo64fn-(5-)+@Vs*!W!Cpp6$%;d@kXf_3m0)S?#yKi*34dU!UP+;iGa(7q&I(UNSYa
z#H`d;O3nY<eEnPl=cT2EOH_ES%ltBIZ#$D*!@&0Pr{YOHBQZbyuNjAH#RTMPs~AtP
z<gYUIp0n3>t?qq|lg^>hJ4K@v=M@>aZsS(p`E23_1*!GhbE6FNj<PMe&~qUyd4gQ)
zTZUaVvu~~{)V{*;aI2%On&Q;RZTn@q=dW$>`TjlI;m95~V<QdoDvwWB-#PEj-BqY<
zmN3;#r+2rLLvHE$#LcPm%32QZ5S89=a`vSi8NEtpXZN`KZTWxl@(xipgMvR&S6_8<
zFZr$x?wLOh%Q>L<<jFaIhSvZ5$$R!%p0>SJyW^X<=kgCSi!O(ro5LBeT(VhI!|&Sf
z4-7^dw-wJcbe+{dA-3}Ik1sjjA2PNuNy_d$v*l`CMpVj&9Suj{9cGPCnW4SupNOjL
zt0f}ef4#c;?l7xFWM%s{-=ww_3-hv%q9@bx%jD%8^48wk@qyLwL`B%msqqYpUEUvN
z?kJGg^y5gl-th11(b6w3`8?*DzA$t@o6L}K_13w%ZHxSW_pJLH+A{On&7uYV_daop
zoG*WWSn!SUE(Y!PcbR;STyJC2wwrIWJ|y_oxXNuuevZcjzSJ$vH(oNS{qB)FFz1J^
zV^Me4^|C1z-^|Uvo%kjh+mLJAcwy&6yPYdGzj+=!VR88R7fdQoD>~aeOk?hUnNdEe
zfAa5(%f%Zq_&iqkY`!z)pW>nSdI^_z9Vz5C5>>l0>9WX<N!}|Lghzi!+TI%x?|(q0
z_G{9kTemMfz8{skao@X!sg_4F<{oV*{=T*&|JUoYOH1q7V|E>xdh@%A*Usd4k#{A|
z--Fkzw@ye~C{yB}BaxW->R8#)z~>_OuFFn%ReF=V;Yr3sw#V5mdA;YK$kf&_N~H2#
zX1cOz=2g>MJLPMu7-zV?=T4Wnda%p;&2j#Ti~s+WP>d4iT&i3=Gu^gz#mV*DGr;=^
z3_3C@(@sz2>MybXW!~`C`K8cnL8lPOf1i$U^s4NbzjyB4ip9}ETZ*RV8o8dxP<nY$
zHq+g3C6kGJ{<<@dc{hA~+m!HZidX$t7L)&z!=HU*JaIPuq+Zg(NsG@4<va4QN)%45
z+0U@&+@}ZrZF+*7&$hg%`LvxeX6A8eg_BB#?K4bEH4SE-XMG*2=dxty)RF_|G=grc
z?~~c(@oS0i<*w~)q4g36L_uwZmj*7iOlmG>ez#?lmRZcZ!n$M8k$%A<_EV?gGGB(B
zzG8e!IqG4}eug(bRZ$1IFGb#3CwaBkGI1J*S<588fcbM&`k8*&mFB-bwYKBmw#dLo
z(g_a(H19I+*r%bkdLF}iHXEhItCldEC8R0(b7*~%aod|~6LpByqPL_$Dp7Ne@X?9N
zTSNb{@I067HTd{2?9X$5hItY?M!iQ)D0TNwS>Pw!{*0?Su3@#^Q^pg9>=!duE}6Jk
zOx0q#^AX)&Uz1usO}o(RyMOW&r`fZd{cY?Q<^1~1n((}P>K_rK-s~%^7w?|6aXa$m
zL6{B0!bfgb<)84zDBF}ciumtTj`^zD@BgfZ>nW2}_lB2z`t#iD8O_dx*|?uL*?MBl
zKCQX!VhgUXv~lvC?Xl3`;mbm0FZR4Qn!PI5cfYAO`nd036%${capS8u$8M*6mI-Km
z@b2)+-EBu}yF;eADou_MJ9<RMXT>Q7wU5E`8cdBfcc#fDUM{*eZ=Y|=qzj-ylL>bd
zL|@IaTg>;pQnXd@?xFqhOo!$wBpEY?3cU&_4f=P?@6qx*jNK(B3ublogxcknFX(yN
zx1namy2PrM1$;pYLX+&Ar=PmlVym0*Hz4*fpMt4y;xyx^wUct5UAcPjAII(XS5nIu
zcd`eiJQZGa<BjV=i*4DK7t*XjN>fkH_}_J}!1dDM({r-l9rHV^vh&*=k<5t~BKbPQ
zELY|}F8#cRVYz3Kri0jd_2f>ovWs0?>&hQ@)a{Gcchjhmev~-*rQ6CqYkZRWT?HIn
ze${buH0DlWxZs(oCEIgn!*&hJnJU-W&dBI5xnR3Cdg+^1KfN8d)zT+F32KPmH}zYx
zZrJ@}%9C98^lF`4DyFKZ-ym0dsq9{o{uJ&4UG^t0{3m($3T*UBa=TQv(A6@%au>@y
z?hP{=p71#a+Rb$SenE7n-A<W@-!p&DnprzzH>XG5fpbZ0A{>Vng~&?GzoxRS*uux5
zh&e8wYfr;Lo}Q@C<wZ%icbS*XQ&U*UFp=BUQ)2z5tkV`Txzi-P3>ZCmBNnCP|9m04
za_?`MS%T9tm?m*e5Wd=a)GQ;=WI^~MiG_a4nI>@+bo?@5nxw*6r{sNks^C6`&72;q
zLf<iQOuZ9jS-nxFVEy~tmNk4z-v58GJy^-z;k{(KTX8I3uJoMp;3IDiEA3gYuCO|0
zl9?algDboodk$2%)V+9Z>11+9qGCzF#(>$cG8nY>ack^ZZ>`|kDQq8<vPF2oG{%o2
zCzXWeb?Df-NoZdW3E4F3bwbkPIFav5L>|`eWqR_+bI+EkX1k(N_4{Nmmdum;^?cEi
zQ`>oazIxp$n_Bth*N-C`iod+^T)TR1R~wV~E|;6_zVY#K=I15K`u?%aunU~l-M;V9
z3*NsMs<&JPi7|Glxwurmt@*NPn#JcI?S^k;{_+}h2b_Guk~sC=Om2f6+s>Z5c%Q-Z
ze4}uyf=jrN{`vI4Jxm8UF2`9u;40|a$dWtF%kKNSe+%?>>m``;?O>DHvvH#P%GirP
z6rG;eeKO$t!L}x5I#cbN1M_RXB^J9@Dc{(vWwrf~`flEvPdI{oS8Z#Os}kS9Dm*v1
zA>*9i*T9mEaqn_%Cp|c*%e$LlapyTr2ac*qy}shwmUhm2HTQkKF{$&M=7Bpq>*V%w
ztrwgZ%C`J|^pt77C3)=&GD<7un^;`GN=D}9^oNR0{2RP<Q+J5dS54<he=oe7JxBV+
zu}RL8_A@;7tz=UA=B34{^nU%VD}3fDQV)6R_evz*Sovj+#U_*4Rnu*q9<$!?UAcy-
zMb`C=SI-2F-YUMiT1z_gLRN*8F{g<IElDa`!5#F&|L5s_+1H-<?qn8wc-yD1?*d1;
zK(mGSJN3zTS9_(JD;(V?F+sIpw$#JDzHjHV8PvT9iZnf>=%WxKCiGxs&f7dct+u75
z`}1ZyPjau$UUX7*-eJ2d%A$8_cWil=-w^Vc*~%$xrc;Sj5Z{jaY16O$<#u@3p>W%C
z;<v+@{Q2J=UfNY(S9CIH0{_KNr*3E5H(QsxdCR-^$}&YkT-!Yk$b2&fEn!{z`?-2?
zYUxx3x9gwQK0SNvotf7f`<Y?l4V(D=xlT@B);}TkO8*r}#b2)ls~fg)Z1u3%J7Lz>
z7iYIg9<&R}-n2B7{puXQzAfx`<*vkR5Hq;t{))jZ@LuD`zM3wh=YJNw^Y}I~s$p{c
z-k2L}Rdb&&T%&*gnA}afAa;R#uF#`?e(e0Uw|{(psPS!L&{3%mOh)c6Jpu~4`Ii1U
z))ZU%g?qz$K`{dZt@K0s2Wnn1P14pCJ-ll1e#S>HN~cx1Y%*Qh{?E7nkVF`0)_Bt)
z7S0=vthO5q&Pgp?{!1F9kl8EW$>U9`j+gyj`$f?ogbuG-T>tT8z`d8(Zy)NOR4&z5
z^8C)4o3GsUQ+-!UOMKN>vxmR^iCeqeLV3~1zc1c{hGmvaZM%KU<MMLzoefv}|8Yie
z2j3~spSI@3<&tT!zYD%D-p?$SXXDT>66Dco`Hp+TF0*g1-2clc=4AxgH2VGCdaK<#
z=8n}b?hSP>K3TDH{8aGhbIWru*mCjRF44`kAhC|DygiySSLXiyb?Rnnl1s;)RiAe8
zM(pI8{KTl8<(R*0?Z!xB>-NJ_uCJ`^@CwVB{pH|Xjnd9VuV3q~t$r6GcYWfbw%Xp6
z)6Q()x$Uf_=EcyAo(cEudEfCSB-#qL{9VxzFk9(r_4LP=cGWXovkZM<=aKr*sB>><
zpZDv3d^46lt(>5)@Ivpl`KOcH8Aa@$@=3JDdO5WEckv1CnC8rL=yw(Ci6eO*WLM;U
z%J}}XG)VCK@63XF2IkGPPgb(%Dr)I{+#SP^v*q%GIDIawtbn~KiCOMCuO{1WEACm{
z_wWAx;Ox^oPRv{KT*0W7<GY};277wo8#@uR)3Ot`aA*bBxz4i7=$iQZ)lpEVbBU15
zKK_HJ&NyF8zHt5ob4=+Me+Lf!ORU`eud3Gc8O3dJjNQx+>Ur`7Pd(kZElX_ebKCYf
z9<h_V-)GC;V_4a!>BKTKInJcrnbq*l6Q(a>8S-}SGg4bPdLGx_`@P}EPmvotwX(PQ
zF`V3Pwk=_yMPaW%@9#3HbKOG9s;f7pNpC1p=glxlWsqa?|8%lKaO(1SeYYDwR!n?6
zxsvbk%6Pqftld?+-itTP?U$R9&J|`kH>e|J<^Hn3wv)3~3cCIBo{*SmG%su8tz7pI
z>qD8F(z5s>4R>z*#2I*Z+eJREee4}|U(~agF$hnQoPEQ>`OAKe4SPIAnzpasl=f?~
z^5jW^Njl3;hJWL<QAp6<cUDVSF-!c<(-S*2tAhJp<(GcVRbpD(mA{xl@ZpjjzDWm4
zVm3$rPql7;bkUx1;Q?mW6-qhJ7rDJySG1}ve>3CmDQ&!Y3A5TS*{f*nOW)G`b;%F2
ztd<9S!2#3#IJVxk^!)$tSdqu0i}vm_1eG|}2)dkme6je0=5)bn6CT~pIdHI!^U1>>
z3+0!4{q;S@{xa(5_L~jCB9m8!Z2Mrmt9bF#-iv*EW<R>E<M4%V`Wz9drJ{ij6MNsT
z{CIrFuZ!Ms`KgK;Gt_P`dt|xvYMAB9S9xzhIfp}Al~cguQ?<O?cFXFX)$)IZH+UUm
zmpxthdWHId{rke~f2k{cU#q}5k!!t4R_EqNaeS-g|H@8qV)ij?5|XU_bkUwCFT6t{
z9HdU$xQvs7_ip_8@Y3!L#i3Re%x-mGHD31rwTO^TuHAH9U*TBJ>)<OKGpAjcA>*%n
zC8=RuwRE`sulxUg$}`McpjQ-F@<mE~&x&i$F9uyWYZn8`>r4Jz*_q*cW%=@Rvnqvl
z7_O`Pa$fMz8%0mmk8k|jr$6C7b8N@2i}sAg4+O<F3jZ!VkU!HMoEoF1h)y_jhr9Dj
z2lMZ<#}~VoZn19P_N<WEE8bnmRrk@&`Cr_NU%MrPQ*%lBq92J57=ChYKJx8YQ3NP~
zd-Mh+)SO!W-n{jl*>#XmxkF~Ar`OgKt3~o!_g#{YJG_tk!ZjN$hbs+}-GoExwZ&Q1
zxfY&0$+6|t=9)!EG-4GePCoMe;mi3<j`sW;Zq0K4dot1M&@6v1>(H5p-#Q9EK6UZ`
zzxY2MTleyNi`%>Ayp6dkv+K!|9YtUK9VUG62=c7bTVXk;&cSG%%wO3J1@Xqae!1>5
zeXIUJ?|nWaxF$U5da6Zfb)4VSs)Dckl42}>sVBs=)(aK-$5t}x9o1MT^S7Aqr`($)
zDe<)`^J8NtcBuY&3_1+wgqiQMtQ`u|4~unlm>J}SN8XzvuI%%t#)(h!HQO=`j&gU7
z*RQW~1V6jZmm}7t{LX*b!(HDL_d2+6)qXtLdidN6_jWtG>Xyq_l{yN)F8=>n{r73@
zzFJGW4^LJG&b0}%3VgA0*U=rII8nUq6t7;jLCxhsJ~*jKEVZibDrw*h{pp_nb#XmY
zSm*7AeCH<@9yhShza<!M|I2#8759t60yEzi{CXY8+Fl(L06LTN!>4@<bmf+wF<wz+
z+a<l@ebMW0v0;U84sKkpRkC)^cHY?db-j1nYNzunB*lKwd#)v8CA<Bjc<Qb4pDlA=
zKbgVo-CuT<qj`=*IbZdL_n#PjigF)Hs{Whad2Z+GJBw?li!b1~uKP~L)yn_o?+-U?
z1xvr|-z%kP#t`zO@^;IjJ6!iw-1_47p5`|2_<Z){+v6{4?R2-?`&o73;_C9BJp#QA
z)5P3nRq@TX)f6j8m5bbwDZ1%`R`&`=5#Oc-o(t2GXV=~UbqP7z?9c2_I_kV@&XK(d
zzd;8aD&M{`v%#9-FsC3(_#+)B^H;x37qmnQsJ1ORFPB(XeEZAP$~}x}H}z&7<y}#+
zVkP&sUB3lNzwEbVT<R!l%XsO|GL@(L)myg<#)POAE_2%<w_HkM!~7j*XUo{`Sn2i1
zr?<dsN58bdgk1}^$=sR2{OZO3DyD0>w@ozl^mqL_oZTY$(M+q;*wm@w%M+8X76;2B
zlaof5-*Bv+XmPutw^}~+VMoL5bvByLb{iYc&N!mY!a7ULy>oVlt9bC5hy5F*Cs!Qb
z(&2ifMmmDev!Q&+UEa{OR-n<myUwp{l|u_dw-*(!e)tHqtfDN>n9)eCzQ|&3+bZoS
zxyP#(*Vh@HP<x`UtRQl;BmVos`rB))K<(j!lJlF+g*W;N)xBu;f9vofeCCm=mP6ZD
zGF7~C%hcbg_HotX{rv_-*({r63JwP8)I@KnGkzoyF8lZM<UqGcOKWZRzFofZY{}9P
zB|Y0zq1A$m=J0v`KiLrdrgc}(?tS-io=v<Z${EY_IOv||_333bcMfSU$+)V#l%e?H
zcL}Yij%%w=T$&v!_iW;=hD+b4S<Jblw&ksy$%~sWnEXC_XdY0!I6+5BcX>QR)nrYF
z+Mow&E8Vl0`P2+1X$GaVJipq#PrWtC=Bvj_OPNa{oVu?Ak8I0*leAu+d&U{%r3~FK
zbV3)#9dmBdvU@G}Zc^2fE9%Aanwed``KQu)ggH-j*DiE!u393JAULr%uHtr&@Psc*
zm+BqJlGFTpa;0bDzX^{NW1|z99LrkH+5|}#Y_eo`xTfNv&Ne&O;Sy7sbM)O?_Ce1)
zZ*pDnHhp$j@ArmZ4Ue5KhnXiN>N0&=qNVL0a#!Sbug=oNrS<Gj(%Q3IoR9Oj&v){2
zfBlb-W0v95CChHyQm?zQW`9oKy^FiHH!OL1=6ZOZjKX}YGmnZ~FM))v^G<EI`4YOy
z`1Q^9yvkUssPE+mcJ_Qbm%dBpbYc|uwYnn1EmwIfV%JQxmwc4{O~>E<&75i1{_g+Z
z`sVGoE8N->7z0ju^|iF#um8yeYR^R22Ufa2oO<<EkT}CG%_Up5yqmA=!XOlwR5$-~
zV3SncGeh0Aztt5?N>8rM@Qg8edT*EK|1DeIy>IZf3Sjfox=_5!H|dGxUO~OJzpWQk
zeE4#*H-3N7rnH0MZ#~wO%F8z-&pvX-*+k0mWUhmN;5L=ymzGW`*_s^_Z+7PVn%rIe
zMd;p?aAldy!p@tWAy(dp`)@0hIW2PbKd|kS#?)}jmn%F9z>A#EtQT8)a(UT0{u#UL
ze*RUz?D_Mx<)M>8XQnXE*d#yMY}y~eOJJdcwfT+@5)Xg=ar*l%25yi1Q}5S56EJDH
z`e=I8vXr;?s?-c!qzi8UVSl*qZG^a(mLs1+(vtR6uT$!AAuKwwcg)NWoM~N=QKnH`
z>2hP$T5bd7Gm|Q73=d6RI$_)0!%vpn@jo}IvW7{FGqCVuK&Yx^iF}o0!Ibxpx9wzH
zX4@{KV6M63-DLlOnQgb9u}SPS&KH}?BK1&H{iC&%3lH=5v&<Vf4oV+ct#gazwPa~?
zW<vYJZ95s+^3t5mOB3E*dg<s~{NiZt1=ik}&FT+2CM|6UzZKz{w$whR-%io}|L3b5
z!4Cx(H_x;7Zr*Rwsrw*h@(<R8XN!-sM4$ST6R*Fg^6Q2Ef8W^^R>p*#du{l;PNOWI
zuWqAT)ZZ7a+jcc?b>&DoV!U$3;mVYWyGpgsM8^GnF~8x(dxvK+PeLv|tlb-I=ml<3
ztk_p$sj%MX&*9G=Tg}DaymJ4~;^M4j^jwO0kyo+(mwz%|c2D_ksPM|{^t9GJ)w!kI
ze&>W8^0hULC!WPT@XA&S5>36m;}WAsw)VEoOex(DtLAVOPy6*R<w#7-fsYGso|FC%
zb@fyp>-8Tjbz91sj@eeFZjQX661V>5R*gyBPKpay*GxN*{4Mcrju>}^q-Sfa@s>5}
zH_vR=IJ<mp(}XWyi&|DlEq;|C!Vo9+Cgk@8;TgRPqHFfExG*X#bzI7|@<sUiUB5S+
znq9=+BeQ6cdsmT#>IwxmLG?QVj#JH_@=5FvX=ivDypn6>iu5bGF0M1D1sO&)*mtbF
zuM%=KqN?Qk6D2`|dcN6#hCvM(i#_+rWz~eO-!b(|IkV%5i}Iq%tTUEwW3tpt;>hcl
z+bK{k&lkLBTl3Z>>B@nR4z`B7+JDjW)m~fo#s7c~r__xbSDI5lCwMNrIQQ_?{(pQk
zeoR#Aw<}1^z9f20@2JMwI?$}I@4g8NIWaCPBSY6M@sIlZV*dP|s=zJ1>lxm>&5w=u
zejOL_-TKzVhz*=AZvUPX26-G5H}?Q_O(Y__Q;$lm*i`yCK{NW{y&K-I|5+YVm?^i!
z$kRD!`jZ_`CWCY7mWi8NelO{}7ZOozYL}UL*WSJ|wJPH2q*-?~!lrshyB;nHjb13O
zS{TCj=xK;R?3GBrceN)<zq~xk5vVk~WnMr_)6T_5-feps^!dlpm`8X0)IZFbXkwdU
z?71iA?86fIm3pTA<p+LnuHu<w-TPF$PvSwz?(424CV#3dotAKFsC#WIQ=DlM8}d%i
zYx=C?(hvAEb^4Y$=?DleuX<5?e7X18$Hgrt{3e`It*zqiN^*Ib@PG1p$^W0Xhd1aJ
z-b(IT=V3A3d81B~J#T`s`L|_!vC1s&PmF$Wi%->ddb~R!>ix50aSirQel8L4ov!s&
z*-GTzkE+@k($S2Mu6kcm+v1~FeCzhH+UdVd%)hZMajTWQX;iXb#qfZxZCBp1ds_Vo
zc{#T2C$!zecvN3DO!nu@e{)#yZ13Kf`l{*H%MAkMOLJ!jYk5Dk`yMNI^3DxugH5xf
zgHASIP5!co<+`c#O_0#W8H`sWE^aMl^otdLuxaka^>2T(CZrt|<`7fOd9&!g$aKX{
zKhsyo!irBYZN8qsG=EC)n!@`x%399exnV6QyrkV~W+CGt-$3uC-A09(CB@0w4(}|B
z?}qG<5jy|0O#6?eOq<>g71zu_mxO7pZ&b`Th#yT(S^_>HXR`xmYPV7T?8o}TtaoJ}
zioAZ!7qNq3Ldw<YFD7^v{cN~+fz>?WsT_Cr4(EpFv3_P+Nn)v8U%&oIc^4QlQ!-@b
zjPTh??;_n~LHpd6c1b9lvds>8xUc-_u}raGu8kEYTQme-p4B<*ptLti(`2Xlw>9#+
zM3R_;iX5K_oPV)Fe9h{J?vh8>y9I+Jg>Re1R9rQ+eb&26;Y#=ZcqXw-jlOF;T7|B?
zTKN5P!D{)vA`I(-X3IzZx?tXC@bGG|cuv{hDOW+G1x(==z8uUy^>XUZbzZVeI`R5$
z9+~`pOZ6j{ESMaVr)9jp?n}9YR)u$riOc8ES=;#YnUe0a75vof7j)uo*4nAS?4+7x
z<@k7Q5vVXLw%C-C`%-f0<~?tnwcdaFrpToca`y#WOzvaOf=|X(x328#Ois_ZJAYT;
z-cwUoKMaV8Q%-MSh<IduAnkn7-3G@c-`IMV9&0*&dT;4XofSNn(kmH*{@QF_<q)xK
z9`|fP7wOx^(~2a%>Bu{*J0%n27Uc0D_^w$T|19o;TbpYb0-yQaZd+$KX|bhS_4ca;
zX?)wS*?vyAp1(|5y7)%qq<Kq1Hhl_idw%cP+S30FE~)k(<JsF+J?re+Gco=|^y`0Y
z5iM7*-`KWnnxR#8m~F61{@UN{3dK`boSC+|+5Lh}aJhUQNW|pbiDr#8a>0u?$=rG3
zbT8_Azhz5H^`we#TQw{*P9L;Ay{1$?o?+2q?!Y}CUd1Z&o_bL7)2zcs<JT9qo;g-b
z!fGegwb^Yd{uy1F5wfU&RlQCiaXE*r_Qzv<uOv%P&nlXu7Py14^ZU_!uGhC+wkdqu
z_VJL8K+Ml7!$Ze{7&R^>JQZH7_u|^?gEl|vI3ry7#f%EC{L9SRe#rK;=1iA|Y;P{f
zO}P<T6LdxWxw*T3>ST>O4U;2TBodh)T%7Cd?kB!shRZ^Re+tX;p1N}_{ieEVTGP+o
zEg@-Ze}BnpX+G^yaCqUHTJ@b>@eCa0o~m5mIh2cCH13#3oKN)o`s(L<qoObN@0FMM
zx8?etY!%4M;@r8vGI+w`|F8FHm>g1>`Y-sCX6|{#rFwTxH`aNna+xPQ>YW>I^PA~j
zr_-i6HrI8YCw$o_R`|Q!W47Q{j*aV2NPet6SY=jr?xXYT+FXaO>mEz%pDw;$`dj_}
zwv(BAPnRE<Fnx#P0rl&PpMO|p$7=WHd$xn(HK*FHPgS0=@%wTopKibQJE*~1m|6CE
zMzXwJ*+<ceqIL37@4a=sVtN#IJ$zAQQTXQJH`DH!#b4GlY&N(Y@Xv4BVauwU`f<*O
zm6v{B>MpV57|%y%C5x<yy!wvJjX_JlFJ-8HEMu$GG$rOnpMPiG|EJs+u3gmM{?&cj
zgqKt57C)J#aXn{8|CP0Ub<A;W%S{yHE-}WIUn{s=@H5PPy}QPxpc58C-45b$KUdeR
zUL3B>BAdoN)nwYCyX)t@{&DBki|em0dd|!#_;gWvm7rUVbH*9a-nbKj=hV6aR2Hvx
zdlA23yVWn=h@IZTk$j!p@ss%O{yz5@WSQB^_1AYUW-~M@S#r1jMSkg*td<Uqiwiv*
zcPO2DQ1bf4=e2$J&OCf@;cr5ela+YRCt(wigPw0Fe$$<OkbU>=)6!q{+d(_{L`1i%
z<UV=%)MlB-*VDb9FYanL-<7mF<y`5vC2py17w+8CU~Ss->Oswxce)AxTe#%+o_1Wq
zye;9}UaiZ02D25~<PsnM7Rb@^Soz{tYI$JawZF0xo<=uo_;c7-Uli)GO#k-q;;#Mm
zMobS=Zu{J8-?^&&p6dK3i%atv+0~;pm+G0UEj*!qcKWT;?yv7L`NfGa@z}K2vKy`t
zIn*tm_DfUrNPu#SCXemJlkWL%w3g)jP37JpG0A6VOy%R(OIRkdq`wo|%6)IO%{>;w
zY1jVBZpg9wru1~`;$>f#t+3Hw``h|K=@+Hj?XD^wQ!{?<esSm0uKK<S;;J1+^WHK0
zU7sG#Ja787zp@4!IeG4h2jBBsY|<sP`(8#g&q-+o#==;J>k%n;znAU%xa3xnhaJPt
zT$`2U9LeRk+e3CfIR7xo;~s<fLPM^j%Gq<5W~|rezQHRW&1fcAy|U4MZ=Ri5Bwt*B
z`F79}ghg9shHV$yc<74OZk3-sGJhW?Ydaj-xVdEdQh&RcNAE6gG5U4!|5u5J?N268
zU&s3_sD0I)7cxa(>TTUTj!HG2-5DCW!fL(i{9BE3YF+(%8I{c&ThngYq^ywT_{5lh
z?Yd`uNoT<#hnAM@{sPHACiPEfyLfH-spTC?kyC^(uc~s3U8^PXxOT6EV&RROjPB`j
zQFE3t#M+rvOuetqI59-wz=?%TRY5Z!pY6Syf9?9u6oLOQY){pExum9kdG+)9PiKEw
zHLQ54Xy%=$$^ErQ$oUlOp2&Fa2}Zq>Oofd?F8*b@BXraz4|F1UP4MOJ&f{GYPQSOU
z%+Gl<b@B8)_ms}WE#s*2y0j=o?MB*VpChL)J_jvrDob2es@D<cf3UCMm-3cdI$Q?c
zyC+}Ww79g?a!1XZJw;#q4=DaFaH?xubui@2!ri|Mp1yeB(7g2J%gN1C_RD{r@g%%H
z<=n;nOgWPlbS{dS-Dhs~Mmg0zBU>)~b+df$>`mzx?=N}b5v;ssU9NG?*~e^qa&jtP
zbhETfiAk(_Jc~E_^9nbK%T;chpDYVWUHxCrKl<|uhHj3VU-kT!#65j;?%@{G{#TPP
zW_9tL(|B@0c)MnPQvBs>HhBj=cFykA5|^4kW#enNz~zsbZp}K*tFhAii~qw=KkL7a
zolfRwjB?K|mP(8g`SSHbzFk?~KDnHER}GF`=Unh(AxHbdIDN_3N72tNGHv5OD-qrh
z6X*V&;raJR7wymF%l*0;e&-oqM0ohklbHglocHeOo-*huWaYR&$7+3Qn(&#!X)EoN
zIj(O=>d8NFWT9q>)Fbx&^FQr+v%N=Cu_oi#4yG7>o4%M?VZw)}F4hEX2ITZO)sxe-
zV3wF|%Xd%3M0;@q$zwa1dV<thXDMtoxOH32e1G1S0@>QCuO}N-b!IF~d$MLZZ_=Mc
zhHlg6e%Ew7SC)zHU0+razx|g8cf?xDa)zC<_a+Hs%()aZz4>*+;e9`<3=h5L6u78u
zGJEmb?Po1dnC@!0JF8gz<kXg1g079}@5*PIWbNsVov`@-@zwruADv$asp_ttcYjN2
z%euv8&&3iZhV2jK`rNMdS;bQ1yq(MK^xSi@4swZtQl=ke7yU|k&#7_ZqIPi}<GPX$
zm(-V;r|ElbG~dSR;})KBF|fX5r%YSO%G25>CVq<!kKD|^u=M|F;erBL+co;r5-sLl
z*XVn%$5r%2-_2slBy9s-MwO?f@<Ipi#!tyAaW#AJ#IB!Z#*Bcl@>;H~S|6JvR%8Y4
zQsOG;iYPhl_=59s&8F;vrk5*ATtyy4>}oHux;UkR*)N`RmBZ_Q*R3D$zo_ke<RW-G
zO+4`0BX^61O^ZuhMH0kMUer^z@l9Acdu6q}lKcPb!Uo0HU5s3<n4j_9xL5I|b&lCm
z?L`bbqk|vq;C&iu7QB7$#fLf<cG>Sz;@Yt2L92ywZ+K-iU+FJb=NE0ua^Fl{pm>vi
zTW*B&rULr{HlMmswU!H8dTSY)TYMs0tv0_>We$rkkiO*(8umZ(peN=xuh6Mo8((ke
zDdfJfrni<MQbB3sSAWjiXC>BO7Gs#Tc>1ob8^sk2m2ZA@^ZPRE@HXig*PaFUcu8G5
zc1?LosN9<T$=l`!-Cyxh{K<={y|oO5r=Kj%4-WbNG+TbxE~OXDi*w&>KBX<txyh>P
zZ<*#1Q>Sp5tvYL~H|B<Y5ue8VyXwTQ%UbW#xA;lV-P~~U#tklmQ?)1ZyEDSp`j;ig
zr)J*0&nT_F)k9H4nP-)IV)bDTEl{`VhU?LeS@Vzahb`u3-%z<PE;8zSxr0*0=BH6h
znjV^z<bCXA-3=Pun6fL`O(6V|%CeIN3ETRou)aBVEUY0w*yr`Z^I6H;UwN~OoV$2@
zx^l|v)t7=Byk`A9c~)P&QLlB=M)QOx(>O%dM=Y9Rt##>CaO{Ws_W!>!9=MwRobAW|
z-{&P012?YE-e~_sO!49O*N%TCE>U#rkD0nfPBZ-f1`*NUmm03?7SHXGKe0MadSS5E
zN_mIvlU9p}{@&E^)#|kUi^k>Li`hkw=l!3)QUCN*70XF`PVIIO$%(f+8Qz)1Y+J*;
z$<X2YUw$LSMcY>FY`4m`ladHqwxn{$&Y5~ji})|!yL{zheZ<4x0;~$%3zlj-CGWH_
zk;|`q^<sU)#BXc$&&7)!SQef!ZSKn^<Lvn7-i?YZj1%W4w63o1b~oGqG~|1LG(+EZ
zcKu04a+1q^N>BN|mg<_5UwLKUx`y}qPxh+EC&nzV(6riSD0)q1#fQI%tx0Ry9pZYP
z?v?-AnX7Jh^X)=2sQ@;&M-yd(UR}D9v%@^WsQ$1`R($vYw^Z#g4`u5=ZISK8X`g1e
zzkSWu!NNFSj@>P+;P@9ilYaegFY5O*m;Fm)IT9MMw_^EP>!W|ZfXf_#RS(3k9*j_&
z^1qOI*5Ym<y)Mfu&sbWvy>UHevG1wMu3x2|GX-<>qT|>Pd}L2F|8VbwexI$^r)lAi
zpJdO?Ol!!w=UaJ~ljG=_?tS$?zD)SBLPz0Ne&vRD>l-HK@-s}D`jgFP_0-OSbAN)0
z?tj`PEWk8f{E<^ln(AuFYddeev5T7RUwQZEi3O6UD<gIs@_p-2ld&)L)r<B$e#~M;
zE^#^xqU#LwMTO$JTrV%mzd7Z4ro)orP5dXVbp)P0-|Mvb&75U@a;EL(4@#t(AAYO;
z{AlTfbMdQw=$_qjXy*2NS1!gg{<YxW{G^5<rsUupxun@E7w>1j*3|pg@8X9QOIHbU
zUeKQP@gYc=tf#;JugTR+zg)c=;x0bAy#%E4P+8-C#d8Olrp4dx&-tZuk*{*vDiMV=
z5x1R8Qr{IT7Q9+|queWSt~>9I8I~XY9NSs+Q?KS0RdsA!{mN!uf6ODBjogfvjXF;J
zoU^HxX_XCYL*4tsvwlolS#v0V#}~~L)6Z7#TxH|R?DlD6e89F(Ke863iydfxr|bOZ
zJ-@a{w=u(}r1sh!Li69`IJ;JD`d7o!^7%4%IAfm0o++s*)8$oeuLS8<WAm&@sY&bD
zH|?UK%B*kRft6isN6dQ;A3XUmVD7%)rn8y;p-(l{6VeZK?quxzUevQHB=uGBj-6@q
z7BOnaAM0NG#N)u*(69H}mt}Muu1cF%v`*lU#-BF6tB<5oPMo#LeN$6;cJcq~@+>^B
zmp-WdxRhZ<PiMnsh0I$@OHKR#v2|?ccDT2NRe1h0uHdcddP_|E|1oiVojtj?*Xp>n
z^zB*hAr@!5>&}A0{n&ITr$|Yu6Pyxfd-p!O7|&oVYGSd`_|c4}ncS)Nn`CRZ?#bRD
zwPAzb;pvC0T_-=;T)pE(^i9(U-U!WW59T)62Q_hZ7QUXjoVWVR{&x+%M~&@_{%vPE
zcj;G<-mZq?+goCrZ5a>xJXU_}q!m|t+9Ut$7N+z|YYxuqzjKW7^xL30Tg+HLBr-7O
zFNkaoZBV!-9;vw3XX3rL6Mn2rx%GG5L8gKl#<*A4Yf{wuJy$-wbTs)7OH9lo;SYaT
zEIi2-cvt_$`gQr1HZhE~g`NHm$GxogiO6}p7yV_rSm2k;=jeBt*Ax65Jl+&8-|#ZZ
zz$v>{^WB_hl{Hnhg`MjgW*!fhxc%(!iPuuT{}!g)5}*F#m-H!B(=)tYQ`*k{;eD&*
zwthET^-tbN(UU>%od2F#Jw0g_-^Gg5YYFFboAuPgJkI7`TqheKFmvIFIqvr6Wl`EX
zzUQ2S&KD-FKg_sE?{)Mt!zKHe%oHq&D^B<APfT2z$vCTMlFjpr_ZesEAKoUi+Hu~d
zrZS(aTfZgF`~1Rw&4=2%dmg;&$YwV^5z29BgYoO7Pb~ZYF?Db@to$_5^QFU=t-q=y
z9%Q9{xw-T+*Nlc4^HugIK2|ngx}ooGU#`TLm)Z`Defg1jd-bZG{XD_1t@B)T17o7i
ziSB#-Nm1M6e%>+rx`)Y3p=;NVX(u<V(<oo-uJ>)N`?HPvn7&1~Idd?aJmH|Ip%dk_
zO|<pq*Uwxxv{{aRGTpsRbP~tbLkYE2l`mf`J!537;*(u9zfynKtCPq4qQx(q`}~1r
zj@2(|g%?fhEvuwV+gC97o-B*A`X!y<&hndW3D1k#nzt)AZM>b<Q2FwOe#1o9ZgDj}
zLy^v)GZD9sadm#abTOVmI9(^9bxu^cLB9Xm3unH5x^(eA!^QFm_Y2a3x~3(V{oSnZ
zzB8XOt;^)emWf}s=})!NtNLt{(*N(e?1l^JowwP(7ruPe(E7LK=h6W8|IcLwLMMDb
z<|Z;tb+7L4iJv1yEx$k95&ZA``u~avk+<36*}^>1UjLr-D%&PwPe>>K0fTo_tP|W6
zJ0`9<(mtDAdbjLt1Ev4}HXQoyYQK)**B0^f{)KOyt8cdyF0WyDGJVof38tf8Q>{eg
zPu1GAZQN-8r|rZNhYjv$U-RCWeqQKZ>Sx{d!sRiHkAL$`+&)L}+`=8})Thptb4<DM
z_xE>e1ux@1ebvXh&zI@QA56O_{rf(9!o=QM)-#tDd~8<hs5_+feJOkNR~fbGKlcB3
zJ8*MBVMujCt4wX%rLT)r6W*-~wLg<s)ama~ad+{imi(DNH>sU$-j=n#pr|vyVXD5W
zx8kOTh}CA>YF{5csk)CL>{s&sf}V{to*fk_klhegby_<&>h0Wy6_+2FKlxGdq$)J_
z%d)>r+QPpIX8bqG(YFde!T9)u+x4~W3+@*6pER7;ewgjZ62(g?8x|HW*O|RTL_W^T
z=lMf}+wy&Fz6O>WrhO9CjA_>K%d(%JcXx1!eW17T>vy&%FMj=8IwS0i<+RTQ0Sz`A
z7k6l$zOed?_JWzm!`D22xPj5ofT`bStCiEl&|;69W{IaQs=hv4z%W@|VWj}8(fMuh
zrzYN$YiHj3uKw=*qU2{sMALS<eV5o2lH;m)ZiVU@_6Kjm6q<Ga@M<1CxP1FNkr{e3
zKPE=?39Bb8V3yp@+vGjxhWDb5=}B@MGA;dL!Z|vX7$lE9)%&L;d?96XfZ31Ff*Xoj
z6K;ny?F!xQ`S8z|zS<d=CfcxFjY(Md{U2}U&l^*Zv8x?@wtdd0i8gI_V_w|k)Z`Zr
zT9*|iTr>0S{S7iFlW&}5ReR8}wUF<bqTp=pE%|#x`kw?c9$G23U-56kJ?#?T*r0=Z
zUIbfDa{qclVAlhiCFdrs-Loe=Lw>_b`IC#QH0M1}oc6MG=Z5Nyb<USR8Fu&myUcab
zC`!@r)<VzPs%2V}>#DRWL$q5Qt&}5bwr8}z(_V0^xW=gZOMM-S%ijz9nttmR>4+T2
zi~e<CUbJfeab@?DFFx`vmff{Q^oCj5y7tX6s{Prm@Ar3BOP0DEVXDyFE&C=%THu!L
z$|r?y*B?8%$A*7yOL1Ji=1rbk#g>zfvqsFAe&K9K+_HiNov(CfZ;xB&{%HrpLj%DR
zn#&qv-{tVX@6FvmrA(!t>w=<Vjj3mi(TvAg@^Z~b`~CI5D_4f}_iX<y70#%Ab~W=q
zHj~>0J9j8o#x%@4q#eh2X8PPkYZr+p)SW&mfATR?&y!^43ENqeZqyzyi(ce$XoHuW
zXu_MK1K)HW&WX=k{nPQAUwh3|8$E|DeOmqc(^amY_MY15wy=_QN=e?EpX`N6?s?Kh
zw@xyLZuH&A_<85X=khG&mpff_Jk+-4wiv!UTKA+V?+vd<Bew{Tr_lUu9t&sO%#z!%
zbe?oI^Cf5TcX_T1-whsB%v@8L^XAgIUfbL9ejN8IQuI6f@B8YdS9?6WbiQ{l<4m_b
zvs`#oHRguYSS75sHvh)*<xq3$rU|#zR(Ve87xjDfqP~{t$p^NKT8U(J$-ld2aX(w$
ze%LSn&EFGmYMM8m7ELqN;C;pHtv+>m-@pI=9*Z-U>o@FMrY{pcFaPFx(PP}cuUTYr
zrdcaA-=5xbY)`P5^Q3E>&y@MiPP0x}*zu>Wq_~>--ASp7H_vRbDg9FJaLmLY?1=jG
z%^3xp99&x@3;bmNew}z<TJq|ZQVS8=BM%+dPhZ~mkMBh7_g6`eXHA}W@~go+6@S^k
zq5`ptl%|Vp<L1!0-M;zu;f~K&F5bUy6uU)X=2Nbv%61H&4|CmI{J%6_@z1_pCuV<e
zcL<K^QFwL4$Kjsl{4kHzwtw0@u0K%Of5<W_XJ$j-p`E|;Pc&}+5%eKCEoG_K&8#Yq
zO?*pdtzA9YIAUq=#i`w&RyAEa$usTNnP9yJSG}d;Y@wBTZ)AlYUpDSvZ}xeLw8B)b
z^&fekuW=JUSa`VZNtH>oxWbBQxht+dy<FU#dWy4y>%)&Px6TCTHLSV3CxKb1A$9AO
zms3;L6+F}2?%wBf;Nr`dn+{F=;gWv4xG<<AYn$EyuT*WuNc)ycvANR0(T>;FWNmwO
zf5JnV63I`~F5Bh4k~}DPd)fT0>!0q4Sh9#^Ex!@-GtIjFQx@+mV4Am8pVeb_u!Yk@
z={BzP=zg);n_XU?de5(Yq@c|F%BxA9xgVp>m^n`>?yR$85c??Fn8CdN_3z8CS3f&2
zbKx^@%j|fr3HSBRYO31tXn*YF*9q?19JF;k>kL(krbVl{67K%|)O^wK=z>+>mNJ~w
zYke9wVbQyFw^QmTP42%HZl4|hOZRhwZnNMQyM${k8CUq%HcS@0V6ut%!JikmfB)*K
zIi30B^leG~XP58&pU?i_No_2{?uglY+k{2TzGW#EHZ0qD=;UuJ#)<l$ZG2K}lW(uM
zRJ(<ry=+~b9n+;7!iO^YtXF3F=q5>PAJfbGv`??$fpnOm<$;|uOgD<j%D;|V_Wh#C
zrrkD1k2F?HTy;fe+a>wm7rHib$K5sAbh*KCP4EMsW6a<Fp77quusP@V#Mfq<tmS7a
zhdo?nYGt=|RgTGxhTN7T|9>ey$hq+2zJ-wZZ-Wzz(qBab-qhZ3_o!iH5kA{_(sBBW
z)lYXZ`ug`c$^LB@b(<;B%RFuADjl<RuP1Hdi!k%9vtv-pOmv#t8LY<rx@7%@UDGoU
zotyCE+X<7I$GLtkbrED)cmKkj_A3|v7qZJFpLn2uN%cXABkS8|q7Lswi}qS8aITOr
zZ`^*m`eyCl=iU3xRDLlwoqd+oK<V@KS@DelDYcp$&)57)oca01`UZjY5X*f9Zx<-+
zyqnxKH*AV!|3AJH|2T8F_s%ivvJlMqy!w&;*7dr3l%$2vr5N@eUbxDA+m7O+@mcZJ
zty2xl1kOJGdE(|ix6^an>si+bEx8=zsx@c#j5fE0l{Ky2Z?l<;mK@F2;FRoIb6L&y
zPSwMp-?zNh9kSaay_~mW+v=34ocf%;luN2jYbQT4nKXT}iqPJMrQ9A@*9jG`SbOhA
zw4?JSVe_(Q(dT~Y-u_;+<H|mf2NnrGZ!es&jCZ^5eamwb|NYzJq|cb{Y}1=GD>zhe
z^4;T1*Uz&b&{@vy{ODlujq4gY8X^xiZalp7+t$|bgWeiW$D@o&L)B8t&StQ$GXKW*
zq+(Y11ViD7hi289{Ld5jT-jH)ctWfEozoSkHD0}v+j~>v$-Aqd0+O9A-fQZjycn+6
zC5hJa8>Zj7o+nb}68$4+7Q;8w-^^3Ii{+11m_(~zW?xf1M|wqp+rqLRzB|8^ZEs5U
z58WKf_({QO<toqZN^9h7Z6BX;Kj*%=lu@m6wZRr|p>tc8*x6o=>iXtqFVC=<r^s#P
zDzD$lZztTaopYmbL!^O-bVKytg9d!2H*|UrUAr<p$*9y@CTE&<!qiBQ6<t3rR<3y!
zy{&nv1?Y4HyR7&*=1unl#8u7)?%(3@<0k`$+O#bbBn%U7r^s4H<cOU+K5O%p^P-;|
zTwl&hmh2AFJHoy_R878k+AcO7k!Pp9JA;m_cs0@Yxp3YlOYd0bvY9@8r-G(d-_#Xj
zjO&stxb*tpcYp0Oi+SA}Ike`4zIEPQa{gk67q5Bu))%)PDK%|Ol5yGO>$gwhrtEJ6
z&2$^yj;0+gN1Q&CrTktSaAZxbp%JL<sHR%ICsi&!?&Rx)FFA62D`m5Guy$B&3%O-^
zYf+C$vR#q6{z{WY>-n|M1Su(mbMnr5J2Nb2n&#buQ>6UXPVf@`Ro5%JE{5O5=rh*|
z<zKrPF0Bh$ckvo~dERAKd7m2@?5nO6a0~1zJo%zBXtCC&qf&p*Ea|&H!S>hMwqR|R
zg%de<Ocs5o*|qW}U$5%&#g4|+^Ewi`=d}NMqA>UV)t%k5uW`=kXFJQJb4j6ww=GZd
zn$~CC+0Bg>t?z$7=4#b`)KVVt<%o8R(z9ddzGhs|IN-Lhae9u(uPKZ6i3CpyF0z&~
z;WjwEMA2>&N8C0|Rfe<L3f~tyZe~c_KPi>x$_3AzbMJ{&w}}0IvdVEW!^?2bs6z{O
zy}cD~FZ@CHf;_Jj>x@ksIMh7t-v9f=+_>DM|KGkt9=G{zj4C&<1}lctWZXafWf!Pg
zTJz$w!X(juZMV-q^qe2GV)6ga|AHP>XwJB$W^~@Rt;hJJ&w-g2yHl#!9{>2V$)<?=
z)63kwa$T8eZt-bu^~^^S^-3HszRs<eJ~PK){Y4|=U)%~#{R)%UZxYD9E4C-3+DJcL
z?_UkekxGwuF_X1E&YQ%nx3O~hl$jUr%SpcFD{`H~;=TOX@jqW)oq3_(U=+{az{`J-
zBdk{Q=AWP&i|>2Yvr5ce6VM^795<)oWL)BpOJ4P?9Zo7I)I)^QY}?*+b_S;P|NH;<
z?S4*+r2=#Ry)nAvYcZ!(e#6x=JI&4R^^8X%Shd9WM0hb4xbt1z7OKD5y`Ftd;E(p4
zyoZbKe?9yy;N5K7U)l)?GyCsvnqTe}*q`(6@Xf{h*KaU9_HL4i*qP<wtqR45yeG=-
z-OspBxL}!R>>Q_uk2b%blD2sjSM`_o62A}Uzc@Dck=sny_%CVNn|)+$m$fl&&~cdZ
z^GTc-*RJccjxVmO$N`VNT#DifDVg4GRZ&_acS9!?v?YJWjT2#MB5NZflvxcKFVtuT
zyVtY26fYFqz<+qo+ru;eL@HTqI|~}3QFM{rIZu3_?+vS8>^lo*TK(eJZ?#>yD`j3@
zWzX^-1+RT&|JJrnF;?_nXrj{{mvxQbmz(=n@R^sT>I=Froto2Txw~ZkD&PLbq;lW&
z){M4`*K74{WfiWvo?lVOWy`qSD#Gf)=Y3BV=GbKX5vtv~Hl||LmhUV1>=-RQo$_q|
z33gO&zjnrciD>Pr=6vlXOV9u2%GlEBJ;}xIK*qkOc2^IYJDA@%C$lMJ5>I5*{CSmf
z-&XSNvoYFqQDfhRtGv0bzj)tTmCb+kfLo!Wy(sDOeA&2AZAO3o$=7GpYd&gW>S<=z
zW;(EF&s<>}r!($)?1fH@VsVQDXK^hxii^=UQFkfcvB@ssc$@2|7cHr$E;%^5tiJcD
zaQU2uw>Amt3MF5Z_9*3x#IgJ~|6*3&7xw(Ve7J|Onbnh>ic&$l0*m*>mA<n{_|6q8
z@^ESjW7Q+kTL-T_JfL~@SHs+fz%y|cTXj3;J9GYCI^$zvYX84}>x4%#nq8H98LqA6
zt}r;0xN9B%4bB;nqKpZWQ%=8K$(=9u+uY|l<8DUVr=_VX{jN_nSI*IY`iJ*(<pI9~
zhs1=!UmQ2x75(bz%cWC{KT1BAai88<ck{Dub>Y=t61V?+W>}N{$k_Y)+=tQ()dE~q
z`C4;~Z|anuTfCq7QVXxN^v4pp$7*R=X;nSfK{cp`m1ayq@5OLVEfuqL_V8~n{@1bR
z{CT^<sVF~?W7VsPzRZT-T1y@oGcGJG`6SK9m~gSO>*n64F~xI#_#7x_;}<q7D{NJ{
zKdI{Uw_|DjajJIJttF+0?_T=M@TR&oExx}rU@QOf{c4N!?^Pu;F#gh<C0H^eN9Om1
z=gIO~4!bfJDwq`Q-ImRFu`eNW_2<8dt&NAxD_L14w&k8xZht$o;p>fdE`bofHYE+a
zMEQ4K)mz%N3zzlXY8RexGFezPTwveXZ$8ZJmu(Vi?Y}Mj#XDDgBU`JU<?4&mX1q_6
z+i+0!cfi^W)q(8ATU1{d?mC%j_BZ>(al4p?-W)rwxEt52^XJ<#Zn({QQtHsfm>JA^
zPES6taXxp+z7}@bUd{T!8b!IYt*jbXl%{b^x*+sv-9a^LM)lJ7zYlY<c7#sUu(`4C
zs{F?{o^u<1X6UVOcbhzQf1;%BlDRf)yA95L+m@xLbKp$=^zWO5lXBm^iZ)Bm$uqhd
z6VPz?c_OpYm(2aye19MMCHDXOZml4ru5wK5HABoFZ4u9Hy#}A_uf{|)TnK6@tl?DF
zs4CUB{v5sR`rkag6{2bCVqzjsJ}+H!;$e`z&9{eNcF8M#T$6dQcE5+B$2Q+U<uF5+
z18g>b_lYd15VR=Ve#Gugmi(->XRP+VTi>AZ-BVEcLH%M8rF@6WDU1Eq|JF_r+-6(K
z=*RH&#Ei7OH!n-;;~$39PuT6b&-Z3S8t*p0^}m1TpO6x?vfIZqZRMh}8G9LK#jW=7
zT06n*b}^H*hFkR^ZyVPs&z0xb#d8~UNzItd@Hm4#+gx|`rjX}0zY;H5zvudKz)F*4
zqYH!ONh!6Wy-a)uEc^d)MI761v+T6f-;Lal`Tst(dVcYKxWt?{&c|ABYL^ydl(FwQ
zSNSFUz?PJGJ{6n9?G`aiyKMHkLNhbvOZWjVg=_m}am3x}+GkLGXph^=(*0{^T+Nqg
ze(~aO#gko89u_)lck!y`pX#b)G!tuz*sjQLmbK4!!{3cFv$U4IJ2SyaEXkaW#gN+}
zQRA(s+2=SvW&fQ_ixz42I!%)ZUhes{O0!I3lH0r@_LAByMiYb7Z*ZMItZ1|2-?c0J
z%ib~ZyyqyJ@=owr<AXiNo7t)v9M3BI@BH7Ucx7SyIi?-keYc)IH>YXYj9uIURTmu}
zI8K=`t4M{Le^TzGERo=F#!o9;zE5j!4laH3VZoQ@JJ-E3n=I_UIJa=l0%zqTTv3yX
zOAhqsP8NUvn#JcySI1)(2E*N<YcD+MD$qFfy<Jpk+q73QSLIh;Y<aPsVcO!n%?yT5
zZ9V2SeQ(>oXL-(b<6l<WeQjTvaet_N@_XS1w;#;Xcc*$5?pv_)P}!ASu?0PO$)$X^
zTi<DR2~Ih4rN{QyeS5}lYHHF~mL6E0DZ4?zai+BNf7h$IA_;42b7mXuOFjDAi1p%>
ziWR%gGUY6O^Cq>XT&j3RdQNeVojv2>og34a%1Y))+)k^}^!5{ydn0Z!BP##RUH_Mn
zLB`WoY?|yozoE<{=F-lM<-e1s`N&qr$Nk)*yvBgPebV{fy|cMXqK|S(3RQ>NrxafN
z!+Uz?#_#zv9%~2&h#M^1w_f`|-IJ=kH=Hxv4om&)WU!L8obk?Z>z3l=`~x%Ek4kRy
z{x<8@#{;VCmd=;1wl|6i3*5etKmFUC>AUZwi>ZM7`e&Y)Gfc=A4^#3CeZJ~v(6Z})
z7jU23-kxi$#J=jmk7=8$PKzzy3(5ft79X1b_o>cC-y2dN+P}Hajr%U{&|}@GYH>ry
zBVYK}>emgtWtaDZR4Vk?E<NeG(l$o>+w$jrA8-AX?z4IN@5D^8^h>iJZM)g<&qT{I
zJYt{8>5#o5@=FrWp1fyyK`qmElc!(W{Gg3KSMw#<HMi_ENy^#Jcy^&#%2};xE29)E
zc{^kt2~1sY-Kr`qTu>%=v^?+A&Ij&uj?dln?&+#~n<NXi-K?}>v{X&MkX-QAVg5vs
z1(qDmBA4F(<_i4n6=eU$li~8Jt_>@ana-Vi%(~%|`4r*X!WUS#I$fSV<CpW(yUXjG
zD`tG~J{aEE*B-9EEmk$os;ba%mLc~n?ix)`m86b+VWBMHiz;91%KqgQ*y9{FZG#bm
zo?K4FhVSdW-Rl`^+An5KStanK=yu6g{<AmIKx4lj^d<H-DE&5AyU=Wf{EUZpE?u18
zP%>${wQACCh7BvC&#Qd6vUKr&hN^kZ3{Or8t;qMvPUA~?$iDi|KCy%a**vut&3mS7
zJG}GXgjs>^|6lV-?3~DWqj05qY+9r9;>zV;F2DC)yTNVa^G92m+YgDJTbks*e(~lB
zpMD4JUwCFgqreW%2iNY2-PYMvB=`5*@1XuUH#Lqp#I7;$TxB*>LT%y3bCqA3i!5(v
zUkID<ed<!#Ia?-iXHMg_keC#Hz^KRev&LqJJD`zOi!+s9!X36;`fDMh(!~2ve{OrR
z++R_Hztbj(l)CQxu<vgf(>uAO*_QqP{z(@Juqj1+V-k=Ldu)D1J15UT<^BGJ{z5{>
zAD(@*ZN;72EbpJOIe+>m-84Zz)_CRZFK5g6w%ysW^WcO(3@?sohCDgu$jvZW*CfGh
z#fg)zmQGO#cgR+H7J4#yYwv7{bd91-Y%*?TZ!*(klwbeQ`nLDZipBpwU*7i7QEp~d
z)U>%<<Iex%JummS$LHh8tDX-s|9sh2q-Y~yzSX<Gj&Wc3lO^lj<CCuBmS`kJv2XG2
zk7N90q{MEXG`rTb^0wN#*s3qw20GG-*EU}Kc%yc2%IYh(m%6X7bH0BoqyEHN@wunm
zd`k;<e|aIAAo;dmOocl@FlQrs_jZukVk=7zrf06%ux_4+n&K?!-<KAL>#M4N+`jO$
zRo{BqgJRYh`J3JU+y6hk=-rmoxx(u|9DQ(t<$g-Ex9jbrE6#!fv#?~E%!YZ}<6=KE
z6*S+}mbrLc)F4Q}w?0Q-{I8jnTUlOR)n@m4R-WemSl7=S4+BGgUx;4%+pPM__xl^n
zce+_dGS~fd{oA%o+;O(;FYAPtLI)>(>r?A5u4gUy_Tqg*;)mRTZ;SQw!y43bx1N>z
zD;sd<$L-%-95D~o9=Ec8^5k}&Uv%Fr$mekMF}p7&-m$En!OVUeZPqpX<`VAhn_Urh
zu`A-|xtYpB7L~H$2io;jSFGX)yCJe*<${IwN6*{a)oPYTT~_Y#KH(QWS^LI2LmAd(
zQ~nu$WtUC7vFf<i%#a(EUY6k%HK!BrX^K1eJe#)N$LVdPYF^p*ZLO8dV;GoiFK=*)
zGFYybJApH!%d|q~e+@&;|Fec^O>KWqd=+yxin-MF*u3Yn-_HMSfydqj{5T%tZ#jR4
zO}p6hxkdkZE!)nVd^%-G%7zZ%WsWS?zr0@7uL)?=HjF=at6RbLt@F1R^|eun>x?RU
z4{r#Zd)w{!!D*(AS_`KB%W6G$dQV{61WS+ebw-9~j<n0_Ed4US{Aj_1>4Kb|ai@Y5
z5As}iWLZ$t9rR1z;kcT%-<!B6OMlGOH{X5dxW(h&`<(o;rCQu>t>X87c6EWFd0EV>
z2f`aZ1}C3oj22yabJfAN_R65#Z!g>f%jYRADEVP@>fEFsTV&6Dy)69r2X8uPrfVj*
zr_hHPOPJ%f-F~%nev!?mHy7g>KZfm<iTAwJwMTRMxoJ*YK%F3gzo|FP`XU|fe3?;l
z%<Oo+1t{t-m`f&{GLoOgJ-g?*T;AR(eb1Vr6lX>22!2?qa6LNHweH8Xn~VSdeavO)
zeYg9!{tSs*C(do*Qz#8F6&G93p~g8Qwbd(8Hm5$Ph#|E2VTERq#S#^kd9lBp79=xo
z`&=;NrIT#XO{<u@dg8SP{?e~r{4Zm#sXu&hb-v{*uj<XU&!wur$cJ^T+Zp0&aZ1<S
z_3`r~Wx^Ncw;yH`VeOspG_!82-<yE92OUaQUcUL_Pp;P4xQHVKPIjH%>Y}S`ix)nv
zNLwsDVRQ3EzHgs`{>-{5C8xGNQ2W#0#MV@vt(-<hQnK^szP1gpjyjiawu^DGd{E>x
zjyWA?t}|w*E#5ij<_nfLIRaixde0N@tv!>&AHHbjoO5pJ_D2ov)q=$%8RERcr!LK4
z-exR4w_)D9RSZiO3G^&j_sDs2>a8X2@^)(st{ARbeCpwavPYi{9?UcI@4B#~ElVuw
z%|)B}@0#KSvk$)8*tP2kzoye;rWVT*k$d5jx5s=xcFyel!l?@@_pCSYo2j1F%JID9
z@U3;VQ!50d#2;8}J79k%h$Cya)}x#<dG^y9Ag$5u43|#H?qB$>VRrAKuxag2IDgcw
zKJnz?oF3nv6N$6qf3}|zdVVqAX>ruT^M@upY0#1?)wq>qnk@ZfW!Hrr3<rzE>ZQHd
zFI2`fH!A(ef3__%UCs1;^qF`u|DJ%>(5=hc8b#6!RWi@7HD1XXk+RCHYH`J436D)r
zj!n>*`Msz#U2Q9)W_nY#&$L%_E>A6+{Qc@Gdyq<1eMZeGS9dB+j!WBl{$Bf=i~s*V
z&Y$6ac$bIbiu`vnyV{;{J)Y_L*4;1ehZ##!s;8mKTbov^U-#|T2Arzh5T3v0cF5cB
zsb*^=EnfR%t-oNtGMRl1+s?jc2kq8um^1TAT%uHsblv6mKQvfnx6FQ?xRyP*eB;ss
zkvTP|zwC03U%%36g65)>iBX27q6)=I5l!WquddDgv1Ivn8<YNUhYCw|L#uVocek%^
zVAo{1-Dxk+uzJd?_zWKpxBY)NCNd|OMpwSjT=tHs<@dhlT%R-8+2_u>d6xCt3-jP|
z#$%~>T%Iw#GTZ&;PR=@xo431Gt`76qY$TD#&$s;5EZeDb!~5fA{nO@OCzN|Iz|b>s
zPoA2aMeXyx+|5;A#1DMm=sGQPVidF6h5TEuoa=Y4mHW%O;dDyT492vR)3;0M+4Q{4
zTkT%Yq?EKEvr^1HiJ`1iZkAK?wyH1N-T4j|%&xYto~dUoe{+iI)|HFpzs&ghE#aF|
z9E*vigJ5#}mwWR%ZY}Hk$JDXSJ^wb3!1jB6xqEDt7W&Hm6}{lC&n5TR@q~Jzap~W~
zYt2i)gdZ?C_D-a&H0a@(-{vNo({o?Fc;9cstMo|W!<1Tm`>Qf8?(gjxx~hAG+if=Z
zd{=!c_wK1(#P{#_C+wHCc<UOmZ0qXJ7erhxZ}Q!^>IzrvyhDF1Zk(G{lv$@4?S4L|
z<k-16kA>U#)1Pn^2MMn6^v;NOuV?LX{gV(pvD+^FukP*JX)j-_Z^-?z#rT5@x8~}{
zr&T^&`0@NX^8)#DFA?_C0P7~JeUrBGpUeq*_A^yn<#54#wd*>anzw)Po}H9g?tQY9
z^$F)+u4co!f?M)8YVYc*UgwlhNvdtE(lxzt<EwIXJM-PU^>$2`o;+1Gkz~+H%C*^k
z_NTO->UG8+tk0hu6TKwH`8+X5e6Qx7S9zK{{SK(f&YM2n^2_yiYi~{liL7hjQ<uK;
z<M_v^+pp=&KX~cqiMIyl;~PTT+V|}7iSrhCrCoV<;*U8Ee>2$67xTHe#Vrmf@ceSM
z`BxC%w$B^+|ArLBGA!<SS?4Ml(>3kaGfS4=elP2^cIq{FTD;k^Sx#4Fy|du!AFsed
zkt{#gYbaYYtazVVyn<KSca`j#uoE*2W{3;4vOJyi>&uy0&fi~Vu&)-qlp^<hq4<GK
zPgVG3=bw}No5%jz-EB3iV&RmesMT8B2K+blKEF83TOctdf#KkdcCU;H^B7)V<cn(v
z<(X~Ju)yoDL1xejN%<hbCASW8P3Zp-x3FhrsnNVb)4yjAH`@NPf3LsvV(f&EiIZj>
zmXqOJ+bNnndF_f@2e}29LOiu2UfIp!&M1nEWH`(mdS$Nkv=~9pnwFX%PodcBD=fcE
zSQ{C7CAJ}Q*+hm7919Dj%^5G;xuGcM8q2D|%(1BFO$GD2%EcYIYo1IDuCKFWIP@Ww
zkA2r#r*C_gYzpv>cC6<Asqt#n{SE#3Gta%A)4W#hW(fQDfWAfRs#1j1UMy1$ow#Gx
zzYWg~_ltacQ63n+)}Tu8GZ(*ErrU(gy|Z_{cyYM>zCr)OcFA(imxi;>Ce1TjIR9f}
zto9j;>UhUXoOYYELS=goCCeYXTDgZwt*WQ`=7klvbGicUqGulGdi=^}UPGkXzuKLQ
z9IqKv8NNK*E^}B?Udy45_eIbTZDkGnJEw2Ij*Ih(Zcs5g)O(-X*E^Q+<hzFNZ%gZ$
z`0Cf|tA}_mNweNoS@7WH?brWU)-bWOXc?B-u2TAzUy&szo=`3Svr(JJlWS7m*5-=~
z43pnfWXWAsHr{@ifyw+tMeN!OYtCI1@GZ^1>b<at?RML(=!hhJxi#Bc*=*;{I?g&n
zrTNgdkInsi-)20h%VAs={CNe#Pr+JN!ORUiH_Tf5&L*M%zQNpC$5|zgs(n7~X~<hT
zd+NPq?U!tC2uA%iROL(HpTNW{UbRww*IkV_+swWF7k{o`ZE?<3Qs}+E!auOgWZ6>w
zm!kK-i!Ne6Jny8$^qwm|(GfO#rqryk7kg0f`iGR*jtjkc{&!2h1)sZLP$Kuf-zSdw
zmzMLS&9m1QyxkyQSt9pdzxDb3@I@0P*!Sp{#n%W-{cd8?U+xf8w?E<6q+_o8ZB#yA
z=K8(xUqHjWq$Z_gM@N|pi_i13&r80&0kptmL)S{i+X|&2x1K*_$m*6XD3bddR<CnF
zDK>h_-(4o+X167GuG_is=HmOW__sRo-F+~j%-?Boysuu?Tb~1;{bs%ioU(m}Fni}l
ze$gPFZB5JKOTKVlIL-4_f4{}s#NE4Gt5^8$fAK;*K|p?@zJ!c-R@gS(N%c3(#AWv~
zJ=yVN`j5gclN{Sk)fW5otg61AIODzVPf}>8?e;~p%TKwwuaD!>KeAq7G3&*>ca5WO
zgF1odty7sE**r1rl88QaF0ucu-?qA)AUij7M!d-8Np)A-T5F*nrgc2O;^M{CqLTuC
z+vOe#*tTtfS($P3((b-GJFcWt8WWjM3+W_n*_-QQ<_&V4!m;Wv`knml))lID9}gyM
zi!b?-)oS$iuJ^fi|9tVwyVhQREiSv4Ehp&R=h!HZ%Jjv5Q<lx$|8V8v_=eP+9QDKd
zg4CB6%knKt^aGieuynfSa~r?-iC6xeI<^nw`N<OvD>P5?Z#))s_-Om7ORnzw83MO_
zh*8}8yP)Q(D#M!RT>bYyELyyO?S=jCAFpP!`P#1a@yf;iD>>JMGGq<7CavaOp2c_b
z&W*2UUWh8x%1mgOZt%*iYg$59O_i<jFV>EQaX~(dU6r<-%~MppeRb`1<Hgq-7FS2R
zZ!X=vt2IG*&u`G+w)<UyWXanPx^iAOly@b(J6x6ag=>OQvdHDGili0OKZU5SOLtp;
z->6&SaDte2%+ggqE;zmVdgjGdu2dPhFpWQl7jW8?oh*6zqBY-m=gb{1A|s_#YxX=n
zyQ+(y{S9d0(_EiNNA1>>Zn<*zo|)S89s06=c_%2}xv=1)vh-b+_bJ|oe}R@l8RtHl
zbYrFRv3uJ*E{bJ;S-RMs(K2S`X_f<KDz|67O8fT0^H;cuF6)b3^5F-5Oq<U7?(z1X
z^9~och$YB|K2o^Lm2uW&x$W%va(yDMmxHvQ%*ZRLX%oJZsGAyep?dZ6N{h8i_Y~ZS
zzg)L)&wJIa{HrB}wwKLozdcXe>gElZ+{U8&d8yBq=UzVlxq!*-)ax7nGMWXKWXIpz
z<F?!S{NcS$m#pIhc65EvvM!aoC3^1N`OgLGCkQVT><ZBgRrS4W6uE4!)h~OywFbps
zc1pJ{2-KaoymzktX7}~y4)1k3H;>Ut%whjp=1FV!s`h)#Z?C@nVah=+&!#Rft?rY1
z(!Q9MerdjC`1byR-zA@d(prs6OKWaQSA&-JdZra@d?Um9AwzNI?}Aq^-fOGmN<9(Q
zcfBhkx?nD=kL+LB2~1@dSoen9y6vU?;n<mXZ$S~-?kCb8^ECS0tmg@l>?~cAuilvJ
z8IrPG_jC%cx_X(;=O2dxQ&b)tJPYdMmsl(*iD&OtxLR7%n3S-tprCVogI`+s<`VtC
zBKx}}e)JzZR>#bz_fd9&b9Lqn<>kJ2dln>YyK=vw*}H~aM2xW}m(4b9@`5=(m$ImT
ze(_gS;HJj?B4KBLhIihl^4QtcZGU}uxYS|Mj$=m49*S=HrRnxtd4v6u_fy_(K5~eE
zzlbIO=QNKvw_|f|KPy_E6Rpx!!KtBMcBlW1Py9sl2T%P1{Q~k#GB_kuD&nPYTgWig
z?C-ZuT|eQw_>LnwJ=K-ByK9nE`Ws6%YL{!MYpm&*tl?UHd)fys7P-$8|33Ab+29+;
z7WHb&^H0C76|2pD%3HBBSWTfr_|jh0y?VVaHF?sfU;F?Ge&h07;rht=oKTO|l)p`?
z6_w0=)=%aCyS{qg6PZyL`eT~2%+q~uwIBI%RTY3nLIke6$*tSJD4uWjt%ql=Rd-nS
z{}WCSe#+GFL0avrZnStUNR_O?)<iMiT?>TgC*8d9_RaD+zYFeYhC9UUJyh2BST}#R
zg+@*95p|GWz8lAPq`3W`l9R2j@p)2G|G&Nb_6&V1H|^m{xW0Yz@sfR09_wy)|9`JN
z{D2ONk<Xq(+#c^t5;srzcd)bX-#({1$CXSTq{#6^-#&XS?O1#M0TsO$;RlrNExlo8
zA#V7qT3h_n&Fj|kKZR;@A1^yOVM%X*)WP3cf-}_1cDTfI6>#v{O#Sy>p-#R3;+C^K
zC1Jn+ZE%uV5vMU-<>cWP;U5#$&T>wu`1M)x!uN*<l-my%)<l}#a0uMgw{P3lkX4Vo
zb=Z<T-TtrJa>zrjx%=IQX|s-Uo?9T8FBZSl@o_lsv}yU*ygNa&yGDCO9rzsl9<M#G
zec;hSwrNfK-)nzKI^}J7(qiLwUXFi@|DO1`VOmgwVR!F_Wa)F-{}kP8qx4n#UcBae
z(e`w4%3_a}Q*2u#9yi|2NY&lS@Q}saY@4{H=biE{<KLQ%%=f2kox(JwGU)N9L)#+r
zXC9vEd*Ij7wM)ekmi?Un;_DOdKvVYHB^m`OYc@@bYDhYLbmrPO`ptq%b`*yh>Ru@J
zj`Y@aDCA<@x~%twcc8US@TmuvUf9GjDzobU;cecN`ZQv;&#kP4tI?`<xmw~@$NSd)
zJiWth_cHET^W(VOA1!8>JNa>Umc^VK*(p2>XQTCxDt`=Y$n{b8bj{nl>2Jc`m5b|{
zmx07G&+T=Mkyzbf78aE_WffEBOs$WB4N3RAGUqjF``p@h_1=w@GM)W#3nzE7F&;HJ
zlN^5~o`d0Rc1YEihio^FD6k)UzoRTE*sI=U!?$gj?5wrht_uW*Z9LGb)wir?_l&Z{
z?{jZ2tIy=x#q=gpPtz*SeT(xyCS%<l;3ee=VQGg?+VQx`@_p;H1sz=ORT(RIJ@d`s
zb;Y*EA5T8?4!$6s@Z>>^<bM@yo$eyeWY6N{=RcNezTh_Kb(C;yGgq*CqgAvaBDC@I
z8Bx|)#$8I!6+J5wid{-QRX<N!)K>@6zid*s*pApkJ0FEUN%(2GhtWTMPvlz(&K-N6
z>KT>=nzCCLomg%hcRTgD)a?(=x{qx_I{Qs8KH$C4$5O+1$TDslZ+p_iiCd4(OnoUF
zvG31Mju+h$<`-`;Up`l=e_(d0^tr|Ve=m3ccG$LUf9$8MEvmcCuW_wh{QvP~?~lH3
zb{^80sijv~W0AXJ@qNx6QHitWWtQGMy(%!H^Z;{ok``mU_7@%V%lFkhauz>PDf_K#
zuqB-H$DiB}LA&Od>CAl8aCiCHR`%*QhbQ&3)G&s9l1|Y{e!4t-%j@;AzqOuv91u<T
zo)qGAeZGYn<2vi3b*I029Js3d{b7yJ%vq_0v46RLZ;<8u!K9P?B5~5<|9?;X+i+`h
z_zjRz&r(C2qI}kLDgIm#!;xaKk|l<5(asGu7J|3mNaa{_-a8&Wt@6u5wvLI0kIp(d
zhh2JF;(fQ~^qY(ScdZxLB2mco)W%AN&pLiv?p5Zc`?VP38(wst@^IXB>_ObU-y3Ev
z`g9;8=wt4)+V0-7neRitEWTrQYxdE9yvL^(vFF(An^kh!;QHyEd!2TtL>-@A#M)A$
zByizz|B)4K2bz9mtJ!UptC`Kpp`ZToowr4V;o|)JRc~$h`}LQen*M1!e}B(GhZ89u
zPabqDH*9h!H2ge;@yB;-g&loN8u~}qE^I&F@ag5<up1|pDmLEH(pS}c`!=3&&)N-_
z1>YZ4eB0Mh8QLk&cv9)d-+hOUEwjJ7rC>%9(>*1}zoG|TbG4`6&z|%tDa=jve8ZAm
zKl!znd@DP0t0c(${-^Wo2X1q<`&++zUYN8!VeeC6g9)3zJk&kC=c3-1s}^iYe^L+d
z?^pC$|KY?E>Cclk#hv1mIDhI=j$){q-IitkpQNY7Ht#Ly?7zHh>E=yKSoA~ZeEiYc
zuyeob(`|*p3hKXpALhEh{4B@wj5nOZo8E?|R?lQB+E{1Dbj(Ul@@tM&{f^oLQI8)p
z&plC^n#p|VWy|DKfqBPz_T7DQYT5CM2Z4*Uy`>F$6!}D)jxUhDCeHVq^Tzp8lP-B~
zH4H72*<iQw#p%4FlMGEC5^r0mU(a}?D*9z_&g&P<o~FAtZD|c(+EHwzY{xh0>Zvf}
zCe^}6*K1pg<rme-?n_y)QHv$=(=PJ_8*Oi|xalg3)vYDib1p?TRKEUNvg7!cyQbQ%
zIt5FkAAb3=>)VHyUkfkBGbYxl=dG4Z{862}JJ<KU&-WST4|cp*-_Sa>^j_5o{pN3J
zj0bPqY^=7ulPs2?cC>f;6mf^t{TJk`7T2~M`R>jp+;Kf)g1cYz--l-=Hsv3v+i~3I
zfP%7M1?z))=H60P?~XZZM5~_f+fscdDp5V~kto}8*<$(Y%8!q2va_u>G@o(1G5K-o
zCbqX9Eaid=JNqv_|8K+KU);<(<EHyT<;9mYU*2WvDJwk}e}-2~L8WUGzofWQMyyV-
zhWMJ?$NJCMxDC2^Ig~lnweM^;dOLIN!T2-0Uz8soaofxE-AHfO3$q24a=*HF9%Nc$
zv+c#<&Un`4|Guf_mEF7<e}-2?fonp9qG_5&tnPu5kJ~Nff0~#FG?dI&+Z_}(<NEYT
zIggh;SibY1j-U^#@1u$owzn_rA3Tdu@@f$bb9=vh=RwhcjLUmo{FD~kC@kiX|7v>k
z{AX<C2O^f{P5xMBxGeB@ZDi3T^8^cR?^hEoPw8^^&bobU_2bj4&i%~HD~MlsT1ba=
z%Iw5jd#i$W@Sn*wKFhnVA#rJ%PUuIU(B}^i=g&BQ>Jr<OM5WL<3l7Y<=gJekN9>P@
z`3|OEiMF?nt`pey$a?SFW&aZu7+o$dSN}Qp@$p9*%UCrRzB7w4KR#hE<L&9o{IwnA
zRU#JMoBnCivbe5FiywC94{I;@oMh{z&y+KJs*RoLU(3uNps|^=*Hm&7Tn^q!xR!Gv
z;OX)gm$@(WRx*03@f2z`-7-^~-O9$?Ww%#^bM96)CZi&cQ!84&G6@^VeaU2%XfKcF
zDit|(eeR|6MfZQ6c)7q||A5;m{pN3K{d->DFz7am_<qp;(UBWBE-x0jea!RayqKgl
z0q6O)rPZ_8cM6vun6TvYj9qiu6F<vzt^8NPeC@GKOv600S1d<1wz`&X&DFUW@L{q=
zA^R8CS^pG0bA-(oZoF}X)4o&qyL(^kuPV8P(x=wN{%xD)r}g7S-{%0vOK)CXwa{%B
zd2?4I$E@-AWQ&dG53@?7&XZ%fykp5VF2xSBcrTvgl`FzdsM%{wUl;rC>5l`VA1~iY
z*kTl(boY46^obSDt-@EgZJe_9pnq|*_JiN)UQ8Zu&3S%w-!uEB{CsiZT87QjeYzIk
zDR`ahwAj|e{6}V90sEZIS1dotEdQsqxj`f?<80IXXKdjIPF-%5w!ZRFI%{KFrCis}
z#{Uc&i_hQBm%gaAeC}$WQ$BK*n<7lth$k$3)v={TL0|R#F5m6958CaFESvVZpf2cr
z%jMpGMN{){mR^l9kTywq>T&ZYSH$L&FC~758lL~vO}Cc*s(EJ9XHJb{$C6gxlkC#C
zzw^t4uq76!&xIc_dG>nZdUnIr^R9)Q$(_u0^abCG$1h$RHsw0`N5psS%)PWg;%>cj
z{1Wq1jT3E{rXIR=JAdZI>*@zCxfM66HYxosWSsRofKA{BfB&6bJZws?6PMS8O5Z*+
z-E+=@GoM-3BwJKZHWW7L$$WKr^Y@2Su5(J}KP&k1a7sbnd))^$AuY%9=CxOzdac*6
zVlS6*uT754)4YiGc5Ma!%DcP)Y4v-W%k_VMcyN2hT=)6Q_q=1X;E%8}c_5YfYvS5-
z%KOz_Gh!MF&wT7m$~xem&-(V>7D2v0!B!EoS_|DDie^T+%2~ddH^qGIOXlTmuM;wv
zPj!T<S6%$BynDgE)ZJ$$otD%&`+HmQ2Zr?wHK%{@Hdm!=c7I=N+q{(b#jXz<Egemq
z!ta0c-gqaOsaCUO!xl!%bE4P2{FwPuT5Hmu!(6{5byiLfQr&hkPV22#M#5}9)@kQU
zH*8^a4sH^!sq&TOQ`_2nOxr4ARzsZ336Bro7C&B`!I}2`ntyR~BJ-vtX1y+)eRlbq
zawjeO82xw>s7MGuu&XUe+-%MLc)y_bW>aoWaEi(Cv)gMS)vCF&SN6>1v{}-37*n4)
ziI}go5L!@rYsSgPpsc<x`IO3D2Cd8w((fEIFUrWvgA0IXiN5k~*UxnCd8r)!gvExp
zSS&$GR^H^Vw0YTGt*<$KGdUgzW*(lyDq*?D@x;lZ<xgUFeNRvPbHl9kLfHC-M!yP`
zYmZnJn(o%TNh!W{b9qRcC6@so*RDD3ej544A1$3G7Pl@>>|>kL^D*#v*s3#C_o~zr
zY?#kg{@h}?&ARXsx7jwUeK|L)6XHGC=Ll~wo>u8QTTkVqZ>{Fpn$xE98K3Li-Jicx
zA)YJr?#7Ov7k&kuxx8$e@q;_sZ$h8xZ(b<4`iyLBd-F{F>!~w}V-w|+m%p6<>mRRZ
z?$<^^m)RAv1%3|x+y#?9-e^00DJ5cW;Ag*;rwyL7Ou42yd+m=qk&%IdYvx`oW@zNH
zFjuHzSX1!m)v;|i^LNhu`}DE-k>A%DpR@Fw>EGz2I4L#Ns)gg;8u@JnTdt%lbY@@S
zK0Sq#pP{_fc+Rt*>IpVcuedK1?=sWZJkqpL<FOjUtmlc|?%uI$4JOWc(^?|LemeiH
zv$TP{ZYisUH%sEB<>B_MZxc3KT|ad(D83=FS5HY*T~77#cfpi<RcqyRzp`p{Nrp{p
zGC216o*BPN<$1Zkc`Nk~xY#nRefjzaZ#m0sAOE`#mb%N^t(kC1wCC>0qFYDquKiG^
zeR;F{|JRqfEdO(R>B)TGSa{%becJcRmlx}!6tBMQ*e9_iJo00`-+`OpWu21@8Wg6w
zda?a`xQVYqslxch<;<gZ;%h;pz0GP(E0@XboV7j9KRwEju|4<M>h8xZ_lm+B$`bcH
zH(ooVVJffFIswjXmy;%cmrf5lw<U>5%<4pO^5-8ysn^x~X1Mmmo!^qQzM!u@=~BmK
zxBqR^?7vBGn45X@AFrjYV6#Ejhkd)!tY`bgPTE-#wK3ddvk^z2<n4wFD_oqH_07{<
z=BNE_Tj$~KhVK&Fe6OhnYZq~VXRn<$UtJ%h@rVDlhxU`px0ScZJ!@z;sQwauz=-Lb
zf>^ak_7mQWv+;b1-(J|S4RA`5+i<c|_Hfs}H}?y^fJ9a)E$n32@Ww}LZqI`G%mrUw
zyl=4dun_P5)26y?|A&{YHy7_`N}G3uV_L=yk=^Hlb8eqGuwlxv_vQ!8npAhqzsyv&
zkz-FSE6XhD13&&U&3IAhKPzl%{?4q!xyE~!_WYl}|DCqalm`<o_Z?=;udMd4Dqi8s
z0d6w~NHq%;a3x%mE!f<8B>vCu@IMSQ*e3RTJ6NNswb*=pgF|t%{d;YfN5*Y}$)=nh
zvo@!!pRi~BZ!YG3-E|Z0Snk-h(&v=Vfy|x%|Mvgpvh@x8Ijz~F=#<ylMVrs^9x^fi
z@qK;0V1b<Xqvr<>AMDMKoV`~?yNUPmod;YUZ-OsHi}@*3eAKdA^UQ9}Gq(8*OQ(9?
z_d3xV`;WWaYsND+@dK7Krz>vMSaUaTn^knS*s`4mML+yCZ@&|vwkKnGz!aaewI}5M
z%Fkzbt-)gW(NklY=vUonoy!L70v;P&u3h`Vdyu`N_e+zCf-jftDV^id^O!l-HN5AR
z`x<w~X;B8p`-77-=Jm^zMr~w#J!5L;i~Sv?4f85ezb!c=<50k^qpXs5*h@7tb#<z+
zI7o!i#nH&~z{!hZ7aHUZw^dr4VPq+HC_8OXGx_oS33Ihv7fPOMwQP96r_rq3ol%nz
z@+f3ON_<c;!$DDjqsEn*DPL9Bx3G!u&S;2TE-E!)AN!2Ij@g>W7ajZcMd$JN10Qv*
z*IsCl+1svjfO~<zR@2s=KIXYGWl;+mxn)mw<rK`h5&N_%?dHs6<FctY*3V#dUa(um
z&cwZU7jvB@f4{%JT<9a-h+{tMlybD9eyzB)*LZzHMM&pYu9GVp?uT<eE(mzWrgpyZ
z?UDKY4Y@t3OOko{+TU7Sd=n%ZdTzJZ9>&c*iAQ3L)tCETUYB=G;qHO5N9%<052%QE
z_w;aH7IyA#%Q>*vYY*eYWAZPp-R;Vn9)8(1{r2IHqWxMQ*?1o7E;pQ@`iVu{!NX*2
zj)@PbIbpqQ$-*R|^@R-UCP+9JoOSnepIX6emAUk?Wd6P>u3Wm$7Hl~XToT@Cs&HRi
zMryT8{B1W0zfa$k<t6vVf6criF=s}+>cxA%7U@-`->Z6g;)SWg?fn&+o_@18c`rLx
zX87nv&-;GuCwmxfY`>(&x2sC^%y#oKE2Ce$9J{s%-#$~Br2hJdo!#D&lrL4SGnY;A
zth2uGwCwP$n}4TF=<BItHVfR6bRt~TF#pQM=_~(nygc#3JVAV=Sx(E}6<sf8#w@$g
zV1MP@i~j9B*}{vv+x)yH`pd0Z>NM}-_5F1m7Vo>v_Pjg(U|);(>6P1aE()EfN&iyH
z*y5YGJXekL-jASfE#mc`_|J=;d-0l0;$};s($!<rFI_Rsn)dEx|EJG_6CS@eP(6M&
zJ4E$CyX1q7{GWUF={3ZbFfjNC$(z|OyXL3;sb`;`!;j8_T^|#cJ+!%V_F9JbVWzXZ
zb^o^<^7^c8Qm!)R^RJ~dQua)kJ@1;!OospQg6|Cc-f0~V*LyYbty93e%_mD)RbDqI
zt8G$waO=dmS?0g^67J>{#WKF+?C)e-EKqXe;tkG<k5y5V*_Noh;SN7gU>Dh-@hXaU
zRso;FhwS>s&M;1m#pmZvnIE2$Tvzp+fr<A7qgA}8#`GOb)9y%waXnjJ&ZlsrA@-E^
zj1Nv{lf!MRSiGOv*{}=fIGo!%)xB?P{3@k?Mn%8=@Se^Qi3>kb^f_E?mqMTZ+ih8A
zKUOkdyQ#6~U)z(e1>yHqMGAL4PG<K8+i@}X#nsQ(y0gO6yh5LSEag+U(2#ScX5pPz
z91&%_+vbTZer#^TE|7CTYu$5=RlNDn_i4WP=u_i&VC55~)u+}gN#1dNYW`$`<qaiW
zHMT3i!q{!jFtUg{q%8h3_tS*E;bj-E9Xt2zqba*U4CBG|6MOHT$|wpIwY+iiF(|t)
zdGMasqe|@EQ`=v6W?!D=G=rJrUB3^XVbik0i|wo4rEcCSkackji~W19D&~{k3%9@f
zz4Xa4Kk3Q09EIQbdf#a1Fq^aI=|$<>DD$lA8?$FGKPwvWY?iB#M#X_wnzz;dPdNSo
zv`Oc%O9ATx;Uiq#S%+OeZ&`Th|NHr25jWfQg~a!T-}n-7EJcp*Y`tbw6Pt=XSNZ8P
zOxrFf*yg+u+b5#y$ZYiBNc6cNAMVqKl<YSAK9PQV3(H^WYlW;E6pl=Kd5JaU_PPm=
zmiu~N(C&%dmns*n6RJ6{S+-!?O8=kn5>tO<PVYPQY{&G&Yq~;0l`NFng$rH<=QWhf
z`Z0@n)tozZueTV!pJMh^)7)X2mtp3K+76jDnq7@76Xx?bcru;6KEvhYy%kJ7-@Ir3
zn!>H1HEV9a&*I#c;@?N!J$v!lp+77w$ozmA+qb70rL%8+*`C8(b@N8JLqWSXV``r3
zluIwUEOH%Qy|8Dz^o{wt#`D*zTXPTi81qMbd+~n{vz1_ajq6P9*2dD?JR5AUY+T;=
zZ~wp9Pxoc6Zs4;1FC^nMH)iqchNGrgd2c`?bDv6nN);u?Eq)cZ?emnCi}y3Rz0|Mg
z^o;CC(K==}GcysiS0U9WZt>~VGq?Vny3KUJp!7?)gSxs2m(yb@T|d@2*Zw>`@Vw!{
zQ>GuLHB<N9*);9c?cM8dvB>><B(UdBc*HRqO{s6q9?P5sjjt!$%9*ym=8}G!(Q&|L
z>8UTvex6wNn1!7`FLB>|d$SjYCQ;5}&wfg;y7-*`?6ntZQ-3i1;Ct-$$zz|mT%~B~
zMaJ#>QthsPZx?kkQTe^$V}oqomF}9Px6T4>Qw`#oivpyw_<o!@aOA?3_{rZz@2(NL
zFE_LAB+sqZ`WK~7K5WQMoBCs$Q(lTl`Oj&SwU$kMkjG@Ed**t>oeK<K9%*k{o-=t)
zu3gdfLw|T9mNIk}tmACooO`p{u6i;1f^zrmNn!OrPqgZ{&O6t!ajVFo$V}HS|6YXY
z9MEFfWUjzkykxCbz4T`0bDnYc<-;Og&TQMo+upH<aq7j7%~#{Td<3afQ#V~zTv>D4
zn!6)C@cSR$%NN%MXiqsf@$d?jR}0%kCeG46<GwwK@zB@pC-W^%sE6|3H~Bo}#p#P{
z1Nvi*oyhE)Ww+|c4d<{gM?->3wM`TjH<z<aWGR^a<<R>xlb&n{TD?oO>b3}{>xzS^
z9x>mQXJ3i`b}MANQ*MrAm+TUUzJyHej9;FAZNoZbSM3sgHSz9`Y0(qh^&)LIS?VjC
zll%Ms=U00cpX}C@ANw!-5pVjwtn9&$O{Z!Lzr9%BQ0cR%=TRW*fd%KBC%+O)@Bhbl
z<5>!?zE1G{P{kE9%TK+zcwc_zS>2MeY_+rQNvy8RIC=xDFSDno^OCKze!_H)rn^D?
zpba=vzPV3vKe~K7tNz8ZHL1J)y}$pyA<-v}yZLNW$F_HmUvqT+uVpan+_=6WP;J4!
zMLFUri)WSQZ?k{#Y~A;VIz8zt<C9zCG+tEu=+5GPwq54#PJYvb>C+EsGZf34h9CLE
zyV(BwLlzkk?;a7JMU$=WZMyj-UE%L%Mu9K2FJFIj=yK%Wy3=Q>?YG39=XP@%HY_{8
zSX|-KhJCZSzuEk9;M{euUD)6hi`TcWPbTg)dubZ#aYwpJ-p?T<Xo;*$yKjvDD=FKe
zy~*;M-2cB8PFQnkgW5tfwYMtrIq&V>afa@iztK3hXUY6YGk>_8>c76c++@x9+8ceB
z{xTh@m|XX#O>tGj<t>XlH_9)qX4Tl-y!gxK2Wm^hGhTg7Dsq2W$HX@A$piB<k&m3W
z^G8%4c_n>8erfeqr>=^NPqaRraNRt2@z1483Z}ff&UMkLU#QkpFmPI_g~Oioyc|A-
zAAf}x2%I!n9I#|l>1P?aj+C5=RhRZMEn$$lDDM1d1xN3S$I+olZVszT_A?y+lYc?D
zO*1uCpY^c&+Do-QPc`nI_vgB*p&!q6yRfIfWbuVnmPbPRFa2e4VT*1#E9Cwtc+slc
zH&#Ywxxb8CJ0W+6_!?%J{ZIEfPwe=g&G>C`$@(w}HqUvv78z$tUfxqNIrgUS(%vXV
zQ`?Fs3l{`BCmeRp+E(@D(C=A7>?&`4E8?eamva&-T|Q%R_oG)A;~8GhSRcN$oBQOq
zd457U;){1wefch0bT30R+qkAG`lM)XbH|RVFXj%v%oE%ar~CU)<@j^>Se)%I?u4Jc
z#cm7MzIePy|JBkNSNe8TeGzxq6B}5+VMe$2smx+#<DwJl&P9xTmFg+)Lk_!!s@Cn9
z{`usD5bY&u+;8kQy|X=eYW0fjTiZAJuauaS)oOV1hU`Brlhi9c3dOBYQ#`Z|9J<W*
zPWDmFqP8UK;(Hknbn=c)2x(YS?sUy%?iJ~kD+7+$ZJgd$S95xE^hdr+mKwZ$3mY4<
z6i#2R+)?ty+<|Szg95(I(>FOk%8<T!6f~n;S@ZLu>jTai-#redWY;_b%{yP75hvb0
zF_u$HWFxnuw|jkkiqOeT6DB2I-`>CeO9AVYsx3z8wruzJ%WqnyBW<1OkiFoubb)KU
zdV+wu(Y*Fg)2?=~RF@SbOnv_QFxTM+=Sn4ivuw_=%{h1O>niK0ncN2dp0(}idnQ$~
zAh5O2ntO%zuU$-&x|}m-$ZXJBe7@|r@-@-gSVr#Vr8<XmCM?hS+FtK*;C0tNzXRVZ
zJ)9m}yFQ-&Xlrbu{qZaF8eV3k>K)LznkcZxa<PE#x}6(?ZBN%e&!5pBwv6dXiUx~!
z?7gChPJgX!7Ypau{tDbabB%4#|EE7z1-_fIMe16`=`e21b8>%W4a_D=|9+?v|D_`|
z_@-2P|39u5Gkz4fB~H*+m4CUm^7UD{zqPG)zP<kP>f5}|p6T<SWBcnj*XIxKx?_Vj
z$Id;hJbUN8Hy7_SKHjiFp<QC?w>2uapM`W-RDY4bS0p=Wj#5MI{-^ABH6)L(I<%6(
zS!&r7&!imHiq37p8B6;9owrVS@Ioi+?6Sv4zWvtPHb-TX`+n^?+yQPJOcPo?mWZ|s
zTwNo-sCcQ?oL3XI+qL)huUFGu^5*I>v+BiL0+w$2TCbTsD^vSNSz(0Trq3@@+Fo~U
ze0v`}tt#;Pb3s$q9=Ggp>Dzprw|4};({>5%yR_k<b@{b~v!6HgTR#<kU{HPVBkOmO
z_3Hy`Z^_J$lP^Cdx?z*MzpD7!Z@YF#)#hB7qb*Z@N;Y7P`(6vjgUNedUOvXwBa|G^
zn7B*r*V8>UombbUPk*;^ar>sP+YZ_AC`H^|KDFbNTld~WI)>jw4K5#>Rg}!M$bJ4d
zF5kU!o~9w&?uBV2OK!~lGri{@@9)c-wdY*9_`kAVGj+#5wv%5U*zMiU+cV$Sp+xR~
zA^Vxb_t|beR}ilcTi&~p`@zq?{GZV?BtE}gc*ov7+U@2IPwvmnr4}mYtB!;__}8n(
zE&lRu^)D`uZ`<eGSs@h9=-4hOsLK85%m41*y0ar0%3q&nKj3lkLiUf8&qvqw`B!ZC
zzI?UyzNf#rW*#bt*|g@u+gCB0+Bd8Jk@)}b@#Xv%?Ta>~L?+${x>>bM^uHa0`g`vs
z0+*Lb=^J&0Ow(t+q;WULbnb!|F6%^0xD5(*G|n<S|1-sQ<(?ak)kTxPmqsV%C8hhe
znyTArwr;(d^VI(TXU2dnwtL(b$1o<!Z}|G;_MH66Py6y3u6k=6(sP~iAd}ImxV7%n
zKD~zGN1>A<UvWI&R-3)mo8=_G*=f-Y7ebo<-B^>%&;Io5iD%x4{dL+IA`7JRqRu!8
zCg;okZNAXpQd)bfr<gC^OXQ|?dtTc*_rKRRKQ4abJpbI~G^VP)=?iXWO=G$9-Z15^
z*i`lT=P#!*ca_IaJgGOMcbo5N`6U8xCjYNtU}^Nf6ZX2muTQ&a?>T?VZwuEy&)m#d
z`0dlg)l0VL{XF>S$F}er=Psu)Uo$xKdGQpEZBxDWm}K-_K34wr*!y&M!Tk%Rx4pXY
zd&i6H;M>Pm9b9JcZi=?TvC{6xE(hPc*1wsm?<|{ZTO?6_s<!p!>0@fK-R&iJ8lHI^
z6lp4Ze7zyhLcMsO@)iCnfwq@+zROR(J+`0W?-n`PNs%U%)2t*!<9<(cfBuo{hQ%%M
z{F|&hgTHmONaQY_)Ka_Y?hjLi<<||lCil)Y4_CRh(1Ynv+2i{SQ-Ak08@PSBI=kvg
z^Y_xc*;OyTru}O?vCv!X=;HZTS5|r+?OynZ)8f+<?FB!QJ~z1jXkJjde@f10{$Pp9
zQ?daudXqK8ZY&7cqkq|}_58=rj0Oh9k5<Ij6j{iNFEo4>oL94F3P`iUyj2_uMK)i;
zCr2$@`Ol;9iDvi#muyYB4IbN^f<9RV{LMKK`1{ufX)DQ%vnIrE>W;e-Z5Hq4(;k=K
zw(ARr@M(9g)ho|m&_B9oNz%VdRko}W$6GSGt_8Hk{VdWcQ*(7+_?}<;iww6`^U=*E
z7r)u*lr^`hw9W5tNL8`>GxOlLSYD|;BGtD|Y#R=o|82J8VUeVZdaFtDQ%!~~Q@B%R
zykTVFo)Fa}c#!QU@8@N^Qmq$1cRBq2Hy5MCp$$Qt@sFYw%H7<u%>U$TMi%J}7gtV`
zmEU%M*9PC`-XGHroRs@}-=6WA+R5anjIW<=k7;;zEUmweSK&s(RF^2JGmri`wC0;;
zJSb1IH+nziLuRYr9-osz?(f8}9y3ez75T8@-CG;i52-z?INYyIJ{EU%drs)IjFN@B
zwsTD|WO%bC(DlKci`y6%{{`)g;(C#)ynoh}jh1$MwH-eH@Ot~=p56h&cDXjo71tk3
z?61E0$THymf?eB%1(s@UicEQ;&ppL=?S(qc$|suP4l4wfR-e8YsiF4PTGd9y4lJg@
zk=lBucSG(p*|WwEP6WTx7I{ATqOG&h&d*a)jGKf&$Chd9tPb>8rMheS>h<kfJ0*1#
zIRo!TvwBEpe|s_cj$tILciLO+jqd-S|6R&+^vr5bWsWmz=JW{vX0b8t-~8P3`%g2e
z)}orNi`E5B)|>HZWo1l5vl_=IPT_g$PM!O>unr=0`2K6&7jx#^Sh`|*((<&QS8VhS
z=$N&x*V!U5%V))cyK~f!a?Q*VS>?WLI^XZAnZJw7|2iHt*I!wbC3n?3Gk43w8^W!^
zr)o3>9A@>$_?=zMw50Cm)R!OsnA-kHlRjt1e;Q<MTvptA6|vwO(@UAs(u3~?S(^60
zGG7xZ;TW_>qB%0{`Nr8NlTWrA-wRoDDatSERpuSd)a~}Wa-+`e4zzr%=@9j%QSqc^
zmt$dPV6kEUdZTw!v=b73GdIlr_|QWs-7WvpkKoL9<9kd~`uZizdl%TQu-bN$QGKSP
z<zw9gDz{m$+*hmgy7zES^@@T`?*ET3zkea|bJO9@w};kUw91w1NXdNlBK63s{@p8P
zKmNh{acA?dTOpxG>P~~VmQRlF*jn4Ot!KAET<)^GSysQa7fg42w0`03!__xT{^bN;
zxC~mpCEKn&@tC|SV|eQV_J^UftbXzDUno8Q-ij^af2a92b6h(AP2nzY$G7zx-dXn<
zUQ@WekLk=quO%k$9d}7hNc(BQe{*exyMVPy-Gz(GZ}IKDccyvc`%?<)#qwz%AIH?%
zdizbv`hTfvFKfrD7Yf(hG?TU*K7D1+i`lc6t`fd*(yi{Ghk=LFK6A4v&(s#!f2k6_
zz|Z(adP4BFK%d(t|8k-umWb`!66gQF&1Pe}Nl%u+)wa#mj9+&Bf6OP*+UR&U<L9Jr
z?YDnlxN>h&$C58qQX6<4ivHFNl`{Lh$lUb7mPY|qwyZbW*=%|pch$OY@OP}%e*ST5
z_6C#Zl?yjre<JVkD%vd6V@t=y<JXsbEI-Hi{Mfgm<rQb&6@S~7`TV0P<LntO!G9G?
zrI#<CJcIZ3m0y)LnqS=oEjy)6BbGm3F0%RAg}aqCZ{44X)w<4{cyd9k`I@uLV(B~W
z_I>kCRQoUWs3>jms+alcUoI`?m#;g#@}pv|Xz1fr{OrZa{_B4S?wWts;KkQ~H;umz
zpY&cCnL9i0+3Cx#|8Yg6eqdeKV8h3Lm(MKL`qGzO`<aX6l)`2#dAZ+v*$>{c)~Qu@
z;~6*mJaIj6^Vr($QYJZev-O|8S-#@_gvyhvPcSg?%>Mk!d!zQ-zi*bWaDNut^ko`*
z&ed;gr$@hkvHXnO-;7`W*W_AOJidIo`MH33!Upb1mES-^<$W)@d0(5Is(Y+EyZ4X{
zXxLq8U-1Q-U5@=1KYu+_ZFwHFjqJ3@`Rf}BpUwzVH8EK0{u#8FXf{XS{eB<qf|izF
zmyNxb>8NPz>t%ZKLEwgd#mk22tG4yNeBk>$_~`aP{nmfH`gf`(KUn+7dGpknHy7Wp
znaz45RY?EJ!5!WnhEdmFICE=4rZ_%d(4TH)F(=lQZ<$|Lz4yo5D_k#^etxQ2@!Y0t
zYQt>1IU<uZ_w`n3iu|j6C^O-Hz{%dlvIjT$ul!-gHQ`XxdIjFsFG}BP-@4WH=5L_H
z{4?%cpSABBiN?OUnZ0dusKj&0rCg7>1@`Y|@y<JQ$|q`m(xqexv6}h_#VIX~+9`s}
zDh#%ZFX)7(&hI<)gQ+F=LkItEhGVi_7Qc@y+vO#C>}vjrF10hfr?#3`UHvgfTgN>y
z=5Jfi%KIE4f7+LHN&J|$_C(_=#!!j)hEN~g4gBsNcXnHC^yTJGGw(WJ{Mzt^h1*Fc
zi|+1O_WSFdFNe2?w<&$lIiS&&sBPzSNOK<hno9j*k1OBXMcYJccYd69x9$nM_+ptq
zjt?RmCTMtnda<eC`JXcJFUuny-!MyjqWRr@S)i~`fxhjpYoSjP%4#gSqXjFzD3^Ec
zo58o}QRLU<>G!JMT+C<cuS(IA(@xnSvSr1eMr-%A9ZDZoxG&TFoGl|HlAp12<KJng
z1AS&cDQEb$@sPs8j@xXT-=)ly`)zP#@r-Q@%|}eWsEVcCGD~E>c;ioylXX`nx4@<L
zjk%K;^4e6gE<AfE@GH<Ky20<v{|R9|*&)3>h3Suq-yD9?mo)1aucu74y^*Wb0!`Mf
z8_)W5%`;v#V;h68y36LixvF!ts{*378?Ch2`|kK!^Zg7ak(MzhyAP_j?Rs(lgGYY<
zb{o)s`M8or9MeAJD@8>4>TTG6cDfNr&}c7TgGk;Z-S?erZxx%s+l762y_sH2`mpix
zuHY3G=Jkh*SmwMkS6Tg~)^n+0|2{pzr&lMwiAl6&@?$-r|Jd8@cmVHquh4%7f7o_k
z-}`@yllpX#<&{qBx4)lqy!J+aL-5|zf6Lb^9JI=M*xmV1{>~3ei3rv?zb2mC$(OyL
z_^x>EmY?k*-&ZySubser)ZoyHE`|-+``0JrNq>9s|Ie0<s=vCD+e$C2oLTRoZPEWv
zem=wF530*lD|)KF{5)#*`9{0uT=j1$J^uPk>Uw_?Evn8xKCMzQIc}l<o1L=1W@J1_
z`6O?mS1n(*TVZCfrT-hw8*QpTq!qoH?uBU!d-h1yF0Gn(LwJLiE2p52q+`auZ-1w)
zu9ORM|Nq^;-^bbi3jfS|X|+lA9i|?NSJl6<EqQs1TU3?PV*4d~yVfHoBtxP$u9(t%
z|AW-#^nl_Qzb+g5=X?Wgz*}?LpuH`6;i`?+CvLCdv*6X=XTL^3C7^SkOkU@OC+4x@
zdnIchKKuETVTS6%V|!zsT+23<Zg`$Qqi>7T-!>Vimg-6q@lC<EkA<YBeS1+JwXn{4
z*W-Pge&jFGniRS&eUr~-&`u3eF*fhW7$E_n_gv4L9a%VMoiZyfY*`({c!FuxovP5?
zF>=oz?#yL#{=^lLa)!_6#*60-T+8n_e5;(n?)-`GMce6A`8nUp_J|bAi<RF<(>tK@
z*_CldOR4<cT`$hYG4Se7$$iFDV?VW9+4S@trn2XPORcM0A9~+T(>qYUMfB;?3x8$S
zROjX;7?rM^5VCFNE8XIM;&+lYp4Hx;<L;I(w;>gjt<t6oe-7TX<G9K4Zwp^~OiS;t
zo582MuU_z-!MiDrkKb3_p0V#pC1|uP^2lz71n<48eO?)I&#?Wa{b0jacmGwVK5o_3
zaoD+u@%F>etqhAzI2tFY9{YBi?Z{28*EXQdl@spd`?MAqa|eVsoD@|Q_pS`pJ)rf)
z;mp$fPtwO0$lbK#|M+T3_*JGO-BVtyZdDBIIr@Y5e=Wl!@1I{YTffY6-7v)^J8X;P
zD)aYGE&J=9oc8XTt6`qDA>^s~owKY*%$}KAJ--;wxcG-a@*(f(=aMgM?A@FD%;uN&
zgWm=pge;#FzRrDbcjvTOg5@b4Zh@_Gns+a+W9VPAyzS=if^&=a+ZV|nn-?4>e(m7{
zc@@h_kcbg`=VIP)x3{Zbe7<moDMfDYe})s)63-V(zv7oYH`90B8M(iDn^(B2)pLeU
zyeNJ4R_@g=9H-98bItmy?|&~`;IYi9*MI);`u+~P<)OiPmZ?SjbjQ9A(<jcdEWLQ!
zuuMAik@bQd5_=nWXB>#W!oG%g1|RELmM0hGRf|p>?n~oj@cgjlTcUL6qu==+PsL8C
zA6}6nuJZBa%!5LE-~Ipb<wWV7swa6$@%Mc7@^6b4S@Z{8&^Tb@wllD>DJFlr(c#Kl
zbNcV_vGy`O*>L6h1zqKBk*j?EE399<y?v4Dn%~z>S8$eTr)?1V?rr${^prA<s3xX4
z?=F|fu-rCZ(S7gB??(=2-t%jhbZZB-znsv&N+EO7lj8Yvj|&$ZYt7Ir$k{&qOcv8D
z<zx-7uq`cH4=FsUs4;ZylJGp=W}NF_bgtCZJEEabq-hSv`bP!R;v*Yo-rMB9Ka=y-
z(g2l~sh8CFs;Wwt-zc3O#}{_>k*L*2g#*gvmivB%vF|n(vD|+4OPVEPp}achw1`da
zj+a(XPuld(^6jJF`<!Ct_XO>g*sm;Yo0fX3-)3*5Uc(3LDGkQ_J3q?Fa5}vHp>?h{
zGi>TF-pC0@1lrXmI^T6M%6I2G>YG39cK!)Ykr_J=tcwifw8)UWmLG9r@%=SgU!^BS
zaOXca=@5?G=ri~0(g~XuMTEYZSjn2eQZ?y|nZBIP-d#QiN?MAGJvfqP-E(^$c(3Tz
z&U>jX*X;QZ)U*_H3;Y$%Jbcka%I3n=e-*R19Pe*>&#&EcX_t$Jlc!(!Wt-;B##L#?
z_VNsqB}@(NWNg~^ZoIv6fo1*SvX<gk=5H2nI^t)cbYqp?udKUOIyx%~{21FFvcI0e
zy1-oOyYlR#CSp;c7Rwnjw||gQYj`5R>cwfFnywcw4lj4-YgUwGpB@o>_sos9Jw<O0
z*Z&chbo~5wZ_|gk_{Vw&HH>R5W;DHc<Zl0z%i@jwhoD6)-i4Vp1<NB83qLNNU&Q`I
z!syN6#PEocs_ZQ77oI;pGYZ)8O$ythQQkEx?)v!!e{ZzceF=W2U2<5+hTnbDt1Hu!
z=7UA_TP1CFZ@<KSVpqxiH?=2ToUX4(QM-46b<4$%H>H0c6zep#eREiQfqZh-XK6>i
z_GQ@{((bkucV6)SxgqzM!d;^x+tBTuW&T}C8XczZ_A9o_8a$YimfiholF@V4f?KU#
zHEPjZVGoM$X(-=VVA5YAZp`?2;t!1jQ7R8~<~RzgcEq1tJoWX(f1iIJ=9)ZZS;0mB
z%b#-Jyv$vGLFm)O9~ut3lxtd3`=m-`Z=0Nd{v&<r4;=>yGtc<`D}6IuWWUQZpA&io
zQa1C0QJC1~D8(;U&z85ZaZ|PXwe-Vhr+zy@gO~R&L<;Ii&(r!C*$~Hc#!^%%PQ&e}
zO~PX9HOy(T0#cg=w**V_U%$UbPqX-*hWX4*d=U*_&1aoao^v{H$AaIr7Bk{PRr~5r
z$xhIDu0KUwg?oYg^H-iTrLB)0wn|_$+i3Rq!`X?w??itU-<HvbD15iWL%*%K=x*r5
z5-#3zqR;emWf#cpboD%Y$zapx+f^pFnSbB77j}*DmG0)~?wX~i?RXsjwxx*$EW7^q
zPJ1S!QS+ggsxs|K0S4*`#_Jnime#YLG0LAQ%+Sp6j_Y}I-A<qNzpWSeOw~QiFUGoX
zU%m71AG6}V%QHmUt}5bN<i20hQT*E9jk(LN|CPNkaZ7~D>l23^KPJ2_$g8@0pHWh%
zK6R(x%98lo%WgmW*=k!=TJv_h&oVu?=%Owqj(ghvoZBQ7a#g;3G-Yhp|9#zLsZ6dV
zqs}*rJw~Np76)3SCp<ELvU1LGmn#c)7Qg&6&Hq5rmS*t;smJp-ZJ2j)@x6CVFCSi>
zZT0In*Uhy@U9O1UUXvS~v;2Y)Xuqz~vpqk)9D0!aI_Jup*Hgh$cN;^Go1Fi6;-kdw
z<aGfhU;eR4EHUqzeyES%!u!?I8O_R;Po1_liz@7G+>xuIVyDuTCOg}{=hKzBoM(TV
zFL4o*uKuv`u$p>!b%|hV)2ZNc#%qTDt4{p*VW4y9`SSE_6TIeKyv{q}S$2G6+pP;x
zS(-cN9olKLc)hfOq(i(#1dG9&nQI@G{I%WYJMZFk)(xJO{C792`TpPI=J$ECVYtQO
z_1q7BrzcI{&G)xR_~Wsdg|e0%*Z+!saCK7N<~uoH#+H^n{?f%|2EBSymamISd^+`3
zee!GmCzC@Zj<4V|j#$+9@4SD*l-QcyKIK{q@dwPgQ=3JmEMHfZ!nM%xqlZ%Vr`HWf
zU#NYyS#tgFw=1FfI}56o3#TgPpZghfDfRZ8hL0LE{hpeL{@cOSwM6trd-qD|y|${$
zr<6?b5mji_%i!k!yt>S%!chO$r2a`SnOx>6UDt@c@M7k*@5jtmA6YtOamp@+#T+pO
z`ux{wqilawZ2WF-w>Jo+^vt22KTV%IZHn$Zek_0N;nYiglU6dREdR^vp{jUy>!o{U
zYFB&riL6Rl#h|^vP05#S!jW)&g|ESX3vG-_zwAy~#bC>w7AtjC$N0?lGb?wgJ$PZ$
zcXE&M*LFjegNdhA^CNGr62EP{)(3RpY@^-2StpOz<xBfIZr^?u)M0-t@l{&YkL9)9
z3XW^{ZUnp6voAR`KlYBs{)ci4MbF)M_J`N~`Nx0KMr&OUPuR0w#d*{J;&tJmu{{eF
ziyS?kz@2&?Zqgg-UUFW{YMsPdF|*>RaP(2Lb9<O>EdKvBvo+Bq!=hS7yf)zHrnzAc
zI0A(iedRj2{pO_&Yfhg#$J066TEp%0WT*I@9F{wSG8hb({^H$T$+~6Y#dyZOXZ#(1
zH*aZK@K<KlS=D92Kfkw&_BlR^kK@>8u=0-dZo80M(KZ@xTpLsut}PNU_m_U!nV9}1
zH|2}?f%S#A&rVZQ&%MH%G3jGQ#X=1?Zh^lknTi{$Pb;#Wx^z6R{=wo9k;SYMDQ?<c
zp?`P{I~+Ja_h0(EpZ~zGrJ8PB6Kq{<iiGEeMCvdtS(Y|+$JWEK1>3GK$dFZD?wQSW
zHT$}Z+={$8zZTzN6-`L3yvHlX-Smz1hWsg=T8*9S8vJ_hUF=Jqz>>ac7vo!&J--jf
z7L<z26=}F3HcfQWrVZ~zHmhGfeDV71DRFBIcHC`KKE3I^sN6E=<M}rpU%VbIlc;`(
zY0n&$2F;ZV?uvY#Hm`5rJti65(trz|h1y;-`fbj#opF!PXKWID!m05*p_cuvmff3Y
z+wYvdcs;n^=k&zuYp#oUmWwa=`SNSkm#=;9ay^CDq&~fTm3B*M>b<^w^Qux5)emPX
z7PY2YPfCsEJ$@qQ>(?t>e?P2JN@uxj`}IbivFT#*Wm362e;vzrxEAS{d7|dYHm}f%
z6z%x5JFDHIwGK>sx=8%0dswq_@|L|mtGPc%+c6&YIM95i?Xd&XRGV3x7Ehz><ryB&
zSR~Ps+qHd9{HfG4N6s@^yqluEV6xA@Y(H-ANB^wvZ}QAolXpk+`~3;UOdp~@6>yxI
zBILMxEB|UxlZ@-<XQc;EPVG4pB7Pw2cAC+T;KjP?3i}dYsXtmUuiDgJHFS5KM?S0R
ztsq;YnGP>lKP=^ulVB{~@KojM*Tn)`xbDS0yYuMV?0v<a@_b<%LiSp7IdU6xJXQX&
zp~Q2=A*~s=kMUTn{_d`r!I%_sp5u9ioY_X3+2IYA%eMV05NQ%i5Rw#*<I?tu{e64O
zXD*96XZe1o3BPzX+y8hqpSW>FwR9_sefW$%rwdFnLLKV`rJBX}J5Nlzo>0lN+UWwz
z6VoWp2ublr6V(%{BnsjSr>%CHz;<TR#d5yF1ONBGug#bbI=`Zl{mY?k?%R_j&ipF%
ze9HbjC8}tJ(*-6MHhodQIL3^pZ}penVA~w}>|#5=w$Ebm0|y1Cyg1uC_xEAt_M4R=
z$>&oiHhn2OVdHM`eEaI?t=11@Hm%Vq5PxvuL1E9ts(be%8?}07Z{+=%b6-Ae#!*wY
zhcfP*W>0T5?wUH4HQ`jlwga&Zt;QKUoa!`Ve`$T5=zA)ack}0p-@G$f&m?djX?**9
z!dpHId*;-})pdvMRJvqp-9-KFHK>)Z+vL7qx8Q32jAdLWPjBn=7H<%Z+UT3wUl;u#
z>wwytRWrk;EV&eYxpDa^n_s`Vx?i|T3VH9_^Ycc+vYY)qFJ51-ZGEqQgnw_`<S%A<
z2XeL>dHxF*+fj8}MA30#63eUCa>286nEZSHy_mIjo10j#@*&GjD_`aNWL}$|bg#-#
zCU!IHkAK!S{DBNFC$YX^`E!te+p&t0vtkM&twK714X(nqR~KxI_wsSSp2KKn81hHz
zlEIN1(i?6%%VgQ?jl81V{r=7b>BA>9S3W-dq$}jxi}LF}_C<1&WcG<naNZrY@Tcza
z%d=hgKh=}o-Djiv_RF`#KL5FK-;>i`XGw|7^gSVwo)WY>@$UuG)u55J4#(OG&45c4
zOvg$+1I@G77J#br-%H9^IG=y|C_QW8i7&hMGnJjRE7UWpT;n7iqkSd+=MA&VumAm%
zK4rjU@;~+Vmsq2<WvMHdRZRJPjWzD5wb1^DI!PAW!!v>|WXdf%Rm)wlqS?_e&4>Bp
zwW`y1<*o(>+nuWA7FbeHdHTtZ3BOi#2w%0~54Jp2D}3Sn7N&WnLbX$E^S9hM+dAu2
z;Je`ci89(Llc#Q<_b8d&_@n1rjqjQcnTo2CSKO^<g{Gb4pU7OcTI;*+0j1(I6Q*vO
zFXZ~n#JZn-dc^eK8HQ_5)pAXE;(1|9#FgGtGN#wspA?>3EPti%s`|l(-#!j;KS~_K
zpFCN7rs&OK%l>~%9gel9qfXU#ZcC^=%`d#@HRvQ}o*<zGc_I6zh+I`ooweaA=xo3r
z|L)FKd0_H$+3TfBA7pIWljT8&0XnFEySgHo{pXiiY$n{3z~@=I=^r(5U$#zM{K3}~
z-|{Q8c7E~h40>2HCtK{EgtqDKCEK4X&-c>XntNx3{4>K<%3*({qe36e(wD4_*Iu%s
zvDBqAw<zrR^}q=>45w8W&u?%%_ST{INRQn1d8>40Zk`Zf_v_z=LmKy(Epq>?D98$%
zs`)wP+=tJC6T%opzFMuc%vtAQbG6{Ox90Soy8mrC|3Ceh<gN9dQ~%?_X90SWe_2W%
z?KrHxz-XIib%^_R?`2zKjDGQ+kP?)WEaZu~cWp1vqn4jbr+B;Vm!EknpW)M@;~T!Q
z-Z;1K-p*V-$-iuGVk1~4O{y%lc=F-H%c<UO>+25NarC~?wtkw#;?P}l$ZgNL7vHxD
z%I~*XG3{2mru~^yYf3{qZ~mJx`LDs73!bHYwwiUCiTQ7`)@@j)^^r5etyMT$&ogS{
z`ity0t*b%VJ>p0vlXl7C`J2?Gmb6RkKDPMrW`^6pe@rTx-=g5F=IZZodDgtSI;kN>
z-V5s__C1zLUAyol<M)$hS}RL6cD`%S?d7YOb}QVziZM+sw0+WRu8x<bK}QmtnZJKB
zJMYhLShlu3@FbH<vzd^Ah-T80(8xt|j{V^UDV)LX`?^+NozvoX*5QXgjDn3{z1SXj
zlF4V2?*=D*ZJ%xtu89plb%Wja_j-vW$es<$N-EILKYoinu`abAbfohW4{tHGrOyI(
zMJ<#q*cLqBNc%;_={SuSM(@QwoBgdj%|83-jrO-!mg^k27~`sV!gK14w}&e1mL@*u
z@~=I`!n63=hgk=MWH)DUMC9l*oiq6Plfxsvmf_PRt@I0dekT=E{acG)O>|{=kt!pn
zSG8X5rrxrx!SgpUJS^2`a@gpsWppXmZj)tkW3RvHIZX#Cvy01PKcy!AK3jdWC*k%=
z|G@q;fzy`k@m##&jaiIs^6cc>Up9ZX5PrSEIjNIdF)g&R>m_^i@0*n|4UTi18V$_8
ztvh$LeOdk6^yh_)zYb>dH)ln<UimG~aQ@uls6_2a%R3lCvuo}(9JJvFYYLpjb%H5I
zYW_W?$F>}S+4k1`Tn4=NEyYTg@7>Dqt37+m{JF<jXSi(d@$X;u)bHi=;El)MO*pf_
zs-N3{|FWX_vtFyv<LAyz%lRA;HrM^@i4-BHMBi(B!%fzf*JSKEe&uDUy>k0T*$o@p
zrPhg_WZL#JAm_R00`s!scRbU~6l5n$=$w4G!MEyhv#jrI&_RhYZ+sW&_pu)=xjEq*
z*W#~1w?GpIMix$`dS0!@Z@pg~tlF}(;$K@O<E0&Z^W&y+E%$!4#n5sNPr{dc3&z4-
z9vf7iK3j5Z!d}M7rAe0s-u^z!wVLDe%|GW^bY{y1zYUZ%+5hh+$BB0=ox)Du8LPz^
z4)#xd{c%os&6~&vi7Vp{SsI?|T$SB6bL}^~7_W802HgD83q2%D-#9-`{@(^VtLIEJ
z%hj2!YBO0Z)(39>d+|?DQLOyTJi{4W2XDRpJ#jNv=h>SFRid@+zA^b+(p~)5Y3doR
z71NV~dMc_xVn<wr6<gWT76<BhJfA-4O#V%M)$66LC%I=It&U8*y+3g~dq|+evL83H
zS`VH!Jtb!1wpMRx{ipQf&sol}U(LPt<6~;b#`p=_XS3TT?h!FAdQjrwS{mH&=Hz~7
zK~0v#Kf!k!o^4SROWkL`#(*oF&m~{K-8oAu!~A#E+3n4*wlOsS&~AJYn<D>hZ?4>m
zyq+_nSAExR=)YMIG?n>xoco5bp0ky?U9Xna9kx66u++Zk+tSJ&ai;U2*>CFw2A40a
zoseUqdw7odg3RtC3ITz4#S$ip25wQ@*lVw+S>5_kz{THhPXA#cnTgp`M9o8sPyA}I
z{gx<Eeo9ne>Jp7zdjnT}n)NDe)7)r~(1p(P;wqchXt)OcS>JQd>wqTL-=7>F;fx#J
zpJeemb%)`X$m)|<54~7^M}DU1=WtO!!@l)%XQ^77CigpYE)q`=%2zn?W>!qlDutOj
zMMmj&G#$4v@%YqqX^2mlpx?~Fbx8L>#mV5Z(sR9@Q-XLoS1s)mopn5X&lAnh+!BXY
zi=R8FvOh8S{-((0+>eu%=Q!L_biDHV$<ixxJyUOcEj{Wz&xmpLhj_(hZ;JG%uZ!=J
z>^kB-ZxiEfi-eVvKP7vew2|>yTHih0CY8xaNbN|J;si(DZ7$CIo0f^`SDs=yvw!2)
zGanZOUD4HkQ1e{#+?^XACoNwg%Ga;3)BB!>clNY-PLC>12CFIf#Hld)uj#7D+;#5A
z@>$=D-W)#`*X)^?_u$9N&Xe42cUGL5WU18XwlphQ|A5xgmDgo_TFX3cG<=&o>CeWE
zSGi=}RZ2b{ahSKMb;ZkvTpkZ^+{kKebmb8^vCj5a_TLXbc!O=swlTG2vtOC1=&|9-
z;x7KTClr?^C+i<@+TJq#yVJ49-jN&6HcyQ8{(0jDcfbxM29?L>o&7dly50V8_LaLU
zde<^MY}aLeH@T+jwV&tBJdsTiYt6nf9eFwFenaAfCyy6M32vCD+9bR|mhpL#;detl
z$yX&Omv{wkzqc{>T<_ifhG51?`oHd(-SaL^>|fb>b%A6-S~<%c?hU+}N3564j7ie%
zFuPg%<k|lkmYyd%2VLU3GFJskoV)St2XC<j(>cx;?e8D1<}E6c?fg-nB~mnR3zvoH
zf-|Sy?7x`A_1U>;mz%G;247GB<8!8-LyE^9K3F>c(BmA{2j93p3l^*rz2w9yryKj?
zvX=DPGV2{@E58UA{5$>rzMhAM(nb3lxzipzz0nRnl|pHu%E!bB6D&elGrlq10<|EH
zEZM4X>$uMTg_Cl2x3koo18umOsAlwF&ey|7SM53zWAW|b9QXSFyeqvMH6LWGoPKvf
zA-~}_kj^*zFEUG3dQDyQPA<z?KU~;g&hG-|Q)|VKEN(5%xssppjp>Hvh2I5Xw+#2Y
zS1~H7zr1x`(e6o=s_c=@((r^8L6ax!IFrBg?ewIwnvAQ<I)q>I^I09@PW``dZA3Yj
z+)W+}Z_5s0t_hnjKiqEO_1&-kty!&WM8e;n3=&IAzs$02P`f<)neuJ%+D!IBr?nT#
zD^phTJ@(7|eR;F6eAV6mh3q_++75HgeX(TIxff?Y`uE0t-(Sy^vgXGjomms_>G@TA
zZM)F$d80_-qaVCaxf1eEW#>PC<F|S*<ZL5#hx0F1_nFD~oS9yvXnRNV%dY!JIRBnV
zo>nF0(~}!MW3%nAIjpR%b1wWgI2k>y@a~Iy>m+vHn&K_RxH9c^RrTTf+|xs*Gk<#^
zFSqe5XGCAxYbKG!GA{9&Cm$|&)qXDRZn4yp@9m;$Vk(m76i+NoULB-(Q+oHd#Wz<m
zBnB`!+*;N6{i(>o+h3Fv)(4qJU(LV4$<aB(g|E~!<3Vn&8{b*kvtg_pFHd!E-pTg0
z{QAcEm$=R?zJE6C>xr3;)e&E2Tnl-U@ci_fi|^B3GwGCUWl>lk9AsOPc&A4u%Eo!(
zS&8&?mW$!j)<xbv)mk=fuK$6OHYKhJ$!fEDY!zb--sdK_AJLt^@B~YXX702Xr#nTQ
z3U77$zRg%WXW<E!o@6gS;j_w7vsW|A>B%`h_g<N<u_^OU-}1A+Tlw0aOndU+va$Zk
zYv%$|w8e#<+n6QtKbY8ktG(=Qn^l!)m(Kw`wJG{1yq+vg@oh4CTG|T|jM*Zp|3rK0
z{=``3$fWH%kF4d_`#6Jl`@htRO&*Su`c9g3MBG-J+p{29{@X#-eN1c{7drB8>)f+0
zgSB_%hP00Ve-m33RK@qDPMTs_QzRSzabd?r_US+PJYGldn{sUWrSB{H68IaJzHXK}
zy+UrL$j$3t<`&=Ds(j;FILM;f)-S7)49{{uDEsUC?N6$h(3J=`))~h-LLb&v=5qd1
z_?)w7F~7Nk`nARD6_Xyn;TAnO>+&qA(l7hpX_qL4IbWE^R(or;{?Q!v%lVPLsdE};
z^chQ=IC^}#9VT11;~JNB^_Tj4aa;_M_C1d(m^6<(I(UrTyP#;pm55`k9WB9fGdFV?
zZmTLkTkufg_lEOwe=|h%4%)7Z)7-q{<I7z4O{;Y;+4CPL`7&Kx;oJqa=^;X$Nf&0h
z8{54Bt<qlN!SOEd$~`{L@3(Gzi`H|muVh;E*)}`=NtesUJJJ0)f+tVR3;mn=_e7o8
z<tMuD7n%j6-pb!8`!|*KMOVz1jozIJzmt_0Z+|D^)e}-5X<Jklbmi%G9*46=wq7j9
zl{dTZ|9v{E)zI6p*WOsDz;}{)@MgQ`7yCV@ybiplUe*!R{I$q)XRSrb?Ss3|SALOa
zn9VY$<Z1iH)UfGOZhm=REcaJdV3zxu32iGwj<51QwWjtfsB_XW-6$!iZ=25h>6^nU
zW@=UcYkTaslj+nRkz+T0gjy&i)M_3L`&Hh;oMp3u>5Gnaf1}Qa-?xN$UtQj|lD)R7
zHmL5$Z4*H^_9v%b7jQhEUbOG&!L*&sliCiv(EeZ^qO~L=SkJTP_rCQ4Dtq)^>b{+L
zNFel_=&bE>ha2bjHyAZ6@Os2tniIUR<7C>x?d^;F*Sqs6FP0Cpo8z}>6T|-xC;rdh
zRDOD^s`(_=<(t$uaM#$|t==xQk~<`uIcQ<ysh|8y4xgR7r25Dwjo8038o`?mcRWz~
zo0!%o_jjRxzQafRB?&7(EB8O%_RGn8hE2a+?XOc4XRnQ2Hu;LNgvRfpNjsliv=6sX
zUEA=erET;4O2(_xC!Y!NHOzGl6?pPldGV%9_noQnYZ@J+SIyYQsQf!Q*hA*WbfK>S
z(&m$AWu|^HKk%Ao?H+!0wr`<gEP4*%(T(@7zGru+YX5WM!tX;jg0u7Yvhli2Sdla<
zD)H5y6K}T7S{kn3?)=$k<;-xm{}GCJ&hJYV;FfK??bT{jwZ4OKR;$*s+yjTYoZdL6
z-8~<>N=a_b{zEBUnOp)F#Znn3HZN7~&^!B{)#t^F|G!u`LVs;v(Q>jS_xqBpkGi!N
zGJ=kpeC1m#Qo8ws=dE?Oue`dP?BEl0bPI1q?vqolv1x)nrfXN;`=u$iVP?{;UHP3?
z!!7N69<7|crS<4(uHBl;au4*(I{aNI_?Gq4)@clzC(P&9Uh*u7@xc_!2g}#HZ{Npn
z;cJ-7Jn6jn{nNhZoR{X*W=14WYtdTv(p`?{MDVuGjknL|TkcXU>|8cu8AJNh@`&)N
z>Z+iV%S6QtW+u&IS|X&$Tr^WP=ic?ZFK*ZsnH}B2>+vay)8gog6uGB|KD4qGpItn?
z?dvJ~eU&ywi}W+{Umo&*zR3LGB-SZ)r(_MB9{%qwDn6!aTB`9#Nb314_x~(QmIyK~
zKeIRYxu530HxG6`yLg|$aPfwf9A#cdW94qXeSOxn|KCohMals+9SWVRm~L}+)oI3U
z7QHIxI_E|Mquqx4FM?9O?YciRq)*>|uh!ow>Ip6v;&x<vi|$+eL~7p|;ak40a{}IP
zSa>P!$7{9P13`yx?RC?P4L`!U)ye40&%V%OMwgzfK6_+G=2@KusUGWsTY8F=<TrR+
zG}z$h8o#cZXV;}J#hr{Nr%b92YMtcqDscW5rQgOo)3)-QtUWieR@?mV#0uw-yXWjm
zj?aBy@voLCDed(H?FApVEUQgAE<RVpN$2Q<koN*lJWnybuvsE1C;jl%XMVwWjkYIj
zXCBEpS90xl7Cjd_zm$Kq8EApM<0_>Wo`IncX1I#qUs$*;;m^LZH#*CtW=K!?DLXI6
z<X5kg%hXfvy%`^cd+wBLJDaNZeC_%-^6|bBll%`b?Bm_Z5^`pNWzfy?137>8nI+s1
zQ9iR@b>)k7TY}d;7cC8J3a*QnHu!83DROz4&z@Vi)%K`7IQy$M_rRe{mQ4-kf{V@t
z%zp8C<3Y=Sx_B-DU(Z$NeE*%YUDf}n{m6xj^858!IW+lF7q`||m6ko1+S>5g`*&^b
z0qtM$zIt5Gi$a<&y<_&#eemZJNV8vx%bKGlk6$k@S6iPt-<rL%{nPJT4T~7#XNt^i
zx0>_Wo5g(n@15_Wi-h0E=p-^FTwQ!;(|!M$=Iej+dQAOxu*A`7Rgv(vm%FC_74>@i
zn$zPw4{vtY56|ccp-k_t%jCs<e>Jg_qc@<X?r`L#JF!Xy+TP~ttM?u{b@#T~;i<0-
zH@)8X@%Ns}yZR1Oe59QOzl5&XQKxh8zTfQG*Y`5<FsSr@XE;!oV>~<ms7-#{cdmj3
ziMq-?9)ZiZivANV_`EB;K}4o@vP+rKgT&1-Ka0wh+n<)|m(HHbJ~@1r%Z7ye>AvDi
zW_4FD*IEBtUE#;|`;*t6?eMO)>c5;Xa_(tqJ#$OmOy{I62A!q*q_2t8?rJ~$Y1jV`
zCvM!BcspPGfz6pM4~i|Gf7-R5dD7LzCHXIx>3*3gQuyfU#MPSLa}OM8R8!*<-E(+R
zbx@tf@y{<Vw~MwNGmS8~l(Agq`;6%udnPPeT{OS)i5{!xJu}~6y}J*+iYxD~Pw+I|
zSv2MG>g3ig?MXTZZ@)X7>HLV<LzPjjB7XHUPiyy=@im6;W8%L19}w9Q&A2jY;rk8S
z&vySx)?5GEI-%j<$I2&XF5Wmd{qD0vK4vO$4JLw9<t>Bw7pQ1w7tPFE@$}_{9}JUj
z^KXC1l|TEjcTD`MBNs0If6F;z$yCe8Nx_R|?e}r*`OWzIe*K@%-HcD&E7||-|I;6p
zXx)_Y>(=XhHBq(npaA)alM;=aZgETIuLD(V(x3M&;)%4<d-1mH){SzDu(Jo5HvK(b
zKINF{+JfB+uD`TyJ!jhgkJIAVts7fr9h_`d(R#7;!N~>DYkny*&Wq7MmA|uFwfG);
z&fd5+!a7ek?0NUTLGV)h-)Obhd+(lF!nIu3GN$3>6@JqMCozYH4OK@zIL9`Z^4*Y`
zcKxsLhDVbYO=)5MRXqJ&_SUsNzxhtDl#e=~Gxs<bm(z2W4BJiRHL(p}L7Lf&c~yg1
zrpM~cWV{h0zL-b!;41knhga9UPKvP2KeB07y1d)}iN9CMM>(v@d1T{q<o=Z(%V))!
zukCsEu`8Ej!<_Xo74o0*cWNj_?)~~z=Yh?}Ue+a<S8m+ku%2Wl@Hz93<&lCUX<m<A
zKYKn4eBzF{@?I*Z{PE$QJ+HqjD+sZyx_#h>{;R?Y^LDq-fk{>yduyKrRwRF(Fl|W{
zqv@`%hkK+>b>+U(mSITg{-t7-_ERHHT95tPE`NT9D3^2x!58xxSxlq!gSjL8a~3md
z2W`sd_+owUp`?RDPWtmj`x$Ppye;s6>lXKG#sfzd)K5FwAN;EQux3wu!`~~pCJCv#
zomSmuG1GZzU8HeR^;+5o)3Ce8m=>L3-)Sfx|FL4T%k_ym$sv#4yF0v_Wm=~6Tj}QZ
zO|C|jT{qh`=j`fbQ&Fs&k|ec$LvHrUNpb5MMEvi%F@O6T-6kM4P3vOkKAi-sQfXd`
zgs{HDj%f`tm3Qy%ILY)Zc>B(^1|^mWnet&Q3#_HT-uYpiv^8}5M(sHhv-zCcwtRPv
zUTd~(W5d@gxjG7>CktOc{2#N0*Q5Hk#@j2oIuBm(SRCzKJ~#LB9U;eK8Anog_%>+!
zFMOB#ti1DCNvK(2%BF{LjG2|2?=TqOFH>nf@Hg=0qx83jpRF$di3#`5SjK0eb=>u~
z(nXmBegpmdY3vGZi4U!wMz5EfnO?M)!{}ME?%`bS8&4-De)7F^a|wg(t_Q3$a%ygv
zE4&k!@>{9?X>8g;#SMP-Kbg*$*~K&juE_J9bFw6H&y?xbtX9AJwU2!DJbq)=vI@W1
zZ>oCIPlVRnGq@#g7Ri$h6xhH1Vv)3bzP;Dxj|-DL%<MKUJay#CvcG|U1UbbMwtrl>
zjC+$K%LyrkX`!NBJKC8`zG&ImH0T-?DxJ2oQ932{_Sm+5o7|cT2E*A6NwYO49?nw?
z{PHw!woqS0GsDxs1t0i-oSG5+QM5AW(=Uya>{D!>@<mt_EB$7jxh!J&t`~dny<pX-
zJS99~?gEX?{Sk>bZob&M(RO<aPv^z=?hYb#8u5-g5>qbiPr1I(@UUo3r>RMT=v!T1
zsi^)n_ZEi#-o>EmU&-Y6Q#aX9=Zt1(&STEc#!dTFuU%-EyZn?B?{RzE$9JCxUeI@V
zxxA+0$-(D}RSYxuCSGwbT;H&Cas2jskK~Phvh?&E%WQq5BN`qz{qUuW_KcCwBvYgK
zEGt**9LUytvZ3Tl`2iJK`Bx5?te4zKWA>XKQO)QkEidPAVe^U*g^v$k_Qvf`?Jt^n
z_|nDujN(6A)Ye_J*6~>o@qD4Yj;`!q*$-SBjH2f({N|-?^Nekuh*JB~#rv7#HkLjr
zKT*v5!hG-P+I_Rb_`Kc!$0+VUe5NOMmRy<FvVE&>v);(5*}=eG{p!+N_Ur;(m!*Bv
z|DU*ftesupYT~W_X6K|Hhucr>{!eW0<rh~t`D)gjJF*R@G);E59OEvSx9{FpeX+k?
zb&3|L9p8^$&#*kYCFk{xXUn&P%Bv+WSH=`h_g<C5KJV4(-r@+*!V6>hH8U1<H17I+
z?X&yeXB+ms%Wqg9aWUV*%hBlb^|*$4ydHd~U;pDgVOW;(^vra%`B%P8^3(+t;v(*w
zR5oWUx{>bn*I?Jiv!8a=GadRl-=mVlf?0mc>X4^jr|Tam`&IRA;_jRrm)I-MZ)<%O
zi_5e9l^q^`ew{!ir)Z1AV!xzljfQ6v-`dG6>)UIja;x6rGn4eKhx!4fIl=`|2QpvX
zkTy7RruB$0?=|fNhx(w(w#^sL9~Uh%bU*qhKk8v0|LpbuPCV&a{Q8D;z_LjSlb?&q
z&2wJ8j{6tu44;}ER<}c%*Uo8e(stVabnd-vY043w`Krx6K4d$iBlb(^IA>SF_LFYX
z>z)}le_8*?d8^a6%=M2lXHDf=`Fryf{R3H#oOvyFUK2>Umwdx`=das)@67JxH&<}o
z5X37P7`8(0=6<(o^N$bN_B4Hc`fK*$J%|5JeeRvrCil0K-#j6CqCo8Y$&-%<mo0NI
zTOau1g@4V8upMes*;mSc%e`}@`Ss;_hhJShy>@$uYzDh<Lh`|@)90<f{`ho$<<}SQ
z8zxS6-_loMKW~<^|GJ$ASyxoViy8303o^*wv?-*Ju}aQSJi+Ya!m1}aXLWn58}Iwt
zG~AnUOD3%U-(l+`-SRpm3(G6^71eRxx^DB!I^o$r&eGFeGJL<|-d+7#d_v;d;zx&h
zJ$`NBJn+@~<ZSEfx4rcfH1180Ra|!MV13{EiyOKn_U@k6FFAdE7r%MJQ#R9^M?KFj
zG-rJg`7344JT1GBhK%rw%KrPN`}?mdzrMvrc}vj8hio}#mMs!JHMgkees%p%U47ZV
zyMn{?8*B<WCM;7dSiIqF!b<n)D`$hV+2Sn*+}rpg=bSCJsJPN6Gp+9*C&zc4UrQZ+
zdCuCumH(wp$>Q}(7w>0Oy6~j@#Pq8T*B;%`%zIfECY`)~QQnhp>^rj_GMAX%-NCz?
z|E+b7*|E3=A(@H)V<w8`8O6O`$EB(K{<`5erZYi_>bp;L*dIRkBD(bXtkggA>g<`4
zj=j5{uvXGD&AhRl;cj+`pLFtk_q4<1tJ*$T_gH_-ygQd+Mly%lF}sF0XFTlqcp|>J
z`hVY4?)i}QrNnOrr9jpEY3JHmI1|p<ePNv3yYVX5WCo>6LXju;P2anV*Xw}QF}ntv
z4JE$U7VO;qDvmF1UAu{A{+r7&47;anJNsm^_1j;GyA4Zq6ShiMGn$>7uJ15q&53;m
zuXPSs%M>hm(Ob)~`p#*aCAChvH66nLtlyL+%O7Z4e_J(T(P77@RrhRu^@s%LzhS*$
z>91JT^FgLBV})Sw`PheBq<=Fk`ruqv$Z>D>y&ETG_svY^DNELOsB-!D(y_s7;fct^
zO6H!jWc>r$508i%SVsJh+IEfUMc6H6*Qr&>#tIz58zwE<(r15eCbM5dT)iaIJk>o)
z2d>5}(7aufR6N=A1<Rf5%TsC&sqVSdFxRqJqE?R4V*Ag~rEwj<Pn6!R5-T`Sv-g<V
zuL)CgJpGD!i;YfA+b_?cF3<Mm-Gi4o46AMTojKOG$p7bu6RN94)vm^@xL7*p1V_TO
z4_?e(iF0HYUifw*Ym?j8rz(=MFI4yJVqB!<9^Gf>mH6?P-ez#UqqJvJ!-vL$93@Pv
zl0N@`xyA6k!BOQsn|=$h3TsVWv~q%_OI)dR@Vm_olP+F96UG#?v|4D_2kRrdl@H(i
z>#e!{@WGrnDw2CyQ|uo#xVxoJR%&0saWC&UyV!60e$l3RQ!S6Lp8I}U*_riS+Iw~}
zs4lK&dUjQKYOm}T*1WIwT`6C_mwQ-l+puyG%e?l>_hRMGaR(UvQdjV2SaV&!CHd`6
z?YFAClCzAXwq##f&zduFzfu2DW#%7u7wkOC{bM@gocQW1>+hPqm=)ORFpInWdBCaD
z%KGc8C*=q~n9@IKMyMBSVb1)MEL?T%7t@y=eOg-2F0xi~X-a4E?5doJ_mtW}B0B#Y
zFBG1AvZ%H~<@Ub7ldL-=Ch<F{bcbx8I46Ie<h8d?8)D<WpLc(kEu`wjY*bWgyXko5
z`NGP(_V%YHG*t-Kzgf_JYscAZJNCSrul*#gK5?(y-eB8l7vF}t?5df*v$3{ahHHJ~
zOjlm9<%bX6H@oD&lR50$%;@F3wM%OCCr{q9|4`)_UXz66?@CrOO#2TX_St<t#z5Pp
zKkf{#PJ-Yp1@A&Few7>AUv?Zh^5@Eu07-qf_X6*JhwPWr@_SMn@zykpQ5970y^ML{
zW!>d3vgQ3pf0JovZDqPrzLXz0c69T51<Ai5s==3Rc8S+&wu!6?JF)hR#&<(Tf7TbN
ziwj!9mIQp|)4oyrdebYTMqjy`Z*3O2uJ%|cZD2h6RrHg28yZ5A;{J0v^#7aSbX9r#
ziM^E;lOOs8dev`#Dc>E^IbXZw<ezuTO(b0y4!r!Fdti0QS=Nc0>kspoKAKqBI(dE5
z*T7Y~`Cq@XxyQhMTcnBSsN-&<n<wf*S!O+&&#x^KUH__~d|j7D=rix*>eo_caZ3ku
zScmM-tYMvEyGoh$`hB(L;svv~xi)ZgFHqA<(@5X*=6b?J#Z}Lmm|9jea!veD=rQM+
zQ9^m?V#{k;v$(kp*8VU!6_Q-U75ZrFlXuQvUicR~)=s&xLssV6ovvEBW&bAqxRU3T
zq<Ql3#G|ZxL;cS7i8OsV9apS)Ezv27^~ME8^;Lr5FZnpTbad{VSm-A#r0)=v+I&I7
z&O9({)9>kz?25S6RPHq#S(J1x$ZfHeSJg(jo2v_siTQf$k^kAnuXtv?O?<yxW&078
zn`O>|FJAor^M!9=|1YuJ^RtpSHmUyC4&JlcDQWAWr-pID-KHY5mqtBL5f)nP{{Oh}
zhQpHmqOCF8Us^{j625KAKRcxJ|Nj4f^cm8AYFzi{J=J>3Px#5k)uFG{DouWG@SOUC
zZ^q11j`5X6S!U<$dg|&WuQbf(*VcI>>B)Qel;dyB%@fqy{s%7c`V*5V>>um1blJM2
zJ6|l${x-?5;oq(H|370C11~sgaL0sj&+cp#J{+sa{LfxqE^@~a$5-vg`M-$@`2M$l
zoZLDyJN`-U#h=T?KmF%@klY%&CM0E_<kH>0mw)Huh;{h&f$!o!g|5Ko{Y@LU{x^G&
z+?svm{U&EFqxT={*?pF&tNJomrLfFV>3p$=Kl-xxUTGoys6(<JxGb3E`4;T0UwhGz
z>BY7yj~A)hFd9DX{q*cuxz~->1z!#w@9UoSf#rz8$9&6-#c7)pCTlr-_I`QREk2ZC
z{cahNl9}^7)W3a9+iB@|v;0Qxm#qx!Lis0b)Z>FxSC+pBfBtL3#p{uZmAac6XZ#5|
zr~1@dJ)LLykG~8z95%MhNhvzHCDS_l{85eMhADmf#1v%N-dG%z{F@^6wJOD5cFx6n
z*Dg+HnB?e}-pg+@@8u+`f9+3~b{J0T-6xiCL`I&2A$;+L9*=_i4^No=vT8`MT&!?J
z{O=1b|BpUqMrwRI`RPnK)we}FM3%aHwJuz;E>QWI>F)v$?w5QOxwGS3<Bl^vzY!Pu
z#ku_Z!wF)SgeM5i&kt$Wo*r2y*nB7LuF%03$8X=XD>}YS^U&Qrhju?cFj@EKk$29S
zinffEW->P$cv_Bp-jP{)T|w#ao{~!I`;0e@*NU!7UVit9(tOSG<jedZL3=Lkoozf@
zHPfv;H^1fod}0HiKz=%}1!Ifoqb-@MR(Puh%NKYSMLbrH%P6r3c*q{Q>r{N@oEyu2
z{BhnQJk`&O@!83FnHxNgM7WjK{Jgqzr;4Sy!>p@PDx0V8@(okpHoxJ#>d8ump#FKM
zbWcq7^_Ua)MbqN`RKG0dvW**FoXJ|~es9iF@zr~I%$ffN9*bP~=S$JU2^Q>Ae^dk)
z={ab}1vjh|{S%ZB?r`>+@!Tg&CHlWIk7i37IB)mS)@glh<}2N?Q#IJ<@6W#+5tH8>
zK9)Ld6YIs4v+uu758m*|^y`T?o2OLNotpkb_<i*G+wBGV*DhYaqrF67uKdhOzEyP<
zufzTvX1KR#J!{3?<B6w~Kik<jZ+yQludH?Zi)===Gf@vFiT)4r^VizjQMpj>Z!J@h
znO1|&&3$r}<#I3MtCst6Y5#iEwl%<P!o_~QU4eZved=y|3a7oXj=6Z9dBThqi-gTn
zIL_&-{#YsbFWmmTXwci$8w94NuZZ`UUE|dJXiv9Yt7z?AhRpjP=L)sdB-vcvvvQN9
zdB2k13U|4s9pa5^KFnCm7N613)THE>bATo6ep%C^a*NOl?;?Mts3><?EMz$7(mXNt
z`GUVKN+(UvoP04|`_U1$Gd@oj{1DKTOq{aWX}UMhq}3qJN`4EkTemDSefd-KplSEH
z8Hr6Bt?U1*Gx+~CNX&C>V?MREuHtcWw1Z~S9Y*$7?JOK^Qmv(~vV7|<Fq~txmk+y<
znAIR;ck1k$iG^8waiJ_)m+$j8h?aAlbDnvox<mN8_o=*`g}ZF!E7vh^E1azDQ(9B0
z=O)>D?Y{lv_I@Yj!jF6l|LS#lh~>Y#oYtBnJHc*`vy#E3#haT}Z+L%wUG2{OQ$Tw|
zme07xecUX;_V|i7;xDv!-%h(I^sXU%9eZNk<Bb&$^j3D?OSN9^>b-;c6GQr%4Tbs(
z=JnY9dS{pkQpT$G^nP}l!BMkc(<kkDp{*NrsJ*<S_QuW~-d_(d`nIs%BH+)m?PoP-
zn*Hc12|IeRa>iG?FKa?Bh+n$>tVU$h3zY{7cHX%!d`|5RzGSl2M^jz7h<Bp#%9AAr
z56@kE;-L0j=d2}BGo?2qU9tQdv?=Dx#+Ch#z6A&L{QSAWY14su@iy`P9a|l9rKh_#
zWKP&G&k$+Sd1QI<hLGJ{&wc7|)=Zh>s~x=euu`9}XT}w+2R_>j^1>s0w2PU`Dg+f6
zkJ~z5O$t3yu=(PVEiGRjE)K|-Yh7^S%*Tyq*I(*R^gDHSi;?+*0|jL*O1+sz$Guc}
z_m}i1E?PB1O-J-b>M_&iHs$t+ka?5tJl5t9_PN~<*(D+Jw`gV7Jkfm~sTa9^|J-nh
z<$7@nW2lwg^K066lKjS{b@mK#?r{&xIka3-ejf@>EBu}a8u-7L_*$kmu}GP5exHAR
z=RPkZ(453>3rAB)`S^aT9eZ6iEKr@3G%HH+3xmYh-Ae7ET~oen%1w|h=*rA$wUN#<
zI^VeOm!Gy*(evdgQq{ZK<%AOMHgGbpT6ctfYxpmZU5<}MFJJf&<IHdR;M2RwVQPmg
zV~>BcKh?D_uVKmj=P~?dlOG(^QfoWC%RkjM-uytrCEGPGjq~3mTYU*T;*sha-|zm;
zR8EL1clM%JX8*WWbMVfSSAD!C(<ywf-MNtcQ=Z&Ay+HNE1!ryvBlma#f#5G&xAX3d
z*;UT9hB@WMLN=YG#@jBvkvD9rzP{MYsV{l+j8s)d_>G{6qG=(|AFY(X*Rn!P;OsSj
z?IpQQqE1`FcFJzLx6s?W;p{o7stiVLKWVF#N?{S_xbA;Sz4811U(SfaC(HsD>(gg1
z`5L%sH@~=U;?lJ4%W@azCTOSi$vn8SWA?u|YYW||L$U^MB&<D(7iLx0PhUA(O!pv@
z5_fE>*u`H@E^nw4WLO4D((4+G7k@tdHsLC_fs4^+K5^ZLKl!xHz9p?FO|5ffT>jfT
za!ZSK!XXDOmU)pgcB%W%v@_N{X!RgpKHP%6NlhS2^Vh9PuXFmUO|IS*>o#2LnZy5x
zjU&kX{KKQGxmr|Wl`I;b2zxvg)8OoURVH(?D_>yZthY8^ci8Q=S+wfiK2!JV#@*6M
z=O2W=O7PSaPg%j6)1tZd!r`egycTIi|82rJ`aC8!7<-oLy*zyIzs9!DI~c8>9JO%`
zlyFSXir8>-#myUc%jB+FuSt5-`Q~l5hIMvU>JIz8dDi{X1#b^4?7FD^-1>UP_sR_g
zIu{OJV%k%u+1RYQZQ83h99xrewzp2%_10#UDBDc;^PA;oZ<zOV`lC(14H*37H*{Ur
z>+}~0dU4~Y(anoHes75Wc#Ca``;*+m*E3S8n3&H^_p09hXe+NrUGZf7KS#bE-nhPD
zQZ083&*r~>86pzD^u4<C<W-EdU%<`q)TX>;{5L-HolNQ%p5JvtZN5bHuQtn-AOls}
z1M=9zpQuNEWje*3uF0z%ciR20AhW;AQ?BYjtEx$+J8!2&e4G`RnDY70EX!@2=?sov
zQ|B2lTw-4nRIhUH#vIm|hiCrjPHvo0eX&1>|3-4Ri;sz4!;(w;K0h^zVSmrP;Rf@!
z2=A}Q7IK6Xeo()s<aNK-zPbDB=fu{K*OKuzqDqO$t2rC)@?F~6a8_=^Db7`eVh8-T
z9@%t9d(OV6$x?UaHgIoPAkcX#=&6mW{OY}L{3=dfNPW#*#(2rX=G+nkgGpYY&bFK8
zzh3CRp6>>$hq&$c>9cPboYC!A_wU8$ISH~0_-=eYvDG8d#(QzV`V0LsdDj@bXE^@}
zFUg<Xa%f8Ly8cT|{%<|ZUo)`INPo-~oap-S&f#ZKbt`r5u3<J)5WU>iQhY{L?)Z<r
z`<84sf8D_A;d`x1)JeHR=wDpo=I0A<wx70gU}@0iXgb;EvZ0ax#=e#N^Z9HtBiZjT
zo-AMIbxyr$dhPNp|Ae;azixQWRs86i`|3%r-=<|(8{YIdZS{cfM6cu(nGex<t6us)
zW6KlUu!ebFzs>T9%i`yzpI13$_9vJ5)=Z&Ac?UXHs=Vk;3rm%A-(-HgbI%&)cMa(b
zj)JMLE#4VkG{19hikzn6s;ESv^}o5oLIYbD{42WXym?8>3Tp}e2|J4&CuzE=Grm9h
z{PvSnSq0M@TV+q2Pvkhy_<n=-I*zx_`oB({wtB!BvGm!2f3qLk2Zc-D4pn@bDqFyQ
zX41W&y-jtRlhwbjJACl#gfk#FM=Yp3;?KYT>B+Xu+!yYg{wB*8yz72Lpx#O?)#^=b
z;bsbXpJv>&Qn<(1*`wXh!=zB!VAej_#&A!!oEXQdlJ#LHF5i>pmsrmCVcD*&@2ahx
zBUXET&uZQJVeX;58mHEL`uTDvpN+wipf$fmd+Ik^noM3Gwg0f~k%f2Jm}k~XEd5-;
zz9u1%F<{%-8@-3V2^~C?{OtK*F6|eqGE$S$v^R2m+g2HP;YkGV>p0t@_c0S%yk@Lg
za@<Sx#*Jfd4r|OkZk=%0%u$f}__dH)+p3iB)0^b}ZsmX95G!?U?oYE9d$w+N%3l|G
zF3_sq-=XMTQw7JnX-Bj)(p&T9F+JwKx*_h4&yTJXdwn{YtPVuaxS#v?Le6ZJxyRKL
zBwt^f?J_U?RO_ujPXzydn$NGTV!i5!;kSeX!K+q1eOlmg(qxUf!o<g+Z@Vq-T5)IG
z+sjkze04*ZwvUr{L!<E4PupgTMXvmzt+Om~ZP*Q!_;-!r5wm`29E@LBA~#<<=G(ui
zuX10gzY*o*&IrHpW?Lkm4evdN6+)NeCskZ(V{p5jv-S3}+quOI)_!l!MQW7Z^Lr$`
zrs>$af*ZM;8Ft4k?!D^nB7e{5{H4Ebri)JA?{5&6Us_y0Gs|9m@%wG&S$1B0Ww&(>
zbU993pqh}}UHh;qWjcHJOR=ikG6%X&?wQ;gzEU$XxYn@a#0I{A+s_!-=G>Tj-Z5#y
zd`r8F-&ZwdFXx-qx72@npZ^rg2bHV(h3@1|?&h5~WvRdLEv>&!D_-vPUY7str)9Xb
z&dNB4^m9V1iZeHaUts#Oc>SH64JEroSAJGGW%W~b+2hWMId_lMP04Fs`kC+bgUFeI
z&l<KHA9;8*R^T&#$%c}9i5xy}59m%@medp9kmtrPZ!D{`QZ(${#lyE}?)$`Nk=gpr
zTIV2}H}{5xD;q>Fo$raNw3gOA9Dd<Rs;tA|XB;1<%&mU*OYw<{=dtqj{g2YVRDv?9
zvYXh#mtOnjr1~p)l$Kdb>pcf0{UwYlbCxGek*=LG_ujMVZi#W%82t}KL_B8R&R5kQ
zJ;~WQ_fG8&P(BQ~nB1n~!+U8;P-BS2-9>q6uN(Ze*Yws`@d_`>Ot|%L=^l;0#<zdh
z|2pMkr)l%M*-GyA`G>jR+~dCedu<bAdV{A-bKCg|?)SQ!jH(O!*QdU(XJ4W;tK&M$
zhPj#V-`X$xed6@J|9l$9Hr?OyRESya>GKC>Yd&xKUe9!BLCczR8~EAZ&G1!Oo!7JX
z&ENU`JU3Z+BNuf~ba81{`TwYXhGxXI?e~~Oq-W(DE?x5Z!wn_Z@*ipEK+VuK1szrr
zO{-taPP5(6AHwm^dd;_M*5}lHUl=ZsxM+80yPV;%ySc%$_kI<7@F1hxE#snpU)|~7
z1s(d%G70N`eoky{_Wrhnar*sFK3o^xdLEqr=)1DQtj9}ore0Q?bMg7XZ%f{|&-`}H
zx?$_4MFM)OEmvln>`VQkdn5WiLz~WJ8^iD4cKL0e)cr=|PWg>Rd%yNYG`p+t$T|5e
z&fBieR%^K3>iVR;U(a!MXPng%ZOEwk^H2Bq%jlI)ruoY5)_Zy=rGEYUgKw&LEh+mx
zjY}Y}b3v}L1GC545})<2t$%s#Zgmk6H@}{J^~y%kgw{*@iydXWt`~&85UME3Ue>pk
z;o&Fm{Zme4y53d|4yo8%dt+DOhjqu<miWXe9xIzTL-*Qdr^S_9-Ur;!@jt+qXeZjD
zDWdtPL8;+i<&BoJMa)OS(@vVLpWrg()pnUX{g;{xKiq5B!q3e9zBRm}$7@CFL%9vH
zH*~(ctG$ak{;*-CQHtt@PT`MBv)SI8KYg&5@#xBFJW2s+nr~vaGTaT!+sW<xiO<7#
z-AUEeMyah_7gApxdhKjkv08M|CcjWCt+y9VH$~4Bh}+Td#rx;uorey+f5UWS#s!t1
zr~bYC+3!<+O8&fP*HOvPZua~)8=o%^h<F&sc;VvzuYWXJ-M3Gi&%D=qlFq!t4_ia0
z{x&%L?A6AgnVr2}YOmTwmM<?pASJiv=gZR0eeW6;2`^3Pv}4PR=?gL27vkFH67TO&
zVHFtGm7uxm$;2$ZJT=orl4i>ps#CwuaO(HV+OY1B<^E>|D!;1s9iEgLmi9y{$L3bo
z524!*?*E@3@89%H|MFGeW!CQE0kw)+%Xn5K7IPVJ%S(4no>Jj<y(;CgV2b?CS&7Bm
z0Y2>$Y{J$FEmyAa{P*C5&8(GMt}B~JWS$6rHYxMo->21IQW<xz+@gIzW3leW*h`<*
zL@n%)w(LpNdMo|m*UE>Jc702J#CA4QZ%?P`ry0vG?PJs|_V{zTdHvZCwVW@;pE5Wr
z*@82#YaiL`b4XmzW7?8O&iP*|)iigl+cH};ZC&F<-|j0eCtv@OdgHU~(mFe?W0x0X
zAN;)`qjK(l@0mAC4!l-6dATO=-zlHJs@&YFyv2X{4_*zIEnw|<J^4qx#me0h(-;hX
zi-}dfdvTgcEHJffrG}}Tz?QHVr)G7WSz!GjtJR=$kq$%cl-G}0wr<?LKX=KuQuZ91
zhh3ji_Z&W!{N#K7&Ao2RH$={B*lhe?KvAXDc$Rm}U2O*2U;Awt*RNQ;$(-AqLwYuo
z(St9mi!aEp;`_lir=s0rBfGTAledRw&f>jQ&zoQ(`+@gH;etmEZ}&Jo?G(&CdypyW
zY_hFNWk<`4NvA#qPP%2bE@H6`=<>c3>aDYRdSk7l!sU<VicAB|1iHyp`bpaMtzV^T
zdG!2}Q=m!2mo3j0?B(p;|NRNWt?~@h{#O$Xh5KwSUpSv_Q&d`?`rgJR)hX2Vit^#A
znQdDh2dvP!@O-_G;>_Jnt1CkqcFalG8vfDS@^kQ|50|@ymhE-(Pn@${+I-o+Nme^F
zd3U_-WUOu8=jQ)XZg0*j2Q{_%D@3<VUoW#5q)x`{&=s~!r+&^?%b(9{-=SS^&)_%j
zYS+qnXWnJ+&Mw<N%}8D~t-4pv!HoG$&?2v0Ay?z;G&kPJ{!%kV<MO@b5r)fUyCxi+
zSbkty#9Py<Dn^NSs<GS!o#jhy_ka2N;M|h+fv%3n?R1>D&Q5T9Bf3j@%LDyY>o2nI
zcy{r$goZ@H^<ueQN4E&I?{yPT5ZxOm7XRkROFd?_`Vzq#miy%yxYeypdMq}@y_e7m
zQaq!5S9!^$>n|!(=3FpwXVumzYt{4Iw<KeI;8(th%T*S>55L-W`tMWOWhv_ew>pWa
zEDq3{Ep;P2Zq1C3F~6ij8#tyl1@vf1KVKs@Njv*c;G*>xnLDZ!3txCm_*}qjcE6jU
zbIv6jy=@{)XPa^lFIy3KaZ6F%%^N4P<jfWBI&(H;)H@VxFfaRRTxIgM&TfstX3wAI
z=DQgxo|GQ8+r+wMmiyL2I>yn7H~g<L&fYewJzqIy(p4L+1D!t%jGd=HQE|OnrMG%j
z%IeAxc~-MmC9EzNXT22*>icJq#Pd6BmOJZ-x(&UlswuX+LSKn5@ZRZ?vDBnrdc#SE
z%UqG1J+sU1wzY)63qKe3c?HA6OO7{RJaM0Q`%UXP=l>JeJ}YD{6PvfL``>EqN?FaF
ze?+6sE@tWxs#Tn)RC)KDTk!`~ONsrfP5QYCJp5Oks@WVE>T&1pgo@WMBDpqBxqRfx
zQYk^7)2^~LX)E2UduQGMbnT)&L#2ip@4F}S<E)Dh#8)j&ef?s-w#zTk2Wc$!H||#M
zVYu5?deiEcbi%V+;*5)wY`!>5dsIB_)U}KE8JOD@OxBfc$P4Lg>#{dplOwyA^^a0l
z;_>+#mKp0!f12v$ry2Hn2cu{9G5MvZcxLS~?f<&;8N;mpNl$VP91(8oaGM)3-)Q^M
zNMC)%^o_IJw>p_{v?g%h{H<qwefGxXH`|xalzOu$C*j>Eh63T@EBk)7m#a=^eY1>h
zHzW7+Dw8YAHXc*Y<EpCM$fBP*L+TBi3U>@!OSAZ~i7V&NvwpIAN@msuu7VSP@^3T*
zyxZO>{PdZ2l35w=GPc!nl5AZjpJMhz9utg9y<f-3*t6>3tMU$ay=tF~`=NqLjyt~_
zz4`0U8^*Xv-TUc9j_Z{X<*6%uqSH3^&++9AV=RlA|77zK`@I{xGs8Ee_(^ZhU6p!w
zy&vCQ)r`U;Zv{jAHHuD8*Ikf$H~+vnl>n=KN0`1}+4t_}rrP#trTZD#`+qGJ-o5Fw
z=OyvI*8ezHt-8<O5G!ROcrIlJlV4SJaO$o8q{#1F1&;!mFNeNw%CMia8l+9V`c;yK
zwf36VdYhj-iuRtG7WqA^)l<&$1lQ|#ub)m|Cz-Kh)zWog9ePL06DG3pzPbI_@nqp4
z_9?fn@BioUWJ8m}D$4*J=fers$8Wr?Nb<=}O#GHO`POvSl=F6d8=EuE-ct1Qng2Fs
z)|Gwl8YU{Uom!HzsjcY4yM5C$GlPEbVvZ~4csE6X?^9!a*J`WhQd1oq+<t%fc|u|B
zMQfK#h0d4VDPQzBSD9SdXUEugD8905#`gE3&t8^mdr2>Qc|T0wp=X<C@wLePbG8S1
z?y5|>v0ew%Q%K^oUh`7bZVlIkxB8Fk|9(zvo%uP%>!MctmrQ>x^}{mXx4gV)@>ev$
z<7o_Q_R-x|&p+<-nttx_=ZS*H7!B^fORZ{uckJDz${MDmb0@xkx+0tOR{5&s_LuQH
z+~w_SMRsYev=aaE!|F5BrQ4a!a(^>_<vT1&HB{IowqyG5n>W@S+Evj1?=siVEhlYU
zT4YZ8{r%9Y9drS7`5@QiEBhYwu%F*jc5mTp!?*>D|G&Phuj=u3wPIB6E$2<Y%UUJm
zm(1dR`(=rP<?;i;W@R@!`8jp(bk{}Ho?=^L&~ZSYwSU%EcTYR#O+2gpZ#MKUy><V{
z(<hsX4MWVo%kqJQ<{rOv$z5>&`gJEOuG%KFUtPY!y-oAgcclrUw#U`?w;VbAD)@@K
z<0Ie4^R>7G)5Cvn*s=58hF>CI`97Y@m~r9(+gY1uKi{f0?fv@V_N%axjo;Nz+y2vV
zU+TApYx~ZE*BA30jBY;I#e2+H=yl}w=D**LuXW$gs9rszE?kg%;)$5~H}aV3USHI9
z=ulhP8nWZ2RsZt5Z?&DL*SfElt5nmxtGrhC(FAqvl9z^0uPu&mI5KzjCC2HJt&aZd
zKl8Uo_s7+y#>{rfaH*PIs&T2N`R1moFaQ7g@A&9lD^+svV7XT`TT*qGlHu1oHQ<E~
zA^V^8+H#8@Yu>oI%=p*U#rv7nwp}}Xr0CzNhZmAJZT-Hz;nL#$%+GAg(%Jr<dKkla
zvdHz#wuy3oKTkB=;#hKK1K)~Q+P`gAUR_*oS9JJ>>?4nk^jn3F{QI75^eLRPgIUaM
z!{S#mmpWI~-kN;>%X&o*-ftV7D!v6C=<I0RCH|OUSB&6=bN@abUoN`nr2kg^Bkfa^
zrf=TZEnd(R(;@ZdvG(R}!I|+FPwjfedO_{$Hec8NfBk<RPG_30-?J^HxOu0!S>d!l
z<sSQ|?6+HMpmNUb;v5yH`yuj2b-yQ8+&mvYKdd99XUhYPI1c%;<2UYYV|0D`{QY@R
zw{=_UFBW{`I#AbElUgs}#(TG?N6?AIj_ZZtqgQS|JqwlEA00K5=v(A=Eaw2zu^*e<
z4{ba7_I_1+vFK%;gr`RGrsAKb)UH^hKiwlN*+4m2<blVXQ!ZO){4k4U+_l!{!lA1t
zB)*==^o{G@v+;Q0-`a({7Md<|JGMg9X_|M=^Q9Z?_8mFOSF)|)W>3$}hTgm90~5U>
z67O&1Wy{>vA9Ln}#8xK@<Dl(Io4jmu?`mw!+bg_VZ~gDm-oCv~JCrZjt*P;pJ?;K0
zwrcM2U3=cWZ@6T?a6-i=)vMd`rc8T3&+PQ;e|#28wSp>p_7v_^QEL;IzXn>NdPE`j
zUi%;JOq&ZO!s>s@Epj((3A1qF3RGFETefcI?AMJ;SAhDRGp(mDeLOkw%g*o@Moq6i
z?W$k5Ayx51!|8cf|D?Xy9(y3=iArvs!w!`Ik2^n>Pv6CNYwx1G*tqZI2Tp2A-ZWs@
z$0VZs!qq)~`t`rO2JB@vj^gDtAJ^-yEPwHD+Vtyxi(75@`nx22)`S-4x1ayL%G+JP
zA&6_KVT$Qz>nD}lgQJ`H>uYLat$tZ2Jo?K%D=h8UkCW5m_xyeZYML4I>n*)sl#rBr
zQ)|ig$}goaU(9bf^G>-r{-4ImmE|v<Y0juQ`(EHItKu1<gy~9bdNoSV=M}|&SgvvC
z`Rw}(S#^T!eeOuB9{VBbW)uHT<jV{DH4{!n#~gPH^ICXv<K}t$6r_&T?3b6HDcw4;
zS<TD$i-pbPd$-CX_O%G6Fs{_PWSOzNjM4RAWPNIV>sN0HN3jhD#W-Di4&Lf|-0!=E
z<vUlx`rqma>8Bg=Xa02*|G&@eGxvXi^9OqrxGfU)H;B4TG<};CrCGLQL2Y}8Dx30)
ze<xN52CnQ%3gTIFOLs~1%X{w*XFhUP%)9K~C^R$a&AHoZXI|B$GDkFZ@{1;{xU(Qp
z@ry{%JceCssv{!))kGvdJke<NaBbKA-btr+?UeH{*)PvvJbO=#s-O#dSc$Gfxr6A6
zYAw4v4JG`Aiv`S{Xk=;JT4imqX_5Q?=jsmM8e`|q(`)t2RNNU9xoQ99j|+ckG`|zd
zs(&E!=8-Aifp_OOw4I&Y#c!_g@vV@YrHP-mU%jRO{8wzJ<|S?RaB9vq{-M42l3!56
zN~UuU(-t4y6ls<qxHxx}{HAS5atF5m*brfMnoXr^cFyc0RkllGPUv%1Y|WX*>v3Gv
zw&>YSV~PIdT@rblMXMb*MqaUYdGSN^CXWE;idSJjZZC@h>D(@|OtnR=L0x)oo#KkH
z(`kVX7jD(Lmc2W+-go1wKSGWm!z^YR`ZY{tZAg5s`K9UZ{J5<-(^w;zUN70l#BaTX
z>;6urN%wPH&#j7JDJr-W?lz^#U9ZS<<)Iy~AMjqzKB{!1VRfMI*=sGi!m)ej)uw>@
zfsL_32Y6n^$EeO_zwk8qx)pDC0%MR`YnXH|=d*6RSLYU=PFv}_>d1M~rdb}xx}wj#
z{_1v?Yj#NI{085M(B?c&DZ6qv@x2lqSJgrvsXv$^Z0&aMM*CZzW`jLaIk}7Y>h>Lu
zo4HL&L#$<w&qSx#Ci6Yp3oicu?9Xs*?;*x&hDGny`EJeL=eBo~v0iM<7k&r3jgxsU
zTs`*w%Jt&yzQSgwc?Hfe-`e9kM>5l;;g?2T4X8iPuEO8McOdr2j8$hY{jJr=nf6?H
zu|b_}(Q&Tz`xRFCtoq$=^K{XEMz?+aFRwK}<~%y%cicHUW8O60k^}b`I}e|1NGzE8
zW6CP8PrSuh?o)qU=5l<w;PSFAKd<OHyydqSxc|Sd?(ie@665Wi>Y<C7YARD+E&pR%
z$H20@>D0NI*8NW}u(sRxNcirq|6^PGYv}?>iOL%?qK18v56<=-V+woBqI#QgzsQ_Z
zQ!mG)1Zh1mnX1aIv30$)LZs)z#U|@&C(bZkeQHv@e)-DUyNtVK;(IT1O0k!#F>IT@
z%UAvwrx)X=E4$8VSv)!YnPJ!8r?-}V`&!dJW1?fQXU6;Bnv7cq-*L5Xc=x_x;!N@D
z%FQBO?qQC*z27q2^|5r+bokTenBnv1#Pdl~|E_GXnzV7*`_*jTS0Ad~Zd1Mya%Ha3
zomvZUhxE;inz`-4PLCGqYhHi9nh)fXrDw_+ox+^tUETTCskFaw*lPNhO-DwvM)X_b
z(i00;<_h24byncs_0JPGPTb$|{DQ@?Ym4v1hz7a#|2yw5&l>)Xwd1dQ`EI#SPm7*E
zU|GB7rKrN4&HIGbPdV3YEb$^W&oy=Z?=Or3pYzt`3Qt&m<@KhZ&VFt6M&T`45#K|v
zEIpNWz`gOW@ej3E6aO-oxn16Huc7tu_Vs7F^t1#`O67JL?|kL6EO9LZGn3M#JDc9r
z&bzT}zX?~m8SiV}8UK|_D%)3_;(ccDR&>|a^^rb@qxL#ygmm`Dy3U9X&3ab!{K4}T
zQrDy>*a%nNW?7QryyNX_zmNNijCr$pIg%G@$Ss@vGycE!L>^Pys~f@^1oi}ks%)OI
zeg3+e6`4h66Q!<63A{0WbkK~?!oPL%?S1p^wqG_`W1f)i|8afjXDJ!a9Hp7%HKt!)
z_#cj9eAMJF*j&9>b(MSB?Ss5=-|KC|D>&|L=xoj``C-1z*SY`S`sZ9H+b6Fs-f*@d
zCAw5Q=A#tPuaLu0j7<~Wbea_I-d<Q&m1lANkgk8^TmGW7CHg1d?dQ1VpSb6@vrN>E
zr<&{&*n<P@yH^)`Ns0Y=6%!4rg^m;@KiZUjj_KT;=vS;i8n)X!WjM5~fq{Lu>I}!s
zynS~-hBbt+F4VW&!PfS<;5z@}`TE-nP6vx69Dbqn;)~Gy_KLf^6<+?Gc2N6z<te5m
z^K4f43#cDkX@Ba2rS}EdS2nJUY1d{bK4dIUIqjL3EO~ZYC&-RPhMSk|JzSEJefH96
zu*eo8L*tGsFFTu;R;lrZ-oLu`X!N|Iup3;HAKz5g(6)a4$w?)9wfq0?|C?`3x8Ztw
zIG`f=bH>$`J~uR;fA}<ITh*8H0|yMhPOk_H%rCJw5-r`+y>G4DU)~9Ns(1E=M+N>^
zK7HE^@wA(I3!Z3}J8XJBi{Xi&tO<wH)@I(_=l^^GEkorp{{Ll%fXmX=e@~ozesG&g
z<*DM<4`Rxp8@{;l-=2AD{yR~J{eS9X#Q(}pU}IvnF=F!n<#GJnuV?Jp`-+50KL{6e
z%vq_JG-DC}1hwh6+nf^{HC~iED0;>8_f!UbIT4!r<=?i2dmUppt1DdTHhEfGlvBLs
z<>|Mwx7@c`Rav@bBqyiFhw}6t?J9ANzgyq_$$KZGTjARUN0t|D2sv+86R5Xkc3&Lh
zreklIWMsNpa?^dKZ?ns|x$kE@`QL=OK(OLm!UF5p_x=RsSygR46lr0qZDg-%Hnn$G
z^QBw9?(6R-PLYV7^)Ktz?_9GvtRkw{KTmwTs-RDe)iZU*<M_qqvU_it83ZkGpLY1+
z4UXmFp=rBczWB~%z5960#5tX-m0sRZ3bp^3X)e1rN->^sChr@AcP^#cF|xJ0U%t3%
z%~IGDX0h|qyiK>-^RBPCTk?fVV7u(qguo*T7u&k{?+Q6aTUAY*?9s+jeC5<h<y&C_
z`5Km;KVQzg|LM|2dq%}0`x&hJ{weWQ&i^Fx`vj;1bjX#Pxn!pTC(|{i684wdmM*Sm
zDtft(`>O8CuxF>=^lvNqQtlx4wC%G%(f69z)vIPa)B1ZG)Zl5|=C!n1rQd0J+`<#w
z3%&%;(|$6|>ZgQ3`8yv_2h7|*^7D)L4Xn<&8Lc*f%EoKwGp@eBfKl6>bNv<N;=u5>
zgR>HgckW@C^I_Nj$2$*c-Bvq2MNR6)@~SWYDmi5T#-HymTADU7T;d?hq66_4lkd1C
zM#p_WlqTtYvQ&0O?_tYrH9Dux%?b)#f9NJ?1C7CnGYJw?C#Wo6$#G3|{nn?Y_3UpX
z9yu)J*zB|U+k`oFo44wMHb?2Hb6KpenX)j8@2c&-Y1jYCe(;)BkndBrM)m$qV^O6a
zHtakKA#1e$1_s1&=5WfD{xwLy|5g0o=dRGD41(tm-|fAr^YFvIxM%mweofU5n_87(
zVLU;8O~|x9%dAej-TcKHMOJ4qE>b+aD|KFq!=B}`Lg~`CXVmU^cClOhpv5Pvyu%Ye
zpF6@B{pI7+s?A$W`~UHsXucHDaO!>0o0$GAzPt@vo?WbGkeT!2fz{If;vK~gpZZ09
zelfqnV&VQ-J+GI&yUDiaW$+nyaLBfvUAVGC(XFibe^AjU^=z<dGj<+xP(Gjf?ycaW
zXV1J3UtkRp6XOzKj(D+U<sSLsAXD~W`z`%3J*`LCd~BkoPC9<1{qRinsrQ9GZ2Kf~
z&8AN^E?egBWmo;C7e-e<KHc@vnP=&gwOj>d`(8L2E-E^$c#=Q<+Lc?Ug6B1~-Y!rq
zx;JNYm&_lVrE6`Tvfa43`Tgp|1$tds>JhWP{n#X*`c%{Wfa3KRr5lvyC@))8m9o8+
z#XfLpPH2O{tL0{Me6;j`Z?Dl$nju=2c(*>{;e!RT#`X^cmw0{GD`biitkvKCH}J;&
zwil6qUoQ*VzqR@7wwE{Wo#x)q^=<d32Pa-XUb5=blz0E8Rd4+MDN-?wE%3|Lom=bH
zF?iM7$-TUK?{t2JKQ~uQjoi6Z()7V;_snl`aScX0zO3$g=`HG=R@ts+%p1n>D=w~K
z=F-kD(Qcxiv;J!ry?FPLRrc?FJ4Poh?*`XJ8x~)my>E5&Vr}31r`Ziu{_XOSmNAMA
zJ9Tbd#)`n4)$dcko|w75!Q$t)?C7bUHWu5(9qidvTLs!!mpxJVrKG3+yym&z!a0Y}
zetl5-f4=_#J#FtZGRx!so}8Z9w&^?H#l`<O96G3$6JIp_!fu=Ai8Yye4(|U24Ltm{
z{Pumg{8RV7Ue)iwRSQ)+vK7uO5;j(;o;v?tqTrJ03u;fyEn;4hBeH1Wfj?}&G>(U>
z{659nBmC><jzgMBaRJ>cx~os9-@N`KA^(pZW1uJ}L(4&)S^szCJ!YHZ{BDZ%f`Vx$
z#8#eCme+53R4uqgbL)ERghwl0M^}9oX`SocRrf$|!IgdU8Y1`jTsN(Haalxu*UPt4
zZe5rCP?bKJ(K+FIUxm<z2mN<5z1{VBJa2BezxuB?+h$j%NsGQM{2v`>^-KLh#-hdk
zhtw?e+%AUeZ2_&*Ph#VJd-zal`mVozf!|#>-32Y^?^q}4c~~XmReJLNztg7o{rh*q
z`OikpYty7|Y;^V77o3qSTU*0WmgeGAt<BQ)SY>`KSCw=BKY{G4Tn9HR8gDysW<jOh
zscujGEcLF4-Ha!Lr>_l3SlRU0d+NK`cQO1IukbH_HOn<D)#(1h4YJG(nM-C|zy4Zr
z=C6lrXLN)P&EQ<O!{7Gz;ja?ze7`|MN6O(v0c?Uh3%2IvN^kGD=xq4a`RfUbg(t0f
z^`<YW3)nBR`1)_thO1Zj%@Y!r>Fsq^oRVtGcwz1bCf8Z3<ns=kTE;d(!{~v9aYo#o
z9}h1te$_5LVaCKYr(~KhcW=0Ta0~z5!;FWghW-s;+$3%PQRauXd+hNte)bDGA%6>)
zFBNP(({J;$Kx0<^W4U;R@|C|9GCkSY)7xHs@tB>;&zHg03o^sM9_IDPO<>azlIl+m
zx%Br`(EhWF=dX^Qxbvldnto^U8|S~SpCcJ(&A*o`x0k79>CNwxriRSZ-pX)S)AFxb
ze;u>fyAL(~Y9}vOT3qoz?<@B^SMD#{8XwJH^Mp=@nJ(zkV7(`LA^-CW^Mt1T;xRvk
z@1NFO;a(=I{tIN>k~@9wT&KeC?UW1T`r|Ga9~H8XQF(g!iC-H}9rJs&sQmMkea|lH
z9|%6K_R4aZbBdqRVMBrLx~kjY%_YtCht1U_KU7w@MGLiGt$hO8K`Eiezv5NUp>XA}
z_&@u8&2q12U!!m-sqfT-8duM4&GsKxt*`u2en9(UXY2AQYyRE4*{*MBwx;ImHp~7!
z-xMbuTfai>^FF~nzd;&hCQME+@P6+8?zry4pLe_Vm3&!LIj3@cK~k&94u7kMR+Eh;
zYrNg|GCoRcH)Ci1^_?YBo8BBQV2G_=x3A=j|AEHBlSaSh$XWieei##P^~?H!%gT9O
zlEDnOzZos%xVHDjb(>$$xuol=QpAs|mvvpd*`C(=;^P0GA14~_TG8EGkQn}DD}StC
z_44NdL6Lh887}>NnD=mD)6zGSKU$T1aR=FXUBFV1-{-mgW~0kz3vM%sJ!ZE)9hdmx
z&(y@0O2w^<E_J<lcUXt#q<VrrZ-eids?BUVaqHN{zMpRw<+C^*yrwr$w!k&~<HFUG
z4>6p%&)*=NYIkL`a(1oASM$ikeYNd}ChTE0lROu9^n3S<qQCc}9-7o`klvu=zc8L_
zR~pNVD|RKv-+dAC;m(x%DD`#v&Ut5_Ct5JCT6F#$^IfN{6U-E1=l6EnG-~@Ku2O2d
zE&Wz?rr0H>GmOkDC%Cvx>*y^`3Xeb2y-{+%Jj43sUd){qJhL;B=a&_H4SgjcxjM?@
zmF%}$JL@h>Y{<^myl%xX+k5MTE7mG&O@uxwuG*2T8yat<dF|qH{)WfDc0c%Sx?@FH
zyH@DV#peTG1?Z~qTC7f4`sIAbnl+2`%L`KCZGV;4$UYR6JX3eLIU$zOYig#1qgcVM
z==U#{bR2CGj!v3gR9B_n`f(qq^~thNv5Kj;^i1sM+!&#dc-vpr3CCU($1I*InWc4o
zcWThH#cM!gfG3wRJWot$&A$J~d56_b?K9u5S@+*5&^N!PAKbGy-&V-{cf-+pRnI4C
zivI39#NnjqG5N{e+77wByS|>|I=N4@f6k6NiPD$%WOrYl-WPY{+^0>6FO4MyV#@wZ
z+iG=V@7HO4|M(&d4$oqkd?o4m$?5SDlWJeSc;6s8T{vm>sb3ctvM=447X=pLU8J}x
zc!G4S$5W2=d9V0C^G)yjx6?^z^5Sep_NND=YZ!OQez+I*<?9cP;3m}o{mc_V0o&)v
zZ~1KV%U{0rlupU=52mxOY+JbJ>|c!;psQv?i_E;tbU2UREtrvcasHXx4@>`FS3l5k
zBGKSzv(B<}FFtR-Z&dZgU3`I@rAueR^w>N9Gzx#jO!Q0Nd5Ja0;gzfJvXg68`py<~
z32!*A^dehsZ;#^S>At@wu!O&u$aihd%A{Mp2a*|&znT^4P<7>0?X#0Tckf+!_#piG
zHBg3F{zUVKVPN!+2_F~fXTQpp`&-<~tXMehNc*eyzYM!{F7JDG(Vj8$ib!2mvf$qD
zopb*>O4OcRT+d|obLo~1F~Vk^|6HRlR?7WdULH|!F}QW+>Dq#-)B_KNPcC>B{P=@e
z0_#i8&j$i6b}xGH_p)~Wb&aYo=`!=;6!$t`V)jrA{ib~ViT~8Mf6JDi*?XvsqiiEb
zN6|{}Wpcgpa%+G2SvFXf<;*tu85ee?Ph5E0z5Mc1OgahQ69pU}i*9p%Ao*{{WRMtR
z&*I|HlrHsyFFi}OTMgb9+<7;J*&}bikADI;qo{n}^cUH8-c9+;$NcH(p|wl&|7o7m
zU-~1C<%9dh@>7wC9&=_nMms8PbB?ZkD5R`(z5Eo@ncoEoE6WbVD@gCYy|6v)cF*m(
zn;34I%>T(J+;Dv1#yt`2UkY~zizx_8e&lns;(WDu%54$X-G^?^T@-GyL!q-zS#`my
z0*QC}sU@+^t|bccOUu}NdUtwP{<fSTx!}0cfj_;$&9)6|-njFIZE7eh33~We)-Sf%
zRC|fZqiUn+a~Vo|-agkfej&9cR`IBb^Nu+w2iEhkPqvvg|6b27w$+T$Pu<xrHfYGX
zXN&!vR+YZ~_m77YD}yX^<uzGSOJDE2eDC*}U2N41FO^k9N-r`iJbt@3_fvPel*IAn
zT0*Kuu06fetT-7h_rBfD=H2D=eYyE`s~>DPQcit)@Gx%4SI<`yV;?WGn{M@kamJC`
zGf(TdJ_}!S<T(4AU0RFeEBW5tTQvQLYSlB@+dpont!&P3IKuJ7-Az&Qk)mo~$;$n;
zdZizj1@;Tfl2f}Uad8G?Rew)p_j0WyhKYUwQ|ppiD}(QPebld-Gi$k45yNtyK$S}M
z@|sI_xm=o-b8?NZ*;MhlE@GJ^BXrtYq$|*_xujX%vIo?%j)=@CU|e>@cipy`5-D|$
zTZ@y=F5b^9^xxpo#N8KIr!GDJ<@1z{&o16)%rw$BHVk<6@71mn``YNQ8=qaYm!Fwl
ze}OMCX|ZKOtdsJlSHeQs2TXnz9ANQ!lsdos$D?JYhtfRmF=kenR4snN$Z|C8q<-8o
zWgl6g+wO4}!w+(u*D&9dUt(^y=UutS8pdXmHSXzB^;XBjE15;iPS^jtUe9Fketplx
z9rvBHHcb8eEOyl=CH4>P1qbdi2=kv?`g8l-dQIIGyLziV7f$>0Ik8oI!3K^A>cMKI
zA+PR+r}k;&OtVf%X%CR<vyIqZJ|lDGuccaFS_=-?F<y7ISFK#5b*wCsMR}HuYTHvi
zjYlU<gJo?sLsxaZ`zY!=uZUsgqLU)ZX|vOOOJDz!*d*vXZxN$m*pFzn-2vLgueKcO
z-so;p*;V;O?dvR!nm55dyK|*K2TnQ}{Dn*K>t%+fLrZ^4hR%D`rUVX6F}Wg-l7lC6
zcNF-TeL5W;2kP-1nVKvlQgf?QvvQA5yL@eL%BLyJ9+I|`KN_ev%;K)9*<<Y?F2}9z
zZ`m-Ho$=z2A6ue4UdOG||0{ANOWpsXcFWAS<~t<{C%-=9w8}heYV5+3!F&(CDhd}{
zbnlRyyU=XwuUO+VPS?c$zVZ~6V`<@Rh>4tKy-hJ%rM~rW+!uC%DEC=A1uPiDSDg{x
zch=)_+!yW%C&YN)7i>|jxu{b4efjj}y)XC`L_V5uYi<ZJl;OVfp!~qYuEqMlST%$L
zPO`?9oC($5dB<}~!KDl0f0<OQJf6;vOBHjpkJ|h!{Yysc%kDbHNiH)z7fQTH>5_PQ
z^nTitB>i8^GhW)M@uiE+y!+1P+JoO+Juz=x_cJU%<A1V7PsvV({X(ut-<>zd!eTcc
zYB*t|F~@qE-9h;(j;3YzZY)39%G)qsPJ8De&gYBlk0d@xH2?O}CP`WN;O<k_XI@Pg
zx^r30fA>ayh4UXfZ6cesyq_Q8t7Gch5}W_#^9j#ol}=G!K}Rn?@zS^7EA;l5opz6r
z;MA+~lb)?BIA>bzC?1gihPmT&zn`=qgIxNaNq;sObN#7GULE#qRz|~ASH0hB<GVg?
z-}rvRjb7b`j0pdlr!8SsDbId*$=$tKuvntji)Zy;!3bHOiO!FXsK4r5arf?xqc4KZ
z6u#_g4!8KZ<>YP!&(8kc8@n$q&p4ndZj+RKLu^&=+fTU(8~^_nG~g;^zug{IQRBL7
z>4Mwk8DBJ|1k76Rce-;4E&RA))w1(*o&6ub2<B7Bl>0e}>9?G2>Du_R#p|=aXtHl8
z-2UyC?&h=mdnE3(H_z4&U+jNT`$?gCXY7xa`}bV#`m-p;A+h`0!~egJ*E1KCYA-qD
zH)+mQr&q6}=H^|9bDjT*rDaNgOZcU=D~=n#ZDsFX_5J*D(WdP_I@8WbN3S*bDdRWg
zL7hF*r;Gl)PWRfAPv3i4yJLHtXzeN454Y5&a;Er7wI1(loAdRryWAdrdj>wW35A^x
z4q0q_b@sYvqW_=Q`Sax@gA9&b6Mg?lhVQ%Oga4NrUR?bDk!4BN9GCx_YR~0ZaNWA=
zo_A5Le|d?#%CGcjshO&K%*sA#z3nhA`BX8BdqUI2ZJl@gPu}9W@b<@oSD*>(M)iM*
zXIf6!oVIDWXv-hH@#JI1GfCf=zGrSq%&1D<EtnH6`S-DGQH(^zs*lqp3fAX7zE#|N
zE$353l*fwO0VnPJGB3QzHu>eZ@WY$yCl_ZOUbsZug~@T{O*WbQ+i5qR1e$VjYjfS?
znXvEMFO9Eh%t_nNZaMjw(dF%bYcGlEBIzs7O?O|Ww%kvSUm<Dc`_!xnGjn$_#AdN;
zrCL?mG$@n=ACSCJr})+_k^7p^9VWG6)+4GFGnLBwo&1(XZ<ts6!pQI#Xjtg@w(t2#
zsfEi<U8;O>Z6BzKbVF6u`^;UH$yXMHz2LKz@pk{u(lhb><J|ol{wAzUdGs;i_@#^W
z3~OX=hX_u6zTlKjUDU>sFa8c8&Kb8C1bTdFDF}N}Ruix<B>Vtd&KX6uX~k*M6E;Xb
z{{F3fC)0yc(9Xkm?$0#m{VG^sef00ro&={yJ48&9*0S3+WYny(;{O|v;vy`R?_hNG
zfs+dNm&`g3yZ0CPJKc>GH%28+6;SEu+n1*rzVEE`)`pucM}AE#WH6C*3AkdjGUktF
z*9Y%F#f@xha%3A6<1aLP-^?Fx=Vhw6v8vrQP0{h7tIdteduu=bZYpqZJ;GI>XY25E
zU)+VWt<(E2`FiYO^jvx1cH4bL$rmf$<$h#r&(u4jdUEEUP{k9^1D3qmWW3ehhEIJ>
zS4eRp<GP-CXBI8KvX8HO!S7cO48^Da*yuFPp`>ui`yAB`)^_id&u7fy<|@eJ=Kd#q
zwvF}1oq!ZQy^n7vE`AZTs-<`d+sjuI@5Z0HbkUnhuHTN8sjR9!=txHB-ox+erhrzG
zl@)TSE*3I7`0996*1kD6KrxVFdD-IO95aE>#d|?2%q)Mg_y19SP|R8qt-4Kq>1?M7
zOmkLzH<zpPn06*z-tWF=-I~fT=iS?~|6Z$m{c(ZG@#E}smI*A`XH*q5`^MY|n<EWZ
z^+SEXyzp1_SSyg<%r&u9_Z(m0qC3x6|41Fk;Bu5MICatAJ>L0CX~@i_(Uo&qeWG>>
zJf3Kpy7Bp`ng8G161r1bI(xNyJ$udt&yB`%?+<TbJ}302>_d$0FKY!&H;Z4#zgRKZ
zY-tgHzi%g~2XM$yXzEX)^q`$9dt?8W-`F>$$Z`MS9c#WR1>fznn(=L6_=GvD-T&9L
z%bZR*>9t%ad&)EEGk(9O%0F%TsUa|Nay5VY;?(_zrT*ME@+xrOxqvayMY$~gsr$O>
z)~~5L$|1GC8e%8ONIf~zm?pj}VV2gM*KuE3EgOF|#5T;_&byI4YuaVCRkbf<`6ev*
zUlXyg;OU9jfE@12A=0<kb}eZB^_$Va=?wRQ4MGL1FZv?pZoI+#ZH>SdD+#T%d;RU+
zf1EDQ+IWjOjPcR5#T-tXF1}3)S@r$^^LN481M}S7co@vLa~;?f?eW$1Ot*ly{044=
z6BpV}#Kvs+Q^u|N+qH*teRb)9dG38P{j+?|DC_=sxBN=d?So<kx3(lreYf;we|E{E
z^SgF$|DKy{_6?LHg{5UCM`#p@ge}|Uc2_4sPxfzd>w?1qTQv#}Nc!!}|5esn44SM~
zEZ$&pWQXRvZ|tRVd%b?gSp8C0_|vhXwbLr;`I)-C&f8a5N4o$2DO>b}p;w`Him~XU
zrJGC^E)LH;%BVBxaq1HBTc0LIdHl1^F<WcV-=q6$>dlPVKW^-f4%~D<XYOiu{nFVt
z%o8Sm;u6kYf1x7&%avPSEBJ~*hgpOaKlye$>(};memUk%b610oJK+vUoxyASOK#ni
zc%6gKUtP3k+}z{gVA{Q`YTmlY%~Mr3^N08U`*|W`)1@84g@&)9#T}dr?|v@$`og|u
zisr<_pCWHP+Bzv-sr~BW`gH;(j#k@PKFoL?&$!(BI?rtHP>ZkDF5e<|oN1rGz-r^&
zBk7<cryi7UQ1a0C318}*)PCgaQDJ7*u+WEB8hV{4YCV5+<M)IgW^%Jr554{uVqyMZ
z6W5AI2QE)pvob7Rmgm{>zKzG(-Z-Vid_J2N`aH2L`AyE1gX{(#W>%Gdgg<WFt(CN6
za;4$^PtSKc88N@9Ih7zI#}In=nC!w<x6AL@54_$XRkK_t)?rmv>oXe@`@Kn54pz0=
zM44`oHw>NOw|&t*7rvt_n!j52>~L1%zpymzwdVKU>GR_>L1$3dtTrv2$HV-i=A85O
z7Zua8lHYtjVe?F7<F@u!9qB%~8=s_b-^fYLd?#9@;dE6XP$WydL|A8LZG@QfC8lFL
zmpeHea(cRNanSsK6#*L#*Ui&z*{$HtlM`6~cU%8Sx9_I?83+E`F}_@^<E<IU-v8M3
zf{x_*J%@LJP8X1y5?0|Ln#JE`@o<vA!CUvtnkV_k-t_BrwI1r1>95-v)wKPmMyOT)
ze1@N|ryaGo(azC77&P_VW7!Ect|`vydULNWW?a8do$XoJzd9D5=0=NOMsX}RuU|}7
zSbgb7&H+8Yt&u#U>pyQ??Ot~CTt~x{WA4nSPDt>m{@a&Xb7#|Mm;QelHD(FP7gaLz
zl)rl%mXxvld+)`X!%IXnr_N>Ozwo!q=gC5MySUJ!)1}W_`9>{duzbK{BR6G2-y7TC
z>tr{xP7c#>h<J0cpp4N@(w6Pgj)sd%M7cHu`1m#$o&M#rA>>No;hocbqBb%LPvH(I
zP|f3(cUAnOa91>Ka#+rRGqa)}>G-nA-8y(%HrRUMV*AWirj+FuG(vYR5i$9`K8JC&
zr?%MwmX{k2Om(;SxjWrZSmVR%T8*h?XAG17DNbLtXjXJ%V)Z?{oV)K1Gj|m9ov4@?
z9<e2PZMLn|?G3*ROvRT7c$OSI!+W^WZ}yAwd_$3^-<1`t`aUQ;c&z=bDl8+!BTfEW
z!uN+&PYM|g<ac*66lCmn3ZH6Oz2$cSW0|7*W-p1{#J8bO%MM(Wy8JtUv8g`dr|c#F
z^{e|InTe~tesP(3L+7u>o4Uoe`37j0@ZX4gW4ep$@e{2Re!_P?a_ZP59C+aGa&!q>
zZLgk#(!-6541DbNeVRE*xOVN$H)rD(r?)Qc+OzJ2sKHh1HFgQxufJega!XvB>$jD7
z|FtzYPEESoemHJ1_k^}H8!LDnuKcmzwCqXw*#Pg0AcZpe$*no+GF$wApPhJy;gij;
zFN_9e%N8tFaJi@Bt}a^peDcmc?{4OrE(<+AZI`0vPNCr5Lm}Ead0)1I))F<oHc7G7
zDxR@?+u4%zZJ?v=*nM7f9{Lp6xBhV1GN!fF7CP&HTPtkuNq7@Ev&Y=b({Aqve#7q%
zeh9sGS34-r(oiIKtNcaW7w3w2bBChW3nm??Yj+X4&b~&vtDxV`j=|dfueidVcQ0h;
zy;%Ko(wvjv)9wznd}4Z{I7c$i==Y-X$_>J{zwGB}=M;JR@|k3|R!!TbZGJ4Vyr$Ds
zLCafZ{ba^TA5$2gE}hCL3!1_T`p=xm&&YSrELcANY_Ck3(aj92sbyTxJ)TLnIG1O|
z=d*1tUU%*>uR*eo?oL&f#J=shGo018{Xen#^N)y!E!}}>^*Kp1<)W8}SJwx)*V{9t
zMc9e${IGbQ`LA!6XRrSJqvFZU8{G|^_fF1h*OyNX?Tloe=XcZc(0lF8&%`|b+H6{B
zd82>Rsw3tHUTb#;a)wwR+0FTD@el2o&_~a?ehYM0rLnF2`0?OgH|{OPpmo%0>lg(#
zwR1ebu=miTDI8ooE}pV-uq_ffEVC>-mi?V%mhc^SJ&B(S)-anT969J^f3VBj)_Z>C
z-KulP^aA)bUN`Vc7;I<X|MJY#r5k2urZ7D-*~!Hwr}>&;>mi#Pnp4zW#aFhTRIYyP
z$ECwOG3?Lz{R|adyOwTBk2>YFI8RH3@0^`ZLBDI%M}{TM9dj47$n3fsws?Mnc+UU%
z{Mt+8c&r^0cPr$tW4|Ds6}&+6-(Q9ZgBU(jgA94ih#=|PJw==4Q(p$lH56{(ls?bA
zJZ<%@cDeh@9%MO3eXL0N6*@05{(AlWYhNzTpBgFP8?^n=PNz#tKe%{lE|abP|6~@U
zn2)1!&<o)W<=gVlUTQpJW%~KdXKoLZ|36-HdOYem_&(s6!_zfhEc51;9{fCKWuoC)
zEyH@2H;2!-_SDH)-uQ8W$!p#xmN$<)#Du(ylfuforr#4=;%+}bJVNOC*@>O^T+_eY
z^Ek-F`Rl#AgV!bjDSojf(^g*M%6}B<c=Lr1uXV$j%@1o&ygF0BX7zi|`X)h@^sE_i
zi5$+B>goIDf8YCNpYxX&|G%;9;cGv*ZRXYvfe$^e6lPb78`P~_nJBe^aYM1;bhVr%
zm3CbxgU?tm>G=&Za*pT5;}w(L*QLu>`7LD4k22kPNvr2_*y%YP>R|>Uwj#G@3)C`-
zU49bOP;l8P=O*KgF0Xvs**my5%u>6~_9VB-Lh#n{6+4c6Y5LoL$!D@R^S1-8TQ{VX
zJzjHRvH$c5yE2P%4>YXcHuPH=w3M6u!fQ{_42#go-g}*s)?cu0k?FnEb=Ii%<6P|*
zOsmwUGc9>|_{GGqKK{pH^>@^zX1Kfc|1;SsqR{(msr$Rr=YGwYc3;gU`alNPq{^2}
zTx?4pPF%Qz)9ahxQtS5oV29K&)|0#*!i$*0BGl*K$odmpGJ7rSt)-y7d~0><Q#H6V
zZ_lwRE6~;9I@Eaoe8bGQYZk6KwqgA{nfPzAVZjqZ8XA=%tah>=H*=3J<bVE#YqqAx
zs&bF(YQZ)Zzk-(jPLXsJ+c3LnN!^nZ{d26Y%RF1DlY08$mWIP3Dp$EY|86_Eu;6l#
z<lg6(;|!+qPhDF7kICSj=%p5;BNiU{ljp4$znhkQP{1~1T3*AI$zBnfr?f*9>{F+`
z5K`B3cvyRvk$p?r4lX0+Z|lNdgj(o3Jgl{4%znx&b}4ApQ9jlezI%2tw0{3u^Q2GI
z?4L%;%0<y0^K8Q#Re7|$`42SKdQ9OnvkZ85`QL&q+#5c*{{M4IWZy$^<pxjwtsjFo
z-(CFNM@wGQrODLxE7OndHk-OO&fcFJ)_;#_(wX2r?+iPe^nNY#llK2m#JEoGFY|<^
z=s9;%UE>28f89=-#S+6<^h99BSto6tgPg8sw%xS-C9R;^U3BZgqWyKJJ?FN^?OgBh
ze1Xsh-Wdl(o|m84yK=#0u6p?(_E6Oa(i6guvFo%KpNwIAr_XBjYjT6O!=v-XZyn_<
zUvON@WRGt+8uI+pM5lr;qA6Xndzq$QbT?;Qe>LQ}h(fQTbG`oO%8EB@;+M6FX1Lbb
zt()-daFN>8kAZ0cs!aJZagFs?-n%<+T{{@-G`W%QR!v>i(cauw23L3T-f-YQvZC+g
zKEAY1v#$GVDsXA9%!!*?w#syhzMR6zOxLStS<jcRYf&pdC2YVqldJKVX|KeUjlIA5
zX5Y~)Kfo8uCEhgaiRP*q&q@#IA4plUNqWP<i9E&`yK0_p&YhI)9vpBXC@Avl3E{W>
zT83rMicTM&KQDIS9ZhqGP1?LX9A)xLw^wOwOJ7mJ7^Xb+ZUd)qV4$jB&aWW9Ck4um
ze@`=P)7PCEs=a1KvbbCsN7bRU9`^95k%vC*ieG+K%R0XMz=AEOf^NP)c1>&dvj@+r
zPQU)g=Mfdn<}=lL!q<>nlUHl#Bv#(7XW%)lW5uu`XO*<ZPq_!5cGcSzy@`={{$jPJ
zt758i-qanpwLY?~nb7udx>D}L$dD%wuJ7BmR%o^RGAU-pXQyOOJhpb%T=o0%>up|Z
z<aV|+<W5%G{y3og_S=N-%dh87jaWNj*EXAr3l=BN_*Ut0SO+{|z9j7C&PAL08f%Sq
zmu3W?dM0LAwR!rLm#k;b*=m-^=^rRtRebjCYtc8Y^ZB*+$eDg*ahS0;Cf<^N>b+mm
zyZNg<WgTSLo}_lIzw=|k-Q~U2o?kQdHJ7gCc(ZMmLBgKT3qBs@__QlcRY&$Olg%<`
zn~MpCMr{2%?r4`N-vISK%WRCKu4(jS#|z$K$}`&qI#;oAqYw+ny@%#sSuXuNrQdL~
zZVGF~QIqC+MG2t_MzPrKA31tK#(kdX`IV77Cgf#P(WK={+pBBVR(?^+K9#)QfR)Wf
zqI|8vyvSEqw=UbyaC`c+>$(m_53+2E8QFz$);`|3q;3D9eW%XxJA~X?8Fx_n_lz$=
zCa>h;v*rHEe%Li#`m>CI;Md(o$7}Ca)tT)A9qE0;u(@rKp54a7D{IeAe{~0RTJ#*{
z6AVmwYmeXkSo!gtcH%L8-SwBX=g4$5?DsjdU~ccT?cdn1KAyVAZ?E&F4G*l$?2GLB
zgimf-b;f$h^T1D5Tlu3OHf&CdTUhw_>yI0%I_s<Fg~)xr)3EbY$juXu)fcZVp0{UR
z%hS^TEK8EPZ>t$y)sUO#Ts~7me8Ce<{{xeLzV=(lE9UF?-J9j~>wj!BTCII<FZC=|
zT*16;_wuu!cI{t3LCx9RE+M?xZT*GETc#Vde*em8@Zq6=Wz*ZLL*3>RmMXlrXMSgz
zAiR%viRF}g^W^@1$mTQHZqNLV|G|Xbxe@;Uce@t<`_L(@swexm{{LLJ=wm`=3T!%$
zUOcaj*nU+mt=;Okfu8JNc8872j$i#7dy}cic9XlEX5q^h`3)scT<sz%vm%n;ubRvH
zL*Dg<j{gBA?ZY{TUZ1Z!cQ{e>+J3fx8#>?Jmt_ik%|0Kbek&m`yy5nSHv5O~L7TpL
z*ZMG=T+w3ue4<j-`b{j0EpN5UhjA1Yr3QT}4_{MVCI8QQ&a!N^zg97fosyGW?apnC
z-*Nt<;cYdx%ci#*I@`4_Zu6Y8+~;l0BhPKzJh^ptYYaC3w%qHS@<qk-rq{ZM&rcg9
z|NP5gp_-ZU`;2zHq|}A(gv6$WyV71wH1uL{ma(d9($sb^&p3YGvGnX0>nVv!3ruVM
z_kCcDm=wRNNiMqdtVu%0r*|zkDwegCR?FRT&s&zgjZv9xM$&&#KYhOgku~|#m?kcM
zbXz3!q0142CDqXpyocTw+^V_x&iUkv_YE^u6J6HC@}08IP(QitcXZ#Ri}s9$7v?!l
zICpeQmCfa4@&!)KpMNuMI1&ENXOg=5`^SnugCd(|IDO2$!j<UexN_zOj!)Yxstr3d
zI*y3mcU!x`?OgDKM6af1W2e<S_8noZ$vnFKX2aKCyC!dD=*+#8r#IzUmNr+!g0B3<
z49scu9>3qtPH%iu`{MrT54--q=JY6)KKH_KW_z8XbFD~zice>@+}<x=Qw~2`-kvbG
z@85yj&r%o<mtNK?1kItidG5(fJydMLw)wEX+~ZlG4*R0IOUp|XKg^kbub|h~I|j67
zDY3HWv37iCK&bYYJ6pVBKvM%(W<2Dc*DVpqyH(L#SAT6sHfYgc)`qR8_Ubq_C(C{)
zyO<8z;1YgiYB!7bp)0o29^74Ddo<^(=BtU3kDaR{R4lFSbRMeO#e9D8|IhmWj1M$l
ztrO&&vBypR`HltU;mmQ5K$-H5(VwZ2p{>bp|DO2geshmLx5p+wzH5Q6)DCRkc%QEw
zv;tv=i<GlmrA+#sk3zM&vVVVRl-7%U@$a}lVdu^X{$Hl*KE1Thd39w>Ly)MW^p1@#
zYjVOwV>{n5?gp(Hu$Zx%GtkoawB>%0_zyvkKqD;dZAqImEt%!`)Lp;CG09Eu`^R_V
z;KL{1q`$v-Z7EZe8PN$Eayz2W{HAg1#_#!-yNu2^)h?<(z1%A%^^o_}+~Pfv2I6;F
zx6E?id+6AA!zjHi2l*GQU!Ym|^~L{x^*<&>sa`($S@xyO5wFaea?9TrKKp1Fetj{&
z;X~uX<m?ZIWhIM6mhV`8_SMDv3@?AY(ot@F_h+`0ne>HnZw;`zwZ`|m-?p^B(trN!
zoGC<W!Pb^Z6PlN;aR19^UKC;b>$&xj#D@Du;hnqfWOn`L%l!WD@vZjq1B%5pN^IW(
zMatOjOuoMNdQgApyD87PydQt^I&<mYg?YR3r1@r*3Gv=#+<iy$O?I=z$3N5JXY3Mq
zEU5YA=Lt`x>qZqzqVKc3kGa#iLUmo`m;b+-Kc}utzAU<-qTPaj<@)gR+X|&y!HG&u
z@7bZ;sfTwxp6PaN@w>I#pIxkvSlHvnA@n#U*Xqlsz$eo`#VDTIY|_2@W2fwwwa<BH
z@2=zh<h_$QO)l%R=uIbv%{yl?XM}Oc{+&OcVey0y3CX>gme$-I?@AssRaeyNzrIv^
z%>CdSRxi2IFR3z8XT$Su-aEbAi>IBls3EIH^hogB>~}Zbac{U$UCGF2muesx)p9XC
z*?fLI$JUqc-46ua+`9OLXhM_f`R)Y^+7`V}W#usPPfGSbthA##^rmQ8wZ6PVO2C%f
zNfZ3P_@AGADz4%1z0=$qx*5JYN!0v4dv@;PiJR>nZ27+F73&Fsq@JFIHb*7S>{{p%
zKiAzXPiy(5bNh;?hPyqSQ`fHd)acvQ$~}yH`<5ikIK2Pqj@Ixk8}AmZTYv5`Z-8Hp
z#En80>DgAfF@Dy6Wa{mi7cD9OJ5xnkLu+!;Z_O7QHM@<!@^PyuH#aZIx3!z+bK_2q
zh}AE9`GyjU1!2Co+q<)l%4~SI&9VPq{`{~VfB3V-9vwNk<j+QH)>n3^h0DS?7VFOX
zsd)Ex;l58bnt~4Q|F63rIP!ag={oskcZ2l*1-#)dkm@%6eBw*sIt9g|!@mrUW&WAG
z+v&@T{-ZbJ5>xt3HZ57Nqi3Hp?KRhmJeJ)hUxX~L1ZO^1JmRe3#(MbH`S5RylQ}!h
z6Ii<$;+9Q4?`(P{ZHI86cMND#jiBMrm$O)Nqux#D04))VNZI6_>3Yt&RKMD9A*c%a
zEbC;%@H=5)%qy<t=8C(HfR?Im>gO;looRjjoL!IpZ-LJ*{5{s}H~JRK;>#BQlVM+g
zH8_8^`#ALOi8Xj%$UJTO<uuS54U=2b?nNf;G>rYSdsE1+`$6qJ@vTR)T5UqDKk{U+
zx-XM_KJ9kFvx(^@(?e|eY-*O9WU9{mvTgUfCh-KL=~vkH>|14Fe8{X>;_-8?4E@%R
zGta7SWfbOKYp`zi=Ej9@qhnna(>(vwF`QYj_R`1J$X8o(+jcGa<8)!ovq?ek1x&A-
zrcY@*$69);;@Jw;b6Kw@1!>Pwy85ioKctTD$%Pm1oGb4Be=DpoJ5cPRXW-v7`S_#H
z<=uY0zN)%ZZs+Onv}FIcp;H%IFZ;$c=h-Bq2IdCeV-s87-kn~%`Gxiwj%SlD{SJ6H
zMJw@c#;Ux>VHOvqf~Q|$TVrIprqFTDm($0lTzbvA<Z&tgzr@&ET^i4%roMe7knCRC
zTXi$TD(<_OLBZY+s|%*i@LHB8vGM!V%O7{`XZ~aoxv}O5&%+wIo2sqL9+&=)c$iWv
zGAnw9;+%7KC7uB<EAC1=cx+{st2}Y$j9KWX7pLxB{<v#<L+mnjp|5kYH*gvJSQ!a2
zyrAHCdz<W{x{BNnzD>K{iEKCLx}4}5eYe4=zS6$vqTi>Z&(AG=TKfO~f0ysuwAQau
zSb6ga*Yi82(pq}E_D=z|gpQoaI%6u#bpGL%>(l!;?Rhu9;lheZt*0K871&*4yt>|U
z325anj}15H=OsJVhi~2epuqkV=xT$sZ!46-51x7$W3x}`syM?kkXbE(!i;5^dKs(t
ziXS-k^ONj`4~1V{-<t3HdX6W1LQ3p`a|bU83*7IX#Xa$U;uVv%(?uWoRj%9M6nKK;
zkN3=Wkz0S#wAr*Lyu2VR5aYh-li(*$n?38For}@9aOUryiS{*96tygDv}`|3d$MQZ
z6XB{a^|eunQ?(4EE?l{9J+1%hdif^NkDsp>x4Kp>Ud`*yn{)KI-#@OGem{RN7yT5j
zw(-IPQMIppu|{$$zF6e`V}H7@>dj6A-!`tt!80VR7cY-}@4Df|f=62_88&e$^e%t;
z`NNhgnb&tube?qXv9N$#=mO;vl@%_|H}yjs75@DGIdQ4L%&@~BX2hpTADnerjnnxP
zo5#FeMs{*tVO397$lc6UT&mJ1?C&sbVvL~kqxthT-CDhGhPXb*^0T}fii<`4gq>8Z
z%?i&hU)!YBdifdSi6z3f`eS@%TbnXlUS#!|Gs~87@|UksPp?&7{ruHt`&Dj()0xH0
zIWcLB6DM}2obpP&RWzSfM@Gn=u{wQ$qW#{*3l^Sh{yo*O|KI!h42x@c^m^jsZCA`{
z77UyPS}o0;yLDYyTFPIWT9M3O+UhHkrv7`jeGh0^(ad$XLYBtft;%DXcMWuSbwa;Z
z(z27=Rz6=WGM{DYHJe}R3YP`NcEA61%DuXJ^LO+21)vs-T4v(9qWFui__fNbw4YRd
z`N-(;OfAOzh`^(KPo?WzcNgigX=!ZR%;aL+7#1;erSz7jV^8JPKm#r@imh_I+GkdW
z*V{DhdT%lDRNCeOk3CYYjnYO(%9eF^Z(`8p{hVX0@9;Wl3&Z0nc{lgmvoD_R7SxcZ
zExdNa{O4RJXVrBabGLY#b!+!~yVwBD-?dDal#d_uTBoLXa$=?1>VF$Rx%D^K%5S<?
zA0BxBL7?Krwa?)hu{~xAJH-p7Elyg8$UWZI{$#3Ai~ifBB@Dr0WtoqQ;w_sS<9L(|
zUODcR$UUItY9ghjviIU5hSk5L*Ihg6v37!)$(O2L|92aX``o$v<1DDf<XWNHsB-4I
z)#`@<pPPO;zjd}ZjsE;1zu`k>zD}TsnYX@{Na0)YOQ7alqR0WglC{dueE)^qoCFT$
z<CZ6;^(So#yz()19mDUyU(?0buXNX&nd-aYYy)qH-M%}Q(<<+BzmD6|vw??0xM64U
z^Nrbt`Q`b0LD}(%<E}08iGSQwrYv5dssHoSr(N|-lN_zSB|qD<bIz7UKTL0I+4C;H
zq2!hbTTbuX1x2BX8?(J;P6KVo)ZD14I@^uqn@Q})h30ElCZue<6t<#2=z`TLA1>7;
zi{6P`UuUqf&(4;?IwItV>M<RaAM#oo+suDIW)eC3n7_EQ^-x={ZXT!2O!ETq^5>d)
zJJ)wU`^e|<_liQjURh{x{7u`9voqx8Yx{J{N^RsnnAQ2;@5@z}&lT)zG9(WM))l4M
ze`R3GPdUS?G3z-0`+`lo6%JXf>YMX;^}duZQ{?}=KHuN4(X;EA_L=1ZCc5SC;@J#l
z2}du|%9(v_|BcV{_GLV)NsV6|muT}f#qSNTM{EBXdG&&&#&c&me=808aOBU=4Tsu_
z<b5<h2Cn;Tu)6$(uli1gZp)4433nT+PlN|FT(sR-ZK}Slu6<(YOjovVPmLQE>{#}c
zb*fQm68B4qnIY19a@n>!9_y2NQ2(rMN}gX1tHguNA}M`bwwoqNS5JGux;UxcZq0{N
za}u_SpMUY$@XE0=|2KALJNGggTg+Z@l#BCeN87t?GoLN)N$|`0dSdgYt8!^+b)63q
z)F0%D87u<1<ah<=j@VN-o;Y(Y^;;u-un*)B3j=N8{+=R-$0t|3-u`C#DmSx|gWI&;
zvc}cMY!do+J>=n>Y%k7hYZh_mIdFZE4m&YfwDYUXd9K(p`Ax6q^K1JQ*f`FKkl2uS
zev3?PWvtZM3#{f3zP?kKIyWXx(df#z?I%yFKVGVM@%rb9E2na{yZ!mH=oRaPk{kau
z4qsrs>VDAG-`=)Urcc&)-^R!{T+1gqbx5<nxxzgAi<1rKsc4&qdn%`x-kYno-e`Ct
zaBIWCK%=FW{p}WlHBXr?Edh;Rgqh5WVP$+DU|F$0BVTdvpT8VCn9l7}+apuloH=*F
z8S9wOFI*XJgr#aWPiwvZC7~(T#`W&cOVY8RUJdWeko0cbk^`%ME#0yG-YoZecAeWo
zbJ$s2UEeB1HvhgH4eIB_C>^yHN%ntw_EPPs)Tqxd=4<OTHZMIYGk>}48~&|38IDiC
z*88g8=*S}<4x7~V6K3psr|P<2eW~=_hD_#7GmJici=2D>RqU4s&$REZ_<1VlD37Jo
zM1Q`<^dBD+`7ZvO_L@zm_3yr>6R#ib{5tErkMm>C|I@@182QCs=00iLy6Uz`xkKnl
z#oPBkG4k|I{ihLFJG<et>c@i&JMQ;4c*>}ICEa@UQoot~`M$$hFD~bb8XBE3RamrU
zO<VWz_RT-_+$yW@+A{>FvdjJ0T+e!R`$G3`pQh~D`!2tM(^FZr$>1)B?WF~ERsY;2
z+w9gdPEYLPS)mn~EA9MX<NJV5Q`8?!c(Rf08vBvpD{uEbP|aWe`?$5tlM5cxr}})B
zNwoje&FtUz$l~L}#SgaY7#r>HlFRxmRFK3qYmtBc0j+zrTQ<J@c%nUc?hXC^IlhZG
ztaTFj>az1&sJ3@8pS<<m75mfVk0nX9cCY?-c1!5GgGHfB<_BH<vUJk~-~Tlcik)pP
zw=e(PZsVt)uqWru4WGpUj77hD)%Xk(u3xtKd%x(-vcMhkl?RqK-%E_Yb$glI&9h$*
zYzgi?#CyYVo3y>H;>mtpE%nA7<@)JgUidFAU^cVS%C2^4C|x3;Z|6O8@4L(GqCxx&
zuNEKdS+IlK@#)cXR-l8gi(9X|>VJz_!8iF#9{U^<@4MX_4Sz<Na$Qwkyu|spA=lGS
z9hHmy|F)i;ktMQ9RH?5?me>5hKhr;>IeQP-c$#vVCkRgNJ$U)G!{hs#zKh$lpIH=I
z7oRJ7Ib##wZi$614n_XKbBpUwudL17ug`kp2#bOD<kJ%7J6jbj-v6tKNKDGFel?5J
z^5+XT&ub6%JHP(Elwn~=Lw3)WhvzKzL|;F%4=nWgNxYYk-|rjFxtr|Y?tLP&Z_EAZ
zRqZhn>UP^YD*LxRTDpGv=C8kl8dOdn-5sMX^J@8XtN9IQmj2oICEP7lv+y@>4%64m
z#ZOgI-md<;&rD(Njhfy~`+04jrhVT#Wz{EN_xoXgC$yPQ(f=0tX#Ty64U=ClU(R^m
zT=p-Uj?Jrb$r}fI<BOmFDbFbVQq`K2a9nNgn}_8qWZ${gU%se)K+U)QNyYsfi|VSy
z?;aLhzW6=#-R^DPLiMvxeBV@bIcu9s!u^F;FXlV!dK+=CQ{ag=OQZFJ68WFY7T<4h
zDSTWf$I)>A*8R4y7j;uWoA#2##6RZl(pYQ0{I6W?%<_uM7hj9&z5Sk`m%j3BWqVm`
znEU#Biffo&{Frs-_&fE<RVyu@%<hX@J3&%n?pMutnTw|~C$H7I%oHWN_m-K21m{^@
z_Bk6@HC%pL`}A>Xf6kWUdk-mfT@#!>wd;|N=z4)E{nz)hxy0`@a&J+WQi-*HV>jJG
ze*N#?Tr+piO#P7<c1}G%WlznXcki`RKCj*qD?I7jyJFkRpFoZ3CTS;m*NP3gt5$WK
zo_qTE>w8RmVP`HpRS{V{t)%oEyU((Yjf~d*mwrqu`aJ9K9;JxnkR*A_*-C9pDXXG|
zugA|iH}Tvtxx7z1_PlE?y6MlmjWzRIzsma!*6}yr90t|8K8udUFmrH4`@HRa`|dEP
zz5AqBw$efBku&QHb-UA`D_f?0aqQ@wxm@=D`-7LjjbuTI6t&ZruiH%z`F^rur(W9=
z-Ve7VozL*5)O??Keece-&$fXl|Cyv+)m=Z!UHzD9;Vo8RsFL5HQu454VRw<@n{VtV
z<L<8Kk^L)wUi6ypr1+ReD|plHF3QX6R;*-JVLI=%XJ&%6iS03a{)>z4YjXBFNk(2-
ztzzdJ8}x5&d*zpU+wdEeajaL@Gw(lKbIfOt#v0=)uwaC`tIE%#GWusL+r=ilo3g(?
zDske@(=!BExeCH=ALG4sTlZJcSysi0#{vJv;@fL2Dssen<gZ`6&iKSYud7ia_D_`f
zgLyapiq+~mtjh3XIJi^#iSXCxZ`~4q#cDMjW@g=C3%3XkJGnSM?dA3tueVINux`=%
z**oT6niaJ$de?F8OBb&*rUYL(aU@E~?@0aXkgNF@uQSEyq<hKTw0M5Tbg|pQ{fDBz
zl!oot+BdP1FWrh$a{G?`Q?4$azAr9*FGJF+P1gi{i+-I7O#kw3?e?lKVgfF1p6aUv
zDw0C?i`d)6*#1&iP`gp5>u31%?5>kf?`f`fuV<I3(Xa2ktuMPJ_^M2g$e}lfuP&}<
zYTH@G@aIM5iiDH0JX6}grrm7lW&d(9<;9WxQ-W2`9eox2hHLG!!n@lQu5_)@ELMEs
zQ?an%oNaE~RU0jbkl_6uN7RmPS-jX^pY>#-X@Bk4V5Z+U1FoAH<!+Vv-8%iIyu^|Z
zzZsrL%w}yc^;(%_F0S#Q#D8|8X+M_$yVl#oTTbbCO?{cZ_;8k-`GX0U943@UlrG+|
z_X|_oRhvAARnt8m&9z{ZIv(&bwM4Mvwb$nrVI7L?Qzktv+te6pq?@N<)STG!{p#9|
zHy1qqv|UhPlzOf`TWce0Py8&yeT>5W`<3@i*NEQz&FAyw+cU%NKHGO_X5`X7F_XKe
zcXv20bAESh-c5sJSGf*8`@L)5y9dqRdi0d6rOM^ceOfB{SlXa?1D~OOI%7JM!pi2m
z9A($^&q~~Hn9{XTIAnTdkmc&$xA9*#*Jd8u!F1$=v67LOn`z&j9lz9a3~~c{3RxpI
zZoIx=%c_<YJAXWOG=BZ!a(j7)-J4d1$?sF+_SK)x`&-~AeQxeLNiVCAIL??=S+^RG
z`<P#ASW))6;N6!cX^(0<R&LtyH)Q*v)Xfcre?CVj_N_nTRbOKs!`kKgz^iD1$M3%!
zC-y&8OUrS*xoY}!78w^6*>iK<)AFaC@nw5+{HwR(_E7x@r=K3}#m^V>JSm>JoqNv7
zN0sgGBsK}H;(acba7?F^fh~_+-uS?zKa28y{@1L&J}0tB#<N6wW2454zdvq%f8uzR
z!T2lhDlYLCcm6x6Wh_y-Wcy<BWqT`Y>%uoD4nGx=Pjmb7BGjThtfOaM!y<<4=E(2S
zYNxusiAH)I{GRYhR!}l}vQC2ir=$GW-W~pUX`hnxgg;Y{C^-34oi{lzwMOL7x`I=#
z^~^^m{#Uwh|E{-hZO+=0>kGtIUHMnT+S2h!^}vgJc?aIimR2|yuun<)!(<)TcW2EF
zf8@*-`Bj;+{bcBc#s7bsJE-|gIlG<nw&s>JdsFAx(LcL#4rmp>u&)oB@^5){^z8bi
z#lIKTxL)CE{vm&euZ8c%T+gfBuh-u+1MRyiZGBX4vAN?^`SIm;U%o!*T3q8QlF+>;
z*MMPW71Qp#;Q3}|d*1c0@2E@pxScad;r#ARUl`ZK<pe+4V7Tp%*^67p#Pf63SzeiY
z@7k-?4+U6WNmMiXy>p$&8U1imabH#IyXDiHdN+o1Yjz|hZn`hz#`SKyO^yHENsD?n
z@+<Htaa4GG*?Rh1>8(q9e|`ztWcZEI#m{A3UQn4{^`p?Y`|gWdL|7fO+pky^q;Hh`
zgv0E8TDEN6T{f}HR>#7$MT%-Bzk7Q}^jy`<id6ZXw<Lb&Narvt^37i?^ff4EZDeHJ
zccI%omz}th4qY>n-;j{Puz}V4?S_WCM{aNl9Qq@kDxkeBGJmIP_RHk@!-+|6cqLMN
z%uDN9w(Z)zo#lnx2GCSuMB(X)p6kDS{r2#}B-w<lIMBcc)3RJ)_D05+OUiyPR<$?P
zKK=S1mq+kY<2vUvl?#Hdo(qnu<#4_6`k%DIvAKIX)@kY)Sx?U5S6Ok$_SX+qfm`pz
zpVr9eoQ*Bc5SQKim$$ofqj|zpqx;@%vip?$m&9nB=$3-+;`qB>ocUD!#)kjr|1S<(
zkriKmp{t@bWR~KoRLMOH?f>(Hwkj=C$lNz&O;)^^z>_CV&ysm=R9iM&u0Or%TPowi
z$yzR%3J2D$$oslbD+sh?*khT-d#5r7d4*5wZij52_2=Nkr7LbtXKIPaPH5HWn7(qx
zt}RaHbF^1|D`lJ_>ZBUOJpI4Kh8s7ItuvUr(2PaniSP`s5Vj@S3oaP+PMvkNJ!ZWK
z=;Vw{iQm$CL9+U)?f=5>6-~T#U3NlD*nQQ_6D4|mZpM4{?z<|t%GN%fapklh|CXo}
zTwL_Fc-_Se{)pewUT<G>MHoz+F1Pc7^wQcJAw6%u1slj`^KQM^F!k$c*BY4@OW*u@
zXd1Dp;qlh?TNwx1JQ^8|_fNU|Wj+68Pp*<L``<Ur-@-IMF5RE$*Yj_Yi%uM@P3e-k
z9w5!lanSpvjVX_IsNzQXgV!pal(J|n<Y;k|z0Ib)ykqBn?#HG-u6<d`1&X!lLVKT{
z;622jaI@#*`S!QhWmau?r{CaGn#&aN!#rp9<+yo=c1HE>Img77Gy6bs&56^SH4i*_
zRuyW}|J{ArE%CJ*f<A8aNxQ$^y=?3D1wVBv=hkYPT$;pi(QAEU<xL)onl3?=>E3bW
zKY5=YP+lDD{(Pa|fxo-XUb+~3_91`QHkJvGoa|&itZ>n}>$~p!vXZ5nQeVDU-yqwn
zaI0Nm;f2tGEWV@Vb2Pl&>)GEF)g<nVT)Adr#8lP)1rb)itQB@17f@K#8Fb@Gf@sq+
z>DxN8e?=$c9ATc{zUBFgf*afKO}&s2zQU?sYC_h3(FTdE;Ew!F@m|#{bWE>SUTH`%
znEfG0%k~KS;@ou{we9b=Wv=?1!Kk@-dAHo>{r3OY%+3#%Q;Snnim&8iJhqqL{o&))
zk8E@VUcI0GDC)tYpxvKDcr6mS+q0)Me0WiPn`M6>hyJ1X_%MsWBTI9e4X>A6c=s!@
z&P#6gsbHOiz8bkC1-FSi7w;B-@b2)sPa>=y4`qD+DT_+%Wr#`)l(ybAGbFt7)YFM4
zZQC9>GpL#RJo)^;M7O{@yt1qI^bt7)hZ~0juWPJgzV<a!KlZ7n*oKLh_Io7GiOae5
zz35}F*9P^ld5ajWHC}Al$la&^sr~N9#4TSWHuHbC`Bnc{wjp!BNY>Ab(QdmNx?Z=x
zy7tCyOT*hM3AztBYFJrh_-1;u^4wUPcjaH(-zy2C3Tjj9`Pyw%i%z_XTb5aum$Ui#
z#rq6~T5ZpAf((1J9;UOM4Zg7N`Nep-nX3*7Yd>k&yn?ggXW|A6rfH$gR~tH?s-&3c
zhCA39b1h!KxZV82s)Jb$T~*SDcDZ$0%>A|7%V%RR{|rCgYfMh={`YR3V3IO!4vTvD
zTvK_z)EZWm$5v5_B~>M_-gmCp`tz9Yicf2#*03)5|D~;CD&z8XLjL8+$#Q$IB)s*`
ztkCRTyHrE)zVAAJk2mfc7SEN^VdS!H<6{q6S-*|9=2q9jwQBR9Gc5f9c0jI@oa9v<
ztBmp|4jbo5-|ji9x~*aU`}z-dOWc?H>(6Z~tvL~V%*Hf=+v9N1OWo#r56k=S^e@Z4
zW}8!7+_}EtNd5xRq#qA=aed>udpI#q@8ef<m3~2{mRLq3E!G!VXFoh$FSVxjw8@f5
za*|86xc+Q^FB97-mn(YpU1;-On@>+flM-&F%P&ignkVlx(X_uV_su3o>z&6hxZFA?
zUVEL%q5M%O`1FO89lqfV74cKn%k+Qz5Wo=y>h`B-x@xc4@?T@G#l3TnANoapezCqG
z$?6MZOS8?~JMPgJ<%Q;(_WwJrY<_Nu)w#nbOj^%I79HMc`BroT!^wqPmF76J?~(BD
zX&2-awf$wkkMU9pFPDYk^&W=u&IY>zd4pTp35=I)&urw)e{*Exw^K{H$`2_0xE$WV
zBomX?=ptzQ>KVf=(X?vT74GL^-Zh)bKCMyr*Zg-vBH;TM(G3jt?M9u~Gu|0&3e4QN
zKKqJk^~z}X^QmH*6`wP__c0kr&NBP<al)PpVY&}4U5sa7uQT4e@q9?f7XzOqd9r_b
zCwMVg?0dm_A+<EeVV3>#jUX|BcZOTqGv6y8yBY5AvHk4TwTrhm6nH;$U)L%Bv%vMz
z2hQHo*DvxLu3TT7FPWD&UsTTBNX1Yu!Q|;aUXPE7%nH8}W;~p8Zu^^MX`;5j?w31g
zO-<7iyl{R_r{3a8?$aZ<*)u}l1vjwHk9$@-WBD$o7n?t>Ymj>C_cMO~f93;a+ju><
zbxL}KtM&Tde<-u`_q$_#Ma%Cn1{$568d`Y7+;UgLv*l?8TYh~_ZGDm&!`NXNG-bUE
z`}<duKRRsx@srCVr&`N?{q#v?9&_|Q2cH3HuKCGZ{XjJB+*dx`hn^=x7vIq=cbFyQ
zwy@CEV!FuI<`9p#eLnJUUf-|3!|*a`aj)+|Yppqfl^#JigPH%`W^lWABm4lzQ=Tvn
zYwndd^=7)wSLv6|h<q#fAnSt3nx4ADeZtlsPV{}9c6Y(vWk*%_F$9_RZRhP;VA7mA
z-N#ewwH#k&VdwjXDf*W?qAg`UNlv^V-?x6tjw9j+bT;}X&P>0idU^GllWz`h*>S|&
zAt`vTVMxdRr&Vjd$+@XKu(;OVY$9%;zkqRq5{KNjWm~r2?3KB+p}m=DPR%U`M`vx@
zb$Ms!ONCwD(ten6j&mGWsKch7qtOlPwu(%>eD+}h!%y#(Hb)vQ?ncVSALF^OXNt_*
zhZ`8Ar$lQAiqt(>Q0sc9k3UbY)<VN!SMZA>ri6<sKiQpKWsd(UuxJpuvq)Uv$HadA
z^qptc8niR-c~^g*(VA-l3x}$r?WZusi|udU9o{3W{!h9gm@#dS$c&oH0Wa41y?NMH
zTxsnW!`OMXUAsYv&8l?E+^w%~1%57@vt#WB*LRODb^12AYX1G(ZI^$%Q(NJBuF&<k
zmlG~*oB6C^>+gbDPYmZib2_)j>CW+)vU|-Rl<?mW^7*ubQ9DiKkroG2g&J?@e(?Zr
zlar6xbPCv56>8HSlw^OL^*hMR=;UH1m;QN=j+|^L6fb?b=)2Lcs7;=7q6x<zDjbbj
zW&6TW;@uRPniX1=A^Q`LZ}+*Q%6IEC;~W2mt1A6m0zN#uJ{Yrmzg;4Fd45OK!o~mp
zeq9=n#l~Lhmw$PskiYe+!+EpwCb_eAd}IIV?<M%yKt<EEfS>)<#nn#&ZH?Bv<P4a_
zo#pi9L*%llW>dW6%oExqRganl>`>Z!_h8Vb=L;Fv98~Golslj_f8LwJR#!eg{r2MH
z!c|WSnS-`W{jp`Cv-#|ahF90iJI(y|`ZZT#xW`W}r$=kLGBtn3B!yJg?PE~uOi(_*
z`Uk`E<P{YUlV|&{7n^LO<&ZSJ$=IpiOFTAUVTX6=>aDY$6f$orl${*#gG(bVrKei|
zdfFs+R*%Q;1-e`q@94Mo$$htR>Hqhgcfy<}?95J*^E=<Jv9in4UjRCuPj-XzNw167
zcQHMh_{3+wI%{>_-i_hSZHszOWwOfhEm>jhxA5frGu?`PRmu7ekK#WcYkOniu68=#
z;d?>G#k@Dn5zFsra!gZty;Q>BH>>BC?e+VZ(sJG$xN14!^D3q<RY4h2uY310NZ*qC
zBJEV+%Kp}Jqx_nXEbX#nd51~25^uBAJ*nYQk}F}{8oGO<c*1|_t(+ORU947STD8yn
z@MwDEg2n&;@(O%ry70t{fv3uC;punGQ$zCKFnc`8W|G<Rf5rVdWr60mJHyN5xn@7D
z|Nq#W!T+UQ$v!th@k=LbH(g|xeh6BB<{-qkIDGz3Z_A)atJ`-#bH?i%<}<g>ikae=
zAfI(nz|C@J!=bdD%$FPt^I|@4>r|KK<-hsj(#8Aol?QZY)%<_fec#!p|Bbqxw|hP7
z8=H46_sss5vFvzhXkvZEmVbKRKQ4=kZ|th`c1+)#r)M)G=gQK>`|XWtEFP*#7kbW}
z8T0YrAto)RP1<|b7aR!QzR6eorJDaE;o9sfpLUh&eZRR@mUd=#&6NN7L+CiWY;El4
z7w`33&pFC9o@;np@tt))FMD?J)g0gD;ta3!vl2L^e`lP{IJK_Yvv=z97zW{Q^3NK}
z`CLEEbe#OBtyEUqe<$Olx5kV~ObW5A&zFYmf9bz{XWq6v2eH+O&EorlA87Br%w_H`
z2~wAIhw~J-<2GOG{R`(e^iN%WN6u1UHCLtabs4^JmDKrq9D94SwrM%c%eYV>ldN`g
zH&e;h?K3v4oVE7V#Fw{^Dqr3@LEESL`!TZ+^WC{QZ?&)Pb^6s&ko1`A$DS$6ifqF}
z;@a2NYC2rm_o8T#%v`e{D}~Ote=fLj>pI(+7d4laoozTLbB0D1O<nsy>Q4>hk`>-{
z&Q|+gu-F&Zw5{!$G2JNlt+##AQz1v4KPP<cH_6xfM*qImAZX0VDKL>)ukL8%r^~l9
zv*V>FtT9uSUfMGC)H>^5yM(fR-)7&sHJ#~A=VW&e#TVP}*m)nBT6q5O&WiZ||L!xy
z>}3dA$(|#vAvVdQxQzYI-S*;-`}7(__40Q7Rr=rNx_j*})yq38;>8_yy%3(??i^O(
zH@jWZq*U+Tb=C<{Gno5(#MG*mYDt^!V%W_u{{Hp16U85vx38Gl<#}8z^G8u~#CBa}
z>)lRL_HEOh9QCpicRL3E<q+GoJ~d@IBfCe%k1rZKjwHM-Gb{Uas`dxZw25<TH8UbE
z=Xd1q)NtSQDZt((tarkXczcGJv#hHQ@>PC0p}%y6%~9DYY<8+nkGLN^SlGU$c7>sH
zaOioSS#PAzn7w$he@#J=>})>PRkttfm+xQjCVW~);c>-{tY;G0=VVkn+`M|;u7rK*
z!3~m%AKy+qIM-RaMZWUY&#HC%dAp1_I^XNJYI%pu;Ng)tzhznb%0vb6pmpV}ISOwU
zteE!WNZ7fPN4GD|{225*YHvelx9mpVeIi;XR_0vUJN@=7_j<-NHV@=V{vA;NcEMRD
zMtXvn{?_%(GnAL7Ni_Iq`)KVgb?4e<+W(Jh$D_k1KL<}bv*>26t^S<sY`MR+tusC}
z_1YHJJYBcyNM6*%M@zqzhIyD4*EDT$)yTMeQkk{;p6RVeOTTSpxLM7hZr&;zVtVi6
z!(eNPxEZ@#3YH|!aBTjP#AF~d{~P=D_!B=%J0CEdJJfI?Y(dK^iN}Y%wI5WhGXHk*
z$C~Xv%^Vg*0oOA=d$CBoSZKbDDduhef!ohi`u){%9xVFzYoF7W=1!iQKWwhJ9nWKz
zdCXO}kLgkm>ol!2yM0Yo`<leJI9IJR-zF5d(0zV|jjpUvtnH@L_Bk(uep@vx`RR63
zQvd1ZjoXj4zxo-Mb?p+!!S?YU56tcyQ4UX?J+oc@T%*zg^KXnip<c_j7@aA&_c8I)
zPNfeGm!*H3aGiW47|*kJ`;y$2)2?T-zdtlMdu`7xdEs9+UzP;y5}$rh^xV&QuUX4(
zu43eV?_6**)84Ig`H$tke9La`V$gipcga*b=C_qpfmHkReN$w7H<vO`GEPqXH~q=!
zjjJ1scOMKAGvnqxs&-%pqxZwZi5`hDh0``&y*T^60r%{uTr(7oxU+b3^3Q$X=^FoU
z+sQ*|JDJi#u6^`nUsvG9`=W1U>+i$o#T_QuvHa7OUSBXT-_q7)L*xye@1pCzhzUjh
z;^p_%{+VKPqj6p2t8eBivC>V;6s9h{yjZ`Cp^??)%hY`~Mqi)o+;n7r;>B9q@VNFr
z^=E^&YcJ_NGi7_rDi0gk53i<kJm6Y(rQm0VcGZ(!*^L`B5A4tim3(ivncur6)ASBo
z%HrH377C86S52#5HEdrr=cA5-@5cnCnI_^U$|rJvJ-+(4hVjplYXaG8+!9;9y}2NC
zXTe^NFJDtzgLiG8)O&8Bp62xD4E|wD+k&;vG<&mjyw*H+&sI}rlHP)%W1AaZur8Q!
zyP&r%_hqnL)`o<9ZPPhSF*1G={8wb{+01b1PNmoXHo3onhgaU8z+`-<>Pr7or=OWC
z-FN4{v758ZQTe${16%&=#$Smkzt4P~*6VVS;aY-}iL^oDCwYrG3X@d7ncV#%@qOu)
z3@MYW)+-;~9(b}d?tNR_JFPuniQ44_fekXXft8Kc4_=BGcA1_r)L)u*dBM$wKPwaM
z)$9_k+WcaFZzu92v^kBLZHqx<MQFSYN79ND2k*9ToyFG6loQ>0MBBznGiqV=tt)9#
zCR`hu4&U6->gjlSC)2OPoo8)-<!kpi9h08YyQp=`{ZCu2@NrxCG`lgj9orlDL-4Uh
z@KUYqfgP1oS2=EG5L{BejC<Xszccrk=`<c^*f#az=9FkD{Xe|lgC8E@To)0V*81#n
zw)W!vjA1K`j5Dr0sGWO6{r8d!*TUTD8J9ep#&Ax>Wzz#0KCyz-FXj#!8Jl`utJ%HT
zxGaC4mBcK|rC+Y^PkfRsvd>JxWYuHs9k-XQ?fJ*_!}32<deDQL7t||et>upqv}q6e
zm4ARii#_S>ss5O)d(PSOFI;TzRloI6hx@rTc8l_>uIFax|LoVPJoW#7{D0vFZ!SmM
ziwaMKZ{Bd0jbB%^aIM^5(GA>3JLdRXF~2%E@pA0LR~PRyN`I+RdcUMTOS2_=>-Dhy
ze_S5CuT@Q6)L6_(SoymzCHL!#_u6Zkjem*ksE#gue(~$O>^qD5%@1hKpErZylJ1Nv
zl`m%Hn0$F*Z}_dYRh3Iv`Lj1?RY&uF{^@=5mbD2c+-}gAnOEg=t+{d6`=0BdfvyPY
z*GoR^eEjJCs|OEeOK(}act7){9-f@}hu-Yl6Yep6TXb`*)i3P_0#g4IE*EtjJGZA{
zxz)Ez7vmXEy6yR_sw%R$(qrMp`Eek#{+&2uzocRQ<*u@2IqCZoL8q+kJ0xdO)DUTs
zyEpf|>m5tbk-7SpUz;R|u8N+%VD2-6_Y&4ocUS!6b+^0x`i=7PGq;zS=ZVbAp7JH>
z-CUz-Rx_+0RF-N>>8byjHuGgux|L_&zV|WG-m*1}OJ3euwBg>G-xUn82f0_>-M??$
z1pnFRSUqbj|1$i#cs=6P1L*`851SSX!yC`j7=N*z+<4`n_<=*gA`dMLKb(l{PyM35
z5-fD)R9J@W&!sX==6C<Sd)OfNSJ5xyz`3N}O&P17FD;pW`QD3PK}R@QXLLufm#nj#
z<0w(0zoT~V%r}hHGAFarr)k>wWCm7!*=gO}Hf7SYhS&yYv$DfyeD<W;iXM7eyEXC+
z<7%7BY}qwd5uw4A){AAIFojhgkUO9^<+R?K-^qy+^;2wq2hFlg5P$GT+Sm2?b{*}W
z^jYa2kM7xEah-h)!=<u`{`~W;r*KEze6=jC_y%(sW6;e0zcR}hrp4OV6kTSTA1=Rv
zeM8zdzJ`k4C7aw$LUK1OsXy%Ze79W!e}eFKmODZnD&H7yuTgJf?J@fp`L@3;Um|qk
zLG3f`f+jlU@8+`^+&q%b7`Cq9(n@DXJ(h!BA#r;?ZvY*C<`8tRaJ!P>gMfpRUWZ=2
z4qEE;Lgt)mp`lmc)6-|I6E6B)={(Q0g!8G+o>u`EYV7t3%a_fs@8}6ow_~5+^Z7%O
zK$p+9pa1u(J;;!IeI%VxZNo2tt_DTR9WDF)bL0zd9C^NG0{5g|-5D!otJ<`E_m}uH
z_S|bvE!CE~ou*Xey@!AM{KKX9R@`hioKd@iLA&K=<H-dZ_yQX8{%$y)@$Dho8x5Cz
z;X7ygy}7KBv(M3`|Kyv)ycRCzQk6&aKZ#upD!-|-;bqwG0_GsW$x9Oxk}kB?e@pz>
zy=#W-!fy+imi%JNSlxN~cIB;uFCSj+zWT;_@1avR>@%bsmab!n^`0*``)0fJh6E#h
z4Y%gS>kC*e9$kL?%MIV+g=_LyBj1W@MvC4v1I_2P7tVNgi0O|^_>*!ERqcuyY2VZ=
z*w=^`9FqHYeY&XMpRxoGF+SI#(4BD~H#N*_%GA?15V2F8wYr|++~=h%`o9h-E}zBy
zYNFt|gWD$DH>#+%o?Nuu*K66%4UC;9A|wU!D-Q+a#DCFiWUno{8WYfv-MV7K<&Rr;
zZ%@g6k|$kpcmA_OY%0$eABmZGFped?&2;A89rum)yz?)1wErZqDmqEOslaJshWWOe
z?WbSIIVC0jy5QZ&uP))(ySZVmO`Pciu?xRyH665OJTTXZ+0N-3`$f-pwf_3w+6hPg
zh@|!Sv)ORXdRU(S`_r!dOllR(3qNaovU=KSnCp0H&y=U7_3?>1K08}h>V93e?Yz)M
zlRLSa_q^M`XNq3V^D`#@R<SSLsihL&9;&vL;bnoxrM<0=E=`fE7{cmX#O5prRa+`&
zX@0NWfO)~JH<Dd<bABJrnQhu1=ToKn&bg;obW@4+kxRzxdv56*VDfUSXP<N7N65UT
zehtr;ip&?ha^2>ac7i~ym)lB)hIYewweMo$Kflm#5aAEfa4NZKxTJ3_OT)!_%}E#I
z!)F-G6B7&W^nX)Pclc8Q>w(w*A`D;O7YKI{T*uL>cDOQSv(t+g{i2`Q&OF%fRO}`w
zzbW|W_K*BGgm{C)pLqTFQgA@++gxY!?ep#zRB>9g-PT(6j*Vx*`^{^X7(Q5eP;LJV
zHtv@A@1joTa*Q)3Ts*ztH}8vMW=kcOy<>YavFXUZ=Z6<+9?qTAwxir@qRrEPCk(p%
zo-m(Y`aAij$HO_{#SZg>3`@-unr17kpKw~o%lwza-?tYo{{P53LF4(CX%DU4C8yqN
zf44)pCn=~@n)6tpXJB!oN!Sa|iOgsJ1vM=_ej|5tWqkO7mR{e-Y8L*S?Z2dJ7CNq<
z{XLc8;l!{={i_!KFQcb=O39bszLN3EOuFDfQ+q{+nOUf3**vE%C;tzZvW-e-|2-i%
zU&_{q`?Ds4Zo2%h??q>q<!xqM8TYMI=EX~`=cl{!ivzbs9Y}g*CT(yyra6q`HJ4Y-
zrc*EO&I?(-JMe0*NW!$kjQfsUc%XG}x@XOs{2M-Z)0oB1>|E-8j6?ZE)sz|KJHj2_
zmL;$E`u(Ix{^L8V|81q)?H_&Mo+MGb*!<he<pRPS(?#A|KGA)v|MqaE`L~y>0j@83
zqdG#SnF%XzYtPxjx_hJl@8&z*53a}EXwl8t=euVH<E;A|Tz79gpFcyTsNpq#?d{nS
zv*l*R>{Z>pk#z!t%T2D0;;jDa4{AQ_darxCw>B(7eZ9cqLoXlQ|9be(gYT^Ul6yB^
zjXt(5^MYNIclDCQli|M>&s}W(t@4RM#2UuM$`+@x&zt;TYI4{}cXf%ruF9?U4---<
zPu88*+r1u?K^E-D6kJeKm2P&2{enIC7~cst%8K7*<}}QoF4P`>{2gePYewQ)_LWJ#
zMHVSroxX30jQbw$@N(8cZI2V`zb7f3+*W;H)AiavOedU}v(6YK+*AA*+L6V0*?Y6k
z)qIcp@1&1B>+G(ZcX*+F%$FAz{};w5rrVWGVwCtYTTUtRgXP;9R!jH%K6OJ|#?+(c
z#MEyaW!3Gp=j1)P5dQol+lka^4BSEcmNYSy@ZZ>H)h~X4=_T_a%Z+DqoZmW6FY09Y
z^_)AQ?Y}l-+Rhip&%Jo*cQL-}Zu{!b6^u(RojJ1hxLS_$*_@>TN9s>sd%t?lCEGh;
zn#b13+}?6`a+Q$F_qB`nGX!-`(68Di_)o>@x76OMq#2@lvVU18)EyQ*=*BSbqyLj-
zkC~(Pujk#76>l?}J6UZO*Yicy7CEwi-<q%a5hPSzV{k`p{*7ZxGrxiiGt*f8F(~Dk
z(^at@b)|U```7c{P<-@s!VEplTQ62EeRurEg^U09F<-hTyCzxez~NPk{=c}Vc^Fi1
zb%_WZymWu3&*GogxUZc*xbDKQ+Li8Vde-enL~fh#9J?{s{rU;MLwQfXZ)H@UKKF6L
zd%K9s(~B>rfA^03{GzoeGJL76v&qhwtp(fFr+TJ-H;)00mve4@FwI%c;;#DQe*XAV
zv)t=h|NNPGuv9vrN8sGb$EQ<YeKYO<$222s>EB{cUbdXwCq?y}GCsdtTlwX?yIiE+
z%4tj8?awKfn}b%ozVE-IJw38$dYxC;%qiZbuY)Bfl{<8_t>{<CwYd6m=DzUI`G+R_
zVY+d%ukH8gD^8abH~!XL?Ee4vzC#<T8CQCIs+jZSvh!w9t6%rOi*9n(INf)8>aB@?
zwHc-wx%!3OZkx4Qr#^lQi)(4|;`N0uFJ4#Pb85o|j~p4d{7Uw>A1?*{U(UG2_80Gt
zPa?bCw$v0YNj#X(-tXOC#~9?l%Uf}USF_s6A0Hl?gVcEN1r#Nfuj`uQxJ$&Z!ggih
z%ZsbspWPBS{k>a2{gb849sm58sxPmWE;-?7ZDp%4DO9xU$Nq(HFKQp)dz<^@#;l~d
z>-MF7za~9hZf{k}j<sqRmj{@C-@wt8pJ*7?|Ihw^@1i_kX@O@yE#5BOw8VMhgV>;C
z(8()?g`q0qeAD`x%jcAN^+i5>bupgd;vFr9IYy>yd_>Rf<bA!d>Pz^6#<xwPe0}?t
zl|3+&lHUwEdga%NiQ3*znmMwogucEin*Tc}tp6XMM2EM}^8-<dAr0@=nuqoO`xj(z
zq)|&Nu<o$1Q2Y`Bv4E;C<qjL(B_CfR-nH*i$i(L8O!>esn&l2!i!R=HVqy8fXP4FV
zz0v$ny>~IaYdErInY$aCEAuKp_B}rrp6FQQzmvJ?t&FDh(}vGI9y?CW;!&vj^8W`L
z$NE(oqGhu_S5yUER=?)tv24n}uNoN%f95G!S6tq9QcI+;GG3ucW9ff3m5l+<7VIrn
z%y^go^JH%6lG5cd44KZ~#iM;(>rVf&DQUlTK<V{!?u2G<rujFV!&bC}=k?buDP4Z2
z&Uw+VM-5X?X8-)LC4Bx_qf5JjbrhDJ@|x`3^leZ2HX+{=^(ilx$1uKp`-w}iRM7cD
zz=hTK7f8MU<r_7zJr~~VU$*%?^QP3F7u?6Ry<V;l^VsLLqBilx!+>x9o<35{{FZp{
zRl<pTuRr;`w%+T?E!Es8a`c4ihn_uG4~lJgD7f*ELdn6m(;WW$mnT18%eSpT<<f)u
z1!DV{4s=B~taDcWqgl6)L9EblksZ_K$fDrq3vb6rtajITy&LtNYxfoY^oiOJ0(vGb
zRlRY4!>nhA*mMexG^d9?5VlrheNp6k4AkxMJjpeG>4Dad3-->vt8^^F_LsgkkJE$B
zpk4NRFJ=fA{Fdgs9CKlR;$tssubveD(5s>kid^01E!(*u+~eEY4epP#x5#e4`fl?o
zwyH1nHT9>Hyd-yY1b$!3{@-2PVAiuHrXy?JD~lg{uX@jw&iPO0E93g#mt$@;<gOQx
zbNq0E^ZAdWo97nHeR<e%m*|(BYIT|y(gMG1WxVXVGr_D(^IL&M!;JOr(?f+P{RwEu
zyDYDDIX*r-LTPqTo8q0F!D%P?rDuOTbUyrmh2>sZkF#w2kx|mO=l*pRZud3Yb!UrR
zw}aw}q*I2!s-mMOF8ZppVgJJoH(xM5$yKf^zVgxX$gM9QmQKmse38}Tj%A+WL8sPN
zoyWs$f19$0oT}T$aLMdp9xG4Z#EYwy+D=Ox&#9Q(s|UIsOEl?)VyG+MRo#efn`09<
z-F(5MB6jsbzEsWZg|q(M2-Zv3cJqZ{V)E=AT|#zor%p00@?Rr+XR-hNFo{a}LuSUO
z>tY(#{S+<SXtHplp0L@r`Hs&g-dizuzR+LJh9B9Y3k#VidAA-hn;GiyRYXPpPlBQ1
zlk49_y`D^9E<d~IoSS^z;kSyJjF~w#&zzMEY?r;$Zs?N83tf`O@5wDualm%gKOOV1
z`$csf3AevZFlq4UJj!EWsO)ia)}h1Odn&)QUs%E5{QR;S|295}beXu1*&ANOXgV!s
zoAa<mY02{Yd-Qd#-!{{|?UPj*>N>6M;<wB_hxYluu~?hDmQ}}Wa#Ta7q~nx5<zc^?
zjX!PumRf%}%XlTT$5*Eb{%XH1Wt@`V@V73wmZP?n!B|**#R|XuvOe)4hi?T~zwv%)
zHaTd&qNNFw!KdwOcBk?8+vKQ~%FR5npyGDxR?#e;$dA75Y$adnYoZlDrM{ZCeo|&w
zc!PF!Q}?!WOU`i>Ke%s@xZ#KT;p;XL<wssED4KX~$rn2rjm;`Am!Dag^ybyQ)3%b!
z^0=iZ*jb8PcE~t$%2%7O`gNqkMVot!t4q!<yP@<ocvV%x-G04U$F&vCXB;(b(^k;h
zEPl)T-N&n|6JO;W(8*if*j&nUD1iM<3IC0AvyT7Y#Wd-B%rnuT<AU=-Utg|nZBLrT
z@UK3eL3r}V1Y578Th|8Fv%OjHFD~3eKe^z$SlZJo@ppaKX+JnGe&99N<CK1dU+IbK
zS6yzaW=nD3q_6E#)&1&)h(mts{(TH}KY6_;Znueak6*mqiF-!|=b7S+)zJqpxqRF6
zJ|gk5j9+-3jhXI4ricStuE*J*u?70BUtIg5PILCO0>(8R?1Cpx*}aLat@@{&A9aXz
zLdj{K6Uxa-{j2ZVYMNiay`_aa;n)@fo2uuv6;)rpNbj0{WfPx(TR`;E-(54WJ~-Gl
z@$Q^g(cg;qrpgwu<{X+E{W<u=U0=hdKfBIu;@iP|?$B9Qx!5ToQ!T!=zq+%DZwC`!
zAHSeVi}>vL)?)qL#^T2|@$Fb|kpA+Ahei3Pr#IwY-N=y@*w3&@s&7s0j+3Rwe2zSt
zyx^F~!h@n4KJO6j%4O?rI~5S#@VdU^PN?9?E87;%XbY2YiJNZn{xrX9UnzsohiT>y
zRH}Gp_52CyJ2WdJD(^t$8fKk@$D9pYoUNp%PFcs#ZeC<@jWOK8=)2m1&S_N)6Cdf9
zob4-ZV0~jy<F3)f$TB&2%U#pr=5ITXW*gMyFK64`k@9Axb>;6jhYz0p`b=znETi}H
z8*E_@UVLu-eB$47^X(O9naV7h-+6Q0JGM$8^VB)9g6``&3YI^@6MOjQaTV&ETU6h>
zX!*ittXqQ1@_PIA&umayx;yN`j+mq^g;(}8l$|;k)66SVdXejV!MAq()HdC?%?*#V
zovJ0iZ@RJC_`wD~n{N|0&lF$4a9vfDZGFJkugl)+alBgbs$qNR1eq5f9+)q&R`u-J
z{C#1#g!^-c(gWrX(s!4rnK-GtcE8F>-hIdN$-4dTv|Y4|S-ofOpR$)fGi+YD#f16u
z-ZkVq%nCam&t;=x@X%E-J62REW=kl0jP0j0K0BYV*fcz@vwHB)Zq731bzvPoT}5+_
z+&kyy_&BIuJ%e*O^E&xRmWBe8C8F~uy=-O>=q<m>c)!8($Bn=#G4q9gceFh^tbF+1
z|L?V}KDNizJ63T7+Lr7*&wgeZ^FGFv^H0rnKVl+rWBIJL@8%rmj5;*``*bI_t{9`%
zVj(wft<Yt+gO1x2gADxonRk2bD}@JFTx09ykEOl3k?X10@q9|F;z?~AA=gJ*6{XTV
zg(0PHcqJbCwsuZAF}+i71(RR6xWQwC(i~Qf!*g!*UH@Ac&AaVV9^>+r$@vG4JTiTx
zmz2_TM|by|H~-o+XIO3f#jE|ptk+Y0ip{*Hl+V?RXY?<9b%RUb*n5%NA{%cR?_an(
z*TLJO^bIQqpL($Mt{wi`<p&@9KIglQ&m+F>@QfX2F1chBoT`1<SkG~9LLdM1B1ev1
zl`k`D4qUsO(>qNt<y+#dv)7~(9!+lw5?z;c^<!aVsPWsh)vP@m_S7mjpD?iM+ja6O
z-`1HcZ~yqf;PxoF{+r?@$1}AdQ_GzFw*9_v%I5Zs29*T%qaAfqQ>qyGx2~^z^H(>4
zN%*boQ72ZP(9~~_&S}g!e(ye0+P3%u4+RW=JD1AIf0_bPr7+o7AUWB^>FJ_dzj*In
zoEGqERom98lnC#@n={Rr+79(?cKUzhT-dXfaa`vYES#M6$wo8x=Zi^C(zh9%=asl|
zqK{#vja&G^zI_RoUNS|^T+Z}H>11bt<M}m~kK0POHf8*lj+*(LX~~DRg^C&%#hqkN
z)XIs?ihIgbrd*NfKHo_vJxBW1g_5~>m9njZ^Rn3=@u*hZY<RRxH1iN2v)n1w$j`s?
zBWJA*Kfo3*t<rxYc#~O&#y(EzptJM!8|EsvpZGR&kJHl1FPj^b&R)~+zcb?k$1bg`
zgf5n+VYd$UhBb+^N<5WfeaSLq`&Vh9^9ODDyHD7>&$oQUl`xCv^@-WH+Vh?`G|m&+
zqj8|etNPd(ACCUA!@JaepGdpiFzv&0*$Ibsa5~&MEn@Qa{)TDG-SgZ&Y+~&EVm$Lg
zhjXKfRdwr4`2u@KZ;K}Jt%n-(T!qftSp{Fu44!Q(qqAUd@UKg(CMKc*$K4(&ztOs9
zcJup{x#F)IcyAPL_~cXiFX-His2s-k=6fR8a~x(JoVs*<_|HkV7JAe@IC!qRw1J5w
zc7jmBoEs)G)>hM}{QRPKjq%mQ%5%w6M8z@`zAt}XcJ|p(D~G*PV!FP3ztwH4xb4o5
zh3@wH*BH4rsBC0B$SD2w7~ejtinuk*UzAUaHWUk#{F~}|HLH^EoB5XVQ*3|k91fK-
zxzVn&`8E3m*#s;7Ym9$y6t^l!+TIls>5{38{UAB%bCT=^#+?-hkDBmJdzPnoap~JQ
zM)B7STb-nGj%&{`I$Qky@Vn0m&yQL;FeV+*>RWqe-x2i(I%Xn<`yU>)N?`u9C$&$8
zOKzv^vUklB?}EH};Johio3m9<luWAI<FniU!AwwaL>OpGoL%=-_x-f0lXkHMach{(
z6xd&8NSM_<*>GAX^@r=-%8h&h4O>4y6wth>ruY2a>#3*jL~~~t|EjyQCFyxV-ZvFd
zKi8clUo|)1?5Sg%#8A~S)$2)8)D0gVlT~-_Ur75RJ)vzi>q>dA(swC~Un(w+zs6X8
zAWo%8H>lV`_41DitR=HAu6A#ew$C^mQ_N9S*L6E+{@t`MS*^uki9ZXA9Sb{OJFi@I
zyC-gMYR@YLqbm=-9nU<xP~jQVt)965ZJpZQ3#5bp?WuJ&_<E0Z%d)4ng|~jM+v3cx
zu=G!C@dx8yxv~X}ITI#6u<5zu-|2caH)j9(ooku%8ZPt(O=!_i-Q@Z=Pj5&2;ca|7
z7?){C$=@huP4jy9Z&S5J&g%y5gr_I7r}Vn5>uOPU>E-9Fn6H1<=XQhZiv5B@hCZ$r
zCSQ-S<ovOxYvwja<1P0S*iO2HsG4N#+pW-Kcho1i-$o_E>4^K?u9b2(`7PWxJ%4B<
zpd6p$DX08>$*+A&Rv5f1J!{YqFu(oy#GaTsMc&n$_)D*!5nb=-{O9#)u1wdM$U_XV
zx6F3Ee7~(Z@%-P<q8k>mMOU^)vU_i_yql0|QY|MJzP;i8hN4HkwJWxrJ*-?_Ew@V4
zOl<waoBn6RZBLz@ddlz1i>s9@YMyt@@wu7tOy|KC`xR3k#s$5&xcc*l9O)U)-KDn5
zY&=xtcFgCrl0n01D~A=be<S7`{Ayn2W9HDDw&L)@-M<SW*<%<I8PD;)zH-CNSjOpb
zuwiZ_`<?I^#@A&G_Rn3BxBShW`Er)hRXt2PpH4Wk2{bV6;d-nWT(0-J;kB}R%xsH|
zsmbSaWgA4U#wMChZu?c(<R#J-&?>Ccw4}%DQR<A2T1}_<`<Q|@&)>a0Ci6Mph4>e&
zJ`4Th8Kp08aab$)gLkpoe3t(cTkUGud**fuZ#3Fy=DRodj!pts?JvF=svjGta0M?j
zPbk%%Bl<Y{%94e=5eE;ui3!YnFt`8G{z$!z;2Fm~B5IRd6Yr+$`Mk@0e8f!ju*=uE
zMROJ$(zxWmQeUopxs_epuiyU66+46bghS5NBt4#TkZbDw>BlA3PdPlx`so^jMdATB
zF135DXb%m&d*UHT;W;ktA2%cgS*|O5R~ElszAov~)_uWKeu}1knQza{?DT8e_XxL`
zYwx)9%TF<>tUlWz>ZCq(>odWtisB!Nmdm&sb^YSpaNx#dc2Bvgo?^MM2@+rC7KNR7
z7?Z>;dMfx_k5j#sXREIH+r#yL_&3b`t#!BjN6p224sXqZTUVz)lB~Wa@YHW7Q_)_5
z{+^dAt<M|RPk$s>p~bfU@2^dV8h0sf^G&Svy63#{rFUVx*A(lgd=do*>h#q2Oj)Pl
zR`T20u<U5ug4zn!B?22hE1%8`=JU<oVK+xq?DrOa{RR~VzMy7Nqc|<D3$ycL3UB=V
zyqW)f!;F)nOXoY)ZAh1Q)2`m0ANeL@AA^#ePsbqx#t$`Bm)9oOGaT)E#`S}9g9o!5
z^YQkSO@%v(@9Mq^6A?P`<1e=Y*W<uBPP6AR%(%O9lPGJQY^~<!)e<Ty&uSx@t#UU_
z4h!M=e(mCPCYLX+zb>BgT4(!Z!n?5LD}FQXafv_mN6S#*_idh|$NT=xIo_4{**>1p
z`LVm6(UFHM>|YcVWNnZ?;Qgia&XyNWPdKL8?_D^RTkh$mLla|mX7&b`@wG;K*mQ3C
zT)OLXYP(@v;McIcDCrFit6QcsZQFdp>)OKync8*@LbZ1pi=TLR?L6YV{(}6v5W|xn
zo^vO-1$Q%Ce6#$~tY=*n`;Lef^G}&QjVZ^;+hgkYL>rZ#-vnw?1=q(i3SZ)6I5lDY
ztSfe3{v>GUWK5lXjjiXz$9o1_)+l`riSG(e`^m6udfDZm2G;LIQ!hTB!k}3;|N7$f
z51wh8ujQ4v(bAigbMf9Gxy=0{-{ai+|9!7*J>oJsr)1OlpsUvw&%5dE`fk;oEn*6)
zb2?<CVuT|)RyBQVch6J%D0y1!WpVohn=^|vRBZoRJiJr#e##x+M~fK@%hc7*>~B5&
zG@!EUI`<C-zR5pw4sf~K>|(klRetGJ{H^xODt1||64PavPXrje>d?CWIfGMlEyvU!
z83#^k^CYdVd-mhPwnBgDFE9KbEoRi*S?S-&|I+5l9M$g=ce>Bt$H2B{%88)dh>2S7
z?tEa}yl_E(sOq!GgI}gCw41b$uUfw9U%RQ!>jrIw-kXw}a&HtWxri22nH7S>esfhP
zI?VF+pC^(2&*<gXKhrPqu*R-6P!jR<d8{7(W!XEC^|CP^8@0H8vB?PhDHOY~f&cir
z<lxeCwi{1ZWODstQwjQXAX+XdN^aJzcK-ZIDXv{iDrtJ{#h<46M_triP?-|JF2nVU
z>4<@#U(F_q$7hX|6n7n-s#Uhy>p=S|q4Z^CAsh31XFYi9&Q~gFewQJ6O7%=R(Y&a`
zH*Y*MUvrJ8V9uc*bLK2xawtt-d8P1ef9+MK%pnb?MhZTf-i~1#7*|)<Tur@G!l;w6
z`=V;-^q*H(o-4h+d%e@b)j|bdrMI2%iRB2iZ^*rU<YMOIxS*@E7_}UF<}A~7zrLc>
z@Dn?8EyG&L2W&YCjZG_~Z~A6uIc}-9xRNRKVdJVJGuOU+S+HQ2;t6rDodR<g<?-sy
zV5woglz*(#pD*Wp=(*+QF-dRP4Q8>#tTj-U<_%bVc%Jv>xwfzJSyzI_vl6c{=&d}m
z|6xe}&DoDXGoDdnyx)-X&t3Zn&+18Q&Rkx6JVd5Qi}8K~qucv0(m~?l*MdBkZlCwr
zbLs9N^#@!6#WmkV1-|qg`t)VmY|jJY3a!Ok3v!wRR9-3_E8(;eWv!dqpnX7X>QcQ;
z-;)oO>As3OkSO$l*TUewpli>${fXBu&)VbZEPo*LhuPx}(~h%Fx7qdv7L{7JI~N_z
z7PX219aDAX=f6L(?+-2s*yL)pPS$SX8)l98Q?;!L=KH7r481BGH|cFy#DSC_X3_>9
zbicp*G);P$`P;{*XJ-UBPuG9?@5BcFe}CExv^4MX?fAaAK`;K4=!as~fZbgTiMmUL
z<yZaP+0I<`rTz}1ws6+{SeZTSYW$oJDm3nXPy1n()jHwnKI!XHcKvs@Uz*S7zC8LP
z<D0hp#bFUI179w^@IKTdd+WU-O@IB=8%oC}I(;~%w)xY?q+qYL+y&mDwYQXx3GQ*&
z@@-j===;MJKg?1lKmXgNd_(D2q~fIm+h?q={g!y+OXiQ3-3=GT49{_Kht0ULp>yAq
z!xPS|YfowY7a(rPr(ltmzbHHOj;3$0^`3XRt=2R2l4Kk%B;K2<&J(C1bcOM?@3XZF
z!e1!0UGltWR(aXsF3*9wQ?;KJ7pGVM|MGO{0)c;dcP1~|*?-LQUhlpOi~s-4ZPn1-
zx3t>ZSbWm0_PV#+wxHqbF3tC|cc&ZFUEloB=3Y4Oi;Mp&>opr!=E^%*#3f5S|D*l=
z(~M)YQ`gja{gRHEb)U6(#>)bWdpatK<+tU7-%Zg@NIU!8`tzDIMnBAB*>g&_pPgd;
zl<P+&XUL^Wb+xkDpACK*XK1}hvyW#;eRRwE^NN>FDK<;}Ki)0?X;!F|EN8fOtl{IA
zC3<sIcOUw6DOkk(!Sfx9KEIE(P*o0kl4$Kd{Z};e?cdAwwU;Dx)*beFemuRkc>5K5
z?Jxc7yZh>7Jo#iM-%D{0e!4Wruew0DHfzU=7v>5_+qZ0FJ|CbTd@(uU;lp(oUcC@c
z5Rz{%Pk0zA`RB!N^Dm5R`|6namWfPUfBHf9Kc9+)PpkD=S;JzFSoFudbXh2R>GaA*
zWlpv;>sCkiip%b;(wq_eCsHwkbE=j7?}@A9Rr|zc|FZe$9Qm)Xpf7gi83BKdM<;FU
z8^YYzGYEF?W8NKettHW0$dcvs@of!9#SEu~UwtzD)3V~iPal_Ry0xYL@@J076-;L2
zGwW1yh<G5B8(e#OUdnIg8##iH8PZDX?WCnYCbC|Ayq=*f`ba=OPkP;>!{RB6|MJ+%
z)TL_b$^NZv6<EDj)3iGx(OT<kUSw!l>t!)RK7~`8^9y(C_&%*#!u=s{?~al$;Rnt|
zb(KH7-S;QKKg#g0RauPHFYScnzDw4h8G4*zI(1DxY~3z@AZ5lb<2Ry<T)uMUY;~Wy
zbn->>=t!gA2G6Faz0z`cqPhOWDb`iBa|_O0pH<6n+KNBF!6WhM0^LU(TVI>~^IqAu
zayO&&?Ee?H&)KnQiP|Ey>YACg61TmLOGOntq}Csq>mD*qq}J+Z|DE_*D|a(;yL0JJ
z3KU`Zw$e%P{GV6M7Cgb>j7~TGpD(;3!*{>UW8*u~2D!hWQMWU<-iIf>Q{%08pOwsB
zetV7F-kdi(&#Yh3e_Xw68ppOdxx%^iH<{du<+L0+)Z-h&y?RbAy0^)F&0hw!V!6Bn
z$97fj`uaj{u~pemZNoC~eF4wD?NRP$JuA+&>-OZX)$aB6Pr4d9_NeT<B)7$XcXV^B
z@J=g!^9K(aAANb**}Fl??M=0Hc*ln;l{*+;UVEHh={t39;MLqc54}v6<(+f>dZJ)%
zm8)H<$EFqPdn%qhk(%BYw=3=QjCfYd+@$AjiFep_Y&T60JF;}~ex|x}`_Fw$?EVvU
zPQ;a|q<=kVJx>zD_t`%_Tyna!ZvVWUj=i7_Qb$(2G+&vtvo4}9{npXGV{Z<F^s1R~
zeUv_R?432^^2I0iE{SlL&u{qDx+k?tc5Cz2%$?D@`d?g}e{V&cqL*gSQf6n5RwX@7
zE@qCMhfY3!`02Nn1e3QutMkp3>Y`V-=kT#_&Mk@-_2Zs#bJ>TvDQ8^T9{pNxQxq@i
z#~tDLVBrbIb3G-mGc7x#Bb(NqJAd8%SVzIC+aBC6eLDK4b6m@ty;EyWxI>KJ`xETi
zcQv0&eQi&=9&u<@L0rA_pFR1V|Gcm2Fa43Sr$g?q{C$Q*8MknT*t_$81msEwZQ9w8
z8ETQgUvch@{EIfzmbKL!Ty+08@5ROLt(Te9A|5DR_l^<u-2K@ja$>dq^rcUd?p=@B
z+i=V_kjp~YJ^m-p(S1I=n;X1OmNNcXqv6q+P|$Dp;?*4WxYbW|mh3FfYK<|{)lt*W
z$=ukTnYWTFWaa$z4FZ*crF;uLHk4gEnElIn;<6pZ(jSU<nf&{r73URFEVpw1%VX`S
zw-Q#q6LmW1x>bLJ&+@6JGiz?{nIe_5VGF}a6Z-`zTuvsTubZn<wp)p3Z#j60N$1Yo
z9}I_1w-miw6E$<*?-JL4|3AxaC~g(bvAFTO`fS+epsZ~NFIA?To8GB*xMp@zTmCO?
z9kU24eb!uaFFD8l%w5d$YJZvRXt0V1(r2A7_jUTr2y4GqWBZoktv3^1t`S(%cwYH&
zpdp|CY`&cj?_9dr{rE`CwV;`dcKMR7CV|}YpE|2=f%eFKDBig6&7B<zeiyG79(&Et
z`Qy^X`{6TEZWlZ^{E)hp;jebW%NOsppKLM~{Mq7h?d!t_VusWD{&D@_y!LXz0)5p2
zeT5g65B^Qx1S%mKHd?Q+H1Vss(sSsUU*MX;moM}imP|f!Y}pClpv_CxGss`4+N|L)
z!Q@_0;c|C7xk-mZ*~5EghTPMUF8IUCF8FoHlZlVzV!vEr>_1zzImaRCzz0U@6pkFr
z`EdnH6GgvjJUzRJ;p7Sy$K5SQocV1_T%BiJUdHUF*`xnleT&gd>+8M6o1*P=ZqI(o
z#j*VLc8`>oi|${45o(@QcX;34NF4>!=$-q|$QC4R)o@+-{P_pQ9<v8F4VK*P#zwji
zXDk-tzs74(y@~NT<B_FbmR))&Qa1k=?_Iu%H@9aWWtwCwb2*tyiG5e}qn*Jv@Aq}}
z?c=i$PiVK2u>Ey{W!}o!F?qk4cdq8M;7?e}{NVG6odxxhav!-bs6KXlzm)kLtA#`9
zV$nwzyX8(aUA}(1eedjPzhdrkN!0{0NG!>ld|vcI%|UJ%lMwG%M!lq5@qdZ;LMN_P
z-SL-qdFIOe16r4DnA<EBL|*>#E4=@SW7*Pm@{+q6PV}j#I9<6iebSv9X)c$8?l;Ju
zQ~xo|*jw?H;G%2GMb$t;&AmnUg!5iJ*do8|-Itr^1Z{tTM1@^re(@TMw5q6IoKt45
z@=UJw*CwYvnYJ@el9s;aw79#4$@bU%?V@RAy$3TVOBSenoo4%e27iLFZt2$(rk{`L
zbuQLl>OYhJugI4d|M%<_xv}+AWrPxQ*jb~mhj$w0L~WeK&B}Lgi_@1^hAU&{w&&%G
zu-4BF(>d^Gd*n}Zm!)%GTyZ>Vrl-s?@9+M7YYcL)+4@(%pVk?8r`BSzuQp$T(5a^)
z2QGxX)!zB=jt}Ufk2zBJs}j7D`uf$>e`}vHTWg`u`snWYW5-InW-fiXCv|_FMYpf^
zIWF(CEceDaPlVOwTEEt;&^eoRxr;SoX5WW-Grly<jCnq(i+}#TR~P?3kH3=B`_M%E
zLB6w$-;1xyq+}%Zd!4{j&RibvE{B@*>+E@zJ|()M12hYLnyZ^*5%c6Hw*%{Wu3uVy
z?CRqE>o<sqecojM?aK3qTVe$F@?Qo`Z$<{rXwj3nX;QU$)t>Eh!utPlNgOO{`xbVq
zpi6G@pY3y;9@SQ`=gj=epUCE5yVBTt$L@W_qO!FWJ<$%UEW@UmE_H3X)y~XVRq5pf
z?t?MbimbS@ls9~vt@zQZxS6cmx<5$lUpv7_oyo^&<)0F{&&*eK7rOtqzRz%S*@UOZ
zJoGgtTg{(mKlcf9hxOBahx}hK9$-pU?Ao>4oqts~H^;r}wXLxppJrCJs}`A;Z;X`N
z#(P)u|Bm$=yf=g_S>ercd?CYKQ9aqe`|JO6H>_?ANjUAQEwji}``09+8tKoV%X7IR
z9vZWECOtXq*!wDD-!XMv*}vik&NXb%Q|o-R^Xsa3QBP2<v!-|NstM}JvzB*l^u2p*
zju~ic%94J^eIlL*4kpJvUwE3siRH`Z@74<bml8bro}YdgU_EK=?Hi(IbHk2ou(EUg
z!{1uf7vK`=dgq3kF6f>GxA~K=@i$Cm|GswmqkE?_EAPfL&TL_yYQ^Ly#IlX~#|LS@
zxnUU&+rBK+Zw;UEEwgy;qKrDw(Il)>1XoYcGEOkrr}R!4w4Nuy*?Puy-=oUgeeD{R
zr*Y3HiCV~5oGhI<W6>mrWm%dn;Cmgk9|%25e<pO8)3yD`yX`%4f8Xb8%bY&Mbd8a7
z|I0efJhNFrS2J7V5_3<7yTqOP8Pp`-r2@(W`={_lF@32@dSCyncarkV{Z7HEeGk7Z
zStb)dV};Kvi@(yl?siS_nHs^|cEGDXgvC=zFm#{HULUUZJL}hLFF9CdaOU8)&X_AV
zo-h3UGBsG$t|4-nQ;l8Mv43Wszb!@d*B+Q&zv>A4gc$1^<$TA*0{3oN-|-)$@Lq$6
zj_AiD4!@N*F=QWakE`lVc@olTnvnhG`GuE(oqF4ylQx-rs&@`nHS4$eVb1b&y2r%d
zO9N8RCMPY)S#^ZHfcJimL<#@<eUBq<*CyqjTIRJToWnYMRbN_J#t{u&wmlnGz2Wkm
zdgIOEQ+979BK@^Z4&U6H6m?2%asNUY2Nv&1Q}w=mUZ?YO|H6|m_!HPZHyLZzoqnv+
ze|34xA=c;Dr;7%4PT-H&;eW6_nDg`9b&?YE?c*6VKR%4%XW{zAYo06mPL=CIP1Vtq
zFIBCUg{6JHZ<>tGA75P_o?-NhIYMAxU?@xebROjxW<zeUh--*kN<w@?<GGzn{!C9Y
zs``84&Sa?^vniENUY&apTPZ71*0Jy3SLOqk_da$1_h;ISXu};#x5(eT+n(wgFMfcB
zJB=ylQGafl$gW9qLc+e3GOuYp%bRe?dtqnU+YdFJ+7^xW@r>0^a+~MRJar*B_KO~?
zte9)ZKD~w~%Z{ruz0m3WzF=u$-bs;95-#!L4q6k7YC5zVf}VVq_KOeXNR^6Z{4Q!H
z_-wntQ5~y4st4AvGaoIOwKlj*LL~dMgV@?9pJv7Es63aTz<Xj^{}a`jiGS|-shP^{
zn-Ud1`7~3SWQ*VoYxT#I{iV;{HQV~~phH#ble0}yI<eMYgjqzBXD6J@o4s!9cEc5J
ziO*{}l5}Nv1j@!A{rhFj^}md31fmui_#L;slJLr}@GaNmue<CUdb8JkIU&I_WyjPl
z46#OWo8rDpO_;rQvc2UAnbN3-bye41-&<qwX)Svl*VJ`ij(z(q^15_={b7?OA+FMj
zFSAARPq3cRU%K~d{>&w}PE21};I>$(thjLx_ubDIs_teVxc6g=<J1{i^LEWhlaYFx
zAF=h@H-@@>JQ2S{<e0qYoXcgNq`z_|YmArPhE+)xvBm+1Ry=m@@49&Tm2UOr-t4Hj
z@8u2>8vBl#$R8?s+WFAv@}*C^_A?2+@2>u0Fnf7#?Wd>gj0sWT^>m#<FY7*J27fIm
z3w~&_|KX=y`|Uq<EXrB>ep=TatD=J0F)Q7Dy*nOe)GT<mY<g2=P#|ZVLG1Nv%@-H{
zU*|RG4iqjupuN5z%Uk}s80XrK`0t{V99^E6$>_|`+;e-%>D5!aSaoJiD_~gsA$JM0
zU&w<seC*+I)2nJVqng-w_Ig`{|17w1w@cl6)|K1d7lpnkPnUVh<-xGV{c&(jnY`<>
zu4xOxC75?hB)X~9o_3by`<Lnb|LFxG6NUC-C#!}2@8_6Zp6mCCan7u13HOQ~Z8DCU
zDIzbM_|H`<``g2aUsL|8`S(clb4DLubLM~;lgK^aQqP|^Uqt+xVx1tIeE!TvUx{B*
zrS*q5e$g~Ppq0tGNOXcrsP&Eg(~n<T9^ugS>tWKDpX$dZl=@g$^uM{rfBe$&m@p5w
z=Q-!6eth|IVSBj4?n6uccQW?rZS%<9F)4H9ZqSvz^>-Mpzc6U9T&(4p7W!ZNqvGoq
z`<c2V71-`vHeGdBD5fjWssG=3>jY*?xyc$&xh!tC{WJT1E!wJT-Z#0&7k?;RRE%<Z
zmMgq$-`6|(si1>y7dY%W8a8*2C*S>ND_u5#+JPr?s&{=g*x)bm#QNAb##Zkd_LiB9
zg`LXji!E0?xp?CBnPYLF&f{YtO;^4zJA)ZkU5*ZSpMPQT|LQ%AVLV6M_VcDinCq>2
z`)||#6N?t_UoRl|dbZX((fx_G--~K@FfG&AxvoK`;1buzZJJV-r+8ogBv|*^eTMvF
zEo*<iNiUWvTwh$fB5&`jYx|z95{h=%>E`(OJdZ@TpWI*fxX?%33dOD*8%`>(W@I@m
z9+&v;;Q4Teb6>TNn_OqPb7f;a&x2J$_vL1;W!AEKC~!bjv}?zFxjP<x2J!1RIPMIn
zXjcDr<L>g_?DJD2-R1W)I9=lu6=J>?E4q;Tcz43d<3609`4hzKzNs%>lppo0=J%ra
zb_u3;xi&6K@RqmBHF!45&Q`W|CzHd3=+Ny+%xM-TO$UN^hJ>D1xceg7`{@PW?M{qo
zyQUm?x7uRgvx^t)BQ75fdH0-K!8Ee6^@d$Y=J~AT-C8O?7+2)AGO_SB3Vje<@@;7g
zTi!~o;|aS&r8k_4ICda;{)^~)Ti5?tP<h61R$ePpj>a-qvCM>Xi(iH9@Y1_7KV-X;
zZIN!!szuI?Q{JUNDfztqB9H9f`S<UA;<?l2Y&hNQTiAtw2ao@^9WBwm!WI1NmUx((
z;G3E2r{8hhC4V4mm*^|+hx0<xI+d&*J+|4@nX9uP<;(xq-|HD7%oO67Zk!9+Wq;Xo
zmww#o)$aAIJw+G&%N{OI*|aL={MC!kuP*-2B(Y3}kM-}AoD^TX1u0+39X{}#6ysd>
z)N}Vo{%orhyS-Nz?`L8Y+~f0&%Sqqi?&)>@)p4N9x2H|YoVHW6a(nY+`<R!^KYqUc
z|Mxhrz`Le93m65b`psU*a8~p~KJyIAWBZu=JQNLHiR+fm>fJK=_>*A0&$Hb3GrX?T
z^x2scbA-XzyZr2({K~V7_cJ@id|r3v@Uq;+!t&GWXMh%+EBIy$pH*JVGcEnI{*iXD
zqB29RMD@x=H(mry4KHg`@_2uk)#LYss|Q!;q~^}9<bD2zYx&*w)jJJlbh<6%SmwmS
zlWm_WrvHE?G4}mo=8oMh3>T$+ZNjr+7hk^H{^H{Qe{3g~O}TRD@%;^Qhvz&9cP;W;
zRw6$={g(P#*_@R2BpcgJYOS+goPGnki{~|8#F5pj3hHO>+8%7XsebvBB(Lw%6WqiK
zzp#qR+*HZb+vq*##0>ZUtP?JAgt03xJLt1+L6Y=$n=@ypyt~R}n8?v^Cn!92^BZCH
zqIb(m)`xMVUoelnU$mjca;`Pw_xi($Uf-oRbo<7nm3wnVZJ+O4cVYR1XMsz9^I8}v
zHC`z&$r5ddp5%PV!d&H;&9C5H*R^H-ygX>t@M+50$`<WC+!DSo?exOUwf^wfC9JNg
zYA>yS$vUGqc9P~@ZHF%m8jR<C41>NGeV0`)I=QT5eR#(ry^Wo0#+N5~9oT#Dk*M25
z`*=q8NA7JGzfJW>TcrP6IxKisc!O^7O-Z*IDe)^bU*v5zeJ^MGdEcW+lT)T0OKSae
zV%M2VccSyZzsPUU5T9VVif8s~t8Im{6`$ULP9=%#2zfPetLVm6J@@!;mG}Q+JK-15
zTAQ1p;25<3Vafg}cNgzxm^5R1;aSF@j#HQBoE0q$-%<TV{6IrOr<~+Uo|!ZJOZ9hu
zc^RYY9K<NL(z54J)AUtm7u_vX=lCV!9K>igaj$cX-r?u}4owfzbuMDO#2ITD;dD~&
z@U#$?*JWn~f;8KfL?sH`_R*N+`M7wQw7rL-!8!*+m8)E@tu`v}R$a1y;cipPJ*%pp
z)55naDNk-vcT1d>c_mEi;@>aZ`u;IRL@<5yyYr;!<HjzTnAZ(^O23F7I90{KBr<<#
zNzOz$5tB;LQ5Q2TozwIcu9fB5O8t4}bkFM7ZRN)&)E%l8|M)Iz=`!DATC~yHGh1%S
zmwesy*;Dj)>*5XjgtE_iXIlT-)DRT7D3|$Oc<@~JN3|8KC-0PfDP@&;^nAmyhrM_C
zmd%^<|HRcTM&=J59L)G~q9bAD<BR8%)6KavtbgrdT9oI@o-?twqHS~hn~XPH<zGr!
zQ}V?gTBa0Ej0_e0&y@i(f63l_i`*GK(@k|3{yrP_;dH2WFr(AGpVPL_PTiv59)ETk
z$C-SO_wiee#1(#;r<@CZaMDT7u6>(T?%UIE4qsh7eOIqbXh#COwcmls*8HKryZRfn
zf9+yaN?NL;uqkf63F`}?ichaD-e;WY8Zcv7Yv%E&&oA~py$Z_56Z&&6A3by^`TNc3
zn-;C-P7qzkaaL`L`?^;X?}nv;ix2m=tDQMGE-zd*$$h%r-0=Q?r=!=Md6@FL;l$e=
zQ-AzOO|Q87{~ud~`t-R6XDZ8|Gk$LP!!Mv<VyNgjUJquUoo{+>F-z{B?-WpLA#-7|
zz34e!jpFGmFUdu$4?llo^%MRTP3Fs16}-AH@bRI@XYEt7MW0^!y8UFf+~4|t(wmlT
z*(EwvQ#OB*>V`EdXKy*QH~5;(FKva5zkkHVZF_Yz#Nw`g>e<En*BhMN+w){1Pw}#@
z+&eE-z=e++V@oXKvmY7<-lToWmisFjV0AC0d&-Z?*`8NrV%!4aKEGJsu*Fzw{f5uV
z;%AEsT7QCcF$JyM!m!~~%x06TYoE)5uA8ZC-O$;rnVRI!<Lmu_pZ&{=`upJ?S2cd|
zE>-Z;e=2dtt==F2H2Jq(ROwZ{pz(^0XN=3$=WK51<Zu6-&yjcH`NZmH!qtAF=PEZ}
z(Y~~Je*GOr=KjQ*qqQ}?mrtDuW61dSaEjJP{j{VdSN~=FnY}mDNZ)&#zhcL#;&-N2
zOTB7XRWw5mc{i5L&)b{aH%rcLuV&~Y?FSDyr+k@~dd4M->q73Y=bE99tP>n#6?6W6
z68s#uz4tHgQm>l&Cv9z60&_)P&pglg+Wu3z<o|!aw@+_c{9m-Pb%yyWo?@R1>$-Od
zywhOyje6VPc<|AeX+IlO6I5MFS1YON+`G;?p{z|NzPa>Ed#YEDLVmLIls~UubFtS<
zvpX)K_iGJ%xA^>RTygKuiyt^CQ<f4`^IG<oiEO-F?XH%izc)23Ve_kbt$0l>@!!T<
zr|pCnw;cVwi@|N)SI38Qcv2(-UHRUL1~hGmT-V^@{oo3Zr4{Gr@|mi(F^fMagm6i1
zb(*vHNl*CAI}6OV^54A`&UtvA+3NY1A`4tyV`G9ubU<4TtRFXDU4E7+r-(JcZT^v{
zRjWjI>8r9;-;!}ikx5DSb<|5!)I9KR-xP_rnZ*o>PZw899)2dpFA?9c?x2oM<k!s2
z4BGvckxzuB94`D~EGb>wYBt?2m+!%vIW~_1+PQZn&6K(xUwrGxqPstmt<JKpD7}|s
z$KtRz*QfKqo~Ih+r$jewI(#I%a+#><^N(4HiSm)}ru^nI?EEge^RJ^a>(?nV-zRBp
z%r>w4ed0^KddH1~O@-?k*tzcrf#(0k^vs2srv5beVj%DEKf3Qy<sPOq9%Z*Ls<+eL
zePj37D5uc6{CMwwhDqIm`%}NXuy1%8GHu!XUZr%~ygzIKKBu)+EhXBQ-`iBFnRa_g
z%9pB4Q*kSQg9VH%Gw*-8;CB4r-FDAUQ?wr>*v}46%R0_(@OBjkr^4OZ87lrenICyq
zib^I#O}R9GMg6<A(^p-5z0&>J3C9(A66HdC38ntCRVq)hPRO&(cq-hkuyoVwr%WZ>
zk2jnOs@l8P$*V+S!t>s`eRJ;aZ9Q~{b;_;lf6doqD7g4lWK6kzvz`A`SVf}N-Z&|C
zfv)YRSn`cRWL`}?yFF){FQ5L}>%k3oJ}lx2es=g_$0_+0vIRRpXaDrBKOg?wQ{QBB
z>1P=a*|+zqEG75OV`35fWjbSuPeXcg{EgbQ+fUZ83mhrodaQ7NZ-<$U#kQMeCf9p&
z>zyy!#4&QWgtKrgauodb_uh?n(dQOb?qOc!^(X6&lU8H&>(|j`l8&n8wha#$gbLf^
zx#Xs{on<Yxm@#eFU*6x|yb2c@1SalZm9n^#J^4-UV>!MT7vD3ouus@_i$UR?;f(mV
zy>sQ8RA0RK&cL+UY0p!o<`PenDd)Ljuk-m#3ch=L&#7}$muK&nvi6;_;J4;wE%7tk
zG$$>;!{~V9Cxg=mr=weAiy4~l#V&lJ8Se1wiCX^blRM*Xs%Y%c-PLfjBwtivRq>XM
zmv`Javh?NboGD6`r~Xb1WLWfgb&>z88H<yC%-ijBGI(9XlYZGs`E_i*!Os`YUoHX?
z>ExbJVo{Qpx-53C^Ysg?Q*55@bL!dh<IUj)w%!8wYsbpC9TN&yzkAEplhgJ~$T~Y~
zVUCbUq}0!ToA_PTs~M~(%|7#_V)vnT&nc|7zwF=Zs}?MB7O#D<?Ee+*lAXn=XBSUr
z^R+9@$q0$R)VJ8<QO)Ut^IJneh3<m~frcf^OZ1YCtn<sUj|Z2ZlY4vP=l<51vTCk7
zAOFO|pd%!X2)sGbFg1E+y8NU)=X3?vfVTcT3uy7vN)w#1{S6l{Xx9+?kvq3Fiu_Ha
zL*mbe7ER4E?SG}K9HqAW!U63!yI;nyTK~m;tGg-JRj!*eS|lEe?!CA(_p0W$&-Ko$
zEAKS$#)YzQY_2S6_{3PUG*KdQ&76-#x3qIQ^{ZHRx-eY`E?UK(G54d{gC}pD*mY7r
zJy2ftZtZ_v^PR!(w2xf;zi3}vn*QarF&=*(+T`4{c%19-vA$MRuDD4wYvmg0E|Z<X
z@A_k;;~8hHcNhQvPJj8s>l*{D1J70bnt1T?lI?RZ^5vy(`0>Sk=hUT(p9`)woWJPZ
z6lSvp^Mfop?sM*NKc)>D%1haqB=W1|;$)56&Y;WE!w;O7RciR*w1Rnww)eXWhr#3h
z#||-h)f^~35wqZqsGoUJgw-$o{SO})aaWj?^v>~g=2u?Mz31I`g}claiXChVDwfHb
z*Ht~u>twL~W$O{nyvW6?;mZq!FGn^z)ysd&`BGIG+WB<bVHSrlJsJ6PUlPu@esFmC
zRYXBLQB^D^u;0sk&Fufu*FslqYA~{YIyJJ`P5i%N#q#zAd(9VLzuhqZGON%oohjZ%
z`qx?V&9A@yyYy?-FY_bYPR49M`26;{W8cn$t~~k6XAv>oNuSkg-ND-#bIt0q+>UR&
z^g8#z$uzbvOAqw5g>+hrocx!wgK7Qm#n*!yE(Gl{5<bz<x<2>OqUbcqi*oVH*}8K-
zO*+VIxoX<4;C?wisb4>$8d}$Wjl0CTym#$w`G5Hqn{4-qDZE_#W6~o_yOUDpJ4H%*
zy#D-T`f>6>Hv?ZHi|pJhTRywJ&5wBdu~bg-h~cRvYWACMnccj8QT*5IuOCa}yiUs$
zBrSFMa8Jf>)6DPTH{O0Mtvjq_XvW8xp>UP!@8j&syWTJD<}Z3TCuV}n0?xdR(@yO=
ze*M#~{me}hzy17@5aG1_UYX&pqUUG0reFUnI-#XL=J>Ir9g`ZBuI+MDO$CjiF6O!4
zBV;*2*}sJ0taoJG_xQTQXLL(53Oe7eVV_~Q=EAq&E6U1AOJ}a_<-C{PDpH&2aM?f7
zwkq@2^L^nF%*=j2r_C<oGG$*=3F_pr^L&Xg*}%U)@ySQ)*XCc6XM=ihlcuk{bGlR2
zQnxaQgZl>W{WNAaNg2;~O%wH3E@X)Pe|S^XmvDziLdFW~WEU-YebM!B@4jVUg5Nc0
z_%8f=kZV@Z)oq2Lucjt(9o-(NuX@@g#K0iIX^CD{I9KDjeUEOh5LHr%E0&wQ(o%r)
zIIEBT+3kVaEy+S(Us!8r^ocym^wBL_4^ox%N5XfiY>uqJ@?CDTx947X98e?8DzW6|
zsYMHyx&3|igx||qGvZ^eNrJE#qm23r**(fP9trPxn6Z@Wab@T&;q5(fCab4}&Rn=U
z|K^pA|1%kOYxd+j?5cV>!{6t@!W+*l9BrRyPI&)+*ZK*EGBPiO%#ilEYFaJj%r+CW
zJLBNu+Ko<q`!0R_owaW#W5$kE2J7S`@9VM75y`xG%<q+X&O5u7zJDUe%oTjwo|(z~
z34X}4d|hC;0B_P9t)Bb?I-C{Hn5W$lI+wHKrTLn|ms(8y8{BV(FELQa;*(!uthzip
zUu<*kq9>Z+2M(q^)z9MI{B4{3>ErCIzP*!{$1qw4-!^zVw{-DGjp*I;ZJZ*0e`fu#
z*;tEtQ8r^U%i52H_IoudPyIEI2~E0lbwPsLR{p&&R=b@H-e+UvRkeig8B2|t=<OYb
zW+CUg4lI_d^tvgz*1qf57a93*u14>0!HO%<ZkY|67<f`vzOmn~x03xpMpx#gYX`P@
z`pn^2+j%JJ?csM*BeT4g%~-~u*!Vw&(O?CeXUNJccfW`^pRTKoR1CF{+~99!zM|^f
z;@ck^L8rPLI41nRL(#LHxk+`e)A}<(!KO#I@LEKEaBm1bB6WPllZEQ7&jXH{u%7T+
z*yz4GE!W+7O|`!N%G0mo^7a;;SzoawHDS7U*S=j=8{7X+Yv;5uS9r-dBb1f9@vHEg
z=<~Mx;JhH!;$!D{c*46Gi`Q1{`a13UU(pRkZ>QEBp7zvFlii?NvNksE`}g|-fAzcg
zHQyZgxx!C6d{5Z)>wjepylOZsh3ED=&TW5}(t9fI`$z7CX8!a?6ECNTt$nU<|EKLJ
z%bZub%^HrAPd(fm5~}zjQ^TyJL+e3^_L<qQj$ORIFf;bKXXJr2Ccmvt({fJFVKAz;
zJa_W$`L6-|p^VF!T8hp8woQ><x`@5o|Nei0sYap&ukLTqpO)FU|Ln_#%cif`yen@B
zM{B+Pvb1E`0{@lgT;F=<7-@diou1(ThE*ds;mPU0L35Sklgj0%W%$2g_4xetho56<
z3)8u?_Dd}L-#rYNWV=yZ;ic<NmjKntTE}gd{j$|OlJV<^U4PGmX-!L0UlxCQ`b*%p
zgZuyQ`3)QPRd$Na>0rKnmG?2@UD2?~VIJ-i*S=)mpSr7G)6V8#&_`9v6=tipBr&Ij
zG1oH$CM|jKn#KF*_8OOk|F2IMRhwt*RqmC1py=2YvHO3xWUtQGZ&>8MklAdb?Ae9K
zW5P4)4`*KD`g&r<y1$iA_N*#?Zk}V;E8nX&HEe~uT<=tF8|}$i0zVmc8J$06_3O)1
zUG^Mat9_eT=B%=M&i>X^^7ffcKJ6*am*+A)7tUSkBz^nw?E~B0Z>HrPI8vG&ROI>F
znfIrb-9|CHKF|c?rqWZ^8`&8{T{r!j_V>z~u;kf08Jl?;eSP>uzhB+Vzc<cd?V$;K
z{<rPja7ZdrbE|!ybMnWVwW7AaKnhRG)t-Co*R<$ku*Rc0%?lUhZ~J@=Qge$A<GVGn
zVRimZ`-Ig`G{1``ZPS#gure2K+c!P-z}3a#mlp<o=UVuy;&i|_l|47s>mLR6Z}&5~
z_0&6Agm>@w_l@~QSKF&s7vmX^Ztnjy<>13R8y7E}8IX5jU)2}!0~$8^CuZ$<Cg5xK
zitX)c_xk_5mxB~9rn)}7Bk1zH{Z)+cz3ZX|#kZT2a(*2y;hy(-!>?&}0>`!2ui}lk
z;rm)u*XP!Y*i^=KYdDjQr-V<9N_-(>X)<Hl>u>CP4Zp|5eSV=DKP~u4Z%SwQiECe+
z`wwgXYni_5*~NGUO%@SV@fFiVx@4F)J`z9ndX{@VtH{jX>8;t9F68`OUvnDN1D&8@
zx`=zloLOIe-yX;@%9mdUZX3BhR8Q)N$;`iHc{BCZHPilo|4wL_2U|-_@!q5zV%pw*
zf5Qx;(`+Komy6H6<9g}#-=#eBSy<C+Lem1ZQ=U4B?Y)=!t-W6ETbhVT(0nxqgUcF|
zPr3fmbe(G^SG%ihrBFPh_4Z5mJ8L&4YTKN9_@M9b>ey9B!VetVswWh8@LbiV`<L#S
z{fnOG=D3+L^H1>9oGHIGi&y9@*wuM{g4V~s<}Efg($8F;rv6Gv?~RYs%(#+&;%3If
zN32)(E&Da?FY~lMp`{A~8#G)dedyBDoZ$cJX8XEkbDQl`n%wqI={ptl%<$8OhP(R{
zH!&{1X|`A*s!75q@pi(kYN7n+3p-La{+jDvz$mKg$jEl`g`mIc%%Dw-cYhSDIro@#
zL#Jo{qa?P@?S1J{UwK7eN6bCWognBfFL$5!-HmS#mw2D@l{@~*CXRu9`<45P_!%U9
zZ8x1(Z7biuNHyoc$>K97yj<rz3GHmKSaXl-;$r(PET5;bGhA%)JNAC{&n+w-7e!Zl
zNr-(3THvB4xYUO?*syH#5zfuIX;qnFSJ~FgNbC(@xt{U3y6SJ+yA3<7K3nb6Q7En2
z!OWM*mn;2uTI?hnx4u6$jAxXd@y5(h30?GV*3QlLuh!_FT@|!n@zgmHos$~dSImy7
zJ7788{PbUQm*eV&ujge6xIddIU$ywfMftF)zjzBzU)-xxeAe%GbCdgb?}fZeBSN!U
zedc)F`R5SmEO_#d)SEeKb0+U*N}g}jek9Q=(0s*$+Ny^#I?SOK+Zm0erv~)gwVY!e
z#}Z=yrOw%B((kXSttMJ+uWuw5Wi89va93ZjVg1L?tP|E~FIj3=*_yj5`uvOO^*jk?
z59d^+d|^0oh^bX!Q~p)$FG;i8<o@2@zi-Nc+iG5C7mA72?v$O+Ci|E3xrl<-(i`n}
zq~|`@^}oMv!^S?l+R7(lGw-&~W7zX&%cc9LUqnx+J7xcmUBYqEwk6wbRDLxnitT-B
zeD-tW<vuszw}-70-mLi&@B9C;YXkT3*o9w$*EL*<sTDq5`N6fm&B8`PcCr7z&!PfX
z%(`-4a5r-AdNoV(Y17U2z+am2b<PnH7feryo?9W^`p>TClK)O-Cl^n_H&2w@F4<Q7
zH+Sj(x0!!^L#6wM4{iHDZR{4;*{bn(%J2M+J(ITi<{bKcNz|`A+5P46JK-lLI^StN
z>V9pi>U%%NyFEvw;<x$6?G4oPkW-4(+Lt2DcR}l;;3w<7A{SUzeiNOMbfxRmk{Bs_
zyNIbjG!7^ncA3DcGSgy<^tE@H!pl8t%n~Ln%9}Wod+PsM=3TedSSSCGa9Ahbw6u?N
z<<mFL)1O}mGU+_erlLQo#r;`!h)r2}&g1n4Gmp44vRRna)mguswRPow5&e&jF6)Hk
z{{|fi7C+<hia}PY{$sQ1pGR6B1GSGByeXev8RW|T_VTT?S-F!}ZRCqM$~kNG^`}1$
zxyBoQ_;*J$@5zKE^NUzz9&L-d!7wi^U9Q&a%U>CVY5%{bwl>d>KEY(ff5_rgYeu~@
zw?$9s0k%JH?jB)(qZ8xPo$mDIi|)Ax(aY8_izqyqFyryz{fU>Ah5lHxTK(EzU!9_7
zU4Cw|Cbvb<&1cthr9k_|t54ry%(uBeafRG*POYCSBctQKXUk7x_NW)1YbJ4SUTD<B
zMfqMgr(ORmTi~*C%j4)ine6ugN9vy>_3LZibvInN<T6|8^A%HLZu-~U`n2mmQ^XSH
zz5o>i`9k)$c?WjxdH25Ih4$gwJCj=<T9}C457?-?{<psNk&muR51nfG?Wfq)`2WOV
zx%lTxT^OIN++?ygW3rR{6O{#AFCM>MQ*cTkqNOxpZob@`qnD27%wD>9x?AE}X@NiC
zUAY%F_<1e$>%IJp$?Y=Vy@vVrma|>>7#lLvzdW&fdr#BbJ)g01g^;?P&0(vR>u#2|
ziW$r<+radspfBpB&zu?Ub80@O8G@$h*7wh`5Mi6$s;`;K`EP+~_L{~0@eCJ@7X32{
zn=#|@KDnDuYY*o6Y;87I@GRO<ZGCaF*O?hH$ESNg$V_#Oe<QMMg|msRVbQwjsZL)k
z*mE{W-_DyYS{uv2F1>HRik(l=uTB2a|8>{Dc+J+)pK)ELr#5@zR(<A(@GqszptAkd
z`{(9!wKB?8yJomAu_-lII9vMU8~b_br8cgz8~#PF)Bd%K!EEMyp&Qp5`_>1iz1&w>
zm%RSBb;8q`#v!YkCI!6yTJ%BpoYdU#Q^DbkZO3{PBCZHODD2-E^8C!U#=d{&*Ed`;
zO}1*9F!eg4^_>%q0#lZ+V>)wba?;M~@TJvJ3$Ob(_QY4d$~$mqaaUaSf*)6y4!rQ^
zJ^a8i)F{?bK#860$e*$^i|@BPZ#8A-w(va}!no+9*FBwP|2KQi#%V+p@wbcloZPbR
znbQ*;hBW=RM@9G5guRHe+a~6FvV>Vp%zxjBu(|v<9w)U}?PD^TALqR+WfvoJv03Na
zo-Il*n9CxHHpM2IsRpxhynD8~Q^0hSRLa}Kpz3haN~Ro*JC|07?3;dA&?PwQm0gjk
zYVg;ff`1bi8GKeg{x;wFQ}*{CQC3wm&qN=ORD8AZh~l)E^{=j+;dKQqz>}za#*?XS
zRBUnEkh!MdLmqgkjTcw(Ez73doL`&Xi+tybu=@3z%kcU{n<go9@hNOJk)VUvruY5(
zC!JU8m8jM>D<h!xoy@GVET=6@DdLM&HeZ=tRJz;hapZw7mxLFID$H;w@#K9sOZ4sL
zCqX?@RbTe6Z|IN_Dt=zk8hg6;u(M%r5|^oB)Y=Uk2dllZmPNgKyRhW`>V*<lFE2Pa
zL)c2D=}DFI-c(`B2#1p|);F|9PuG9x8W^9y>WKQzcIW9m|M)nn9;_}jZIO8F8_T$^
zTX4w>`*;T9?rR<bx~_MPUrpcEd)>d$apfY3T!&xAf26}C-E7V&^n9D3&kr(hZt?Ev
z1yehgZT+sO;;ENlBC?p*V#bZXlRWh!9$GX!EBLXU(MR9cFsR|hw!=|cpQG<d|2|p5
zv6Szr-VML)N{SJSF3gaxoRb^;W}D&ff{sbA`A%FEPhA?58NTb{quGp)9{u>5+B!9T
zMLomMhPgEl-@7gRt=pe=ht)hG`JeV$1H*L9c?-=B%Bx*+Gq2q%cAo2DyYJoGXSRge
zDlPoE|Di$cUfvr=+*LljNq8j0{`G|3Y}Uks>-Du&bQx=R2cF?=l5+m`<W{5dljqzI
z1lGl*{L?NyJIQX}omq!_maShdH*@wMr^RZ)+a6m?tWEZ}_`7o7ys9T^{dWwX8)`Fe
z{BoeoO*iuE*DK1(eO*p<iw@MUiawv(vpv!$-hZutvC)dp%=Ybv%GPN=So7}KysJIi
zax$3@@d!-JnPN64?APw!1>3&r#xtt>iBGItwzBQk1d}6Yr>Do?-^41TW9(+wZ2drS
z#e%z68y<i8^OI?ZRc~ka&LhpXQ<r`VNSj%-{EocjRZAhw3*t_FG0)9w9-RBCP<~2Q
z;I7f4_1(Xm=icD2+hFT4^~XQyLr*8=?XR1fGrc`>ro`h#ZqcjmPk8P=@g;Zu>|NRM
zrnhsx9A^l6`?_aai1rbWn1a$B?)K%p+r;X1l-s_paGD@9C;!Z;+#k~nJDE<ct1;WQ
zI*7eAM6^jH;rt)n!%NyvoV;bVpz3-C|5=eHvj<OR7Nl&QKGQ?&>&K^?-hH(EbB8gr
zAm?fJ6z)kW+Uu$q-&F*3d<ap@SU=&H=B7gjzPwy~z4^|C*oP*q3wVE2?!Iy3Nvopo
zy5Ka=eIHgiyZ=8fJK@fqCyVCa`6#)2y}R7uI1Bdf;!utt?Uw6GIW0R~0=7joySY@H
zRPMU6N?=LYjlk_Mb+neRu4pfQx=`TC#l`lm3wR@Ln9X3&E<YO-u3gfuT{_Qw{yrNc
zwr>-IUp(36d*9GZmM`wId<bJ|<Lxm0gp13U^N7i3o%$BKDVH()`9-FnawU%gmd!`n
zy_n_pR_{E1wQ>)G+r1O(PX=#0m=@@(xBX1hAJD#=q_CIS9*ZYPZ9Dbzi0la_X06o5
z)pdszQ^j`t6*~A^;H2EK35_q8=oDPdx0oQv5jpRKdbGI1{)N+*FIc<^Bs$}0*UoUx
z=U*g@%qv@Vc||_ZI?xg%>gh7`Y|~1)|KaC?o>zYPF6y=NpX=5ejqZMF1{1^&mQ~#S
zzi+*PVWVK!85#Lw$+KtH)=Nw9X>iA|c6cd>HZ2J9@48iZmPseUICk?gSLa|o&1bc;
z{R^_i672S-?2R;2Sex<5)GFfS(r2Ec_a*t;@2%I@K4WC$eX8!l@+r(O&i!);`tzA}
zg2f!xhSJ`*dRe!BEcDoRPv_OdozdQJwElgW;vVo-^|q|-ugj*v{c~QNVdmfHwQl?C
z_PhRPtzN&lynTC&g-V;SWRKUg$c3ky-=2OQm$q%2s?;Jq!TlmP(t|u~u52sx4y^@^
zgLN*Os*>@XE8X(TjI6t?Z@E-K3+%T^Ni|R8+#1q6C+qf(%@2QpmL{Eg@tI#is4y!a
zWNPm(@J(j_+XCezQ#3BkntNr9?VR??8AbCe*6m5$dU7MLQ=(S6sc6BhMeAxcFHiYx
zmhdp^MD~Y2(YG{jA5t>4U;JKmM$vt?HH(7e-#qAj;`!Ejx<^~u$@Ag|j?I^f{nC2B
z$oBCExs>-AdsY|C|HWH)c%PN_>W?RW>+;7}-}W|pYR7tF;R*G%+)0UrzcdfZ2XoJy
zru9Adz<KdWJH;8!njDdO?R`@G+TZ=W38qi&wmN<JeBsHX?Q1q&d@}v_uUYQ;SNJR~
z?kn`MzH#2ty7JOG-n7-#7HcZMggXRX5Mf~3$+XDt?46?cc+hPV5|w_Lu0jsByH4;w
z2aldVIrxo5BJ#}YD39q!j=wn!I!5_NBum}lgSDxrUi9mKd_M7R?T%*`?=uGeR(kyX
zgz9CvtEyA)+}{wTI{g>#Lp_fE!oH2?mwfv2;8vsL$1cGo+kClrEF9j>uvwACI_L0R
zv#*mb%CFbz%T-z~yk*7V;vE&6BMx}G)vsAPDdx)u`-ZKjR#^)0-`MN+T6MAgx0sq3
z)oq&=OfPxH8d86tcK!68e+)*FmPW=MdMp1fjbVK2y))&@bMrMqT@U7$=ufS^Wz$*=
zvS7cyT#wsUeLI;$_u5TzPO;{IG%oTMY<=YDyDm0Ti+|JidwP<8nRE`xE(@AE=f-Tk
zh_?4Eto{6RFUmWZ{m;%x*lu%0qTrX;I<T@eholsq&phY5?(DnO7r$>ms1r5!qW*y+
z&d)eDoT}XMThla3ZVl_5(4;N)Ey_OcntaX7c5MH$bk0GC%jP#5xLaQR$Z?o;`*6dF
zj{!0F^;Lgvn>j=H$LrHv{w&gqOxBc(IRq=-xw3}$^2eJEkvYxbYOYH!$EIa&(@L`2
zYt|ds8DqEMtWJ=9Pfg8SuJoDwp%eAI)>$j~neB3u*8a=Ca3kCN{@$*)>-Du`f{WB9
zFIe#9{%-?&mkqX(i-lM%E>^xV(r*y?zshUQoyV)YC%xwSVaXo&UjEWz`7`I^`rn8j
zTe#TXO;y@p!=hiViX7$IebG)c?I!a4`+RDJ3u9Bl2cckxU18rdgPZSH9=W-s$4ew(
z;x1krpO^Q`)k3?@OSB74;ClWf@WHQc>y(Kf)n@a*_1f)z`PJQ5!Db0l_p~syb9^p;
zx$oltZ($i<HKjMay{EBkZ(wSsd31LDj^MVd%X1E#6TbeUAR|Xs;QaI=%YA3;WWwez
zs&mc=(UhLL>#U;VRdz>{FYQ`$g7+t`iaF9?J87n0(CYIN?+?EU7Evf+beYU~sq)VA
zhtDq?*GT_95jKAj!_J$tW@tAhIM$xNc-QQ3ncP$9r;N+KL=?Yv`+RNI)x@QVVi(Hf
z%oCn7O1x-r*R#$yimQEa?rWlTKbL^nk0oC{V<MRrroVL#|J(TK=Xvo12OpVUSh3Sf
zX1l=FxIZ#)yf@B0&TG+nLBr>y$};Kf<lk@mGeKH~uWR^g`aG~aJoVP$BdhIlp9eBJ
zY4^tTTY6`H503iee(VcaS(Ck0f~!=S&*|uI?Sh9Jyh`Q1as>)ah<xRyes$8@dr=3H
znwM@eH<P)p$nxaJhPUqP_=9fl19d+byJqT~ZCw}B^QyTpI6m%s_<=)9E@+r3Y{@Na
zepbx7gKO5lJ@3{xL_TvD6?+kUVCQP3lI0aP5fQUr-w)85QzEzM*{qwBTi-ps9Pf8c
z{`SAN%m3QACxn>uY9Db>f2E&qcKUf-S?daAmfzBP2mE_@lP4*iZRJ0<tyBB%{TmY)
z{@1Xsnbdnu=xBMKoWu34%!{o=<)hnTKd<reJIi+J+(gbk?PK%e_SqZ?D~fdB+R*Zx
z;j-c^jvbpXK4kY+&QZNCDxku<<CSVm(D6q+n-|6$So>sC!^Eehff<G+p0bZzKB@;c
z-C6bH2Dic4xi*KMH1y0qcjnr|_9GYSHSM-Bt#NwWP&VJ}+q$kN?TJbn8?@}U{o=it
z(i*G6d~B{~;F{-8HD`z{`f;PWwfS`IlXn`|7*o4V4PISl?l~B6w?*tP+szhB?_eGI
z)zh3<^rdA3r^JXmtSa?gdD}<L@oa3FTk+A~yo)t<u4`y+mp!I4*>u&rFq@PwGoF0?
z%(`LowTXTDUcWLEu4b~w|JnB@U&CwNZ{@?av-TJoxNh9E_>Yp`j;H$=W&hsazgOhk
zoR-}F&w(3#?pi)j_L^4|uXxNb=!ruAobPMfH%jXz)Mu``9haCAtrw+Ob8B^xxJrrs
z<U_toST5Fzs<e9u*=OqAs6CPy{`K&)yQh^;%`IYmleAZ7ne&u1naiJEp7wN`1llfX
z`Dsy(^smD+u1NDO@Sg8>?$>A54X2dVmPw_q+_U~r#pidaA2g;aMA;gxVlQERASHWh
zMN6Jexx5<aY`K%CD<4e^WLer#Hu=fRW1r-A?%ARc#hBD)HP@^;{*+<Ig6(hK9WFT;
z>{r^STf<d;HsfAKkp9uqCaIT`mg_h?()gIqk(?mKwA)?ff^zl6>mJi>o-!<Aci69(
zD}E|^7t@#Z7r}eb9`e<1^G!c+<4XRFyVk0)pQdbfQn?q>d^CDp7E^*B|NWwUPc+k8
z8GUtMJ{ROKD}Mf|xv%bt_q<IEi(B%0*UBkgynQg}W8^aBc#zHs6%TuZ1C(a$PK;f3
zp5sv7)yh*$BHxu3F+Ap4a3gKG=*jahKE`Avdp~ZC<LdF!__gYfZh7sk68&RxJ7@Lo
zWz77*Dj(13+Ox7FMa1S;{?3`bYr`a34f|$KE81WCx-s+_Q`zQ?SGkIxt>T#TB-5fg
z`1_{WuX}CI91CmE(Lc9mp?6CEw7nbu)>@oBcCTTg``<^Cv}_*K?H5_}Z`bb)ESoo)
zCnVH{h*-}$&viP@V;Z~Rdx!piIXS!$mQ6=L`1ULa>+HX2_RPHH`rn&3xDE8y#iVg_
zS3Oz45X<;L<0i|TNxzz(Plyn2h?s5kCpj@N_e-i-nWox<kcQ+?3*r1XyS!Ok<`nq9
z3GzL#lEG1?I&i1z<IC3S-$JjYFwO?ef8>g<>-w<f%*O*)w(d_fXME0<^Cp6O=G_Cz
z+S^;+oo{n~>%uxmdc)?Vwnv9g?N7Y-MA%F4j)b(;FX4i`1B&x9C!h2;xll4Y=o$O`
zZ;f()IW4YoU7WlqkCiQi_vk98!>3q#%H)^*4N6P@^~Gg_OYnVD+hfYt`b_)(@pa_S
z+{U}i)by!`TiBI%-jSeHN)z9U7?etGc=2&T9m{S|6CpCe@9&gj+BQ84QY_!5LB^4f
z#rWN7Z@t{Luy)#?nEbPg_cMuoYh0Rd`N1^m+`|ihy?#Ha{PK}4;-+A~%I1nEI#~ic
zm)!Zro>f^TFXzxRbAdi<up(FW>vh#Pa}^syR&)p_zhqLny)wAf*dwa2LzsU_K#y*~
zkxtf*#L25$MJyj&S)^#+lzUM?T}0u`-gu*@GtM10eqd++r%hM#(GfNooiJsk$futT
zWLrxsI})PJj&N>0r1M1h%;M8m8sG3Oh)py+(#h+w$a7&?LeBRGw+?gN`uj_9&pXhG
zk;hAg;vQa;wrMH;`r_{?A@KElCJVZDDmB{e<ae|DJ0;<ydfDv~=Q%eTrXIHN(tg2T
zuhd@bdG*tmY3+)BD@2<Xa&up5yRqzT!pdpwJ#x0cKq_0`W;`gfWRTbvo0vOoTNXpL
z!P#qt5#L>RiDvA)uy*_6_3A5iB5tp`xr$-p>%B)_tzj|kpLfped%=s7Cefk^Vt&=f
zDlIC-PTafkj`8;9%x!uO9*1unV!FcDwXr;L&L$=EWABcdM1SW}7S4{J8@x%#wOZ}q
zq<YpbS)i*`c9+N*`fj|CAolg;&v1rk7w4y~u1a}P6F+%(+7e-_`EeV2oqnIVYZ84`
zS>K^2RmbQ_8uPE)X*U9%7#vG1{5FY8_-K23&-ak#x0l<L*ad|D$BC#sd0ja}-sqQL
zj>aYi=G&_#PxX4_?G?NDp!qi$<y!$u-c1ksaCkCHLw5YjCEE|4@;u`$d9qE(i>q<X
z-_IxJYI`4F{?~J7gS<z(lDjxV{(|tSoEM*{><|Buplq{XarnX$6P*rZ{NC);Q*`>4
z=9Et&<|=J{aji=16F37~g$r+)IbY5F^Q4etdPLe`&i$gZ+>bO&We>f`RX%k_T-R>?
z_JYp!4UZH(8#=YU-)7Xv&H86?zrHpyF<t7=YNP+!-Jj~$UJ(6!Nbcuz?u5sdjPvhr
zcwnyL=3}c}vfRl*bKNncRqk!97MeScadlq*C_4YqVa=FFzm-2L_-)$6@qhWI?2{X1
zjyL|cJi6P#Y|Z+$PfN-e_nu;6+dS*Hd`cXPX6Gi~$EA5j*@29alXSay+yo4KD*v;8
z&15q;HtizQq+af>c9UoC7iYD}^!#p|YWJ&xQAcU3yVU*=?NwK|7j|xaBWSp-M{L7M
znRlza_nZyaw~48VSp2_KR#9kzQM-tR-^m*jZ0{|JSp5HfY2bw73C;7q+DvI*Yt}t~
zLQ3zy_u2`+noWd^j;#*MU(3@md;3e%DqRt+zg|=PTORmwHnOb!UYjSqJ^#xK(_h93
z7cF%bNpvl^>-AulVcBcbU)l@4EME|{MfgL<v#Z7VU)ElKalRok^N;7R#S9jcc7@m#
zJezQ7-?Du<ZXUAiZw_l2md$*1`QUs1%;>0Br`aa7zVgfP=??Jx7#zxbaQ;gD+3sq-
zUt7~8Ex+Enb3@&?=j+7NLGfnFI<xP5t-80&*K}?0>2F*s(z~nzUumoQK5gtiWX`s7
z)ys;~HD+7wxfjgSG;jFx%yr^d_gj^-&YJG8Tw7}YOM8I~<BQvu-`p`#&Z}Eq|GMr=
zx`WJoiw?7ezKgTWTKis0b?Fq}`1|5~L;H!9`$I11<saM2_xAcd!2>hRzbz1(;IjPf
zUW?X-;N&^2Oyw<w3;pGT(=|7={ptG`>2%9C`^L?jyvU~ua;6zS`2FmF{wcM!7E5wv
zpFMt{=M`XfT5^L&`7iEQ`y=^&EzEBg{MC@U(4YT+PEF2<w4m2=_gyz{yqjl{r6cic
z%S>mXbr~&+2ZN;MlyP|Nl8?CdLcO+%;Zf*n79X!U7Is22av!<N=ex}i5O_Fo@ewoQ
zdI`Bn5^H~7jCVi5W35tPdRQ`j_s4BUm&Fe3&^@`uZ0o8MsqGVFtMj}6?AG`C;AcB&
zjjvHIgWB0z*RQ8^mhF9alA}5I&wX>{o<*1cHJz@W@axkSYs){;3^y(J=QB)PG-<tW
zvPaCCu&d8buiE_K=e_p-`|LLD&`?`gks#mK#h=S~SCH$$eDem+^G|iUg>I)eOj6p>
z6L30j{Sxz)I{O&qnd96#e0ImkZP&<rUddR`rgHz8)u9h@Jc8y4vsgv@4<7l!^1<kk
z?`lz33#E{~e|ZYh|9voW66HC3_05DyRkBz5j31omeQ;Oi(|fJeb3>;7XFkwu`0Xsm
zVz&+L$8M~xQvS1#agU^8q`dyyCT|0--#JrfPT(<LE%TGHp|hjpS9*Diy?KMVa>^y9
z{uq<~y|pIoGd|AW|2VT{!r2sY8M&RD=M(wwDc@&|bNj(|fiGL}LxaP{S{8|EGHcp)
zv82okeYvVf=1gy$<@E3aJDw!4CkUkXhD#j1X4D;XP&_ePQ`a(r*<+T%-0Lc5jbsB0
zrAyC0oibhK4a1!)dXc@6LB?0&wF)E-Jnf!)YErYQa>`NmzHly!z0I0dkNP&~Sw=8x
zur#R1hxHU3F<arevt4ARtTFp-eG_LLtIqq%d5o8p662SCyXI~;O=eB(lvus~kc&wN
zs~E0@+NRw#%YArT<No}ARSO&r*wsyc{Z?ht!>EU*dnTmk{V-!Qczm~YXOQ2ixyHZD
z^xk*>`SgCa;HnyJ8}U^i_TBm-ZChjJeY)`BZJq;4Qja%m<8d;)wI+IUz5mImw%vUO
z57r)0R@YRN>|OBUGV4muj2~uf6KWX^ge{ls*q~97UeC9cr@Zz_$A<5`Gq&uQu<Xdq
z=1}&x#yt0rF&HWS6m<<^J@eP`*y*Q<$&Z(s)XZk=sODTJ8rh_><@PPUY;(hVpS;%O
z?#*J0oxP@5!o+ai^KFqeXRr0{70PB;xb<4d-Q%qEoh6exH^y#l2@6Yl%b;_~oj-WC
zO1jtF>BkR?zsyZly(V>FN!^z(rx;F`lqk;q>o(m|M|<P7Gm6bi*Xtz8-Z*!53CEv1
z;gOwNnGL*lGM82OHkCQQt=OQqC~T|ZH7SR(AN4CAOTD-p+>-nG<jJ*DT-DZnT{TmW
z$!Fh*Vh6u#cc!ndo~-4y#+G>>f0-3;XyCnrN7L)}$<>^#D5$yLKVg~KkNvZkaBTXS
zwELdCiPE21<`sU~8{T9HC3nj-_g&cfDxto4VyARNd&q&r|5I2l+-SCwSh~?KCFK#D
z!W@&7z!f`p<jhuI{>d%t_>|7q4Lg#HlUHA}joT}@W&Y+P+6gt0GcA}s-ZNO_$awY7
zoOb#5VLO$rkFS@uI0l7&;R|c}9wAaSe@Da5)YL~j2?55B7Wmw~a;Em?)!&bv9zJnI
z(!tC2!_~>IhH|a^LDg?lCSIt@-Qwl(=U)4p5AGf@K3xaCwq>h#w=k~gW&6Nz^9jd|
z=Z3p}%3XV#GBLqz#<n9K(`3~xf*1X~wZr6J*(MK(hDCCpud*tA_$k%h#J}eHq|1I{
zoX;j|PH#M5tnFNMk7?5Txa)pmoXiHB87K6|uxvPIw{o)GH!g|zYf1+hlxC`xr5s9|
z*;d;z=Z^W)l!*om_x-P?@Ks)VmT+fQ(Z|YokhKhjqK^|>kDl<9$YQGa;rn!Lv`WUV
z^=Eg*J=?}vf5D?&wBYkmyE{6C+dXzLHQE0^`pneQt<`P?<MR1)UyE_3ANVdAWX?Hj
zOJ>IAX-yZ|ZKmmLlugu#$u%+%NDeQS?tM4&lCIFX1_i&jLX%uPt)<UhYEH@(?rtey
zY*CM&++8stW!A>G_x?)RX75w;&XJS!<o>Daen9ZdRh^yp4=d|MCVf7Uu%u94=@L_W
z@wZ;K`QCSSxjOMrOUo76*gInjyD!U4{cX~>OS)T(7j#G({EeCYEZ0Zqu>Y&F?v~da
z6RTBEujg!3KWnUNE3^2n(nGEp7VW#QEOOxDUAAPOOwegNn{TEn?;3hb9M>47?qsm|
zZ1(V>k7b{!%De`R6&LqeXX_@ID}U);J0<?d>%71Rvrh1?dw3`A?8@gwu2HwIi8!vG
z^)|#R@t{H0^Fun@#O{kW9Xe~~nvlKNGb~zj`fVL{`F$Cc*@eD>XLj8?CMXxwc*aZq
zjSkcQ>Km74DZOYAkiNy~@$hYr$(Br$g5T3EADg)v$V<LGRwS)a^y;i-4cD#c$Y2&(
zfoE?Vp9yhKXfFI*Q(yH*zif4O*8=9QqbARV7JA%UA|As~KL7jCL%V$ieH<*Aws<l(
zZ0`K@VXIH&{Y{!pd=i%Bhcv_Zo@ZP;p>DlLbVKlkr7!NM#q$5D-1NsxGvfSjqZ;cu
z&HrlE--&z?esJ)ZcFVCZiN}u3d#iHvYS}s)gMImK8uN@(yxs}v`1<mkS@^keZOE2i
zwagU;+U^c)-hmR6Yp2=<zws*PJ}he3pb-#!ZP!VeWr-~lYp&I%nooV$CE?&<xOt{f
zal1;}-S(rE!LQV=^c9%5D{3Z(_c2`i`Rn?!U;Q!S>pE_lJ>5I$l24>bgw)5xIL}Yo
z5AwbzURlI=^IXS1jX1rYkI4e+MJ2xc+TAL}@=*?VYWBaVmz6x|m%1nBZpnS=4L55o
z7@6<KzS<hjXydkuYnRfyW5*JI|7J5Vy7g$axal!D#lo90tM8xsp7ri9;|cHTOJ(O>
z4wx<dRu=BODJUfGowId&#Z!$n5zTg=0{S`gcCF8w5-;)l!Z}603NQP2OcBRo*Z+7j
z*=y7PJMG^lI=)R<&mUKA!qV@mc|26+>;C=!J_|YA4bXmI|L^DZ_4D_Cc>Vv(Z$|BN
HW$X+9Dk0rW

literal 0
HcmV?d00001

diff --git a/modules/mol/alg/tests/testfiles/P84080_model_01.cif.gz b/modules/mol/alg/tests/testfiles/P84080_model_01.cif.gz
new file mode 100644
index 0000000000000000000000000000000000000000..aca6c9281a87783863416428f163ba10877a026f
GIT binary patch
literal 93792
zcmb2|=HSSmw=|i7Il#iiz``ItH$NpcC*HtNFF7-fVa?y$lXQ2Ns&wpot$k_N{Nktw
zeHAfUxsRtwdOuQ(%+=j{Aw+0xbeT%vQt#;NKYtn5Fmy1m=@qk;rFv=^g|C~lPk=EY
zre??g!}tFlzyJ4P`TwuK^Z(7S|NH;Q|Bvbat^e+?|8;r(zpwoD-`ef}ov#1$xc<-i
z>-PT+f0h6Lxc=X3`St%lt^fbw{{Q>-e-6w4|NH*`TlxQA?f-rB|Nkld)$7;s|G)VE
z|2+TykNo&QUw{4jW&HQ+SN-~5)8D`T{o~&My4pkg{~zD~_xb(*$L0UMyZ`^W{paIX
z{@d1`l7DgA{=?}P)BoR`KmGrQ*Y-2k>!1C9aM}NY|L6Aq-~a!|`T8Hf?f-t>|0#dZ
zf9d4^AG3d@{=dC`|NpQ3EI;M{{rKwt|A+qn`}KdO|9@S-`2L5-+xO4<ck%tdtbgwN
zXa2od|8w^Jv;SU%*EjC}dVBw`z*^(lzc<&{+5TM<|M%Dav;SY@zv%yEzrg<2PyOWv
z|2|!}Kl|^+b$eg?*VjMSU$6iB^804{UuVx>KL6`%{{O0P?)!hg+`ifV*WdG>?SH-f
zvhdHp{AKm8|Nr>-`lkHd{OkAs9-sg3C;$I{{r^86zyAMge*LfW^?wiN|9f=)b^fEN
zyZ=ka?X<tJ`_KLVU;Mvr|Nrv+zu)rzHUED9_WZN_pUd?;`}?<7{1Jbl+*V(ZzwllE
zzrX$eoonWAH~w4v??eCpPw&4({{L|N7ytj$_y69m|8rXY-~E5l|2O}?_J94qYxDp8
zd;kA){Qr0H|MvZ~{MA$c|FZnQFZuO99)p7LPyH+VpS%D6>HlBd(7WIEM|#|h|1&@Q
zyDb0jsr~<-=j;CbTmL`%o_9&mAJPB*c0Co7ryOqS?+yRw`Tf&5+2afQjpZ&{)Vz<L
zIsN0jeXE-`ACy1%>HIA5f84dLhgn6>Pu{mSj{V<@il3ABC)pgTZ24q(oiVI&asGet
zU-RYj5AF=-VbfS+8@pw>|ARN$5my^8uMduFFuo?S_T~9)2WGOoYo5xj|CayPQoA|l
zth0qIzF!J^xcioNd6oR<Q<}^?7cV6lztAoC;{PlA-~93ihqUJ<>0UZ@RG9k}zwDMU
z$ve|)HP60a@Vodwud(>i+{ddQv!!Ph94OQH)q2cre)zflFI1Q4zjpd?jD7C?Y16rQ
z`s!x<Q#r=;uA=qCjXhoGF6=+?q+hb}^P{=5o2=v8pQ|paU-!xDqkd|MBlEWH?q9wv
zOU-e!cHr=nzxHbbyIx0m9-E)6zAV$Vrhn`0YI~l}U98^Dzxm$Wu-P*XRvwqQBI)m%
zoxc5m>&J7x2UkvibXZZYYubsdcribAZToJs7E8%bf@^tiS?_0k=cE1oxx7u-;+JOv
z+Am+M%>HaC9`|Mb$6TvRFJ887Df*&+a68-cJHiF8JRa12J(#>ybwT_qrrgkCxyq-H
zP8)Om+J8**c_~|Z6C+FdhRoQK=m#NHYw8!;F_b@W*nFc-t7XE0x%#L3XTRf&x?#M(
z_=aG6@&&sK_RlXwKPa*C`scL2dd-(hmZ#mP1RmS*DdO?zOsoG>%t}~RZ;I|0pL@Ax
zM&vGshAQqkg3o2zCz)GBubuO9yDDGe`TXz>y)3Jjhr%PRj?R`&SNa?I^_=V6a|y{;
z8r|pFr?H&tD$e8b+naMF*;IXRiQ=p;MGv1X|KC?}pkjFjBez-kht@}?f4%QK+;+gS
z@SN^}%J$s{E}5pjoU~QkB1+2c(hIh)_m<yJiD$q6r=-+1MzM-}j`;ICB6I3k`(}u=
zs(!Nw)wwa}p!bs(3v4rAIx!x%kBKjne$Zs`JgnbTLF1rb=q<UY8(&So>h(sLNodPM
z?dj)|4kdh-%RcjbP8ECKI{kL*DSR6;_$S}nng1rSwN}Wls%xH@=Ki7%&*SDtm<xWk
z{g_(E?)UJ_gSX2wzrMJj!7c80IB=d-uYFL1kH8i`N1nZG>JRT!t+Bc<Q2+7ZshR(3
zel5$_-gkA&(q=zNnT(e^Z#DC~dWYY2{J)#k@0q}yWA`4!u=d4i?D<(D&l;1E>O6y4
zo%3zzT8)aLRA&}G??v1EW(V)DT$9J+_e?;$;O!;Rf?11CJq!E2DB|e@<r(KJ<vEYe
z<~3wgFYaKqIJKie>6pj&G`kBwx*oj0zLNEV>$z&Lmaos|&Tg1&c|=4em*d{rFaLHt
zxbl)~TLN!#*sQpJLd${!=9jhf&->RD9Q|O9#q+cW8uJ!k=5gmdY9APTQ~YgMtLmm5
zOEN;&PhEVxCw$^LJFBhz=F&+_=ejHMxb*fdIzIb7Q=NXR^v{i2Z<6i_D&CqTC1jx@
z-B7^B#c}1HwfK?1O%aw=(<%baUAQSwW7kr+=%L;M-<;AbzoIOyYCc|`_0QGn*xuu_
z@;kKW&2HjeZ|r)nWY48`*J|B451nsFa9!z>;jG_z{o=fv(GNcHe!R@Cy<GHNz^R3y
zOC*fuO5UGhxa{(^%kwUT#Xnf|?2y-zAF;2CUvHdM<NW8#!BZCvxdkTbX+6;B4>jaE
zC1&$By0q123#WvPZb?D<9j4_%JNExgaK7+Y_q1UA{g0(qOWKy3l{}Jrw@=ZpZ{~}q
zOLl*c4KZR|o@&YT^}Y0*_3y)aecZGkXL8@Dakj8Bw#Z+aY^lKGyT5ZChveVb2O(V?
z8ke@0+&uEfP`SWun)0&;4V~YPcrIMrr}h5Y2df<igayK*s(x}?oc~yOVav`?i^F0T
z+NTAL3#M$;;Ja*lcjL1U`x+LfuxoG_#cq0M<)x8y{BW?{C1=wt?m3g6c34`RPp`A{
z^w}BxvZGT>bxQNK(D{-wx$=uE^Dk$nhs0`EGMqbIbc97lR`uescUxQ^&AO!XR3m8F
zV!gj6vZ`|){Ad=N^)7rntKOQ|#Si^fnZ7l?!#ZWtg{mpt^Y2;O<hnlGZOwfAG3T7e
zcW3E$Sg&N;W#w`${of419Xr;YkA0x=XTb@dX$F!qk8G+oHZ4l9kXL<|YHJ_L^_rt$
zU$$!hfw`}L#qhp+A`&Nas3a}J#{QP_7WFA7-^;w^IR5+jg4OZT$>j%bCdba-eQ>Av
z)9}!r&Y}f!?wqbuN_GYvs>tQo_xhYfrlBVL<>&`jcG-omj|r%F`a+}l+H46fi)tog
z+m{_x^;|PG9@<yl-6j1<&|>ep^H(46#4mb!`BWb7ipEg&s9$?$<(Zz1<=&;tvzIUW
z!I@ol;my_-j=gf$2J<XeJ^7UQyXawP-A8GMKn>kZWp?lO7MI1&U)?8kYn?^z?sC0P
zccYemi;wAhpz+@2<ptS;Z}t{%;y?KJj&#hLuyeApitWZSQ9e&LPr0kn)psd>kxWzk
zQICi523yWvfAC0R&KqZ+gFB}e&2he<?N&bZlK75h;c%}_1&@~<m&*8F5X)1VRQ2%>
zIHUd+;4Wx0{<rMZk<8a8bsHv&1#8b;ug^81(suQZO6ECloX;GneRv^*Z&&tHjqR`A
zT@#KKa@aO+)3M<FmCw~4q{t_IJeRp|(^SWEi%y-o*jrt)(`>o(oYk7r&IYg68QC&E
zPmxbzJXajz)E`>u%&*%R{J6<<UCh7b7dDrjTfMgYoaV&seg`GF<Si!$p3CGqyPoBE
zQDeK<*$A%5>!vRDVgAl}H|~qninZnEGAC|dcW)<i?7COme6-!o8+gJR&K4EVeaBO6
zRsUw~oHx!LZ(ip(EnD2(61?83NVDC+YWC-Ao9l0_PWUX-Jh`?*bjRZAx|K^$-u?4w
z$7O%{^})rp>OmSl0{2`F2^VbQ-^d{T<0%){b&bFIOyY5~Dml;EdA^vFb?zB&!6tq~
z*5`4@4Oc8%EYQBYA<uMILTRL>@5S972h9(hv^yd)=Un;DGO6d&K0e*ZrlxQqZGrtp
zv$<zqL}^_9=4W=`==#*!b!_Gu>JOU?_?EA=dy!{+?<G^8FrSyWtm}e>nvJ!5?_#b$
z&nhtFFgg~#Dx&(fDF4QD^ODts{jK)Ay_Wp-`1MV8<@cV;*lK?4O3xAe=rB8E@gCjT
z@1&tAbCJ<gt}lU)EPZc_MkYAqYqnj=U;6&CXRLg^^n)+E?8=*i^=-WhUW7i$o!Px{
zXLiTrBi&Zt*eo`KQtYC&!mDaH{PpU7{nNa)LHfZOp34W<?m5tCQ#ikvO*-IWbEwFk
zyEnx%4AM=e<nDC3yWq8Uf&Tpk@4C8f^6Kp{`+id1nCW@S3_JGpO4S#CFS3d5YI$3e
z+5Z0WDlPx+7u*)_)l#psKiI=_IsJh~YUkpq*71FhOZ+X%bzHQsINI__aQ|!ET*x0Y
zA@LWB%!P$dxvM5!s)&}Dy^P;_#{<vTnMq%+w{^%YV}H)GH~HNiCh^o6cJ*rxry1;x
ziQzC1Sy3UNe(8O0Lf(U|`d7B<7A)tvEdE|*`mboQ8Owx^edK%`z`tSU7pDh&H{VzC
z=}nP-G<oV{>3f$}HST@Mwd29>M+@sM*S+ZfwU+<DROv^$7G9A&-{xD|N?po~uFLjK
zteXD4VCDUS2QeHG(GQB`ALZLKm}|_g&u$Jo`**|pB9^DCWYhxAIePCdJ;yrJc}q*s
zlx)2M#;KW4U+gs6wMEe(FuQ5-m&+cf3WP&+r;1vbvZ)t$XzuXXuG+P~QAq2Qi+6~S
z@YK$@Bg`wC&bo7|rf%}u$msV>fV)7WYkrAzU{Udk>ZfNeim%z3eemj@d9oiF=A2Pn
z_Tb$0hVN_zUncCn%XO)x=N>2ly37vIj@?^)$94VcJv-fl%y~~In{MgMcFWvbRO32-
z$6G(E6|w(j2wL21pV9dE?Jd_snpzLvR+)ePc=#Ku8s7}7<;M%fw}BF}%$$1HFSiPI
zMptdpYqpMWe|^yMmVnIE3&LAVgm%jo1b$Oo)_-;XjD%WN)o)D8e{>|?syU(SEApAo
zk@XIPI;bEiE14pYmbQIMx%Q7QE2Az?{w>!qxwhk~^>iuuE%7hEa9C;;>aX4TaKXiA
zMms}z3Su11-dW5IGs|l<KK(0ZbF}}u2GP8?rbPut)=leHG6%E$oNHXWZX4q{z1PKO
zlWqI-<k)uv*7D6b{&uPRgB1BiXZKCXG-F9pKK0v@?Udr>k6tH3q;nQ|9XxWkD{qsA
z+$zIP%TsnonC?vccaqngnQ`vNS0cVbdy2d6@9c=<ybcb$BTRQriU$eTDa^av&SAgr
z#~km&Iwi8%@25mwZ%GFgZ)|+#`=1@nDAR88)z6BRlrdjyrS(o3R4Bw+a$Rok59K%b
zoHy0x^799NH``}4ZJrWhEpnN8u3CxejZdd`-q?J=ZSQ1WkaAY{?1MGzA-B&JZBN>6
z<uaut;=)X~)hVa_UmM>33W}YGHFGAduc&*@7Op2TZ<6$G#&bHai?6mlcwzR*+fQ)E
zsg<^R|0YLD9h)WbMex-5TZNo&1TA*2Id9q@dQvOD?)i*OH-pSI4ssTq%4ePveeJnc
zLBjju1$8nd`;HY&xnRBgw;juLsrsL%ewJostaiTP!d5<g!DVar*$?x6rR5px?Pk7t
zo%2{gNh!O!N|F3qS^xUx_Zg<omd#I`D|JgtEAY=N_g#*fe5WpZPYId7CtB0wVhr<d
zE&DuH%N*vInB{HX_9_1HF4pnk=e)D8X3B#2<3}pFuGrchj=AZw>1?~%-F0%-Y20^q
z`tjzLI`i}k$<!-Fo_LUQ?4yLt-p#LPZCHJ8=Y{(p?$1(6JQtmrFK0Ky>Ho0}vl2=~
z3ihoGZ#S+#!!al7dP{Zz`}}lKZsSJjC1UX!6>Ki`Q#M{oP50l+>bE}o(7MX!Rc?Iu
zc3$v5voNRqt@HXcKfP@SW|sQi2;F_PfNx^Fr99UT#oM9>xuTLvwpJA|zY(+8y^hmd
z`}vI2X1h7OhVR3?wz9X%L|Iy&R+MWfem$#zxsP2*WNH1aoj!LJ3YO=rS=MU(bxFcs
zhB@)qTVhM69J$CV81MGoP=jk;Sx{dEgWj6#Lsw6=+PEfgO2>Yyd}?5DXZuBAoAZLQ
zpWmL-Ehvl?E(<*&67RL?$A+Sb##g?zT_}swu4H%@BY$XL)tbe-n8VlXl#%ES)B7w`
z;Xdcg7mc|)x#oCx>g^I1NuB#MneD+TpRaEO_DNpbvA=0f#gjj27iL_p@|#o7;J23l
zVfE8984ej@Iay~y9?J(E>o_ZBvDdC8yC8Pcbm6+Rt3R8~+BQ|L;Or0e)tb$JVCGlF
zH?ND&WxNYw^NRQs!uEaN4);4Pl@XR|5B?oGo^`!_!+O2C_TL^qFSooBaC?6#?n`qJ
z)8VuFpXc!w<kfQg{x#=uX8e|28gUwv6kaeSgv(`=X=UdZFfKK8{XeBc@V{<BT`kA&
zSC5YOExFy@x31x<#)ChG35^SP_c5Oh)G1dgxyK}at-WAtk;ZK0nk(()s(&8byPn`-
z`?sWeeojMo?6<2SX3nL~7gEnP3G7(nv*K0pDluyhf6?UiUjx2M7dW?V)iS<nf3Gq4
z#jm0_{{9o=Ht*i_GAL+5q;RSnQz2)#ljy0{S==!*SJv$=N;u*fRrGG+7v48Lz4wnE
zk+<7^V5Q#gSxuj9UQ25f_k~t#CcXUd>hkfMF_Mp;OC3#l$!4L;_fXTq#(tgeb(?&f
zYr!8kurXB}KY6INuf13#!tLAHKqJQVBZ@Y61)g{Nv9?$>zB|3bn5*uklK8<L$L3`p
zx*_mja?dG2{sWPP9Qp@%(_DZ4$|`ED`Pe*7HSQ>HL1ogrRp)gN%nS^1dU*Ur8-tB}
z{mZ<wb6>5tGq->K;_UOPge%XMxK~d-ux5&2QqC8>u44z-EN-q$>)kIMv*z4RjphaG
z?>u=f72*8!NOG#%IgNv!y!l+dkt<F=?U!tvJolBPh1_ME9j8OR!xt{EEDG~gUuSx4
z>XKRWR&DoPS;#!+O^AOupUA~mHr}@cGgJ8PNSFTdV9dABFA!TF^D;AU?VO2oU%fna
zvCrbTaB*{%mC`av(eI2FH&@PECv$&l%<kh4MGr?F*!eGvd57lVUto!*%_6lWT3J4G
z+-EG;-5VY#zAgLnQbnQ7tbKOPOgrw!wto<rQ*Ak~N7$U@-p+Sn&KBttq?+nHxZjzF
zpX>6d*jTjg`h4g9dXwY*%xvL$eeqWA=QgnWm92{8|Hf7xw%hbe@gIir0^|KJ=N6n$
zSw3^Uor}KqiZ+|X(6m+cdzg>Ei8}oM#jdcXX%hE;zs(R`B{*r_2F7*4?`E&Rqp<4F
zya|8z@7Qg(YMDLLb<OW*!}zA`c-NM2&qiLAQ8euF)SU-d{c4ovTAebTd~kmA>nXp*
z`oF%=uRG%?cQ=ENy+m!>CCl>%BX6#p*VL_FFwwt8#I^C=tV>s#yP0nUNv=yO$!Q2y
zx-q9|@#+U6RgRG^y_;`3Y~Rg$Zt8AP=CX=4A})b1ir=k`N!$JJ3+IlyA7*DCa7Y~y
z4>wabxV-d~R80AXpB!`Mw9ja2F7uwg;L)7o_KauZB_~#C1~GoU_@?pnX94@w<q!7d
znAc5IfA&j~@7&&3mv(o8`<|QY*v~m$TB>zER&nw}&r0t=xw#qPL2nOivC@CJVXgCx
zQ+}nZ7cF}~k$K(A$GqW+OIL8p2+7nvmwFh<<>FA{*3;uRWz}=Vq*IEovUbTCtqGmE
z^4~{Bi_^tvkJ=XW=eTHpzT35H?uzEThRJhZX<GDHRLGtFz#i){ebLp%d;c$*ZMb}E
zWntD222gT3$l7y6er^N*k*mKvW{CH-$Gz;aY`T`n9y4?0JPsqXe$xWuC5ciWl4YkH
z5IFzw#KDYruZs(Qw$0!$y7!>qJ-b~?v}#(b<ecDhA;sEU)wd&~0=Y!D$z_9eUwePY
za+1<tw<*_6g?H{c+x0Z`U=H(~l-+t^=Qh35S?l^m?}c}Lp2qg0O4^T$jxZP8JrZ-c
z%r*C8mzRmY;L!<N42xFUuay<wE%i^-OVwsU!=brW+N>;0(;taWNO{Tm;n<<$JqJpK
zi;W8y*>4?8RXg=3m(PBmGOKp;>+WkaXUB^y4~R(5dUXtB@EsnRSwEcu`5rLMJ-fA}
zMN2z9P)qY+LwEFpU7b6Bo+|wl+HiRHQD(sxb1!gLHopEekGJ6NkvlSTB-hLAk8zqM
zvodi_*UR#(9~?2}hUWEa(k|#9w+`>-O-p2%aQK39pOleFsm*tmJEp;F?=^QbU({a{
z<9+Ll_VWw8`|4}5pPush+F}vk$Si92rGM%=rj@fMO+PpP+nb#)`ww_N-M1}lQFeWY
zVyC6b+Hy^2=6NeGv_>{cZ~7HFbLG4#vC;*ypTBpPujWe1(@&gzf9?F{$){?A3j}%}
zIeNJ46X|=t_{hbz$L4S@-MZZR(X;cdoEKj)T5Q+Z9rl2YDT*`ZNy)S%rc=px9_r^z
zy10?iPwTs`-0OpHmUvB4w+)-O)$+iRuO%kW6O0$!z2H_a{ov51H&Knvw=DL%^?I<#
zX}eE7#@3V;Tld_?_Uer+@4SZY)0?tCpWB#mN;WqwC-H)^Ur<$7@tqTXg4O+BW2VLC
z7q}&z?l;}@<z$GTxAftcJ{m`7bek-z<kR!mroG$X?gO8#MQU7yUJaWM3$s<eUZW-x
z>?^@%a*?Ia@9TtrYft%n?Js}e^Q|#}!*0vYAm@;o7Ac=fn4;@HKj-LPDY9YP0ncr(
zW#)M9WLkFS!Nf_DmL<PFZfCxmp|xsuSN4pB*)JctZjsy$QuJt}+?td9g@RuEUYu`4
zgA{m{GB3VTI5BQnZ3p`UmD{EJiWD{b7nW26eR}gL`0B|T7Bc~X-#dO3`<+e6uwxIu
zvF?@a4wETvmJweJ=k3ekIRAXkp$)okdv~j?u~gXcRnP2z=-2$eY%+NrflZ5xufKGd
z_~^^6X;Zn^O!A+7@YS^0|3G<b`<lAk)w{3qJ=*!~b@bjM#rB!m70#tsRxDldY~!+D
zGGFHIc^13=_?mxt%c|Jc`5a@tQup%lCB>Qxt+Q{gt`L5yw)az*?b#pp?CRE6jSJXS
zp8TBKd`EV!x?-)lX7i=J{*o<>Q{S&%&^(!ci$q{)uKere4|dIbrMM$MYGKOb#`2?V
zyPlm^<XO}w8hT~QM{mZ7yaidYeFfi7%~Wx?l-Hp@b*hubv!i?F>|CdRx~HMz)Cozc
z(uHw<qx(J2q%Nxp>(h9!FEGwmP~WYtXXlUp%7h(zi+*n8i=NegU}mZ1BPMr+h(ojV
zl)aw5w49nadwST*sNfl^&OMh=dU$igG3J6x@=4z!GGES6XG+pmZPt3teu$?<ep}cz
zR;!%i4U&pW%T0v8NI$r<OD53v+LCRh7d#g+@BQ=gX_Gtu{DWsdr0x3I9(&mR!4mr;
zJa;B$%YWI`7*joE*1lTRYW_PcQ-YtrkZqZB^T-|Mg2dQ9jR$-_UWOb?HPsh<cxe`y
z)VtVBlX?C>ktxr4LC)A%bTYQ5&*)aex*YGat|z;GI;MMSe6_q9%xHe#WF^P9y?YOe
z&ik<a<f<mY<uM<&6_^-2R<|m6In{c`Cz%ghdRMJqf8qMiFEi9*Kou5a`;8Mv;`roi
zw~3^g1aeATE1HnUJZI9I4o-^&o7+nim->sS9<7<eVp7(ZIQa>qg(d&Sh@FnroQ)wF
zZSh|3yNm1Wy$a+SCVv(PE?6h;;`hEhD1Z6u%Mn~FN-Ec+r%t<mM#_#s{kdYA^r6dN
zO(i}oTI!vrz$I(3`jBW&*2=K$jOR*sy}Ug2^1{>mIHI34`Ob{hQc0Vm>NGcvIVNp)
z*shnt1^-ITLIi^kMB4q+@}K!9rdFo-vV6m2OPB1ph0a?QYu?Og-(e9G{PV<YiCr%@
zOD_uVzLKo<PP4d!b;kjdzhOs2cO8`3-dO9gGDK5um;0g3#sx<0Ga8(ImrVV9Zu#5O
zOLAYzq!uk}c^M!-t@uIz!I#dUj_+5&Id`YM6khC~A}r#X(LQaO+OZ?Iw9A?2OnQFj
z&BjAatw;L;<5=w<X}|B7_+4nWf$`CkN=3J-pWoPBvQ<&<+_UZHlK-@x3F(QN$=sNy
z{aol>-SZjK6E<8@JN9d?cUH~=tBZS&B{Ni=xcQ_wbF1PbS);jXsXAvfyWePgZZnN_
zo)Y`>x7rPn^*N2v)*PY*_wU%J=FB^1%H{pZy8WiHy0`qFQ>8_Bq(Pm+ZxNiaUSbJF
zPihRVC!5|)S1mby;p|gTCvHZA^(Pk_ZKHV-ayq-OE;}R8HTBx+n7#&;gOaZ@Qn~NU
z*1CL@>37)rMm__%?OxX>I&&|dBw8}bWhaw)O5@ANzEfZBF?abClheC*$BU!#ZYO&m
zp0;nite@Pv_Y~U>^U!6VZwc(G{rLIR%jwdhYYbJ{;yCX{pAc`p&9wYp$jo!E=LWx=
zvRKB>oKJF&<ctN6->(XP5Vdicj#9(pEv)NS8<_^rdbT6nZ)?)T)OW8-m-Pl&SYFSQ
z&Hh^7Yf^M(!o<a);i*zhkK<>#t=7<7uw7?Y;LWSkHfeuZZ&9<p<GS>NU0Rn*p7wq5
z)=kwucO&G)Lh0*;)0WD1ORtXJ+23oI-S~{RAa-izrlJWJUQ6{>+ipwC%XAXkRJUqZ
zgK_fA7w#ba5;8i*mu0;^F0nuN$difB_?$iSrVmR+Ch_dZ+W2Ab@mrxYmub6a%B`Q%
zWPN0Bbm^}Bv!+EPtynncdMA$!Q}`;M_Xl0)FPikgFfg}xGRwS!HLe)}CC;3eleM0I
zoqE>&!J{InzfA3`Dt9T$xH_)jXzMxKw?trJjmlqT^8<5FXMT~EQFE4%N%ZjKuAl96
z!B0i0(fin2#ekAlj!O19)8@Xq|NqZzsX4n2?hHA!N9)?ljk`A5vm7l}U;bdP@)L)2
z;d&b;a51{YW!K5J;>kz8Kc2xk=h1^Ho1D6$a%9ijGN@Z$6)uR_WgIIY=6`DGF_~8k
zIsA!=KTA~(&(_};y;tQOxH0uJnb&L?Z=-0*N2RE_8_#d8oOR;r`$uA+7Ivfa@>$%4
zY>x%DXzNEkX~;Wde&pv)pD#Qy=M>lZeU*v%q%G7sC*MA$WJRm_FXn<x!M3%}bM!C&
zJNjhbV#A(YOLUg=Iq@GjDdW^|`MY)br$DF9GbblIS>`|OQonX0a9_gL)Jp&BcW>5J
zPy9GrQQ5uR_-b*1-j+izS!YjQHuHy7b>3$-i<!=64#@88^*jBrlxO<-hY=^I=dOLd
z>Vw#hyk%89eV4-K^JpZBco<CGl`(PR>=-Hao^n^A6a~R;jDBG=pY@v-8nSf1mtM8%
zPh>9h?<K6MoKLFR5}4=2$*YRH_MV#*=>4nu&E6xM{SIv|VV)ByuX^>=$ye{U7TMev
z)vRe=<?`-&>-5KZhHDK{4t%|qXIdn;NcNh6xbpK8WyeZf170n1UN^Od|I32?KU4z4
zCL9$%ER}ZR#6`Dr&SwrduKx96bNVw*?#_KI?+TnZK6Zcb#O4T7jEsQ5i$~wrIKI26
zU^ivofy{4#k{6Zi*+B*5gA05Q&HuZsb66jIZ(2#c<n@=a3H#O=z7CBBY2}e|?RPsD
zyR7`2QKO4y#Jv}X`WQ5WdZO|hv_A{H(%liL(vz_Ca<gCm)z4qAcJ8ugEI%94|9s!7
z<5|BCE9Q16Un||MEoAqE=Qx|i);Yhk4#+B>PpG<M6XKyR6Laft<blHe9pByRS^T~!
zMwPYfRIS$h_29UaZ%1RCa{RaEX{|e0)=id-lRe}tHbW2G*G=9f?mm^#EyT)v=f3kx
zyvi+nB^F&1w>a&TI`!}eHqZdy`a1_*;{wf&^Q?S)ef7hs59U1XC_gg)x6GV3&N^Xw
zGy6^6aQI|y3M-91e#}x_^=Kw!fWOgx(gsN{2L9TadUDDa6~!8!=e$tXKPw5Ycr54Y
z1@<fZrZ?usEOLK8<(S{AjkTiY2V4uMoC(+a+_cW<$JbL=WzU|u(8_Seu&@|3njy3{
zuOP$1B(}f$f%TWTSq2~1w$J=3W^p}q=D%f}W_Lq3*af|FJs)y8>gbw)QyT^CdV?Hx
zU2}RVSZ}B=G(&f_)s?3mb_^y^Z(n=RptpfzUXK1nw}+R-UK*BMFgCZnlzO~<!*U&&
zc_q=1QYFe_+ttt=_jX1}>&M5(FFechc2>9%^Yze~#~z&8qviT?ib&w4u#}7|CwN(s
zCl~kcJb$n>blJ(|t4hB#mh0Y)-z&lXeC--<^Bw!-8j2synQa?pvUA5t{jbltGUxX3
zJ?^hajbACb^uW5$8&?|D@}280&f_|_C!+Z~i?gup;yuw{FI=0td`_%4>m3I1BbM8l
z$}?uBeSB*=;r^0xzoi@AzO%}0(5~&+uI+xaIKSbzx42Js`h<(D?|vLfh}>Gk9W!%A
z_3ok_y4Ix&b#@ERzAP4hfh+y(9|@889Ba^s&sCMkhT>Yz$xkKEG_Y`Q4+jmmF27{?
z{j+qz6eg+L1%@$<*IDy^Y!bQp*@{2L!=C;6Q-R#-llRSCgj5zEcNZ_R=q^=AJzpdv
z9RG0XkBw{^@|l16?o6m$v3uq#Ns9>=f2j3u;0g0O&g56@YrmQ!Rq&+#{rLvc4|d5U
zv7O`D8aq*^fY*4@y_ZgMlM_mkLduzAraPZGs4Cmr{XX;n@7<UKOv0gEyalm*hK$SG
zSth;z&=un=6qOKRp?aeXYzh;fN=e?yfKOQqb0?U$)NkD~=}&~Lo^{`n0OP>AeCH`L
zkD7TMpR?~TZp#Z7_6lK2wt08;%9=Xk1^oF9lZ~%B7j#@Ie)+E_>SB@1QkjR*n~JXO
zb~yS*<QDV!gHva|ij@AF7Loj6wY}FX{SeE~Z4GN!r$1LHc9nj4m)DSS`L)(L0dK>e
z*X|ax^eK<sa46C0d$jTm!IJu`6ASX+XCKSCZWL^*{p8MrwlDAB2Od>xoUIjQ%dmak
zjO+uFbvt=nZeJ;k|Fg01)42z1MfTDUt_c^5TJ$w7G3Men@>;%|Wu4`-S>^AF3to5b
z<eKAr`|+N;y(N`v=FN_u_UZ3~oIRheop^u8VfstP9bb>!;pJnD3N78CV-nG@E_lnM
zw$)j+SIrKrRe!c>>fzQS(;2yDPY~6=;O1#6b=BB^5<AE)UW?;zKOGC5_t=teW=3()
zibsd1ZfAQZRmQcn|G>#k%R-KLo@{1OMZ0GOJhP3?waX^%NV@y&N8*(u(n$_gFKwTl
znQ=ts>5)4;cc!27UDwvl)_SQ?+j9NpH|z2nf?p?Wj<PhL#gir)pn9~((&zb+&}go|
zb5@qllxv8#=D7Oc){BiHGZSvLce;yDNw=Q9spxLXBQ^_5Lv!Zko70y~SjhO*?b?_9
z5vLa_AIt;kxclHi!E6qWikgGsKSNGjE?{R*{&{2bpUXMlLmm05AKbCJvF5;1GlivV
zrf>_1L?8Hh<woYyZ3R!wT#o7%)XC<A>9OBj?EWTfuISn&AKrKucUOd@{*sA_V4r>U
zRA$=it(zwByxXvRPX5ur)4hy49IM`R>lPHs=G>dKHz9G^{i<xc51vLBs*dv}?mRJN
z?}R@)+04_viqC%)xuLRgbCYH1)B`okJ=)e!)|=AFc<(tVW2tLDpIl`vt0FQ{e4BRm
zM6bmsSoF6YJjG_QmCr1{V8Oi)NAGhiIXt<AU1hc7HT^!XWp6szA1rCUATme#<b?+-
z<=Ad-nkpLe(Mztu_;tc&p&QG#H1ytFa$wtYL6;ZK7d^w10;*O7ZLDFQ6U#o^+=8nq
zB7b$@!DMbW%LlFcx7N-ns93$GE9cWD#&c_%&q~dCsrsv6d!LQxm5b`B(hvR=X`Ge&
zel$PkamJkUI~iQ3Z~koBGP~tN|DFR&7xLe_eb3>8ZT%UJm<Yb5cOQssIrcN-LxOJf
z)a*kO7frn&my!8Yr2MY-<O#e5L4T{+)(JdnICp8DM$++;GmZzA&$IJ>AhZ3H#?M8?
z$4yl?oImLK^}XSa#aCh$2BtEnURWCTX!EWK8w#BdX`D#xKREN;@?E8CnP#srX`ZYf
zVqG&^E<5)4&d$%lVf9s|h9=IE=9jfU8Y+X@B8<mveXo0dd$e)hM*WDz0tc#pyC};)
z{0(l|tew-8x?x4#6!zP<Wt$?DK;y`pf^B1Weyq_x^UU(2;c|EF{Zi4>WE*%3HU;mk
zSi^iW?uV3?m`eATD(zy~Ls2|_yL3Tzu%=(Q#A5b7V`|7Xo0f0x@1M^rJK~b^fYCx<
zXpW@CyG*&bDU)w_1xq<T;XT-_F7{uf*yQ=0=MN5Dn!BDY{e|B1EmDu4E|osickIl{
z{YzJWN}hVpR{FuCOLNy(ty!n<xP0pCC#IK9WiGpY(}R0O$c@_qn@(LRGF!XOtmV1z
zV$H_Fl_>>>7VJFdxYyOkKeE2|+}C8ivJ<}MbN#=v$Ru*V(X3ZuYKltmEO_(!iP^3s
z*8g`d9r>WUT!8ucZT1H#Q!{rJsr4V5da_;n#uKlN2mT!W>^)~!ln*1=i78Vvx%kX1
zYNCTG-1<N4_!M^bim6L}j#$Wo(i!FlPHJ6#vvJn-iL-ttO=5{+pF98e^eo$_(i0om
zA9zjm+{@VR=n=OgY~}OW>U(Z&`WbHLm9)Fl{J>P{B%lB54)%JySTU7n^~-6CgudzQ
z1+|7f^)AcAOtR7GIqP)yK<EX_<(qV0R2cmbw6HY1&UHR2_-)wiEqqL`_S~A*BOhs+
zV9w`c(;Mgc)qL-IM-`hV%Vrw||9z}$af&flIWu&_&cI{-k`~7e&LmrHsT5x3f8b>2
zPELyqH(tKPb3d|=q{=CsbLX>TU;gySokttlB3Ju72+C4?RlGs9y>8Vfv9E`hRs68D
zP(8QvX!6z=k&Cmm4@J6lOzxO0uW;-2HkbEb#m_k0SGg)&5H+W`dusQ}?AC`SPm}7N
zKhoZ`!C!UfoO?T!eR>wkHB1&R-duj}#NPxi3sKi<1N*S@9v^Y}#>v9PZ!P9;4YhH<
zc<EsN#Y6>}fP0p2cl)I~g|B|H=Jty+kN;*-erJ3S{uH0Pv|U0V>9s@Nq>2@*=C$uP
z;a^*#dY?gE{h8PUrsKIQ>gQVI?>}{EsaQ<0S@6BdSzXM@E7%`AIdVrNW&v|AfA3`D
zie&wQ^fw$!s~pU4g7m39c(CzEtM6mmKM}qwr_Pw?HCIl%U#LHZPp-jw`r++oPw{4}
zR@FEk*!^65f3ch2nYD7+`Y#XdYfC%us@?d?ktNR=Ew<Wu#cWj!(LdFHcNWXvL!9qF
z9$wPTd~eepd7FQ_=dKFnFD}kIQD%B{c~#kzD-W!m<@*)fiu}pa_b55K_VT`+ifRv3
zre`wheVBcp$3OXL$rW3R9iDUUST3vYs*1ijr(tr;GFFSTZ#dXli{?sN-dNl9JW?k2
znM7aBpM$MamiBA(ve<vG5H|8X;Hh_6<W9qdxlO*+U%pzFtu<QP{glmOznxcB-mi=w
z(`HJaVb4pmD3Lq0w1-)!CHL5W%N-l+yk1Scyr#Z7YeJ!OVk4`-hK94xHyEv-bL@ns
zwu;m8V|z|2sy#?q9+eWm&+561u$<Pm$~^s(Gb<7fACcMiIzb~hBvq=&%y;I>d7?#s
zYHNFoIgH;qXIP2V-YvMx7@oGuKGO0iYuh%BL+K|ICb?XW%~7j5G`~6cwUZyOUctHx
z5sQ|xwC8hN2{<#6wWego?NB>V4=uPrJ$9PyZr1am-=8h{5>h%t_R#!h<M`7~e!S;C
zudrDb`ts%6pK~rNOqsXozL&Jp);{(&P5uKn*QY8jXG`BXA!_FFCo5X)*Is(&+ke$}
z{rd9<r}}-JJ=OVWT0+8!&}D*$qi%OT{R=7&|IWVuuas9Wr2KUu4_~6OiOI1x2Q^Pc
zxx1P7?#+GmjoZEG-wZ(u(9A-!yMnq!AZxa-Wb`)YU)z_xO}?mH*5?#*{_a;$acIlf
z9x?fF&ouR(sn-4%3l6-ubyy&Mu~iN<*K;&EH2tmp%2TIU?^<v!xxYHCF5dq@somAh
zQ;m17zNK}BDdzZ2-SedpsZ}g~o$DUT#1sYc2rfIlC2{@nTWp7ZKH}f$6}{9@`oWeL
zQhxHQT@}9y7>B%UdeN#|GDEV~jw$`x&G0q%EafF+SRFRxoqRv1?Sjno00X_mQ(q=E
zKDX5iZ{}FNDreIL=b)IaCz^M*r?sDP4o+K@elvWH-oHkDRsYOSbAnFy9q8MTeDa?9
zgF9BgcO7&+xbAHE>Z(l5mqF9?jx?@+s9aDtxAy7-zH3SAI2__L=lJ*a)O<|i-7qis
z%MMwq_tpKTYc{WcHrIIW4#o8{_I4MZuF;y~yEwh6r~kmw(r==xUuTybX1;qfqNZN7
z#6zLqWp~;0d)DRaHm|R8?%`Qk*>}IZ*D^)@X0U;@%-e>~lTNEREt`F(J!A6J`3sLq
z`z(B4zqumx@>k#elAAks97sCT9HE-x)w*TdcT<(`Gam)pp5CVySia|HdqQGes;9ud
zYZ@iNifI=WnSZJpSgm=Qvf>+09fM!d%rI?pfzAcKZ!Ar7yb~Orhn#+KgF$_#k8y#-
zJh^LM3Xd5)JiYMd%#*bhD^~PuytnWhZ~A9Oi<7Cd?83fs)ooBb7hYs9uvh;;cZ_b}
z#aD+{=@#V8t-br;0`D{D8Q<n#I~8w!<b?Fy2MrG^_(UgOYyHA#vGT1|?HUL5AFE$3
zY-^O$y}$O3(!N%2b5QAf^i(O=!AIQo!EO1bwr@LA-ZK|$I(0?J>u#W|>MV5`o>xB=
zpWWcl%3|)4y1RCkuG#K{&lRfT5mxaT!L28rmYb_hsftXU)sVc?WLd_G$@i+N`h&cM
zjV{){f8y=VBhxcmWqvdFrc)-Y;?>JM+{`}|s~5!X&tsmm#>n^JLI-sVv-p*lEe(#i
z2A!4p;&|{Eqs7WyA7{^h&D&V<{oR8P$4ylYbY6J0wT1b8E~z&a*}UTir~wgFn#^@>
ze^2fmcP<O&+}FF_O$gJoP;B1F=(j3Q=RjmwuqNY9t=}%$mlLneXglg({%lkK0n3>m
z&mY_wr_8R-Gwbl#ZD(HCxNEa9@rEA!C1|m7mmzDrli&Kkj{RR#mc^K?*vuZ<<SV1L
zc=uO`WO|YNuU!*QCEHfqSaylu=Yr04FNIRZZ5OP3<~L40Rm)wlcG{_}(e7PgvrgaM
z|6}gtQ?<ecAHGYhklMURbiU-;T>^4hQbqq%cW*rt^8ZWPQ-xRWF4r|M-wU*9E<DF;
zvgTsjfdJFJt$KU(-On6&D)VT0xwiWQA<IQGbYo7{wgvy|N}3V2F8gnO!)ePSrcPG1
z&qM4t&N4glM4)feiG85Kl)69f)@K!n>k5e<X%OgPVOKTaa#Z@2zf_Wkam{Y7TRxf3
zE>>BID+ei0w@+j73!AC-Kw@s<(=!d0dGTvy!e`!c;=A?2r%xhci5-LbYM<bOZ%0Fg
zrqn8*+oFB2@Xr>`g+^i1gZ96CI?D{yxL~^DvG;HFhiB;pJNy&MIGk6`I{k%V&Kje$
z_jZ1;a+{=ZU*O7{e2$V;=RKP~GsK8ozh3fGspr`1OJBa`t`oeJ*6{0s>zw`jO{OgQ
zF8BJT<^8^ch5nbf<UN16`_5_mjGG#FY&J=>o7rYQvfN=DK2z)Y?USb#-q+%|`?B!%
zHIJutYbN`BWiH4%xuI<PFY|~qvbFP7`IkzZ+gh@?BJV_BLGrmY(Cj3iOn+FZCChYW
zi+tWMwZ6MmW4Mps`QoKh&OGOdk?sM>m0PA<RLyUj{9*3G0P}=O`^9-Re11hUmpyoK
z=J`WM$G~QV#}D#C^-rhn7EJ$KTrlah3FCKOp?ISM*(YncDzkSTd+lc`+}5}8?~mt@
zMpgNqbBvs}FLSyKm$IB~SRtXirX_Rno3(SE82QStZsY!N&_JjD#a2b3^BY%kD(hT4
z!E3L4?)-tTq06e0&fVmS5qjOPpzE6J%xKPIrpR?}`&|c<Rpw45$>*Nk44=8|fy{Xk
zvyT@0i<t!jT7@L8Z_HnGF1g^_i`72P1vB>g7FP?pSiYaD{r*k?Tl>4o6<g9jv+dY-
z%7p3r-U}P#er{*F8?xdJ$P-(to?i;kFsd%S<2&hM@>5IkWp<TQ!e=*qWi9|^DLx<O
zg)Q?|Z)E=5<+9N&!pYI#wR=vZ_A2T8gN+WCWL4jad-+{g@od<{nzMNA)?;sSIkwN?
z$vcpF`fEpY=1c9+<fU0&Zqsv$e|@{eTu^5zdB^73#FIiN68Ei6uJ3heHv<(n+wQ-*
zQ#(cFF#Ao@BU5s7?<JqE<1pLyGRJR~d)%zN6J=Y$?c)&hO=lfHbX{r-(q_CnRbPc;
z_l+6W781WF-C~x0a80gQe24Pv?!a{d3s2;Dr3!y}cu%g~EIZxrmrTs_VB6|7t_?0x
z1{SA8BP^L-XXZv)-r_Ht@zI`X`Ls73Sx+ws*jJ>_T6cP}z*>WBjXB->e>7#p9{6_P
zrK<HJw&_|48hRBK%S6grWcfHWd5&%|d;#vr-WKrc+WL%zeKH5LG9zn|j+Hh0smg!f
zW>mBI`JL%Z*gUCo+saG+g|pfhm232WwfL<id}o^K(M-eU$89Y^(P^vFS0=LRE$eBW
zr=_a%YsayleqrY`(<}-&tX~#xW%TnqbN0YYo3h9sOTI~6ONdfwv|Zcf`m@*ls*4I#
z*3tEB$FB;e=}ddeo;dupw0^`0>Rz+5Km2m5TwT2A!zIJdztm1We19uWwVrv-ml?C0
zjQ>6i;Cs05JL@);*Cv<VB_{4#TkdzdbLY=Ci%I{Zf)Aw#eO~aLwe@uTzUZxMj5;T1
zhV*~+5iVAkeO%(yQTfeBQm4i7Je@n6$7x&q%z#&LU+8X_>oYCm^Tp8j`3pC#n={3n
zCAdU4`=NYj$S0OLYm9UcR9<G!yI|+_x#oN5f%={I)ulnb8MeM4j`Nx>?^s{Qyt?i#
zr@NHn?mbV_Wq-7+UcOcM!U3ud!u#S1=gqKo)L0sRQZ&bFR)0;Qjk)4p8z%Lu`@^LV
z@pXLGh`6n{^4O9Zf#r|bc5LwD)i1C*ZO_$aGws}OGsma<c_JO}$cSYBx;$equi*8S
ziF=Ef>p5N+v1b0Av0<ZJ?t1k<9H3=ougmkE>|L_(Liqz%mtR@kLdIDMA2a&*KY!4Z
zvU{7F?YnEjWjm#H+*Y5vez0fGp)IGh)1yC?KmLBzJ93wz=ykFAujKO&I_B<~F8HYU
z+_uSg<7;Y5(>$a>le}DfWg;=DT!s-|=|wB&&x?QXEOoPD!S<qK@gkhxK(oX=bL!{D
zxc5qIwJcp}l<54yq{@0}C*J|fjZJk7d2bD`ubGo88hAOFHIUEW^s@YEMV_r{@2nC-
z_in6yFvp^0`GZFqlYge|lw9WOCL(a&Mv})>rSfKO!{l8)-BTa0*?F(N(%Itn{$dN|
z2!VIg-0m@i=W+byyW{yh=K2|bA<LLo(-#Fkn_*F7&mhjKoL)EO$n<wMOdAV$pPKD2
z7C8EJ+6=Zv-<fVNpB5Kn_wP)5dM-GHwbJ>-3M1Pv)#Zuvo3)Lv3it1<dg_-G9x38^
za2Ze7rDy};d4FZ*L{*)+`@kW}YS%&bx-~^%CVQD>#nV6wFSZr^c(<m1Qru}?@gpan
z$Aqdr*`K4Xc)8%mHQtx^w|!qZubJDnSj1?y4ZB_#pJvMzp?eJ5zs*>EU~a_D;0zhn
z0^6y=RpPz1ud8w@+59%eE`Lxk<->d5bmu)`c`IZa7k!ve`GW(zzT@4L*xxL9CR+aM
z=WLohu^Bw&&X_l2d()DGMw4!S+4)33s<&hFw&OP$#9f<=nV0WUa%W4Adg&UyL3Yy4
zZH%C>Z!oS^Y(L<5gXyaC*;NxCPEz|miRHIU%*U1UZq$YJPkmQ(ymr!(c~!25%qs6W
z-)nN3nq9?N{w`zRS3!%&)U3|1e=EZK4j(sL>85g~_|MhZ|Bt$RI&4_P^fp9d#+vo|
z_H)`d_=U|(d+=kaw2W%R`Fl&)XH}lLv%+r%Z^5QhTOxKIDA5<rxwW42&POY@2Mu|r
zn10KEGQ~m7s*jeeIW?;+wO+DHzTDkb-T5Wxcf|Sac1+-kT0r`}U$jhdb2Kma^#Bd&
zoomk@JgIeAWX{4prr*j}OQpvvsBrze%C=*}lN_@LeQ|Cb2Q9C6J^axBdz$Oc?-7qD
zZH{~&CJ}l%(s^CO!gmXLy4x>C-4B|!>A_CMytV&&4?fJ^uC?q&zy;YCQo1+AZJLiZ
zhRxINX`K>SQoh4HMy=)yL(IpO|332F(K*Pu{zcC5+%_)p*N1w_UO#_ur6^}76Z>?o
zZy^ij_^V%?-Q#yoJ-s0B8OKjci@h?@>kb@D_6)HX+IFDlNJCZ5U6q+U*)~ku!~W;p
zvs`w_+x>*YcM+e}eCJ+wU*evnvTD|&{3}ZK?AycsuRHKE<Z?K>-r3C;6dKMoztHVj
zSmXcn4nz1VpT`@YrahG@7d!H0l628!%fo`(Z?Wyz`m20%QQ{NhbMsWD*8NuXt@GPE
z-Hu&-r_cW1E6@GdyRPhYVVTuRp0lOfrHW@tIL=gv)t>T8vG5)wqt`l~p0qjZ4(r7k
zOy^$O-AJiOax@3`Z)J|@NlRb)bZ+b2&g!R2R1OvwI2O%(rY#<4v-e6w<>rF<Z>HBT
zt;jRe`p+;&==q(br#>&b_TN|jT2>S2pm1AQ`T^JUm%0|_F-msNTb>lLJ-;D;T*<N~
zJ;R1sUH#duLc4seg2vZ;a)*Py%r325b654((emsgD<k-hs@-_g%kpQ!?7Y)HU;FtF
z1m39WFjT!(Hq~`vkKeM*(%><MIcIai`Nh;C_&H_TO#7VAZC@m5qk68M&kr<sG1D-X
zBPwC<5$SXbtG?_*^P49N7Y7$?_~AF_(klVKqy(Sly{}it*KA$ZcsVfjb8$gYQXbzq
z{&PFeyiPyF$sPW3^_#4pRu^ZS{E#dEsJLMHjvvb(9OAZh(2PC0Z_h$0r#)Tm6Hnis
zy5m-HLF%$9qYtr-pF50I7#r0+Cs}4TOL{N&UG2Js(XaE{B@r35-LDUaO>O<$v(xa1
zZ)*6$@{Nps-QO-T-8o=l?74?i_)E{ZWAS^6+_p>?d*D{fanx*DyUg?ELrcF{f(nZE
z58JF-*dNbeC|9Xmc#TVH$@I<}g>QPl{F!kz9<+FZIo;rWZJBM|wMmDT2dd2RVG_2O
zqG_?ZuWizuwC#2b>NnRJ7gRm!?W>dhd`SAQrHjud-rbCOZ}|h)$5>SR3&~xRn6ane
z1k2XP&5z`M8SiG#d&_^ZAy|1j^H;0$b!S*jUF|(r$u~s*cE0l9(MkOZu{q~mv}c5$
zSgo+wxax>a4b!?GA^shoujXA<E|S-uyIQ*C`wgRPRhcilG`k*e4|{jkXY2Zizw`EP
z@?YUHyJF^PIhIA~B?mMnaduw2B<QPuUb-MT?EmbUucYR9%{%xd(%q(acdKqvM*O;-
zcL8fZerMb9)u)t^{aS|Ajm(=O9N|l^$hV8zx0x=P`T->Mb!$<<zNa0XWvjWgUdWtJ
z^jP<PF2fwhbrqS#ZyTe}hurTMU1z;gyeI8nX7O6?PdvvRM8!RiqzHUs1e^Q)td;Gb
zn3s3b7C!iMt}!fpcYh3L-_=8RikR<IE!%ZZpi#eKm+YeFimS4px@|deLAoA1|FZx8
z+x)D8f42neRvI}fMO7~D3XnXt?&P-hMt2Tax4%xR*#4{T)4Bf0zjuAUO30j-TE--i
zk#TMHqFsy|@8~7_m>&t~{K;r>{cMQ-funIL3_^*@zsz;g)0yw{AJCMX>T}@X!DaWm
zCi3ift5zV=Y;<?Ei~Onv>$KVq_6JXVz9v1rWGP;tcrmr|ZP?MpmiOFWJe}pus2Fwe
z*lh;&^i}E)UT7FrKHL=l^zXTsjjYYJtapA-X`0KvC+&>b4x`|;_Zp3FhV0XFTwb1c
z<VAw@^x``+su|9Co_i)CqxaA8-YFv!n<ai62Mz~J-`qCyC8s^Z^UIdsFVCKOcuk_#
z<Br8g76$i9H|z0D`CZKSu=><5wjBzVvx5uLKM5a~(Vlzo=CtdV6QzGn?Y<$t@!P?~
zbH(|0{xQTP?w+;%fsfX`=rob2(xb&EpYM2j{$ugnfGcthr_GPt-xqBuSM1rl@Ko;1
zsp~GKhkjDde0pid4gJWSkAnYhe;?+zU+1>?w&c^E^?ng|rX8=^u<qv3nA;4~SNquS
zkG5pq#ys6ZW^Y8had?Q)CzXd&g?aAs7EF5k>v1{nj?;UbymxQ=bMB^%q0W<SU+zp!
zS#alhd$QiTGa>&g`28gAE{)>sdACEwsZsha=RyvnS2M+KC>Kn6YsGAC=OvUSw<uhq
z?qldZsUOe%UB0j3*~93!DOUXfgVRgBvrV<7R*4En8-uOv!)AMFmxM)|6<>@7wU4$H
zsd;W)#J`BAQM-I~+n=|Zscnw(e9n58!6wIAdWYAq@AB3@?s?Pn*!*z5Was(avgZ#R
z?aMHY-l=lX`*}xc$Bo#?9V)jkWHcA08h<)*$JSsE<2sG+FHJ3`z446<c9luE(3h>@
zv`O6i_|KeYH}h@7YS(aEe!RE#<h{kcEkAE>l_?Rtam<PPZR2Z!cT<1=DR^=~bpESI
z#pg`yr(6&JJNNO<L<{|zm8`qei)Q4-Pu%)zs@ck<y{w@2dAQ!n<@3bC53c-_VlYoG
zKG=Y9v&hDjf*0A3rMAuBTi?4-4m5t;ecb9()B*;}yKyDr8=_pMv3#^uEM%TDXU6P?
z$EHbQ5>Gh;lRv22hiY#rK9$V7Y2#+bbp<okTIWd1teyDo&GEor0-fi>Zwh*L?py9^
z2ddL1JDsyt__9g#pxU#S#%pAbPnmN0QmeOM`bVB+DoyQIpWOY$G3SZV)~LVxW~r>)
zw@+W0!{?ak!VgO;GYq3mH~szKJF(MP$zJ8$?nlA3vZ}@fE$Vz%_HX@=aP9%ettpj1
z7(gA=0~>R8g+wJ4JoI=xqhh;HNqNxQJ1>4!F`e_!yUa63)~aUl#>s1*n<%<PUJ%c@
z%khZK;%0ls!PduY>LS&rt)IVHpnB{@TAQZst{L`eEbGGWN;DllYQO5nfi11?!%oRv
zTH<nu&8@+<{m4)D2US;lH7$;|UMX{y`5^e9HQ21+zQKB#Wk+tjkTCM>y>yznVDGDA
zEHZmcT4i0Go`;kd9yt4yLuu|^hUdG=K|>s`n9_shFs^NGPVGH)YNM+{?8hy0zD#?u
zsUUXZU#977Em_xe?9y1ymA}6uAQQrR-tpipyEC7B5A3NsrE-e5(PPJ}g!$1AoW7s)
z4L?_GtJ(Bp^%T9sW+kpWeiiuLH(NFN+)W1Y-Q{`Pik`0sb6Q>?^jqgp)XR-hRd+1B
zy!w}HH2)=YN7HH9%Tt;>`#;|fmE@GspPZwRa6P+O_m#<)5Zgocr!Mz!ez<l6G~!(U
zl}%>VODoQ)qDH}$YZNc~GI4zUHR+A*^L3%~n}d@CirDxpg^ych#9sPZHIsS&n~Vq2
zZ4)|{UU{i}_i(lJp;vw{Q#syg>~a41C!lYwcUR^1OLa3YDakjS&bjXOGWFNFi@b&N
zd1u~j5-GS4`&>3LJ9&?8!KBky)UG;)yL)<U&p6!IFm>75q_Z()rdB(fzb>u&=o<0)
zc+UY(y~`{z@~T?0+rC6zo2D7fbZ{mskEABU`C1OMmX<QVFNQ49g=X@NlVg^>Jf-;T
z>E&tn6m0Il{#A4`AmE}c*V;=hypC3Ti{}-GnTCp2G5ZzGOw(R2Ja_lW=!;%D?<}?`
z8~zQt<sE-)Av>4eg5b_+TNyzEE86DVGn>4mnYKuO;pMjQHWYr;-_5d{@!g-OtIwqh
z%<irg_{s4tNqc`zffCax?QnUuLiRb<)4uNHnp5k_*QfDg!I6DF^L^iiC3HJ4x~g1|
z6*+(RearqVD+dlCt9w>)JB}T_RME9Tr>b*G#g18DK5@)><Gkhai-RHU8?1xZ^*KIy
ze92RG+2)F;AuBpnvkRP^Ru*sKH)M1F9dw-KEyL&QElwP5x^nWW0hjpH&WA{cT>f}0
z^ZeF5<<dz^d24qSu9xxI7(Cf!rNG_T`Nk*zILI!jUYYdU@rBH3<3Ee0Mz7Ah@_;Qy
zZC%6C+uiSsZ%qxq*Cm@Mcrj7Vd}efBL-gvrkp8PF(+rM1opL_xLd8?3U4_z@SaLa(
zpSPJESQ~1-ZfbKS>-SIm8zM3UyLshzb^dv@*gYqQ?{km8Q2t60=|gHew!S*X+gE3L
z+j#*?l5FZJ$<{5VI-Gt>reFNv`=)TgoahJFR!N)gm{7CowwYDL!#i%_1?A1j-&o(d
z*lxSBdi%YdkAiIj@9r>XIs7_}w=%DTb8@e?rOEktw!05zNYsOO7OXMas=VZ2*lttK
z^Vg=oFfWch|0TlT+i<Q{zi3|F2HoHnYOf-)Bh;^+j5=(^vvS9|(^{8#?p(L<S^m{T
z^Wet|?gr~@!v1#YJbgVwDopl}KWLz^=IM@w4a=qaGB)!aHaMfr-Ja2RPV4X_t7!0u
z0AISN*pdD9n$_Pwn2I`{aAYWIf4TPSTQQ51WpnMqc&}Tmky$Gc`^ojxr_|YBbw18%
zEck5DUcm(J2lBXiq<(AVv-cOfvT4H4xwBnV{SSC<d(Cv`V6nFPQkHo_KaC8(Z%UtU
z_~~f=j@*h*diQRxecD#ByGX*gI5y;`?UWi{?d4jZm+n2T6>47h=Ucexj;=)6OWN1>
z#CU9VkC8YRz3{F7^Uh_{_4lmg<gYxm?nlV~h~~qYvlsEl2uulUz4OE=>!QE0@ebj&
zjow#lx#vvs{95yLN11=S*jmA*4VrT9va>5E-Z(Uk>Hel@!JJPSN#;>s8RmrCozeI>
zW#Rhuhms~+TVD&_C*Ql@=-<l|2f^cSOnqlhT*~hi_^ZX_<B`tGfB)JsryKl?b7j~1
z<>_6$=gog0a%PDCftQ8Sb8idpP2{>~nd%;RQn|p7W%lOdUN4-qZdQDG5VLVLj|jg(
zXXL_7^2Q6NWGB3M5M!kl{ebKC*Sn`KzVmKM;p;p%Gg<k@&gHQ>UF{C#v$8DGxnl%^
zXI-9p_-4TuX{A%&er;8BC~I{RclWJ!_ng=MBXaG*hb#M}RwwNKR<(uUdEq1%pXilu
zc_-#~bZ@qdwKU)IX<ozQDf1OQ#BK-|1QyM#`+R%<x`RJ|3tW@gvDG>A#@fuB)@vuV
zUD!CKcfB}~FY<KLo-%Wb`Rl@%1r@p?&w)-I@QR5yF3_^Bl=q9?rI&mzCBywloZsJW
z<M6QOT$#si=7LHiON;B7eanuYN))u+74V9$^5up4r9FZ@W~pbyK$9blmy>ub!_5ru
zpGy8yBItBg{k?F4wDfj+CiR^@pUcnPa$L=3mbdtk;+N-2)}}LW94YQUU|Cq}dtl+D
z$?w8a=Pu>hkm2qi(dfN@M$n~Ou@96!`>bZY%kcc@S5tQJ5-G*fsH2C)&ZoDi`V=qW
zz9JRvq0hF;dF{3*Y!)X|e|`1;zm`q>-SJslTKzt(IQ!Cz&+)yCu<uJY)0Q0@4!oH2
zSnIb#Y=*-YF6i*ITujiWCD&!%uG!2nb>Rw*M;e=0r{oo#NJ%&yot_#EnucZLyLw;c
zrg#2zN6TK_2R!w&4_V&Qc$Igib4nrm9Zk?&5l7>t<h3cHo9eUQOXfVdR$Y|Rr5t#4
z2dm%7O|K>HeE+j?-k#{_)*zKXFVqfI8m^SjZM?kcjTP(ko=bcu<S+aVQMvc!b;hb^
z<x^iev`jtTmgRPixxh{3YI4E-xm<?>&wl*A(`<inRnfUxzI8rlUaDH?b@|+xcHA_v
zBKx+#?)&ryD$`faJ;*7#@XHzYxtpfggqN?L)W?|l^oq`nFE{7vKTs@aJ1TDs3Vh=N
z1MB=JUY`_Y+U+ddRL_(uCV)oa&mO3a<e0`Ft+ltr@yTk2&7bBPGcVq}PHN%(Xv>qS
zvzitg%zYogx;^#C1lHO8%}b=Z6e`3YDwnX_-4JUJ>c0mU{1Tm9zJO8x((_%;pIdkS
zoE<K-{BezZ(`Qh>vnD#9WBRS9I~Pa3S}ih_W!<;n2j_a%HTf3D&;FL&p(ONAW=<5}
z{kR7X-?L8YhVvy(deLCJurpfeVdIvsY!-WE_N|rE-utj~ozL=_R>_JA2?wU$^qKH*
z^RGP?vlFfOKU(fMlv=g9$YA=`Od|>R_FXEDHD=5^`);pqI_G<&PrhOE>4&#pZCtj|
z_8BMp8JAs~3T|EBrBdnGnCCX<zs#IyzWdkOH}HM+4&e!YQ_v!E#`)Ur6MA`7@8^C#
z{qXj$jmxGjEQ#K>UinLjux$Lql^Ig3O<_CVGwujVt=eAnO7xtGRJ)7YP8;X1xp7_F
zQ)ky2cHiuub+G@y(Wf8Y^1eGUZ{~}lxe|G2Qp0x@S87aOq_ig~HAL>vW~XB*%y(wn
z9Wh;#_}OEH#I}d4OGS(p3Rt~!?m58g&Q~*Y<-D(o?+nH5&&=bD;r?}MpUIWQuQykM
z^tkZ)&G%Jp-x%1mc!#G``+{<<I9Zvy&&2ZY?d05HUfYr7pm9NTqQy1y&Y7%hZz=XQ
z_2yc<T2Kepy0=K{qH^B;z3XFAt!^{-Uc7m|;>R~ZkS^{y)jJ!X+A1ZQp8BCErYZB%
z?7-fa&UdugixZ}mI4VyPS}c=Ow03`Vz~gwi&?v6w55HZ#_S}yB`!fE*=H{1~`eC+#
zRf#3RiQWAN_r7$#vMzMn+<AHr{#@KKIjum^(Dq8Fh|LZ2i62<*%(io3&U^5aM|A5E
zVLzpx;+>WU*q`%p+`A(nT#)}uVC(luuYU{N4=8zlw`;px>cpaRKT{r`Ui0&o(pSzM
zdCPu1-@j(3&&L&JM;^@e-a4sKz?Sdft}|QA+PV(ERJ{-CtxEn=-@eyd#CuKN-&;l&
zuiY-c=m+hSXNq~V_u~GW+@cCfuWnAy4*i`fah(mc`nKut$)j%%zNwtQUY}b?o-g`?
z*Natpss?A2Hdt%^5ue3(jv2HOoH^Zfow#1XDbB=6e<GrbzvzMlV=XWH%{(eI)!|o%
zsMq-i8jE#vJg5G?)wu0z=ahQxn0<=tmQ-<_<GZZ0%`&0yYwX68+Q%RMR=82apx3da
zimh+a@sPd@mFbmF*=EnswmkGCl{w~O>aT>SeI~coDwYYv=tZ<oKbYd!B4@GdSvjYV
zuS&IigZ0rbmujBslrNdubZYyzr;plK`uI-QY5!m-JN3WJ9qIX5F+tyXFYcDvko7CF
zKVT*IoFwC8Ia9*c$LQ-efwq~NA7PqfUVC%SL(6we795wSo{}hXPQ109(eIu>aDn3O
zfVl!Qjy~{hEc5vNW4%p{^^}E`EPnR{xC<Ijdp^7{&HC~6U4=6)+J(vf^2lPIvqy2+
zg99QjSxhI^{$#9`croeawuP7VLl%ejA2=zU#C7h%%!9slKh!VJtlv6)N4#F8>aKF;
zn+)MrS6|s$oV9(Hmh!|p^8DR}6ZcQ~JxAzmCvU;0wi!*AmD_Bz&)xP@t+(v`$1rD)
zV%mcQ!5gQYlAikIl|Cvc^enPmJ16b6Wyu}>t1BMaF@!%;yth{7@2dm)6Wf2a7rW~`
z;JZH4U^7FL@FbS=2lswlx$j`&9-E6&uP$mebn9%mJ7Z6ReaSoy=?7OXE#KA9e53Hy
z&CAa&pKLd3WL`b>tb5BNo3?_AN4taHRWtbco!KhJ6BypU;psi`Hwp{>)=WLXHmh>y
zjB|~~hgf4@FXPvdcvLXwe7W7#;DW-G^ai>8rp)Km4#+06wm?=G-SO<qD8FT7edv3r
z+82){yf?rTSj_BFF1gO3t6p}Ao?-a4p^fiQ_V!~>%w4QiSG37~WB_$h*WD41;?9Y2
zV4oHAYZ13(Y_#s3k8>JJvw9xfoL@TiC3wb(UA*9qT<*=O-R;a9V~)(q*?3Z)LGQnA
zL6Kb2#%R;mj@n#vOm^_Ty#2tHZ&#b3Q}1I?T3)^*TKvJE1!{Aw*2RckEZM+Xd(v3K
z^Jxv=IoU^fbDKWv8}HycP?qZE_t;@_84LHcJBOxAKbQj2#3Uax<uJQ+%tBYD%`ctQ
zbY!p3(=wmHTM%_;EqB3Nix#a1ZpF@b+~&VnX3vm5?UmETkoE$OMcMNoTk2J8lVxB^
zPhS+ccu%PX$4k&~Y59YMMYgA+C+6^LWL^0A*h6ckTf}bGbDgiVx%_(fi0!aDex~<Z
zsLS$M`nx9v-+KPwPf+X%#^cG;1xl8i-2AzF!r?Y^ffM!%O9Kx0uH3<YfVHqzS8jEZ
zo9Mm73X9{LiguO1KD);wX5G#Sd$$(_#>98?7H%>QSy~kwXH~bm%c7Dky<kd6)U@aa
zr+7b#$t(<Zum8CC-6`4KlZ$$~FCOetF#LQpC!_6>9sBeCrMm*S{o1D)&)p!ad{`ud
zXU^0+uV$Zm#xf^r6?f<ZjXxaC3BpZ!fAgL`pY_f(L?n9g`SS-)$}IZo)_>K<)OGfn
ztHqNIKUtSA^Ky9nT{KhJza^dh-itzur7!oMQA~Rv&@Ug;wwULm%Y-nw?B$bx9bK6?
zDRRA5vh;(hukST2j%#1p!hW;(<D1Gu0vfHI+ZL5yoSWoa!{_%*;PdfQ+mio8%cf2_
z9vS90+pXUC@0M-BuB+KWI!~UGO^$bVH(U{rf8N`?_qiSW_0{$M2P5~n6f3<t-F6^n
z>crnHMzdu+7fyKOGWkhy!QNlrpKQDoYWLACJm#d~gmXJrNPke7xkJW=Vft@@sk<(e
zIR99@y^h5qJ34*Jmk`m(YOD7Cm5F)rOQ837Ov%~6OK0B}-Zb45xVky#)>R(1UFT&L
z9~aCyKYiva`S}gr|J=%d{FrJ~cRM%9=4x~M_0@vgcnf0Xli2vG4(-?{!*xw!h3*Zv
zywhtEYd1X)u<5_X^^0-GI(|du^j|_>!u5<*MNh_j($PL%^=WUzd1bK9cM@_L49jm$
zc`5ey)Po-ljOLG*aAfB{y>m(M6I**nXKKp}Q`<<b4{<vW9(}KI`smlEOf0iYZrm0K
z`dhuV=#Jqh5&Nc_rM%f2e7`m>OqG2c*wt=!@c>)UH2wo$U)?`z`FwS`-{%JA*#BP9
z<+nfW+AQXG{{0-!rAbxurhPr|N_vrbUjN}jyZD+_>6Nc}&+UuJFFd{VaA4Es50`2f
z)`kC{*POjeCH&)t|7&s#k58P!B>&7}TbQ2Q>pfrDp2zil4(r{P$kildaWu+8@bZ~w
zI)|1vJh$L{e|MTa`|@j*uix%%$!R?O(mYoGx)<A2L$jHelX+i*3zVd%Y>NwJINje#
zna#0ZGkdl3g|+4DeuSL=bS>-YjH5kMt(BI=e9CLR;uyX(p?}^?*2ByNWplS*(-uE?
zE!%fmP}Ys+$IX3Pou)X+`n}y-oHuv-y$4LTVTSSZW*?Nv4!iwH`?hn)^7zS8b$sXa
zpMFSQq5p590q3`Dp%@P-4olM|7p`z|T<5*WZGG(FnuYxfty`8q;8C{_`REoR;kD9!
z-<Ayix{bVkQocG_(N)|rZ}=V>TJ*i(v%91d>$A>hQbWdp(wqx_uTDI@Zc9<u`Y?&5
zo4(%>+fl699=~?ZE7i(NhkBnybKbd=`!l&<`5DDqKd(uwp1OF=EcRdPF8QqbV$Qqq
zah&D1YwI38lfE<4NM=f)iFx#+ib+dA<D~3-tl51PtF`p~!*(taQK~rfCgaTUf;#c-
z2TsZ)F`iq!@5k@nl*aot5e631zjNlSN@cEQo&!3Y$KrHWwUMXg^3LYZYZe~*(!H~E
zhV<iapd6gEv5478Gwj^yC~^I{^P=z7gIA?UKa%<Qe8Hk+ljM}|#wcdI)-OnWwB{pt
z?C#*vL~kiQeHp3D{4JYS$sB4sXZd6;3(vfgUePblK^=*@DRb6O?vGZfS~X#YB7<>(
zUuyI{&;I|6J9daL_I^FVsC!89=BW$wrCDZgQS8}sk9)_FxtU+Q9#uS9@OfoigEa4(
z&6@-4@2@I&{Aj+@#b=4pPA`u?aC#nW%PRhmwU*<b@*6EtbF0>KY71vyY?W&W_7=Rr
z6;rXY?#8p($)b0DpWsTqw8p3Zs#E>CFs_>n%a2-akJxGQ<LQ>|R<AC_Es}1!-JDd#
zx$$MoqHhc_=M>eH7KmE#JY+e?EBpIidI8_#zn>mC9D2BSM(HhvaJ6U0lopuo=-|B}
zv-;;jw!9rd6a2(8x2<+LcJQ^$i;wmU&yOhXiQ3ux{Nn6H=?tEVbqyC;rCvU`z&hvg
zt=|VqJ~CR&bl&o&<MWE}zIT3w9GmTmA8|W+z1p%=?M}_bYikdF?J|5m!9t#IrnAq%
z*6@u@D?HB#bF(!Wm$uX}_&pN{F34!(aP&1>?~x+hl*E*K^U+a>xV*3pbs)*^sl_$j
z+n8R8G|l^|dP?RD%emlhrYkw?`PQ8Y@&8e5zGK4P>0SQW>wNrK{wCb#`oH^E&OL_Z
z)Bf!Iwvmr-3$rKx^B`VjcllbLU5tL+i&Gf=41MMQx6g}HWa*B1SoC9=>eIGtmv%Fg
z^4HHF^mIH=d+<l)Y}WosZokFT<JC{Ey>}{K`a##LW4EUk>x=%H-d(!ATA6W*a>a&y
zpFZ7Y2oEv8w^k;tAS9e=v46;^tFuinD`~dQI95Er8ML^^yk%*1`()NG4}&9fvt#vb
zy$ZJE9aYNqoWKq`I%%titK)+x%jYRs9IGciVJbVaBC#YuCgXxKU-JKJF*{a2-Sz>r
zq@UlAl|4~ypQ~n|8)M*7UW09gi@WPjmDMu%eFHVvB9mlz{|D}kd38vv|BCiJ=l?Ql
z9U>=hxW&FGE{OW3nD$`7-uG-bjW7GIYU<r3_j=9uuME(gXs0SxEc-Fz=?BFk>kYF4
zx77MMF1o|8+;xT>Yx<{?SF^rqyX^UM%GBuag4qR)%O`!f&yemi!>)c!yGHY8by>C5
z`AVrv+G7tya&f3VuHip$^K0Ou)yHS?^={k96@70aGq3*Khb-+))#1~X*%E(QKH+RP
z3bwWOD)}0bY;XAeD5t&MYL9x6iyAU&YxkZ4uVG#_k=Z6<-d9)Y50idwQ#kdp?ZmXA
zryJQ$?!U#LZu>0l!2xO6PL~TG)k}jumh%P`)Jf{w{bk#+!_Mnf`MW3FPG<rZUOf4_
zvR||IqvD#RrL*eZ*j_8HopR-Y(B}!)9Ic;sH&2ik<8RD+7W~)JqIgZeP;BfU!=sPq
zEQ&L$+3+dNNpp|=Tfw3r*|@odU)U_RZdq-UzfHS!+scGofzLmL`gdPsvAr*#le28$
zm*+cYZC{Zy&v{$+i<(v94@#0IY>_Kor_r}<+V>fbPs+}p1-V$ZMeIRRzG<`JhsJxX
z8!F#@5Ajlze(>hfx=oDYm)5LsHF#d+EAcbull=OZY87j)`AZkeHy6t;EMehO%+LB6
z6!OF`xp}u-_LFtNrD-)!cZV9xH#;DzcX{{J=AAj0HswtDZE$6Y^&&pGY<IEy4C2$u
zrixosu>CHX642oF{@ULN{;<a$yIrQw+Ta#aWVXvr`T^JN(Des5h6b#kIC-9SI8)v$
z-#E*#<qL~@Hq4)`tv>a4-S=SMKx_SNtLLTsQQR%xF@ZDt`K@KY7X{by-CVa2QYd>K
zx#(Z!{G#jk+PB+3M(o^G`(v`+<QoNM_Uy}#Semo4$BC;OB?M&$Us)KC^4|NXgnH6E
zP1R$Lj%lgfbHtwCVY>5Tj&u3ka_wVl7V}rCi9gu$AUVGQd<X`I_mAsN6>n0`F8LE<
zx>;@3MVV<%b2Pr&GEC3!h~LZlyiHL*m*a5K&RZ82I)-0kU6;&~(@=ccaQfxY>(d`e
z?kF>w5xHSoa)hz!fvr4uX9wK6s((&#p~;k)ujKO&$W~hY3`#S;Zhie}!_%Fcwz9pw
z+FW-dr*ZPD`@#itZY^JM<Zyw_lb<O$9TWEoN_5T%4gPeJb+T?j(BEplcTXl}ab-=6
zxh*8E`NCu#?@@!q&3`tqzq-$V!1L>S%N-L=d2YEO(SBm3ZU5eHR=pBknX@)W_isHD
z;(shAuYk+1e2%So*o8ka*^!~)2G*7y+Zp|IkH_Q{T*!JlX+z@|LD_ZxnAEqYGF`vP
zm(y_hwBhusr*BStnipAW8^|8hwRql{z~~20e717TtoeE_wehWoA={lU?yib&hov59
zo~k>~s`s=<@J~{ed<<w6yJfH~v-`>L)9l-xt~3jbn;Eyr;%+hX?&r(wA=9)sqLo80
zYu59ppJ)k^+4kqz<$R`}s{Waaf^}ammj+GrvdFwSUi<mf%uPk}q`B3XNe7%dsr_8@
zuatI_Ey#rD{iYx8bZN{E4k)^&6!SFf@C@$a*;C8boZZ6ecP`}oftTUICi_zq3qO80
zwum{wnGD)Lcdqo?)rQ9xo0xCqZtLke;MmbV%cteD@nqwVxja8R3m1Vmf$99-b)ZrF
zNND&iF*`Z&PRl-)zdL%*<?d;`bB(zmcIwK&qqf?U<tA%i7ICqXKb2y>?#JS)d#m;o
zpOo$SCpks#Q($%BW#QC^Mzc=H8#947oPLO2>wkQMbENI`0|v*=Yp1`AbJad6S`fI(
zET`f1Dxc&6V{W!7lYh)DX5@d>BVOvfIqlwqxz!BoRvY<-@xAw2J^Aa@`Kx6Et{toj
zG=6v!yi@h&sm$9iraX;wZW7zM?8SkbN4#R+&k;3dkOu93EqNN`x@2Wx&C*|5uczLb
z`tr|~$mFF$Ew>rMZ>-BVZ>iJFt9H>5{JXq5+N$pPnom={q&~H~79lvRQu@K8AoIP9
z*R7VM73@=I`TRXlCo#C?$VtxV2Y!wY5e<tqCf?umWLL#kJ@#T}8{3Di4xhoxKNii7
zYji%^n|$M1Fk9p78`I)7BW9j;wqaO4ZP!b4i&KhjzCt}8Pp8#2F0VN9WR~<T2K7+$
zy05Qi{i{7@opQ<Z>WzjN@5D=`&OIrMW;z_d`E7;F#J<y6`@YIt+V2cnc*GX-YR2p*
zd_L+QR_YfhpLI@?D+=n3+8vZ=+iS<H9%`QUU_(i!{RRE+C09}lq$V$2K4(U-x~u96
z)1(h(TR`U`2bCs&i+DMm>-H+9cTXfb4)N#5oVY$+P34Z{3FrU5C%#yM)`rJg`hD}u
zbZfhOtu!j=PmJyPGk2Fh;sr06J?A9w^-b0EvKN_+&u^V;&u{F0^lMhr;uQby|Kw^u
zetu)JH_67Rrg3)RW%&l{-GY}iEzS#t3SM=vxx@5M=1jo_&r3J?Y}muoR;?Di#A)&6
z^v-MX*%8aT_b<O{c(-(s*iVK#vt=Ib;ZK~Ju~y>qQiI1kv@XwjT{e}^`Oveb4UExe
zw$Dq>tE!poJm+fQqs#V@ijP8D8yb>2IqW|y4O}K0on_1LU9Ejb#NUFzH$l7f*X8Uw
z=%aU_Rm*8x^n-g(1Vnc{F>IQd&sFia@afvcP3mqQ=V$tSc@C0FFRfkbx$d&O;NHWN
z9yrAGDw|gyIZ}T{J3WA@W95rmFN|vW-udzs?kz5HRAI80kh-?%g$vv9e<5o>nm0eb
zcEHwlBO^$@adUFH9nXHAKZ*uUtJ0c!<~LVQcAj(gYwGT9`Mvt<Ze%<$J|-UT+{1Rh
zWTqYaceVBv2QB4#yO#%kQJZRfct2m+-wuhCuOD~3y#K~FywlQ#y?ozE#jJvfv!|3y
za`|=Q(4)h5jD!WGoRs+Q7o{=YKYO7<AME872Y)`PoNs!M>!`ps_qPh!RjZz#$^8jx
z0h;I-l*ZgCah-ihru4W*?d<-ZZPJsb>lp>Bmv5M!TLLPfK*t&={(ZEtV!{)hTYp*a
z98}$)w0fyt!E%k;xecK6sOOxVo@yidbh(zf%#W<2#jB!Bf9~|U+QthyyQFb*hpDAQ
zw)AS7?6dOW{htNRmU(Ka1syTJ(yIwRFkxo+lg$f%INi*C%A`FlJoWQ>^OX;uKk(vP
zc&|xVthl_oGrdUDV9{^ysY`SkKAlk!*%h5^%<+>U=A|=_<!s&^6I7na#+1MKd;Y<a
zmv2nB-AV0{1`Wk$W@`1M+}UmV*1qbn#VcQpD*<`jkDN*mW!&FWoW-IyZRRUO>qTto
zMKcsv`J5F$vi*}i>$|+<llRykT<Ma%*yNq9cxoN{jO_L`oY}Xdr{;h*dr4Z{TKgxY
z`&szTAL>QXQ>JX(`Sd`~8_-6Ss6EAYXLl-8FFUWRV{lYCE<O5HI}?*fji6iVGSiE7
z4C{&&=QcF^C!X3Twa}=n_~q688<iia_|!9;TYE$B>#2i``4N2{K6k{7H~iI)u-u>I
z9`Zng&8t%TF0aUS(QVpXmV1*bXElp_nl1gH>gm4!Va>ben#OIMEaxq))bpnI%^mqg
z%kw@Q?>X@GRBduW{Dg%smrb9s`K0kHwlk)?9yv3L8~%{8on-W0Dt6iVgJ3mQPZ!<|
z6pGWa)q8Ad_d@O9v*Qo0Y}DFq_8=*1v9(Fol+&JD>m&7UNTl34{&w#ZF)#i3&B3cT
zz2<#)BJ8<_`cYxCTj`Z+=3aM-vslTpn{i$EJLx88&NaCYrm(2@8P`qM*|)V+ZgX)p
z$hC$Rc~9kaY}?r8?v%XN`Q`enUl|)(mo5F*4|2)l@^{hcmM_fOe{{`cxxMXTBuj|L
z%iM<I)tj=p^(wP8J6ze~?^HPX8~XT9J^5%$BlFX&b8pwq3Ay{@<7;_Si{SV_%@3nx
zRR8F03*{2in0qE<d9TxLxz=wdTDy`@yy`!?{MYg5f)l*#k89*EeG1i>bKkPcb*65}
z#BQ?#o>zM{cN7}WKUkW#*YjeQ*!fyMzg2lY2Q3#$ulZCyReILMgD)x;v3@hOs6CNT
z%yh0n?4;|V!^tf6*LS^Wvj~}=y;))L+DYrzPQ85EuEi?r(Vk=`?bz6ftFOhUy3e>L
z!KKaqUB8Oi;M^UK=r6uPpyRhw<rlF%Z=G?wlw<cq?v=hv#Fy5Z72IXo{>FLB1GiA8
zGY>XYuxPvx;e9d3dBHM^)BEh$x4&_|^5D?vZOo@wKWDJ9{}Xub^XP4H!D%}e?z|U*
z8d1|<^|jpeHdc_RcXyc46#Y#xt3c#a(WZb|ZL1nizY;7@Hf`+o;gZjAw_(`+#+jqQ
zW~ry(ddtauY;_#+*LF63xcke}I*BXqX8VeRg<6*{MltGfu&?-Y>8weSTm#s&4YMx(
zVR(I$$zaXd2OD>VKj403;_hHuc5~&tMs2&RkL_HT{d(W@R`_(fs%XY>oqN_Z|DNUX
z%V)01%CX#BTfXj0NdIpEQHwL1c{o%e{OfLra9Z~qZ~YXa`+MmVhgH00_H5gq7_B^f
zRlHv4+AjCH526ROUmh;ufA&r%|LsBE=ZcFa)^@O3ob}av|I#IJ`QE0p6ZPeOhxm)E
zm1~GDni*B#wra)F{N0UAOcz|AS$v)Lo&SLDP9IZ?3Kk>Xofn(SR@m}7Et{dF<LbTA
zM?2&j!<|W|Lz)jK*mZ}wExEGm&RWIgYu9FoTv*w^(<ivVTW>Ohxfk!tJX@>V9N$)^
z>2GrM{>->Tb^1!S_J`$p77kNSzJ9zb+Vpj7$Q!YL%VmO<8`&RBi&@4cGfPFra3S|X
zgA3CGj>L%>C0c*Y+4nWMpzLJos&Kya&fM12UHT>#+!lX#@}Co#b4HQHBHlLad5d!P
zud>$_@vn+4{ueC#5|yy`qB`iXR?v7z!@CzQKOH~YtvWkv`5%efPueO#ed^$Xb<;Qf
zd1P3iCUL6b+<u$oZKB+%kO7oG9xNjAmNtnQFIDstK|*N{H28B*uG@L-YnQU^!;~Mb
z&F|#i-)B%S?vS*2mULz3Jni=}IbWvx9DKIp=={uOdHi$EC_Z}-wfU(|X#<<t{B#LZ
z6R)QygLnfo(*z?=^YK)_kBN~#ByQ2O(M&7g>Bhcry>Dvz(htskRjg@TtZdJDHZqD$
z?7WZubXVUeJ2*lu*^b`T@<00g!JUnt+5_C5uDMwA^U@@<osv3T?d!zP@6Y21j~7_;
zvYf}AFX`jTeS8l!ExP0?^KJ(G%4#Zos^zfw?UXNxA-_a#*DXjY+me<tzd8CBXj$nD
zuUw53p^#VWr#MSEX541j{-r%b?zN?qb^B4F`vR_~%#SZ<(c5t4i0{)oV7YL=j}2YR
zH#@pUhxJW6x12+=Gh0W;V8<5|=1HJC5?Yo&U_1PtNB3#Ugw&Qjd-ic%D~>;W{@_#T
zq&NJ5&B5;Gq0RcUO%Jl(Wl6n$%rA-i&L#Opu{%#l$&0Rkt$p|R%1iw+N;@tcY*f9R
z^W;Hs!6o@e`~Q9UEftd*C+OZPbAqdgT`ywSiaC0BOZ#3N^UM63VgQQaFYPm$tm7ZP
zIX<PpSt6}{tL?uZDa)$Z&dEQTGkd+v+m3s=l2cUYJ=0EV{yE3``Kem|1Db{B&K~%9
z<L81F&-q8+i@hi=**-7z$%7*`^~tYyG5Y;-){)DW={>e{j_=YVhvr{T{_45p@w&bF
z4aSe=M6a3i^zb$31Lu!<Pw!mUq*5BnJ@sPQ45<gU4DRzkTK}5Azk=J3|MhAQUADhr
z_ty9<ev`gR9<<uhKmXv$D_O#|9QI)+{lAtJ*dC}_^uj;4@wL^}+?!hquLamXpQgWI
zpTL5LXXmt8-3-~cvFTmU?VrhR4|e%|<%wDFVIn`ThrV;N_4*6hChUDxE#k~-(qK86
zr8<8YqJ^yT7OTuHez2poa@I|UvyH0vWZEq5N8Iy2SUUHW<qk*ocMPI!>rdGfgr>Az
z^*-rzptxY+>yYyYel9fAPmkwWw=nNR^3!?G61Kc5F37q&WA}lbI<-q=xlga0bjx2Q
zKJ#T7s5$#9`{s<@;d~3<HZ1;VBqMb+Ve?`4f0?>&f}qollh?5x=V9?$w#Tk`L*^v|
ztGQ88JI~1Mec(9f@e|3fdwB!XR;Bmul)7`UarT3$5m$Eg<#}CpP~XqB^qW~rwD~i=
zf-f^J>F1`l2;}UFQudktx8Rm1`*TK%{ds3%ANZV_B%L^OOQ6)YfM==~4prJ;JW<Ku
zw<-4a?oipQyoJjqyu46yX6{QN+oCm`F(rLBjJ_Wgzj5$iUZv;$u&qL-GL{{4{lALH
z@W1n%$kDS`Z6~YM6al&ER%Tk3n}1$Af6#N=Ymu0F&Uv=;4^H!$SkSP_Fjev$llXzB
zA!6$r*MUw9xc)Qb{DF@-jS?>ZlFr2oZCjUWd^tGuPRD}T+@{}b3$i4ag=>quGskTy
zdbxYKqm5kYN1nEBX@29&%3HhKYt2BbhmxFmG_oGd?0ZufaD3vFue=3mlFP13A4>I|
z=eF?6?5`%3FJE1h5m_@^Bk}#lTd6bR8jA&(51$m(T)*8+-D1Ox;=L=ZZ@u83rD9x=
z7g@#{`Sg~+-2e?gp`}HykGOj{O|MW$i~6YX`2EdwKV}GmcI2`y4-~OHaL8s(e`V4;
z>)FAjJh2OAYksfg^UK<O?f~Q5bn^qk&s03Qd9<fX7mG}(?y~Q?FYf1>C#BT(@%Xb-
zM^kTZjj}YpV4+lCmU^Y+SCv(-_j?xe|32JrKpTE{Rjg5tj&qTZ$uHhv(I??`)AYeJ
zdA8Z}o2~m(Z*FBwx7^B~@T%E#?!LLaGc}ypUE`*ENc8U9<z1847z{deGonBEMP+^A
zt*GBdFIH!Bc%L}=;Vr0{YN)r{O#AuL4C(x9Pvqhw_AgEFU9QA`O<SPkyz_h8Yks%4
zDjKe?uJT-XqL9N)^uW@M>u*Kt<aW4Cf457qK`%GI_2)8S7CTV;!0&b`Ti>~z$qJ<b
z^??t9LZmhJUR;q|rt-}F!JSDK_t(UDlot1Q*vxw>(6>+X#uMio7qqS3NZB!6&)n^I
zKvnQ(n2~j(^vUIQl3&!7zA^7D-Iyc?mOK}J?nWaY^PEeUSQnNo5IHn``6=e4jI;Cf
z<`wdTmIa<oNYyI1#XXUq&n);>@rAsP1&XDtb0lYHoZdd=v8ZX<*K)h7+y(67yAK4|
zmwG&&A!3+moUvGV$K=}Et2dobE=YeKY|DK7_tlWr&vTq_TtE0n@bRMVQ#Yk$;w}go
z-o5$-bmDx{t|AThFSQ&@%Xi2MO^lYF`abM%*sOHt@Ef4>?=Mev7MODHaa2B=_Vry0
zrcX8Avp|GT`McG(Fz{&UqYSyGwHGC2*428&aO+;0aqeFQ^PJd8aZv@#%!l(Ma;~M!
z_!IH=bYE_zd}FcqCGWk8=cd1Zc|RaLScdn$+uELUOM@JieOp<~JtuxroL0e<?VEUf
zT^UY2;PKz#BygwI>D}U`+#Z%&n7V_G+k!TGpK#GmUEMw3uGN3tt>YbYZ_hkhvw14_
zF6B+tt--rI3!Dy@9IibsZw%dWr1NmKsddJTO$F23AM3nRvTA?7`)a~M@6y{jjgv!{
zNm}q6)qea$sP^~uf~0c}6K?Y^nxqaoDD>s2oeL%SdTz77y8p6E!heztXs7Y&<EQjy
zaQ&QrHL`Q2T=ta1mwC=P{^CvNT+-)!hZ(%VDR~*=H|FqVnP(r|Njh~Z@xVGguiQps
z?V~@xZQRAkIrl*CnG-y#d=6K<6SUYJG$&tv^<%CG>3-uKQ5%<h*_WVgFD6;R;1@RY
zh~gWqf~*Cs-(-)h+jHCd!%WLlhpuX0zcjBD)ZvRvjcVBZ)+U}weDe~Q)TeU~DzYrE
z5xa8N&EyrM1xPYky8n)g`Obcq2a|s0uHM|)r<Tnlvqtc)Po^En8^Hx-Ha{F*96BJu
zWolsjvbL7bFKp(r2R8!t)UQ#0E4(b@j$Gr@on~q)tsk87`Kohc&q2pmt@W8}%|G{Y
zcI@gd@io5umz8<t>gzjM{nj?0m6nn6{1c&k!aQAW-m<BeV|<0~-8$w6s;4f$PT0(5
zt`v1qJH78<vZ+M(L2HAI%sRevYnsnW#XM)4bKg?CBuG*wR%5f;$>$H=?7H%P^<tOr
ztulRH6+v=!-x-~pBxO2OL#J+Am-DSe(R4}u{JH*LndV4#d=j=edwqKNw7jb6*{W8H
z+-)v`4ugxI{;Rh1+|IzDw{3F8Qm1M;giUnK|JfFD$3#s3m0h6xFo9!w-<#v%%@gJ~
zcfStWzn<@5^XZm{E=(0Ey~<AnVoaysTDP%y;~j?bI$iI-`>a}~ZV5c|{!YRv{#=e@
zVV!)o?BO-5(wF{|x^pnh-_=yh{+fgTZ1cjqvCj>s-?aSB5VKQJZRx-2EnGpHZ2t=u
zy;2r3o|bnl?w8D*IV<xjRbMTtKdh3y;AvY+y~Sb2Ku#+W<&*bV`if#q<aeenZ~O9o
z^X!%L8k^gXDLj6D_f|C<v$XMiw&Fkh2Tsm>_43rh?>#Z=KW*}T;1_RP`tIe@n=?)`
z7v!C^SrgVL+nseQh;eyT;<EMsxNj$O&zZAwo_&~CYRj)WCh;97ubK(>E}A{#YAeI7
zSH<~HpZI(&da9HmHRa*u*Hc%wT)6v8a@Do&iz{}Xd&XQ)w5)1hQM!70_`KH*b~zCb
zgshwX`B^{v#BgV4irlsbDhp>HwA`U1dr4q=(^->MuQeuHfTsdQ=fC3oyy4c`1>9dB
zvfp33_a3Ww>qVv=Zq3^dtW^EH!P3iWW!IMw-RO)C&Z;S~H|5o*>pv2+*qb6}_CTp*
zrc$bT-0saW@%!YpQVR5ROF|89Gi)zW4Ar{k?kOde>9$&6D$kvm1C^QSrQACTuNRzn
zWuJQ;bZ+_DJI}WkEiU%s&w3ATys*q^+M%e<eJsGJ>Q1QI(f2XYHY~--GUsiXu9vP7
z*G~UY8aTsx`>U?!mjc#Z>+?Tg)7%`$n{&+}-I(>{_TzVy3u2d7Z7Z6wM(A5o{L)h;
zCZA8f+&C|0?}}H<(hnBx*{Am4%g0U4Gqa+0nk>0_>v2QJ=_$UvuYE&#vu&8Rmnh~Q
z)SMR4qtLhNQo#Z1^lUb#ebJ6<4qG(`yHC7kTl1S`j`cOuhthKvsS1^e{G9tZsD8^9
zw+!`V=2Mid%x9R^u=uT&v=sj<omS-K^Q>O=y0ZBN;WF-jF<SS+oUK8tPUjZgm$_rO
z;>LrvgrZ68H>cj)X!A7v`MVna1Er^Gg$o?gS*%}br^YwS*|Wv$%{ZLb@OsMcXWHgk
zT_29d`|iE9IiWkF#Laa(+fgoF?l;8+d1p`TJa{uvk*~jW$to}Xy9eK-iCm4=Kg<5$
z$&r}XMGN|~p4t>Ii`IUhA93~zpUJG7g5|T1t(RXd_o?MP=#(Vpf;BG}P1thb8&CN4
zf{6KxS<+W!e6<Ac^ET(J{CKWcDUtWxtn_xb+{rVqf*19$rpMdd41I0CY^rtC`k75{
zQyOzmX&tDm+^nbuDrt^PUcw~4VB%%_F#D7z8w{t|9}Ai`zxj0NvQBkRZobPeM1rEj
zmhHR0(@}P|b8w6XGt(jFf~CQ>-&9r}I2!j(Pk-)}XJ@_BuT-!-2aTL<`D$rWaf<h0
zT%W6Uw`bv@G=sjAUoEZTww#Yy7T8eQ_*%6ZbU24m`;5ls>rEyne|a62>U_v@Zhp7w
zb+wXTE4B)3KLDB-?+ZQ<WPRm&!v(`h9FNQSLc4^|nJg1L{#$0w8O5;v(v*ZBYu$tr
zHKu2RcWxDT96e>37yA6)%Zbsmex6wH;&4{Z<3|q7lh571{o@W3=&l?K;}1~`=C-=g
z$-O79PftAjMQh?6hH^dczq~sp9+x>Iy7Sh`mwV0A_sqTI5V|~>?+$0-xmq63#H`m}
zQ48BoQ45w9?{UiTXIQ$gZ<5}DTMX*O9E^U~`%AA}y5f9YS>%jG@|%o_U$mBe{F=qn
zV4ubUo(!%E>0>y2i+|bl9r_7*S@Cb1KQn;m_ODFnZhLE0RQ~yM(0}FvBT(PxSD1A2
z=FEh3TW>5ea6AdREbEM-SidPxhJeCyW5$JdcKqDfWVc)(;ozD((XY3Gj%b&(NZb2G
z>e`1b4}P6%6sx!SWW&<FEGa3SIVNI$@z=ai+v%L)*^8}bdkR~Krh|G+N55Kz=XXrD
zoIPdzk%FtwcX(e4E_6ISX>zCZgC)o3aG1TW>^QN@XD#pji79*)yR*9Pb|w8(V2y8-
zo;>66Mn7KPt<lZzzj}q3JzY9iD$#$Q^;|CI;>l4bnG3S!N?m)ffu*A6mB~MiwX^ia
z{N6jMZBd+2U%ENK?7+*?tQ&nhzbsLm`n>gJ<Yh@`@fmvWW1d*`9m?Q)d)vJI1IwJq
z<!!t>7XCaDuu;bRh|c4BhI8wJ52sCXStU`Y8hU5qYr*Sb7gCnIImUYKuK9tTrCAZ{
z=R9s%<y)}t*yR@-mnTQx*1xrO)2T1B=hv?~cr)uM-?_I3oesF2c`kD_eI?`b0FiAw
zzqc-!w_dnwal*!+>?d<Hi_8{$W(yN|)GygMIdqw(#R~31?_Ghf4yLO<yyT`U^u2RR
z{vAlA{qQQ=)bN`!>Qc+k+ud?r&6IZv)M)|L+%_c_E!M0_U-fdTw`ZyJng_prJ=G3R
zTlN2s?hc1^w(DPX_kLaA{$Tcfjm{+(Uow9Uo$8$+!T((PP{4{q^Cm<;n8Gnr?ERcq
z?2-G^`7Sb_zsXw=)#B5A_ZDZyQV$E&tL{fU%PsG(n#Z!6@m$A*%&m$+UoQIGJaku=
z^L!S^rMAaWJ6ASeU@mYiecU|tv+3O5J68EPuPr}kS@Gn{k)^j;X3uXvZGOZ*KU|Mb
z)^`7Kr|>nO)uWQ6AMANBRp-9txgXKzmU+r3DVDIxi^`}9IvOu4*q+z1dG?HKD~nrK
zcW=G8?98Q5eN!RH2Y0)Q*C}mTd!SeH+R^1zmrU0jXk;;)AiCv);i~=_uQzU*(QFtO
z{dV@7*Tn^QkKEyz!~UQBfsM-AlCoXRVl!T4tJ<&}5LRP+XubYma6yIN>2-<BdNUlo
zrHoro3T{u6OUgIyymZO&@uWjf*(|ockqUe8YJJ6Pg9BB4hc~zBwVdLTuW$V1Aw8#h
zbF}&ct8LkjCD&wgv%Pg`nO5eqXw7!LB@1lW74PqO<=nGk2g|zT-RBM{R<4s?k-A;Z
z$6I4ww`%)>nA~Z#whY%d#-=|wqwTr-65Eo$;^(rruewma%CWNVkb5d~%<;0h&B1Fv
z$DXWO)_zx&JM*bd`SewV8+Z$3Z<q4r&0yY_B;m2=qs7F`#rwfxZ124LV>~`SGES**
zSu`WE;?M<^jLK!w4<22r+rzZ{v((nzqVs0fOp*BEvZ6cvSL?S)l5&Um56t!c{ZU$`
zV}FlsQjfjJIo+0YOCR$I>2{BDZ>2|^*uHA7J$w7iSKF@qH{ZYdVC)=Ui+k4}pPaeN
zQE;-~bg3n4`?H@Y?3;AeHFR>+3htMJ>5~s=M!uTg5WKQXUp4lD!Vy=s#mc8%P37GD
zBtEy{^&dsG2LT%mdnX3|+Ey=n=0qc_e5?A>2a*ruD@_h9m40AV-|;fpcFIe6?HG^d
z4a>D&NVo<rxyzKEy0V_>-2!eq)3pxYnpEPL7%y>OzhT&v9P+Wf<MW=cj27zWb{bl!
zoVWdHvA^U}Y0rLxy*E#-%x}>CCy*beXS!tPy9*Tyh0I=8JI7dgiA?{c`To(4y8Nf0
zt1Ybyex;Upr5p%rn<n+2*Z7~=^zAn%Jpql#oZjVA|C?{lNhj}$1?p`3W7wuAAK&KL
z)Nsxpd=6i2NBrMiI~9{kKkmM;`{RW+36GY-0R8l<Vl6?oN>dJng~%KVE|4hjxcNC$
z-e03eMy@{V4d}QK&}D-Ue-`pAIdJE~(Q^tuGW&AvC+}wT`=%(SZT@Py^7VHte}63B
zD%Qp;4LXIL?OfoGgI2b)-W8R`FDj|!ReQET?yPor<+;3u&5s1;t(&uabxlHrv79Bt
z4(Atn`3=R71m-mzR<)AY#<`*HiN#*EbB~w%|9iQ6-)6>jFN{`}Ke+L1f&5x7{qyCk
z1MWVERPWQ!yudA5|4wj6OzNs<KbH4jHQHA8p>ejlQ-E>eJDXExpfY{h)%EAK=1Ftp
z7(Y9BLp%4Hf^B;E12>g4CiSVm#U8jh6|?9Sg=A{XT6|@B#*;mLCYfs=yvto&T|A`+
zbaw4_ZFb%wzRRYUQffm!R!oY{$Wkr1^=RtiQtmH)`>da<J-AZj@Pe&;i*Uj81!}2A
ze~Kz^=-&Q3smAo=y%Rwn+#lZm`Rvy$&?<({Q>9PU6my<gaz5!}<Dm_8mDl?FUVOZq
zy-TimCg?0H;ez9*pNY$>Gkb5Xe;Qt|@Q^>>TwB-7{J_np4FP{6lBF(*d>6_4(Kyw>
z$Zg--0H=*tIbJFk<XI||G%i+A>Z!PAu>Jybdxpi**0TJ3(1kG5CMNe)Ki%VPwUVnx
zKm15R(tI72Gku%yG@AT$Fu&U)aqX3c@m2eK4Ug}oZeq&0dFsX74GvYxOkC=T_ts`a
z1_V663qBRJ!CK?8x4-Fy!t8U8O4`N5rz?M|C@S2ybh)e)`&RIIpVe!;e)#`dJ*VW9
zklMbO^)laNK$pr)`2Fhmtf?utqr_)_J9@5%$1Gv3!dtM3Yh_Ze8t!BZ-jr&PKO=zU
z*3lTPWoHDApPc$YLYL_YFX#x-Xv>oF$sCozGt(}yl-IsIx4dT|i}u3p$8R#ITVE|M
zm?#{m_()1^hU}CB=ltiIraf4qcR9cA_jOZ?(*4C|q6;)Rmo^`fDbISpqjKfT|2Jkl
z-nqUpBG0a6_WCseUHy`c#gir)v$5N5`jRQK@N-7_JLQFaXYU@I=GqeIye=-G@7(SU
z?0&C|d=C_!m?C2peOrw6qJH_cqRh;vHM<lSSkF!|FgxHGyG+tTq&4`gT9Zkxmt`l@
zCyjaWOz9~rE12h8Nu9N~SU|zEHdI97h1;d;r*_^btG%3TyX4mgHj9;~O`<IWo?LDf
zd1$lfR3lq9TX^uApSwjk)lZu8{@i)xXcgZ%S*4Zp*5COsw|UO49R51h+27fjZW|Y5
z-Q+R*b!%<sj>eDOmv2Ty%{rB$e!FZ1=hCTSv8CsBhS=zQ`vM*po%zae#}zTDJdSIt
z_N@}M6#BLz=!4bwNqgrvzfN1F{@~ORe-}21J!?H)Fbn6V^sHIu_ECuE_!T+O>G4c`
z^*<91aL?Xax2}9@(z9ou7-GzWZCTv6i@&k{k+Z;IhS0P_uEjgJ_&l#1oO_!`Z54P0
zItSm4zCYHoCi_Y>go_2_6AHs0CpZYLuh2_e!RBLjpf%NaN8R&2lk-7!*>!6eOB7kA
z27X-AtM}lHg=r0op5E+(;yd1Z?w@nOl6!A=L!n);8{eKCW_^3hLFcZ!_3eClUus{@
zo><%2HTTV1q_2rYcJ5rijQ{KNGaZS(^;*9Lj0@HT91XNuw!)x%-iDRo!Sl4+3u+?m
zT68@&l>BPZE!YHFT&!4i__$;Tqo26gd_TAH_U~;@DU07vQxjjRRlb22q@;Gu6!q=x
zZj9G`Q&kGuAGgXC%(P=y|1I$O_^nrqr_ZvB@NQZ>@!rmJkF!7%A5s05$?uQ9vRJjG
z*ZpFrY3eqH!)=%D_9|*e2FHjLo$1)Tl20Er2~tuJ@$~nS!{0oN3tn!V<!rN`rSI+W
zi_7_sXCB_gV#W-fDB&{ZTNfT)SDpD(hn?k%mK8@{?3u%p?_W6os@NFRl5KQ;U!<_2
zGdxd$>C~z@g<GQK8^N>T%-^3)QT5^B;kP;Uqr*`7;Z64kDSU>k?JECP?Cloj5NNGF
zTB&OOeb**S#`c-7?w@_DHT!PWsiFj@haZbBuJ!*u)zr1VFErb2)sFrHng{zLY_A=0
z&1U;1m{WA@{fmD~PAthuazEI0;lf>p?P<Gb&H7i%!?I1-`QMaN`42dYXS~yx*Z;6W
zxi9@#$Q`3#TknFr0+Dj-hkY{-$nM=J@PEq^i`<6j&9Tx2%*-}+-aXlS-+nGHeX>f{
zHQX?-2`uq}bHY589b7Yx#7J&^CR+N&x}f@d4oFXa!46&b^tMIWxe2$#U*?Dv-I0E9
zE$2Gh9ZQ4t2O^8i%J#Cxq+4%b%sX3_dyscZTmi@Cwv+-s)AfgZ?W366lKJn<dK=Xk
zoFMgJ%T`U!J$W4me!Y-N_SF+PJmuh&8^r~In_^uzyj(q1df(6IHv&JLc(+8kD@rRY
zwN^Onqj|Dc-prNrR4qggOI^Hp(33lr{ajrBzZ0uij?Z87KBr-F&h?k4UM4E?c|Xtk
z+E~4%E4(kv*II)&r*U%5bykbhb258#Zp{9z_2OL5NxPe%(@s`T-JB%H89&ALbzH@?
z_r1qltGVYy=XV4&O2@{}(b>RmTq|-bDf~-bN_EoI+TP5GbN#>a#B}vp#I7)BN&ge`
zXUFa4m-82;UH0Zb(E7D)MR?wkdY5meQ30PX-Rj9c#DC!E*R~Zb+s?jzu&~)Cw|IG*
z(W)cc7ls>Uve`3~uQNZgw`c~-tK}CfT}#ttJNO)oXK(%*;a};zCCpeY?7H|<&2;md
zYugWT{4n#MvA}VSX4gvYYq{2^KzG<rHb256BmMA;N{K~oreW>0eX?o6v-m;VeRdVG
ze`&fkSzGs_M}=6v<CDy-x6gq02#G!5yZw6VhSaL}@7QKWO*!x=vw2bZ#zKK#GN27a
z{Zn7+9{MzIe*Ba^#>(vDon5z>K^s`O`ZgS$_s^Gem6S`+>XQ%HK{q>y#8j|ub9BGl
z?DxmW`Dq;Q+<ixw9iHE|`o^|n!<H*q2PExw`m|Urxuj~^@>7Vf_t;Fwk8@b|b-(=g
zxTIQJeEPH~-W`j7Zhb1yb|`iEr2SSc@}PT8_x~xi)yhBjYVK>5N+GVJrc;Ck1>$!1
z+$=MEp_L-_>3IlfZ4;x#>E<<4_$5M~tUHi<<W>6hIf)-XfNzdze0-qyaR2P(^TkW1
zJV+?3Jp}5ud{bPeef;wlow+Y}xD`*G>~twLi+x`r59?FA=MHx^6u#eh%I=7W%!-Vr
zl4<*7cWzuI`(<5@=93#sZrkvH%9qla%N{Tt`S@!Qht(yUgiBj478V|P$a7A);Az{1
z_XiZ6-=;s3EP2r^YBf7uD~lg=5ANMl7p2c#J&?38mdo<_g=<sgUN717lLNF?;qUqV
zYY*I<y?N!a68$$E*To)vx^(i<Wu`f@pPq++R*th<Ha2#Cvov|@{Cxi8O<5c2n87=v
zv-eGiiIufD-*38Eq01@r#p3VJA6U(Qb@bFt$D1-M|7!eh5}%YSy+HcG6pQD}9;{K|
zYX21R_Q8+C+Rt}X2<9Bx&Z>7`;JW2@Ci7Lxjwf=mZaV9?p~LKeWZ^mAgO*i0Z=@d4
zsE_$4a6^DuPk732o$0?cEn35W%30i8ndi<I5Wf4KrRk0zfgO(<#Xh(z21h9+MsUpS
zeReBppD1YP+xn_;K~LU<TeCO%CD)Ytd;>QRVl8z7?@tP2E=s$#w(V)1!?O!oX3y_D
ze~_}gii<Dyej?wEmuDYzmo8Fwn?JvK^4wQft<AL>Z|-ZEdEZif*&nk5C;h&P%#rm=
zeQ<kX_OFLa4!CF*H(ox}@Y>R%R%iKitpYu6j!Sk+tM5-;-LUn*uAV?%o-1YtRzCd_
z#QaX;MUGQZ<kxwd|3v&f()6&nU{mnjb02TJ9j^NDC*VZpv)0dcj2B<kJ>H?RnaTXg
zc}-oA2k!8!Of`SQ>lcv!<9GV=$X$$nWviAyxTW7TD^TN<?k`ChD=&+u0XoU|mbHQ1
zYq?|d)b?GSVKpgJ7N}S+UAVU;VQH2c_+}c-9UIpuTyOCWzj?&Eor^0s@do?Ks8gRH
zcRU_WF+bm?Vc~r2^_JE-4)$vtUo2C+{QN=JukY3cjd@LsuDz?<-Ou+~XtoPHn<o9h
z@8F4<>tvp`1zlFqo#VTz{n8S3uU{XE3!X*1nriYuX1Z6@S!W%Y<IFb~tuZLsy6gkL
z)0r>l!{1eubNC-v`IKYj+SEnoO*&$3)_v%gZLW(gdzo2Nq+if!w(!GakvDCifxaTS
zBsRXK{{ruI@jQR=Xy?+U*PcJP_D?|6g2!b8-{G}MGdAp;XgKBF+fQZ(*8WwLD)=TN
z)a3psOX}k9ob7dde&?KZ<W_ImdtZD;cHsh6w$Dq`-qdr0?qbaA=+L~qSa=)9dV_#1
zK^hAa95ux^-7;JAj~!yXUhX3;hL`8W=V#5^^wd8)^5OIUlXy3NYhQ7oHBqsz)zdBN
zy?gb)x3a36_&=_W|L@ED?pcmedGpPg;ggN_cQ5X={Q4<w4~zH?m6pT+floRO$K{O~
z!a-+Su^xZZQCG#Ore7=XwD_y(=NaIeTh1K#sCw#o%;T6I<A}n0&I=Xgv&44<`|QtY
zcwIVE?ZE?k&93j9cMNCzUQ~Qe#_3iS^PI^0Yt7S(FP!y~PFlk1_I}Qz#O03rOIh+x
z%nt??|1w&6&l93Asihgs64=JDr}?$r++W|B3-W5W-+S<2+TGh)pHFz``|@Qx&tZFB
zTu=uRcGADxr+>fNF1@7hua@rgmcw#8wjPi9eQxeP`E3X9#I0}a*&>>(H%o43=*G7X
zYWVcly}wrd^u?6N$97y@@VJ0){((Z{o&yJC&8EqHoY`l8>fHkOWa;vK=MT<(y?ZO$
z@<`rA(u{Ji@`AsqM*ly5FxL3$<lS2tukZY9xTAS?%-W=#Z9SbE?%V?{{FwiLlV?HR
zw$(|xL3da=`n{xO+c&(e?b|7%_-BzA^Zhc9?vT4aUwLFUJrU%(QoiG4>mETTckvyQ
zi$CZr-Zsx|e&b}zBTO-2!I`gDe|c7Hbz7?bJZ~?!#q(vOlGE$c&lD62ekcZU_uiZn
zRhq#)=ZxaB_c1xg+4bj@KiSF7eo;~OkZg`zjm2ru5j|%Vm-SC&%CB6bR&aO;kK4{e
ze-fBu-i5?Jzw>Hi);y&J)iEy%?)5P;Gcg^wSkGz^zAVukG*<dG;$r&R{L@>C=C&Ra
zpKm?wXR(ygt+RKo3l}Us^(F7=4b~n0n>Q3STh_^R1<n6wX;IJNc<iY4^GJq=ET$S(
z<@<|kwlBK=V3PB1arOw`YsEQxi{tJI?Ek&;<@UB$bFAkq5P34y`qiQ&yXP7{?y1I6
zr~jNYcS<cgAsiM5+JAdzqTZXo+E12hH!(N0aWB@@<&@Ko)sj2(pp1LY9!0SSGJ2;y
z6jf!{q`&;wzx<C0>(>XW4$ICKF4)Hk-r4)W`hjlN%Q%k9s+pY^e@^dQ{PUXogD1R(
ztn9J6?>;*J_@|-W&b#nvj$_o$cc<<$OfT+;-^+ZxrqMNO)yv}nc2h67=Dm@~PP(vl
z{X^!0NvBns&PMDlo>7_KvEb!KInP$@3-%#1KWSy{n7aMqeb#lw`@tiApfl>Tt8Vjm
zwb)+&5*=nyrXA$GR3ZIUb2s={1uniY$rJN*->m#Iar;td=U;0)T*P;n?B+{woG`<l
zO<ZMqCR<<bqt^~UCV6`wHVc1NY<sPF>;0<7-`F2qvC3cjOi^R?v)4wKC!Y$CvUTY5
zx}a<~b$?#RXMy4)(ht5^<?oeWEnj`xx!2iZaY{i=t?OH%?J3-IBA>4{w=mZ^QajUz
zzp!FY>@I_nz}L@J7A@ztWk|nXnf*0FcFXS%*|Vpa=*Fb#zCM5HchQuGEM|8uu-N6i
z4V%Mp*7Ez~?fX|94D~uQ!#eA_QttK3{I7}^tnk(QXL2=?d)`OLy`;efvnFvYbHCCX
zI;WWVVWiHTHJg4ifbI`vW-r+mwPdqRn7M}glG*c@7lbUCyircEmSNrO8M7OdGZ=HU
zthV`HcqinsyxcEq!sF$EA9&tQ+{*}(whR04e1qG^jz*!yt1BcPEBs#c-0F30E#JBy
zA^%_5TJT;naZ0>#;@748RzBP5yLv7@<Efm$$1i$aJT^uxbm_JOnvM=L?846c+O*Bc
zRyo5hwkUHV`?@W*Jgg^X$}Br5Ja58pxrWm*%jVx}OqT0TNK7kf=4)7{GMzbnZO`>*
z8=`k_{Sos2t#yILGdKP4GoRk(Cbu6j6<(6XACtEG-<o?3kBbycp1-tcpV7A4D`8rH
z4X^Fj*FP>BTDxRdEnBhpO>Rex^Pe^M8-mldmR;s`^W3!C>gt!Gj~Y#eU(y2E=8A<h
ze`!ixr{O34;LoNvulk;~9kBM>&Y;G(DN{}BDD!k?D^I^~-<Nr)?K*OQ=Ygg3*ZXd{
zJLAY5&{C7eqecePm%cZ$c3M$zG0;e`w4TLpRsH#JzROY_mo=AMNyz(Lo;f?EFhI~q
z@lUpQuk?d+sW-Pq?lilWB69z@x9Z%761uLH=^NKCyCb;EVAdiXt97^T{xaNgZh6(#
zqQ$Sdol<Kzc(#8yxz4gVv6ub9l}&G=*2-9|u$g*s+jNmT$A9wh9Xz5u+u-q>$1{#p
zK7aY!DzEYK=}oVB`P?~~61{R4{3v}nRYs&v<#=y%nX5_o36`VW)qH18$TduUb-%mZ
zuQ)IM?zESieQxV%UD$Q%6r06vo!!^o%e0t$5My04#g8?+qbWV~PO$YZj-sh2W!5)$
z9tt(hXPy&1Ep~SKI!U=R-yYBC^Wo$^didhBSxSwwwWioHsONWl`{i{1-M$~}Rx8=>
zvS|L^bj*q?!t2=kP1mo<{*ApEo+S5Z{;8sUps|4`yc-#g8*lH;I%Uq2cR6si@?9B`
zOH*T{Q`N#G4?N4f^#a_yXI%IBlt+7k)I>XGHJ>ZK-B;Fs7H^(xeuQa``=<6{X;vTU
zPswj9gE?nCWL%hZZMFG<m(KSDj0-X{XT5v$|5)H8joGu3%6)jJw@XF(q%L^-iviU5
zf1pv29C;_pYnHvY>cqxoJNLj-5qYNF-r{K~Ru&IEKUrGr^(n|JusN*DwX$ZCN(R?g
z-(nd{hht?7llO)_y~B_`jni*yQGk_&*17J}{a01$Ijjs{%3WUi=2hHWp*L(6yL}2?
zO?`blGjhSrZKZSe6#Zk}oO{c0!4ZqapmkJg7FSPME}Vbr;4|~oTXzl!^4(|gGhAJt
zun2TjyqX2?js@0COlSC`eucjLc$hus%*`4G(CEWo%jK_~Z<MvlFr^1sEZ-9*@_g!&
zS)vnfF=Q{)d(w8K^6uFXd$#8hN1uE;y!Gkw-7lwuhZ2~V8#G-$&Gl$!(fjUuHM{PX
zm}Ykb`u)n3aA`@K^FFx%T>q`(D82UQZ_nEl+a=6xFVD@4S^D5KpZ4=L*VrC!j|PpN
za`E|l?RoUZvRb8j)wR36n{97+uzUe`MD`U6<O+ZG;FLX|a%JC?pSl;Ewk9&qiS&xR
zroEi4E3D*Pq+WxjOr5*NgB>sHHcZ{1K0)W$M#gh`OLb;X{mksTI-gth?dDatYh%~H
zP?=W^@@U=v+f`ndXJ&1eb7XOp$(GZ+kz;#G=yLP%BkKw`i0)7<jMKi^KBMupW3ch3
z!}C*jo&5eO-%xjF2IzV^pYXnSiwicKY+Slz>5dSYnVUS#9c^B`(my0taP5Fy;?~#B
zv(4Y%VVU#Bd5zraDRPhBe_!;6^UlG26(Wx>t~^`p0Uj#eSQI<w;Efn56~}c9(L1Z>
z^p_W^+x%t$9dmn?{XvpM#2qnj-BanZtyLc%akeWwF*iRj)vl$AUGGrd&Q$f<jr|iP
zEjT`YRo%CjaorPvU$Q$coS$xN(IXV*r)vJ$V2<#_#`6cK$~?Mz>SL?QjQu}0B~O-<
z6L4yA6|CahV0K`t*5%t%nf)d9oA9$ee<LZjvN_A@n_0U-%))@Ri>^L@U^M-u`sci-
zuk?A`cl5lyaA~K-UKYm1QXGu3Mw|EEot59Qzjk}knfSNv4Yg@^R$abyXjgQ(^*$c;
zb(dUz3+||K{`2<s)MQiTJe7-6T@3FWeHDI3=rhN2zS7W{FOK^!JD2?7ZO!7hR?O3j
zJLcbCAM--(^W{q~8)H>Vbgx{9d<?qr=lk#dD>bv;$*ui#Va<`#uI*xK5$|@JYJNM!
zZTjm_>qGhd)hfM<LKm%=tMKwtZ_elAJfQOx<>xmXR@Dotp87PSpFu=#hWEouMb`_q
zMBB43PYE$%oNl)v`2R8ilb1iNJf6*59P=knvFs0c+B??r_oj8>4h#CPXliA?4-??u
zxx0?dePtO>^n)cu_e-AskbQnqG~|k<aI5>wQ+I<UW(8eXvfkkCsf{Oj3&Pw~H&0d0
z39Xu3uDzy3xcc1c$*KuO8xAeXUi;@6n}zz~Ns>D_{vKFdtQTf^X0h`Ozx49hKYMv^
zuvzFYp7b+sYfj_!J8SQ+*!Vfn$^Vv;%8n^BwyyEaZQx$CcT3dH8{CsMGIo4AwD9Zt
z+KJgt|0h>>Zg2U|wnJm_q?c_CuNGeT=Wx|@rHR~@61#*mX8*r5zOA};xL*2!Utn2m
z4u^4osof^c{I`NL4!*Py?ENJ%=WOV*`Sy(F1{c{T8U!Xzn6mK1<O7b9ihZ(*@(sb>
zp)ujUnN2=7PC8{hR1Q!RRM>ouWs+l%ErYqt^UI($|J4Nw8&*Ag;`PE$Zi(=h{69OM
z|M<Juxq`_LeA#8VH`g8Yf_cxC{aMzvJiat3$T;jjWW0lK%eA-wVeRry%Vj5Y+jv_#
zeGL<r290_oJ)JXW(lh-Cwhh-9mt@9#)NsyQxa0Wxz*AW%toH2TYR|4%7bvh5Zc9jL
zTEz8r+0RX??-RGSEWG_mxxjV0=YHn&<BJRRx*uEiJDWdqwDM^40$m3k81pB%z~H6i
zkD#g<3ySY$y}WiI)rZNw^TP7`4A)oZnWSF7WuQ98>1*5f!-geO+v{eoQ?1i3*sIbZ
z&9^jD9du*x#6P;VDszH%+~f57@Rq~!<L@fST)arXwBfB2+Ub)O*X@Y*H_`p^aH-zO
zd#Apxk`^v#m&rJ3Epl9!UHgH~%xad4hBx0$2Q}?KZ7l2hTv65A@33dfJ@sR6`$6q(
z#y;5_vy1s8&&@Pl>=bfLtXg?R;p&B@50nd3+bg*Fil@(wmtGsQ-nvb{W7lT6wM&0%
zyKEQhoz?hxF6&_ynKbT}Se^Q5MVf!P9<;wK`qLWzWU|Y_TSAMAqaQRSH0sK|K9TIF
z$o#}$?je4=xxyCw$!*CV|LYj^^m-S@tmvQA`0Sy0_rnj7lX8!rvM!esW^($p%%11a
zIsrpb(DJ+TQ)a(dWc>72dd)qsbk*IJqV^H-2P8Eg{s)~>UbnlbK=$z@-|OuRroEGM
zxue%cTe<t~&uIwuPF_*=lrP6e`o;BCw|B_S^>%BlIVNIf+dpGNb^kG*T3^tiGpEgd
zy_su$?EReVnOBaM2zsk~Y><AiL@#*tzqeV3r+j|V?0aTkLHWv3)#H}x&X+}ZJPeri
zEogcsqhDda3QKj+k-(VaaeBUI68kNLxzmmJ^p#jVKe)qOI*IAr$y3jGWLlan=PiCS
zvn(g^<KDh2zq=${7JNVVRQy~aXR1qJHG|(PBi#cp7f*{jbNkYsKE=bg_WSL-k@x#C
zZ$Z%XOs>AN`!}PPTzWcdiq6Yl4v81<UKcm_f8ls}Y4+E9$-Uld|FPZ4c&cEpuHN|L
zb&aN+*_*>(*dO>!to1#Z=;wLsc(eMM&tW22ZWk^jEAD;Jb-?1H!oi<1GHI)3FMhJ$
z<kq@(Ywqtn$Rm1pN6kTP4qi5^1))D*>Y41-`*-B4L-x%}Y(}8=$`lK)We<3cP4TnT
z?mCmCu%Wk}Yr6?&C*#v6cbJwR4K!kAPww?o7wtDa`O{I5L3GojyUhm^_FY}G^u&>C
zO3eHRBnzkbg!esY^_%c9y7%|mI|t|O46Efk*R?o>Z{07W^^4RNOnPJ#HH+`g&w!}^
zAE&%hlYS6ml=uH?bOB5A)8|n;O}yS*W?Hz%hdrT?+3@DpS1i6C4HEfd%=s_6sQ#0?
z)-YYh-u}$`3oqxNs5Q8ib?W7HpLJKAe}7c|z2E$>RGr0|g{OVKstBz+m^n|*MU~UJ
zYG$JELz(9+T8la|*J|(8_g_)z<mmkM*4xI{&lJ@jbX_x?zrya8jSX+v{gc*<CZ->-
zOjmb5$y{*P<_L?-;>X)Lj$VBc^zDyt^kMT;*RESGzx1$&&1^4c9y@5p&E?S7Q$MF@
zXPo%B!zS8+d-;w8VFg?9!>Na4;@MA|UhH4AEgF1Bcx}hGyra*O3*0kV#qTxfs-&Iw
zjeoeU=S3{n%=q0~zaKn!ya#lMmV^wOe2tPwz=7(7hMUi)S_|D2{p^?#@MOi21curE
z5(0<MFT4NC5_GE88kznc6>-<nfK}lgVfS}kPkgZVZPeCfwxC&+Sj(xCbRyQeFFrk!
zab5wJS>lCatJSBzSzd1I=vaJ3+IW*B$b_{r!B0x7pBcX}KAwJ7F~^O`{rth7sVX&%
z$s#Y8a%<$VRxfMM?NiIveai9qRra&<2T$4^DS7(k#5}G*PZ<OLgE85?A=?g|)Cyjm
z@l-qPzxUFcO}jJ>8C!g1DG+RMTxoIk(oT;9vuAx^xHBU$wq{lR9%lCUf_4{_nDXDp
z?u>5seja1&*|d3@<r(%<#S-c_LC476UoUg3`LC*%zja}rw#du-lTxy{+syk*nZQd-
z7pOm|=FPsdE_UVr6EXi6U$m?MEj<;}ejX~G(-eLwM>y2$sN2%LytDR(=GXA1KR6Tg
z=q+2ihPuZ|rpftEXKFi?zpnK6nyMtB(z<inEnD?x&m+yUxaY*4dRQIY=zVUkhJoyq
z(D?T;i}L1VcuLp$vOPa|WL3x>j>~^%R7QY3aQvl+c+ksli;{or+vgPIX2I*U>XE`1
ztGQE_-e!2d``8_cIj5gq4cjaf{@SwZImg^7Q*JPbPb>Oy_0&(D`skzE;%%NS5@lcb
z<MIpRkGE3(?~dP56f3{TQ2DdC^6~vV(ziIb`uDZ|yu8TiwBj_mjlO$@cYTV~t3S*1
zIoa*p&991T4{l7`KKbV{-h+>}voDLtG(Gb*B3Ifgx52m_bWqqM@6XvwOm}TDW6hiK
zEZhDS*UYN5Tb@7IWp||JX-vNTzuxm+wO1RSy?wcU#S!<1Njn+Wy>>nmp0~h}ub`~p
zPcP_1Bp>s0=CPKi)2pp>oUey>d1>@B9}b9bIa0adr=`X2FQ#h_RPL0JoYTL2hl}K#
z0JnS5mfOFW)@)b2pyGL4Cd6mK_sWkgFPC^velR6sPF24139ZQ%E&2cMSQ_Qc_g&na
zJ-uStm*eyL?rNo29eq*{S&TfZF<B@re8aPY4;J4SSi!mYN!)pcoQBDv%S0_!c7K~X
z=~c+dh1SjI9vjUvmY944w3g}e@mn=3zj($ldS8Aac8SOB{@Dc8QmOgP!JGImzRIbJ
z-&-8j$;sa5Rl*gPFiH4D>6g@}R<@U~9<^6dm;qUN$UZ-V@BI0dpS!$t*q`X}o|=Az
zN!Y?^9rWJkhjWuzCxv<beto;~`=RWRNF&7qkFE&(Z<ouuyRr_{ZWnvtCbqKWt<2gO
z0cDFU?m2IqedM)UeQHWvcRZAs`s-<n@9L1ArPU8SR%uqgoV2j|K4>9W=k8LjbC*va
zed^GC-6OR~?VhFQl+!oBL&c|TTB_L3@xBj>+NF2a>%pu!Yi2(FFB2nhSgL#K<;;#%
zdPfxR+h4j9Zmh<r*D7-QE@;4S+ST{jah?h1N>*pMYCo^c+qv~dOGKXW-TN-8u?r9J
zSE{<5lu6?9OKfY1|9i{$hxEVsHQTop{rIwFY4_9Of+)}lFKH(>JX@S1V04l9Admm9
zTul?Jt@lAo3|V))n6>?N)Xv6t+v-{UEV2Yog7^A1U0&aOmSMK@59t!EWrq^x_MMJo
zW}NF;+p+KXe@ly*&N^Z1o(4VNZTe(a^M|A*cMMLhW?iwy;56u-SH7ipAI$iFceY-g
z^Yj*9<LGCzB4hr{Zw6f{y-p^FJ4RG$=AME)i)}pnm|oA|;aEDq`Sa<8TdJP=xVN%f
zxoEHHNsx*0^0rC;bjLF_bQ9w`pEG-7EvGLzzAjs9Z_NFVN7wi)oShe^Q&Vz3u8cb-
zhHt6q1HS9l4i~M<iyFT+6wKE>_LgnW;mx_b@*AwDJ7<boScOS@#pw8doif=WKDp~m
zae>=2f&ITqi$5NJrLmE@y)5I2$2{|W2{R6DN^7?K$GAiB;wkXK6$fw5<2oPcdB$Xe
zb-`irwZ`}VFy6S5_#NDu(lgO?Ik_+5#xCuOMG0yxFTi7(T<7*`+<CWIKWdjCx6VG1
zGbh|YmnNQ+N!nPXSEhC=qhwiL$AU*ee#cnlyk}cDh}D3GR>dBa*zaX|YIl#nsUaai
z>)G9^;Cbc;rpi3hwb;ULU2eA~X4St-nG5HJJulrZb?rpw3ek)6YKuAi547e*By;JV
zblhI99hJoVif!$jM-Dfv-#b58d62hY=G!RV?4E;+b5r%->vTrVI+!cDo8w1<aQEK5
zjCpT^-=2RZ@NG|YrhdXa`+N@Ox3>=lHaV@3H|BRQS*TclZqLV+c?Wjd-C(h}E5Y&f
zioml?R}I6@Z?|Jue(mUCsXHgaX6kP^@bvJ4soJyJC7wU-4U&A6*YH~Xnc9N|*KYB1
z2yWRNyX(tkokGiV`{WuXe-_9+Cf}F!luvA9-dnf*g@rtKV$Qu;Jc(7vx0a*4ISDq6
z(YH3g|J=gA(!Wyo2=T^p^iQ4L<9At6w$#|^m!*XzzhSK9u6-5-*|EntVlqM(bM0u3
zoYH)86=W_`=0(-sqi??_tT1To&N}A%Uj{UX(RBH-fh}LW>z?9Gn>K;G9owj#^=4=6
zJaxH`5&co(it1N4h?KmQ-o^MXMvQ+o@4>%Ir~Rz9y%E-~`1iv}y`XEd7V8gPORjw!
z9Q*#-V^fI_zmD;UzBafp%_V+^M^nSyGw+s&sQpmRv%Pk1`L4H8j}GiNV~I&#!o<{=
zeTcD|-zh6^<%QWRk`8Z>^T~Xa>;}3hfa~1%M^iXsmhYKy@nq>e(A;%!!IVuKDtY$i
zv#BYkKA8PrX4wjZ{R?a&;=feC0iPJ%v{>Q<C;R#>vQysAR#~y2!cp%QNMHBys!cY|
zDKGzeZ!+Iw(m&}!+=AP$HMqUD-;z{Y`SAIJJr>WWX&=x1Qa#74k$c&9OSk`R+dWPH
zZerBa;pE`8I4r64LQc$jk<GQq-#gn~G=9{^OU`|~xl-V~Era-UmKLr%KZA0jN&|Le
zDo9NE&is3a>?eV5e-r+)?eN>VexfMPu3Kxvqyp4(-1U171a|J})Gt{3+xzDX#vPzS
zSJtBLWmUX0ms#}N#WGV@Oy6`!C53s;8AUPe@@sb;YriUP37PTtkwlu_gU^;b{C4JV
zELy%wJ&J2bVE=q+=0#Gw8P^5Bo82_|>~ofLhtB^Hu+y6Jz#{R_UXXC~nwVJ`JFo5)
zN-tKq`FsD1jaGu^eedrS-j-akJs=?b+PyFD7xypWh!K*N>U><w2QsL!duHxE9l;9K
zGcutIzHKZisC@p+=;D0P2~qFE__ndSKiA^l79h3lVuA63$!~87^hv&cVd3cEm){6l
z6yJX}V`0_guJ)5hdxcoH*mOTr)Htscej7BX-#M?K_?#@q%th{pPguuS{aLp%P-Kzl
zD)G$*f0GLo?+XaqK1_ScW;HuU<$!z`%i1EF=L<y7tvq^i`QvNJy2e+9Z69*YIlkeF
zW{qayl!B=NJ9aYM`SR$$4Cu75szYb<WQ$B3UOyLpE4R(_zli$IjnWV9h0OHXTJ-PD
z3iJDQF*jW*qu;$fYU3hNblJBeICT}vw#0%XEuV#pXZ>t*nAmyv<FtRgg*NN#Lf1cH
z+hHEMOf2Ssd+7NG3is2ushsF<xf|nta^jcMr|!HK1Ib1e%E_`8PFZljsz8C~qKVZf
zBW@m3O+7iOo(oo2d1~tU-uX^_$<}@>Ci&#Asq?izoASFdYN+=<T`t=EIpM4F(;H0R
zmz^qUHr8KK|Dw$y!#et`0kh&u7xSkaPsKn}r1wH*W)<|!ls@FxA@{oD^bw_N&m^Qc
zYe1{j&#&^CnrCHu-I4F$`bQT<*A#yGVU~9fRQtcZ6TaeTpY3YygGpzOC;fKRPT%oE
z#P7<RJ{?Y`ryJCk?Jv{5Agj49{L7?yYi@`fyYnS)Sru2GpGoR&KT~lV_N_v@%x(0I
zcXdYHJ#*Oo0qAn+K0cFuKj$tjpa0<p(>mvg7kgE!<w2{dB`y4Z{+40-G}~=U);iuJ
zd!^WaExsLX8JQZjw|MVo-2=RT6|ZnR`(>=H-t|)J|222eCWPBle<$TPSc{*1S0lpp
znOE?_AxDkU#>s8c(hm+@O4i%)YopXWoAt4)H$-1<3Ano3XZ@UKE7f)>nM_--j`O=1
zPvV(Z`gT|C?=?2pua>*gaz4DkNkyr#cv<1w+f3lg!ZdI3Z%AJlYW(6)3)4F7BehFc
zwEVs$Vh~jD^W4@fCO+e<-2FS*?i|RKbnlc3(VS3Q$XDoK@3J~d<~^gu)vKT_(R}wc
z7i_+}x<fc^RpMVui@P8}Chh1gYPWX$V4v$3a#>Zrnt4uS)tRjiW*oV*OJ>0pdx^<E
ztR8Yy_B;)?XHTClS1fAr*D6WZQvQ^6`VQs>8~4kTRxzzJ7Q4mpe45vpgW>L-SDD>U
zXaxP!KKL;(B5yt4L&Mek&xHK{!7zv4DN}Q?v5p0E|AT_HG7(b_-@C3{u<-HJGvRz%
zmJ{#k7+m}^^+AN5`o*hDbz_B9h1!&oUxTg;tUBX+Fp+IX{+Wku32uwRrtM4blBx4B
z`Q33#V(!JL{6=f*qWcmuTC>-zxS189y!x5P52fYPm(RNM%(;W>;T1lM=(JVpUT4lG
z+uqp2H0!&^FYgE6-nx}2&iKJ~>NA_g)rr5C^<QneerwgT1iKDzk)kIJ7ka-wmutN2
zt@?~>PTkCe{8PF2)=JEnoW=BVqhC&?e50|q>a(<`OdKj)g{dyNOV->m)O(_#wk7aJ
z^X~ZfwqYxGDSo=vb+x|CZTHM8_8tY37_VQvv3iPhlEFjywlDeBJ4!j<upO7=EC0Dz
zX~N9Pj*2-uCD^Y17vR3AwL~%9Wpjzuv8d@ULHENNGPCO+aM_mg?1#G0zZIS*Z~bPo
zSh;H>gZY*wx4;=|0~8Z$W0wB=ap{j<QF_?cV{buQ(}Zr=7BLtfSl4{myL`ixGUwIK
zuPt80|2a1|{<KiUR>eQ3KmOR#CGuJ%S)<HNa5HP>(_MAviwjnT%v4j|z$LRw<&xEe
zY}IL>!!Fe6SIgY8nVWHzZAX!_k5|Ii8Q#Y?o_rDWKSEe_!PYM~8J4F8-Q97jeRkqm
zM%gBX<u9k6UMqF(N9BRlrx-6=7o2(Wq1LWt^ZfZ|<&BxrQ-W+6*|lF>Ff7^-9V_Bj
zUO87<Fl8_6xl>E3b`@Ez-e&2w?9#&t2YE#%Ch#5Oj_NJTX(%>YIdAP8$+ChS<(<5a
z_dN=KZQc5G<qpPkr$KtSIIo_ZzI&IIg+$gQoqg*|K6?K<$F@UZ@+;OI4`yynd4J&T
z?9(^?{K?y9^iS{i&i+M{+#f9BFk9Xq+CS^y%bi@z&VOQAv!3mc`N$CS%;@hIu{$4~
z)Li{VA2%Cb_xccV*rQXjW}&D2BhcASzw+-lCck3ack0NAt%@Ztmi?I_^;+%vb>@Pd
z{2w=0G3&*8Mr|{hs68Xi@8#+RlXa)^7W{16VRbdQpu@Cs$3$H|y+xwivL`(Wydb(~
z(k9`SU%S<}Z7<pstjlGYUV2V7af_Cd_x0(9&C{0ow;Yk+m}wWYcJs^2uN_~nmuZc+
z0v#*xCdB{XO`V;0DkjxzZj}0670A+G{g&(U;y=rCK+BF<Ekt)|2_G-+<;qyN=5usF
zr%+Dg<hidTcj)(Ce9)}R?6g7rw&-O3T6Tu&=x<xiL2GeJo(iP19JyO^f$h}a(~3Py
zg`cro8qJkcl?SigIrZ}0FR!O1&m8Y$F=aY$@RVHRP!ji?x8V6MwV3rWt1s0}J>bTC
ze+Hw0(%f3mv5)7o4t;I2*g2~@l%IP?U*?4Qt4*ZtfYuG?u2s2rSgPc6af@KENu9_<
z#;a#HFX4S?vG3KcwvzRxawc<}k38JarfYn4@~jWMey{Deoqe!lm-3uo!=9D5f(x1F
zya~}iP<lLz?YjGWO_RAP@%$ji|Jf+zVen9|;cO%4ss!n?wV6Es|9(2IWqtMXRBJaW
z%R7(dC0sxC7b|W_|7y>m{#@~yHv7wxImPU5{CoC!B^<x`TjsHDg4CL8F^4${xnq7r
zU2VxPNT@GfdnvK*cFJD|yXN28;y31qa_?f))5|`@Yf-mT;HJD?%q_v^0m~<DR=htg
z!0f=>)3XY`Mg&^CI%k=8rqFnPp0<4N>A8MyI%Zxy^ZdaZ#q2}9iCi~at_K=vx_@z-
zxUwR#wf9P?^OCY8Tgje&$;RMKYBucRAI`00DAg#w*qU=cLRVk5oULl-TJ{G^ULE6+
zx$Y%3aWTuey*2S#=kjH5$HuHY3TkTQe~gHfTQKu>azXP>#gGYCQ=DxWu4{fjdqDHy
znXpaz*1LXW+DGK)w*|+7rqe)oM7!QJ@VeobwvMxs&HFni)0(Uw`QSxpP1XnQPhTR=
zcKw6W>A)tzUuKVQFoc)Pv}0&ryfX9svhs7g?yU`H-(_*+;ATcW?eBlzS{K~mIrj0U
z&~w55+m6z)$EQEi>s%Oe=w(#w3&tIDod3+<U%$Ob?dAPA@tV%(2GLjVeaOt0ev)Fa
z(_%th?%Fw%%~`VD|5W~S{56H=-R#J}KXzPZbBVgShpCkz*WYr@!diLH*roqUY8Tpj
zRVM%9{`K#S6nGAk>Bh6z2j6<v<ZLLquwQ8BEw&wT(=$2xF8-YLero$Aj<%4vGrO<O
z*?Q@!7)at*gym-SkdjNgV&YlN!b$?!n<hW_{6Tl#wl&S5#avnEqVo%uRjnyA;qYv4
zOFx_HRX;^rR%VS%@Xgiv@ekNUgN)hKt*-_bl$h~U94bk1S#~}!Kp-H*gmrfJWT6|(
z1)G9xS<4UUeamsNGum|^NZ)S7>b|oNROZ)#(yIRfL9TCSS-9R-?69u?ePoTzr+Lb&
z1dLz0ZhrdhW{+?#D6<~5KCZOxRN-IC`@sjw_)=aLOxqFg`PDX1x_&hGa;?gruenz;
z9KTNa@`+`Ry_@O=LyP7cE2d6k-*%$-kC@YRvt!xLB~_f#53a0WF{^qm@@=Wu(~cIs
zf|&wbFR!a`&NUG8ub$v+1Im2$KVQ$!DrlX3?swvmGF1`v-!djr+B?isWUJSOAA&6O
z6E0|Bx)OinacbI<gwIhk7EGV+cV#2AfcWy-V)tdS>)}0%T4vs}JgT~KRmDcoD!S*|
z=~0WmM~1zd5YD)`nM*NmYmU=?kq<MQCeM9!^wi3KZ4ahCZYmXDR&DZ8!Ot;&@wMvr
zF)u?_mp{-jm0_Jd#aTnI>&|9Y&X^g6GvykzYdQYP#mLMlj!?Qim&ZeKme=B&w*`ul
z^8TI6EVy!R+LuFxyI$}1V=&LwujO0!dF8*e=Xou{<yB{K^NY<2`^DtWXlZ}FYK7)|
z4nA|`KMwcahMBX07kIm+@9gN@eQ8RTRe9MPMXBN!=RWZU9#g)*<_^o8Gm2^tDjv?b
zdns;Fgk_n*qO%2Y&adW3pZj!;{Xq)fMuzKxyFQ=#8Y7{%R;KCVM$o0>%N|5<y_qsk
z<;$OQ`x?(`?#OwZ3mT+4dW!eO{TqkX*{4q3<93TLcE$$AbKQ$mHY%FzeNvRfr@Qf>
z3ey2Y^I8>~-<CTrwO`0Cs9007^;E^2gC8BdmmdBwb@%37Z?p3oKu6Pty_?N_ZSQ^Y
zJkvb2ZErYSREu(om}3I({z!QGC*g<KgPi$M3j_)ZR?gtd6TTgJxc}hPnXgvcZNDMV
zY|{PRQ^rNru9_ztbgt-?6FdI0JzqUlnqz9Ajd_HnUCYb{*L;<(Zr&X(;=9fUgU0w%
zmRGU$8U1s-Y5H7X+suW(ypksyKl;O5Ft_M_&Qpa2rVpkD{3$HTyU`Q2@a`#>=8G2h
zpFgmAy3cY)3ajjkmr<pfd*^)lvBhR~pd;UnBU-I>YgJBwmxBI^c&vTm@APoJn-h*H
zvpwy~vvQJ{XqeaV`Sq`u6=8Y`D@68s>&$&R>+IZ<DFw@ae5*OrYM;iUx8`-RxVh}|
zf+HNFr((A8+^(6OY+-(cS6=Oc>aRO@-RfEVs?MA}c=Mo){rWj?ex(&Wo8CNGuGqMs
z=iQWv2J7!Qa0%Wv{o$X^oBp87|LYpN^8LkAf;Y!St^V8SbWTvq@kLFoqjJuUX!*wA
z*S})+D&BB6%=)1|y+~-oT$?lPd|k!i@=T9-4qsg5{@}|lyKwuktNmeuR%T`?lBQhd
zk)FS`P47OP@R`kG^Sbj_wZ*HYSdxpSjAlz{=Vqx2GCD5F=DqEb+bHdK=I(<>tbC2;
zdEUMU_GraATQ$GED1P&&o#59-(H$0S=5uDeK3F&_^+ToZ?Wv~)|27Der?;+p#kS+&
zkvkbr@0>Wx`XK3c)8lxTa_uM8>~8b>5Ado#b9?aT^rtcl8P@)L(+p&@nzy}vu;HC*
zpXJ<RFZ#@%-(k5^kd(KlsO$YTuP4gte+p_vdM)=U_LX_%FoR@x-c8}xs;^(LyLU;>
z8Q*$_b5m!&Doe`aImesATKG6BhV@*d*?exsnsdEVXUI1OFYeqaxMQJ~o&o<Zzd248
zYVYoe%;YWD#ILw%{bsA@Jf|HZcR6XMS;ZW@Q<!(TjYDP)%b6&3=?$Vgih2CLDXKjX
z+O=5y9P`|_Rq>g>%8oEqv-o{e40~V_%&(mG<&#gTU%{?x_8hWnlsFatKmMCHw_$Q^
z$I;}ia~5p+v~S~4#}_OMx7<D=aaOYXu`Ls56UbEK<|fl~I~}JsP0u@%S_Qg&eC+|%
z<5OmJ&E`ul`;&Fc`^zccuJ--|N7tv;uB%*=bL`%ewJ(4BY+SaO|K0iN=bruVDu4GU
z>e}<Xf~qTWEZZ21dzW84zp5-_`+=!5Uq#lgi?g&431V5q8M)_Gv4?KUH}}eQO(*v;
z`mKFk{Pon_y>5I5B$uRIbiQmWvRX(d_RrDhpevHEKF=#yCT~33F1Kz?;R@Do95Kt^
za{ar*>L+WuqwYZWO6fa{7e3q#SlFZ6ese|5Z`Ye^PlL`t&D?$NV5{9Km#hp6xee34
zuIc({&L7@e72glKDPGg!)-;<x_kKJmxM#JY_d#T3->aqRACwE`ZhI{=NA6^9VBU*>
zmpYMORm*DTI2q?N$1Hzq#diGs)$YjqbGGxDeBPk=#OEE`4!_%_Tz<|Hyz4DQrtA&7
zerltR@8a@<AMfmF{>%}xQ}Lc%SXXZC^)vs?w#+M0o3mxcmp@+n`BpwWIk8~tg7cvA
zWZDs%$~AlKk8Ix<p|oz{BRLHh*%cO^e>d?KWVs~C$*Z>O7#LW6=koY@+lg=O9Ye8{
z8qlP)?m`jw19PSL)S6#vaGvp9|HO3P50#lJ77{GaRZEvI&EL$z3~I!JPCu(LE1#yf
zL~52^`xT~Q{j-*(soc95!F$YKD3``M$62L2iJzaj)9?ytJ9$Jyck>m2FP880QjfhY
zY@EHS-X3(KOm5KHlCKfFKYY{<U6X4*>+nB;oTugn%8!MfRPJ_p-Y?lWxwb>pV%-fB
z=gbbTKQ~oVb>?fWeQpMtUlWnZ^L9-3<X--pL2{Rv<E8+J=p5Ng3L8q4e_lz>Q~6+N
zq5NAwxZvf2*UNJzemuP{ziQ3g{!`$qY}UoR&}4mi`&e0wL|9elqNSS{{q$cK^X`~<
zz$~KXuU+EA(zvuPwigN?vtG~DHoiLfSIpmt+Fg&doysfk>{a1tajMAUC}tM9X6}?a
zzj<<PhuQC-Ww!)oS<d#o%h<j_YRa!j^;=t=U#;%0_ed&BT~-w|fA@i<8(cnw3tPxX
zav4hfYQAK;WbqNtnYTc>(lFN2c+RGyN8dY|c5G?Re;BmwlE~&PY0xqz#yl4eHw~R=
zQ^~o>y0%lc^S{2QVj&Eg8)Ri~wYwI!?9Ky@T^iqecem}>S0TW$MCi)>`z*7;3hJM~
zFtt+QWqLnHHb$mk>$KlbEO$H#wq1FC>w`VhTP^Oab^c|3p>W3algsTG)qe{V7ql1T
z>HC+m@U<KKFDNYpotgYA=IgnY)B9`#`NZqBlWH5KSJ&G!rGqXwl#%7LQN4Rcsz}jY
zYtl#kc|Sw!nbN0!-N|;xK}P@Tfg?8FZ0U6$6?+`Ar%K&=HOIO%Jk={-c1`<Hi~E+}
zXLy@+q<4H-?=n}l{tQRV`hT`8(=TicS`healK<JGLK!jJ?2ZdMeQ{UT+{g&JB4W*)
zcdX(?tUlk1o#QiVeS28s8eU)Bum0f04C|coTTHR5x#A9#rhS%vaIVyM$FfI!HlCL*
zX=W%~zWH2#o64<QI@1$uT)*DBvc+S5&>3N^M{&h3*0i+*fevvoeK_lFR<-o@5-xMu
zH|u-)elwMN=P=KSy5167T|0Nt#;(`hOFg19vwu1Hr`pu~W|$Lqy(PA|_GRC@se0in
zpK#~Q{r?<Pn{b+IFE{D#TNNPKBzS@M*fh>NXTCjVwAj6lbAMvQXKV4&<(pR)cmH3J
z6AL;nz;{QaW$^Qpt&7|?PR#q+|7ZHk-9De&9<r&XRqwvKKKszyQ@vg7ZWZT0ZeO_U
zoWzDe(YK%W-j%v$`Y_Gm#folu%NtuJSUoV=@`>l4-KMpQ%krHqVry${8N{!*Z&=Uw
zaAC7RnRa=zuK%&8377ZwsXUBd`6T{<)m&fD@m0mO9KW@+Ub2M;$)+!f_?IdyzU;e7
zCDXbeA@!Sz+^TLq6FT+a)X__|>k@5QmtSiy;9WPH_hhJAne8Ey?9z|o*{8kcrZLZn
zlRxy&&P&JX;k!15%+2XfE+qH<In3;Sg8jjnUjpk6EPSW6{9@zTqje#2$KJ+#Fkz25
z(tmd9=GV?Y>el>wT5<2TR;ye6#b>NGi)T$MVVchOu<_YL(E5Ci`wtFXFle2=PMf8s
zaE=~m>gDHG#hT{sy?t)~{yFTJvf-;!-uZ*AdcU)@W}6<q#s6!q#1FYEE&CTNJpCc>
z|9S41O{+~VEOgH`1C>%=X3TD~j!XCN_SxgnQmNI?8>=Y1+U&YkjP!$ZdcUQbyv_H&
z)6Cj7z2xU3;~lDBcgq&cSSfb%ddgFSr%EXc_8HyY8mAZ>rZ=}v?7spR!}c)HEyF*h
z3;x9X&f}P0*H$X!zwSl48#~MT%3C6(XCLGWFRSPC>vpc#R+KQCzryj%ix*GK_xse{
z*t+oon}ssp!<VNT^X^So-Vt`E-N)+WA&1J&ZL5Q}I=y5r*mn8moOLk_94{Ok_Uv#`
zO<4DpElX=PXYdD~-zswwUu$sg432%7<9C3SXWa=k&s8j6gu}NKZG0*F{%zRJmH*b;
z|J}zX{(7-W2^YtnX!gx*JAPOu9TMa*J#XG$>hoU@yifUe+QTz?KK_hF_DvoS{4BHf
zg4+Mf9~fkx*y2%I&{c29-~L=i<@%0nj@NRx`19pnv&;bvRX9$Vm|K?JCFTBJV(Rj}
z4*Ibg%uYLgEdR7pzFFJ&YW+X4IWL!IefqvwLh|H;lq_(kV)=syy?yb~RWa8$v|Ucx
zreGUpuJ+xQ$$h>f<DK{a9`WwD^4Pwro@3gF?Uy9Dywz3zm>-Z7<n#~cTO2xfTlT8t
zVs3}IQ%-MS<o<W>qml8Y)64~%g3q3lGT$-lh)t4q@f>xPUq4p5oo38`uEk%nQbtfQ
zq`2i1=rV_3TgK_<C#}oo$h{EvN!0)9yvN@z34_|fEHdlo25|U2VEZ~(zr<4~xX46x
z?H98*pecZ~{?Z!<A4a(91s=M#5_Ep~l;3F&u4I_>9qgU*`_So4*6~aH7bHIqh<*TW
zGb?sV3Qb>i+2+XCqqc5cUWwZz-|&HEMa1(D@?O2Y(E9bnU}w#yyz8rH`AI&u+_O)v
zF<ANiQo|k2r9n${ep-Ftar-xQj#BaltzMJ7hRL4=j0^r0m6|5@Ia*#@a#@6nv+_*q
zI^MdcuPPFl=SWuS_a11CtI|odV>8Q(59nNHxglD5(V39#_q-oZmF{pe+`+hAGU*4e
zXxjU^ljpt)bM=)!t2k%X)ZT2-M7a$21Koi_xAd;|mTXVE$h*$$mEqxCpI6Rncx<xz
zd~{@gS%`4jao%-u-zF)5H%;9<wRDleu6<LIFUp;mXmIS?FRQYmsq$9$?U>X-gE5O=
zG&66RR@rfJ$L95#hum5{^`}j8oxDul?7-Ydzh<qM$w;uc<iNHp$6(5FD;D<74b7Jq
z3M_D5V}9W0>E%(i40#48PPG@e&%C*A8(;Vxu^p3~dsro-3l?sk<@tR6%Y!$sA3Uq?
z9vu<A{9Bmcrr720=SW_E-dA{nr9?(y@$|f8gXjmlI(N3c?Gpc~C-*JU>bLWT7=gWs
zB1?Yf<g>V|NqVk5u+nfxUQ!;9o~-KJD(l;IbC{n;w^ru+C2K4Sp2~Apx!~@RJ4|zA
zFYKRr^m^#b4a)Om4he(A-fU!I;a_~2tC9U7mzm8@#=pO3tgN?ZxbAyKH%xEWw&q#l
zeJii{E|)6Leyf>(ZU-x9bHUm<QtB2D96x;VUZ6A6?~V*-aL}{X=Wp0{1k0#)-<6sX
z*0kcK#zXe%jO$<hrbf?N@uXti?Thoe*G=^QD{<#(u&vrTbM5Prl{Fi)Lmw>K$2Nb#
z8TUsU%VwA#Sebe=G<;26MdkH0?x%Bu_uBHEcTV`0zoOED!93;bZ=+ya&E4A`{8AI&
zeQNVs#k+BCuNOV(mTua-se8#bRzI!pYY%+g6;-h&E8#KQYq?C59gKcj-+d1h9%Z|2
z^uF!&+~(NZ7uU+@@!2N2+b}$zmU>-UX1ht@_MkZrS9?h0DE2KjTBx<Z_?@VXgNB7h
zAjkh_b7nVuKE3Jn--uwxMg9d3G%O6J^KS7!!gHK$#|E9<X4=cE-mgiqKc~ENOT6ZH
zO|g~C?2~y5TyKB<+h*}X<K>eNhT5mLM=j->dZ5&FC2zr`x4-KD{3zvJr*^JiM4+Ja
zTG550N>|TKiR-gTD3=I%ry-;d-6vMVkmnKgi|z8Nw7YepCAYRPUSqRRJ-3r{he*!1
za~k&>H|dN0Ulw8Wfa&+EeIH(YKj69TwTw)AM!N3C8De=aw!OK0Glu_CE@-duRcmvj
zmz^B<Zm(82=v;JSuaW!o`rOCgKzG=$`u;#FFMcLZ-`>F2;?D&xgLcl&IT5}5fk6NF
zO%v`fF#4#r@2%VAU6$r+&f9`Af$r+~>udf6-hFuc`9tHBHoJ&o-$^Sn71ifHWxr&4
z>TE4&70k_*^BPXq-aoN5^VZt*FyEhL8CPYlO2tY$m8FA+Vv?TrIa}O*@LQ}%b<U{=
zN?*TSN)1{rpa>pd-8?mUZid_w{l!07@0`@1=$6@X?&0f=T)St>793svi%GqxW7d&1
zzg{lQkI*%E)WNMZ!|2@e_<6fGL|Q%SecLWKX-4hLmGh=5$H-3o;?tbJ<;Tn|EYEs<
zgPAyEwm8M)GSB(aKBK{V>C48>ZRea%i>MVFO<rzt_|CNNj24^q++(zl--z&?!56c*
z>zrCur|*>VR-akAx*Us)N+&-NwAiiZZZcV=_Tz`y_l~60c=MaGot5iKeOpugA*Z1@
z{&Z2x>T^5qO@1PsWz4+Uw(h0hRlhem4U_)~T;^>I-~axB%+I?{stQ4A68eTy4;WuP
zdZ0A_=@R=Re>OH*>OYUJJfXAk;)_*Finj-K+q8;5X0x#5|M<9k|H^}R7rhe+{r0Zw
zzD`HW0u~((u3GObiC>METTe8|eQK$lx$@sfHks|tbKa{pKm2u2*5ZrM+|E=1A<4cA
z`>Q~M+54k+Uh%NHk-2@^^#hu76oO~4e}4Wc;{3VFV&*xoN-n2AIF#_Dp>L9ly6D_j
zCG#H~d%AC9<ziVwX7%Ta%ihm<?P@16=W*w8XYD1M-8~CFbe(hauxAGkLO(a+etFI0
zfaju+S8v^{Tr*M^@49C>lP|Yn^W3~&DNp}&-1#25rB!ND-L17jQ;V5n(sqaKdbxS(
z;uB{d#Dwm66ua-CV#2{KVO+g3b9XO&BlY~86#s$Je*(Rgt$bheY<DeYG2frGaDqem
zbZhR;ncG`ZE2iJS@Jc`~sBrI8%Ofl@8+y5}8Sp%q?I2aVN-yso!}XueXAZP3JSp^G
zDSO4Cc73tpNZZT4^`IUdcfs7U)8fws=DrYLY<$`I2Y3?X{Qail4O0&KIs~Se7(Nq{
zu)0*^xM0ORADPRiEX6!RN-{54KfmX42-J&EJP<p_H)09jlS}&oXQq|(W-*JOVfp{+
z+&-ZlSzf{Xmb34jv^&BQ^Y`e#gGVPH**C+uFymCZ#$L^Jq0K>$!CkG!$C<qcZCdJQ
zHcn(HKh^h<=N$N&P*(Qz6*qiS1$Kz=iR{{>^?TuCvwYAnf~ZBd^~P8E5%)gJdM$q&
z>%=(O)^FW<cF_E|*0$AByrOmO*AFgD5<SQtwDZT2cX>_wH#3>1G**6Jb}FQqdoMp<
zxY<tri|5=oUG<qUCDxuDBtH4~u_P_^S%0o4N_!hiWS1K(y~46MUw4B$$ke<x(-r15
z%2!oNz9`Oleteappj2P>_Ico)iT6Wi&eHTPzVaYt({!<OA5@%X{@BO&P`P9C&m_5T
zQrFVXocI_!HIs3j`I2L&BClCo>Nx-6f=9ooC5ykX?2RK<`w9hSHG;21k>TvGIMkK5
z)y{#<YVED?Lgtw8)LG5l%cPG#G5gi&Up#Bl(iPg*wRDdZnI9+(U3S&_dib)JbGvz6
zw}1KZSS6*3W!-9{vtjRQRyJNgWUeOgyS(rBTAO?QK8pK_EoU@phc4qk@Ure5_XDe^
zNA=I`<6GIWg;7su`Nh}ArQFvgm(*4&vwiz1zF&u1IfPkF`oW_jsaP3R^}cm!Z)6mM
z3(6n<n|AnpOh0&Q_xt*Pxx9X%iMyUIs#6u2u~IrLV$s9yvekxb*PWlbeH$;=WcxG*
zy%T<4S!C3&GJnnAFm>nmsnPMStL4QGE1kZ}u>6RkO|0dNiC-t_m7J4Yneg%G_3Ji|
z|I2`zlYw=omggF8KYoSREOOPY=6K8Y83E>Ups{q;9S0vU-`lzH61Uvy3&!Amm8*mI
zGA!S*cXq2*-|My)Px3#OpReTm$S~(k$a!;?Df54dEE8ceE_%AV?>8^|Q!e&n?CZ~J
z{kD~Ukiw^U;ANI`N$hW)o#n6pO7X6|FIjK(T&p|8IPFP^@zvl03DMF`*N*O<deq_;
zqaw$jKK_U9;IluTx1Njf<8>5qi+;Z3PSZEfeLougenxV>NiHyIk60tqQdL;wy6bza
z<#U~sedoQq58rv<^x)1S>3x4?V$6g0GCcR$u4^guY<X=czpxp*;Ra6bH^l{6wNtK0
zANss)%Zpg6>dQ*jpC_`MJ7axSzWMU&#Y^HW^*QfmKK;=vY^afQV9tgccR-U|w-R}a
z4T~H~WPUto*nD#02h*w34qP+~bP7y&d}o~O<~QZDKyX3fn;Py*Yu7EQT36&^et9RO
z-#KTW15YQFM(;WQTjg6z&^kAZgnd`p%nzKb>^PcS`exk<&5|WHzoIPdKOH>C`!V56
zDjP`4!MP{qonL3i-psGR{!YyCOjS;^15+zGwz5r+&<{LU`|y{QrCr{-7`?`ad9q?_
z?Agn^7N@ZK6>qs&q2JhjOmu^j@z(37WcMs6U;f5&NA|K`e@{7nU-oy$o|0X54EY5?
z)AE?-ym8+0h9h|6fj<+zJlez*Y`Wq9(L}3`!!J~CRopnXB)x>AKQbY8S(Ve4T?Yz7
z7FBOgWfiq~_s4vTmB<=NN723DQbE(A>-jHcUiC8$E<)PrOXYunik66`WNAAtt-v`a
zdo8ErRMc24(_DIKMsTcmD#%iu11s&cJnID_)R?wZO|LwZ@%;p-Sv{vcqJjGkL;l@q
zj&GkanRq>8S;FIVY~J!6jCvi5Q}#t`F4(+wgU|1ymH`)EEf1gglIy{=A206Ao{-6;
zr`H*FHt*}+64Ce9CSK*4(SFrzWA*N>tBwBp3g_&qddjw3H+YUkQTEmY1tzyQU-aJb
z>6(wr&ZSa6ldB5AmwYknxlWxUbx-+@C7WzTW|4#X30Lq1M?5krn=M&WtfmGnY>@6;
zsgQ50-g1c@boEiqQ<-+3sfM@1xt8|Dv53r6+#ex&z64x&G+yr9rTC?#aP`W~mwk`F
z_+?qV_Lt0@kpJ_Vf)_tZyd|(V&uVo+=lpvN&yQG|vzDveZ<@t5|DL6Bz}*80w#x;k
zR{UeL&_B2H=qXLP$$TXyFCX~sjQ*=}ra5|wN>xsSc5R2bcDq*M^N@(D&bu`#_SYo;
z{$|`^WcWSpDZ{&-yBq~cMT>q^N9~gD(PpxnATRc*SNcH_U!kd|*aN<Oy2a6d>{_g)
z_x*`jKJ{$>!Ng@!&+nYiKX~!;<4rr6o?dmY^_1WEjomhyJNx{Z)`N#W-jka-v6gS$
zX~kRLf_ydJy47(NuMPinRME!vc~HN6aruV(1)#Z(T{200?_?zI74SZN;~V!Of!W)L
z>-|#q2fJjFc=YCO^P4oIuzKg>_a%!eILcU_#@$?!!yPl-`Ak^fBg@;R1xCFq9v`}3
zT`sfe#6HG#rxllJi?==HxFhh_LVk|<;WeJ0EO+R&&sZO$t~y)3Z2q~rmj>Bv_DtbL
z9sCDw)=Amw%4Yp~@%Z+Wtp{E_(k|G-RJ0?js~vnO@6kNoZQps0ow|9;K|@~k`D)Yh
z+tE9V@4D?jSSV29@m_U~!5!0_=RY{-Ogoi-{@}~6N9L^bJmdU#r?AUvKUZEQzhvRJ
zg~@p*%6L<kRfV0%^f>dw{CL8o{L`wnA}O<`UX)zOy_qr3*6{k8ImUC3%lI3A{yE8d
z*3msoTmN~keZsio>yen>5!J8V<(Sh2{+T@7w{L=T16N1Y{>i()78ktk+{qo&Wk2PM
z>67PH7w)n#I(7-<HAMTL3Dp+=9d47`Avk}Yt>6Z2$G?0VA9C6=Y@at{^?`$z_}bUH
zTAs5gjs3HjrTu1Yx^@)U3FXa?{a^E}{HY;XF{!~q-+u;gK~a*Q%%P3D6u&6SM1C&g
zT~jKsG1+-p(IS4sy+1CmsIlFb*QWAp!P6smMCQou)K%ZREN)s~zvbO|UFQ#q&VN;|
zef&jF_SdFMfkL76&L5gZYu@k{WXa~3J&1_j_bL6S*RNYftIoWiQzL4A;AH2{m&vV9
z6xsL4ow{xoqrH5w!Q|u;gH?QISMFf+^E;z^;Gk@`S<7N!9TEMIX@-Ku)$y8pXM(O?
z-(DuLOFnzm1<A<E>D+AhJ7t4aY*Im;plb)y_7<Hg`5RUyG|hFQK3~i7t6$h3{IR<6
zhe2kavak%Fxo!Ii!93P?cbL>=TaNG+hCPo-czVXC<Ft`e&bnSE|0UPw-#d9JF6q^u
z%FAk51)Bav>a#lEd<M<QieEqYEb^|vaYdFb5_8^G-21UR{k{1X#&<F7v(vvuOnw+=
z{gI=ft$l@*py!m0TNPf}u&4KzZn)Vn`P9sp0%1W{CF;u+F6?0hAFX|-!b{k=^-tCI
zIlcxrEr0z^)n0!6V4Cr>M^!(g>z-TjrZgC*mDSdQPt;Cxcp-3QWlL_z{fA4=gcSa|
zm%R0L!sf95ayw4c75ASmOT9kv-8VLi?J{1Qzn@@yv@P#I_kBytoXPU5@7(U*v|3i^
z`C;k#uef8B?iM{<C^hx`r1cd~Wj<f^Zs<8zAFXqfN&V{n<=W*w=Pd7D{4Q)!&b8@3
zo5jk1wyf;jZ5MeL#%&9CIdrF!=QF4=QTjTnHTlCU=Zf1arPM>MCf-_pzsKmPh3Ok}
z7P~Ztb)Q$xYfRp|Wy$xDtrs`9na)4-H9&ZA_qWU4^=y7+tDZm5aOS<V(;~B(Z_BU4
zuOIBNEH{~*@ELSwj4k7FUEi>{mL!W$vEgCwBvh{Mcw<o|ACYAXnk>Iu&ZnBO&o#gJ
z`5r|R?a2|RbZaioPfqGA*a+@t1s4Rhx{2lpUMt?Rg5_7)+Cvf>JC>Lou$=h7=b)vF
z>Vaj84KKb9Vsid=b=uj_We@7TQg3WvJg0y6=ezQ}6o;Ab!|c3xmMACOEq{OQamJrE
zvjeS5t>d>AarEvu^_oL|ZplKMu=Cs6E>^u*(fYb=!*Q2KZ$YQAXIah;3vd6>@%-#X
zuJb)6dxX+NySY9sx{}|1=gWnkA^Hclsy@7QiO1PFxnyyR!kyxRx&B{yWV&}0ai4S8
z{c4A`#qzh0Ejt?L)|p8D;h3|=$Tyr%X<bd~{kUzCcUOFG4ZGRW^_u}Ceqf_n{-vv4
zt0w$Pdm?eycUn<^y?22fd-y7!SF#qSk8;!wi(G8{?NzxNbi$an`H>m_?ykAx5M?(p
zp}JH`?(K{-wYCiEJAJyRUXEh9xAU^)gZRRg@fGLt8YT-Dul=xQ@6MMT&#QKO=}dgn
z_TYU~L{v}E;cwhRL7?LK$&ouEGP@Z+*;@wJuP^WW89uej`rkTFFa5pBPm~LalJYhd
z?aD7QES%>Ypm;O;g_hVYX6XlDO|kJgGJKmQz4E<`Z)`nv?WTNFt6-a&tv_gX@AaH$
zn=oOkC~a@WQxhk$oLg>oDOT$q!}24R+ZnF6ZF`#6YSi?;tKDFg80g&KCr9qQn#&#Y
zD!(OtW6`9**8Sc$*NE)8#h|YK>{g*&_Uq%P%qti39rab$=i#}0YGumDyWI_a=XNUo
zwPvw2G-p2U#B-=jUDSr%Smw{A$ZH?M+3!4iG%MVQ`MJvBs(nT5uMHCVxc4=zYY4vd
z%h3M1bIMMr4?6nRSb9}A`qkue@3@%UI@kM&_M>^Bw?XzUdvKud!HbXEj{1e?C3#<R
zl`@Q|+Fx9!HvgC9jvX@la_?K7{w;L<%FC~;eU~ojZA~~l#VxOZd(NC0(Qm_UXHVE{
z5FGCG@b85lsa3KCfkiV}cFcM^Yljc}8Ziy`y>EJz+=I+6JY0VIi;zsqq6yhibBmL=
zWq({bPgd2`V)?68^K~EWSsk)fs8-^dckG5ujDAHk#U3b$ui>4t>|8`1N1vnr%QFlm
zZMMzt3pel<Oge4CDz13>-19ltrnpRL%&&TSr!qa#b%oA3A94A{$)ICOeEypM>VG-s
z^`G*OthMp?jtK7M6TW|Et#CnJ?UXBbzNBd!p3gexX<8kBAL};%DrOD#^6K|<;^kG(
zTBo;)R-fA!aii(bN@l*;Wj5E6bME}(nDZv2`_1X_2O{MG%q~~9l&P+?+o1o{(p~$y
z@6XuhcP5_O=}~<mLvP&;!*t_QeqWj9JoS+94fTrQHlMqw{NEb2GtIY)GI$q*SKTnp
zk?($NsaC&Oro3f!MaPw<O3rs*4$AfJx^Vn~ALu%)!)NC|xt(A9yeIF$(I2UXHK!%n
zv!9qB`FZ}}%2LJS;enpJq7JGZNG#%<+MCt&<(zEIp^O5x9_wv#*)vzp6D`UrIDTLo
z>w_DP8UZiXDO689;2LqBk!jXOgVpz#()Uekog;PUq&uh8C6Npf+eH38H~D3Ur_Q-4
zxcB%S&<W*#%bpf2_;_4$j+)Kt3FcjCbKmdInHTmh<+?K0%Za<pjvhXL@TA{Y@JXCI
z3i3NFCT{A{@w=xr<x(3*7|+o)t6nCbO9Nfv;jZyOUNgkJfK7h!;+CN9C8|@UZ|DCK
z5H8phyf?=3?k}+=@7?V3G}l_lp78mT%heLS?*FV^hRl$0+`rFv*j>-q{b|iD2ktjZ
zBd5M>N#5|e#yhXU`lzKjEBo%x=N?TH_4=)8ZxeQQ@u!Oyqo03WXm;S}>E*w8Ez}e|
zUZ0cU+-zbw_h3PkzVMd~mrB5m46hPiap^}>jNVp0t(vF#E=>J3Gw5KM->WQUr>Bem
zp8AOK-Rf=c?@WK!|Ay(DdfK#a33@7zWvo-=ju{2pp5B+VwP<eo_wap1JD06^Y3kCi
znSA+9@&DEbZ>)Z=D!IHdzIxm0X2BzhXHz#SRtU#0{~%_u{oKB!(kVP1XBeK}%GjL4
zaoF^smtrCFocQ$kjknhB(obCU?a23iM;9#I73;Bif_|*DLD1)~950y*66e-leV}x?
zbydIj`xy5rrv-%CZhy^Sj)_T+H{J30MSJc8!|6FT28SIh_n&%@B*eii**>Xm{k8+1
zdXqV3=0&N@mE2peeIPQt`0wdFU!|=RldAkquev+yQ{<`BOh5c>lG59s?2D*bm3}jv
z*N^wjamVH9Ibtp0i?42tj_m#2)75Zs*@ox`SFC<pt-gEfWk!RnqW0fqZ^F)R4!w6#
zcHvyx?FT&dE{n+A@~*9&x^`j2biV%=HeXQUoHOYeyYvH<>6u*TzQ4W8(wpq7sLj!w
zAAGg&70Yu*i{0n;Wfe?(nr7mW@KI;-LH%s@b1UO7uswamdSzN;8uy&&^muX6>ztb^
zALd-LO=W*#=X+3I-moJ*bMu?V$->2#rxx#x((YL}iIG`t^@}}=XWRQP-ajQdej!J0
zrq#JSViu99S)5DXttfl_(CV|`o3OeYA{#VhUmQ9)(SRkPW&ZC{j^%baZ<oGoYq_){
zWojm4-jZF7s!4^jb`_m};AiI*&}}i%E3a{K=rT?VwY>#vmpnAOs69O@MxAG$Y;2^Z
zRwCn!<c!}REiH6c`&^!?T%v9sGuvC_{MO%V^i%$Ll`)td(46`4e@s3{%+&9vcx~oC
zR47q7ygufzPQU4^S#p7)mpS941e2B<><ju}s0_N^lu55#=10-lUFI)u_c`6W7c)(6
zwN!e1Kj<#Oqo;lz<aN|!k-oc9nEB8bl~~5>oA$gFgDk{;l(8Vh#-m_E(aC6O^EH8q
z{BtHt{^z-KA#`3bN95(>;!pm(iJi2{`!7GpBu$GMCpU)FUoJRMytOv<4figCn6jxn
zuiYOkDY`E*r&c!oc<Q4B*KJupR?1n47HM!T-CCB%JtyQ{^qM(W=g#IXw|aZvliaFR
zF*mPde3stNu6JL+es8Shcdzi8r)BdF6vl^UC=|1|-w()GbHw?mY(eU>U(2^^r?>C=
zzG4~wl$y+^YMx(}3oP4rxOs?cAHO`q^tf8%>lNnlI}~*6uXar0ysK9DdZSci>aUNx
z_pdr=I_K=X(^Ix(zmc|9&*Sh*w=O%PkYDN?m145#)E0*2meChZIjuQ-U;0p~u?)j?
z&I90Wo17MQt?WkkKOB^dym#5&^%-bnWojm$pStPdZPHB)JN1G@o;{qXv*k7GUC?%p
z;DYBJ4F}v$KA7`Z)38oBU+X#B4uy5=H7%;@)~>C&$=|HSI{Cmd%OlSpBt5UOW)zQ0
z|5V4b;QLFX54}uxZyqn+qPSzHpXPS%&huLt^}=UrJ-@BFBPCK=gMD$0e$0bIH+N6C
z#64@$rmP?DEiJTn`sk)#o~e~`=`GtIt@laBT?O*0HX8OuFJC_Yad*OI$<sbxTM}a%
zFK@VFWu^75(de?~T+@OnOCBB7)!GZL0=1w2oSVJ;qT{>AP7UsN8|@6H@Gi8d+5T~X
zg6+PE=`$K9$1Ky_k({D-JWr4LwZl2(nV~Y878~dA=76pkJ(?`rtNZxghetmja=U03
ze#mLi4psZgH^*^zDBJ8kMYh^=^#57y3#ta?SVlihv3a4>7A;uxrRkxs9#?SM{ADYI
zc6{iv>0FwS=K1hWlus(#y7fj^g^SOH^_M=FGVPy3;q)1%!KXH~x!uewn(`&q+5Ab4
z+wJg~%O3RIyU{H^CD_@-<6QO@FI^i?xrW!PeS!;|jg5XREoo&~6Z7SfY6ai9uc6Bn
zcPx=QT3%VZ-Kg+h*UBE2bH&LIS}d&Cy0#tAESz%Y;Kl4KcZ2sVs5#Ukobqe2MNP8P
ziS11V(hrurI`(Dbs_D{^Sr2c|<-H-kyYYd}LfJ!CkF5pWw5C4!An%S7k&c&FdER2)
zXzdk|BYIi?*5&{8x6GOE8yA#WO2#xAuWt^$GD~K{@;_{o6lQSOE%;)@{CwKvgQ7b$
zOPvk>-o8BXp~BVR0}Fp%kTA;uwJLM>U)`DJT=7!kKw6l)Jm+JzX^dfhtK8#e<((+&
zo$LRVMP~O$o)zXN1-F|T=zP%G&n6z5$P8*8HGEbUi+Eu>fB%m*gTRWI+=l4tGgtek
z^6~0vL~{L!J@HRY;>WYDtx1~#EY?Rl>u0|QuZ-ffUKF|W;0X@xZ+ugJ3*>D2Q{diR
z!{VoVQ&7}m*QuKeW6x|)%9{Cl_1P(E{@F8DX{^}>>UpwSOn;%<dqGBSb+YJ%wo{!&
zEX6am8t?Oh`oAo*%@>L&uipDi(S+^Sv>W2b&+d3*Ggql&`|IL$*Kd|MJ7ww^U)_A=
z!gX!+yXW>#n!zQ$hIMCt>Bo9LKfg1+2X9XA+pFHWY`KX+ThkiJ)mOs)tOgmI$8~O@
z&GocJl5@o;-{qWR+5Y|xxDoyDTx7`BBbLYeLmibLwQ%my)>|So-DDj{^n)eG?>yQl
zweHCUwJ#bE(n}S&W)^JMa{sB5&dnO-t_N-di%B2)WKwlF>{#Ag`|g9K=XlN^WQ|M}
zQVd>k;OD_FLOt(hEQtOYw5<GGq4AEQj(rDIuSxXW<2`!P5VW9TjgjwxrO&mFospRP
zk}Yz7&<T~7YSN&cSG$U)Fni7W7cTV9*>rDgz`h?#d5*DJM5adBgq_ak-uun)0MF_M
zX^Y&4JoBpcYr%W{A6Pwq`6uG+&FU!&e?7T%I*)ly^zt@Si^Xh<0;^oiJ<aXiwZDTl
zh^!Aj9B{N)onJq5mx9iv*G%VLygT(&=*E^!KP`7`@Z-%dcvUKwxy*cbc#UYu2L3Gd
z7lAfCmvZWuV`7%KowXFV)-vs`|9$TK+~d)yJi8e4-Wop7$}BoBS-<Y*R5|<H>ytZ6
zx1QvdSM@(7n5>oeapk;<Go}xm-v9iw_OG|0vU*Dg<B_CY9?O;37tYt5a_)fUOewvv
zb^G^m$fjB>3l2^7%q(0Do@nH>*rz0PdEzJg=lY>{EL7q)%WU^JXbzg0EP1*h>Bh<j
zOOH!MslH`7zt>`p^_oS}?_<}dFy*~9yxtIeX|uI$=-Ij3+#U)k3O_m7x8%^Du$}pA
z=Q!QY{n>cv^S;k<hmxP(?#}zqu(4Tt-sel*h0HNK6~9Cml#~?y$uQVnvoU%@SzrH_
zWmn#($1HPy(3J4RM}D>ZFXsav*aDZ@nXL8KNvYSnaI-V^>GKDR5}x=RJbKSp(?0zC
zGw-;M7i+vDPrdua20HC>v*MapC0jQX<vl23Xw1zF`v*RWzT(W)_c0Qg^)=EHOm0=!
zG;)6wmp`=Ezf`&Xeb(3a2iT?NMziOv_PNOy=e4V5sZ0{rI{AI2$-m0q2ivkgpF8zP
zW!=+XwM`BdKhCGGN(XO~<$L8+tH}3aO7`2w`z-{v8S7nUF39fRnfBDAc$xHH%er+R
zU%V=gpKwrM-8E^DhK)sHkHx2?JUrZWe|lST!-h|O@8={<n-k3CcenSzx91Qg7aun*
zX!qa@^?bWAnps}zi`*qW&hn`zInQ6>EpSw^2rlS5XSwh$Q_iaVXX*v*ORnZNXqz92
zF3<>N<E!LvXVwxcSo<$%-w(}|({4?YesFH-+vBW##xl84FE_HRn_uVYEncgg{Y~Od
z<q54|?=7F)OSenCOr7nlW*)I~@z#}QTbZ1K0-XLG?verZgF%g;b&LI;Hh6lSeypu_
zyZ@GYIWwqlesFGq_4_}!1eRy#%@grl{bhE-Bki8W<_At{UFMl%7q@Jh=h<U#XH7Cn
zdlAO>HuLG4IgH?Q5`+s*_O1zkx43-W<{f7rEK#}y&Rc8dm@o4DIdvV!;kx#d*H`<T
zncLm;_4$K8lQu^-2G3x5b)IKUYzlk8gpYkTo=i@&=bL)kv5QZebN1WDtgBr1&m%UU
zm)Kb3C}oz@5WTv7u}&;s;)S!3yHCkoOkW(9!%_Y%NlT$!Q?X=gM+@kFr0lQnxn(x+
z@&+&1eDgT-gCGyFi{Pom=BbNoPsTa=el)+@63tum?=(xRXMOXm56>T5DazRyW$7j6
zGgssW_Z;^}tBgLoiRZ|s=P=KS>(dR_W)FYryp8>1gzV~NCSHm%Iepew`wxi5s(lrc
zd8)&%9<nu;yX?q=IfqYOmAPRqvQ=`&)?eTMMkGcY(e!@JF!k@xS@%+-cAmKN%&WW_
z61Xq#32WT_J$K{v@U9l^`CD$BSYF5HS2VNkd+^+k)v>KU>%=|M-*+|EYoD{U{951m
z+STFj1dDpH`LE>j4?O*QE9%zM@Qq79iWd0wHRpn=c}WYt*4?K}cJI8gP-yeKY07r&
z>N|ak3png={F-)d{_5-wiIA>O%cpj4dihUg&a{|iFRjJhEES^J%zc+T1umW)apj)*
zfv3`s!t)PSTIJrHV0GL1#ivufJ-7EK`9Hk_8W^}$Xji|w-uZd-kFIAG4q?mo|Csao
z#3Stj=e%E$X{*$k@0(gg@u+RMHeDk;xsqGH?^0D)bl$J;Gwi=}fU3W>b4r8W3g6Ey
ze$~C%GO^K?NgcFHe+P@2Zr5i!Nfzx4+1(50eE`=PTzx^m1N-I8+Y>%MeDBoOX8qqs
zlK;3I_>!*jZ+vl2zc^PtzWA8S)tG;-{z|#MjCx(&^=y1U&t`1ldS|igX{CCB?9)o-
zJDRt=yN_GVIOw@B<ajQd#qZPicV;j9_4btGB7RQ3wak3$og5xWb-mTAyFcGR`oWY8
zecgLIH@|<dM7t?>wNCVH@rRM`48v|+%Ql}bX`y?|yL+lMN7g3m`S0cgH=aGY=`Nea
z$+Fy)JMLX`KdErz$mhvlYX6;{;u3Prd#j<y@h=s!hKz^*6oXbVZnbw|%`<SB@ahKh
zJk9e`=h6z~K+8Qica(fAKX+6|b79qA%Max$e@mF>r0hO-@aP%wtc<mttBj?*tSdBl
z52+pdtOnkoe|oBPi_g2I5#pD2JT8g4snlMtG}$Km;w;{R?D~#xb00skoH51j_$I|I
z?+=%VtdV}c$rdERHAg<|vZK>;v5jr_7uvtqJbSpiaKrNl_s)b=hc|M^q-0r0o%v~9
zwegM!_h+}p`-yv0tJ~Mq*{6J+pP#l$x?uUc6Ekh(HG_Za_qFW)_<^_J^~_gnGP5UY
z${cq8==8L6b)DTL<wVO{8yWL#gJT<|e{bE$6+T6G<N7NFvb{1kOxx$J%nLhLWO_HN
z>ieI<xNY)QudE7vZ#?tM^gpmReU*MeXCuRLk<^lcldoQOubk5^8595R>64=n<JQJB
z@UGNJG^&m8I-OoJ>+{Xs-}W*3oeTN@Z~Ok02V*}AWbT)nniKucY+aL>Yt>Vk>+`h4
zPkUP{HFI-B$V3<ZP+a~0P1>sT2Nk=&{o5VDCF%3?Vd#_Qbnr=#b5_o4@a~(pHRI{h
ziHno<eb1GKr?d5c<pf=g!KKH?9{I59$e;XV%`LoU+~+q*&Ma`e!>~LhWK+c&_cs}9
z1$rO#%}8*U(YFtFs9^9r7vdkzcPzm6zu=-k=Dg3>Z*m{VY0x&l`bu_3BHzTE14oV|
zGl?&`_M2_TBmRZ=8=H3;zv2_ywtZc}#RU=P_MQ&g&-3xlnf+fGEvBE_Ise`|nS~ED
zZ!`E$>i*Bco3fAdLfzt!hkKUjSQoD2Er=^JTQ1!s)|_7F^`|12qwceI?_w6e+n)XZ
z8Fw5iGkq`r+9AAK)sgKJkAcs_i+!sa_cH3;7pVXJZLYLg^Ut}`CoXNYlB;&IGU?>s
zy*--y_SdtgmIlu_{c^4AD@MVS&QbU34>s4S+59#HEfxICuD$&CM8Uc>wfp&At(+_H
zm(Aj;;99AIg}b7^9(eR^cIWkU^KCpArTBbpTf<l6hd&6)sZt91Fv~gJUZ&Xcw9nUm
z{sX;go^M{i`NAx0@qa(VoRr;u2bR9QwfceJu0{<D^)};O7nlnsy|s$9%m}+>{m#tX
zLUTgj{?%2wD?y8}tXQANHO8m%pG{r+hxJ{C|3j8@`+7nig3q1cE?_QIY~YUBws?=g
znQJ++9Zja+e`uO4OFrJdw_LBpW%W(#_K!=?8L%>y?0v3tYF%t{I&)0myUW=HF&h)N
z?Npa&Y)Xm_TemcR<))&-oQyx9VoG>rqV1Z8H^N0e_X^xN6>?|#(*={9O8Is7J-)TJ
z(CpmtbB8rvT#Oa3STWl^jbYu7kn>!Y8+R%8OyNE7J@QiP>t`1)emc5ZP3G=~uumLw
zqQr}`3Vgo=x;VT%6A+`eMCHQrV&k<j-~Dfb%G0n14ho$D4v#X|^}H?UoHA#*-ups3
zzf&5mKA#^(g9e&eVzP>4ZNh{@4X&SPJo)WvcvrAow)xB*jDEkI&xG-rbTCHGEX$Ue
znX&rbmVD-zl}5f?me)@`)tjCWa!{`6e1hWsl{X|_<w)!T4aTgz`s%xA;k-Dj+pM!i
z&MjS7Z1v{F*8MSj8%l&9{dqA*TKIXl|JNf;51FQ0NFCb#pxb_8?cOe32SLezqz7KP
zpdO~A#TNG8hT=6#Qq3)QaV}V16eBxlWzl`mvC$^1$FnaUef%I+-M8FV|Kh@8#rB7l
zYVu{D*UoQ#U9&2>U}0j!W0&NM`wokV$;S$KdTjgp--Z1^N04E&b)4DDbC*OtejitT
zdEY?Iu-xuya6!XG_Sp#%e0qHA<hbm<vF(T}O=jv__ro!Sse<`yMoN#*Htt!UZa#Ut
zgK=H>U5O^|UsCDeeJ4bot&WRLVO<!;&M_5qAKLA`#r2`h!C#Y~J}kE~d-*}b%T_IV
z%GKiPA6D@bIX@kIbgJ02({k&P7yS>|m;dNHcD(1n&UbTXH!L>YWE(BX7clSb%6IGZ
z_dPl-KY8I6_6IfJ&-sR*+qk+Wdqz`u-h$cxSZ9BaQjf}S<i2Zd&bWNiRpHplY9~X*
z3%q9Oh*mWEKX=$2#=ezRuWLf)#|YW|zmm2qy?rRXNbtr#sUI@=4c4w%7Od`;3hh&S
zGeo@1qN46RlU=y;iKK?tg3A@$cPcv^PiR`4ihk|5&dAx-|2z-ZHJd}%_H{`=2wDEc
zDAv++M|9w!H%r&<Jg%SpUiyL2?X5vol1<57dmb{INI#76E-APZ7RdAYJ9F?nW~<IZ
z;W<x?wtALcxY`!LeD3Xui^hAq+7>@Mwa;q1$!&eEf1i){K*sXs7W*pAI=FD=`5OoN
z3Ji^l9z0XB6*L3MvBX%t{PohfCQXWEKl65$b(1gN1I@f#o_c!I-O93+D{77YHsmv{
zSaPX!!oi!@PagK>c;U-c2i7Vg^W;Od)>rXYt7~rEOa08EclEhQOo-2pwaoI3-SMk`
z-T52wb7``1i0jLhdVP!^B-5`io|evaVYxxq9foqf*Ttq5#$C_%B}}x+I3vk%NVYli
z%lU&3*XzG7KAR`|aZjSZ=>`v16;YvuTH>wS51h1fvF?@gsh#p=Ut7F;-=_~5GgIf9
zx3pK(RsVVFVG%lE;e(1r_s`xvZlE;9$=+>FF?WG`{khs=Gi#562l*;o^Q0eKTO}=O
zF?El;=+b2?ryRZ?wm#*)mQkIA^T}W5*mi7vb&OT-tnTJTX=}51x<l-<*qn{Jj>kM$
zSbJ<W|3{uXQKgHcELS-3wWM!;7x@0W>Akh*53CI}pH==YXM1+s&KYO!e#xwS@*!(+
z`Tr@r1=&}7)1ErnZ~vaVWalH%^S!sd!Kz=CpW`{b?px~5BG%PYh1Nb+no<_p1y-H)
z)WGKKt#ziiOWF7y*Q}Z4$3KN{(&5*#1zuq@ZwX#XSY3YZyHM@@gzArqJ((QMA2)xQ
z{pQWDMcNBj?kkSe>RGWPf~k;0|G>?~(<>I+p4nSdIAuo8>ah2dc?&k3GGS#u&hYNE
zAm8F{50-7(;`9BkG#~7FlK=Y5Dr>`=2Wz`^!HU{DLv>Yu?F$vMYbqCuWnF&iU5&+T
zN#?(E_#JQWojN(^I_Hi_pUj^g_!1G#_jziRM6CEG@T%96ry5l@RXcTe6>c@jI(onM
zXUc1@{3f&XHIWJYpuVTboT*}OE1$|Nza{vPp<C`5??Q`7ry{eR#j6<B-4T#qGw0FG
z30@i#!u57K#HcOVQ)F>AXhr1Dg}DurS4rE~{a!6KXSLZ8hx})^Ps~;@e-@V*Q#Li;
zQb_J&3+J4WyE7W4x0^KTZQ|jLxoapEzvHETT+*-Y3(m-Xnf)dkbo9&qSWBN{yjrsj
zO17Up<MHdnof0dPT#?)_xo+P$=1lVZ`e$R-)ysSL{q0!9_I0PoQ^)Dua&JGX9h?cW
z{qodq=b8Bv;&w<mo_6-!e!6`1F@rZBepRuYJF%pSM=x;A?~SRa{3o|<?eLlu!Bq99
z#695OSGAS%8a6B4nA2Rm-a?>s`Bd&j?+$3E&*Z#(JJgOT{KmR``PH?q?`#j(1Ua&s
ztiLnyRB_22*12paBx6#hCG9jnbI<zu(J9YFWS(^Y{II6ij<HXDZT~5jzuKX1Q@-qD
z)I0C|r{=2Hvj=^4kJSqr%~vn_@7^uS#od!<dTy)ey~YRcXTEZO@QJsu&}{jGlGRSZ
zC6_-RX{=b&_DNbZdmCufvF`Kj{p${1z4PTp_v4R>cUXe7{+iTIH!nQWRkixM%W4Cq
zDVN+mK;!>xU#jZ+^XKoB=B<Ax-J7-V%7@QitW1*i<~IjF`W3ZiPI^>IYGBX%c9WpH
zM*M<nSR|i;J1j>}@vdM0qp0YS;n4+awys)Z_acDjtHKjdeX=FO@@#UvriA`0r!!BE
zs6SNe2;VR2GdE<r^?{?dS7*r@GN&K?x|QMj%gWF4H~L!UZ8%%I%AWoCk*`~$cE&Z&
zY4){iQB+QK-gByK&B|Lh+`z-2@&CWv&nhtW-*Neow)CRn;-7YxI1W@eXoNatUUqM>
z)B_C}Ju%Wf5SVf*|Dx)Gsb(%4nu@(Ia6LYMaixcMx>Wo7^9MckE;HS^>7QAbsBoy`
z<z{`hMVBV1&GP$_e-V7~0c&5h>Dp}3C9BzLIlf-f%-=fU^WmWP4V&9_cAq=2bNcgx
zQ^US=xAV5<ayu9J*euySdr?5~wO3C32Q(wg<~B0_pV<Fr+suB=v*#S%uJ+kGkL%<&
zN$GRXo<G>)u}b`b)B6u+)o!g>?|9InbwOXZ{|&*F$NcmiU0%NP<CSmJ7B2oJyJKOq
zz<c(2qHDKQRz98M*(+P}aY6MSR==W|w<PBTT;A`_^m0e^PA|c|VIn?Hm-qflw^c0+
z@iaYmK-qQeFQ43F21-+eEKa7*YO-$MtG~edXX+8Qefg$4!g$|ba|ewMv-P!BRp>@N
zyjlE3tM28S+jTpFGk0BSy3eG((?_^q=ZCIWJc$M$*O<AyPwH%az34k=hIUKE8f8}Q
zUD3%;yB`(bJ9YPKp!a7<i<7BQIURo8`i<6niuK+4-GXLwZhTv^T=;d*|Kfso0?+Tf
z*;o{@$f{JM;jvxN=`z>lvtBQdIPk6HS59t+QLwG#zFax&tSRg}PQDA6zDRVHPfhnd
zzPIr&GA<n~+O|1M`T^JUmw!+FoLDY);NxduJ@$3$dvY6$Pd~i<Y_9ZAi9n%=G10dc
zniTx=TgL6l+T#A;P0^2SQI;znm943pw??XbRdc4vpX~>BKK+opyJ+#I)o)oZeSDf|
z-LQD(KSz;0?weWHh0MISMn-?m%Q=@SlKSS)-!ySuOzA8py;Tc0991qzw5*BF=eV`b
z^y(|QmJ~j#OChKDym`7drrNbAZt%T+Qf`NNZAbMa7N(Mo!sbVwuFB?IrhUWbdtJkw
zX}0}pEA51~t=2v!Z_M<48Gqq<=N?-oPU&6dy;m5W4ch1IsDi8%w_NtkGdH#FR))dc
zw@v#xTR<y^`2*L_DR*X^pV!94ab@8vrO7v=cbeCBNX1O(<A1qP%a6CXYVvbsL%xZd
z^qXgz*1D_qAK3fS`Obq16TTZ;x)x|Wz1uaRQ&i8<q$7RX`ej!xEPJUMVWbuO`n)Z}
z_htNn&C<IjY_dJ4I7=m;%Tm6%`f~e@gNjblEiV<$Z9XRxE6B+8s&f9Gl1Ke6Jo}`!
zem}SOrSp{sG3R}k8{hcIa_;~BUE8xKJ>IsB_5N3FtqS=xwPUef44f*T_RLwJ6Lm>c
z^|X?^+<bA@$vNJ(?J1u>9NzYBz5E(p1;!kP$f*}9cgpfbu6naBYU{_H`>!R{{t*#f
zCU@!Nq5Jx`r>$ozSLC1AEUf!c@IbOg&4&#MDiOz?-D$OPDRatLrY9XBp&K4I-9a#0
z-;C?3-U11x<DUiM>nC3~x~XaXgID+TB1evDgQ<U>`q)OSxm%Mx`NpAbyQUii-uSqc
zd0pjA71tQ9;FPC_w@m$UC!EWQr{QsB2cJcM-cwz6j)giQwr{rCuPk(2be~PxURVCH
z-mG(lx=w$uH$SfIkUedBQ^|3+<NT?se%Q2_+7~V_<&Zh={6*)v_0OGpPkBw>7*FDu
z|9jOcceVo`ZCuV56+}PRI_`hiYhRh?&sXbwxcOi3H*l*Tc@|RsJm&IBwSC>Y`2VmS
z*<<5w!*I@E`L1lsVm<AZhf{?m-$ZE?ac#;H)(ct?DZM%7N$ReIo%3EOJ-V@{Qp!}{
zPN}C&QKR7O<rz<PUdP>HRL@G(=t>s8&pPGV-MN{a(Vf$o<L?U13z%ZPP2mS;AXn`n
zf#@|U53N2XMyTqBKM&7POu8@r<$&gE6@|lz+^h?ulKJE>Gn6|nw`x2r7h`?ZCHYc-
zsyk!s?Ui;cee(rm3+6F62B@d#vFZxEPI46F&kK{~d(Hgd2j@oib78W@M-qJ{8&-VQ
zWZJgX+qsxQ#$IvPgN}I%Lm0mu*7ADm@Za>g@n4}YlA@~wj<rplFHl=>x>DEXO0FYE
zlt9_0)6?1+EV|Y_kbn0jD4AO+ZPiiH2T`Y_92|Xat>l=yA#>(d$5{ujp7QT_7sg~d
zy^BR;`q`<s^i=yQ0!&>_bJj;6jFnKlp;+*z<weuw6-=|cS^_uB$=gtW-f(&6ff;l4
zJeGVraI~(2d)nuk=qqWj&1yDJ+%f5;&&~NUe=XJ*<wS%(lX@577f^NK?xm%>O?_{x
zz1e-<D66tRec8WjYob0`?BKS#Drq6IIP{L-zb~_XWC&YaDlQLyJF~;8?LcSjM7d}a
zr*loGg9Uf&Tok<gakt;rHT-)*7qx{H{g@$UanJBNV|zrW>rStgy?%RMF8d_0GP-%Y
zFmJ<S+2Y#MJ14G^`nEC3wDr+}{D*x%G_U2HYrU;JU9n(K@;ZLM?O*n7@bkE#J-JS$
zAp2;%8AD(BnbP*syq8i!k8NcCNI6NI^VxXzXwcWIT|cfr*?EZlz{kFwdlPjxPmz-;
z(ahHMeG*+MdWyl~9{)x5=Qfh7#83HGFr`bRtJd9l8!N!QqR>21rN8|^WZAZNk?Ri1
zS8SfQdZvHd>=U!kM($ucu=Y*P-P_NjrtIaDd3sU2<c;#)clM#|omX^1Y9!{&P%GQ^
zPN!p~-ju~bYU_F)`7Ylpz{j^c_3hPV@eJxWZtmL5>3v3N;YMqpiBsesoVcFMedsKs
z{xRl56I?qcTB@t<Jgt}VS?p3<h`>~fi=Gd*#g}&nL@%7Go>X?dBy+-v)6MO5lhW2Y
ze=*c8=#q_>ElAXlT%|F2_p`vq^KR?k30S`{IghJSHX|$Z(ryVR^UaS}XYbs(bc$Qa
zD_+60ia)`2Pmc&#>^-d)!t;8Q*^}cdxu)&jJR$dcW=B`)V*!hGhS#OTl$aNvs$BJS
za(0i=PHrPkj<fHYzX)+XU+%E$;WvwNd$ZLt($`vL<EtO!$i6zhc8TML-gmy|J5ufx
z?EY!7P2mw|q2!z+p*uJXTq+i&99(?g?si_`{jU$M#g;A1Id^h%UdP0R2bVZLaQ-qo
zyYja+pWe5S@*Ay1ryE<-Qj5>se_run!X@u1#X?+bN+w@(KCHEaKQL?YZA<$f%e#Dz
zc1HxgF_>=cQaE2<Y13(+k2jQ>A3NWa{5mnWEVJuI@ZTRy7E%1G6nAArpPjv9YQ^$1
zZ<Su`G)sQ4ga0C{`S#mCC(IT2!{@bbq3))G&JVJ_z5ll1nSG0iO#BNSR{2S{8+?`A
z9D1eB25=Y#yvXB_`L6h@n9u3z(x8RrcW%uo&fYHlmtn`Ozq^gs+z8XIV$<Kqd4koD
z>8HRIj(L?m%pmjTJyom!U%)L;v}B{8&<l;XPx@lI9jfOPXC=zsV1D2vr<5%ID&k!3
zq3pM5mAek^e3V)=d&BiW$9JBcsb`8p<rZC-vDqqmEw66KE~CO(`T3UKb05r1I4pMJ
z;{&6uLceCP?YI$qH?ZZ*fx!E5vZ+zGTI!DF+K4Rm2<c#cu*$}TU&h5>I`R5Z*_{=U
z3+CqC+OecZ+V+w5#XR|mRdMYHLMuDuEI29y)<5(zyIJ(d+k1!XlE7TI)y^Qj(sSg)
zW8W9witI~?o)lGPA}gA3Fn@lI;H&*|clNC2m>KEU`bY1xqD;y<&Bq%<KUpw8IK+7|
zuti7AB{`C5&aCWXMFsMlmnM3N&I1QT(tP8eO$WXvYnOAhelGbCuKL=0aX>nAxc2>9
zY1Z>QtghPbzna3G)X1-KN5t4A^x4L>dF?BwZcDJ(rI1~oZ1Orr<=Hy+@Xht+2Q5pk
z{jPpjq-}nE!Yp&?q_87Wu7c-NE-)6D{w_aWlyRH+^)Vaa+zmJ8yi!Zv$-I2|rDPjW
zn)?3d+L@xf#j7{99eI7&l<Dt=Fx$Dz5031+KdaIB-8{d*#QWOv8uyM=PV3!d_1!nc
z_*4nUoIBs6KeHyLIxn{>*tMg!xrO<$?~Rfl&-)sKf7fL*v3pH$D`jDtcjf!4yL@|c
zl2X{Ftk0Ey#IU3Ce*W2mp<b;Ixx9FFB^|BmOfEY~MGI6-=ew_WbHg^B@=sYkZ8z-h
zuDY`Dx&Wh9SKyBDBPm4>%lx$hr?}oqTfZ=1*{zn{4?IeA*8l1CGu6{Rwf0JCpU*y~
zGh(uv9y33fmL>eI!PwNddWF&|?>QdwO=2u%=^|76BG0|M^f3K_l&-y8jCZ%-lZtK1
z4do0n-xW{&3(NlOd*k}-=b0t(_SZf1CvrG@8qYaU$*%tT@%FQRLWafii<tQi@47bE
zVQ*8AhQS4M!OhV^A5_{86v{8+&dZ#6!ki~~1&gte<&Ff4&{ipSu=u&R5*M0hnJ}%4
zTC;JA)g*aO->STY#uA!tP7^K(Ge6kDzcG1d+Ge&FnIXDy4`Xt(T6#DcELr-l8@<)#
zICYAnT!F*(=!1nESGs2?a>pFw@XJ=4X~)oa-RSGV%q^bbTYZ{3C*}N}V{+E*g!6+6
z-OK0ZWbgR4gd=lxke}85Ggrh+>=^QHsxofP-p09J*HhQyp7{>tH1p>xj&PcMedoDt
zYReVBb$e50>#{GpwDKOa`b@P6@%-9TZ;0r`EDv7%DU(6w`pS0=pFc=#eYxVvm8IX`
zYz$rb|M3H@xv$neeHPVatJm@CN7H)Wr8{n}vtaPsP@Bgd^ZduADa!L?4K$TMOTXIa
zT6kEBNxY_mk2AyYxtHNmT}hs)tSYrji{@pC{4%jU`P=zH((yTaSokh6L{|9a>9Tia
zvpmXo6h6D}6vK|0xreMDT)EScGpo!*_UZB^rGf8@!J)dQFJiNt%w?S|PR`v6B06_}
zK2&yl!>6Q=vIW_j3*s`~IlpNvR-Wox`@eRD=?pJ{G!2)WY0k&XB|pe89Ix%*v(Vx2
zPMN5>(Y1ZOi;2uh#)3QTFPe;fC(6AD2{!Rum&a_Tm6fUVy5&b7i}2=+;(i@+J4(0L
z=`lY~t60c8Cs01n&-iM_k3i8q``=lB3YV4hwRO@p&+K0CJbl{1t?aMamZpe3Ubbk~
zW4q<&r@ilDesCo3Zw#Z~tggdSXSZ`-T$HKtV~4WcFM(oLEn5b^O~3E(?bv#>A>r1v
z;<9Il?lV77dVS3G^iFGmP^l?%?@B#sE1A1Fd)mr8(ck<H-D{-9b;Lh;+o<{65xldN
zf7xXb|8hNTEs?gc>?<qZT{%DXcZ{s|$C$r8zYptk#8=J;eZdE6jRq-+Ha>fsV`_TP
ztV~FG#ZOk5i&>9-_3I|AK5-!Q%56}^Xv4pex$lo=<JlvA!B^b2Z{6%rzh|Cj&h5K@
zmK{j9V(5FWX!W4xxOtYV*Yyi)6L&3LTyumsVa?4c!MX=bL9)B11?PUtf1;=P@4a6P
zd%^1&(Q{o3pX_S(`(bjguwdizU)|aVIE!MsPpjSaENM33+O~M=WS1KD1Ds{P@0%u{
zEAr7keE<2WRVOM^qgKZ)XDpZ$d%668Z^%0H-Px8&`4e9qaQe<%IES-DFmY>>SljAm
z-iF}c(VlTfavq8WSV>JazddL6OS^z;=Nk)qugAZATm07Q;f>(Cx4nuAvgf)pT{oP&
zgXv?|a}O3b?UcD1`zGhsGe7w9FKkltWP^z%d4H2a-D*>I^2pzdP%1Yv6$YiV-kq`q
zqS~gB=R%wWzMSLOeQ1fchir)6mr8~^oAysV@#fSM?goV)IcHS1ZQfe+_VA8bdrZoB
z=G?vSRaC&cZ2Ii5$IdM76J@rSw8UK7m>Bzg`y`fgKLvOr<IL9`*}m~*UCR*}v&3af
z>SSV;2FGTdS)1Bw%BphYRo__$Ca$1z`4ZRCh0(gNw<)Z8aMUlQI5&KEnAKI;f|8oR
zTh090x}q)SWvAOgi7O>E;MQgtrIp67?RHOmd(~^VQsk7CVY1A}MO(fdh~&EPbe-*#
zOJVVf^MzJ3-aW&_$oybOQ$TqH>z17BUP0WRdZ(_c=$ZHTzG~U7w8*ev<FuDt1)En*
z$<J>x(!7$=;xt2Z%jbm_J)w5I4aU2Rrb=4eTw=#$6>rJvYqZdL4a;sNQN#2<Uzi^x
zZC$;GCC|!RYhz+)Lf$#kkf#%^j<qWE^Yb)3K2v*s-V@cV>_ChCml6eBC0>MXpIYIj
z&3sPd$P1+%rD;v8tY^O38v9nNdX;=UL;GXzD=EkGY<0Hygw0vASx``>=GC3qp~?>y
z`F$0gcKLZ5hgI)t`@Vu&^U3^;3qN$~&u1)XdRuHgZS&Suf6j`S*}HM|y~&Yd)DC}r
z^?}Om=f9>IukenG%x7#_xWYxw*DG&&x9!ywE1m00W*IZ+%@K%?W!rAjr+?>pSW)T{
z>${3qlpoD8-aF$1W5JxiyVv-}m+p(|T^KfL4$twkmZ~pW4)l7iQ4IDyoaND68TRh0
zQtvzGd16|(+qSHDnH=@tOWtg6PCrk%SLMZiEL9qh^W0DHw<T_!`sX8q#kqfb+51{V
z@APd;arJ(u=F`07B8TP8)O*k7M4mde6>J@IA5Z(I;$?y_&eitoJ#PNiHk;@7Td)kb
zUn0ZnhOZ(|Mei;xpP6*J(ZyEtbQDj+<2UzX3pU06ugIEkXP)1w#AOP>V(hj&etA|`
zljLRY&Xig$I_F)838R$v)>j*%rhZ77c((a}RYB7Bv#RXNrAk%Rm;A7;oz}Q)c@HZG
z*Ar$F@z+tyULX88FRLuo=;oZ&eMSEx_u1c6yqM=LeEXpPM_EHlp3^o@Pf5vrDHA*1
zpV|1>_Nw&*k&SsSod+^@UfsUki|3_PYsRkKs%N%DIWI50*IdjX^M2*Kreb!Nw^B*^
zGox?4c)~Z;*O&Q0g@38|96Nstg_aWOX6xlHcb<3UJ-pG`!09E;e<Jb1Gjq1S?;+&}
zPa69$T&gVhk9U&a|NF?yh>SI@YA1!lwJWc#kuC$9-SD~fo~SB^&vNl)O42^dBafeB
zu-N^+_UW|QCr@h~J+a{C^$RnYEjCWGWng}At@gck<Lp_pR1^+pdfaQyY}(8(&mR6V
zWcr#N*>UP?0@j{!p26q(^d;+cfz!v&vE3`1=l1>M9;cYH+-sbty_WCdK36eSXWH+g
z2RiR7zB~}AkWwstp*P3Mf3ZA6xa-VY4{9<dbM56;<S6%EeqlX}r^zp_?Gc_&J@^_{
zFY>WHt;-iZx80%MXlMM3j`F^UFZ)Dp#avq?oX8L(n)<3aTQH~jbniAHv706dd-O65
z*bamSF0-?6p1vUG{P*H>0lKqFjkAv~dw5XS^yVvu9T9J<Sa+QAwX1yOdTQbnR*rXS
zF)wm_lZ*3iKJ`6+VBsgXqJH_BSx>eZ)pBrtWER^a!H^!w=v2RTT}Glx>b6SZSQWLP
zNcWj{Vv8TWIn4avTI{_qJacBPT4Zehv}ElE-(}jI`fdkKW==P^<z0RF+Jx0dezxZA
zZDM`@q_$(;_fm#AD|Su)^y&RovE$cUc9<9)+`Lhm-+A#>so!^Q@ijgy__|T3F?SY6
z){Eq*2Nti7@mUyNow`_Ec#-G3KP7c<W%3SrWd2fc&Dto-a6Hny>_Fqbi?Qd^6ho|j
zn9gt#=wmSE?6NwX(Y;E&oIxi2?hVH6L4EZ_zdLU4cyut|t9SYVG0smla|9ATv~^6G
z;QXNEs?#mT=hsvhYQ!GC{Af>lM4s3=*C`v%wl;}d`0KnouB83Wnx$`Z-kXNW-nw5p
z|D|+&)n3Kdm9kSvskmo<4#S;8ee3ls3b(l!CA7@&{Gi<wt#N;qgGIB~`^%b#7JDre
z$cSn`aC24b7VdMoNfyi26z^TaDUz?AF-0_Toy8jN`=aazT;tR#Iq!ssU#~hX>Gj5e
zJ!+TrpRn*vXF~kn>#%=%v5<A4-VcFPdzaXNSL;;Q_GxdJ@nzD%-hbD&M$Xnt_Afo(
zuEG6W+PC$cU7UdN(qEQw6}AlTn)n01IfvL@UEa59&*3zUr8i&vwt|R0@OYGTE+yKp
z<WqH$<o5GB@9JMWzjNn`b!w6?8h1Z%PRY{y6tm-l;v5z!MX9jPQ<GdzXIP#-e4F`!
z-VcH7edj;EQkhlc_Ia9M)$^A+5<71(?BKRLGAmcL*x5Tc@!sUk6ShYM-&NFKB*RdC
zu>Hn?#Gj^mdFR?^7&%R^yesB%f8{>8JFN0b?CK}9FL11%Rp~uR<Ng&B=Px&J@yLWv
zmH=t;c#yNggh8KwS3&ZJfZ#v!x02`0N|{|WB`&}6Pk8fe{T~9B7Kb%ApDdajw6&Re
z*@XM{&(q#Hi-aZ|@!st^^GZzcE|2-U=FITuU(cj%Exi55od2~xLgh69eAQXkmYtsY
zTOhVzf%eK!t$;61tM+W39lpRcPRZn?br~C^)jjX@uZa>f-TunhaR*&E*L}n4*)_T1
z`=FNI4aV!M>P6C(oP6S5u&pa<2Wd!Rk6CSY_wH?#=bpAdwI{2-k}0na`<G?Kp!ZAQ
zk<gB(drVIBu_jLwzi2w;-Gk%XR@|96J9x4@llW(Wv$M|1$h><ju|n71NueM$>!?Vf
z=r<<|>BZ+5c6ha#_-6`rm+YB(gU@yTv#xn{=XCcx**X8x5>T<Z)kn7AK-gOQKWB2i
zCM->JvEtKv6%xN`&hx$mb|J}i*CdbMZ`!$DSlEui?@g$C%3-e$(_X2qak?*lBh^!-
z_O;vl;HDV<zUxM%y3gN9_Sy)U%-_keOa9u?vRV234Z(lZ?yz6aQgoe?nK;)$y*@Qc
zLiHfSj>`2`O7UyCdhVshhHtnNBpy|%yW~@r6@%aVQ1=aMk4!3C5YFeLxIxTx=l+XZ
zTkZH8R?qzXZ@x@S+|~O+O$^5!BoFtj4h@uGZ;VpiH0x}bMU&k!)^%y`UN<;*YTPpx
zn9#9f>KT`*+FM+CB4)arcewuL%`9^Ukb<bZMNel5E_yWmoc7KJ(~U=6LXS>e@KLeA
zv^ZXTj*3L;?M(@nUQARzzO$!f>aW-bN&cnQZ)P>mo}Dvs<JGp@`UTn#tDKo19ErQJ
zmF0TpGHyMVhvF{o$KDF;n6+~~v!9uH;#)BmS%IZ?EC;i#EZPrTJyYvju<v<8&0)^F
zi_~H&4R7pR^>9jKa)~eVgJ*j;WHb6%$?P%vn<7<}t8NvoDG^=$r~N=?-OZX`7VOJE
z)%M-66F1)w<?iZVC}#IM`j>#o%N2o2UR-JFE}`l^@|T&8N19tbaC%v@^rsE0sGUfH
z<^Q`XQc{X5O7F&oJ-hmB)<O0Ih1YuJEZ&EPe_44V;8Ih>g{d3YWZm{kdlVdg%3}NR
zCwqLrO5SbITbuE#mt(rnG&k|jHw%1Q7z^f<CYPVv80EC-j@3`&5+?~Cmi^0BA63iT
z*)+RdVdM0(?H6{OvwZ!sa-Qwl2fVYUwU+PGsVZI`z`}j4caHUbfnRGD`GA`9yDK|b
z`qmvP`PdPu_x4~Xo4a+R@Rs)y<>q2#*LHv0skh^<jSJhk#k0FZZg=k5%WT#->#M2D
z%sU73Jsg!6^T;x6pWS{!_xZY)Tr+pBnR~5#QiZAILUC5z#R--kF%#c7c&+4VxP8{y
zpkN!5`_`&03a6sf?s)M$)|Uop)HramxOs~F7N31T#oleZJ#YKzG}rqU40-1K6W4|<
zJtxfdy!J=-V~azfGhSS|J7x2W6?YG4KALhu?<@0zvd;poPt#&9F4*{_W{xH+|61L}
z?f+6=G#TtX%vi9yvV%#cMvQx#ztU~4m#Qvim$~j$SsXdTvHqyQj=MH2%-a`i5cLZ0
zo)CC%#UIY=N>bsMljrQ0ig~j#@3|sZ!H&xCP4e$fxm;B{r&-cIVX9(SQ?K98;#Ebf
z_!}Nqa+KZlnX8f=%<j%$__o;9<gbg>@hi?zpO?*^`a3mvxBQ_`HZJTk3s-C2dmvTS
zX4e>2$+F__>37>E6*q{j{#sSAd#ewtMYWkIFRz_XYg}dd)8nD1nh)o)t}ZQm&K99}
z{J`65Mo$lCo!8c6+tIzY$-`mCRF3&`PCP#U!*SWHirS!s=NNX}jZ#b7IZa|_%YLWr
zUeAB-;8olB=#$Jxu!Pxjv13UUp90nH^FI{pn%%Q7#v?>Z)cHYK_RLL*N0+*o_O1VO
zJXikq>DQHJxoXdtK@u~bN^vu_c*Hysv!8H7C1>F+7v9F(Yg13@s^5C*v}xuq_0xuN
z^B+G5d*^IW&}!!rdbQs9W>M7Iw6J$&Lef4RU6#+qPxb5HUo-Kvq2JrI-l@L@WDBnF
zZ`|~(yoh(H|Ki2*eU~}~Z(mv5X~)n9Dw4TZO$zrr&v31`O=2dqx`p`*28(yjU)rzk
zxXb7~qa!s#k4<QgkzM=VB{^ZzOvh_G);+yb+P5j@-7(FDx8=5)I3Gxxy22#ZNx|JA
zy!YZI-iF6^F5)t~j11N!Epv*A|8McL;;f6R-yy5-Nz&K)M7}5%+-bkTXkKZr&HvAD
zVOB1;-iwO)#r`RBp)yR{-{c>%+_9>9f>MHF+}n3^#J=x+`=G#FC+OMLTay0$xvFLL
z!sntr)I+!HKF)HP==J=Z&buXDXSctue5!PY`9axNMUQ)?cfFRa+IlKib>IHbGuLv{
zl#HfumE;R;*Pdc0JIm&~sFJ<VzVkZ1KW0eH>9V?-Tie0X_o>MDRNQmJYlrSL92d4`
ze!z0OrFz=uMwt)NQQaq+@9t2Js{K<Uy6nA^)DjU#IR^FbUlh9%WB+d5l;Xg!k+pN8
z?}zBSs_rg1qH}*S?1-)HsEN3qc3j5oYP@zgU)A%P%w79;XLp^K<!_vQQ*96Px`j(Q
z7a8SdUE^)+>f`(PhOyvbOU7&Glm`NgkFR>R^m?AjRWz`?d7n2gTz(PD^^B?e4ef$t
zL_L$#nM(RH{})fU@n2xYl9%}VPPzZQ=MN@rYI9!xQfT(I`S+i%xLDQNZ~C)KYrn#@
zsj_9&FPEl;?(ed?+OOZRINOS8cHXA5MPVOLdEarjixARzwO=j9luOPk{Px?PPfk*M
znfqQlmmKt6D`S6TleA55L4j6n<KqVxf@9wlTTh$a*?R0!3wQ0G9oc3__&tuDm0x(H
z;!bJW_Ona5{WjFD<K~-mu*c}P%k;B1zkl?OIgzZu&c0vq>f$3`?HK$v)vn|A+j&<k
zb>gAM1(V)!`29X4R44qcuis^I)jH22jybbep1<>d-yVj(q(jCmw>Jo%N$bu@x)vy`
z87?r%HSy4etX|uz{(8-qpRb&D#p&0qcP}?G7w$HSJoSLXd{wt|?Lvly%<E2tOi#RS
zYQOK*qNUO=TQ8l;%G)1PJ@Kqnq?`O@rts8NzaOaGi<dhPIOSxl%htmazeMZ)Tr0$w
zvQ*ueW!<Te?*}5yKWFa~dZT)Xz17x#OV5KZM{X=;KM*?em2APEd5$-1n44}txbsLT
z=~mXiF00jd9@{glI~B71V4%&SlbbbdTKC^J(O4sqcc|O?$LB|BmP~rDLcR+XpDgla
zW6^T>@N#KWsq=e{`*IBG--L@fWv&=%nlwxAylQ1}^;G+pyKKFuHdqQBcoAim#4zWM
z|C!XoT#X$)>{>Fc>GH=CqdPTQpLb1p##oSLZ#X?V&uz^SE8(4)ax42U@HuksnDnM1
zQ{Vtk!|d<E#jfiWIlIJHg=ScOFkd;z<kZ`PQ%{^`u-H3)#%Xbvo0{^@f1mbhs(9Wx
zrRFquk3|lH%=$9j^I;Rsvwc*yNQ);txXH5G(D#Ul8UN#1)tgu5?mXJy0IEAz$67zI
zN#vX=$5rk$Bf^3|ujuR}Be^*jX7(IVX+Q8W>$=>IKkY%j4>!F$r}?SC>y^x!>#o~D
zjgiM!*I6IFl_jvN@NszC%s<vIXO+CL*a7O3@rhoWdQV(OJ@dPAQ<3@K!yByF+nwg^
z&psDwb=CU8s$Ze`mgi@NXXz(uE4~#E`KGvQ)9HzqS=Gzezx>%WWA&UK_Vj0WQhBBo
zzgVMrxQzM1m3OAL?8~Ecvdjf!wGXw(%{JCJ>6W6;-|+a(y3{o+^B$K8=e=-dh<W{>
z;K7Q!yZ7ao)pFGMaL>8NyF2f}iPd5vM_3+qPfI*saQN1ny29t2tU1$;>YdxT_d&?_
z1BH3lZ40JFD1C8BYP_AL8$4y@@766b1#D~GR{xFg<d=C~_O^NQien5M8)}bDV_tKu
zQ&hLIV4wV<g{>i5g`6K)Y=13h(fI4k(Or`BOqv%?xpu*A`;C7as<v3a60>|?{l~Uo
z&h4$+74EE%(u;U<aOO${_OB1F&HM91upn^xF5$AX2Tp!=dc9D?q2PwdR9CL;B5CDI
zyS0`)IH9;q;K`9s0sj>XF1Ba1$8w+c)Y3dL$9B)YYp0DO&IzQx=#s6Fnq6Fc^lg-g
zA@|Jn*JgV0pI+;-y*+fk>ebmfPbS?|i!nCq1QijsSLYu3$t$yAZRv*zCY~#LZZ7x`
z#kqH*S;!F%<_B7N*X=Cg-!J`YG&%Y0f0kKMPmGpz-#%G>LHuKuDU08Gv2)K4cf~}T
z`Q28t30{-E>A`c;;x*I0NQ$m5SX+FqU5+WdaQC}&J4>}LHwP3)O8Mw>-MRQft>7%r
z<C}ZrWX?NJIhn9A^sBbPlHkMUp^?6xTfKr^`>tNgQf{8W&~;eszWT<MjX4kY?0z<_
z|MR4@D6K`2SJ!LJeI;kn`AdFRh4>x88!uK&W%*wquCR3~|L*g#n*TX%mt^wDoOdoc
zP<h)|)m=1h>%+rdrRIg#uBBfOR}?RonJri_)$i-M4PITLX{Eo^Z?%-hnlvWP-QCgy
zp5cGDLGO9#%F3-T!kk_kmCQII(6xZitbF18Kqgau-q*{5Ygu===?YiIPd+s*K80)M
z>Rm021zFo)s4}O|dHTxDV~#+}&D^rjuloM)IPdA-yQc7F%vRaWclJbonbg?4s%GJ7
z>4RsV+?;NdcR8~9s#f<`<L;)mXH^AN+h3@z4LhIX=qUJnormBj50MiKL$=OTaLG{K
zVS1t}b*b+0gC8}59ffsWZaxcQUGwsk%T-;4Gs^Q8Gx+`N(|#V6y|Q%LLCrd~uALW-
zZ#nQ$BbZ&rZ~e*}7c+|P1~`iDmi}3EvS5|&wVw}m@)xqm^c$5P+?ko8z4fW|l|_Ob
zpZKg;kA8`fOJ|VjH+mbvH`l}UgWQ9Z$*tT>#Uff|uR}5tCncN`EC}`g%4czKWy;?T
zTwK1&6Z$yi;>x<+P5ak7Kd6|pa=${s{KMxMD$kj6)!u7p^-h=WIdA28WOb%?;lAGD
z%<F~)Mg4{Q7})#w2Td(Me*M(spK@~^C516RxFYws#%@hQ{`^ASpi5_$+~90!-tYL}
z@dZt-4RLel^LG6#<&fz&+UUDug|B`@%-^*_r>|~Gll~R(RQSfZ{F3iMp(T@kygPEV
z(u-rp`iIF;Ah$60b^ZPn5Pspe5SOd><zq@I*BH+IvbDJ4^F)iC9TYs`b7ucsvGHW4
zt?iDRr+131kzTM=nIp+9YxX^GAbf4RdRSRircoxwf@^`Czm}+wp~2pqaJARsEbr=8
z=SN5~9AE4cds<gP@%cpG2*1h4*DqXS__~0-boK^+x4-)=k1zJIe(+?;saH!F*2S&O
z6JEE|vA?<7>gwLpY1^XCRw@>yme(7rWo2?{I874D(o#??IMzJ5ga5=y9$xJ%o$q?H
zPZk~9EIm!O|Awd6vP}=75_VSA&S4ciy2t7fgT>DJn`aKrjCwd*$9*bWDo0OON5_Az
zM7<nG=Lc8nR@_gC?p$@*n_;;|=_9@PTU@d)Kg{jEJ=NoDY)<4&iCQ1-JA33`ng8Tm
zc=GT`QzlNC{F(*xEj8RYJ1tyyotI@={@wYn+HRx9DSHAWIUiKqpLaZMWwo)j1>1p{
ze*^ZP%vX)kGdpA1wchG~TH~D~VmD)6GB_(PpYeQC!N076(;(~BTfRoE4O1|Ce7QMd
zt?1Q8c6E=txrN4!8s2ROZvG9ZzxaJ?S5T$Zg3B#@YYv^;&wn!E!}*OTZZPa9wZAg|
zd+pCX70W(K)NtIp`Br!PpSl9Gc>;3->hFDD8c_2%=kd%_X7Wx!8?wEH+)tNk@$)wd
z@1EM8bW*%!>FKq%WA19&A5ZKpzxOD018<StE!+P6vHxPfhI~J$S?(@uv5ZA^^PwLX
z4+IJ1xaAjwT+6s(#^3PR_G<Nm9rxmPOuf>`;Gf$Ye{88_&>8VXKC%USmhWQbo4RA!
z#q5sR2Jhc2`x+qro4?`m?y2o(iXO;me_AUM;(Np=)kyIBm%P}MUqJ(;@^kXeSTb!F
z<H};3{h^p|Z~c~-_5&a1y|OJ}+nsw+fu*4BQmKtydPfB-^D7-~_UCi%uC>v5cE`*0
z%;uK6PB%o0*I7MmOyFXb%4^%DTX8jcbty=}a~adXhhcfe@<|VW$t_nn^rn`>-_9Uq
z=Z)aID{XWR>Q33_btO45;$p}P8~x{sT&Aw<$3y<4g66TFCUW{s*s+&A(R_dD%Jn`U
z_SN+NYI5@s;NfjtZFDtNLH&LE1e4?4+WL)`x8CQvWTW39eM(s`=JM^(zpvMEWiq+H
z;OXPo*mSJW`wVA6%hf4DJ1%r?@=aohnY!{_)8sh4Xh(%qPP+%Z9nCw9xa!VSE^Es9
z&UZ;S!Z2;8R`A|r%aai+8S^Z?St91j3r|Y=H&;yMx_5aQSbKwV$&%SG{{$!f?Rwy{
zSZvu*Ia`LjhsVRO7Zo2(deMIM`9<%uk(F^Biw>W)etSC!ly+tmM6H#ok=K5Hlf}wc
zy?w6Etc!=|OiuW+ST<Svn>@qzcgI`0EzP@ow&vc`xgKEKwdUnyM}-ib*C*!8UY@yM
zDP8-&+eL5P{Fb>(v<$zjzWQy)fi=%lPvvUOdV0V3&B}M7PnJw$PVvkr6I~n1H)q<{
zIo5%DwOix1-~P?8qibjW@gn2N4mW+mEiD#ET$o~AczjCnnJ$NOUms{a+qdrN9j-N#
z4qEI>OXAaeWWA4TjdN`YL(I`T*Eh<nip}n|<cfH`%U-B?m37WU@H(BKrw)EMH%Q5N
zoa5a3E=#&~;fp_)u7)Wsi>uETo|AKp^Zdr;yB2#+YINo(UdGGN(ta~cNxCXt{Yj#)
zWTYg+aqDMgI@bfP9jFqRa!y})_J?YX?)GV^ug&tUSwO3V4mx@ZThFpKay+@`NaEG>
zohdzsq{~}g3Ps28gQO4qtkG7oJofgNQDk1BoV}f|!by{pM|Lf&S`~V|Sy=JZm5VBx
z2Xz-n-E@&NF9^vCvPf0`R6Xm>{q_S#eM+MzFNqM)4y{-I!*lJ;1Rk*~3Mbc9M(}S=
z`ZW<WKOT7O`G(48hq;zZ@#vJz+U^@6w6xpt^qk+vrF7LbCM`}c*ypEYzpv)$LRQ<}
z-^;XWe7HeNP#(-N)QHf$)7JmHg?)L|8tD(01m+k|sMOY*eZBdyoeR5+p@M+(hT=F@
zu1i7twgyh%n3cgbO+%&Nj-Cx$-*18H!>ekSDr>YX{wB0=adzs(=EvWjWu{7ngB)~m
z>zvs|H$-zXqUIf%>Um|#>ADEstM9jLoAml%p?p$$g!Eq>j)?OvIS<Pung2!$AB^PU
zN@wk4e()x5#r_R*CVkDTeyo?Lt$lyF{k+{gOW6+`wQ;e&GXMO}l|l3PmOU<4?q6H)
zyI(5i%F1`T95d&x^}2fZMTy9S{Xr*oBszX*yUdaIbw7WbOZgk2wF`2>B0%xF{ruAh
zN1`T63t2sS;T^*M<+%6N1qPrFxoyFwi#voadz+@M_+03^ixE80y?L#$+=FF1*X61m
zE;V_^*YMcxNZ(VH+-;Gj`|P8`Pkmf`C;Ehs{GwfIJPntB|BlJqIo0FJBSTg50@iwe
zi+y3`HKtoH@;4g){ypc+_DNPO&(<Hh9JS%W!`_3l%(wFYV}3C0Z*3lP_@98^+uPH!
zT>bNRt`f{<khwl1dAe_C1Ye@=3ci(@x6Be5cO6vP*R{X3Ys$?npH|Gx;E&ndQ8_Ip
zc^x<3k<CwZ&uD+FYiq9OQk7c6z&P1&+WuOZm^Ul;Wmv{9YI|q#kWa1LGD>;Jv?zVG
zxl7a3H%d$iTIc-W$iD0u+jmxYp6@xM!IQl>DyS)8_u`srhB<f2c|ZFJZ8n*8>CV~~
ztHv8sGuLJsupMyi-PxBtBYK_S2}k~OE>}Vw^mwj5XD<=k|E@;Pa{A0y%ny``<Byx3
z30vJzaBvozK~$g9U(3C1@oR;{JLEt$wtdZC7542{Ih&Q*lT<f<jwy&~6Hr@w-Kgc|
z^E*eBlcg=>g~DE}Zcj=Et=*GLebw-}bRzfr$NLw$g+;gjO0^XQwH+?YSp>f5&p&)C
zNRf5V)G54$i{-b1T2$><xBPg%LE)Lx{H(qUCh1MGARA)~e&u+_dDyRcJIj|xdwsAC
zXx&bIDWlB7)tQS5Z^lSHXz-hq6RM#d==^|Xx6xak>}26K?nJNfwAqD6te)sCnxtgo
z{6J;5(N|sbaHrjJbAo!@PUNey?)_$B@;u4^>tya}+}?+_|9%!bYX?{O)k!Iq=X5O@
z^o+j8ChrX6ICC@j+TV#AWc2N28J0)Jp1ju-ATm?$V5V5L(Cw-RnKu{<LXXExJUFrP
zVa;m6Nm0+VUhWj$aj5@I@ma3dmajs}H?^@^?0$CSdvtR^x1H!}b^Gtnxr^5^uX{Bk
zyZQ4Mr%B-vm#40D<!rLuz1XmvA?B*#b=K__S1)tTS;o|&Bi&?fR?76nV#kW$yC<d6
z4s-SIcRayyabMK6sXp%FlRS2qviQ9@)qgt1!$E)Rz3}#59Q)rMtqzhY(dWOYb98R9
zf2n(24YT|2IZ>4hr_L{4@>9oPOYns_CeDR3uP+kJW{3%Wdu#KY+cGJlCmauNf4=wr
zqINl%7t%AEPBQFRb*uDvQLoke*=(N|v4^{AvK<J$x-Pb0m5)m9>aDKEI;F9qb`0xQ
zmA&O%U2?dqvFP@C@k5;tqI_Syh>efjdY55GYIxlq2K5y;)x_HtU0!{OgGc+&I*E5j
zWXu@Oy*t&P{=i|+<pqbgpS?4^<%W$n4^PADFN*)Z>99|K@gcN(;S>$W69-SO`tjk|
zH=W$)n{Hlkn|^lIS<7!B_WL-_S#saVE!Mp)oU6JvjW_E^5@<4>h5ze!-RlcQU1rRZ
z|1%|M=5?pt=?pPT`7g4EuiY>Fws>;H>c`zJ<};No8P;8D&uH$R?Wx!e8YM24FSYW$
za@PEIrde6exwAR*Uq_wWYtGu|P?>y2gvm1DuEI8tFG-6GDy{d4#kCqS_-$VGPtIcF
zyl^fb@t8b?yE9%M_L|CkVP=tjIYW$v;=C9J_ZMo>FQx7|m`wh2RKZC6fZ`^n>y2*8
zPrg22(!X3E!_fXq(9_o9-MyA=?H7W3nWvkDzWipvI<qU-#oc$O#^y4$v&`4n4}7#a
z67JtEd?+nkZE<A7LzmeFg70|tnN3^0(AYe5U8mjA**W4<q~^81XlgzlWV%#vZ9?<K
zRj%1(;6fv3=Qq>27kpL!>MnFvN%!n~Z5N%w5AM?a4B))XVs(*oqsBFDuAEnU9`Grz
z-7UX*kLFtei+SxgnA6qucv_=9yXP^k-St-HzhXgG?xEU(h;<)$(?3N_dmHxX>#ZX#
zx2&Wk)*hG;5#!h{=JICczfV#Hu5ZsuwQs$+x8>-s`;30!wSR02I%W%>6r2^kIOKwF
z^O{-rDofM#_H`X(vslV=PO(7o)ReCu-$$+sTkFKJ=7G4C>t)HT8`s}CZB40)Z$D7@
zY~Q9;@o6PL-bti-o=ULtT)w(2x-Hu9V9^WfL|d8a2e(|$Y+SzUvci@|<#msjKCC_H
zm@3<U;Muv!ovMr3K-%{`J+MAd{n?i3H&R3r`R09V`LWS5okgZ<Rk>6P*Xc~Id*X9d
zcAN{Ga5C0bto20piVb1!9=Koa7CI4mqLgROja-3Ky6SgzJH9&$e4Y4z&7{J6y{qFs
zSN{^QICtkdJNw6_MSodKvNTOoA9Y=jy!gScy_A2>tz3aqZK6rsZydO~OV=)bY4Ia;
z^R$-&J1Vz3YA~B`&6;T=Y@BzfJ90{K(V?|0f0r%!^sdZx@zbN5w=(youR7f&W17mH
zWVU9(Z<p&|j_%%^@w|J9v&r)#K1v;vjbFuVaJ}|r<*L|3+3Ho+M{8Lv9H0MtaxSR-
zc(Ck_>|KkNEG*sKt^e%Kfx=&B84GNJ?=n7bZtuA^Igam*Q{LZ2Mp;`0qpv=(VdzU=
zwR_rS)8`tA(M!?~8fS2C+ju=-;v=_0A^wKPGhgj{I;XcI^#HHdp$k?G#wE6KjzX#7
zqD}r5QPsNa*PEj&m+i{7EU#6O>s_QEvF_m`)#mGwivsmy%npkBMeYd+g;?-F?O5o>
zBbMnIF>_ZNC>{~!tGkkXdG0+)fmyG9n_RRlunFGFyiPH$aIwwxgj7oli;{^^PnZnb
zYMb85S)4ol<#2!fxr3c&R)$Ua#Wm^K#g$^|&b=za5@{DpOS!b27VBl)eQ|Z0?~Wgw
zXKF!}%(>H7SlM?5W=->&y1!*@TAa<rrAxH#$TA$SoVn}4gKbIq1$L`_?g$D`JNZg~
z_LU#9=fhmqq<{G+U9Nw^%bc(A@g5)90=wmz5l<B}g8rU+Gj09t-%mu|E%3UY8p-^?
zLjUr)IftJx{$-DKUa{+`TG+3Amd%OhR<f?LyfN$UQom=v?<f|`nZ7dJvPdZ+p!>ql
zWaZ`iSuIwCJ^ZoCtB}7jdS>w5t#h)>-Z-z@q<Fep^rGH7YX-mTwpU%*+)w6gjoRS2
zgLC;G*|Yn1YLzZLG_^DD<y@!LL5Ewk_(L~$L|(VOnp-e$*ZPY_hfIu>O)Y1rP1~8c
z)A_-wd9UU@RWNjq+Lm_h^fFH)S6yG9>b*yN)MGDSpR}xuA?9lEUFPdcHZAFYvgR1e
zxt-2S@>br7x#Al6gs~vhzqJ0G?v2lP*$f?3?bKu>^iS^Dda9XGdyDF{U2W_KKGt>Y
zwLHH1Ea%}$MYqmUw#o(DW;b76`^ui-+#9v#?!?@H$Vms<`Q2SC=bg<Hx+N94^CZKL
zRCCEW(SFsX>D%=cdL-w*lJtF*9jfQT$9K-EyuWC>s3lw9bH!6#GD|-tnwr`&uUpU?
z&AB%0SpC+?DuHLYvO#G&G=VebqjRh87yTFSmY>&ZwX?l=<kpU<GK}KYtJZIrlbbO~
z;QaP4k$MGdd?xPX=M2AKma^Cuv<lDafriSNtLI*R-JJ15z~JtoSxKOcBS-Gd307J8
zH1yH(7a#pY%HQ^6@|GPCd3FB$-#t6tgXU<aNEK(DYrh)yAS0%BWn(qlwD%F=o93PU
zda>l{nwwXeehb(Z?5phz$=htEx}v}O<$=^gbIW^Gvoa<x_;x~a`2^p!pTNstvn^TP
z7hgJj;@-YXH?<75dXyG2yUWPtoqV<E&u;<nRFLSW8k<d=tP8zTUW#xDL|9)0*<NxW
z@U!mJJdv;cCBFI+mz)dlAIeDlcG=q&G{3VsCibn>Pc_x7pz`u%ofQ&HR=!Us?ay{x
zv%6@j>JB#Rkk>1gn3o;yZH{P&zg^k;oAEUtsD&_bwN6{<MN#HMoO`!#VUJc(QgWTK
zUPDzj?cTX^jyX5V3$_Kt1jzgD)Z50(-Q+nb<@cShot9U1j$YlkeAn{_Dg~SL=2`_F
z*mZS{<AYgWi`x&p4c{&H;LW8KHdnTCSnb_>RJHchQC)VBaNYwOMdei&?w+|+tYY2v
z^hnV3M@d^h6}2)J{Jy$Q)uQ!7`~3T}zg?=?78WusICwqR8-X2vv##evJXcsg<*1ge
zMNx{HNvgy`CzG&?V$BvWTzajWi}Uv1GTlCBvtaS$zeS;T+^^rch171=<tX2+t@oAr
z!MD}1#RV&-94?Gpa?$X))X9Vbug`4{84LE@ni^~7yHO$K+Tp!Z^ECX{KNMfR;78f&
z9qYri1J4G<$X2ha=JR7b7qDUVl7)`-o@=+Xev*~SeQA>w&~RI^AnE==!<$VDe!H)c
z?@XO|EZ3m7&+_tWCTo_y@ZDtx8~LZQ2KjH{yxqpa%=KJwvXGrcz?KPe498c;es2@q
zW4mYC$!!*4E7;qc+V|&2JpaoYc)?}*(U%7cxF;^lzp<?;=xX1x?R(d!MJ`!avg-GP
zIff;!IgaWsXJr{nE*#FD$Rop${!QG4@tnw`$bVNit8I)E6aJ>%q-QA2eVt)PYQ1C1
zg9T6bE=WDHPC&5BZ)=Wf^Tinz3l8mK@6+aZ+qihszZEOC%KmAa6n{+CjIAzr!<@CZ
z)YuPv6karCR-om_oT*E`WR|?&?sW9TiHO@hS5JMmt=2r7);Vk5PtJ>s&oc`%S&sU=
z;VB7jIR5_h{)bDwDt_Fa6D(WR2HKN!aqFDjMo&fC0=K@(dGYC8+P|DB#mu>LiiNkz
zm~hnaH9S^#xnH!o`gUia-r<$s-U{TY?OL16b;W(sy2_a|kApTSRZj~p&9&OH`P!|b
zE!@F7Q(g&4GaUb|_)TZ|$9-YDFDG`cvlX#@SvT!u@KMo)r#74iZ?f4s=XRcEnf&iC
z8?NVPtJZnEm8niWvSsT8z4TZu9{vX7-IJnrK3$S;94&U@*xG}W8C$hupP%}aKcTqr
z=~>2t)9aRm@%c^t>U7ZMU7gO1vT56Imn^xkin;H(;=amR+fS`Fl@4>}isLw~v$135
zsn$;lt~mm;vX8yqs~x<#&d+`BtK;GaJyp(J@470n(KmXco8t3xzhCz?ciUc_uJfEV
zxMQKoJdcN|^H%e{b_{!!!2F;>E-62vaMJF;Ig^g_@9tdmR$DIK;`%cs0RvF6R5k6h
zqrp)Z@x6~%Y3cg*X!k4dH$2|s^Ec6Tvi054u5GCTS=XN4w}`GjBF28;sIXHUi~5{=
z{}@qiqj<$;<N4`bKF&rV4mrm21cagvWordVGl~0mbWd}(DA3*fO>ys$rSkq;rivUD
z{LH$4D|6rGJe&W&j`Q5Hd7A#(>#o^q>kH=p9J<cG<eA;ows}?L#LFz^=C7ZZEDgTP
zzI=6>=AmWUjE8r`%q_od70uu9c#X7e!M(qWlxFu#xzDTpS~Eo2Y-8Nssb4^AI{0=-
zYxzyO`tj+v2Tey^@<sBsW43~qfqO0AWxwXap7UJZ+n(K?$t`g#(tP{NZF~*f>PNPn
zf7=+WUA}5%a^Dv-wJSam#>-hR`kj$wQom_;ojtww&>byp^Hkn0Bhy)z4(O>!?mo$2
zF>j?_G~a_ct(NU=$9J7&eN{fidyCk0WyAajyXsc+?{oIOD{Feh$xHq+({bagvIQ-E
z!JY+cjx7kkyU65A;^!1`%`i*%g3Wr1{GA_EEZfC@u43trNmpvQR_)1~yCX0ldaL#h
z9q~)KD>E|qKn)$+g3~eamzOJ~xvmoP*nMer(%ScDnIRgRGV^X7F$vvp$0zVQr*6u-
zzR7`mB-cC&^Z)u4tROGdr<ifhvJK6*)93Q<S>f=aJ+^PU4Sz#)`R?gLJN`URa}#Yp
zE><BhQMlQrNF#9a3Nz30{fj0)sVaD}^4`lhujtOh#@)Am3+XJ@Ose5a@{skN^!i|D
z?7m5n&$bJ>&Qa*pxFDIwRaUG%yYR&%0}&~u0?}>V)}`UaiCee5exBrC+P*%8x!l>;
zw25ogn&lU|R!_}RThW<SSgy5yYJ&1ZP^+b4*)DFrr@A_i+~zM;+dnx&pibzc<lm1{
zuR4N2D@Et6e8;cN^xV7X-Qg!i@;5d9w@G+>&)F*{b3WvK<Ks7Ra<}g!{9ks?WyeJB
z8|SAQBtNKFR+S#1{mPJOyB_P)#Ez*J>9ezvo0*&^#_f`eN%_C;SdrV**ZlTeB|l1B
zcFdl<CCsH@mw2ib!?{geb7BjEr+xoWeD3Gk5cTQacP?2gPcpt-n{ZTfH&0`9`A;v2
z9a_!IPu;CwYKm^}=<rSZvak7p&ii(a-}}<0Hb36>LA}NQgn}Ngys}I3b=gImj`{A0
z-7HzX%361c>W-O50@9yvaFMioqF8e@Es~XOR)(IfIYZxf=Pw7(+I5_4Sy*Gs{(eSt
zz>`aXmKF?o@$yN`?i1_$J~`U8nEYfD{;KE``^W^OzU1J^S#nRGC|myf6Q!vsq|JZu
z`{75-%nvH;UBu^Pa4qxjtDJFQ?V8v140CSgDxQ6Q=gNv#>en>($2~lzqqHi_GUv(E
ztsx%k*|)Ff4{Vy<nV;>na69K!UGob`YfiVySgcYKnmp~=&-tHQ3tZS^&Yu3VT_$GL
z20!}{4Z*D!1D83=rv)C9S*4n}Q%a2eF7x$uH+yWs%ML{LZ#eN(nmJ#K%h_?ltVIP8
z0&Xr=HB*8NboW1gkmUc>^)%z$S>CI<ZY_B}V?Fc2`;CcjL3<x;3&c#a-la)%ir0LY
z@JGU9%P#M#6qhEcnTwjXrG8UvQY<L?pL5mH;>qH<+FlnAco-Qp3v`y<o{-TU>=(4x
z^G3pxI{PDc*3DmCva0;xRim1Os)uWiCC2E=3ZCGfu6dUE!Lz@cO|RxytzVG#Zg*ph
zbm}VOh1V>e&rrF{V6nG;+pA+?P9EFWEHs|D_L8>?m*4Y~N?}@CrI^ycoxhf1$-LLh
zBzc|4^l6-PRu;$Sor_#|)`lT3K3R`>`T1bw*RNNbt+evl<^6t=AIHmTL80&;3_EIj
zch)$b(T(*Ac=F>#qTq%y^TeaSJJ=7b{hgl8n77C!=;rsQZqbIl4)$w=S%0N(4_fBR
zm#ez$)yjXrW*<6u@|4oWHHka3J8W1)UoDsxw=gh?d3%|JmpK2qv(Dv0lQ$^Uf`?G8
z9tbc+zZQ^qTWq&wr@}VP<TWb)8@YDKF&(e%(6fj!d${e~xypI2#{#S__D;_~w6*3d
zxFvVc@g?86>7}#l!tN|TU$pk7(n2Xm^OWcH*7MK2GCW-<zsUM|THwn7*3+G{)TDmP
zY<2d~K6o&w;7JUB-*1844?gVc{=Fsi=n<Kx(_e&X78GCIC@q_^TK4^Gh8+`D-ut%G
z&cbBg^j|v5gZu0I=5+Xd_yDr>P2{?xn>qhkGKCw&I5Fg>t(9edkTm6`)@jqCKipIH
zFh;gjztCKyZ4rM|V8>KJqj!;gpEKtCS=!R|V~)J};ibHx35)c<RN7h`^zTUb@2Yt{
zDfiIkbz3f;%wO7aqi316=wy{VZNnpSYg+~Kd{yF>eNqo-I&;=4QTYewM&@;)>O5NJ
zOwZTNdKYD+t2kkCmeUSK(B9#O&&#4ckIJRwUAlHp{KU4!-&yCzT>P|;uko?^5xE_1
zj7*AIF=j_2Bis~>82aW5*cO!NZq%51dg`SW|Dvx4s-;`rUpz(h6;A`V-H|e<FVAEw
zElT_1=c>P#<eD;5OL1G`)sk&d%6Hu+U3QUYJf1!CM(X8f-*;Nw_u_RD2`On`(Q-RM
zc}MH6qUWwJkIHKOE{QJQyx_`_d9UW(-_>}!uEF@RaM%$c-Ki$;rgUxE^Jq`d(!L-z
zt2L+XGDG-f)~CK|I9zq1<K=XnthjH@&td|(nR73h>Mz}4@Z1Wt%ZzVF<;riC8rf$u
zZlBS9@^^z5*Hn$<7j319!g-(ug6)3O*~QzGmVcS1edOn&9XhZ0KNLM-*t<c&3cQyv
z>$2|yD~(mZ{?5%jby7#!B1`e?R7ti2Cu{d#P5V8^%~Vn8+Jejtx7QvCV$*x_l<Dyv
z>wPAgPEIY%y-Ci+df!66|GAbEan|y^;)dwy%M{nLmKU87VBjp~)7kpu{+T@HEuUGR
z?UUQFD*4^<^+g5Qb*V+aU!B@Iea=%4-P>nZSAH@~<3IO#M#}B@Jw}r8t1KEzFWt@e
z`7uMx;w<;tT@O^gXoM{?pS31#``RNWPYRE)*jemqmhyVi+ql~5S=oV?F&Q?~B+~2y
z-f(_z+^SO(b?iW>Y;kPCs>0MJmsMIKJgF?pQ{*B7ogb{~+bLThwz1CG`^5>hSs9Oi
zw_P}+v&^GJbpiXlY$v|P=*opx`7B&n*Q6e})$l)cX~CLmuiBJ*MU$6vtd>?>&n{lQ
zYX2U#IXM;<3p&%<HR{BssmyCX(D|S?mZANtg23vSfSXJ^o7XPC)v;^A7Z;|iDeZTk
z@Ub6g6@Fx|*PvW7dEL%mXCs3*FRaciyIp){d)6^W3$rx~Z+*=!WZfZpZ(i|l!I#%>
zH_do<Y{R*CIkDGNzN@x_G-p=|&M7X)S*x{vw&vN%>%8Z%9e8<n!|HjT9(%95s`lnv
zY<$Ck8FAO5s`8k_i)NhzO^=_+yJ5=SzRl_ElgAr5*S7_RKV;XeQxmad=-XUhesE%Q
zF#DQ9#pTkQb}zQhX%srrc-c-ZX!&%$hR1L2+ZMF=t?2n>+0dNdzxaUVin7=wUE!96
z5{zdUc9fdGiQ;?Bq_-h**X-FnSDsib(|D+GcW-WEug#9&xkA=_>n^Rl7c1~YkA+iF
z*1hzUm22*YX#Wn)u5(#?<>uVr-Tmyr9l?tl;*(OvuH{5?s;;QNKWBBxs_$)A!|uMQ
z+j*^bg1X1FOFiC>-xv$B%-_t?<=7PK+3`x(owt7tSI-agm7Inb&G{N;mmgmDbdK^-
z>99p@i^P4_-IRT=;rV5?=$n=MezJymp5kkItnN}-v#`_n$J*?*!twtYR`^~od47wj
zu~hn-)9sgH!r!L07i8c4=(x88l*;OyN)EJ6V?M}H;}JS<y2K^<X7M>ebE8f2L8ly)
z9Sl7yrE<rQ<-tZBjVJp&>SUJB;_Eu?{NM-YM)tgeQ%}l1D*4iVw&+Ssz$eb#(@#nl
z8JEOuoh$tR4*0x+X6BQD%N}oA8>VzL^_Rem;v=V7N}Us10+b(^*eiZJV7ka>3(tzJ
zyD!WTUa@0o)SW4@@(k)_vU6l&PE?D$ar*b;(2vZV7w<wmxRbUSXj;sa5dQr2!IO2(
zlXF!w#C&(Ix$)txgFrTOx6wh<H=+tM49m-8=iDhOSang$Ue{ZrwSU>>)ScpWZz2W0
zO3x_Tvc%vL!;Z@92Q?3xHtmlPbeejyhTm^nb9?)Nm$B^2S+<*)B|dq*sXJszaQiA7
z*`S0Ovpi;1Fvy&Dp7N*IN_!6bad*#trh?70e}ss$d|Vv4O4ly@a>nsR;{8^W4uCfv
zRd(1Gq%JIw2upeFA;=qYChO)UZ&xwf`Ng2&Vi);2iGgb~ER%kgty>uT%(Xr4u<)Wo
z-Ali|I%g9rG9`|`@44cy2PRd#kyV`OuWt!#Rx0@Py=isTs_#16*L<x#x22+1gWu7w
z)C@F5V{_!*oYkHV`7P0EQ{4MgIgNU=)GI0&=G<AjN#|hT{mO^8?gu<}UVG-jvPHS+
ztN0s(cZW=Sx?$ap#NY2e>CV#A;d-Q@w^(gw?92ljoz}0qIcaG-Xh8e3{AWGiwM7LS
z?9<;kMXbFde`JR;%Oan-+QEw*J<PeE_dcxbu(P;pqbPF7Q}}%x)2=-GBVQj>$Sq>-
ztI*BZJXbw+y9(!lz}2^|NpJu9V9FNWWJo9M`qb_(KMK#zZg6D@-}Lv*_EX<Mw%ywx
zv^dRkSrf;M%q!;`T{o52#Dc<L*Wp*+daO>mUbnRS{Ib7yckZ?sGx{64t*+j-yS{mj
zf9P$MyK?%oJq|wH^iuB#Thi={MSqo^y*}tF@AR&DvF(m$WlOWI!ezO+lTK=syuGkN
z?_&Fo6ifLVF7LbpbldJVwNGBBe`3qjfUT={uhllbxiPUfa2fZs&wg9^4~U3f%Z|PF
zN>_cNct?v>(V3!!(_VJ&GFh|is^Rl?(P_auigwjnyea00NUk$0;RT;^QXjKT#>Ml;
zRL*JIKQ3MkySn~FZt3-84eL`2A8UUL`G1`C^v~?7t>-Up2r685yP=lnXfyL+k+#sE
z^Xg5_)*NjA@#|66R^8>ZbgpaNjZkE@-TL$SI`-q%&*uHt)epQJnLTy)qK9FR-j!@_
z{QdO#oTi?@r_KxJuJ_*l^m^#L-<Qr_(-JOSB_GeeF3)T6;`uh$OFi%EZ;06)^Mb>|
z`eU@Gw2Z6rt5tPf=Y4sXOO+l9$xpf)nyR^V`Z{*?A8VInTZULYD%k2$GU3p=V$Hnz
zu4R`)?jCPt;cI++rZ)DpqjI<ACbs#rUah-Z;ygpI@X4CH`_{ics9C3db7ryWNrnTV
z2ji=r%kG=>`rz3=VV78!@7*%JaQ^mAy+iqPQ*_PzdGgns&S#kOZ2P2tO*6bZ-)C4p
zzIuXdAGc;Tms9%z$!T%7Hs9frnpJt}T;^S`D-S+h*5yBbVADkxXTj-{R6G+a815X(
zSB)(=weY}8OY7eei?=0C?a<_UYuBbDb?{}L{Qs{HbhvlFTN9=&^{S>JU1#}yma}Qw
zrT<nHD4zQA)pYgNXEsYJT2$1V9;t6Em^X!G!h1pOKUKT<W!SfWs_U3^DroxK8g2W1
z8Y+9P%r<zda??mNPj%mO<=``m`!gGb-{ib)E-s$KwOeG$yO18E#$Bt<Iq$ft^(+1L
zRZy3MU1n}vsn_I7FRnO5bxm%%uuA<-9fQpK_8Xh;IK54;+^RiyZHZ&>i&t?uD_%@6
zKC*SWSv+X*jJ?bCq6H^7Lo*B$UHA(`&qWla$b_-l?h4>c4zp#^D?8I!TVS$IiktUl
z=-aTF9XF1gQ8G)6xm($P_0_Z`p_ZmU84D&(_l#p{Uw5c=bG>!JG_U*%XZ_dDU-U98
zi}zZcZBJxgBK!Y&Pbbtpn5Ckjk-O#dM2lieXZ8bE*GRkGD9u(3U9_x`OWP@EVR_&q
zmlrn<Zgf7s;I?n3_IJgy1HNnfEVnSt+|+Pn{k6K)f3`lD)(KiapCFJjFGJ&chDX-U
z%cn2YDg;Z&fp)CRS!CEOS`fH^sZnMvhu_DPeeBoYn%aP7_^qd{E^)2BGIhhzK4w8x
ziD!9Ie?cwck^_}|*{4qKkW8yp-o&1+DgNeL)N`v>CoJB#P5pI1b<!;H%#5lBi}(v$
zpKe)u<!4@p$<Zm|=24l?yQbwa%vq-*@hh5B>+JGS-|o8>YXnu6oLYJFZ0&B9tfG!D
zTfRi|HyW?u%E>=h_|lI*FKb8JrFrVJn8DMeso@e{=}NYf!==visqBy9-CxIY`YTKC
z-YL6`m)$;lS7HsQy`ba2`1^rUF_$eaZf%e6?>v2{oZ-%?%P(>ZCh)8iaywWQvX&>#
z=8MN|i#1K|6Z)H-{lE4ZgfRM@@0nvXCvH!M=7P^T@3mPLhum9J$S~(Y=9j&e;U_=+
zQj_WW>aN+?ksEsU+ymza7W%;_|E=9#W_Q!aGdZF)A@cr)sO~o{ci6Azctx{3Pkq&(
z9Qw0#T?pR_zs>t{yiR**9y?GNx6E$G&ZXOYO2c{|XP2_qx7&SXusC;m3;Q{<UDE@u
zMX~d9#=09kWw1D`Jlp!P*2Gn5zvmQh4iocRWWG-G0s8^n-7$a96m9DH)b=|jS-6b7
zWkIi>b7tJyGM+i9_rm4p{I&^x_4X(e%dYdHR|Or8tD3PNSev8$Gx^}#RoCwny)aIB
zBpR`{_l`KH)b}IWHIMgStw_;)wsJPFllPmIbv2SPPpnS3ZejGhlyx?5>W{|L3%!3G
zV=QRORh2C;54uu*d#=C@uDo?ybyW&%ElzHmwC|}xM99kr7v>y(;&k>k*M1$TyhnS^
zGCvTx?e(o~>W>y<$BzbUu0$W$Vj}uVY5K}Y*+SbLH@UZi78CH8zl>=yIkWR+j>)%4
z0i9y0cc!cfI?nuHRb9uUu%u<Yb8a)Ie12fQg>(Im(rn$$+QIL0zUqc&TsD8VZ$nFe
zX5;E#inkuf^lUAx3H%VSG-<NKg&yHU-?C=%HLU)nXf;jvTTV`IQ{L>-YI~jSB^uTI
zAmLvRw0hn5N9CR~+)(*P;@Y+yZx{<g?T?(>u&UMjY{mO-zr~9#oSGZgW|XREIXnDG
z48Pw;8<)y$N}@X>{q%Zj?Rj3iu&iQj<iB#fb9Mb{iCbTzKN{*5*zjLueZKDHmVaBM
z-4xAN&SX1&vC}M3d4<yPSdOM0PZ=!cwZCXkF0t7wy-In-rvjsQds?+R+11Oq1lF-1
z|11!DdgkXl8cW?~bh6ho@5(d!QB?psC*j-#v-z%ezAYQHE8}}*>|gBYw(2)L{qpYY
z0>kHGpXM3AJQw^SIy*1?1W(uN$Hlf_SFoSokaTeIv)gX5ozVhI4}6&Mv|`H2lr2U^
zx4pKkUDOgGu=W*4`MYM8#U8TnpG5m^K2#NGbLtAC`-_fw>ph+&+e$=VUOsO{^71FG
z(8Z!_x3YA}=iWZC{nAv<lPlKfytdde(|zWzX~oB{M}3R^RqDj<GLuoEpla%VaT)Le
zUGBRnpM-W<teLbVC;49#OF{9}W6})j<(l`33LflUtX!A8_ak@GLZ(WyH72i5sXb>b
z$ePY~KWA$D5#O5@(SfH!tSxT5Saxsf%Cc3yn?DtFT3wa3`olD5slyzW@RM6u*Z5}7
zz2K&vskiLPM+S>n)n`@@QqC?G^fO&0e{o0jthLpgyA8fgI~G>NFz4pd!}kve?wZQ^
zw(aSw(5gxN6`#Ia1{D@N^U2-6^V^DH-6?00q?ELCI@c2d7uT+v_&ccQ&JvBPm9fs3
z*PMuarp14ex&4~OvYWEziBh>6bzXQ*5R4J6mS+fms#x{lOJu=%g>~0<y=Z-QC*;y!
z8TRF?ZCvgbX>Z+pL~MtE_Dtrlfnus(iv2EIIkMP&Vc=<4{YfCVK<=KCD#y*EXP-xB
z7I}8}>IQw=_4u^H)tw%lbC+E(-6J<=&8?rirp>n4*drgdVw>Nb6=&x1Yx9;rS}xD9
zysVUW^3#Ss_MpFZ>e82rHSRp^jbMK8EH?JA%$!x1c0YVD{hs?d?&lYG>jnILa>vO<
z@U4V}Tx!zn4`CUt6{ez3c4#iY<LjMgI@{Ql)A60-Rkp&7Wup6{<?1&prC$W4f#;Ls
zPi);;E!cS??|8WCo6=96mT~>I41Ml1%XF^aGOn@Bj8yc`fAemZ?6>#KpykTkc`KJ%
zEALnpHHpb`Z^0490vrCoPdT&JtYdMN3f*dS_j0x`_xI4WnCEXcS=|qq?R`9aH-qB0
zkaCUc;)2b~(-W?jnAfSWo-K-BX7>g(f9S$4!($#?!Pld8WA~x8N9N@=Z*|PNrn0OJ
z(z1-2<a5&b@4dNeFA0a7UQ+z=fZ^$nHZIqTRtek0%v$|*e|kiE*|u-G>e5b3TR1;A
zJ!n{0?rYDW_szMZ`@ym_i$eyta(6aPKEiPM#maqha}v)=-A#10%{;2s5baqi&#&z?
z(Zo3=MFuqTv}x6Sots&?Ujh_8Hh$2%9eksuIx$@Tx7q<s#SWvncFS1%KwH#G>L$+d
zUN-e%e7XE8uDKr#R?W(c0dFR|Uc_y&I85!Y$3C-sM!v(l1g?88u6vhN!2Mlu*Mp8p
z?8QfC9{f3{QHZ6NKV<Wii%yrUcU#x4|MR;FymHQYGw<!sf2~$Nar6I|6Z+<xIk*OX
z(6cgc>c6^})axtPrKH{!W`1xbFF49@O|bJZ-cP$-40r2@Z3=LVchK9KZOD+9_WRDg
zutTjjP6`dzE8Cx*x_yxCz{|VKwj3%l=J49dwQ}9uR)aN*oaa|D#JriYJHs+qTePYm
zfNMol`wh|ROO4l?qswMrx}@e~J=g5W$24=b+=M*VHHNEphV7KyJm+q%m$tY|_saG;
z+y@OVb2>6US(A|jI^1YqRg}yhGv;tp!Ipr+z2@w<eIp#C&0oY-t&Gh`-N}EEv3yb2
zrImknL>N2r<R>Y)r+?n(u%C7A+6m_1P@nfypwZ1D;M}#j3p!1>_Hcx@>XlAXV0^VT
zT7R3&mji|Ji_$G$6(>&J|EB$&zZKu>nt7+58iNC8nsINl{J*myOVwYrJW%xmub<p5
zlkxV{nI`ivZ+BKx{XdXx*3-pXN-TW57OlHI=W+G1lkKt9GS}D-%v=?@IN37foH>_Q
z_=cQEKZ>?9zG%xkTI(*=QuV-TYxcD@7n!%u<JB(Vd9iHiBc{VLFYbA*W8c0$IQN>&
zotV^unuUDU%O7RU4c(l)ZtB6z>*r%Htn_=pG56e#EsLMd$#+zah&UJfS?%7&VwpRv
zb6@ewEC}7TXkiiWL2tKq{nT1{2?q6V&Fz*uwDO)D)O{k6Hbw8tIpG<)%fik+V=UMs
zzv#=4=^=}reY;w^@|NM>qO~e!j^`IxZ+*!tHEU_?qB6(jyI9Px{}njrbjhTt{e;w}
zw##5$%zU?FT$!KBcWho~TgS+_HRxXj1E@XAxID*oy<=VW+)}GRP1e$9DhJ!Z>bd>4
z->@@Wvn%dM$}T<LvtJ)fyZa!KEzfTK6((`7nU_+FmwoV?_)ERuZq4hj55ASIGA>xL
zBI<R`YpJDkyYtef+?>qgry5?#ac7sb&6#j*n=54pqCQP3{bM?-_`wCP*LoK;{#f#y
z3$wbKdQIT_-CReD$7^DO+rnI~9(MdKvvq%ryHqQvmA;#mL((Eim|=&cO8jlR<>#87
zPgL5KC;$KIgNm)${4y~eZs{ACFU~BU`sM(GMcmt6%z1et3LaOB(lZx7293y8Y|Unu
z`6*!YOYp+k;JKzDFLYwLH-2I)nDw?e_Ov1|V-APb%e7A#9)=$N70F~}eb)8oO9qS0
z(G3%Hp3ilTYk9ZW$8^5IT{G9+PaiPsNZrn`a7OXAbxfaU`dzcB{q*rw-oroOmD5dO
z1)fveHO!Y6mR^sY&2&w}X+4+F#;A08-!AD`wsmUOakHkjmp!s`k)M;ZgnebiCPu#1
zp|_2e7Rk(c09qKl;UwGnwAYWy79I9hVBYYO=M;F8>E=1Eer^lA&bCE}AJAPi?TXM9
zNgi>gn62})YZySQvRRk^ImjQYYq9wD+9kW{S`yz{TCg7oJyW|k(RHDySp13L{FuMl
zpC8Qs#d{wtZd>rnMtRj!HvKER-Et0vEthJ1UF06azb@(BZOLnGT$-^jTwFi4d8Suq
zetCV+^;)mC&i1A?R@WxG?Gt((St$8@;r^y)kF8kNCB1tcmFL#CKWPiod2{2yn02c}
zq+}SxYdZMm7wnvxq2b7KzcN~&+uEWcQg*{dp0l7WsfRc(J`~mq%Z_`yVdAdEQ&uip
z=r~<M@b`}N?&j@0yxDJ7zWcx_uFewD7&zJZC)@P|%i?XNe??EQeg6H?hE4B>fUMm^
zo;lHLy8Y}N?|Au4Zaw{1)9bpA+)@dKa>Y|iHfaYd$Mf~y4~SBCQ9k4=Va?emyj$Zw
z-)#L3t2et$vM;aQBanJ3W6|7jgO4)|4xIJ)wM(@7R=#N7p%pQ+tGB+q-n?5NRqKH0
z)8gAxPo7)z&#>p!shDoY0`WyYnGwswmNxbqh1%{^QBf#4Zn{VAPOC=nHU5p$qWl-$
z66I{L+S_7K7G@j1fm;^jm@SQ;Bmb?8s8<ZxWVAKMe$`Z_vkW`91D9QSw#j7kzA2hZ
zHhqYh#QA__y^|zJ`IG~Wr?)v8C7eHfs*3y1oZt}Ihk9BXY5F^2*RzFx4VhjWe|paO
zovF_@$?uKuT>a3bDZ1uwjNH!XSzBLjd$sai!{R@_XDdCn{+n}Jcfn)UTyRay?w4r8
za`exg_?c@Li1?Wrva5I5**{<NDxgV*;rL>o>IYIsHV0j2RjE4{sn>4|uF~5?x1Qcp
zGk?*>Qb$d_6T!z#Z5Z^vg~YQw&)YNUWFSjHY1!NhoKFr*iR7~%m>Ju<bLj&Axkbq?
zr_ZJb%kC`s@VRN5ZNb@9b<(A)tfh)AEj;E+e%Q|S<ny()7rX-4&h@Sp37q-x%Bz#I
z4BOWmhBsxq&P<D$pdD0Du($Z!9>#*#>yF)FTle^*FlV@<xv&@u)4VBy-j9|XKj=F5
zmA+oX=MP0e({<lut<+ZDaVu*#r@w8`cjgB!qQdW@)-6<cVlDXUgj(wX3EjI47CToP
zPCswiqb)xDt7GD_pEZjjJh#WZV6fP_+AzFnvs!mzTcYb>(bAhjZ=*Gys<5}aPhdZA
zcDK(N?<9@TbCVqx<d&-MyqGCmX3fJ?sMO-ME&JD<$FJi5{AIkpzf|#G*smF47O_{S
zmK+Qey`S_k*ZgU;=4&?n{ZXp#7sxZDui7<9&BDK(Un`fFy^i}|P};h6N<tpa0%z~D
z>@y5}5faazcQZ9f?_i<Z&Iz$uU!<I-?pf|s#UOKi#%<PiPxY{pU8$jeh385yHM2V6
zc{2BG#Xq(KYeNg;)6bn%xY2f3%=`FLvAzru-yff|wK~1Qd$DBIp7G4t9lEVgKV|}>
zU)K6$NwJod+E#1_I%CzInXFN9XFFf1y}tK>mRVzhrQcj*2ETVkhR=)7@lH7-73I_^
zwJGN3mHSQ!0!7+frECWZukk+Hp0;MkA#G<-jf}06eusVwasEC{tmSj(l^oZ&(=Jz|
zBD6LKCWvx_76E_`q|lJ`St@bsu8g?o(Nx9TLDvsC{0#dhq6l8mP(4l9WVhGysO$53
z*v%)3B!|5)WB{Fq6OpI*UYpx-e$8peSd&KI3Z;{gGO;(Rj_GWF(|#c6^uelm(vRJr
z3To@GR(4FD)%DJT(ebEC`+=L6^Eh-~&tU#+++X_eLH<{%rk}ngURU@Ux&xQ_ap-Kn
zqZMK3=D`-68E^UAZ^<X8YPYNWg|<6x1mERueEPPg?bm0oKADzS-`K>r+k}E9XS5#R
zYY@J(QZMA`^pLCiQCHW^lT2Kjk@4c3$>jFMEk*pBYR~=nUKoEYY2J$uhPnlltgqG<
z@CpUwU+j`-+#sks*IMpQXj@h?`vJ{&A=?lBG^vvFk9usBd2+|wx5exS&fZyhkF|YC
z&)hke<!6fDcKjy%w&b%@N{3O*EA|7K??S$}g<gBR<zCUdl=Z*%vHbAT;C~p_zu}1?
zUxV?TmG2_Xwa*N3+a<%B{%p+x<+fkX>()GB*wGqm_Fas{HK!?}?9Ha!vY5aX`@@ga
zFvP4#ttzTKr}*yF?&%(l%MMm{@Kx0b@i%nOeC0ju@DI~0lNVo?3fUhB-7F3|Bvj~=
zKz#S<2T`3n%g)B{;F!MZ3FwH>jj5}4AJ)okzQMF!ueYj7%lpL=&~(YnEU^=jpKJLp
zFHgC&Z{f3-ZWf2`zC8K3|Lc;SPiqv8zqNMS%^TbXI$LJuD?W=$O4(P97Ml0n(b;~K
z^L~8e{<*(QF0vo^=<}7&LUFZ&-#_Q_h8b~IS1%QVS9;j5IT3V?G5d$Wn)yeQqpR*+
z2d|rDc7M_Jbr<jIu&KMGH@YkDy`m9l&Cr*=>bp+*guQo!))i`$Y9H4>&wY01hTl(h
zve*yY{5zw7F^_R?I8V;86U#CS)?8@q>pCXY`WZAmZTN7D0?(h>Q#ZRR@n2kUTS@*=
zdGltQ;MikcZ?1Vd-Hus&OLXUHt=)aB7gbZP?29=en_p$PgwYX{zKyS1KhO#MxN~lw
z#cij3rFrf%bJhl$ft+IfK%?qL!0BZ*uP42%`>`_PfxF+4HG4I3Y^ykA&WC(I@UwQu
zl1aRhzUyM%Ts*t$^0pcVne!p#?N@((IC|uMTj+;l?FMW1Ug`xeZm5sA__=xQ5n28n
zXIoA$yL}-o<b~DqP_@uX_H%RNA|{>VT>ko$fJO1GZcg!Ohrcdb!2980N7%lvTOI`Y
z@6`9*YV}%RN2<BnoJQv~#ocKybQ5f+D>Ys$np8DM`j$8Qftz<{6l_z_Xmy^xSisWi
zqx`Bx*As1T%*@(!r!`^OlJf#Px^}J?@HuF<<886AX;JFg_se&1Pd{rWH}^r4^li?E
znvO+Ljx|2aF`%&^R*Pn%#PVkix4f4$?|-$a)ZX}&;OB$aoFB0Cb8bKAs{7)Qm|~yv
zr;lE@PrhvmJo}VIDdLp=!_wL6o_r0fXZ)_3R?NM~QONPAL607<{jZ!I7B4|t($;5N
zmWWDyv6awW6r+09GW6#yb%AM@=c*K)?cvQndgnT$__=?tejG||{q>^jkwN>p38xx&
zAM{D!o!fpOa~tP(UGw?sA$bdIOU;bDG6KT&M5P0IH0KByaZKL|I+Un;kI(gn=!{qT
z=eEvQk~cZ0@7P<?n$1zM&*i$(o?wx^G7RD~e*b%HWN~GYqL8>q@8N^|Zv}g+XGe=B
zUB1S~0;(SMehB=3|Jl2^&uMn4*X3CISMy@_t3;$f+WKH$-KRevKfmXgGuz63$N#0;
zm#4q8pa1WTo4Q=a#i9p!AK!azIi|$(Ix<*PVw1qBx7!tE7M?ebz1(Vit7%O&3wxUJ
zBM+TLp;|R*jCrp9raJ2Tb}-F(Kdq>4TBGBO(CuCt;z@-<I~;j`%WQg~9oez^^Te#G
zshqDGgyrV!;ou8$Eb&|V&TEejQ|1+`=-yp(rmWoN^Gd0S`JqB?<2yHot@C9I9<~IC
zAAD%Ds41v~KhHMA{KSKbN&GwFFYjrMotoe(oEXt-Z+%L-ls)Ey;+4m>1?D$$G^e-P
zDYWi!KcH4~Q>r3vOSGoqn=aqNv*x>a=j3%>Dm`$v&Qaz1hWwq8soQtnC=w`3&}(qF
z^o_b@p%ikfMbKz<=xpl;PE$N%w$1q#%qMt;bxr)kr!#MTyR&h1n)ddLU9-Ekq=u{(
zwUwW<dkeQ-%BrWV1<R#*m7ZlLPvdt<eWjCXdrNUbaNOrZO%B)DcONJ}SSkPL;{31w
zKfbuMVcIh8(7*Fe@!m~mYAN*Ibmzzs{zqA{%+)S&!dDre8(;1JS0OlO_KA=x;ms;_
z5z8YgAM+WUP-b5~D@4b0s?AC{)`Fk>T<l-?c9=HI)^FbYWR^qxxpii9KAemH__TxR
zVAAGPUiJHKb6#_|ShAmOn|hsV%R$z;uiWeRapdJ~lH!i<<o@>J<ju>oX0$t8RO570
z+&b^4z>9BZ^nYKLvk=r-uGeT>>dDCa`i<gk*PVMKUsR+roiFf~;ChiG`uugn<by@x
z2X$9iHa|STV-$Q?!q@Vt_hg+P!4F+rawaYDnqqYBRGR05G^HmAeL?JVxTZ~>{(R1Y
zmHAt5vj}uqvtG`;AFLcuxS?&6$McW+^S;^@w5>|9d}H@yT55@lY(epcJE9MyLfCJ3
zt=NC$?sJt_Kb-4dXIh@$62+?V;GoCsZ9>)au4(HoZ+?12^!J<-d-n?TF^IDymZcR(
zN3)bK@;k9|osG)npVA3#x34ma|5E&u@#g;X8gCn~_y@7;8E-qyfAVY&gYb--ht^eP
zuF|dc6j&#HjZyrQz&E8G*Y2J;Yaz5{#)@etCBxcg?HA5qoqasqyLKJ7p3BT>+z;|5
zEElW$5ioz-FH7^v<>^{RQw|o*ddYo+mGS8H*LjCFE{}?560go*?yEQZpVJ)HtNlAt
zt%4<&aK2^?J88AL<o6Gu-N(b<tTg-mz@Tnky!E|H$@k^>Os#tFIGla(YuWVQ7fU7`
zn|+G$eG|9c5!Qk)*S0A(y^AxyHUG~-CzFQPto)f9!;UAg$D9c1K3#lH=PR$+yuGTf
z=ZggA`)D|<NIFy^ns_ujwm|WeivD@a`pT5URZhnl->Saj^Z)sWcTU!&3lr>KPW^5v
z`Abo+QTh4=k*>AHS6VM7{_&f@xVVM+(#2aVbnV>l3JYJ|qjYx1Pl0b$%dK98tkyoj
z`pdXA!oKkE#T8jeeH+Bo4+@2PY*fl=OuYU4&d&MjN6XqxU1mP>KKzR3d3mS^%OV+_
zZ(Y~i8S6Tvrfi$B_Mr)H_Fs0{0&nXuqws0YKbohC%y}_udqCg)*ymy~5sUn`?#?mV
zZ^x6pxv7wE{>cM3%ht3sE7$hB-H>^Z@rS2F;LbV0J^FV{8I>k$eSC1_lGnD918d(#
zcpff#QQ_mhx^Lpyqm?Trz2#vzUN-M+(Ytps`G;}~va*hQ-FmP}VA<}cmFL*51;34C
zovzfoy-~Py%@St6Ey=29E!Ag+KWHyi?KCPsqQ`y9^v@LGQu7>%uonlyW>>P$$vN)z
z%Ch~m+H3bui>-oZch8m05UHsw(D;xti{oI?re_)Nnu6a(cyiBqm}eB%9+AKAPYH|q
z%BY~o7@ki85{oph+FfTf-=3^$YLU(zTJpyIv~P(Bhlqm2%cE=dyp;I(RE$ac*$Vy8
zHw~BHMtJi2S?_0Ay)|Ul;=L`ZJ2_;co_Sqs(^b3kfcZs(@!JT`?1<Ip{%nX7HO)Ua
zd3LFH%F)*O4W*BciOBr)JjUzuCH(x(rLx+YjjN-iZMSJ{^m=ioa?y`%pHCFDdQM~B
zdVcGJ9P6-4QrB8n=-f4X{_XmKCB3zMey9F~z1%p{?CZqvg%9mq*zerxn;P;v=A-kW
zdxfVwyMi)g9(Q-WRLxxVxOTUZ=?S%451y@*)n2KqzECNeO=8bW6IPqeHbEQs^N(;n
zxK@0%<~FPPt&NkO&3SzFS)F#E$e}p}4m-Z?%6U-X|4!^x{40)faF9m*zT>oJhqQAQ
z%XYn^Ec_30M7?hvFwHw8Td+!2J5!fKWcJRTM!yf2_7>;Od)cN_P#fRd)wbGY#&+Ks
zUgh4?R`TuGDXX1%_xYMt(tGlz33Qwex+Ex@o!EU(yvugS_p6M{Z*QD*Y%Pm)$jS$$
zi#AWynzLh8w~E=+%vDEHJ*$75`h6$o*2YP<iniVSSdo0*H-2`BeUxD$&+Dz`4=Xc|
zdr3{(oW42iRTtl!1sBp*u4!aFxOMAxo^w}0dG^`E4mOMO&vCUHdYPF_b7n~$dVA%s
z`*z>$L2u@~^4jC|WomI=?s2bGiLBG3S0DM1mg^G8IVUe}rowvP<>861%q+fyY)?}4
zJ$-iCtOuXWRC5lkZOd=XT0f0JZr&A8Yx82?RFmg-ay(^h(>ENj3y*Me$&oFLT(Ru>
zCw<w1O|sgVP1!G`9_8c;7|rXbow3dJ+Hw9{>$2Cs+_-$!aj#jwWzsq9T95F3earcn
zk7Kqj$GU5~*M`Y+>6SQIJ$P2OX34$hvtnn>C~lh6nHL#VzRGo<Q1of}<-cQm-KRAF
zmjC~F^ZfVs>h}Eqar^vxxw!vjeE;kIzq;~E@Tva(>aUOD?dyO1`1kGY>SOUX{|<{k
zU0?s_?cLbVxi8uGe|q=s?(yH@<^P{w{=fRGWBLEDpAX;OJwN__?VpP8|DI3hUw>$K
z?f0wS@BexE@w@;3FK@&B|9`o<{l4ALcgOSR)qTGl?!Uk0&yUsl^X>mXdwG9f?XS0&
z*Uzi@Jo$IO{Ji?lSLg5h|MKML`Sbp~z5RZF<+tU}?f-r~J%8V?SNidFzt8sD+x&gq
zAOHWYfBnyYKjZgR{W?3p?$^uH>G$h@KAtRJ|Lfn$$MW-SDu3PWzi(Un=gDbx|N1|l
zKKlF5|M$f1+wJ`|KfkoUm#_c+_wjN6eU<-~{+_cu-oE<R<LmZy|F7?_{XG5n`TswD
z{M@{L-=9}6@6WSvsIUF?=J$S^zaM|^uc^K({^#e@x3~Yt?q4uFYQ4PNy}vOv!8IpM
zPQG%_x8J)mzUK3XZ9h-%zh`M}TjMtQ*5Ajw)zAB@r|bQ1;#p;Nn_Fv3bdLTG)emPc
ztKa0#oBH=d>A$Ai8FKcubM|id@O{I=t5wyBsqY(W%%}F}>T|I17*2U)JHcD`e)6;W
zML%at{W~PovSypOj<G<I!<97gc!zsSH?Y6sU^S=^Ia;l-?EmG*%WrbaXqK(}Wb2b~
z{C-@-jENh!Pt#xX##eN^W>Vhy{r?QB9Y2YS{4UxND}JCLX!5^D-<Y;*{#o<MU*~`C
z)W2+hE-?Mlxv}GcQY^#loxX*eHTH3@yY!U1Z9n^?d-ne<s}Fv%kGwfQqfex~ElKRr
z9euU^&pf`K**E8zN8v@i|1IZ(Q>wcX9UOKV813NWl6fGmv5%X{{fO3%y$8alJTyD{
zF`nVDYV(gt+r`Dq3I&C9|F@jK+<Lo2aN+HQYR66HM{5`V*v5T-=>#j?Yr0%!T?gZS
z*c=Vr{6mjB{`U*FAHQb5Ne<MB;$c>bXyq)d)Y-?qPWI@I2)kb$1=H&{88Aogn;&K8
zf3Z2>frG^c3AQV)Q}i{`QkJ-M{cQ9oWUPI<TjbSL?rz2HVLo@J-V9kFW_DaL;MJu1
zt{Evm<(Tx6_kHE8Xni_6>z{ht{sV6DJ~_|Dh26W1SN-5USXS3)yoy0h<adPObTQ#3
z<)y}}DlWG^-tfmZ?Ayjkx2Mbxbn^Pw^r+rwx^c%Nrl-p#%mOSHe+t!HqML5is>%JL
z#O<j?f!ov5AsXA}Px|KC$ebQxsOR<B-tdpV*gvM(%ctx;A3o)P<W&7&L+)>}1#Y78
z^64QTpQe?)3%*_aQ+nB*M2~8V_?Dz?fBb*gT+Nv-WU=_v{Rd`8C8y@sGNp&?+sHX5
zu+`S&_R^MTW>?>sh#ujcBHeLr#UK9yH_`e-=QR>Vj2AxCK9%uLy2kZkkJi394;P<5
zuOZ~FeJ}ap;(p^*1`iLp*C+ng+~_BEctgSLPsUv*#Jd(QG1jW*x8C^ufaF%+(@%2m
z)YVjcHm*7Qx&8jVJrxyyXa4RzKj-$}nbFnrcdq|<^ZU{D^%XyUAFsc+Z@=~ay|u;D
z|2{u`eY?Efo&SITJ$-xpcl-96&GmQo{twvq>C->uze1Lpw^u*8Y`dqv^#8YSrQeJu
zr2hZ;YvHek@N)UMef#U(*W3MmZGL{<-J0*|&nF(-UGe3ZW$Su>eY?B+%ijM!y*Suw
z6UVRnhmXg<zxUX_{_l^EciZcK|M|@Sf6xC9jsITNd|zL_UB1rRe$W4>pD%y={C@ex
z`RD5@{(rc8cy+|1TZfjN`{a|ZyfgWIUi`o3Z}rPLZy(;hd%L{dzW-l7Jy!p|wej`c
z-|glvb>(gC4&FFtxBk7~{$1+p<?DXFb&>yktM<^#$A=HU7U%z8b>+af^zYZsKZ@R6
zURC=0<F_aG{yv>69m1r3zAH(k&E~N7hN<&EaLh0G{N~~1-_y&N+uQA_{C@I$<L&Fq
zf9!l0zkkQ~8UMfB^IcbOx97kA_k;8QKHaU}zyJKbmB-B3bBzC<xBYeW@86|{f7hFr
zZ_l^?KR5Z;*X!o;c6aN03Z?qrzKfT?e}CVR?bT0?i`)?VG+lf5-=hB?ulwtt)0e+j
z^Y7t9KH-O7-*%s`|7*JM?fV1Yj$S@~eqQlz(Hl=BL-L<Yoz1pQJkPV<W`FI^NB{nO
z`#Ssc?ced|_uKqY-uw9dfob0+?~t6cQ8MR$;qOPx4@;ttoUgC>qf`Cq(Zh%KA77cD
z-}htQ{y!i8J$`Nd@6m35{kZ$}1*iA?W?27!n(g2JcXUdHKR>@Mu7B_T-^Cvv$n&qa
z-+R*j#oW!e&)4s-|Nl_AUQq2!{9(2B#)`t<5BcIBpSG{x{QXC}zy7}6r+E+Wf0SRo
z{r$$>|EtZEzS_&z{(t%O_3q!(mmk-EA75+nx8nQ5J2zMl@uwdCueG@1MZBmWgWrPg
z@cH}q*8cyg|NrOhJzIbOlHaL!Ehzu-;vDXO+pp<;`B1**LVx-9eE-{RA0L+d{&w}G
zZd3XC_y0=2FYI6YQ(65^i~Z#Pd&3-fetN4OdiLsH?$fXz%LN<{TQWKBmY!N`Q}yrl
zT}}I*x;@q3KRo>R`0(%he&)-!m;bl<`}dt$?dSdVRlhI2Z_87Y`}1w4=$#og%k&~2
zo_xJ~y8M0nJ-@#mto`-3{jd4at$)7w9Jw?py=11Mw$G=}yRW~uTOc%}qB!X0rih8_
z8{@ye_^4jKbI0F`=f}T&+dF&n{~fE_@1N)M>8s!McEbkgHJ^EYe?QB=KJHIR{rB^`
zzyB|*s`>TxU-RaryL0x~?Jah{XZ?NZ9qVN8#aegHKl2VNP(S<k_I~?4<uBgF#~CoS
zZY$92F3smwjXo4p5xD2_bA7vi`j1w*NI!J);pu<D@cYxh!}9WZah7+s=ie3l@rm*H
z)3<+b_vf+gss8@!-pv;e*P0)Bx!>-hi^bjA9~J+fndMw_uY1CB{=IQ+p{q@GW&N=`
zcOp4%^RNB!`P=+|_fK%0s{5B%w!NzQ@v{eKw@BIEZ;6V^o_<q7>*I^v7RL&I+}-}C
z;`z7W?JAdi3U)Jp>yehKkl(PcvZD6?>BG|IXO@eX@3-A?J^s$+c+1CkTMwVH{grz=
z=TSMQ_Mw<9haOLVm-6TF@B4Rd>?zCt@b6FiWn=Tj=a%dL*S+I+uEex)>b@554J~Fe
ze{M^yQCRl$b9$bx&S#s&ElE+!Cb-)K?&m#u&qhlx>i@HSs<qtZ@duSU!*5-_|M>6o
zCu(AA=a$6&ny}7W|6TX{+q1cE9JY(ri+b4o{@;mduK#;gW49-5)8E4!d2rTwdyWhH
zckSG8PvcLrcSM$^M#U$MxY;7L`}glQ{`BSFyWZJiFAr2aJvOgxTH2x2yLXr0KC-j+
z_qT_S52ij`(@=X*Zo{Fcriv%HHky1ixtu4t_JK`Vq4Los`A147*J-94OJv=(;P3rB
zp*{6KU)%1}6=T?^o6B+Uyk(WxyZ<eB3-@NU%Fp}vQ!@7Q<s<K-86Q`x2gs*StI=EG
zS|hj4=Xv=K*S!73MW-1}tv5K8bm#en@6hMZ{r_}@sDV_k^^5b{=iBW{-dGaw)A{}P
zPvMInzq<G1V*JMSe}8>=dHAlpU%&Zf&i8HhzaG8&d%S)7_j-%k>CvIbmVYnLzpKB4
zSEGK_q08y=_Ir0#|8Kt>ezf7t!<V0L`@erbccWZa{Dp@v!{^`I@xAW%ZFxWYwEEmb
zm)F1lu&>_AUjJStr+@t2x%(ExSJc(j{8Rkb#p_?cr~31|_Z7d6|LMQ}qjyf`9ln3<
zmoLB34CAw{ef7@u{d+H;DW5;z|NeCS|2@^E?dQ+_3;T6C?s%AzO>V!_pWENegC1ty
zo>W|MOO91GaO*z(n~~r4UDS-Zb4TLt-`D)h-`^|}e)y8V{JXsUo<E|->YKOl_}_lN
z=1=O1=E#=iZw043%*;G#k^9(s`}3<Z^Xh7=e?R13{{Q5@iG3?(&FI~~t0b(8!+-zY
z{l9n5-~6-s^pEY|x68j<y+8D0W^vE64_kV@ey?_UKG(J4)xU3N|E}(TlmGPF_S-#w
zovYRyy8J%x{{8!p=GH%2apv6`<5=t2AHLMv{rM$U|GReUF6L*uxBu_l_}8d9@9<^$
zy1n(a|KHth-@W~(Rn+DCW??U$=*#eJwqF0f?kDT~xo1=lU4H-W-D&pOYhS$FdppSf
zo|&6~e|^=DuY0XUK75a#u3e&-T~qb@;nBO*RsY_|yji5Yiv39Bj;%fW<!pXEemnd2
z^!;`lwkkZj-0r{r?!>bH3ne%t=h^)`{#Jkg-F>ObD?pBYz4fi(<Cpx~-{-~K?m7HB
zU3ul<%lhx~;vb)`xqal%-M6d5CFVbWUgM<yZ^iw{-`VBsCqK;mZxgjUJCV=-_GUl#
zkh@#^l~$W?x4(Sy|L5%IhDR@#uAU|INBqzJWs6pw)Bp47-^0t+zqX#!e^BuKy+CdF
zj~VOdwimH)|M~8!^1pIWi(zl&$EwwgtM5rXoU`Z7>-)Fo&snust~T~gtz4?O==b)2
zzy25hxpBti>~YCG&pxl&w&LgY{d-^9I{&=-clG@EJAaG*m%SH%cW>V>pCc8&9~*4f
zkZfeWxc`sq$4&3Orz~`x_~*=KdxJ-(i@z1k(0y~czU<%Ow|`&rU;Xjq^W#VNm%J?K
zl6%9s(DKvO`L*BwygYgHeC47?f2+68-}C3{&(F(`*EhtM{rd9l-(ydkUGIuFiLj;J
z>#rBGumAXb{=T38zBJEOFZZtd^OWEG{rh;EnjddX?^?}0{pHi*&vT9}{_)lD^tsf)
zg&zEIb{6WN-ySzODObCv)cW!9+5PXXl)ryo!}mO4f9>PChk?H)KUzIs?)d$V`P=`V
zJpV!b{LT7(T6XjP%Ej~Sz27~rU|Z7v+W*Dz_xJvN`gpziEa%_*cdp%Xitl~i`}_Yt
z|8q{A@Gg39r|VP?@4b5Buf9dsbS`7xdG&@e|J&yrZ=dhqzwdAB->&HR`S0%S+vC0Z
zb^Yl>$8+T;{Qq6onDpTP>9_C7<?r9$Z_^&=t6y<{W5vnm=H1f`R^RZxT6JJS{nxwk
z^XB|Gzj%Acy*>N>$9JgjE!j8KI;Os`?(^H%FJ{$;9aHg-zj)a_{O`)!{g31K)$I7N
za*LYZ?fKhszij@`u+MGP^N$VhZNC05efZHnFTVa%*y)mOlQ#xsXk5;8R0+-0nq)L{
z#u2SM|7UwDzq$UK?~Cv6_=EQEYMB3j`1+RnyMcY)?fnnWUzr>4ux3N|g5;%-R+<ah
zuV2aLG%-|Q*RM14uRW|>Bl7Kh`2U!t&o`>{&zpScd-|888oAdU-OsIT`(3U7?fh`w
zw`$*$`T5NIRBiiPjgA)2p11z!^Y-uY+n+~!Zu(!>Ht+G#A2A}|IL}Z1yR9kp|D9jY
zPu4~ME$Z`E`JMap%)j@0Yh5<o54-Dg-uK7vl>KXO+_b;`uX5A<u-`E@{@-qUEesW4
zS_smTT4HApQmL`FNyKK}>6HCz)y~>~|2Fw#U9@EBN1L1Zt0O+2x3!!3MxFb2WPbh3
zH`}kqJpb&k_B&Vg#=qaK-~GSc*4p&>r}E^#+n93y-&xNOQjslwe)8WC!~ci=1e~mk
zHZ8Z?AF}Cw*qynLgHP5)uPwK;)4G|j{a5dw-Oc>fEa%@Yo&-|-=yS^cwSG4D?LlhI
z=AEyf`eu9RM370_7JaIzJ$JG$x_4*2-d~WiCpO#P&v|1m{#k!t{ige26Xw<Lx4fCZ
z+Fu`Jq;|Oe2i4!XS6^!hbX)|fo^f~m{hRjw-)?8!e!278x7m~bmL%@qVE-az|JqNs
z_4RY#Y!{V$_PgEh+hyI~FH`of^|@!y|9<|P<=nqpzb>5ocbn3$JO8Y1`iuXL-!R|r
z+ikBmpMNf${C8W|@0yyDP4~kZ=KtU8`R(?rkDuSCPx`y<(s7ynp5Jb-`uh22=A^%8
z?nL}oyP3cGss23m-?>Zw*8Ms3T>W?M)PFyJ%ud<A_Jh5A{p2_4U4QlG#H-!R*L*hr
z+vjA@Z?|``{3*`=uX-~-Tk6C4zrXcQ)<yF>f}%t7o&K%!{i-+fUmIwEe96oH^H=1g
zztfWbbAOAR^mkhs%l|w5?<c+4F7iCTX5O3arrJ+FUsn5_yO;atpUo%hqP3mv_UCN6
zf9+<#p88Gquf3RXzJB(b^wQ+ITPge3@+!^$Z+0{Pb=L{7=;`0_2j;&?@BW+r^>O~>
zzuUyP{@-~VJ^AmpKCb_F>i?VG%+KC%;(opFx7)vTi)ykr-M>~hv3|el&HUHLKAb=N
zT>bajqkmQJ<X=nKzcyU?e*N{7{cB5=<>#B;%-4NiUsrSOY~9L@%7^{+k3C;>Kz?5L
zml(16`hSaO&RhMf&Q<@|^WwhqkC%%-E{?6YuQIeVKl(G_Z}H@L;;*mYpa0_Mk3Bo=
ztAAha{#cp0|HEI9$0z^!Jo*2`UH(PCRsJiRE>3yA*yEr3E8mmn>?i)|zp`r5-TN+|
z?1P?rZL9BiQoqD)+MnO*|CPUPP5IsI@y|W0So4GW@7!4Zo4*84{`c@T`1$!sJ;$^9
zA3rDm>A#{hd2Ri~Km38e<Udw!x_`|9%<aG89}LP%x3anZoUDu9?rZn&<bRK|<~#pR
z`aiL%unUyCvi<D-Px?R6s`L}soE?+j>MQ+}U)irdU;gBOk6c^JeNXC_=*@prxoN)E
zV|K>)P4lCo=Ffk#yzB4z_xT`|&MPYZr|e&ws8K)fPyZGBDgE)E?1QWWK`G(2UeHN<
zF_4vR|8~aDKl$HdulrF@au?N<zyG9u$+;ypb)b;YdivY_lYP+rN&EM=yr2GN`&PrB
z&;R{a{jXeV`t*1DCwrHd^(`NL|GB@a)B+_@-GHCJy#Kks>HzUxKKdtgO#P?)%6P5#
z|0n-@ybT81Fk9>X{z?BQ&RYHHujWtrmDjcA&p-KJVCjFs`Rc!O=SKW|uKr)yH0|j(
z&wuW(E}wem5AsRwYOqhbwfEbDTvaN1e)3<h|H`-2Z{}zJJarx9FZKw#eJB5W@FxEJ
z<@L|~760kCv;Xv8(VO-@|Kxv<yU9QQ`2KUxQq%rtcXRz0`$NBc{<&wFp8mrPir&g)
zlj=1l{hugxG33*EP&~&+?c3M<Ur_jP<R7&^dwtGdUD;*d{h+=k@c8`0_s_qql&t4F
zUs`pq11xy46PW@j`CM9k?$P<WI+p*ByRH7cIbQGkE%{@5{(aM%>wD~vfA<IR{{Ow6
zVlP(DH-G+{<B!hQ{abUgZtaiF5tIK${IRt0|CW7p{?S=)u6Nm=*1Xw&_y3{KV8!P_
z(v{yJ)JHHC2`amF{^k6EsHg`Ucg-GT$MX+1H`j~SPgA<te{_EMe;5ZMgiQ7yo&Wc{
zFxUYiC+l?ny*VDP@_Xx}^Fb=VH~!dsTpeWV&HsCSK(1Qq19E-7{Y;RvAHD}kS^lZr
zB;Rdc{rfc7kv~9UH_yj|Rowe$1hW0_pD?iTAz<U}<5hoe{89YlH%R@r`~Iq6%V6Zj
zAH@fzgS_rN6=X+UO$fyFvtYgV>-|6uu&;lXvOnxk<T<dhbHG;K&Id_7|L_l_Q09X=
z$no><7lU-S@Av<v{rLQ5dHK0-!jH{Qx34eR6tDeHr*u=iWPMm&-3zcwzFh|Eyk`$~
z^7qSNv#)@~_QivY`3)+%PyHyCu%8Ta+P~j3!TKJjPx^c6M{&e`HBbcq{=L%VWL@eX
z%QgOBRgCput9(&N`EL8)&%HrrR{z!o+Y>YCZ`8;1o#22k@&x;F|1_}ipVK`-A^&s|
z$WF$3kS6v&v;S87xw(J;+)Kq556u6=FIWF<K7{(_`H#KZp1tPe|Addv3+z4qvG?0o
z|5p9qe0=`jU)~@d`yVq~{p;)J|3CTv!N>Ic{ZHyY{McOo|4IFZAH@;z5W)XoK~T1R
z@G;%~|K$G%AD@3%3HAbn{eCjYxikOtr~Qdk{l8eUKJ4WGjAQddKiSXvm_8MYaK)d<
zpU=TQ_4?;-{BO-9kdgQ7V7e;)RDu$86n4!x%tR7yK0g2OZ%~vMSIh&2)4$*9ATJ+=
zWQ+IUYyt5A#OAtx>QGld`1l-DzbAiu{^2_)uHQV*hk61Os`u@G%AftQ8Rq7TJ@%`g
z)SEm$uLTum@3;T`e*PbRv3kBAU@ytVf3mOmWBI@v6lb9z_RSy9LFURp(h&O}Xdr;&
zMFr{zNYF+6v3z3>j<_E-H}f;^fP%B)&&}KVKjm%yf%L~~Ljw-vy~UFCdR%+AtM%O2
zepqYo>gTt)#p@qF{9Btd|JDDXSed$)<)_!J`<LIo%zT2!`+sp2``3mq{6Bl)!RLqa
z8=3z$|DM|a{{8=}|8ws%3Gd%N|3d%0#jnM4^_QQR{N==Q!KB5EFV@|!2--gB3d2^d
zkO%tJ`Ja!P=6`10+q>xHrMlVbUj+Yczi+o^@6CH!_0q3$f1fd)w)Orq|Lc3tzFGeI
OKR-)O!(Q%kb_M{M;!NTI

literal 0
HcmV?d00001

diff --git a/modules/mol/alg/tests/testfiles/P84080_model_01.pdb b/modules/mol/alg/tests/testfiles/P84080_model_01.pdb
new file mode 100644
index 000000000..fed469214
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/P84080_model_01.pdb
@@ -0,0 +1,3200 @@
+TITLE     SWISS-MODEL SERVER (https://swissmodel.expasy.org)
+TITLE    2 ARF1_BOVIN P84080 ADP-ribosylation factor 1
+EXPDTA    THEORETICAL MODEL (SWISS-MODEL SERVER)
+AUTHOR    SWISS-MODEL SERVER (SEE REFERENCE IN JRNL Records)
+REVDAT   1   23-DEC-22 1MOD    1       13:09
+JRNL        AUTH   A.WATERHOUSE,M.BERTONI,S.BIENERT,G.STUDER,G.TAURIELLO,
+JRNL        AUTH 2 R.GUMIENNY,F.T.HEER,T.A.P.DE BEER,C.REMPFER,L.BORDOLI,
+JRNL        AUTH 3 R.LEPORE,T.SCHWEDE
+JRNL        TITL   SWISS-MODEL: HOMOLOGY MODELLING OF PROTEIN STRUCTURES AND
+JRNL        TITL 2 COMPLEXES
+JRNL        REF    NUCLEIC.ACIDS.RES..           V.  46 W296  2018
+JRNL        PMID   29788355
+JRNL        DOI    10.1093/nar/gky427
+REMARK   1
+REMARK   1 REFERENCE 1
+REMARK   1  AUTH   S.BIENERT,A.WATERHOUSE,T.A.P.DE BEER,G.TAURIELLO,G.STUDER,
+REMARK   1  AUTH 2 L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   THE SWISS-MODEL REPOSITORY - NEW FEATURES AND FUNCTIONALITY
+REMARK   1  REF    NUCLEIC.ACIDS.RES..           V.  45       2017
+REMARK   1  REFN                   ISSN 0305-1048
+REMARK   1  PMID   27899672
+REMARK   1  DOI    10.1093/nar/gkw1132
+REMARK   1
+REMARK   1 REFERENCE 2
+REMARK   1  AUTH   N.GUEX,M.C.PEITSCH,T.SCHWEDE
+REMARK   1  TITL   AUTOMATED COMPARATIVE PROTEIN STRUCTURE MODELING WITH
+REMARK   1  TITL 2 SWISS-MODEL AND SWISS-PDBVIEWER: A HISTORICAL PERSPECTIVE
+REMARK   1  REF    ELECTROPHORESIS               V.  30       2009
+REMARK   1  REFN                   ISSN 0173-0835
+REMARK   1  PMID   19517507
+REMARK   1  DOI    10.1002/elps.200900140
+REMARK   1
+REMARK   1 REFERENCE 3
+REMARK   1  AUTH   G.STUDER,G.TAURIELLO,S.BIENERT,M.BIASINI,N.JOHNER,T.SCHWEDE
+REMARK   1  TITL   PROMOD3 - A VERSATILE HOMOLOGY MODELLING TOOLBOX
+REMARK   1  REF    PLOS COMP. BIOL.              V.  17       2021
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   33507980
+REMARK   1  DOI    https://doi.org/10.1371/journal.pcbi.1008667
+REMARK   1
+REMARK   1 REFERENCE 4
+REMARK   1  AUTH   G.STUDER,C.REMPFER,A.WATERHOUSE,R.GUMIENNY,J.HAAS,T.SCHWEDE
+REMARK   1  TITL   QMEANDISCO - DISTANCE CONSTRAINTS APPLIED ON MODEL QUALITY 
+REMARK   1  TITL 2 ESTIMATION
+REMARK   1  REF    BIOINFORMATICS                V.  36       2020
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   31697312
+REMARK   1  DOI    https://doi.org/10.1093/bioinformatics/btz828
+REMARK   1
+REMARK   1 REFERENCE 5
+REMARK   1  AUTH   P.BENKERT,M.BIASINI,T.SCHWEDE
+REMARK   1  TITL   TOWARD THE ESTIMATION OF THE ABSOLUTE QUALITY OF INDIVIDUAL
+REMARK   1  TITL 2 PROTEIN STRUCTURE MODELS
+REMARK   1  REF    BIOINFORMATICS                V.  27       2011
+REMARK   1  REFN                   ISSN 1367-4803
+REMARK   1  PMID   21134891
+REMARK   1  DOI    10.1093/bioinformatics/btq662
+REMARK   1
+REMARK   1 REFERENCE 6
+REMARK   1  AUTH   M.BERTONI,F.KIEFER,M.BIASINI,L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   MODELING PROTEIN QUATERNARY STRUCTURE OF HOMO- AND
+REMARK   1  TITL 2 HETERO-OLIGOMERS BEYOND BINARY INTERACTIONS BY HOMOLOGY
+REMARK   1  REF    SCI.REP.                      V.   7       2017
+REMARK   1  REFN                   ISSN
+REMARK   1  PMID   28874689
+REMARK   1  DOI    10.1038/s41598-017-09654-8
+REMARK   1
+REMARK   1 DISCLAIMER
+REMARK   1 The SWISS-MODEL SERVER produces theoretical models for proteins.
+REMARK   1 The results of any theoretical modelling procedure is
+REMARK   1 NON-EXPERIMENTAL and MUST be considered with care. These models may
+REMARK   1 contain significant errors. This is especially true for automated
+REMARK   1 modeling since there is no human intervention during model
+REMARK   1 building. Please read the header section and the logfile carefully
+REMARK   1 to know what templates and alignments were used during the model
+REMARK   1 building process. All information by the SWISS-MODEL SERVER is
+REMARK   1 provided "AS-IS", without any warranty, expressed or implied.
+REMARK   2
+REMARK   2 COPYRIGHT NOTICE
+REMARK   2 This SWISS-MODEL protein model is copyright. It is produced by the
+REMARK   2 SWISS-MODEL server, developed by the Computational Structural
+REMARK   2 Biology Group at the SIB Swiss Institute of Bioinformatics at the
+REMARK   2 Biozentrum, University of Basel (https://swissmodel.expasy.org). This
+REMARK   2 model is licensed under the CC BY-SA 4.0 Creative Commons
+REMARK   2 Attribution-ShareAlike 4.0 International License
+REMARK   2 (https://creativecommons.org/licenses/by-sa/4.0/legalcode), i.e. you
+REMARK   2 can copy and redistribute the model in any medium or format,
+REMARK   2 transform and build upon the model for any purpose, even
+REMARK   2 commercially, under the following terms:
+REMARK   2 Attribution - You must give appropriate credit, provide a link to
+REMARK   2 the license, and indicate if changes were made. You may do so in any
+REMARK   2 reasonable manner, but not in any way that suggests the licensor
+REMARK   2 endorses you or your use. When you publish, patent or distribute
+REMARK   2 results that were fully or partially based on the model, please cite
+REMARK   2 the corresponding papers mentioned under JRNL.
+REMARK   2 ShareAlike - If you remix, transform, or build upon the material,
+REMARK   2 you must distribute your contributions under the same license as the
+REMARK   2 original.
+REMARK   2 No additional restrictions - you may not apply legal terms or
+REMARK   2 technological measures that legally restrict others from doing
+REMARK   2 anything the license permits.
+REMARK   2 Find a human-readable summary of (and not a substitute for) the
+REMARK   2 CC BY-SA 4.0 license at this link:
+REMARK   2 https://creativecommons.org/licenses/by-sa/4.0/
+REMARK   3 
+REMARK   3 MODEL INFORMATION
+REMARK   3  ENGIN   PROMOD3
+REMARK   3  VERSN   3.2.1
+REMARK   3  OSTAT   homo-dimer
+REMARK   3  OSRSN   PREDICTION
+REMARK   3  QSPRD   0.674
+REMARK   3  GMQE    0.81
+REMARK   3  QMNV    4.3.0
+REMARK   3  QMNDG   0.78
+REMARK   3  MODT    FALSE
+REMARK   3 
+REMARK   3 MODEL LIGAND 1
+REMARK   3  NAME    GDP
+REMARK   3  BIND    A.25
+REMARK   3  BIND 2  A.26
+REMARK   3  BIND 3  A.27
+REMARK   3  BIND 4  A.28
+REMARK   3  BIND 5  A.29
+REMARK   3  BIND 6  A.30
+REMARK   3  BIND 7  A.31
+REMARK   3  BIND 8  A.32
+REMARK   3  BIND 9  A.67
+REMARK   3  BIND 10  A.126
+REMARK   3  BIND 11  A.127
+REMARK   3  BIND 12  A.129
+REMARK   3  BIND 13  A.130
+REMARK   3  BIND 14  A.159
+REMARK   3  BIND 15  A.160
+REMARK   3  BIND 16  A.161
+REMARK   3  BIND 17  B.50
+REMARK   3  BIND 18  B.52
+REMARK   3  BIND 19  _.3
+REMARK   3 
+REMARK   3 MODEL LIGAND 2
+REMARK   3  NAME    GDP
+REMARK   3  BIND    A.49
+REMARK   3  BIND 2  A.50
+REMARK   3  BIND 3  A.52
+REMARK   3  BIND 4  B.25
+REMARK   3  BIND 5  B.26
+REMARK   3  BIND 6  B.27
+REMARK   3  BIND 7  B.28
+REMARK   3  BIND 8  B.29
+REMARK   3  BIND 9  B.30
+REMARK   3  BIND 10  B.31
+REMARK   3  BIND 11  B.32
+REMARK   3  BIND 12  B.67
+REMARK   3  BIND 13  B.126
+REMARK   3  BIND 14  B.127
+REMARK   3  BIND 15  B.129
+REMARK   3  BIND 16  B.130
+REMARK   3  BIND 17  B.159
+REMARK   3  BIND 18  B.160
+REMARK   3  BIND 19  B.161
+REMARK   3  BIND 20  _.4
+REMARK   3 
+REMARK   3 TEMPLATE 1
+REMARK   3  PDBID   1rrg
+REMARK   3  CHAIN   A
+REMARK   3  MMCIF   A
+REMARK   3  PDBV    2022-12-09
+REMARK   3  SMTLE   1rrg.1.A
+REMARK   3  SMTLV   2022-12-14
+REMARK   3  MTHD    X-RAY DIFFRACTION 2.40 A
+REMARK   3  FOUND   BLAST
+REMARK   3  GMQE    0.79
+REMARK   3  SIM     0.61
+REMARK   3  SID     100.00
+REMARK   3  OSTAT   homo-dimer
+REMARK   3  LIGND   MG
+REMARK   3  LIGND 2 MG
+REMARK   3  LIGND 3 GDP
+REMARK   3  LIGND 4 GDP
+REMARK   3  ALN A TRG MGNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TRG KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TRG RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TRG NQLRNQK
+REMARK   3  ALN A TPL MGNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TPL KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TPL RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TPL NQLRNQK
+REMARK   3  ALN A OFF 0
+ATOM      1  N   GLY A   2       5.655 -13.366   3.476  1.00  0.70           N  
+ATOM      2  CA  GLY A   2       5.873 -14.741   2.914  1.00  0.70           C  
+ATOM      3  C   GLY A   2       7.261 -15.242   3.137  1.00  0.70           C  
+ATOM      4  O   GLY A   2       7.890 -14.893   4.127  1.00  0.70           O  
+ATOM      5  N   ASN A   3       7.800 -16.020   2.177  1.00  0.79           N  
+ATOM      6  CA  ASN A   3       9.063 -16.728   2.326  1.00  0.79           C  
+ATOM      7  C   ASN A   3      10.278 -15.856   2.659  1.00  0.79           C  
+ATOM      8  O   ASN A   3      11.160 -16.275   3.396  1.00  0.79           O  
+ATOM      9  CB  ASN A   3       9.321 -17.644   1.101  1.00  0.79           C  
+ATOM     10  CG  ASN A   3      10.473 -18.610   1.374  1.00  0.79           C  
+ATOM     11  OD1 ASN A   3      10.402 -19.416   2.305  1.00  0.79           O  
+ATOM     12  ND2 ASN A   3      11.547 -18.529   0.566  1.00  0.79           N  
+ATOM     13  N   ILE A   4      10.356 -14.601   2.178  1.00  0.83           N  
+ATOM     14  CA  ILE A   4      11.482 -13.727   2.509  1.00  0.83           C  
+ATOM     15  C   ILE A   4      11.652 -13.488   4.014  1.00  0.83           C  
+ATOM     16  O   ILE A   4      12.755 -13.539   4.550  1.00  0.83           O  
+ATOM     17  CB  ILE A   4      11.471 -12.422   1.723  1.00  0.83           C  
+ATOM     18  CG1 ILE A   4      10.258 -11.516   2.021  1.00  0.83           C  
+ATOM     19  CG2 ILE A   4      11.530 -12.794   0.228  1.00  0.83           C  
+ATOM     20  CD1 ILE A   4      10.400 -10.121   1.407  1.00  0.83           C  
+ATOM     21  N   PHE A   5      10.546 -13.307   4.759  1.00  0.83           N  
+ATOM     22  CA  PHE A   5      10.540 -13.277   6.208  1.00  0.83           C  
+ATOM     23  C   PHE A   5      10.836 -14.636   6.841  1.00  0.83           C  
+ATOM     24  O   PHE A   5      11.558 -14.744   7.828  1.00  0.83           O  
+ATOM     25  CB  PHE A   5       9.199 -12.711   6.735  1.00  0.83           C  
+ATOM     26  CG  PHE A   5       8.867 -11.399   6.068  1.00  0.83           C  
+ATOM     27  CD1 PHE A   5       9.519 -10.223   6.447  1.00  0.83           C  
+ATOM     28  CD2 PHE A   5       7.901 -11.334   5.053  1.00  0.83           C  
+ATOM     29  CE1 PHE A   5       9.212  -9.007   5.825  1.00  0.83           C  
+ATOM     30  CE2 PHE A   5       7.603 -10.125   4.404  1.00  0.83           C  
+ATOM     31  CZ  PHE A   5       8.265  -8.955   4.795  1.00  0.83           C  
+ATOM     32  N   ALA A   6      10.326 -15.735   6.255  1.00  0.81           N  
+ATOM     33  CA  ALA A   6      10.623 -17.089   6.688  1.00  0.81           C  
+ATOM     34  C   ALA A   6      12.112 -17.424   6.667  1.00  0.81           C  
+ATOM     35  O   ALA A   6      12.635 -17.985   7.633  1.00  0.81           O  
+ATOM     36  CB  ALA A   6       9.848 -18.090   5.814  1.00  0.81           C  
+ATOM     37  N   ASN A   7      12.823 -17.012   5.595  1.00  0.80           N  
+ATOM     38  CA  ASN A   7      14.268 -17.054   5.463  1.00  0.80           C  
+ATOM     39  C   ASN A   7      14.978 -16.224   6.512  1.00  0.80           C  
+ATOM     40  O   ASN A   7      15.941 -16.689   7.120  1.00  0.80           O  
+ATOM     41  CB  ASN A   7      14.713 -16.491   4.092  1.00  0.80           C  
+ATOM     42  CG  ASN A   7      14.325 -17.417   2.952  1.00  0.80           C  
+ATOM     43  OD1 ASN A   7      14.094 -18.620   3.100  1.00  0.80           O  
+ATOM     44  ND2 ASN A   7      14.285 -16.835   1.734  1.00  0.80           N  
+ATOM     45  N   LEU A   8      14.505 -14.987   6.791  1.00  0.80           N  
+ATOM     46  CA  LEU A   8      15.157 -14.077   7.718  1.00  0.80           C  
+ATOM     47  C   LEU A   8      15.346 -14.696   9.087  1.00  0.80           C  
+ATOM     48  O   LEU A   8      16.441 -14.715   9.658  1.00  0.80           O  
+ATOM     49  CB  LEU A   8      14.281 -12.808   7.919  1.00  0.80           C  
+ATOM     50  CG  LEU A   8      14.648 -11.601   7.051  1.00  0.80           C  
+ATOM     51  CD1 LEU A   8      13.665 -10.454   7.332  1.00  0.80           C  
+ATOM     52  CD2 LEU A   8      16.075 -11.143   7.346  1.00  0.80           C  
+ATOM     53  N   PHE A   9      14.260 -15.284   9.601  1.00  0.81           N  
+ATOM     54  CA  PHE A   9      14.204 -15.854  10.921  1.00  0.81           C  
+ATOM     55  C   PHE A   9      14.754 -17.273  10.952  1.00  0.81           C  
+ATOM     56  O   PHE A   9      15.008 -17.828  12.015  1.00  0.81           O  
+ATOM     57  CB  PHE A   9      12.734 -15.793  11.414  1.00  0.81           C  
+ATOM     58  CG  PHE A   9      12.334 -14.359  11.680  1.00  0.81           C  
+ATOM     59  CD1 PHE A   9      12.877 -13.649  12.764  1.00  0.81           C  
+ATOM     60  CD2 PHE A   9      11.452 -13.686  10.821  1.00  0.81           C  
+ATOM     61  CE1 PHE A   9      12.655 -12.273  12.909  1.00  0.81           C  
+ATOM     62  CE2 PHE A   9      11.213 -12.315  10.961  1.00  0.81           C  
+ATOM     63  CZ  PHE A   9      11.842 -11.601  11.988  1.00  0.81           C  
+ATOM     64  N   LYS A  10      15.038 -17.878   9.779  1.00  0.76           N  
+ATOM     65  CA  LYS A  10      15.480 -19.258   9.654  1.00  0.76           C  
+ATOM     66  C   LYS A  10      16.788 -19.596  10.369  1.00  0.76           C  
+ATOM     67  O   LYS A  10      16.998 -20.703  10.858  1.00  0.76           O  
+ATOM     68  CB  LYS A  10      15.530 -19.725   8.177  1.00  0.76           C  
+ATOM     69  CG  LYS A  10      15.403 -21.253   8.019  1.00  0.76           C  
+ATOM     70  CD  LYS A  10      15.593 -21.762   6.583  1.00  0.76           C  
+ATOM     71  CE  LYS A  10      17.034 -22.148   6.236  1.00  0.76           C  
+ATOM     72  NZ  LYS A  10      17.424 -23.405   6.923  1.00  0.76           N  
+ATOM     73  N   GLY A  11      17.709 -18.618  10.451  1.00  0.76           N  
+ATOM     74  CA  GLY A  11      18.964 -18.727  11.196  1.00  0.76           C  
+ATOM     75  C   GLY A  11      18.881 -18.304  12.634  1.00  0.76           C  
+ATOM     76  O   GLY A  11      19.900 -18.137  13.293  1.00  0.76           O  
+ATOM     77  N   LEU A  12      17.670 -18.050  13.146  1.00  0.78           N  
+ATOM     78  CA  LEU A  12      17.452 -17.805  14.564  1.00  0.78           C  
+ATOM     79  C   LEU A  12      16.867 -19.055  15.194  1.00  0.78           C  
+ATOM     80  O   LEU A  12      16.630 -19.109  16.402  1.00  0.78           O  
+ATOM     81  CB  LEU A  12      16.464 -16.628  14.800  1.00  0.78           C  
+ATOM     82  CG  LEU A  12      17.092 -15.222  14.857  1.00  0.78           C  
+ATOM     83  CD1 LEU A  12      17.975 -14.907  13.655  1.00  0.78           C  
+ATOM     84  CD2 LEU A  12      16.008 -14.143  14.920  1.00  0.78           C  
+ATOM     85  N   PHE A  13      16.632 -20.100  14.382  1.00  0.80           N  
+ATOM     86  CA  PHE A  13      16.080 -21.362  14.817  1.00  0.80           C  
+ATOM     87  C   PHE A  13      16.993 -22.201  15.700  1.00  0.80           C  
+ATOM     88  O   PHE A  13      18.217 -22.164  15.605  1.00  0.80           O  
+ATOM     89  CB  PHE A  13      15.580 -22.217  13.621  1.00  0.80           C  
+ATOM     90  CG  PHE A  13      14.476 -21.584  12.808  1.00  0.80           C  
+ATOM     91  CD1 PHE A  13      13.695 -20.501  13.259  1.00  0.80           C  
+ATOM     92  CD2 PHE A  13      14.200 -22.130  11.540  1.00  0.80           C  
+ATOM     93  CE1 PHE A  13      12.685 -19.963  12.461  1.00  0.80           C  
+ATOM     94  CE2 PHE A  13      13.180 -21.599  10.742  1.00  0.80           C  
+ATOM     95  CZ  PHE A  13      12.429 -20.523  11.211  1.00  0.80           C  
+ATOM     96  N   GLY A  14      16.389 -22.995  16.606  1.00  0.73           N  
+ATOM     97  CA  GLY A  14      17.113 -23.901  17.485  1.00  0.73           C  
+ATOM     98  C   GLY A  14      16.263 -24.267  18.658  1.00  0.73           C  
+ATOM     99  O   GLY A  14      15.200 -23.694  18.867  1.00  0.73           O  
+ATOM    100  N   LYS A  15      16.701 -25.237  19.487  1.00  0.60           N  
+ATOM    101  CA  LYS A  15      16.063 -25.464  20.772  1.00  0.60           C  
+ATOM    102  C   LYS A  15      16.285 -24.279  21.713  1.00  0.60           C  
+ATOM    103  O   LYS A  15      17.375 -24.089  22.249  1.00  0.60           O  
+ATOM    104  CB  LYS A  15      16.518 -26.804  21.420  1.00  0.60           C  
+ATOM    105  CG  LYS A  15      16.199 -26.914  22.927  1.00  0.60           C  
+ATOM    106  CD  LYS A  15      15.889 -28.330  23.444  1.00  0.60           C  
+ATOM    107  CE  LYS A  15      17.053 -29.328  23.469  1.00  0.60           C  
+ATOM    108  NZ  LYS A  15      18.120 -28.892  24.402  1.00  0.60           N  
+ATOM    109  N   LYS A  16      15.222 -23.476  21.904  1.00  0.65           N  
+ATOM    110  CA  LYS A  16      15.172 -22.258  22.688  1.00  0.65           C  
+ATOM    111  C   LYS A  16      13.867 -21.599  22.310  1.00  0.65           C  
+ATOM    112  O   LYS A  16      13.621 -21.341  21.140  1.00  0.65           O  
+ATOM    113  CB  LYS A  16      16.329 -21.238  22.438  1.00  0.65           C  
+ATOM    114  CG  LYS A  16      16.549 -20.855  20.963  1.00  0.65           C  
+ATOM    115  CD  LYS A  16      17.723 -19.894  20.743  1.00  0.65           C  
+ATOM    116  CE  LYS A  16      17.942 -19.604  19.256  1.00  0.65           C  
+ATOM    117  NZ  LYS A  16      19.057 -18.652  19.053  1.00  0.65           N  
+ATOM    118  N   GLU A  17      12.974 -21.316  23.271  1.00  0.65           N  
+ATOM    119  CA  GLU A  17      11.770 -20.573  22.932  1.00  0.65           C  
+ATOM    120  C   GLU A  17      12.087 -19.093  22.934  1.00  0.65           C  
+ATOM    121  O   GLU A  17      12.641 -18.572  23.899  1.00  0.65           O  
+ATOM    122  CB  GLU A  17      10.571 -20.911  23.854  1.00  0.65           C  
+ATOM    123  CG  GLU A  17       9.187 -20.583  23.231  1.00  0.65           C  
+ATOM    124  CD  GLU A  17       9.007 -21.200  21.843  1.00  0.65           C  
+ATOM    125  OE1 GLU A  17       9.367 -22.394  21.682  1.00  0.65           O  
+ATOM    126  OE2 GLU A  17       8.561 -20.460  20.930  1.00  0.65           O  
+ATOM    127  N   MET A  18      11.814 -18.395  21.819  1.00  0.67           N  
+ATOM    128  CA  MET A  18      12.103 -16.989  21.665  1.00  0.67           C  
+ATOM    129  C   MET A  18      10.822 -16.236  21.482  1.00  0.67           C  
+ATOM    130  O   MET A  18       9.910 -16.630  20.764  1.00  0.67           O  
+ATOM    131  CB  MET A  18      12.933 -16.587  20.414  1.00  0.67           C  
+ATOM    132  CG  MET A  18      14.313 -17.242  20.250  1.00  0.67           C  
+ATOM    133  SD  MET A  18      15.562 -16.210  19.388  1.00  0.67           S  
+ATOM    134  CE  MET A  18      14.563 -15.125  18.311  1.00  0.67           C  
+ATOM    135  N   ARG A  19      10.765 -15.055  22.090  1.00  0.70           N  
+ATOM    136  CA  ARG A  19       9.637 -14.183  21.975  1.00  0.70           C  
+ATOM    137  C   ARG A  19      10.093 -12.877  21.367  1.00  0.70           C  
+ATOM    138  O   ARG A  19      11.103 -12.287  21.752  1.00  0.70           O  
+ATOM    139  CB  ARG A  19       9.061 -14.004  23.386  1.00  0.70           C  
+ATOM    140  CG  ARG A  19       8.006 -12.910  23.600  1.00  0.70           C  
+ATOM    141  CD  ARG A  19       6.591 -13.457  23.662  1.00  0.70           C  
+ATOM    142  NE  ARG A  19       6.505 -14.355  24.857  1.00  0.70           N  
+ATOM    143  CZ  ARG A  19       5.823 -15.509  24.871  1.00  0.70           C  
+ATOM    144  NH1 ARG A  19       4.988 -15.842  23.890  1.00  0.70           N  
+ATOM    145  NH2 ARG A  19       5.954 -16.317  25.921  1.00  0.70           N  
+ATOM    146  N   ILE A  20       9.327 -12.395  20.377  1.00  0.85           N  
+ATOM    147  CA  ILE A  20       9.468 -11.066  19.829  1.00  0.85           C  
+ATOM    148  C   ILE A  20       8.163 -10.388  20.182  1.00  0.85           C  
+ATOM    149  O   ILE A  20       7.076 -10.837  19.824  1.00  0.85           O  
+ATOM    150  CB  ILE A  20       9.776 -11.073  18.336  1.00  0.85           C  
+ATOM    151  CG1 ILE A  20      11.175 -11.704  18.124  1.00  0.85           C  
+ATOM    152  CG2 ILE A  20       9.727  -9.639  17.766  1.00  0.85           C  
+ATOM    153  CD1 ILE A  20      11.447 -12.125  16.680  1.00  0.85           C  
+ATOM    154  N   LEU A  21       8.239  -9.310  20.981  1.00  0.86           N  
+ATOM    155  CA  LEU A  21       7.065  -8.592  21.431  1.00  0.86           C  
+ATOM    156  C   LEU A  21       6.803  -7.465  20.465  1.00  0.86           C  
+ATOM    157  O   LEU A  21       7.700  -6.685  20.183  1.00  0.86           O  
+ATOM    158  CB  LEU A  21       7.303  -7.981  22.840  1.00  0.86           C  
+ATOM    159  CG  LEU A  21       6.392  -8.510  23.958  1.00  0.86           C  
+ATOM    160  CD1 LEU A  21       6.809  -7.913  25.309  1.00  0.86           C  
+ATOM    161  CD2 LEU A  21       4.928  -8.158  23.695  1.00  0.86           C  
+ATOM    162  N   MET A  22       5.580  -7.321  19.941  1.00  0.86           N  
+ATOM    163  CA  MET A  22       5.259  -6.173  19.124  1.00  0.86           C  
+ATOM    164  C   MET A  22       4.094  -5.442  19.749  1.00  0.86           C  
+ATOM    165  O   MET A  22       2.952  -5.891  19.758  1.00  0.86           O  
+ATOM    166  CB  MET A  22       5.044  -6.570  17.651  1.00  0.86           C  
+ATOM    167  CG  MET A  22       4.524  -5.436  16.748  1.00  0.86           C  
+ATOM    168  SD  MET A  22       4.730  -5.777  14.972  1.00  0.86           S  
+ATOM    169  CE  MET A  22       3.730  -7.293  14.873  1.00  0.86           C  
+ATOM    170  N   VAL A  23       4.383  -4.259  20.311  1.00  0.87           N  
+ATOM    171  CA  VAL A  23       3.416  -3.455  21.031  1.00  0.87           C  
+ATOM    172  C   VAL A  23       3.339  -2.099  20.364  1.00  0.87           C  
+ATOM    173  O   VAL A  23       4.022  -1.792  19.388  1.00  0.87           O  
+ATOM    174  CB  VAL A  23       3.719  -3.274  22.514  1.00  0.87           C  
+ATOM    175  CG1 VAL A  23       3.708  -4.636  23.221  1.00  0.87           C  
+ATOM    176  CG2 VAL A  23       5.065  -2.562  22.707  1.00  0.87           C  
+ATOM    177  N   GLY A  24       2.428  -1.250  20.852  1.00  0.88           N  
+ATOM    178  CA  GLY A  24       2.164   0.046  20.266  1.00  0.88           C  
+ATOM    179  C   GLY A  24       0.736   0.325  20.539  1.00  0.88           C  
+ATOM    180  O   GLY A  24      -0.023  -0.575  20.903  1.00  0.88           O  
+ATOM    181  N   LEU A  25       0.319   1.593  20.422  1.00  0.83           N  
+ATOM    182  CA  LEU A  25      -1.062   2.008  20.590  1.00  0.83           C  
+ATOM    183  C   LEU A  25      -2.035   1.219  19.713  1.00  0.83           C  
+ATOM    184  O   LEU A  25      -1.650   0.540  18.753  1.00  0.83           O  
+ATOM    185  CB  LEU A  25      -1.213   3.532  20.386  1.00  0.83           C  
+ATOM    186  CG  LEU A  25      -0.840   4.410  21.606  1.00  0.83           C  
+ATOM    187  CD1 LEU A  25       0.486   4.077  22.299  1.00  0.83           C  
+ATOM    188  CD2 LEU A  25      -0.805   5.876  21.187  1.00  0.83           C  
+ATOM    189  N   ASP A  26      -3.334   1.264  20.042  1.00  0.77           N  
+ATOM    190  CA  ASP A  26      -4.385   0.687  19.237  1.00  0.77           C  
+ATOM    191  C   ASP A  26      -4.405   1.303  17.836  1.00  0.77           C  
+ATOM    192  O   ASP A  26      -4.076   2.472  17.656  1.00  0.77           O  
+ATOM    193  CB  ASP A  26      -5.742   0.812  19.970  1.00  0.77           C  
+ATOM    194  CG  ASP A  26      -6.033   2.265  20.288  1.00  0.77           C  
+ATOM    195  OD1 ASP A  26      -5.272   2.851  21.109  1.00  0.77           O  
+ATOM    196  OD2 ASP A  26      -6.960   2.845  19.684  1.00  0.77           O  
+ATOM    197  N   ALA A  27      -4.683   0.485  16.799  1.00  0.81           N  
+ATOM    198  CA  ALA A  27      -4.734   0.929  15.414  1.00  0.81           C  
+ATOM    199  C   ALA A  27      -3.419   1.397  14.767  1.00  0.81           C  
+ATOM    200  O   ALA A  27      -3.405   1.868  13.626  1.00  0.81           O  
+ATOM    201  CB  ALA A  27      -5.818   2.007  15.247  1.00  0.81           C  
+ATOM    202  N   ALA A  28      -2.263   1.182  15.437  1.00  0.89           N  
+ATOM    203  CA  ALA A  28      -0.939   1.560  14.956  1.00  0.89           C  
+ATOM    204  C   ALA A  28      -0.464   0.745  13.754  1.00  0.89           C  
+ATOM    205  O   ALA A  28       0.432   1.140  13.012  1.00  0.89           O  
+ATOM    206  CB  ALA A  28       0.089   1.419  16.097  1.00  0.89           C  
+ATOM    207  N   GLY A  29      -1.100  -0.417  13.506  1.00  0.89           N  
+ATOM    208  CA  GLY A  29      -0.836  -1.259  12.344  1.00  0.89           C  
+ATOM    209  C   GLY A  29      -0.245  -2.599  12.668  1.00  0.89           C  
+ATOM    210  O   GLY A  29       0.163  -3.326  11.774  1.00  0.89           O  
+ATOM    211  N   LYS A  30      -0.217  -2.990  13.952  1.00  0.80           N  
+ATOM    212  CA  LYS A  30       0.367  -4.250  14.412  1.00  0.80           C  
+ATOM    213  C   LYS A  30      -0.208  -5.536  13.828  1.00  0.80           C  
+ATOM    214  O   LYS A  30       0.529  -6.400  13.358  1.00  0.80           O  
+ATOM    215  CB  LYS A  30       0.226  -4.351  15.948  1.00  0.80           C  
+ATOM    216  CG  LYS A  30       0.932  -3.214  16.685  1.00  0.80           C  
+ATOM    217  CD  LYS A  30       0.869  -3.307  18.213  1.00  0.80           C  
+ATOM    218  CE  LYS A  30      -0.536  -3.408  18.826  1.00  0.80           C  
+ATOM    219  NZ  LYS A  30      -1.366  -2.231  18.509  1.00  0.80           N  
+ATOM    220  N   THR A  31      -1.541  -5.686  13.792  1.00  0.78           N  
+ATOM    221  CA  THR A  31      -2.227  -6.819  13.164  1.00  0.78           C  
+ATOM    222  C   THR A  31      -1.970  -6.915  11.675  1.00  0.78           C  
+ATOM    223  O   THR A  31      -1.749  -7.984  11.106  1.00  0.78           O  
+ATOM    224  CB  THR A  31      -3.712  -6.730  13.396  1.00  0.78           C  
+ATOM    225  OG1 THR A  31      -3.921  -6.383  14.759  1.00  0.78           O  
+ATOM    226  CG2 THR A  31      -4.451  -8.026  13.015  1.00  0.78           C  
+ATOM    227  N   THR A  32      -1.941  -5.749  10.999  1.00  0.81           N  
+ATOM    228  CA  THR A  32      -1.579  -5.620   9.592  1.00  0.81           C  
+ATOM    229  C   THR A  32      -0.164  -6.080   9.297  1.00  0.81           C  
+ATOM    230  O   THR A  32       0.061  -6.806   8.330  1.00  0.81           O  
+ATOM    231  CB  THR A  32      -1.707  -4.190   9.072  1.00  0.81           C  
+ATOM    232  OG1 THR A  32      -3.008  -3.686   9.325  1.00  0.81           O  
+ATOM    233  CG2 THR A  32      -1.485  -4.121   7.554  1.00  0.81           C  
+ATOM    234  N   ILE A  33       0.823  -5.700  10.142  1.00  0.85           N  
+ATOM    235  CA  ILE A  33       2.201  -6.177  10.058  1.00  0.85           C  
+ATOM    236  C   ILE A  33       2.285  -7.682  10.248  1.00  0.85           C  
+ATOM    237  O   ILE A  33       2.886  -8.353   9.417  1.00  0.85           O  
+ATOM    238  CB  ILE A  33       3.139  -5.459  11.037  1.00  0.85           C  
+ATOM    239  CG1 ILE A  33       3.227  -3.954  10.692  1.00  0.85           C  
+ATOM    240  CG2 ILE A  33       4.554  -6.086  11.010  1.00  0.85           C  
+ATOM    241  CD1 ILE A  33       4.005  -3.124  11.720  1.00  0.85           C  
+ATOM    242  N   LEU A  34       1.617  -8.274  11.267  1.00  0.81           N  
+ATOM    243  CA  LEU A  34       1.596  -9.723  11.471  1.00  0.81           C  
+ATOM    244  C   LEU A  34       1.044 -10.501  10.278  1.00  0.81           C  
+ATOM    245  O   LEU A  34       1.628 -11.485   9.820  1.00  0.81           O  
+ATOM    246  CB  LEU A  34       0.688 -10.103  12.680  1.00  0.81           C  
+ATOM    247  CG  LEU A  34       1.277 -10.003  14.098  1.00  0.81           C  
+ATOM    248  CD1 LEU A  34       0.264 -10.570  15.107  1.00  0.81           C  
+ATOM    249  CD2 LEU A  34       2.594 -10.773  14.230  1.00  0.81           C  
+ATOM    250  N   TYR A  35      -0.090 -10.051   9.714  1.00  0.77           N  
+ATOM    251  CA  TYR A  35      -0.711 -10.667   8.557  1.00  0.77           C  
+ATOM    252  C   TYR A  35       0.147 -10.583   7.297  1.00  0.77           C  
+ATOM    253  O   TYR A  35       0.183 -11.476   6.451  1.00  0.77           O  
+ATOM    254  CB  TYR A  35      -2.086  -9.988   8.346  1.00  0.77           C  
+ATOM    255  CG  TYR A  35      -2.939 -10.736   7.367  1.00  0.77           C  
+ATOM    256  CD1 TYR A  35      -3.380 -12.038   7.655  1.00  0.77           C  
+ATOM    257  CD2 TYR A  35      -3.302 -10.141   6.150  1.00  0.77           C  
+ATOM    258  CE1 TYR A  35      -4.170 -12.737   6.732  1.00  0.77           C  
+ATOM    259  CE2 TYR A  35      -4.091 -10.839   5.228  1.00  0.77           C  
+ATOM    260  CZ  TYR A  35      -4.526 -12.135   5.522  1.00  0.77           C  
+ATOM    261  OH  TYR A  35      -5.347 -12.820   4.611  1.00  0.77           O  
+ATOM    262  N   LYS A  36       0.877  -9.472   7.128  1.00  0.77           N  
+ATOM    263  CA  LYS A  36       1.814  -9.296   6.038  1.00  0.77           C  
+ATOM    264  C   LYS A  36       3.007 -10.233   6.024  1.00  0.77           C  
+ATOM    265  O   LYS A  36       3.431 -10.694   4.959  1.00  0.77           O  
+ATOM    266  CB  LYS A  36       2.326  -7.848   6.013  1.00  0.77           C  
+ATOM    267  CG  LYS A  36       1.309  -6.900   5.379  1.00  0.77           C  
+ATOM    268  CD  LYS A  36       1.313  -6.995   3.845  1.00  0.77           C  
+ATOM    269  CE  LYS A  36      -0.033  -6.684   3.192  1.00  0.77           C  
+ATOM    270  NZ  LYS A  36      -1.064  -7.625   3.697  1.00  0.77           N  
+ATOM    271  N   LEU A  37       3.567 -10.552   7.206  1.00  0.79           N  
+ATOM    272  CA  LEU A  37       4.683 -11.471   7.336  1.00  0.79           C  
+ATOM    273  C   LEU A  37       4.384 -12.860   6.803  1.00  0.79           C  
+ATOM    274  O   LEU A  37       5.226 -13.461   6.130  1.00  0.79           O  
+ATOM    275  CB  LEU A  37       5.143 -11.619   8.806  1.00  0.79           C  
+ATOM    276  CG  LEU A  37       5.523 -10.310   9.513  1.00  0.79           C  
+ATOM    277  CD1 LEU A  37       6.019 -10.583  10.938  1.00  0.79           C  
+ATOM    278  CD2 LEU A  37       6.549  -9.496   8.725  1.00  0.79           C  
+ATOM    279  N   LYS A  38       3.159 -13.374   7.050  1.00  0.73           N  
+ATOM    280  CA  LYS A  38       2.682 -14.670   6.580  1.00  0.73           C  
+ATOM    281  C   LYS A  38       3.535 -15.811   7.115  1.00  0.73           C  
+ATOM    282  O   LYS A  38       3.959 -16.702   6.385  1.00  0.73           O  
+ATOM    283  CB  LYS A  38       2.523 -14.778   5.036  1.00  0.73           C  
+ATOM    284  CG  LYS A  38       1.587 -13.734   4.403  1.00  0.73           C  
+ATOM    285  CD  LYS A  38       1.692 -13.696   2.866  1.00  0.73           C  
+ATOM    286  CE  LYS A  38       1.057 -12.442   2.253  1.00  0.73           C  
+ATOM    287  NZ  LYS A  38       1.275 -12.405   0.784  1.00  0.73           N  
+ATOM    288  N   LEU A  39       3.800 -15.765   8.432  1.00  0.73           N  
+ATOM    289  CA  LEU A  39       4.592 -16.749   9.152  1.00  0.73           C  
+ATOM    290  C   LEU A  39       3.677 -17.768   9.810  1.00  0.73           C  
+ATOM    291  O   LEU A  39       4.129 -18.734  10.417  1.00  0.73           O  
+ATOM    292  CB  LEU A  39       5.428 -16.033  10.248  1.00  0.73           C  
+ATOM    293  CG  LEU A  39       6.863 -15.618   9.855  1.00  0.73           C  
+ATOM    294  CD1 LEU A  39       7.016 -15.097   8.426  1.00  0.73           C  
+ATOM    295  CD2 LEU A  39       7.391 -14.587  10.860  1.00  0.73           C  
+ATOM    296  N   GLY A  40       2.352 -17.591   9.672  1.00  0.76           N  
+ATOM    297  CA  GLY A  40       1.376 -18.527  10.188  1.00  0.76           C  
+ATOM    298  C   GLY A  40       0.142 -17.793  10.586  1.00  0.76           C  
+ATOM    299  O   GLY A  40       0.007 -16.593  10.353  1.00  0.76           O  
+ATOM    300  N   GLU A  41      -0.814 -18.520  11.175  1.00  0.72           N  
+ATOM    301  CA  GLU A  41      -2.053 -17.983  11.691  1.00  0.72           C  
+ATOM    302  C   GLU A  41      -1.888 -16.974  12.811  1.00  0.72           C  
+ATOM    303  O   GLU A  41      -1.100 -17.159  13.733  1.00  0.72           O  
+ATOM    304  CB  GLU A  41      -2.928 -19.139  12.217  1.00  0.72           C  
+ATOM    305  CG  GLU A  41      -3.171 -20.201  11.126  1.00  0.72           C  
+ATOM    306  CD  GLU A  41      -4.006 -21.377  11.612  1.00  0.72           C  
+ATOM    307  OE1 GLU A  41      -3.429 -22.261  12.287  1.00  0.72           O  
+ATOM    308  OE2 GLU A  41      -5.206 -21.414  11.244  1.00  0.72           O  
+ATOM    309  N   ILE A  42      -2.674 -15.880  12.777  1.00  0.78           N  
+ATOM    310  CA  ILE A  42      -2.718 -14.939  13.881  1.00  0.78           C  
+ATOM    311  C   ILE A  42      -3.819 -15.430  14.784  1.00  0.78           C  
+ATOM    312  O   ILE A  42      -4.985 -15.294  14.430  1.00  0.78           O  
+ATOM    313  CB  ILE A  42      -3.082 -13.512  13.469  1.00  0.78           C  
+ATOM    314  CG1 ILE A  42      -2.225 -13.013  12.289  1.00  0.78           C  
+ATOM    315  CG2 ILE A  42      -2.954 -12.583  14.697  1.00  0.78           C  
+ATOM    316  CD1 ILE A  42      -2.650 -11.617  11.826  1.00  0.78           C  
+ATOM    317  N   VAL A  43      -3.499 -16.035  15.945  1.00  0.76           N  
+ATOM    318  CA  VAL A  43      -4.546 -16.533  16.828  1.00  0.76           C  
+ATOM    319  C   VAL A  43      -4.718 -15.600  18.010  1.00  0.76           C  
+ATOM    320  O   VAL A  43      -3.753 -15.140  18.622  1.00  0.76           O  
+ATOM    321  CB  VAL A  43      -4.418 -17.998  17.250  1.00  0.76           C  
+ATOM    322  CG1 VAL A  43      -3.879 -18.832  16.074  1.00  0.76           C  
+ATOM    323  CG2 VAL A  43      -3.546 -18.188  18.502  1.00  0.76           C  
+ATOM    324  N   THR A  44      -5.978 -15.269  18.344  1.00  0.79           N  
+ATOM    325  CA  THR A  44      -6.304 -14.334  19.411  1.00  0.79           C  
+ATOM    326  C   THR A  44      -6.739 -15.115  20.618  1.00  0.79           C  
+ATOM    327  O   THR A  44      -7.604 -15.987  20.552  1.00  0.79           O  
+ATOM    328  CB  THR A  44      -7.416 -13.346  19.061  1.00  0.79           C  
+ATOM    329  OG1 THR A  44      -7.053 -12.600  17.911  1.00  0.79           O  
+ATOM    330  CG2 THR A  44      -7.640 -12.333  20.195  1.00  0.79           C  
+ATOM    331  N   THR A  45      -6.136 -14.818  21.780  1.00  0.76           N  
+ATOM    332  CA  THR A  45      -6.522 -15.408  23.050  1.00  0.76           C  
+ATOM    333  C   THR A  45      -6.746 -14.283  24.029  1.00  0.76           C  
+ATOM    334  O   THR A  45      -6.282 -13.157  23.848  1.00  0.76           O  
+ATOM    335  CB  THR A  45      -5.522 -16.409  23.638  1.00  0.76           C  
+ATOM    336  OG1 THR A  45      -4.270 -15.814  23.954  1.00  0.76           O  
+ATOM    337  CG2 THR A  45      -5.251 -17.522  22.616  1.00  0.76           C  
+ATOM    338  N   ILE A  46      -7.503 -14.558  25.105  1.00  0.72           N  
+ATOM    339  CA  ILE A  46      -7.718 -13.593  26.167  1.00  0.72           C  
+ATOM    340  C   ILE A  46      -7.169 -14.237  27.434  1.00  0.72           C  
+ATOM    341  O   ILE A  46      -7.798 -15.148  27.981  1.00  0.72           O  
+ATOM    342  CB  ILE A  46      -9.196 -13.227  26.279  1.00  0.72           C  
+ATOM    343  CG1 ILE A  46      -9.654 -12.462  25.016  1.00  0.72           C  
+ATOM    344  CG2 ILE A  46      -9.477 -12.372  27.529  1.00  0.72           C  
+ATOM    345  CD1 ILE A  46     -11.158 -12.552  24.752  1.00  0.72           C  
+ATOM    346  N   PRO A  47      -6.001 -13.837  27.946  1.00  0.75           N  
+ATOM    347  CA  PRO A  47      -5.449 -14.471  29.143  1.00  0.75           C  
+ATOM    348  C   PRO A  47      -6.148 -13.994  30.402  1.00  0.75           C  
+ATOM    349  O   PRO A  47      -6.191 -14.722  31.388  1.00  0.75           O  
+ATOM    350  CB  PRO A  47      -3.974 -14.050  29.122  1.00  0.75           C  
+ATOM    351  CG  PRO A  47      -3.651 -13.830  27.650  1.00  0.75           C  
+ATOM    352  CD  PRO A  47      -4.944 -13.223  27.124  1.00  0.75           C  
+ATOM    353  N   THR A  48      -6.674 -12.758  30.371  1.00  0.64           N  
+ATOM    354  CA  THR A  48      -7.436 -12.145  31.452  1.00  0.64           C  
+ATOM    355  C   THR A  48      -8.403 -11.220  30.781  1.00  0.64           C  
+ATOM    356  O   THR A  48      -8.063 -10.630  29.762  1.00  0.64           O  
+ATOM    357  CB  THR A  48      -6.633 -11.252  32.396  1.00  0.64           C  
+ATOM    358  OG1 THR A  48      -5.552 -11.965  32.968  1.00  0.64           O  
+ATOM    359  CG2 THR A  48      -7.510 -10.763  33.562  1.00  0.64           C  
+ATOM    360  N   ILE A  49      -9.628 -11.034  31.318  1.00  0.53           N  
+ATOM    361  CA  ILE A  49     -10.605 -10.054  30.857  1.00  0.53           C  
+ATOM    362  C   ILE A  49      -9.988  -8.693  30.511  1.00  0.53           C  
+ATOM    363  O   ILE A  49      -9.269  -8.091  31.308  1.00  0.53           O  
+ATOM    364  CB  ILE A  49     -11.760  -9.890  31.854  1.00  0.53           C  
+ATOM    365  CG1 ILE A  49     -12.643 -11.158  31.968  1.00  0.53           C  
+ATOM    366  CG2 ILE A  49     -12.672  -8.710  31.450  1.00  0.53           C  
+ATOM    367  CD1 ILE A  49     -12.106 -12.250  32.896  1.00  0.53           C  
+ATOM    368  N   GLY A  50     -10.232  -8.201  29.275  1.00  0.65           N  
+ATOM    369  CA  GLY A  50      -9.713  -6.916  28.811  1.00  0.65           C  
+ATOM    370  C   GLY A  50      -8.289  -6.952  28.334  1.00  0.65           C  
+ATOM    371  O   GLY A  50      -7.719  -5.928  27.973  1.00  0.65           O  
+ATOM    372  N   PHE A  51      -7.673  -8.141  28.295  1.00  0.64           N  
+ATOM    373  CA  PHE A  51      -6.349  -8.321  27.757  1.00  0.64           C  
+ATOM    374  C   PHE A  51      -6.447  -9.224  26.547  1.00  0.64           C  
+ATOM    375  O   PHE A  51      -6.591 -10.436  26.654  1.00  0.64           O  
+ATOM    376  CB  PHE A  51      -5.444  -8.943  28.854  1.00  0.64           C  
+ATOM    377  CG  PHE A  51      -3.987  -9.055  28.488  1.00  0.64           C  
+ATOM    378  CD1 PHE A  51      -3.310  -8.038  27.797  1.00  0.64           C  
+ATOM    379  CD2 PHE A  51      -3.270 -10.195  28.882  1.00  0.64           C  
+ATOM    380  CE1 PHE A  51      -1.961  -8.186  27.458  1.00  0.64           C  
+ATOM    381  CE2 PHE A  51      -1.904 -10.322  28.600  1.00  0.64           C  
+ATOM    382  CZ  PHE A  51      -1.253  -9.321  27.872  1.00  0.64           C  
+ATOM    383  N   ASN A  52      -6.343  -8.623  25.350  1.00  0.67           N  
+ATOM    384  CA  ASN A  52      -6.337  -9.345  24.095  1.00  0.67           C  
+ATOM    385  C   ASN A  52      -4.897  -9.553  23.694  1.00  0.67           C  
+ATOM    386  O   ASN A  52      -4.121  -8.600  23.644  1.00  0.67           O  
+ATOM    387  CB  ASN A  52      -7.023  -8.555  22.950  1.00  0.67           C  
+ATOM    388  CG  ASN A  52      -8.533  -8.581  23.125  1.00  0.67           C  
+ATOM    389  OD1 ASN A  52      -9.136  -9.616  23.409  1.00  0.67           O  
+ATOM    390  ND2 ASN A  52      -9.197  -7.421  22.934  1.00  0.67           N  
+ATOM    391  N   VAL A  53      -4.512 -10.806  23.404  1.00  0.76           N  
+ATOM    392  CA  VAL A  53      -3.173 -11.101  22.926  1.00  0.76           C  
+ATOM    393  C   VAL A  53      -3.303 -11.823  21.605  1.00  0.76           C  
+ATOM    394  O   VAL A  53      -4.011 -12.821  21.493  1.00  0.76           O  
+ATOM    395  CB  VAL A  53      -2.339 -11.927  23.906  1.00  0.76           C  
+ATOM    396  CG1 VAL A  53      -0.914 -12.131  23.364  1.00  0.76           C  
+ATOM    397  CG2 VAL A  53      -2.246 -11.179  25.247  1.00  0.76           C  
+ATOM    398  N   GLU A  54      -2.617 -11.322  20.563  1.00  0.74           N  
+ATOM    399  CA  GLU A  54      -2.561 -11.972  19.273  1.00  0.74           C  
+ATOM    400  C   GLU A  54      -1.188 -12.617  19.181  1.00  0.74           C  
+ATOM    401  O   GLU A  54      -0.183 -11.990  19.513  1.00  0.74           O  
+ATOM    402  CB  GLU A  54      -2.687 -10.972  18.096  1.00  0.74           C  
+ATOM    403  CG  GLU A  54      -4.057 -10.274  17.919  1.00  0.74           C  
+ATOM    404  CD  GLU A  54      -3.996  -9.250  16.786  1.00  0.74           C  
+ATOM    405  OE1 GLU A  54      -3.241  -8.248  16.886  1.00  0.74           O  
+ATOM    406  OE2 GLU A  54      -4.700  -9.463  15.765  1.00  0.74           O  
+ATOM    407  N   THR A  55      -1.098 -13.889  18.748  1.00  0.80           N  
+ATOM    408  CA  THR A  55       0.190 -14.576  18.659  1.00  0.80           C  
+ATOM    409  C   THR A  55       0.325 -15.255  17.310  1.00  0.80           C  
+ATOM    410  O   THR A  55      -0.586 -15.934  16.845  1.00  0.80           O  
+ATOM    411  CB  THR A  55       0.429 -15.608  19.770  1.00  0.80           C  
+ATOM    412  OG1 THR A  55       0.404 -14.987  21.052  1.00  0.80           O  
+ATOM    413  CG2 THR A  55       1.803 -16.288  19.658  1.00  0.80           C  
+ATOM    414  N   VAL A  56       1.491 -15.095  16.645  1.00  0.79           N  
+ATOM    415  CA  VAL A  56       1.893 -15.907  15.505  1.00  0.79           C  
+ATOM    416  C   VAL A  56       3.074 -16.722  15.990  1.00  0.79           C  
+ATOM    417  O   VAL A  56       4.132 -16.183  16.308  1.00  0.79           O  
+ATOM    418  CB  VAL A  56       2.323 -15.077  14.296  1.00  0.79           C  
+ATOM    419  CG1 VAL A  56       3.052 -15.936  13.242  1.00  0.79           C  
+ATOM    420  CG2 VAL A  56       1.085 -14.443  13.645  1.00  0.79           C  
+ATOM    421  N   GLU A  57       2.936 -18.057  16.061  1.00  0.75           N  
+ATOM    422  CA  GLU A  57       4.051 -18.926  16.383  1.00  0.75           C  
+ATOM    423  C   GLU A  57       4.639 -19.408  15.077  1.00  0.75           C  
+ATOM    424  O   GLU A  57       3.966 -20.053  14.281  1.00  0.75           O  
+ATOM    425  CB  GLU A  57       3.622 -20.111  17.275  1.00  0.75           C  
+ATOM    426  CG  GLU A  57       2.941 -19.615  18.573  1.00  0.75           C  
+ATOM    427  CD  GLU A  57       2.855 -20.669  19.673  1.00  0.75           C  
+ATOM    428  OE1 GLU A  57       2.313 -21.767  19.405  1.00  0.75           O  
+ATOM    429  OE2 GLU A  57       3.302 -20.351  20.807  1.00  0.75           O  
+ATOM    430  N   TYR A  58       5.904 -19.041  14.781  1.00  0.73           N  
+ATOM    431  CA  TYR A  58       6.512 -19.445  13.526  1.00  0.73           C  
+ATOM    432  C   TYR A  58       7.207 -20.794  13.665  1.00  0.73           C  
+ATOM    433  O   TYR A  58       6.963 -21.718  12.892  1.00  0.73           O  
+ATOM    434  CB  TYR A  58       7.486 -18.335  13.016  1.00  0.73           C  
+ATOM    435  CG  TYR A  58       8.095 -18.621  11.660  1.00  0.73           C  
+ATOM    436  CD1 TYR A  58       7.531 -19.544  10.754  1.00  0.73           C  
+ATOM    437  CD2 TYR A  58       9.303 -17.992  11.308  1.00  0.73           C  
+ATOM    438  CE1 TYR A  58       8.236 -19.960   9.621  1.00  0.73           C  
+ATOM    439  CE2 TYR A  58       9.992 -18.383  10.154  1.00  0.73           C  
+ATOM    440  CZ  TYR A  58       9.487 -19.410   9.353  1.00  0.73           C  
+ATOM    441  OH  TYR A  58      10.304 -19.946   8.345  1.00  0.73           O  
+ATOM    442  N   LYS A  59       8.083 -20.935  14.673  1.00  0.72           N  
+ATOM    443  CA  LYS A  59       8.724 -22.196  15.003  1.00  0.72           C  
+ATOM    444  C   LYS A  59       9.084 -22.194  16.470  1.00  0.72           C  
+ATOM    445  O   LYS A  59       8.272 -22.522  17.320  1.00  0.72           O  
+ATOM    446  CB  LYS A  59       9.993 -22.462  14.146  1.00  0.72           C  
+ATOM    447  CG  LYS A  59       9.639 -22.982  12.749  1.00  0.72           C  
+ATOM    448  CD  LYS A  59      10.790 -23.697  12.053  1.00  0.72           C  
+ATOM    449  CE  LYS A  59      10.350 -24.232  10.695  1.00  0.72           C  
+ATOM    450  NZ  LYS A  59      11.525 -24.723   9.952  1.00  0.72           N  
+ATOM    451  N   ASN A  60      10.316 -21.771  16.792  1.00  0.73           N  
+ATOM    452  CA  ASN A  60      10.772 -21.528  18.147  1.00  0.73           C  
+ATOM    453  C   ASN A  60      10.706 -20.028  18.404  1.00  0.73           C  
+ATOM    454  O   ASN A  60      11.235 -19.498  19.376  1.00  0.73           O  
+ATOM    455  CB  ASN A  60      12.212 -22.084  18.300  1.00  0.73           C  
+ATOM    456  CG  ASN A  60      13.209 -21.335  17.427  1.00  0.73           C  
+ATOM    457  OD1 ASN A  60      13.093 -21.356  16.197  1.00  0.73           O  
+ATOM    458  ND2 ASN A  60      14.172 -20.626  18.053  1.00  0.73           N  
+ATOM    459  N   ILE A  61      10.113 -19.292  17.449  1.00  0.74           N  
+ATOM    460  CA  ILE A  61       9.992 -17.855  17.501  1.00  0.74           C  
+ATOM    461  C   ILE A  61       8.521 -17.511  17.556  1.00  0.74           C  
+ATOM    462  O   ILE A  61       7.766 -17.714  16.600  1.00  0.74           O  
+ATOM    463  CB  ILE A  61      10.644 -17.149  16.312  1.00  0.74           C  
+ATOM    464  CG1 ILE A  61      12.111 -17.609  16.131  1.00  0.74           C  
+ATOM    465  CG2 ILE A  61      10.575 -15.616  16.498  1.00  0.74           C  
+ATOM    466  CD1 ILE A  61      12.796 -16.969  14.926  1.00  0.74           C  
+ATOM    467  N   SER A  62       8.096 -16.959  18.700  1.00  0.79           N  
+ATOM    468  CA  SER A  62       6.744 -16.521  18.969  1.00  0.79           C  
+ATOM    469  C   SER A  62       6.659 -15.020  18.760  1.00  0.79           C  
+ATOM    470  O   SER A  62       7.370 -14.242  19.396  1.00  0.79           O  
+ATOM    471  CB  SER A  62       6.371 -16.828  20.445  1.00  0.79           C  
+ATOM    472  OG  SER A  62       5.242 -17.680  20.539  1.00  0.79           O  
+ATOM    473  N   PHE A  63       5.762 -14.556  17.875  1.00  0.78           N  
+ATOM    474  CA  PHE A  63       5.456 -13.146  17.723  1.00  0.78           C  
+ATOM    475  C   PHE A  63       4.241 -12.820  18.563  1.00  0.78           C  
+ATOM    476  O   PHE A  63       3.132 -13.222  18.228  1.00  0.78           O  
+ATOM    477  CB  PHE A  63       5.119 -12.798  16.253  1.00  0.78           C  
+ATOM    478  CG  PHE A  63       6.370 -12.651  15.444  1.00  0.78           C  
+ATOM    479  CD1 PHE A  63       7.002 -13.773  14.883  1.00  0.78           C  
+ATOM    480  CD2 PHE A  63       6.925 -11.377  15.238  1.00  0.78           C  
+ATOM    481  CE1 PHE A  63       8.180 -13.625  14.141  1.00  0.78           C  
+ATOM    482  CE2 PHE A  63       8.097 -11.225  14.488  1.00  0.78           C  
+ATOM    483  CZ  PHE A  63       8.724 -12.351  13.942  1.00  0.78           C  
+ATOM    484  N   THR A  64       4.421 -12.071  19.667  1.00  0.81           N  
+ATOM    485  CA  THR A  64       3.338 -11.761  20.601  1.00  0.81           C  
+ATOM    486  C   THR A  64       2.959 -10.309  20.460  1.00  0.81           C  
+ATOM    487  O   THR A  64       3.796  -9.418  20.579  1.00  0.81           O  
+ATOM    488  CB  THR A  64       3.714 -11.998  22.062  1.00  0.81           C  
+ATOM    489  OG1 THR A  64       3.897 -13.383  22.327  1.00  0.81           O  
+ATOM    490  CG2 THR A  64       2.622 -11.547  23.037  1.00  0.81           C  
+ATOM    491  N   VAL A  65       1.668 -10.031  20.211  1.00  0.81           N  
+ATOM    492  CA  VAL A  65       1.152  -8.687  20.018  1.00  0.81           C  
+ATOM    493  C   VAL A  65       0.058  -8.377  21.027  1.00  0.81           C  
+ATOM    494  O   VAL A  65      -0.802  -9.206  21.315  1.00  0.81           O  
+ATOM    495  CB  VAL A  65       0.613  -8.508  18.596  1.00  0.81           C  
+ATOM    496  CG1 VAL A  65      -0.196  -7.205  18.424  1.00  0.81           C  
+ATOM    497  CG2 VAL A  65       1.771  -8.541  17.587  1.00  0.81           C  
+ATOM    498  N   TRP A  66       0.061  -7.145  21.585  1.00  0.69           N  
+ATOM    499  CA  TRP A  66      -1.044  -6.632  22.371  1.00  0.69           C  
+ATOM    500  C   TRP A  66      -1.089  -5.111  22.273  1.00  0.69           C  
+ATOM    501  O   TRP A  66      -0.069  -4.454  22.056  1.00  0.69           O  
+ATOM    502  CB  TRP A  66      -1.002  -7.123  23.843  1.00  0.69           C  
+ATOM    503  CG  TRP A  66       0.139  -6.622  24.737  1.00  0.69           C  
+ATOM    504  CD1 TRP A  66       0.342  -5.350  25.199  1.00  0.69           C  
+ATOM    505  CD2 TRP A  66       1.118  -7.457  25.357  1.00  0.69           C  
+ATOM    506  NE1 TRP A  66       1.419  -5.334  26.041  1.00  0.69           N  
+ATOM    507  CE2 TRP A  66       1.917  -6.589  26.186  1.00  0.69           C  
+ATOM    508  CE3 TRP A  66       1.376  -8.819  25.320  1.00  0.69           C  
+ATOM    509  CZ2 TRP A  66       2.944  -7.100  26.936  1.00  0.69           C  
+ATOM    510  CZ3 TRP A  66       2.415  -9.326  26.107  1.00  0.69           C  
+ATOM    511  CH2 TRP A  66       3.198  -8.471  26.910  1.00  0.69           C  
+ATOM    512  N   ASP A  67      -2.283  -4.491  22.402  1.00  0.64           N  
+ATOM    513  CA  ASP A  67      -2.408  -3.041  22.409  1.00  0.64           C  
+ATOM    514  C   ASP A  67      -1.917  -2.429  23.717  1.00  0.64           C  
+ATOM    515  O   ASP A  67      -2.127  -2.976  24.796  1.00  0.64           O  
+ATOM    516  CB  ASP A  67      -3.854  -2.548  22.177  1.00  0.64           C  
+ATOM    517  CG  ASP A  67      -4.341  -2.913  20.795  1.00  0.64           C  
+ATOM    518  OD1 ASP A  67      -3.654  -2.529  19.805  1.00  0.64           O  
+ATOM    519  OD2 ASP A  67      -5.400  -3.568  20.708  1.00  0.64           O  
+ATOM    520  N   VAL A  68      -1.252  -1.257  23.657  1.00  0.67           N  
+ATOM    521  CA  VAL A  68      -0.743  -0.609  24.868  1.00  0.67           C  
+ATOM    522  C   VAL A  68      -1.430   0.701  25.242  1.00  0.67           C  
+ATOM    523  O   VAL A  68      -1.289   1.191  26.356  1.00  0.67           O  
+ATOM    524  CB  VAL A  68       0.766  -0.419  24.725  1.00  0.67           C  
+ATOM    525  CG1 VAL A  68       1.129   0.842  23.928  1.00  0.67           C  
+ATOM    526  CG2 VAL A  68       1.469  -0.436  26.092  1.00  0.67           C  
+ATOM    527  N   GLY A  69      -2.250   1.301  24.354  1.00  0.60           N  
+ATOM    528  CA  GLY A  69      -2.810   2.640  24.600  1.00  0.60           C  
+ATOM    529  C   GLY A  69      -3.981   2.706  25.555  1.00  0.60           C  
+ATOM    530  O   GLY A  69      -4.416   3.774  25.960  1.00  0.60           O  
+ATOM    531  N   GLY A  70      -4.533   1.546  25.950  1.00  0.56           N  
+ATOM    532  CA  GLY A  70      -5.622   1.447  26.925  1.00  0.56           C  
+ATOM    533  C   GLY A  70      -5.185   0.942  28.274  1.00  0.56           C  
+ATOM    534  O   GLY A  70      -6.007   0.516  29.076  1.00  0.56           O  
+ATOM    535  N   GLN A  71      -3.868   0.924  28.541  1.00  0.52           N  
+ATOM    536  CA  GLN A  71      -3.294   0.492  29.809  1.00  0.52           C  
+ATOM    537  C   GLN A  71      -3.689   1.306  31.057  1.00  0.52           C  
+ATOM    538  O   GLN A  71      -3.915   2.513  30.995  1.00  0.52           O  
+ATOM    539  CB  GLN A  71      -1.753   0.382  29.689  1.00  0.52           C  
+ATOM    540  CG  GLN A  71      -1.023   1.721  29.450  1.00  0.52           C  
+ATOM    541  CD  GLN A  71      -0.647   2.441  30.736  1.00  0.52           C  
+ATOM    542  OE1 GLN A  71       0.132   1.940  31.563  1.00  0.52           O  
+ATOM    543  NE2 GLN A  71      -1.184   3.652  30.943  1.00  0.52           N  
+ATOM    544  N   ASP A  72      -3.747   0.635  32.232  1.00  0.50           N  
+ATOM    545  CA  ASP A  72      -3.911   1.239  33.551  1.00  0.50           C  
+ATOM    546  C   ASP A  72      -2.636   0.959  34.353  1.00  0.50           C  
+ATOM    547  O   ASP A  72      -2.539  -0.027  35.088  1.00  0.50           O  
+ATOM    548  CB  ASP A  72      -5.185   0.712  34.276  1.00  0.50           C  
+ATOM    549  CG  ASP A  72      -5.489   1.475  35.563  1.00  0.50           C  
+ATOM    550  OD1 ASP A  72      -4.824   2.513  35.827  1.00  0.50           O  
+ATOM    551  OD2 ASP A  72      -6.407   1.026  36.294  1.00  0.50           O  
+ATOM    552  N   LYS A  73      -1.597   1.810  34.174  1.00  0.50           N  
+ATOM    553  CA  LYS A  73      -0.287   1.672  34.793  1.00  0.50           C  
+ATOM    554  C   LYS A  73       0.378   0.314  34.549  1.00  0.50           C  
+ATOM    555  O   LYS A  73       0.613  -0.415  35.489  1.00  0.50           O  
+ATOM    556  CB  LYS A  73      -0.321   1.877  36.328  1.00  0.50           C  
+ATOM    557  CG  LYS A  73      -0.957   3.194  36.781  1.00  0.50           C  
+ATOM    558  CD  LYS A  73      -1.017   3.224  38.314  1.00  0.50           C  
+ATOM    559  CE  LYS A  73      -1.751   4.419  38.919  1.00  0.50           C  
+ATOM    560  NZ  LYS A  73      -1.744   4.258  40.391  1.00  0.50           N  
+ATOM    561  N   ILE A  74       0.685  -0.032  33.267  1.00  0.55           N  
+ATOM    562  CA  ILE A  74       1.184  -1.341  32.836  1.00  0.55           C  
+ATOM    563  C   ILE A  74       0.292  -2.539  33.268  1.00  0.55           C  
+ATOM    564  O   ILE A  74      -0.925  -2.393  33.334  1.00  0.55           O  
+ATOM    565  CB  ILE A  74       2.695  -1.420  33.051  1.00  0.55           C  
+ATOM    566  CG1 ILE A  74       3.372  -2.479  32.174  1.00  0.55           C  
+ATOM    567  CG2 ILE A  74       3.067  -1.497  34.538  1.00  0.55           C  
+ATOM    568  CD1 ILE A  74       4.885  -2.313  32.114  1.00  0.55           C  
+ATOM    569  N   ARG A  75       0.795  -3.783  33.503  1.00  0.56           N  
+ATOM    570  CA  ARG A  75      -0.077  -4.871  33.933  1.00  0.56           C  
+ATOM    571  C   ARG A  75       0.725  -6.035  34.542  1.00  0.56           C  
+ATOM    572  O   ARG A  75       1.806  -6.316  34.027  1.00  0.56           O  
+ATOM    573  CB  ARG A  75      -0.916  -5.432  32.746  1.00  0.56           C  
+ATOM    574  CG  ARG A  75      -2.289  -6.005  33.141  1.00  0.56           C  
+ATOM    575  CD  ARG A  75      -2.759  -7.183  32.274  1.00  0.56           C  
+ATOM    576  NE  ARG A  75      -3.971  -7.777  32.937  1.00  0.56           N  
+ATOM    577  CZ  ARG A  75      -3.931  -8.469  34.086  1.00  0.56           C  
+ATOM    578  NH1 ARG A  75      -2.774  -8.803  34.642  1.00  0.56           N  
+ATOM    579  NH2 ARG A  75      -5.055  -8.803  34.700  1.00  0.56           N  
+ATOM    580  N   PRO A  76       0.293  -6.810  35.559  1.00  0.65           N  
+ATOM    581  CA  PRO A  76       1.195  -7.802  36.172  1.00  0.65           C  
+ATOM    582  C   PRO A  76       1.547  -8.982  35.282  1.00  0.65           C  
+ATOM    583  O   PRO A  76       2.667  -9.473  35.297  1.00  0.65           O  
+ATOM    584  CB  PRO A  76       0.444  -8.260  37.428  1.00  0.65           C  
+ATOM    585  CG  PRO A  76      -0.316  -7.003  37.848  1.00  0.65           C  
+ATOM    586  CD  PRO A  76      -0.728  -6.364  36.522  1.00  0.65           C  
+ATOM    587  N   LEU A  77       0.590  -9.454  34.475  1.00  0.67           N  
+ATOM    588  CA  LEU A  77       0.706 -10.618  33.604  1.00  0.67           C  
+ATOM    589  C   LEU A  77       1.693 -10.393  32.479  1.00  0.67           C  
+ATOM    590  O   LEU A  77       2.280 -11.321  31.929  1.00  0.67           O  
+ATOM    591  CB  LEU A  77      -0.706 -10.903  33.039  1.00  0.67           C  
+ATOM    592  CG  LEU A  77      -0.910 -12.049  32.031  1.00  0.67           C  
+ATOM    593  CD1 LEU A  77      -0.309 -13.385  32.473  1.00  0.67           C  
+ATOM    594  CD2 LEU A  77      -2.414 -12.240  31.825  1.00  0.67           C  
+ATOM    595  N   TRP A  78       1.959  -9.121  32.142  1.00  0.68           N  
+ATOM    596  CA  TRP A  78       2.921  -8.767  31.121  1.00  0.68           C  
+ATOM    597  C   TRP A  78       4.337  -9.236  31.456  1.00  0.68           C  
+ATOM    598  O   TRP A  78       5.064  -9.682  30.574  1.00  0.68           O  
+ATOM    599  CB  TRP A  78       2.874  -7.250  30.820  1.00  0.68           C  
+ATOM    600  CG  TRP A  78       1.575  -6.732  30.224  1.00  0.68           C  
+ATOM    601  CD1 TRP A  78       0.385  -7.374  30.028  1.00  0.68           C  
+ATOM    602  CD2 TRP A  78       1.406  -5.394  29.742  1.00  0.68           C  
+ATOM    603  NE1 TRP A  78      -0.548  -6.487  29.553  1.00  0.68           N  
+ATOM    604  CE2 TRP A  78       0.041  -5.268  29.354  1.00  0.68           C  
+ATOM    605  CE3 TRP A  78       2.278  -4.326  29.605  1.00  0.68           C  
+ATOM    606  CZ2 TRP A  78      -0.440  -4.074  28.852  1.00  0.68           C  
+ATOM    607  CZ3 TRP A  78       1.793  -3.128  29.064  1.00  0.68           C  
+ATOM    608  CH2 TRP A  78       0.443  -2.998  28.705  1.00  0.68           C  
+ATOM    609  N   ARG A  79       4.717  -9.240  32.753  1.00  0.68           N  
+ATOM    610  CA  ARG A  79       6.003  -9.717  33.249  1.00  0.68           C  
+ATOM    611  C   ARG A  79       6.297 -11.171  32.903  1.00  0.68           C  
+ATOM    612  O   ARG A  79       7.405 -11.533  32.525  1.00  0.68           O  
+ATOM    613  CB  ARG A  79       6.151  -9.480  34.770  1.00  0.68           C  
+ATOM    614  CG  ARG A  79       5.598  -8.118  35.236  1.00  0.68           C  
+ATOM    615  CD  ARG A  79       5.934  -7.776  36.693  1.00  0.68           C  
+ATOM    616  NE  ARG A  79       7.271  -7.123  36.686  1.00  0.68           N  
+ATOM    617  CZ  ARG A  79       8.413  -7.605  37.184  1.00  0.68           C  
+ATOM    618  NH1 ARG A  79       8.436  -8.690  37.951  1.00  0.68           N  
+ATOM    619  NH2 ARG A  79       9.555  -6.968  36.966  1.00  0.68           N  
+ATOM    620  N   HIS A  80       5.271 -12.046  32.929  1.00  0.72           N  
+ATOM    621  CA  HIS A  80       5.380 -13.423  32.458  1.00  0.72           C  
+ATOM    622  C   HIS A  80       5.823 -13.528  31.000  1.00  0.72           C  
+ATOM    623  O   HIS A  80       6.699 -14.313  30.638  1.00  0.72           O  
+ATOM    624  CB  HIS A  80       4.028 -14.152  32.645  1.00  0.72           C  
+ATOM    625  CG  HIS A  80       3.809 -15.338  31.759  1.00  0.72           C  
+ATOM    626  ND1 HIS A  80       4.268 -16.581  32.128  1.00  0.72           N  
+ATOM    627  CD2 HIS A  80       3.275 -15.380  30.511  1.00  0.72           C  
+ATOM    628  CE1 HIS A  80       4.001 -17.363  31.101  1.00  0.72           C  
+ATOM    629  NE2 HIS A  80       3.403 -16.684  30.092  1.00  0.72           N  
+ATOM    630  N   TYR A  81       5.242 -12.693  30.122  1.00  0.74           N  
+ATOM    631  CA  TYR A  81       5.635 -12.591  28.732  1.00  0.74           C  
+ATOM    632  C   TYR A  81       7.053 -12.073  28.545  1.00  0.74           C  
+ATOM    633  O   TYR A  81       7.787 -12.568  27.690  1.00  0.74           O  
+ATOM    634  CB  TYR A  81       4.645 -11.684  27.963  1.00  0.74           C  
+ATOM    635  CG  TYR A  81       3.367 -12.428  27.680  1.00  0.74           C  
+ATOM    636  CD1 TYR A  81       3.265 -13.208  26.517  1.00  0.74           C  
+ATOM    637  CD2 TYR A  81       2.258 -12.347  28.541  1.00  0.74           C  
+ATOM    638  CE1 TYR A  81       2.085 -13.906  26.226  1.00  0.74           C  
+ATOM    639  CE2 TYR A  81       1.078 -13.054  28.257  1.00  0.74           C  
+ATOM    640  CZ  TYR A  81       0.995 -13.831  27.097  1.00  0.74           C  
+ATOM    641  OH  TYR A  81      -0.179 -14.543  26.785  1.00  0.74           O  
+ATOM    642  N   PHE A  82       7.464 -11.080  29.360  1.00  0.78           N  
+ATOM    643  CA  PHE A  82       8.761 -10.433  29.307  1.00  0.78           C  
+ATOM    644  C   PHE A  82       9.928 -11.368  29.521  1.00  0.78           C  
+ATOM    645  O   PHE A  82      10.945 -11.251  28.841  1.00  0.78           O  
+ATOM    646  CB  PHE A  82       8.852  -9.329  30.384  1.00  0.78           C  
+ATOM    647  CG  PHE A  82       7.905  -8.180  30.192  1.00  0.78           C  
+ATOM    648  CD1 PHE A  82       7.254  -7.894  28.977  1.00  0.78           C  
+ATOM    649  CD2 PHE A  82       7.651  -7.358  31.302  1.00  0.78           C  
+ATOM    650  CE1 PHE A  82       6.331  -6.849  28.895  1.00  0.78           C  
+ATOM    651  CE2 PHE A  82       6.707  -6.333  31.230  1.00  0.78           C  
+ATOM    652  CZ  PHE A  82       6.060  -6.067  30.023  1.00  0.78           C  
+ATOM    653  N   GLN A  83       9.778 -12.355  30.425  1.00  0.72           N  
+ATOM    654  CA  GLN A  83      10.742 -13.403  30.764  1.00  0.72           C  
+ATOM    655  C   GLN A  83      11.205 -14.332  29.628  1.00  0.72           C  
+ATOM    656  O   GLN A  83      11.836 -15.362  29.848  1.00  0.72           O  
+ATOM    657  CB  GLN A  83      10.167 -14.266  31.921  1.00  0.72           C  
+ATOM    658  CG  GLN A  83       9.938 -13.464  33.231  1.00  0.72           C  
+ATOM    659  CD  GLN A  83       9.102 -14.198  34.287  1.00  0.72           C  
+ATOM    660  OE1 GLN A  83       9.272 -14.008  35.493  1.00  0.72           O  
+ATOM    661  NE2 GLN A  83       8.178 -15.082  33.849  1.00  0.72           N  
+ATOM    662  N   ASN A  84      10.939 -13.965  28.368  1.00  0.73           N  
+ATOM    663  CA  ASN A  84      11.301 -14.725  27.198  1.00  0.73           C  
+ATOM    664  C   ASN A  84      11.565 -13.799  26.012  1.00  0.73           C  
+ATOM    665  O   ASN A  84      11.999 -14.231  24.943  1.00  0.73           O  
+ATOM    666  CB  ASN A  84      10.097 -15.659  26.895  1.00  0.73           C  
+ATOM    667  CG  ASN A  84      10.432 -16.814  25.967  1.00  0.73           C  
+ATOM    668  OD1 ASN A  84       9.611 -17.154  25.107  1.00  0.73           O  
+ATOM    669  ND2 ASN A  84      11.601 -17.449  26.176  1.00  0.73           N  
+ATOM    670  N   THR A  85      11.303 -12.484  26.167  1.00  0.81           N  
+ATOM    671  CA  THR A  85      11.389 -11.499  25.095  1.00  0.81           C  
+ATOM    672  C   THR A  85      12.808 -11.146  24.729  1.00  0.81           C  
+ATOM    673  O   THR A  85      13.517 -10.453  25.453  1.00  0.81           O  
+ATOM    674  CB  THR A  85      10.659 -10.202  25.414  1.00  0.81           C  
+ATOM    675  OG1 THR A  85       9.294 -10.465  25.702  1.00  0.81           O  
+ATOM    676  CG2 THR A  85      10.669  -9.220  24.236  1.00  0.81           C  
+ATOM    677  N   GLN A  86      13.256 -11.592  23.543  1.00  0.79           N  
+ATOM    678  CA  GLN A  86      14.571 -11.266  23.037  1.00  0.79           C  
+ATOM    679  C   GLN A  86      14.585  -9.900  22.379  1.00  0.79           C  
+ATOM    680  O   GLN A  86      15.536  -9.134  22.505  1.00  0.79           O  
+ATOM    681  CB  GLN A  86      15.061 -12.331  22.024  1.00  0.79           C  
+ATOM    682  CG  GLN A  86      15.049 -13.788  22.560  1.00  0.79           C  
+ATOM    683  CD  GLN A  86      16.002 -14.086  23.725  1.00  0.79           C  
+ATOM    684  OE1 GLN A  86      15.866 -15.086  24.432  1.00  0.79           O  
+ATOM    685  NE2 GLN A  86      17.047 -13.254  23.920  1.00  0.79           N  
+ATOM    686  N   GLY A  87      13.505  -9.560  21.650  1.00  0.87           N  
+ATOM    687  CA  GLY A  87      13.397  -8.285  20.959  1.00  0.87           C  
+ATOM    688  C   GLY A  87      12.034  -7.687  21.136  1.00  0.87           C  
+ATOM    689  O   GLY A  87      11.027  -8.385  21.211  1.00  0.87           O  
+ATOM    690  N   LEU A  88      11.974  -6.352  21.183  1.00  0.88           N  
+ATOM    691  CA  LEU A  88      10.753  -5.593  21.316  1.00  0.88           C  
+ATOM    692  C   LEU A  88      10.612  -4.729  20.080  1.00  0.88           C  
+ATOM    693  O   LEU A  88      11.498  -3.965  19.713  1.00  0.88           O  
+ATOM    694  CB  LEU A  88      10.809  -4.698  22.579  1.00  0.88           C  
+ATOM    695  CG  LEU A  88       9.635  -3.711  22.774  1.00  0.88           C  
+ATOM    696  CD1 LEU A  88       8.329  -4.424  23.139  1.00  0.88           C  
+ATOM    697  CD2 LEU A  88       9.987  -2.669  23.841  1.00  0.88           C  
+ATOM    698  N   ILE A  89       9.463  -4.831  19.400  1.00  0.90           N  
+ATOM    699  CA  ILE A  89       9.121  -3.987  18.283  1.00  0.90           C  
+ATOM    700  C   ILE A  89       8.068  -3.018  18.785  1.00  0.90           C  
+ATOM    701  O   ILE A  89       7.105  -3.398  19.446  1.00  0.90           O  
+ATOM    702  CB  ILE A  89       8.598  -4.748  17.070  1.00  0.90           C  
+ATOM    703  CG1 ILE A  89       9.576  -5.873  16.663  1.00  0.90           C  
+ATOM    704  CG2 ILE A  89       8.399  -3.762  15.898  1.00  0.90           C  
+ATOM    705  CD1 ILE A  89       9.048  -6.762  15.532  1.00  0.90           C  
+ATOM    706  N   PHE A  90       8.237  -1.718  18.500  1.00  0.91           N  
+ATOM    707  CA  PHE A  90       7.270  -0.712  18.868  1.00  0.91           C  
+ATOM    708  C   PHE A  90       6.816  -0.026  17.595  1.00  0.91           C  
+ATOM    709  O   PHE A  90       7.569   0.699  16.953  1.00  0.91           O  
+ATOM    710  CB  PHE A  90       7.915   0.293  19.855  1.00  0.91           C  
+ATOM    711  CG  PHE A  90       6.873   0.973  20.698  1.00  0.91           C  
+ATOM    712  CD1 PHE A  90       6.163   2.080  20.212  1.00  0.91           C  
+ATOM    713  CD2 PHE A  90       6.593   0.500  21.989  1.00  0.91           C  
+ATOM    714  CE1 PHE A  90       5.180   2.694  20.997  1.00  0.91           C  
+ATOM    715  CE2 PHE A  90       5.616   1.115  22.783  1.00  0.91           C  
+ATOM    716  CZ  PHE A  90       4.904   2.211  22.282  1.00  0.91           C  
+ATOM    717  N   VAL A  91       5.559  -0.247  17.178  1.00  0.92           N  
+ATOM    718  CA  VAL A  91       5.018   0.382  15.977  1.00  0.92           C  
+ATOM    719  C   VAL A  91       4.192   1.589  16.351  1.00  0.92           C  
+ATOM    720  O   VAL A  91       3.336   1.566  17.236  1.00  0.92           O  
+ATOM    721  CB  VAL A  91       4.314  -0.564  14.992  1.00  0.92           C  
+ATOM    722  CG1 VAL A  91       3.997  -1.899  15.665  1.00  0.92           C  
+ATOM    723  CG2 VAL A  91       3.079   0.039  14.295  1.00  0.92           C  
+ATOM    724  N   VAL A  92       4.470   2.707  15.663  1.00  0.90           N  
+ATOM    725  CA  VAL A  92       3.867   3.986  15.940  1.00  0.90           C  
+ATOM    726  C   VAL A  92       3.071   4.367  14.731  1.00  0.90           C  
+ATOM    727  O   VAL A  92       3.468   4.104  13.599  1.00  0.90           O  
+ATOM    728  CB  VAL A  92       4.918   5.061  16.187  1.00  0.90           C  
+ATOM    729  CG1 VAL A  92       4.301   6.424  16.555  1.00  0.90           C  
+ATOM    730  CG2 VAL A  92       5.830   4.602  17.330  1.00  0.90           C  
+ATOM    731  N   ASP A  93       1.909   5.001  14.944  1.00  0.88           N  
+ATOM    732  CA  ASP A  93       1.222   5.670  13.874  1.00  0.88           C  
+ATOM    733  C   ASP A  93       1.872   7.028  13.653  1.00  0.88           C  
+ATOM    734  O   ASP A  93       1.754   7.946  14.461  1.00  0.88           O  
+ATOM    735  CB  ASP A  93      -0.256   5.812  14.294  1.00  0.88           C  
+ATOM    736  CG  ASP A  93      -1.150   6.321  13.178  1.00  0.88           C  
+ATOM    737  OD1 ASP A  93      -0.663   7.075  12.296  1.00  0.88           O  
+ATOM    738  OD2 ASP A  93      -2.323   5.863  13.113  1.00  0.88           O  
+ATOM    739  N   SER A  94       2.593   7.195  12.534  1.00  0.87           N  
+ATOM    740  CA  SER A  94       3.304   8.429  12.276  1.00  0.87           C  
+ATOM    741  C   SER A  94       2.380   9.548  11.846  1.00  0.87           C  
+ATOM    742  O   SER A  94       2.754  10.721  11.861  1.00  0.87           O  
+ATOM    743  CB  SER A  94       4.370   8.227  11.177  1.00  0.87           C  
+ATOM    744  OG  SER A  94       5.367   7.306  11.612  1.00  0.87           O  
+ATOM    745  N   ASN A  95       1.128   9.249  11.452  1.00  0.82           N  
+ATOM    746  CA  ASN A  95       0.180  10.295  11.128  1.00  0.82           C  
+ATOM    747  C   ASN A  95      -0.562  10.770  12.365  1.00  0.82           C  
+ATOM    748  O   ASN A  95      -0.954  11.935  12.449  1.00  0.82           O  
+ATOM    749  CB  ASN A  95      -0.789   9.771  10.050  1.00  0.82           C  
+ATOM    750  CG  ASN A  95      -1.782  10.797   9.508  1.00  0.82           C  
+ATOM    751  OD1 ASN A  95      -2.906  10.452   9.140  1.00  0.82           O  
+ATOM    752  ND2 ASN A  95      -1.411  12.090   9.404  1.00  0.82           N  
+ATOM    753  N   ASP A  96      -0.710   9.896  13.373  1.00  0.83           N  
+ATOM    754  CA  ASP A  96      -1.288  10.230  14.662  1.00  0.83           C  
+ATOM    755  C   ASP A  96      -0.359  11.108  15.505  1.00  0.83           C  
+ATOM    756  O   ASP A  96       0.286  10.691  16.463  1.00  0.83           O  
+ATOM    757  CB  ASP A  96      -1.714   8.950  15.416  1.00  0.83           C  
+ATOM    758  CG  ASP A  96      -2.660   9.202  16.575  1.00  0.83           C  
+ATOM    759  OD1 ASP A  96      -2.654  10.317  17.159  1.00  0.83           O  
+ATOM    760  OD2 ASP A  96      -3.397   8.242  16.916  1.00  0.83           O  
+ATOM    761  N   ARG A  97      -0.307  12.410  15.160  1.00  0.76           N  
+ATOM    762  CA  ARG A  97       0.461  13.442  15.832  1.00  0.76           C  
+ATOM    763  C   ARG A  97       0.041  13.617  17.284  1.00  0.76           C  
+ATOM    764  O   ARG A  97       0.824  14.034  18.138  1.00  0.76           O  
+ATOM    765  CB  ARG A  97       0.245  14.822  15.147  1.00  0.76           C  
+ATOM    766  CG  ARG A  97       0.630  14.943  13.655  1.00  0.76           C  
+ATOM    767  CD  ARG A  97       2.131  15.157  13.406  1.00  0.76           C  
+ATOM    768  NE  ARG A  97       2.310  16.139  12.273  1.00  0.76           N  
+ATOM    769  CZ  ARG A  97       2.819  15.866  11.063  1.00  0.76           C  
+ATOM    770  NH1 ARG A  97       3.112  14.638  10.683  1.00  0.76           N  
+ATOM    771  NH2 ARG A  97       2.983  16.851  10.185  1.00  0.76           N  
+ATOM    772  N   GLU A  98      -1.238  13.338  17.577  1.00  0.81           N  
+ATOM    773  CA  GLU A  98      -1.839  13.543  18.869  1.00  0.81           C  
+ATOM    774  C   GLU A  98      -1.290  12.586  19.918  1.00  0.81           C  
+ATOM    775  O   GLU A  98      -0.885  12.983  21.015  1.00  0.81           O  
+ATOM    776  CB  GLU A  98      -3.374  13.455  18.665  1.00  0.81           C  
+ATOM    777  CG  GLU A  98      -4.227  14.271  19.669  1.00  0.81           C  
+ATOM    778  CD  GLU A  98      -5.526  14.827  19.070  1.00  0.81           C  
+ATOM    779  OE1 GLU A  98      -5.621  14.963  17.823  1.00  0.81           O  
+ATOM    780  OE2 GLU A  98      -6.428  15.154  19.884  1.00  0.81           O  
+ATOM    781  N   ARG A  99      -1.173  11.289  19.576  1.00  0.79           N  
+ATOM    782  CA  ARG A  99      -0.861  10.273  20.564  1.00  0.79           C  
+ATOM    783  C   ARG A  99       0.580   9.755  20.572  1.00  0.79           C  
+ATOM    784  O   ARG A  99       0.929   8.820  21.291  1.00  0.79           O  
+ATOM    785  CB  ARG A  99      -1.841   9.103  20.391  1.00  0.79           C  
+ATOM    786  CG  ARG A  99      -3.326   9.525  20.362  1.00  0.79           C  
+ATOM    787  CD  ARG A  99      -4.278   8.380  20.014  1.00  0.79           C  
+ATOM    788  NE  ARG A  99      -4.225   7.359  21.107  1.00  0.79           N  
+ATOM    789  CZ  ARG A  99      -4.587   6.081  20.924  1.00  0.79           C  
+ATOM    790  NH1 ARG A  99      -4.877   5.595  19.718  1.00  0.79           N  
+ATOM    791  NH2 ARG A  99      -4.644   5.274  21.973  1.00  0.79           N  
+ATOM    792  N   VAL A 100       1.523  10.390  19.846  1.00  0.87           N  
+ATOM    793  CA  VAL A 100       2.952  10.042  19.910  1.00  0.87           C  
+ATOM    794  C   VAL A 100       3.564  10.279  21.285  1.00  0.87           C  
+ATOM    795  O   VAL A 100       4.527   9.637  21.703  1.00  0.87           O  
+ATOM    796  CB  VAL A 100       3.824  10.745  18.869  1.00  0.87           C  
+ATOM    797  CG1 VAL A 100       3.413  10.268  17.471  1.00  0.87           C  
+ATOM    798  CG2 VAL A 100       3.721  12.278  18.983  1.00  0.87           C  
+ATOM    799  N   ASN A 101       2.991  11.220  22.050  1.00  0.87           N  
+ATOM    800  CA  ASN A 101       3.362  11.500  23.421  1.00  0.87           C  
+ATOM    801  C   ASN A 101       3.050  10.322  24.347  1.00  0.87           C  
+ATOM    802  O   ASN A 101       3.891   9.900  25.134  1.00  0.87           O  
+ATOM    803  CB  ASN A 101       2.636  12.784  23.888  1.00  0.87           C  
+ATOM    804  CG  ASN A 101       2.921  13.903  22.891  1.00  0.87           C  
+ATOM    805  OD1 ASN A 101       4.026  14.460  22.888  1.00  0.87           O  
+ATOM    806  ND2 ASN A 101       1.961  14.205  21.984  1.00  0.87           N  
+ATOM    807  N   GLU A 102       1.856   9.708  24.192  1.00  0.82           N  
+ATOM    808  CA  GLU A 102       1.497   8.437  24.808  1.00  0.82           C  
+ATOM    809  C   GLU A 102       2.391   7.292  24.346  1.00  0.82           C  
+ATOM    810  O   GLU A 102       2.854   6.476  25.139  1.00  0.82           O  
+ATOM    811  CB  GLU A 102       0.064   8.023  24.389  1.00  0.82           C  
+ATOM    812  CG  GLU A 102      -1.112   8.525  25.249  1.00  0.82           C  
+ATOM    813  CD  GLU A 102      -2.409   7.954  24.668  1.00  0.82           C  
+ATOM    814  OE1 GLU A 102      -2.814   8.367  23.547  1.00  0.82           O  
+ATOM    815  OE2 GLU A 102      -2.995   7.050  25.304  1.00  0.82           O  
+ATOM    816  N   ALA A 103       2.692   7.212  23.032  1.00  0.89           N  
+ATOM    817  CA  ALA A 103       3.571   6.197  22.475  1.00  0.89           C  
+ATOM    818  C   ALA A 103       4.943   6.199  23.134  1.00  0.89           C  
+ATOM    819  O   ALA A 103       5.465   5.158  23.524  1.00  0.89           O  
+ATOM    820  CB  ALA A 103       3.709   6.402  20.955  1.00  0.89           C  
+ATOM    821  N   ARG A 104       5.514   7.394  23.358  1.00  0.81           N  
+ATOM    822  CA  ARG A 104       6.711   7.573  24.147  1.00  0.81           C  
+ATOM    823  C   ARG A 104       6.595   7.115  25.597  1.00  0.81           C  
+ATOM    824  O   ARG A 104       7.486   6.429  26.091  1.00  0.81           O  
+ATOM    825  CB  ARG A 104       7.080   9.070  24.141  1.00  0.81           C  
+ATOM    826  CG  ARG A 104       8.405   9.382  24.852  1.00  0.81           C  
+ATOM    827  CD  ARG A 104       8.472  10.815  25.369  1.00  0.81           C  
+ATOM    828  NE  ARG A 104       9.702  10.878  26.212  1.00  0.81           N  
+ATOM    829  CZ  ARG A 104      10.922  11.132  25.724  1.00  0.81           C  
+ATOM    830  NH1 ARG A 104      11.102  11.619  24.501  1.00  0.81           N  
+ATOM    831  NH2 ARG A 104      11.983  10.902  26.495  1.00  0.81           N  
+ATOM    832  N   GLU A 105       5.499   7.454  26.308  1.00  0.81           N  
+ATOM    833  CA  GLU A 105       5.281   7.060  27.698  1.00  0.81           C  
+ATOM    834  C   GLU A 105       5.316   5.561  27.886  1.00  0.81           C  
+ATOM    835  O   GLU A 105       6.062   5.027  28.709  1.00  0.81           O  
+ATOM    836  CB  GLU A 105       3.878   7.525  28.165  1.00  0.81           C  
+ATOM    837  CG  GLU A 105       3.814   9.006  28.593  1.00  0.81           C  
+ATOM    838  CD  GLU A 105       4.298   9.201  30.024  1.00  0.81           C  
+ATOM    839  OE1 GLU A 105       3.726   8.532  30.927  1.00  0.81           O  
+ATOM    840  OE2 GLU A 105       5.244  10.000  30.229  1.00  0.81           O  
+ATOM    841  N   GLU A 106       4.552   4.840  27.053  1.00  0.78           N  
+ATOM    842  CA  GLU A 106       4.506   3.400  27.058  1.00  0.78           C  
+ATOM    843  C   GLU A 106       5.816   2.769  26.655  1.00  0.78           C  
+ATOM    844  O   GLU A 106       6.270   1.814  27.274  1.00  0.78           O  
+ATOM    845  CB  GLU A 106       3.350   2.898  26.173  1.00  0.78           C  
+ATOM    846  CG  GLU A 106       1.972   3.481  26.585  1.00  0.78           C  
+ATOM    847  CD  GLU A 106       1.651   3.417  28.069  1.00  0.78           C  
+ATOM    848  OE1 GLU A 106       2.099   2.481  28.788  1.00  0.78           O  
+ATOM    849  OE2 GLU A 106       0.964   4.357  28.552  1.00  0.78           O  
+ATOM    850  N   LEU A 107       6.500   3.322  25.635  1.00  0.85           N  
+ATOM    851  CA  LEU A 107       7.811   2.871  25.216  1.00  0.85           C  
+ATOM    852  C   LEU A 107       8.827   3.007  26.337  1.00  0.85           C  
+ATOM    853  O   LEU A 107       9.452   2.029  26.728  1.00  0.85           O  
+ATOM    854  CB  LEU A 107       8.176   3.678  23.941  1.00  0.85           C  
+ATOM    855  CG  LEU A 107       9.404   3.281  23.095  1.00  0.85           C  
+ATOM    856  CD1 LEU A 107      10.577   4.237  23.329  1.00  0.85           C  
+ATOM    857  CD2 LEU A 107       9.828   1.819  23.257  1.00  0.85           C  
+ATOM    858  N   MET A 108       8.922   4.168  27.005  1.00  0.83           N  
+ATOM    859  CA  MET A 108       9.793   4.333  28.159  1.00  0.83           C  
+ATOM    860  C   MET A 108       9.439   3.426  29.330  1.00  0.83           C  
+ATOM    861  O   MET A 108      10.315   2.827  29.949  1.00  0.83           O  
+ATOM    862  CB  MET A 108       9.838   5.810  28.611  1.00  0.83           C  
+ATOM    863  CG  MET A 108      10.478   6.738  27.560  1.00  0.83           C  
+ATOM    864  SD  MET A 108      12.132   6.212  27.013  1.00  0.83           S  
+ATOM    865  CE  MET A 108      11.955   6.915  25.354  1.00  0.83           C  
+ATOM    866  N   ARG A 109       8.137   3.244  29.618  1.00  0.72           N  
+ATOM    867  CA  ARG A 109       7.636   2.300  30.603  1.00  0.72           C  
+ATOM    868  C   ARG A 109       8.015   0.851  30.306  1.00  0.72           C  
+ATOM    869  O   ARG A 109       8.429   0.111  31.190  1.00  0.72           O  
+ATOM    870  CB  ARG A 109       6.104   2.480  30.697  1.00  0.72           C  
+ATOM    871  CG  ARG A 109       5.411   1.909  31.949  1.00  0.72           C  
+ATOM    872  CD  ARG A 109       3.947   2.357  32.042  1.00  0.72           C  
+ATOM    873  NE  ARG A 109       3.949   3.851  32.198  1.00  0.72           N  
+ATOM    874  CZ  ARG A 109       3.068   4.654  31.583  1.00  0.72           C  
+ATOM    875  NH1 ARG A 109       2.020   4.156  30.948  1.00  0.72           N  
+ATOM    876  NH2 ARG A 109       3.216   5.970  31.666  1.00  0.72           N  
+ATOM    877  N   MET A 110       7.938   0.426  29.031  1.00  0.78           N  
+ATOM    878  CA  MET A 110       8.388  -0.876  28.564  1.00  0.78           C  
+ATOM    879  C   MET A 110       9.884  -1.127  28.723  1.00  0.78           C  
+ATOM    880  O   MET A 110      10.326  -2.200  29.129  1.00  0.78           O  
+ATOM    881  CB  MET A 110       8.042  -1.042  27.063  1.00  0.78           C  
+ATOM    882  CG  MET A 110       7.465  -2.418  26.705  1.00  0.78           C  
+ATOM    883  SD  MET A 110       5.655  -2.366  26.540  1.00  0.78           S  
+ATOM    884  CE  MET A 110       5.396  -3.751  27.655  1.00  0.78           C  
+ATOM    885  N   LEU A 111      10.718  -0.117  28.409  1.00  0.82           N  
+ATOM    886  CA  LEU A 111      12.167  -0.212  28.463  1.00  0.82           C  
+ATOM    887  C   LEU A 111      12.698  -0.140  29.883  1.00  0.82           C  
+ATOM    888  O   LEU A 111      13.866  -0.438  30.138  1.00  0.82           O  
+ATOM    889  CB  LEU A 111      12.809   0.945  27.667  1.00  0.82           C  
+ATOM    890  CG  LEU A 111      12.412   1.018  26.184  1.00  0.82           C  
+ATOM    891  CD1 LEU A 111      13.096   2.220  25.535  1.00  0.82           C  
+ATOM    892  CD2 LEU A 111      12.647  -0.265  25.387  1.00  0.82           C  
+ATOM    893  N   ALA A 112      11.829   0.266  30.822  1.00  0.80           N  
+ATOM    894  CA  ALA A 112      12.109   0.375  32.233  1.00  0.80           C  
+ATOM    895  C   ALA A 112      11.719  -0.868  33.020  1.00  0.80           C  
+ATOM    896  O   ALA A 112      11.865  -0.895  34.239  1.00  0.80           O  
+ATOM    897  CB  ALA A 112      11.345   1.588  32.794  1.00  0.80           C  
+ATOM    898  N   GLU A 113      11.264  -1.938  32.341  1.00  0.75           N  
+ATOM    899  CA  GLU A 113      11.051  -3.231  32.979  1.00  0.75           C  
+ATOM    900  C   GLU A 113      12.310  -4.074  32.965  1.00  0.75           C  
+ATOM    901  O   GLU A 113      13.065  -4.133  31.990  1.00  0.75           O  
+ATOM    902  CB  GLU A 113       9.880  -4.040  32.374  1.00  0.75           C  
+ATOM    903  CG  GLU A 113       8.595  -3.984  33.237  1.00  0.75           C  
+ATOM    904  CD  GLU A 113       8.566  -4.901  34.453  1.00  0.75           C  
+ATOM    905  OE1 GLU A 113       9.602  -5.114  35.127  1.00  0.75           O  
+ATOM    906  OE2 GLU A 113       7.444  -5.376  34.767  1.00  0.75           O  
+ATOM    907  N   ASP A 114      12.571  -4.761  34.088  1.00  0.77           N  
+ATOM    908  CA  ASP A 114      13.825  -5.434  34.344  1.00  0.77           C  
+ATOM    909  C   ASP A 114      14.136  -6.580  33.395  1.00  0.77           C  
+ATOM    910  O   ASP A 114      15.279  -6.742  32.962  1.00  0.77           O  
+ATOM    911  CB  ASP A 114      13.892  -5.889  35.821  1.00  0.77           C  
+ATOM    912  CG  ASP A 114      14.333  -4.748  36.715  1.00  0.77           C  
+ATOM    913  OD1 ASP A 114      15.506  -4.321  36.544  1.00  0.77           O  
+ATOM    914  OD2 ASP A 114      13.555  -4.329  37.596  1.00  0.77           O  
+ATOM    915  N   GLU A 115      13.144  -7.395  32.994  1.00  0.74           N  
+ATOM    916  CA  GLU A 115      13.408  -8.497  32.093  1.00  0.74           C  
+ATOM    917  C   GLU A 115      13.620  -8.039  30.649  1.00  0.74           C  
+ATOM    918  O   GLU A 115      14.201  -8.749  29.833  1.00  0.74           O  
+ATOM    919  CB  GLU A 115      12.283  -9.553  32.187  1.00  0.74           C  
+ATOM    920  CG  GLU A 115      11.960 -10.031  33.635  1.00  0.74           C  
+ATOM    921  CD  GLU A 115      10.871  -9.235  34.358  1.00  0.74           C  
+ATOM    922  OE1 GLU A 115      10.315  -8.303  33.730  1.00  0.74           O  
+ATOM    923  OE2 GLU A 115      10.599  -9.541  35.550  1.00  0.74           O  
+ATOM    924  N   LEU A 116      13.219  -6.794  30.309  1.00  0.83           N  
+ATOM    925  CA  LEU A 116      13.366  -6.229  28.971  1.00  0.83           C  
+ATOM    926  C   LEU A 116      14.565  -5.295  28.866  1.00  0.83           C  
+ATOM    927  O   LEU A 116      14.755  -4.570  27.886  1.00  0.83           O  
+ATOM    928  CB  LEU A 116      12.068  -5.484  28.548  1.00  0.83           C  
+ATOM    929  CG  LEU A 116      11.112  -6.298  27.648  1.00  0.83           C  
+ATOM    930  CD1 LEU A 116      11.016  -7.759  28.073  1.00  0.83           C  
+ATOM    931  CD2 LEU A 116       9.712  -5.668  27.638  1.00  0.83           C  
+ATOM    932  N   ARG A 117      15.460  -5.311  29.865  1.00  0.73           N  
+ATOM    933  CA  ARG A 117      16.710  -4.575  29.849  1.00  0.73           C  
+ATOM    934  C   ARG A 117      17.651  -4.966  28.716  1.00  0.73           C  
+ATOM    935  O   ARG A 117      18.156  -4.105  28.000  1.00  0.73           O  
+ATOM    936  CB  ARG A 117      17.384  -4.787  31.214  1.00  0.73           C  
+ATOM    937  CG  ARG A 117      18.818  -4.235  31.347  1.00  0.73           C  
+ATOM    938  CD  ARG A 117      19.346  -4.137  32.783  1.00  0.73           C  
+ATOM    939  NE  ARG A 117      19.013  -5.405  33.506  1.00  0.73           N  
+ATOM    940  CZ  ARG A 117      18.045  -5.483  34.433  1.00  0.73           C  
+ATOM    941  NH1 ARG A 117      17.308  -4.423  34.743  1.00  0.73           N  
+ATOM    942  NH2 ARG A 117      17.811  -6.635  35.045  1.00  0.73           N  
+ATOM    943  N   ASP A 118      17.827  -6.271  28.472  1.00  0.80           N  
+ATOM    944  CA  ASP A 118      18.708  -6.787  27.444  1.00  0.80           C  
+ATOM    945  C   ASP A 118      17.959  -7.123  26.148  1.00  0.80           C  
+ATOM    946  O   ASP A 118      18.373  -7.964  25.353  1.00  0.80           O  
+ATOM    947  CB  ASP A 118      19.433  -8.038  27.996  1.00  0.80           C  
+ATOM    948  CG  ASP A 118      20.490  -7.678  29.029  1.00  0.80           C  
+ATOM    949  OD1 ASP A 118      20.132  -7.145  30.113  1.00  0.80           O  
+ATOM    950  OD2 ASP A 118      21.674  -7.989  28.755  1.00  0.80           O  
+ATOM    951  N   ALA A 119      16.819  -6.458  25.883  1.00  0.88           N  
+ATOM    952  CA  ALA A 119      16.041  -6.682  24.683  1.00  0.88           C  
+ATOM    953  C   ALA A 119      16.322  -5.633  23.614  1.00  0.88           C  
+ATOM    954  O   ALA A 119      16.295  -4.422  23.861  1.00  0.88           O  
+ATOM    955  CB  ALA A 119      14.541  -6.692  25.018  1.00  0.88           C  
+ATOM    956  N   VAL A 120      16.605  -6.087  22.375  1.00  0.88           N  
+ATOM    957  CA  VAL A 120      16.769  -5.229  21.209  1.00  0.88           C  
+ATOM    958  C   VAL A 120      15.483  -4.483  20.867  1.00  0.88           C  
+ATOM    959  O   VAL A 120      14.391  -5.039  20.939  1.00  0.88           O  
+ATOM    960  CB  VAL A 120      17.269  -6.040  20.016  1.00  0.88           C  
+ATOM    961  CG1 VAL A 120      17.293  -5.219  18.719  1.00  0.88           C  
+ATOM    962  CG2 VAL A 120      18.698  -6.524  20.314  1.00  0.88           C  
+ATOM    963  N   LEU A 121      15.578  -3.191  20.490  1.00  0.89           N  
+ATOM    964  CA  LEU A 121      14.424  -2.360  20.204  1.00  0.89           C  
+ATOM    965  C   LEU A 121      14.350  -2.052  18.717  1.00  0.89           C  
+ATOM    966  O   LEU A 121      15.273  -1.506  18.121  1.00  0.89           O  
+ATOM    967  CB  LEU A 121      14.562  -1.016  20.969  1.00  0.89           C  
+ATOM    968  CG  LEU A 121      13.292  -0.206  21.334  1.00  0.89           C  
+ATOM    969  CD1 LEU A 121      13.587   1.296  21.226  1.00  0.89           C  
+ATOM    970  CD2 LEU A 121      12.023  -0.534  20.541  1.00  0.89           C  
+ATOM    971  N   LEU A 122      13.219  -2.362  18.078  1.00  0.91           N  
+ATOM    972  CA  LEU A 122      12.959  -1.962  16.713  1.00  0.91           C  
+ATOM    973  C   LEU A 122      11.742  -1.064  16.716  1.00  0.91           C  
+ATOM    974  O   LEU A 122      10.648  -1.451  17.105  1.00  0.91           O  
+ATOM    975  CB  LEU A 122      12.735  -3.203  15.821  1.00  0.91           C  
+ATOM    976  CG  LEU A 122      12.202  -2.933  14.397  1.00  0.91           C  
+ATOM    977  CD1 LEU A 122      13.120  -2.025  13.569  1.00  0.91           C  
+ATOM    978  CD2 LEU A 122      11.979  -4.261  13.667  1.00  0.91           C  
+ATOM    979  N   VAL A 123      11.893   0.198  16.295  1.00  0.91           N  
+ATOM    980  CA  VAL A 123      10.765   1.103  16.183  1.00  0.91           C  
+ATOM    981  C   VAL A 123      10.294   1.131  14.741  1.00  0.91           C  
+ATOM    982  O   VAL A 123      11.053   1.396  13.814  1.00  0.91           O  
+ATOM    983  CB  VAL A 123      11.080   2.499  16.709  1.00  0.91           C  
+ATOM    984  CG1 VAL A 123       9.837   3.409  16.646  1.00  0.91           C  
+ATOM    985  CG2 VAL A 123      11.549   2.366  18.170  1.00  0.91           C  
+ATOM    986  N   PHE A 124       9.004   0.843  14.502  1.00  0.90           N  
+ATOM    987  CA  PHE A 124       8.425   0.904  13.176  1.00  0.90           C  
+ATOM    988  C   PHE A 124       7.620   2.184  13.073  1.00  0.90           C  
+ATOM    989  O   PHE A 124       6.559   2.336  13.676  1.00  0.90           O  
+ATOM    990  CB  PHE A 124       7.498  -0.314  12.883  1.00  0.90           C  
+ATOM    991  CG  PHE A 124       8.180  -1.523  12.278  1.00  0.90           C  
+ATOM    992  CD1 PHE A 124       9.190  -1.416  11.303  1.00  0.90           C  
+ATOM    993  CD2 PHE A 124       7.700  -2.807  12.597  1.00  0.90           C  
+ATOM    994  CE1 PHE A 124       9.687  -2.552  10.651  1.00  0.90           C  
+ATOM    995  CE2 PHE A 124       8.205  -3.949  11.958  1.00  0.90           C  
+ATOM    996  CZ  PHE A 124       9.193  -3.818  10.976  1.00  0.90           C  
+ATOM    997  N   ALA A 125       8.110   3.150  12.276  1.00  0.90           N  
+ATOM    998  CA  ALA A 125       7.386   4.368  11.996  1.00  0.90           C  
+ATOM    999  C   ALA A 125       6.432   4.112  10.839  1.00  0.90           C  
+ATOM   1000  O   ALA A 125       6.739   4.341   9.671  1.00  0.90           O  
+ATOM   1001  CB  ALA A 125       8.375   5.510  11.707  1.00  0.90           C  
+ATOM   1002  N   ASN A 126       5.252   3.565  11.179  1.00  0.88           N  
+ATOM   1003  CA  ASN A 126       4.268   3.074  10.241  1.00  0.88           C  
+ATOM   1004  C   ASN A 126       3.320   4.172   9.782  1.00  0.88           C  
+ATOM   1005  O   ASN A 126       3.181   5.217  10.414  1.00  0.88           O  
+ATOM   1006  CB  ASN A 126       3.499   1.877  10.873  1.00  0.88           C  
+ATOM   1007  CG  ASN A 126       2.571   1.179   9.887  1.00  0.88           C  
+ATOM   1008  OD1 ASN A 126       2.877   0.951   8.714  1.00  0.88           O  
+ATOM   1009  ND2 ASN A 126       1.347   0.854  10.344  1.00  0.88           N  
+ATOM   1010  N   LYS A 127       2.639   3.922   8.640  1.00  0.82           N  
+ATOM   1011  CA  LYS A 127       1.713   4.831   7.989  1.00  0.82           C  
+ATOM   1012  C   LYS A 127       2.434   6.022   7.404  1.00  0.82           C  
+ATOM   1013  O   LYS A 127       2.014   7.177   7.482  1.00  0.82           O  
+ATOM   1014  CB  LYS A 127       0.519   5.222   8.883  1.00  0.82           C  
+ATOM   1015  CG  LYS A 127      -0.373   4.024   9.238  1.00  0.82           C  
+ATOM   1016  CD  LYS A 127      -1.507   4.461  10.169  1.00  0.82           C  
+ATOM   1017  CE  LYS A 127      -2.328   3.328  10.768  1.00  0.82           C  
+ATOM   1018  NZ  LYS A 127      -3.341   3.900  11.673  1.00  0.82           N  
+ATOM   1019  N   GLN A 128       3.572   5.719   6.759  1.00  0.80           N  
+ATOM   1020  CA  GLN A 128       4.439   6.684   6.135  1.00  0.80           C  
+ATOM   1021  C   GLN A 128       3.903   7.158   4.794  1.00  0.80           C  
+ATOM   1022  O   GLN A 128       4.362   8.147   4.228  1.00  0.80           O  
+ATOM   1023  CB  GLN A 128       5.856   6.075   5.994  1.00  0.80           C  
+ATOM   1024  CG  GLN A 128       6.987   7.123   5.906  1.00  0.80           C  
+ATOM   1025  CD  GLN A 128       7.173   7.928   7.193  1.00  0.80           C  
+ATOM   1026  OE1 GLN A 128       8.013   7.622   8.046  1.00  0.80           O  
+ATOM   1027  NE2 GLN A 128       6.413   9.035   7.322  1.00  0.80           N  
+ATOM   1028  N   ASP A 129       2.884   6.460   4.277  1.00  0.80           N  
+ATOM   1029  CA  ASP A 129       2.133   6.804   3.098  1.00  0.80           C  
+ATOM   1030  C   ASP A 129       1.123   7.940   3.287  1.00  0.80           C  
+ATOM   1031  O   ASP A 129       0.743   8.622   2.333  1.00  0.80           O  
+ATOM   1032  CB  ASP A 129       1.418   5.513   2.617  1.00  0.80           C  
+ATOM   1033  CG  ASP A 129       0.446   4.938   3.648  1.00  0.80           C  
+ATOM   1034  OD1 ASP A 129       0.845   4.798   4.836  1.00  0.80           O  
+ATOM   1035  OD2 ASP A 129      -0.704   4.628   3.258  1.00  0.80           O  
+ATOM   1036  N   LEU A 130       0.658   8.169   4.534  1.00  0.78           N  
+ATOM   1037  CA  LEU A 130      -0.311   9.199   4.843  1.00  0.78           C  
+ATOM   1038  C   LEU A 130       0.234  10.631   4.676  1.00  0.78           C  
+ATOM   1039  O   LEU A 130       1.337  10.914   5.144  1.00  0.78           O  
+ATOM   1040  CB  LEU A 130      -0.979   8.988   6.231  1.00  0.78           C  
+ATOM   1041  CG  LEU A 130      -1.835   7.701   6.325  1.00  0.78           C  
+ATOM   1042  CD1 LEU A 130      -2.592   7.617   7.654  1.00  0.78           C  
+ATOM   1043  CD2 LEU A 130      -2.859   7.592   5.188  1.00  0.78           C  
+ATOM   1044  N   PRO A 131      -0.487  11.576   4.040  1.00  0.75           N  
+ATOM   1045  CA  PRO A 131       0.034  12.879   3.611  1.00  0.75           C  
+ATOM   1046  C   PRO A 131       0.745  13.726   4.634  1.00  0.75           C  
+ATOM   1047  O   PRO A 131       1.790  14.290   4.331  1.00  0.75           O  
+ATOM   1048  CB  PRO A 131      -1.211  13.589   3.066  1.00  0.75           C  
+ATOM   1049  CG  PRO A 131      -1.976  12.453   2.399  1.00  0.75           C  
+ATOM   1050  CD  PRO A 131      -1.745  11.282   3.349  1.00  0.75           C  
+ATOM   1051  N   ASN A 132       0.193  13.850   5.849  1.00  0.76           N  
+ATOM   1052  CA  ASN A 132       0.879  14.530   6.927  1.00  0.76           C  
+ATOM   1053  C   ASN A 132       1.334  13.507   7.957  1.00  0.76           C  
+ATOM   1054  O   ASN A 132       1.006  13.585   9.138  1.00  0.76           O  
+ATOM   1055  CB  ASN A 132      -0.025  15.610   7.578  1.00  0.76           C  
+ATOM   1056  CG  ASN A 132      -0.006  16.897   6.760  1.00  0.76           C  
+ATOM   1057  OD1 ASN A 132       1.051  17.369   6.336  1.00  0.76           O  
+ATOM   1058  ND2 ASN A 132      -1.179  17.542   6.589  1.00  0.76           N  
+ATOM   1059  N   ALA A 133       2.130  12.513   7.544  1.00  0.83           N  
+ATOM   1060  CA  ALA A 133       2.784  11.600   8.449  1.00  0.83           C  
+ATOM   1061  C   ALA A 133       4.149  12.129   8.843  1.00  0.83           C  
+ATOM   1062  O   ALA A 133       4.861  12.741   8.054  1.00  0.83           O  
+ATOM   1063  CB  ALA A 133       2.889  10.214   7.809  1.00  0.83           C  
+ATOM   1064  N   MET A 134       4.529  11.968  10.122  1.00  0.80           N  
+ATOM   1065  CA  MET A 134       5.855  12.304  10.611  1.00  0.80           C  
+ATOM   1066  C   MET A 134       6.903  11.434   9.961  1.00  0.80           C  
+ATOM   1067  O   MET A 134       6.668  10.259   9.718  1.00  0.80           O  
+ATOM   1068  CB  MET A 134       5.923  12.096  12.136  1.00  0.80           C  
+ATOM   1069  CG  MET A 134       5.107  13.145  12.889  1.00  0.80           C  
+ATOM   1070  SD  MET A 134       4.593  12.661  14.548  1.00  0.80           S  
+ATOM   1071  CE  MET A 134       5.910  13.579  15.362  1.00  0.80           C  
+ATOM   1072  N   ASN A 135       8.099  11.959   9.657  1.00  0.80           N  
+ATOM   1073  CA  ASN A 135       9.159  11.095   9.177  1.00  0.80           C  
+ATOM   1074  C   ASN A 135       9.829  10.353  10.328  1.00  0.80           C  
+ATOM   1075  O   ASN A 135       9.642  10.665  11.501  1.00  0.80           O  
+ATOM   1076  CB  ASN A 135      10.145  11.859   8.255  1.00  0.80           C  
+ATOM   1077  CG  ASN A 135      10.908  12.965   8.960  1.00  0.80           C  
+ATOM   1078  OD1 ASN A 135      10.924  13.108  10.187  1.00  0.80           O  
+ATOM   1079  ND2 ASN A 135      11.621  13.786   8.180  1.00  0.80           N  
+ATOM   1080  N   ALA A 136      10.665   9.345  10.018  1.00  0.85           N  
+ATOM   1081  CA  ALA A 136      11.409   8.620  11.030  1.00  0.85           C  
+ATOM   1082  C   ALA A 136      12.282   9.512  11.918  1.00  0.85           C  
+ATOM   1083  O   ALA A 136      12.444   9.255  13.108  1.00  0.85           O  
+ATOM   1084  CB  ALA A 136      12.246   7.521  10.354  1.00  0.85           C  
+ATOM   1085  N   ALA A 137      12.829  10.618  11.379  1.00  0.83           N  
+ATOM   1086  CA  ALA A 137      13.534  11.606  12.171  1.00  0.83           C  
+ATOM   1087  C   ALA A 137      12.684  12.329  13.224  1.00  0.83           C  
+ATOM   1088  O   ALA A 137      13.047  12.362  14.394  1.00  0.83           O  
+ATOM   1089  CB  ALA A 137      14.175  12.626  11.217  1.00  0.83           C  
+ATOM   1090  N   GLU A 138      11.485  12.837  12.851  1.00  0.79           N  
+ATOM   1091  CA  GLU A 138      10.524  13.429  13.776  1.00  0.79           C  
+ATOM   1092  C   GLU A 138      10.104  12.458  14.874  1.00  0.79           C  
+ATOM   1093  O   GLU A 138      10.044  12.805  16.054  1.00  0.79           O  
+ATOM   1094  CB  GLU A 138       9.198  13.847  13.084  1.00  0.79           C  
+ATOM   1095  CG  GLU A 138       9.189  15.165  12.276  1.00  0.79           C  
+ATOM   1096  CD  GLU A 138       7.765  15.720  12.263  1.00  0.79           C  
+ATOM   1097  OE1 GLU A 138       7.317  16.221  13.327  1.00  0.79           O  
+ATOM   1098  OE2 GLU A 138       7.079  15.577  11.217  1.00  0.79           O  
+ATOM   1099  N   ILE A 139       9.814  11.191  14.512  1.00  0.85           N  
+ATOM   1100  CA  ILE A 139       9.472  10.147  15.468  1.00  0.85           C  
+ATOM   1101  C   ILE A 139      10.619   9.845  16.438  1.00  0.85           C  
+ATOM   1102  O   ILE A 139      10.411   9.760  17.643  1.00  0.85           O  
+ATOM   1103  CB  ILE A 139       8.981   8.878  14.769  1.00  0.85           C  
+ATOM   1104  CG1 ILE A 139       7.734   9.132  13.885  1.00  0.85           C  
+ATOM   1105  CG2 ILE A 139       8.650   7.774  15.795  1.00  0.85           C  
+ATOM   1106  CD1 ILE A 139       6.477   9.555  14.657  1.00  0.85           C  
+ATOM   1107  N   THR A 140      11.879   9.751  15.965  1.00  0.85           N  
+ATOM   1108  CA  THR A 140      13.071   9.565  16.806  1.00  0.85           C  
+ATOM   1109  C   THR A 140      13.250  10.655  17.837  1.00  0.85           C  
+ATOM   1110  O   THR A 140      13.459  10.362  19.015  1.00  0.85           O  
+ATOM   1111  CB  THR A 140      14.337   9.481  15.956  1.00  0.85           C  
+ATOM   1112  OG1 THR A 140      14.329   8.246  15.257  1.00  0.85           O  
+ATOM   1113  CG2 THR A 140      15.653   9.507  16.748  1.00  0.85           C  
+ATOM   1114  N   ASP A 141      13.119  11.933  17.450  1.00  0.82           N  
+ATOM   1115  CA  ASP A 141      13.126  13.053  18.370  1.00  0.82           C  
+ATOM   1116  C   ASP A 141      11.934  13.066  19.332  1.00  0.82           C  
+ATOM   1117  O   ASP A 141      12.097  13.179  20.548  1.00  0.82           O  
+ATOM   1118  CB  ASP A 141      13.184  14.354  17.535  1.00  0.82           C  
+ATOM   1119  CG  ASP A 141      14.631  14.688  17.208  1.00  0.82           C  
+ATOM   1120  OD1 ASP A 141      15.336  13.817  16.635  1.00  0.82           O  
+ATOM   1121  OD2 ASP A 141      15.049  15.818  17.564  1.00  0.82           O  
+ATOM   1122  N   LYS A 142      10.688  12.870  18.850  1.00  0.82           N  
+ATOM   1123  CA  LYS A 142       9.514  12.861  19.710  1.00  0.82           C  
+ATOM   1124  C   LYS A 142       9.500  11.738  20.734  1.00  0.82           C  
+ATOM   1125  O   LYS A 142       9.172  11.935  21.911  1.00  0.82           O  
+ATOM   1126  CB  LYS A 142       8.205  12.833  18.877  1.00  0.82           C  
+ATOM   1127  CG  LYS A 142       7.621  14.226  18.570  1.00  0.82           C  
+ATOM   1128  CD  LYS A 142       7.355  15.103  19.808  1.00  0.82           C  
+ATOM   1129  CE  LYS A 142       6.494  14.415  20.869  1.00  0.82           C  
+ATOM   1130  NZ  LYS A 142       6.511  15.197  22.116  1.00  0.82           N  
+ATOM   1131  N   LEU A 143       9.917  10.534  20.318  1.00  0.86           N  
+ATOM   1132  CA  LEU A 143      10.071   9.410  21.209  1.00  0.86           C  
+ATOM   1133  C   LEU A 143      11.332   9.540  22.041  1.00  0.86           C  
+ATOM   1134  O   LEU A 143      11.491   8.877  23.058  1.00  0.86           O  
+ATOM   1135  CB  LEU A 143      10.141   8.081  20.430  1.00  0.86           C  
+ATOM   1136  CG  LEU A 143       8.913   7.722  19.567  1.00  0.86           C  
+ATOM   1137  CD1 LEU A 143       8.986   6.236  19.209  1.00  0.86           C  
+ATOM   1138  CD2 LEU A 143       7.555   8.049  20.197  1.00  0.86           C  
+ATOM   1139  N   GLY A 144      12.249  10.453  21.663  1.00  0.84           N  
+ATOM   1140  CA  GLY A 144      13.560  10.647  22.266  1.00  0.84           C  
+ATOM   1141  C   GLY A 144      14.412   9.416  22.292  1.00  0.84           C  
+ATOM   1142  O   GLY A 144      15.019   9.085  23.302  1.00  0.84           O  
+ATOM   1143  N   LEU A 145      14.512   8.719  21.151  1.00  0.84           N  
+ATOM   1144  CA  LEU A 145      15.299   7.503  21.026  1.00  0.84           C  
+ATOM   1145  C   LEU A 145      16.788   7.802  21.093  1.00  0.84           C  
+ATOM   1146  O   LEU A 145      17.597   6.996  21.539  1.00  0.84           O  
+ATOM   1147  CB  LEU A 145      14.964   6.752  19.722  1.00  0.84           C  
+ATOM   1148  CG  LEU A 145      13.527   6.206  19.647  1.00  0.84           C  
+ATOM   1149  CD1 LEU A 145      13.225   5.739  18.221  1.00  0.84           C  
+ATOM   1150  CD2 LEU A 145      13.292   5.057  20.632  1.00  0.84           C  
+ATOM   1151  N   HIS A 146      17.178   9.045  20.761  1.00  0.75           N  
+ATOM   1152  CA  HIS A 146      18.545   9.516  20.921  1.00  0.75           C  
+ATOM   1153  C   HIS A 146      18.979   9.694  22.375  1.00  0.75           C  
+ATOM   1154  O   HIS A 146      20.160   9.866  22.669  1.00  0.75           O  
+ATOM   1155  CB  HIS A 146      18.809  10.801  20.096  1.00  0.75           C  
+ATOM   1156  CG  HIS A 146      19.222  10.491  18.680  1.00  0.75           C  
+ATOM   1157  ND1 HIS A 146      20.287   9.632  18.482  1.00  0.75           N  
+ATOM   1158  CD2 HIS A 146      18.789  10.976  17.484  1.00  0.75           C  
+ATOM   1159  CE1 HIS A 146      20.486   9.610  17.181  1.00  0.75           C  
+ATOM   1160  NE2 HIS A 146      19.606  10.406  16.530  1.00  0.75           N  
+ATOM   1161  N   SER A 147      18.056   9.605  23.357  1.00  0.78           N  
+ATOM   1162  CA  SER A 147      18.460   9.525  24.751  1.00  0.78           C  
+ATOM   1163  C   SER A 147      18.561   8.099  25.262  1.00  0.78           C  
+ATOM   1164  O   SER A 147      19.010   7.885  26.386  1.00  0.78           O  
+ATOM   1165  CB  SER A 147      17.613  10.421  25.694  1.00  0.78           C  
+ATOM   1166  OG  SER A 147      16.250  10.035  25.838  1.00  0.78           O  
+ATOM   1167  N   LEU A 148      18.275   7.070  24.428  1.00  0.77           N  
+ATOM   1168  CA  LEU A 148      18.431   5.669  24.793  1.00  0.77           C  
+ATOM   1169  C   LEU A 148      19.883   5.209  24.668  1.00  0.77           C  
+ATOM   1170  O   LEU A 148      20.200   4.171  24.092  1.00  0.77           O  
+ATOM   1171  CB  LEU A 148      17.581   4.720  23.909  1.00  0.77           C  
+ATOM   1172  CG  LEU A 148      16.052   4.887  23.957  1.00  0.77           C  
+ATOM   1173  CD1 LEU A 148      15.416   3.805  23.075  1.00  0.77           C  
+ATOM   1174  CD2 LEU A 148      15.488   4.810  25.378  1.00  0.77           C  
+ATOM   1175  N   ARG A 149      20.825   5.969  25.251  1.00  0.62           N  
+ATOM   1176  CA  ARG A 149      22.228   5.628  25.302  1.00  0.62           C  
+ATOM   1177  C   ARG A 149      22.469   4.557  26.354  1.00  0.62           C  
+ATOM   1178  O   ARG A 149      22.799   4.822  27.508  1.00  0.62           O  
+ATOM   1179  CB  ARG A 149      23.127   6.882  25.430  1.00  0.62           C  
+ATOM   1180  CG  ARG A 149      22.658   8.011  26.368  1.00  0.62           C  
+ATOM   1181  CD  ARG A 149      23.108   7.898  27.832  1.00  0.62           C  
+ATOM   1182  NE  ARG A 149      21.950   7.512  28.701  1.00  0.62           N  
+ATOM   1183  CZ  ARG A 149      20.882   8.287  28.940  1.00  0.62           C  
+ATOM   1184  NH1 ARG A 149      20.723   9.477  28.366  1.00  0.62           N  
+ATOM   1185  NH2 ARG A 149      19.964   7.877  29.810  1.00  0.62           N  
+ATOM   1186  N   HIS A 150      22.232   3.296  25.946  1.00  0.66           N  
+ATOM   1187  CA  HIS A 150      22.187   2.154  26.836  1.00  0.66           C  
+ATOM   1188  C   HIS A 150      21.873   0.893  26.059  1.00  0.66           C  
+ATOM   1189  O   HIS A 150      22.520  -0.134  26.242  1.00  0.66           O  
+ATOM   1190  CB  HIS A 150      21.127   2.305  27.962  1.00  0.66           C  
+ATOM   1191  CG  HIS A 150      21.152   1.183  28.954  1.00  0.66           C  
+ATOM   1192  ND1 HIS A 150      19.988   0.503  29.255  1.00  0.66           N  
+ATOM   1193  CD2 HIS A 150      22.207   0.634  29.613  1.00  0.66           C  
+ATOM   1194  CE1 HIS A 150      20.360  -0.453  30.085  1.00  0.66           C  
+ATOM   1195  NE2 HIS A 150      21.690  -0.417  30.336  1.00  0.66           N  
+ATOM   1196  N   ARG A 151      20.869   0.941  25.158  1.00  0.72           N  
+ATOM   1197  CA  ARG A 151      20.396  -0.249  24.474  1.00  0.72           C  
+ATOM   1198  C   ARG A 151      20.534  -0.190  22.974  1.00  0.72           C  
+ATOM   1199  O   ARG A 151      20.602   0.860  22.345  1.00  0.72           O  
+ATOM   1200  CB  ARG A 151      18.937  -0.631  24.824  1.00  0.72           C  
+ATOM   1201  CG  ARG A 151      17.813   0.172  24.133  1.00  0.72           C  
+ATOM   1202  CD  ARG A 151      16.428  -0.420  24.405  1.00  0.72           C  
+ATOM   1203  NE  ARG A 151      16.220  -0.392  25.890  1.00  0.72           N  
+ATOM   1204  CZ  ARG A 151      15.965  -1.469  26.649  1.00  0.72           C  
+ATOM   1205  NH1 ARG A 151      15.903  -2.699  26.157  1.00  0.72           N  
+ATOM   1206  NH2 ARG A 151      15.729  -1.288  27.947  1.00  0.72           N  
+ATOM   1207  N   ASN A 152      20.549  -1.383  22.363  1.00  0.83           N  
+ATOM   1208  CA  ASN A 152      20.549  -1.565  20.935  1.00  0.83           C  
+ATOM   1209  C   ASN A 152      19.174  -1.221  20.358  1.00  0.83           C  
+ATOM   1210  O   ASN A 152      18.191  -1.924  20.605  1.00  0.83           O  
+ATOM   1211  CB  ASN A 152      20.947  -3.043  20.703  1.00  0.83           C  
+ATOM   1212  CG  ASN A 152      21.377  -3.318  19.274  1.00  0.83           C  
+ATOM   1213  OD1 ASN A 152      21.524  -2.412  18.451  1.00  0.83           O  
+ATOM   1214  ND2 ASN A 152      21.604  -4.612  18.974  1.00  0.83           N  
+ATOM   1215  N   TRP A 153      19.074  -0.109  19.601  1.00  0.83           N  
+ATOM   1216  CA  TRP A 153      17.818   0.350  19.037  1.00  0.83           C  
+ATOM   1217  C   TRP A 153      17.971   0.739  17.578  1.00  0.83           C  
+ATOM   1218  O   TRP A 153      19.054   1.054  17.099  1.00  0.83           O  
+ATOM   1219  CB  TRP A 153      17.157   1.536  19.812  1.00  0.83           C  
+ATOM   1220  CG  TRP A 153      17.872   2.879  19.771  1.00  0.83           C  
+ATOM   1221  CD1 TRP A 153      18.857   3.335  20.600  1.00  0.83           C  
+ATOM   1222  CD2 TRP A 153      17.635   3.915  18.798  1.00  0.83           C  
+ATOM   1223  NE1 TRP A 153      19.261   4.585  20.199  1.00  0.83           N  
+ATOM   1224  CE2 TRP A 153      18.550   4.960  19.091  1.00  0.83           C  
+ATOM   1225  CE3 TRP A 153      16.750   4.027  17.726  1.00  0.83           C  
+ATOM   1226  CZ2 TRP A 153      18.603   6.096  18.305  1.00  0.83           C  
+ATOM   1227  CZ3 TRP A 153      16.807   5.182  16.932  1.00  0.83           C  
+ATOM   1228  CH2 TRP A 153      17.734   6.201  17.211  1.00  0.83           C  
+ATOM   1229  N   TYR A 154      16.848   0.736  16.840  1.00  0.88           N  
+ATOM   1230  CA  TYR A 154      16.815   1.175  15.466  1.00  0.88           C  
+ATOM   1231  C   TYR A 154      15.409   1.647  15.171  1.00  0.88           C  
+ATOM   1232  O   TYR A 154      14.455   1.254  15.838  1.00  0.88           O  
+ATOM   1233  CB  TYR A 154      17.212  -0.012  14.560  1.00  0.88           C  
+ATOM   1234  CG  TYR A 154      17.240   0.231  13.077  1.00  0.88           C  
+ATOM   1235  CD1 TYR A 154      18.131   1.157  12.513  1.00  0.88           C  
+ATOM   1236  CD2 TYR A 154      16.425  -0.536  12.229  1.00  0.88           C  
+ATOM   1237  CE1 TYR A 154      18.185   1.328  11.120  1.00  0.88           C  
+ATOM   1238  CE2 TYR A 154      16.476  -0.365  10.839  1.00  0.88           C  
+ATOM   1239  CZ  TYR A 154      17.347   0.576  10.285  1.00  0.88           C  
+ATOM   1240  OH  TYR A 154      17.370   0.762   8.888  1.00  0.88           O  
+ATOM   1241  N   ILE A 155      15.251   2.521  14.162  1.00  0.88           N  
+ATOM   1242  CA  ILE A 155      13.952   2.945  13.685  1.00  0.88           C  
+ATOM   1243  C   ILE A 155      13.894   2.692  12.194  1.00  0.88           C  
+ATOM   1244  O   ILE A 155      14.815   2.998  11.444  1.00  0.88           O  
+ATOM   1245  CB  ILE A 155      13.593   4.393  14.021  1.00  0.88           C  
+ATOM   1246  CG1 ILE A 155      12.156   4.750  13.566  1.00  0.88           C  
+ATOM   1247  CG2 ILE A 155      14.632   5.354  13.413  1.00  0.88           C  
+ATOM   1248  CD1 ILE A 155      11.629   6.039  14.198  1.00  0.88           C  
+ATOM   1249  N   GLN A 156      12.791   2.092  11.727  1.00  0.86           N  
+ATOM   1250  CA  GLN A 156      12.565   1.842  10.328  1.00  0.86           C  
+ATOM   1251  C   GLN A 156      11.234   2.451   9.948  1.00  0.86           C  
+ATOM   1252  O   GLN A 156      10.209   2.196  10.573  1.00  0.86           O  
+ATOM   1253  CB  GLN A 156      12.564   0.322  10.066  1.00  0.86           C  
+ATOM   1254  CG  GLN A 156      12.281  -0.094   8.612  1.00  0.86           C  
+ATOM   1255  CD  GLN A 156      13.359   0.382   7.643  1.00  0.86           C  
+ATOM   1256  OE1 GLN A 156      14.559   0.151   7.827  1.00  0.86           O  
+ATOM   1257  NE2 GLN A 156      12.908   1.076   6.576  1.00  0.86           N  
+ATOM   1258  N   ALA A 157      11.205   3.303   8.907  1.00  0.90           N  
+ATOM   1259  CA  ALA A 157       9.956   3.807   8.378  1.00  0.90           C  
+ATOM   1260  C   ALA A 157       9.247   2.746   7.557  1.00  0.90           C  
+ATOM   1261  O   ALA A 157       9.902   1.973   6.858  1.00  0.90           O  
+ATOM   1262  CB  ALA A 157      10.205   5.059   7.530  1.00  0.90           C  
+ATOM   1263  N   THR A 158       7.906   2.659   7.656  1.00  0.90           N  
+ATOM   1264  CA  THR A 158       7.161   1.581   7.020  1.00  0.90           C  
+ATOM   1265  C   THR A 158       5.811   2.035   6.528  1.00  0.90           C  
+ATOM   1266  O   THR A 158       5.204   3.003   6.982  1.00  0.90           O  
+ATOM   1267  CB  THR A 158       6.895   0.341   7.896  1.00  0.90           C  
+ATOM   1268  OG1 THR A 158       6.204   0.644   9.102  1.00  0.90           O  
+ATOM   1269  CG2 THR A 158       8.214  -0.295   8.323  1.00  0.90           C  
+ATOM   1270  N   CYS A 159       5.287   1.276   5.564  1.00  0.89           N  
+ATOM   1271  CA  CYS A 159       3.878   1.237   5.291  1.00  0.89           C  
+ATOM   1272  C   CYS A 159       3.454  -0.219   5.373  1.00  0.89           C  
+ATOM   1273  O   CYS A 159       3.756  -1.027   4.512  1.00  0.89           O  
+ATOM   1274  CB  CYS A 159       3.625   1.808   3.896  1.00  0.89           C  
+ATOM   1275  SG  CYS A 159       1.864   1.712   3.438  1.00  0.89           S  
+ATOM   1276  N   ALA A 160       2.721  -0.615   6.427  1.00  0.91           N  
+ATOM   1277  CA  ALA A 160       2.281  -1.986   6.614  1.00  0.91           C  
+ATOM   1278  C   ALA A 160       1.332  -2.497   5.541  1.00  0.91           C  
+ATOM   1279  O   ALA A 160       1.338  -3.667   5.176  1.00  0.91           O  
+ATOM   1280  CB  ALA A 160       1.646  -2.148   8.006  1.00  0.91           C  
+ATOM   1281  N   THR A 161       0.455  -1.638   5.011  1.00  0.85           N  
+ATOM   1282  CA  THR A 161      -0.464  -2.018   3.949  1.00  0.85           C  
+ATOM   1283  C   THR A 161       0.177  -2.302   2.599  1.00  0.85           C  
+ATOM   1284  O   THR A 161      -0.159  -3.310   1.976  1.00  0.85           O  
+ATOM   1285  CB  THR A 161      -1.563  -0.990   3.780  1.00  0.85           C  
+ATOM   1286  OG1 THR A 161      -0.994   0.309   3.800  1.00  0.85           O  
+ATOM   1287  CG2 THR A 161      -2.507  -1.085   4.987  1.00  0.85           C  
+ATOM   1288  N   SER A 162       1.121  -1.462   2.119  1.00  0.85           N  
+ATOM   1289  CA  SER A 162       1.938  -1.758   0.937  1.00  0.85           C  
+ATOM   1290  C   SER A 162       2.997  -2.812   1.225  1.00  0.85           C  
+ATOM   1291  O   SER A 162       3.262  -3.696   0.412  1.00  0.85           O  
+ATOM   1292  CB  SER A 162       2.614  -0.507   0.314  1.00  0.85           C  
+ATOM   1293  OG  SER A 162       3.517   0.092   1.234  1.00  0.85           O  
+ATOM   1294  N   GLY A 163       3.595  -2.760   2.428  1.00  0.89           N  
+ATOM   1295  CA  GLY A 163       4.517  -3.752   2.957  1.00  0.89           C  
+ATOM   1296  C   GLY A 163       5.973  -3.398   2.930  1.00  0.89           C  
+ATOM   1297  O   GLY A 163       6.801  -4.216   3.332  1.00  0.89           O  
+ATOM   1298  N   ASP A 164       6.348  -2.190   2.476  1.00  0.88           N  
+ATOM   1299  CA  ASP A 164       7.739  -1.782   2.431  1.00  0.88           C  
+ATOM   1300  C   ASP A 164       8.293  -1.300   3.770  1.00  0.88           C  
+ATOM   1301  O   ASP A 164       7.579  -0.876   4.683  1.00  0.88           O  
+ATOM   1302  CB  ASP A 164       8.045  -0.845   1.237  1.00  0.88           C  
+ATOM   1303  CG  ASP A 164       7.485   0.558   1.380  1.00  0.88           C  
+ATOM   1304  OD1 ASP A 164       6.237   0.689   1.486  1.00  0.88           O  
+ATOM   1305  OD2 ASP A 164       8.293   1.516   1.339  1.00  0.88           O  
+ATOM   1306  N   GLY A 165       9.619  -1.469   3.958  1.00  0.92           N  
+ATOM   1307  CA  GLY A 165      10.287  -1.220   5.223  1.00  0.92           C  
+ATOM   1308  C   GLY A 165      10.201  -2.367   6.201  1.00  0.92           C  
+ATOM   1309  O   GLY A 165      11.000  -2.483   7.128  1.00  0.92           O  
+ATOM   1310  N   LEU A 166       9.216  -3.273   6.052  1.00  0.89           N  
+ATOM   1311  CA  LEU A 166       9.058  -4.414   6.933  1.00  0.89           C  
+ATOM   1312  C   LEU A 166      10.224  -5.381   6.837  1.00  0.89           C  
+ATOM   1313  O   LEU A 166      10.688  -5.914   7.840  1.00  0.89           O  
+ATOM   1314  CB  LEU A 166       7.758  -5.218   6.655  1.00  0.89           C  
+ATOM   1315  CG  LEU A 166       6.419  -4.448   6.700  1.00  0.89           C  
+ATOM   1316  CD1 LEU A 166       5.237  -5.428   6.600  1.00  0.89           C  
+ATOM   1317  CD2 LEU A 166       6.275  -3.606   7.969  1.00  0.89           C  
+ATOM   1318  N   TYR A 167      10.744  -5.636   5.620  1.00  0.87           N  
+ATOM   1319  CA  TYR A 167      11.889  -6.510   5.441  1.00  0.87           C  
+ATOM   1320  C   TYR A 167      13.156  -5.910   6.009  1.00  0.87           C  
+ATOM   1321  O   TYR A 167      13.856  -6.552   6.779  1.00  0.87           O  
+ATOM   1322  CB  TYR A 167      12.063  -6.851   3.939  1.00  0.87           C  
+ATOM   1323  CG  TYR A 167      13.092  -7.930   3.749  1.00  0.87           C  
+ATOM   1324  CD1 TYR A 167      12.749  -9.277   3.933  1.00  0.87           C  
+ATOM   1325  CD2 TYR A 167      14.425  -7.596   3.452  1.00  0.87           C  
+ATOM   1326  CE1 TYR A 167      13.727 -10.272   3.815  1.00  0.87           C  
+ATOM   1327  CE2 TYR A 167      15.405  -8.594   3.350  1.00  0.87           C  
+ATOM   1328  CZ  TYR A 167      15.051  -9.934   3.531  1.00  0.87           C  
+ATOM   1329  OH  TYR A 167      16.028 -10.944   3.454  1.00  0.87           O  
+ATOM   1330  N   GLU A 168      13.435  -4.643   5.693  1.00  0.87           N  
+ATOM   1331  CA  GLU A 168      14.612  -3.895   6.062  1.00  0.87           C  
+ATOM   1332  C   GLU A 168      14.740  -3.723   7.572  1.00  0.87           C  
+ATOM   1333  O   GLU A 168      15.808  -3.870   8.168  1.00  0.87           O  
+ATOM   1334  CB  GLU A 168      14.582  -2.534   5.316  1.00  0.87           C  
+ATOM   1335  CG  GLU A 168      14.291  -2.643   3.783  1.00  0.87           C  
+ATOM   1336  CD  GLU A 168      12.816  -2.577   3.371  1.00  0.87           C  
+ATOM   1337  OE1 GLU A 168      12.050  -3.518   3.711  1.00  0.87           O  
+ATOM   1338  OE2 GLU A 168      12.422  -1.579   2.724  1.00  0.87           O  
+ATOM   1339  N   GLY A 169      13.608  -3.473   8.262  1.00  0.91           N  
+ATOM   1340  CA  GLY A 169      13.592  -3.421   9.720  1.00  0.91           C  
+ATOM   1341  C   GLY A 169      13.719  -4.767  10.377  1.00  0.91           C  
+ATOM   1342  O   GLY A 169      14.408  -4.921  11.384  1.00  0.91           O  
+ATOM   1343  N   LEU A 170      13.069  -5.807   9.822  1.00  0.82           N  
+ATOM   1344  CA  LEU A 170      13.203  -7.150  10.348  1.00  0.82           C  
+ATOM   1345  C   LEU A 170      14.544  -7.796  10.032  1.00  0.82           C  
+ATOM   1346  O   LEU A 170      15.016  -8.612  10.814  1.00  0.82           O  
+ATOM   1347  CB  LEU A 170      12.051  -8.069   9.889  1.00  0.82           C  
+ATOM   1348  CG  LEU A 170      10.660  -7.702  10.453  1.00  0.82           C  
+ATOM   1349  CD1 LEU A 170       9.614  -8.685   9.928  1.00  0.82           C  
+ATOM   1350  CD2 LEU A 170      10.590  -7.654  11.986  1.00  0.82           C  
+ATOM   1351  N   ASP A 171      15.218  -7.422   8.926  1.00  0.86           N  
+ATOM   1352  CA  ASP A 171      16.578  -7.812   8.590  1.00  0.86           C  
+ATOM   1353  C   ASP A 171      17.546  -7.358   9.665  1.00  0.86           C  
+ATOM   1354  O   ASP A 171      18.258  -8.164  10.267  1.00  0.86           O  
+ATOM   1355  CB  ASP A 171      16.929  -7.227   7.197  1.00  0.86           C  
+ATOM   1356  CG  ASP A 171      18.253  -7.736   6.652  1.00  0.86           C  
+ATOM   1357  OD1 ASP A 171      18.387  -8.978   6.502  1.00  0.86           O  
+ATOM   1358  OD2 ASP A 171      19.123  -6.881   6.359  1.00  0.86           O  
+ATOM   1359  N   TRP A 172      17.457  -6.064  10.051  1.00  0.84           N  
+ATOM   1360  CA  TRP A 172      18.228  -5.521  11.146  1.00  0.84           C  
+ATOM   1361  C   TRP A 172      17.980  -6.271  12.444  1.00  0.84           C  
+ATOM   1362  O   TRP A 172      18.917  -6.730  13.094  1.00  0.84           O  
+ATOM   1363  CB  TRP A 172      17.840  -4.034  11.355  1.00  0.84           C  
+ATOM   1364  CG  TRP A 172      18.638  -3.335  12.444  1.00  0.84           C  
+ATOM   1365  CD1 TRP A 172      19.894  -2.809  12.354  1.00  0.84           C  
+ATOM   1366  CD2 TRP A 172      18.225  -3.232  13.812  1.00  0.84           C  
+ATOM   1367  NE1 TRP A 172      20.306  -2.399  13.596  1.00  0.84           N  
+ATOM   1368  CE2 TRP A 172      19.323  -2.640  14.516  1.00  0.84           C  
+ATOM   1369  CE3 TRP A 172      17.058  -3.580  14.486  1.00  0.84           C  
+ATOM   1370  CZ2 TRP A 172      19.240  -2.414  15.871  1.00  0.84           C  
+ATOM   1371  CZ3 TRP A 172      16.977  -3.324  15.859  1.00  0.84           C  
+ATOM   1372  CH2 TRP A 172      18.060  -2.744  16.545  1.00  0.84           C  
+ATOM   1373  N   LEU A 173      16.698  -6.473  12.806  1.00  0.85           N  
+ATOM   1374  CA  LEU A 173      16.276  -7.157  14.015  1.00  0.85           C  
+ATOM   1375  C   LEU A 173      16.745  -8.601  14.042  1.00  0.85           C  
+ATOM   1376  O   LEU A 173      17.308  -9.081  15.022  1.00  0.85           O  
+ATOM   1377  CB  LEU A 173      14.731  -7.004  14.122  1.00  0.85           C  
+ATOM   1378  CG  LEU A 173      13.976  -7.547  15.355  1.00  0.85           C  
+ATOM   1379  CD1 LEU A 173      13.549  -9.010  15.173  1.00  0.85           C  
+ATOM   1380  CD2 LEU A 173      14.728  -7.307  16.667  1.00  0.85           C  
+ATOM   1381  N   SER A 174      16.606  -9.318  12.917  1.00  0.80           N  
+ATOM   1382  CA  SER A 174      17.115 -10.664  12.768  1.00  0.80           C  
+ATOM   1383  C   SER A 174      18.624 -10.768  12.888  1.00  0.80           C  
+ATOM   1384  O   SER A 174      19.138 -11.634  13.591  1.00  0.80           O  
+ATOM   1385  CB  SER A 174      16.652 -11.270  11.436  1.00  0.80           C  
+ATOM   1386  OG  SER A 174      16.844 -12.681  11.460  1.00  0.80           O  
+ATOM   1387  N   ASN A 175      19.399  -9.845  12.276  1.00  0.83           N  
+ATOM   1388  CA  ASN A 175      20.828  -9.756  12.538  1.00  0.83           C  
+ATOM   1389  C   ASN A 175      21.139  -9.502  14.008  1.00  0.83           C  
+ATOM   1390  O   ASN A 175      21.988 -10.184  14.571  1.00  0.83           O  
+ATOM   1391  CB  ASN A 175      21.520  -8.649  11.694  1.00  0.83           C  
+ATOM   1392  CG  ASN A 175      21.777  -9.044  10.244  1.00  0.83           C  
+ATOM   1393  OD1 ASN A 175      21.756  -8.188   9.362  1.00  0.83           O  
+ATOM   1394  ND2 ASN A 175      22.087 -10.329   9.960  1.00  0.83           N  
+ATOM   1395  N   GLN A 176      20.424  -8.580  14.686  1.00  0.80           N  
+ATOM   1396  CA  GLN A 176      20.677  -8.311  16.090  1.00  0.80           C  
+ATOM   1397  C   GLN A 176      20.455  -9.496  17.011  1.00  0.80           C  
+ATOM   1398  O   GLN A 176      21.296  -9.774  17.856  1.00  0.80           O  
+ATOM   1399  CB  GLN A 176      19.859  -7.118  16.634  1.00  0.80           C  
+ATOM   1400  CG  GLN A 176      20.047  -5.767  15.905  1.00  0.80           C  
+ATOM   1401  CD  GLN A 176      21.495  -5.476  15.512  1.00  0.80           C  
+ATOM   1402  OE1 GLN A 176      22.375  -5.320  16.363  1.00  0.80           O  
+ATOM   1403  NE2 GLN A 176      21.769  -5.407  14.192  1.00  0.80           N  
+ATOM   1404  N   LEU A 177      19.358 -10.268  16.847  1.00  0.77           N  
+ATOM   1405  CA  LEU A 177      19.146 -11.482  17.619  1.00  0.77           C  
+ATOM   1406  C   LEU A 177      20.170 -12.565  17.323  1.00  0.77           C  
+ATOM   1407  O   LEU A 177      20.549 -13.327  18.207  1.00  0.77           O  
+ATOM   1408  CB  LEU A 177      17.725 -12.078  17.472  1.00  0.77           C  
+ATOM   1409  CG  LEU A 177      16.583 -11.443  18.306  1.00  0.77           C  
+ATOM   1410  CD1 LEU A 177      17.057 -10.641  19.517  1.00  0.77           C  
+ATOM   1411  CD2 LEU A 177      15.665 -10.578  17.452  1.00  0.77           C  
+ATOM   1412  N   ARG A 178      20.671 -12.633  16.076  1.00  0.68           N  
+ATOM   1413  CA  ARG A 178      21.679 -13.588  15.644  1.00  0.68           C  
+ATOM   1414  C   ARG A 178      22.987 -13.517  16.433  1.00  0.68           C  
+ATOM   1415  O   ARG A 178      23.698 -14.511  16.549  1.00  0.68           O  
+ATOM   1416  CB  ARG A 178      21.961 -13.426  14.123  1.00  0.68           C  
+ATOM   1417  CG  ARG A 178      21.768 -14.723  13.317  1.00  0.68           C  
+ATOM   1418  CD  ARG A 178      22.058 -14.577  11.819  1.00  0.68           C  
+ATOM   1419  NE  ARG A 178      20.968 -13.770  11.173  1.00  0.68           N  
+ATOM   1420  CZ  ARG A 178      19.900 -14.278  10.556  1.00  0.68           C  
+ATOM   1421  NH1 ARG A 178      19.526 -15.533  10.728  1.00  0.68           N  
+ATOM   1422  NH2 ARG A 178      19.154 -13.488   9.797  1.00  0.68           N  
+ATOM   1423  N   ASN A 179      23.332 -12.331  16.978  1.00  0.69           N  
+ATOM   1424  CA  ASN A 179      24.497 -12.158  17.832  1.00  0.69           C  
+ATOM   1425  C   ASN A 179      24.174 -11.462  19.156  1.00  0.69           C  
+ATOM   1426  O   ASN A 179      25.051 -10.899  19.808  1.00  0.69           O  
+ATOM   1427  CB  ASN A 179      25.647 -11.464  17.056  1.00  0.69           C  
+ATOM   1428  CG  ASN A 179      25.268 -10.115  16.451  1.00  0.69           C  
+ATOM   1429  OD1 ASN A 179      25.270  -9.934  15.232  1.00  0.69           O  
+ATOM   1430  ND2 ASN A 179      24.983  -9.122  17.320  1.00  0.69           N  
+ATOM   1431  N   GLN A 180      22.891 -11.453  19.561  1.00  0.52           N  
+ATOM   1432  CA  GLN A 180      22.433 -11.001  20.872  1.00  0.52           C  
+ATOM   1433  C   GLN A 180      22.832 -11.987  21.952  1.00  0.52           C  
+ATOM   1434  O   GLN A 180      23.217 -11.612  23.061  1.00  0.52           O  
+ATOM   1435  CB  GLN A 180      20.889 -10.791  20.895  1.00  0.52           C  
+ATOM   1436  CG  GLN A 180      20.158 -11.097  22.232  1.00  0.52           C  
+ATOM   1437  CD  GLN A 180      18.992 -10.174  22.541  1.00  0.52           C  
+ATOM   1438  OE1 GLN A 180      18.612  -9.293  21.766  1.00  0.52           O  
+ATOM   1439  NE2 GLN A 180      18.391 -10.376  23.730  1.00  0.52           N  
+ATOM   1440  N   LYS A 181      22.679 -13.281  21.645  1.00  0.66           N  
+ATOM   1441  CA  LYS A 181      22.792 -14.362  22.575  1.00  0.66           C  
+ATOM   1442  C   LYS A 181      22.930 -15.670  21.755  1.00  0.66           C  
+ATOM   1443  O   LYS A 181      22.687 -15.623  20.516  1.00  0.66           O  
+ATOM   1444  CB  LYS A 181      21.528 -14.453  23.465  1.00  0.66           C  
+ATOM   1445  CG  LYS A 181      21.863 -14.915  24.883  1.00  0.66           C  
+ATOM   1446  CD  LYS A 181      20.639 -14.901  25.801  1.00  0.66           C  
+ATOM   1447  CE  LYS A 181      20.981 -15.459  27.179  1.00  0.66           C  
+ATOM   1448  NZ  LYS A 181      19.852 -15.246  28.107  1.00  0.66           N  
+ATOM   1449  OXT LYS A 181      23.220 -16.732  22.364  1.00  0.66           O  
+TER    1450      LYS A 181                                                      
+ATOM   1451  N   GLY B   2     -18.054 -24.425  26.791  1.00  0.72           N  
+ATOM   1452  CA  GLY B   2     -17.041 -25.232  26.020  1.00  0.72           C  
+ATOM   1453  C   GLY B   2     -17.684 -26.410  25.393  1.00  0.72           C  
+ATOM   1454  O   GLY B   2     -18.464 -26.262  24.468  1.00  0.72           O  
+ATOM   1455  N   ASN B   3     -17.480 -27.601  25.976  1.00  0.79           N  
+ATOM   1456  CA  ASN B   3     -18.124 -28.849  25.582  1.00  0.79           C  
+ATOM   1457  C   ASN B   3     -19.657 -28.721  25.510  1.00  0.79           C  
+ATOM   1458  O   ASN B   3     -20.294 -29.165  24.560  1.00  0.79           O  
+ATOM   1459  CB  ASN B   3     -17.636 -29.935  26.579  1.00  0.79           C  
+ATOM   1460  CG  ASN B   3     -18.292 -31.294  26.363  1.00  0.79           C  
+ATOM   1461  OD1 ASN B   3     -18.315 -31.836  25.258  1.00  0.79           O  
+ATOM   1462  ND2 ASN B   3     -18.842 -31.871  27.450  1.00  0.79           N  
+ATOM   1463  N   ILE B   4     -20.277 -27.989  26.462  1.00  0.82           N  
+ATOM   1464  CA  ILE B   4     -21.693 -27.628  26.399  1.00  0.82           C  
+ATOM   1465  C   ILE B   4     -22.099 -26.882  25.117  1.00  0.82           C  
+ATOM   1466  O   ILE B   4     -23.184 -27.082  24.581  1.00  0.82           O  
+ATOM   1467  CB  ILE B   4     -22.157 -26.834  27.626  1.00  0.82           C  
+ATOM   1468  CG1 ILE B   4     -21.554 -25.413  27.707  1.00  0.82           C  
+ATOM   1469  CG2 ILE B   4     -21.815 -27.650  28.890  1.00  0.82           C  
+ATOM   1470  CD1 ILE B   4     -22.171 -24.551  28.808  1.00  0.82           C  
+ATOM   1471  N   PHE B   5     -21.223 -26.013  24.568  1.00  0.82           N  
+ATOM   1472  CA  PHE B   5     -21.474 -25.274  23.345  1.00  0.82           C  
+ATOM   1473  C   PHE B   5     -21.211 -26.109  22.107  1.00  0.82           C  
+ATOM   1474  O   PHE B   5     -21.856 -25.961  21.077  1.00  0.82           O  
+ATOM   1475  CB  PHE B   5     -20.591 -23.997  23.270  1.00  0.82           C  
+ATOM   1476  CG  PHE B   5     -21.047 -22.979  24.277  1.00  0.82           C  
+ATOM   1477  CD1 PHE B   5     -22.344 -22.455  24.205  1.00  0.82           C  
+ATOM   1478  CD2 PHE B   5     -20.185 -22.496  25.272  1.00  0.82           C  
+ATOM   1479  CE1 PHE B   5     -22.795 -21.533  25.152  1.00  0.82           C  
+ATOM   1480  CE2 PHE B   5     -20.615 -21.542  26.203  1.00  0.82           C  
+ATOM   1481  CZ  PHE B   5     -21.935 -21.084  26.159  1.00  0.82           C  
+ATOM   1482  N   ALA B   6     -20.253 -27.042  22.178  1.00  0.81           N  
+ATOM   1483  CA  ALA B   6     -19.981 -27.985  21.119  1.00  0.81           C  
+ATOM   1484  C   ALA B   6     -21.147 -28.936  20.869  1.00  0.81           C  
+ATOM   1485  O   ALA B   6     -21.563 -29.172  19.733  1.00  0.81           O  
+ATOM   1486  CB  ALA B   6     -18.703 -28.752  21.489  1.00  0.81           C  
+ATOM   1487  N   ASN B   7     -21.751 -29.456  21.956  1.00  0.80           N  
+ATOM   1488  CA  ASN B   7     -22.867 -30.375  21.878  1.00  0.80           C  
+ATOM   1489  C   ASN B   7     -24.138 -29.730  21.378  1.00  0.80           C  
+ATOM   1490  O   ASN B   7     -24.974 -30.387  20.761  1.00  0.80           O  
+ATOM   1491  CB  ASN B   7     -23.135 -31.072  23.233  1.00  0.80           C  
+ATOM   1492  CG  ASN B   7     -21.958 -31.967  23.597  1.00  0.80           C  
+ATOM   1493  OD1 ASN B   7     -21.146 -32.366  22.756  1.00  0.80           O  
+ATOM   1494  ND2 ASN B   7     -21.876 -32.353  24.884  1.00  0.80           N  
+ATOM   1495  N   LEU B   8     -24.279 -28.407  21.565  1.00  0.80           N  
+ATOM   1496  CA  LEU B   8     -25.365 -27.641  20.986  1.00  0.80           C  
+ATOM   1497  C   LEU B   8     -25.435 -27.802  19.473  1.00  0.80           C  
+ATOM   1498  O   LEU B   8     -26.446 -28.224  18.911  1.00  0.80           O  
+ATOM   1499  CB  LEU B   8     -25.151 -26.137  21.307  1.00  0.80           C  
+ATOM   1500  CG  LEU B   8     -25.973 -25.590  22.478  1.00  0.80           C  
+ATOM   1501  CD1 LEU B   8     -25.558 -24.143  22.767  1.00  0.80           C  
+ATOM   1502  CD2 LEU B   8     -27.457 -25.636  22.153  1.00  0.80           C  
+ATOM   1503  N   PHE B   9     -24.317 -27.561  18.773  1.00  0.80           N  
+ATOM   1504  CA  PHE B   9     -24.301 -27.544  17.325  1.00  0.80           C  
+ATOM   1505  C   PHE B   9     -24.212 -28.934  16.714  1.00  0.80           C  
+ATOM   1506  O   PHE B   9     -24.442 -29.098  15.522  1.00  0.80           O  
+ATOM   1507  CB  PHE B   9     -23.171 -26.615  16.801  1.00  0.80           C  
+ATOM   1508  CG  PHE B   9     -23.408 -25.195  17.270  1.00  0.80           C  
+ATOM   1509  CD1 PHE B   9     -24.438 -24.412  16.714  1.00  0.80           C  
+ATOM   1510  CD2 PHE B   9     -22.628 -24.639  18.300  1.00  0.80           C  
+ATOM   1511  CE1 PHE B   9     -24.722 -23.134  17.217  1.00  0.80           C  
+ATOM   1512  CE2 PHE B   9     -22.924 -23.374  18.825  1.00  0.80           C  
+ATOM   1513  CZ  PHE B   9     -23.978 -22.628  18.288  1.00  0.80           C  
+ATOM   1514  N   LYS B  10     -23.962 -29.991  17.517  1.00  0.75           N  
+ATOM   1515  CA  LYS B  10     -23.724 -31.357  17.068  1.00  0.75           C  
+ATOM   1516  C   LYS B  10     -24.676 -31.929  16.035  1.00  0.75           C  
+ATOM   1517  O   LYS B  10     -24.256 -32.592  15.095  1.00  0.75           O  
+ATOM   1518  CB  LYS B  10     -23.673 -32.328  18.278  1.00  0.75           C  
+ATOM   1519  CG  LYS B  10     -22.243 -32.708  18.705  1.00  0.75           C  
+ATOM   1520  CD  LYS B  10     -22.163 -33.612  19.953  1.00  0.75           C  
+ATOM   1521  CE  LYS B  10     -23.228 -34.704  20.080  1.00  0.75           C  
+ATOM   1522  NZ  LYS B  10     -23.065 -35.741  19.038  1.00  0.75           N  
+ATOM   1523  N   GLY B  11     -25.997 -31.701  16.153  1.00  0.73           N  
+ATOM   1524  CA  GLY B  11     -26.933 -32.305  15.207  1.00  0.73           C  
+ATOM   1525  C   GLY B  11     -27.045 -31.537  13.926  1.00  0.73           C  
+ATOM   1526  O   GLY B  11     -27.817 -31.885  13.042  1.00  0.73           O  
+ATOM   1527  N   LEU B  12     -26.300 -30.430  13.803  1.00  0.76           N  
+ATOM   1528  CA  LEU B  12     -26.237 -29.692  12.569  1.00  0.76           C  
+ATOM   1529  C   LEU B  12     -25.095 -30.222  11.711  1.00  0.76           C  
+ATOM   1530  O   LEU B  12     -24.979 -29.840  10.545  1.00  0.76           O  
+ATOM   1531  CB  LEU B  12     -25.987 -28.178  12.809  1.00  0.76           C  
+ATOM   1532  CG  LEU B  12     -27.152 -27.341  13.385  1.00  0.76           C  
+ATOM   1533  CD1 LEU B  12     -27.624 -27.737  14.787  1.00  0.76           C  
+ATOM   1534  CD2 LEU B  12     -26.704 -25.880  13.446  1.00  0.76           C  
+ATOM   1535  N   PHE B  13     -24.257 -31.141  12.251  1.00  0.75           N  
+ATOM   1536  CA  PHE B  13     -23.081 -31.689  11.587  1.00  0.75           C  
+ATOM   1537  C   PHE B  13     -23.376 -32.669  10.459  1.00  0.75           C  
+ATOM   1538  O   PHE B  13     -23.082 -33.860  10.525  1.00  0.75           O  
+ATOM   1539  CB  PHE B  13     -22.074 -32.366  12.572  1.00  0.75           C  
+ATOM   1540  CG  PHE B  13     -21.502 -31.479  13.641  1.00  0.75           C  
+ATOM   1541  CD1 PHE B  13     -21.662 -30.082  13.637  1.00  0.75           C  
+ATOM   1542  CD2 PHE B  13     -20.816 -32.082  14.716  1.00  0.75           C  
+ATOM   1543  CE1 PHE B  13     -21.283 -29.329  14.744  1.00  0.75           C  
+ATOM   1544  CE2 PHE B  13     -20.416 -31.319  15.822  1.00  0.75           C  
+ATOM   1545  CZ  PHE B  13     -20.698 -29.950  15.837  1.00  0.75           C  
+ATOM   1546  N   GLY B  14     -23.926 -32.135   9.354  1.00  0.71           N  
+ATOM   1547  CA  GLY B  14     -23.949 -32.765   8.043  1.00  0.71           C  
+ATOM   1548  C   GLY B  14     -22.645 -32.527   7.321  1.00  0.71           C  
+ATOM   1549  O   GLY B  14     -21.604 -32.296   7.921  1.00  0.71           O  
+ATOM   1550  N   LYS B  15     -22.652 -32.518   5.977  1.00  0.63           N  
+ATOM   1551  CA  LYS B  15     -21.477 -32.058   5.240  1.00  0.63           C  
+ATOM   1552  C   LYS B  15     -21.669 -30.644   4.726  1.00  0.63           C  
+ATOM   1553  O   LYS B  15     -20.822 -30.083   4.034  1.00  0.63           O  
+ATOM   1554  CB  LYS B  15     -21.129 -33.010   4.071  1.00  0.63           C  
+ATOM   1555  CG  LYS B  15     -21.935 -32.827   2.773  1.00  0.63           C  
+ATOM   1556  CD  LYS B  15     -21.309 -33.628   1.622  1.00  0.63           C  
+ATOM   1557  CE  LYS B  15     -21.933 -33.308   0.263  1.00  0.63           C  
+ATOM   1558  NZ  LYS B  15     -21.200 -34.021  -0.806  1.00  0.63           N  
+ATOM   1559  N   LYS B  16     -22.828 -30.039   5.032  1.00  0.68           N  
+ATOM   1560  CA  LYS B  16     -23.205 -28.725   4.561  1.00  0.68           C  
+ATOM   1561  C   LYS B  16     -22.312 -27.604   5.076  1.00  0.68           C  
+ATOM   1562  O   LYS B  16     -22.203 -27.388   6.276  1.00  0.68           O  
+ATOM   1563  CB  LYS B  16     -24.697 -28.434   4.897  1.00  0.68           C  
+ATOM   1564  CG  LYS B  16     -25.092 -28.586   6.384  1.00  0.68           C  
+ATOM   1565  CD  LYS B  16     -26.593 -28.318   6.622  1.00  0.68           C  
+ATOM   1566  CE  LYS B  16     -27.047 -28.502   8.078  1.00  0.68           C  
+ATOM   1567  NZ  LYS B  16     -28.510 -28.268   8.200  1.00  0.68           N  
+ATOM   1568  N   GLU B  17     -21.663 -26.841   4.172  1.00  0.65           N  
+ATOM   1569  CA  GLU B  17     -20.957 -25.622   4.540  1.00  0.65           C  
+ATOM   1570  C   GLU B  17     -21.921 -24.582   5.097  1.00  0.65           C  
+ATOM   1571  O   GLU B  17     -22.864 -24.150   4.434  1.00  0.65           O  
+ATOM   1572  CB  GLU B  17     -20.178 -25.032   3.334  1.00  0.65           C  
+ATOM   1573  CG  GLU B  17     -19.491 -23.658   3.582  1.00  0.65           C  
+ATOM   1574  CD  GLU B  17     -18.949 -23.039   2.292  1.00  0.65           C  
+ATOM   1575  OE1 GLU B  17     -19.739 -22.927   1.320  1.00  0.65           O  
+ATOM   1576  OE2 GLU B  17     -17.757 -22.638   2.283  1.00  0.65           O  
+ATOM   1577  N   MET B  18     -21.723 -24.172   6.360  1.00  0.65           N  
+ATOM   1578  CA  MET B  18     -22.578 -23.203   6.996  1.00  0.65           C  
+ATOM   1579  C   MET B  18     -21.754 -22.150   7.687  1.00  0.65           C  
+ATOM   1580  O   MET B  18     -20.631 -22.355   8.145  1.00  0.65           O  
+ATOM   1581  CB  MET B  18     -23.473 -23.807   8.104  1.00  0.65           C  
+ATOM   1582  CG  MET B  18     -24.735 -24.523   7.595  1.00  0.65           C  
+ATOM   1583  SD  MET B  18     -25.904 -25.055   8.899  1.00  0.65           S  
+ATOM   1584  CE  MET B  18     -25.437 -23.998  10.303  1.00  0.65           C  
+ATOM   1585  N   ARG B  19     -22.374 -20.976   7.848  1.00  0.70           N  
+ATOM   1586  CA  ARG B  19     -21.752 -19.863   8.494  1.00  0.70           C  
+ATOM   1587  C   ARG B  19     -22.755 -19.200   9.411  1.00  0.70           C  
+ATOM   1588  O   ARG B  19     -23.926 -18.994   9.084  1.00  0.70           O  
+ATOM   1589  CB  ARG B  19     -21.137 -18.935   7.423  1.00  0.70           C  
+ATOM   1590  CG  ARG B  19     -21.256 -17.415   7.616  1.00  0.70           C  
+ATOM   1591  CD  ARG B  19     -20.174 -16.602   6.895  1.00  0.70           C  
+ATOM   1592  NE  ARG B  19     -20.012 -17.080   5.482  1.00  0.70           N  
+ATOM   1593  CZ  ARG B  19     -18.933 -17.738   5.023  1.00  0.70           C  
+ATOM   1594  NH1 ARG B  19     -17.890 -18.017   5.805  1.00  0.70           N  
+ATOM   1595  NH2 ARG B  19     -18.856 -18.065   3.736  1.00  0.70           N  
+ATOM   1596  N   ILE B  20     -22.276 -18.875  10.624  1.00  0.85           N  
+ATOM   1597  CA  ILE B  20     -22.991 -18.104  11.614  1.00  0.85           C  
+ATOM   1598  C   ILE B  20     -22.206 -16.812  11.692  1.00  0.85           C  
+ATOM   1599  O   ILE B  20     -20.999 -16.797  11.916  1.00  0.85           O  
+ATOM   1600  CB  ILE B  20     -23.088 -18.797  12.971  1.00  0.85           C  
+ATOM   1601  CG1 ILE B  20     -23.934 -20.088  12.842  1.00  0.85           C  
+ATOM   1602  CG2 ILE B  20     -23.717 -17.838  14.006  1.00  0.85           C  
+ATOM   1603  CD1 ILE B  20     -23.864 -20.994  14.076  1.00  0.85           C  
+ATOM   1604  N   LEU B  21     -22.874 -15.681  11.435  1.00  0.85           N  
+ATOM   1605  CA  LEU B  21     -22.232 -14.391  11.324  1.00  0.85           C  
+ATOM   1606  C   LEU B  21     -22.487 -13.638  12.614  1.00  0.85           C  
+ATOM   1607  O   LEU B  21     -23.632 -13.466  13.010  1.00  0.85           O  
+ATOM   1608  CB  LEU B  21     -22.860 -13.646  10.120  1.00  0.85           C  
+ATOM   1609  CG  LEU B  21     -21.926 -12.777   9.261  1.00  0.85           C  
+ATOM   1610  CD1 LEU B  21     -22.729 -12.070   8.163  1.00  0.85           C  
+ATOM   1611  CD2 LEU B  21     -21.179 -11.734  10.070  1.00  0.85           C  
+ATOM   1612  N   MET B  22     -21.441 -13.187  13.328  1.00  0.85           N  
+ATOM   1613  CA  MET B  22     -21.622 -12.515  14.602  1.00  0.85           C  
+ATOM   1614  C   MET B  22     -21.072 -11.112  14.483  1.00  0.85           C  
+ATOM   1615  O   MET B  22     -19.877 -10.890  14.326  1.00  0.85           O  
+ATOM   1616  CB  MET B  22     -20.954 -13.300  15.755  1.00  0.85           C  
+ATOM   1617  CG  MET B  22     -21.276 -12.831  17.189  1.00  0.85           C  
+ATOM   1618  SD  MET B  22     -20.170 -13.518  18.464  1.00  0.85           S  
+ATOM   1619  CE  MET B  22     -20.443 -15.286  18.137  1.00  0.85           C  
+ATOM   1620  N   VAL B  23     -21.962 -10.107  14.522  1.00  0.84           N  
+ATOM   1621  CA  VAL B  23     -21.604  -8.727  14.237  1.00  0.84           C  
+ATOM   1622  C   VAL B  23     -22.221  -7.794  15.250  1.00  0.84           C  
+ATOM   1623  O   VAL B  23     -23.011  -8.158  16.112  1.00  0.84           O  
+ATOM   1624  CB  VAL B  23     -21.980  -8.233  12.841  1.00  0.84           C  
+ATOM   1625  CG1 VAL B  23     -21.050  -8.872  11.803  1.00  0.84           C  
+ATOM   1626  CG2 VAL B  23     -23.467  -8.502  12.555  1.00  0.84           C  
+ATOM   1627  N   GLY B  24     -21.797  -6.525  15.192  1.00  0.87           N  
+ATOM   1628  CA  GLY B  24     -22.182  -5.493  16.131  1.00  0.87           C  
+ATOM   1629  C   GLY B  24     -21.008  -4.591  16.196  1.00  0.87           C  
+ATOM   1630  O   GLY B  24     -19.917  -4.984  15.790  1.00  0.87           O  
+ATOM   1631  N   LEU B  25     -21.198  -3.347  16.655  1.00  0.82           N  
+ATOM   1632  CA  LEU B  25     -20.150  -2.354  16.848  1.00  0.82           C  
+ATOM   1633  C   LEU B  25     -18.891  -2.880  17.541  1.00  0.82           C  
+ATOM   1634  O   LEU B  25     -18.894  -3.920  18.209  1.00  0.82           O  
+ATOM   1635  CB  LEU B  25     -20.717  -1.181  17.682  1.00  0.82           C  
+ATOM   1636  CG  LEU B  25     -21.474  -0.072  16.919  1.00  0.82           C  
+ATOM   1637  CD1 LEU B  25     -22.356  -0.541  15.759  1.00  0.82           C  
+ATOM   1638  CD2 LEU B  25     -22.316   0.732  17.910  1.00  0.82           C  
+ATOM   1639  N   ASP B  26     -17.762  -2.164  17.416  1.00  0.76           N  
+ATOM   1640  CA  ASP B  26     -16.566  -2.456  18.173  1.00  0.76           C  
+ATOM   1641  C   ASP B  26     -16.803  -2.366  19.684  1.00  0.76           C  
+ATOM   1642  O   ASP B  26     -17.697  -1.658  20.149  1.00  0.76           O  
+ATOM   1643  CB  ASP B  26     -15.385  -1.577  17.710  1.00  0.76           C  
+ATOM   1644  CG  ASP B  26     -15.650  -0.117  18.011  1.00  0.76           C  
+ATOM   1645  OD1 ASP B  26     -16.631   0.430  17.438  1.00  0.76           O  
+ATOM   1646  OD2 ASP B  26     -14.939   0.453  18.869  1.00  0.76           O  
+ATOM   1647  N   ALA B  27     -16.066  -3.181  20.469  1.00  0.82           N  
+ATOM   1648  CA  ALA B  27     -16.179  -3.231  21.917  1.00  0.82           C  
+ATOM   1649  C   ALA B  27     -17.455  -3.869  22.473  1.00  0.82           C  
+ATOM   1650  O   ALA B  27     -17.587  -4.042  23.684  1.00  0.82           O  
+ATOM   1651  CB  ALA B  27     -15.937  -1.843  22.543  1.00  0.82           C  
+ATOM   1652  N   ALA B  28     -18.385  -4.323  21.602  1.00  0.88           N  
+ATOM   1653  CA  ALA B  28     -19.625  -4.990  21.962  1.00  0.88           C  
+ATOM   1654  C   ALA B  28     -19.449  -6.302  22.720  1.00  0.88           C  
+ATOM   1655  O   ALA B  28     -20.289  -6.697  23.523  1.00  0.88           O  
+ATOM   1656  CB  ALA B  28     -20.445  -5.241  20.688  1.00  0.88           C  
+ATOM   1657  N   GLY B  29     -18.318  -7.004  22.499  1.00  0.88           N  
+ATOM   1658  CA  GLY B  29     -17.974  -8.218  23.237  1.00  0.88           C  
+ATOM   1659  C   GLY B  29     -17.926  -9.465  22.406  1.00  0.88           C  
+ATOM   1660  O   GLY B  29     -17.873 -10.564  22.942  1.00  0.88           O  
+ATOM   1661  N   LYS B  30     -17.910  -9.335  21.073  1.00  0.80           N  
+ATOM   1662  CA  LYS B  30     -17.871 -10.444  20.123  1.00  0.80           C  
+ATOM   1663  C   LYS B  30     -16.674 -11.381  20.215  1.00  0.80           C  
+ATOM   1664  O   LYS B  30     -16.832 -12.598  20.241  1.00  0.80           O  
+ATOM   1665  CB  LYS B  30     -17.930  -9.889  18.684  1.00  0.80           C  
+ATOM   1666  CG  LYS B  30     -19.115  -8.944  18.468  1.00  0.80           C  
+ATOM   1667  CD  LYS B  30     -19.254  -8.446  17.027  1.00  0.80           C  
+ATOM   1668  CE  LYS B  30     -18.072  -7.634  16.488  1.00  0.80           C  
+ATOM   1669  NZ  LYS B  30     -17.893  -6.375  17.224  1.00  0.80           N  
+ATOM   1670  N   THR B  31     -15.447 -10.847  20.333  1.00  0.79           N  
+ATOM   1671  CA  THR B  31     -14.228 -11.625  20.566  1.00  0.79           C  
+ATOM   1672  C   THR B  31     -14.271 -12.397  21.869  1.00  0.79           C  
+ATOM   1673  O   THR B  31     -13.898 -13.567  21.964  1.00  0.79           O  
+ATOM   1674  CB  THR B  31     -13.017 -10.725  20.581  1.00  0.79           C  
+ATOM   1675  OG1 THR B  31     -13.155  -9.787  19.523  1.00  0.79           O  
+ATOM   1676  CG2 THR B  31     -11.714 -11.519  20.394  1.00  0.79           C  
+ATOM   1677  N   THR B  32     -14.803 -11.753  22.927  1.00  0.81           N  
+ATOM   1678  CA  THR B  32     -15.056 -12.363  24.224  1.00  0.81           C  
+ATOM   1679  C   THR B  32     -16.058 -13.499  24.167  1.00  0.81           C  
+ATOM   1680  O   THR B  32     -15.836 -14.546  24.774  1.00  0.81           O  
+ATOM   1681  CB  THR B  32     -15.537 -11.356  25.262  1.00  0.81           C  
+ATOM   1682  OG1 THR B  32     -14.619 -10.278  25.348  1.00  0.81           O  
+ATOM   1683  CG2 THR B  32     -15.620 -11.990  26.657  1.00  0.81           C  
+ATOM   1684  N   ILE B  33     -17.176 -13.344  23.413  1.00  0.85           N  
+ATOM   1685  CA  ILE B  33     -18.135 -14.422  23.174  1.00  0.85           C  
+ATOM   1686  C   ILE B  33     -17.469 -15.581  22.452  1.00  0.85           C  
+ATOM   1687  O   ILE B  33     -17.536 -16.708  22.935  1.00  0.85           O  
+ATOM   1688  CB  ILE B  33     -19.382 -13.964  22.404  1.00  0.85           C  
+ATOM   1689  CG1 ILE B  33     -20.184 -12.928  23.227  1.00  0.85           C  
+ATOM   1690  CG2 ILE B  33     -20.298 -15.165  22.064  1.00  0.85           C  
+ATOM   1691  CD1 ILE B  33     -21.314 -12.262  22.434  1.00  0.85           C  
+ATOM   1692  N   LEU B  34     -16.717 -15.334  21.351  1.00  0.81           N  
+ATOM   1693  CA  LEU B  34     -16.029 -16.383  20.600  1.00  0.81           C  
+ATOM   1694  C   LEU B  34     -15.081 -17.205  21.458  1.00  0.81           C  
+ATOM   1695  O   LEU B  34     -15.088 -18.436  21.449  1.00  0.81           O  
+ATOM   1696  CB  LEU B  34     -15.119 -15.784  19.490  1.00  0.81           C  
+ATOM   1697  CG  LEU B  34     -15.776 -15.280  18.198  1.00  0.81           C  
+ATOM   1698  CD1 LEU B  34     -14.649 -14.875  17.231  1.00  0.81           C  
+ATOM   1699  CD2 LEU B  34     -16.672 -16.341  17.550  1.00  0.81           C  
+ATOM   1700  N   TYR B  35     -14.262 -16.513  22.265  1.00  0.77           N  
+ATOM   1701  CA  TYR B  35     -13.346 -17.128  23.197  1.00  0.77           C  
+ATOM   1702  C   TYR B  35     -14.039 -17.935  24.291  1.00  0.77           C  
+ATOM   1703  O   TYR B  35     -13.582 -19.002  24.700  1.00  0.77           O  
+ATOM   1704  CB  TYR B  35     -12.455 -16.019  23.795  1.00  0.77           C  
+ATOM   1705  CG  TYR B  35     -11.271 -16.583  24.521  1.00  0.77           C  
+ATOM   1706  CD1 TYR B  35     -10.321 -17.375  23.852  1.00  0.77           C  
+ATOM   1707  CD2 TYR B  35     -11.101 -16.314  25.885  1.00  0.77           C  
+ATOM   1708  CE1 TYR B  35      -9.207 -17.877  24.541  1.00  0.77           C  
+ATOM   1709  CE2 TYR B  35      -9.984 -16.804  26.570  1.00  0.77           C  
+ATOM   1710  CZ  TYR B  35      -9.031 -17.569  25.894  1.00  0.77           C  
+ATOM   1711  OH  TYR B  35      -7.867 -17.971  26.571  1.00  0.77           O  
+ATOM   1712  N   LYS B  36     -15.192 -17.457  24.795  1.00  0.78           N  
+ATOM   1713  CA  LYS B  36     -15.995 -18.199  25.745  1.00  0.78           C  
+ATOM   1714  C   LYS B  36     -16.553 -19.504  25.242  1.00  0.78           C  
+ATOM   1715  O   LYS B  36     -16.648 -20.474  26.003  1.00  0.78           O  
+ATOM   1716  CB  LYS B  36     -17.184 -17.372  26.273  1.00  0.78           C  
+ATOM   1717  CG  LYS B  36     -16.830 -16.529  27.488  1.00  0.78           C  
+ATOM   1718  CD  LYS B  36     -16.454 -17.367  28.719  1.00  0.78           C  
+ATOM   1719  CE  LYS B  36     -15.747 -16.546  29.790  1.00  0.78           C  
+ATOM   1720  NZ  LYS B  36     -14.520 -15.925  29.238  1.00  0.78           N  
+ATOM   1721  N   LEU B  37     -16.933 -19.565  23.953  1.00  0.79           N  
+ATOM   1722  CA  LEU B  37     -17.478 -20.765  23.360  1.00  0.79           C  
+ATOM   1723  C   LEU B  37     -16.533 -21.940  23.449  1.00  0.79           C  
+ATOM   1724  O   LEU B  37     -16.986 -23.049  23.726  1.00  0.79           O  
+ATOM   1725  CB  LEU B  37     -17.912 -20.570  21.890  1.00  0.79           C  
+ATOM   1726  CG  LEU B  37     -18.953 -19.455  21.668  1.00  0.79           C  
+ATOM   1727  CD1 LEU B  37     -19.357 -19.375  20.191  1.00  0.79           C  
+ATOM   1728  CD2 LEU B  37     -20.192 -19.586  22.565  1.00  0.79           C  
+ATOM   1729  N   LYS B  38     -15.209 -21.712  23.273  1.00  0.74           N  
+ATOM   1730  CA  LYS B  38     -14.152 -22.717  23.353  1.00  0.74           C  
+ATOM   1731  C   LYS B  38     -14.352 -23.815  22.318  1.00  0.74           C  
+ATOM   1732  O   LYS B  38     -14.203 -25.003  22.586  1.00  0.74           O  
+ATOM   1733  CB  LYS B  38     -13.934 -23.284  24.787  1.00  0.74           C  
+ATOM   1734  CG  LYS B  38     -13.485 -22.210  25.791  1.00  0.74           C  
+ATOM   1735  CD  LYS B  38     -13.534 -22.665  27.262  1.00  0.74           C  
+ATOM   1736  CE  LYS B  38     -13.132 -21.541  28.231  1.00  0.74           C  
+ATOM   1737  NZ  LYS B  38     -13.132 -21.997  29.646  1.00  0.74           N  
+ATOM   1738  N   LEU B  39     -14.706 -23.384  21.094  1.00  0.73           N  
+ATOM   1739  CA  LEU B  39     -15.005 -24.241  19.957  1.00  0.73           C  
+ATOM   1740  C   LEU B  39     -13.806 -24.362  19.028  1.00  0.73           C  
+ATOM   1741  O   LEU B  39     -13.824 -25.124  18.065  1.00  0.73           O  
+ATOM   1742  CB  LEU B  39     -16.179 -23.600  19.153  1.00  0.73           C  
+ATOM   1743  CG  LEU B  39     -17.588 -24.206  19.336  1.00  0.73           C  
+ATOM   1744  CD1 LEU B  39     -17.907 -24.648  20.764  1.00  0.73           C  
+ATOM   1745  CD2 LEU B  39     -18.644 -23.194  18.875  1.00  0.73           C  
+ATOM   1746  N   GLY B  40     -12.718 -23.623  19.306  1.00  0.77           N  
+ATOM   1747  CA  GLY B  40     -11.525 -23.636  18.479  1.00  0.77           C  
+ATOM   1748  C   GLY B  40     -10.806 -22.333  18.597  1.00  0.77           C  
+ATOM   1749  O   GLY B  40     -11.255 -21.417  19.284  1.00  0.77           O  
+ATOM   1750  N   GLU B  41      -9.641 -22.226  17.941  1.00  0.73           N  
+ATOM   1751  CA  GLU B  41      -8.887 -20.993  17.844  1.00  0.73           C  
+ATOM   1752  C   GLU B  41      -9.577 -19.875  17.085  1.00  0.73           C  
+ATOM   1753  O   GLU B  41     -10.307 -20.086  16.121  1.00  0.73           O  
+ATOM   1754  CB  GLU B  41      -7.480 -21.249  17.268  1.00  0.73           C  
+ATOM   1755  CG  GLU B  41      -6.566 -21.839  18.362  1.00  0.73           C  
+ATOM   1756  CD  GLU B  41      -5.180 -22.219  17.866  1.00  0.73           C  
+ATOM   1757  OE1 GLU B  41      -5.097 -23.126  17.005  1.00  0.73           O  
+ATOM   1758  OE2 GLU B  41      -4.206 -21.639  18.405  1.00  0.73           O  
+ATOM   1759  N   ILE B  42      -9.344 -18.627  17.533  1.00  0.78           N  
+ATOM   1760  CA  ILE B  42      -9.860 -17.434  16.891  1.00  0.78           C  
+ATOM   1761  C   ILE B  42      -8.772 -16.944  15.965  1.00  0.78           C  
+ATOM   1762  O   ILE B  42      -7.797 -16.367  16.434  1.00  0.78           O  
+ATOM   1763  CB  ILE B  42     -10.160 -16.322  17.903  1.00  0.78           C  
+ATOM   1764  CG1 ILE B  42     -11.119 -16.790  19.019  1.00  0.78           C  
+ATOM   1765  CG2 ILE B  42     -10.734 -15.087  17.177  1.00  0.78           C  
+ATOM   1766  CD1 ILE B  42     -11.229 -15.771  20.158  1.00  0.78           C  
+ATOM   1767  N   VAL B  43      -8.881 -17.168  14.639  1.00  0.75           N  
+ATOM   1768  CA  VAL B  43      -7.849 -16.701  13.720  1.00  0.75           C  
+ATOM   1769  C   VAL B  43      -8.257 -15.377  13.098  1.00  0.75           C  
+ATOM   1770  O   VAL B  43      -9.368 -15.221  12.592  1.00  0.75           O  
+ATOM   1771  CB  VAL B  43      -7.378 -17.727  12.679  1.00  0.75           C  
+ATOM   1772  CG1 VAL B  43      -7.268 -19.116  13.336  1.00  0.75           C  
+ATOM   1773  CG2 VAL B  43      -8.275 -17.795  11.430  1.00  0.75           C  
+ATOM   1774  N   THR B  44      -7.365 -14.366  13.134  1.00  0.78           N  
+ATOM   1775  CA  THR B  44      -7.614 -13.081  12.486  1.00  0.78           C  
+ATOM   1776  C   THR B  44      -7.075 -13.116  11.077  1.00  0.78           C  
+ATOM   1777  O   THR B  44      -5.896 -13.366  10.839  1.00  0.78           O  
+ATOM   1778  CB  THR B  44      -6.985 -11.867  13.166  1.00  0.78           C  
+ATOM   1779  OG1 THR B  44      -7.495 -11.719  14.481  1.00  0.78           O  
+ATOM   1780  CG2 THR B  44      -7.341 -10.577  12.404  1.00  0.78           C  
+ATOM   1781  N   THR B  45      -7.933 -12.829  10.085  1.00  0.75           N  
+ATOM   1782  CA  THR B  45      -7.520 -12.656   8.701  1.00  0.75           C  
+ATOM   1783  C   THR B  45      -7.818 -11.230   8.311  1.00  0.75           C  
+ATOM   1784  O   THR B  45      -8.654 -10.559   8.916  1.00  0.75           O  
+ATOM   1785  CB  THR B  45      -8.168 -13.616   7.699  1.00  0.75           C  
+ATOM   1786  OG1 THR B  45      -9.583 -13.491   7.659  1.00  0.75           O  
+ATOM   1787  CG2 THR B  45      -7.845 -15.063   8.095  1.00  0.75           C  
+ATOM   1788  N   ILE B  46      -7.128 -10.702   7.280  1.00  0.71           N  
+ATOM   1789  CA  ILE B  46      -7.478  -9.400   6.730  1.00  0.71           C  
+ATOM   1790  C   ILE B  46      -7.691  -9.574   5.227  1.00  0.71           C  
+ATOM   1791  O   ILE B  46      -6.732  -9.487   4.457  1.00  0.71           O  
+ATOM   1792  CB  ILE B  46      -6.410  -8.344   7.016  1.00  0.71           C  
+ATOM   1793  CG1 ILE B  46      -6.025  -8.358   8.516  1.00  0.71           C  
+ATOM   1794  CG2 ILE B  46      -6.945  -6.956   6.608  1.00  0.71           C  
+ATOM   1795  CD1 ILE B  46      -5.068  -7.238   8.933  1.00  0.71           C  
+ATOM   1796  N   PRO B  47      -8.910  -9.843   4.745  1.00  0.73           N  
+ATOM   1797  CA  PRO B  47      -9.161 -10.074   3.319  1.00  0.73           C  
+ATOM   1798  C   PRO B  47      -8.923  -8.873   2.425  1.00  0.73           C  
+ATOM   1799  O   PRO B  47      -8.551  -9.037   1.267  1.00  0.73           O  
+ATOM   1800  CB  PRO B  47     -10.638 -10.484   3.298  1.00  0.73           C  
+ATOM   1801  CG  PRO B  47     -10.828 -11.242   4.605  1.00  0.73           C  
+ATOM   1802  CD  PRO B  47      -9.973 -10.434   5.575  1.00  0.73           C  
+ATOM   1803  N   THR B  48      -9.163  -7.662   2.945  1.00  0.66           N  
+ATOM   1804  CA  THR B  48      -9.006  -6.418   2.207  1.00  0.66           C  
+ATOM   1805  C   THR B  48      -8.534  -5.437   3.237  1.00  0.66           C  
+ATOM   1806  O   THR B  48      -8.934  -5.540   4.392  1.00  0.66           O  
+ATOM   1807  CB  THR B  48     -10.295  -5.856   1.598  1.00  0.66           C  
+ATOM   1808  OG1 THR B  48     -10.855  -6.764   0.666  1.00  0.66           O  
+ATOM   1809  CG2 THR B  48     -10.007  -4.560   0.822  1.00  0.66           C  
+ATOM   1810  N   ILE B  49      -7.670  -4.453   2.893  1.00  0.59           N  
+ATOM   1811  CA  ILE B  49      -7.186  -3.483   3.871  1.00  0.59           C  
+ATOM   1812  C   ILE B  49      -8.291  -2.795   4.689  1.00  0.59           C  
+ATOM   1813  O   ILE B  49      -9.367  -2.435   4.197  1.00  0.59           O  
+ATOM   1814  CB  ILE B  49      -6.177  -2.474   3.324  1.00  0.59           C  
+ATOM   1815  CG1 ILE B  49      -6.813  -1.448   2.368  1.00  0.59           C  
+ATOM   1816  CG2 ILE B  49      -5.028  -3.243   2.636  1.00  0.59           C  
+ATOM   1817  CD1 ILE B  49      -5.927  -0.218   2.151  1.00  0.59           C  
+ATOM   1818  N   GLY B  50      -8.052  -2.713   6.015  1.00  0.62           N  
+ATOM   1819  CA  GLY B  50      -8.984  -2.155   6.989  1.00  0.62           C  
+ATOM   1820  C   GLY B  50     -10.110  -3.077   7.374  1.00  0.62           C  
+ATOM   1821  O   GLY B  50     -10.975  -2.700   8.156  1.00  0.62           O  
+ATOM   1822  N   PHE B  51     -10.158  -4.303   6.822  1.00  0.64           N  
+ATOM   1823  CA  PHE B  51     -11.226  -5.234   7.105  1.00  0.64           C  
+ATOM   1824  C   PHE B  51     -10.677  -6.471   7.770  1.00  0.64           C  
+ATOM   1825  O   PHE B  51     -10.221  -7.418   7.133  1.00  0.64           O  
+ATOM   1826  CB  PHE B  51     -11.962  -5.595   5.785  1.00  0.64           C  
+ATOM   1827  CG  PHE B  51     -13.188  -6.441   5.996  1.00  0.64           C  
+ATOM   1828  CD1 PHE B  51     -14.099  -6.159   7.027  1.00  0.64           C  
+ATOM   1829  CD2 PHE B  51     -13.424  -7.544   5.163  1.00  0.64           C  
+ATOM   1830  CE1 PHE B  51     -15.180  -7.010   7.272  1.00  0.64           C  
+ATOM   1831  CE2 PHE B  51     -14.519  -8.382   5.392  1.00  0.64           C  
+ATOM   1832  CZ  PHE B  51     -15.384  -8.134   6.463  1.00  0.64           C  
+ATOM   1833  N   ASN B  52     -10.775  -6.482   9.106  1.00  0.66           N  
+ATOM   1834  CA  ASN B  52     -10.274  -7.557   9.925  1.00  0.66           C  
+ATOM   1835  C   ASN B  52     -11.422  -8.493  10.240  1.00  0.66           C  
+ATOM   1836  O   ASN B  52     -12.488  -8.070  10.682  1.00  0.66           O  
+ATOM   1837  CB  ASN B  52      -9.654  -7.044  11.252  1.00  0.66           C  
+ATOM   1838  CG  ASN B  52      -8.415  -6.186  11.015  1.00  0.66           C  
+ATOM   1839  OD1 ASN B  52      -7.999  -5.859   9.902  1.00  0.66           O  
+ATOM   1840  ND2 ASN B  52      -7.760  -5.792  12.130  1.00  0.66           N  
+ATOM   1841  N   VAL B  53     -11.224  -9.797   9.994  1.00  0.74           N  
+ATOM   1842  CA  VAL B  53     -12.253 -10.796  10.213  1.00  0.74           C  
+ATOM   1843  C   VAL B  53     -11.699 -11.827  11.171  1.00  0.74           C  
+ATOM   1844  O   VAL B  53     -10.598 -12.335  10.978  1.00  0.74           O  
+ATOM   1845  CB  VAL B  53     -12.718 -11.463   8.915  1.00  0.74           C  
+ATOM   1846  CG1 VAL B  53     -13.924 -12.378   9.190  1.00  0.74           C  
+ATOM   1847  CG2 VAL B  53     -13.111 -10.383   7.886  1.00  0.74           C  
+ATOM   1848  N   GLU B  54     -12.447 -12.151  12.244  1.00  0.73           N  
+ATOM   1849  CA  GLU B  54     -12.067 -13.195  13.174  1.00  0.73           C  
+ATOM   1850  C   GLU B  54     -12.898 -14.427  12.861  1.00  0.73           C  
+ATOM   1851  O   GLU B  54     -14.115 -14.342  12.691  1.00  0.73           O  
+ATOM   1852  CB  GLU B  54     -12.297 -12.818  14.662  1.00  0.73           C  
+ATOM   1853  CG  GLU B  54     -11.556 -11.553  15.169  1.00  0.73           C  
+ATOM   1854  CD  GLU B  54     -11.825 -11.258  16.647  1.00  0.73           C  
+ATOM   1855  OE1 GLU B  54     -13.009 -11.148  17.065  1.00  0.73           O  
+ATOM   1856  OE2 GLU B  54     -10.828 -11.129  17.401  1.00  0.73           O  
+ATOM   1857  N   THR B  55     -12.263 -15.609  12.753  1.00  0.80           N  
+ATOM   1858  CA  THR B  55     -12.984 -16.831  12.409  1.00  0.80           C  
+ATOM   1859  C   THR B  55     -12.661 -17.942  13.385  1.00  0.80           C  
+ATOM   1860  O   THR B  55     -11.501 -18.234  13.658  1.00  0.80           O  
+ATOM   1861  CB  THR B  55     -12.719 -17.315  10.983  1.00  0.80           C  
+ATOM   1862  OG1 THR B  55     -13.104 -16.326  10.035  1.00  0.80           O  
+ATOM   1863  CG2 THR B  55     -13.554 -18.555  10.645  1.00  0.80           C  
+ATOM   1864  N   VAL B  56     -13.703 -18.610  13.926  1.00  0.79           N  
+ATOM   1865  CA  VAL B  56     -13.573 -19.859  14.662  1.00  0.79           C  
+ATOM   1866  C   VAL B  56     -14.289 -20.883  13.812  1.00  0.79           C  
+ATOM   1867  O   VAL B  56     -15.421 -20.658  13.395  1.00  0.79           O  
+ATOM   1868  CB  VAL B  56     -14.251 -19.811  16.031  1.00  0.79           C  
+ATOM   1869  CG1 VAL B  56     -14.376 -21.209  16.670  1.00  0.79           C  
+ATOM   1870  CG2 VAL B  56     -13.449 -18.900  16.971  1.00  0.79           C  
+ATOM   1871  N   GLU B  57     -13.668 -22.038  13.522  1.00  0.76           N  
+ATOM   1872  CA  GLU B  57     -14.311 -23.077  12.743  1.00  0.76           C  
+ATOM   1873  C   GLU B  57     -14.433 -24.293  13.619  1.00  0.76           C  
+ATOM   1874  O   GLU B  57     -13.479 -24.672  14.291  1.00  0.76           O  
+ATOM   1875  CB  GLU B  57     -13.523 -23.399  11.453  1.00  0.76           C  
+ATOM   1876  CG  GLU B  57     -13.316 -22.110  10.626  1.00  0.76           C  
+ATOM   1877  CD  GLU B  57     -12.932 -22.323   9.171  1.00  0.76           C  
+ATOM   1878  OE1 GLU B  57     -11.908 -22.989   8.897  1.00  0.76           O  
+ATOM   1879  OE2 GLU B  57     -13.687 -21.767   8.326  1.00  0.76           O  
+ATOM   1880  N   TYR B  58     -15.625 -24.928  13.669  1.00  0.73           N  
+ATOM   1881  CA  TYR B  58     -15.778 -26.134  14.461  1.00  0.73           C  
+ATOM   1882  C   TYR B  58     -15.668 -27.338  13.538  1.00  0.73           C  
+ATOM   1883  O   TYR B  58     -14.636 -28.007  13.484  1.00  0.73           O  
+ATOM   1884  CB  TYR B  58     -17.089 -26.137  15.310  1.00  0.73           C  
+ATOM   1885  CG  TYR B  58     -17.157 -27.266  16.332  1.00  0.73           C  
+ATOM   1886  CD1 TYR B  58     -16.053 -28.099  16.628  1.00  0.73           C  
+ATOM   1887  CD2 TYR B  58     -18.371 -27.526  16.996  1.00  0.73           C  
+ATOM   1888  CE1 TYR B  58     -16.192 -29.222  17.447  1.00  0.73           C  
+ATOM   1889  CE2 TYR B  58     -18.488 -28.629  17.860  1.00  0.73           C  
+ATOM   1890  CZ  TYR B  58     -17.418 -29.503  18.036  1.00  0.73           C  
+ATOM   1891  OH  TYR B  58     -17.577 -30.680  18.788  1.00  0.73           O  
+ATOM   1892  N   LYS B  59     -16.737 -27.666  12.788  1.00  0.71           N  
+ATOM   1893  CA  LYS B  59     -16.655 -28.692  11.766  1.00  0.71           C  
+ATOM   1894  C   LYS B  59     -17.076 -28.154  10.425  1.00  0.71           C  
+ATOM   1895  O   LYS B  59     -16.256 -27.805   9.588  1.00  0.71           O  
+ATOM   1896  CB  LYS B  59     -17.468 -29.958  12.164  1.00  0.71           C  
+ATOM   1897  CG  LYS B  59     -16.861 -30.736  13.351  1.00  0.71           C  
+ATOM   1898  CD  LYS B  59     -15.416 -31.190  13.057  1.00  0.71           C  
+ATOM   1899  CE  LYS B  59     -14.667 -31.810  14.234  1.00  0.71           C  
+ATOM   1900  NZ  LYS B  59     -13.236 -31.927  13.864  1.00  0.71           N  
+ATOM   1901  N   ASN B  60     -18.385 -28.060  10.197  1.00  0.72           N  
+ATOM   1902  CA  ASN B  60     -18.994 -27.597   8.957  1.00  0.72           C  
+ATOM   1903  C   ASN B  60     -19.549 -26.204   9.205  1.00  0.72           C  
+ATOM   1904  O   ASN B  60     -20.370 -25.675   8.462  1.00  0.72           O  
+ATOM   1905  CB  ASN B  60     -20.114 -28.571   8.491  1.00  0.72           C  
+ATOM   1906  CG  ASN B  60     -20.635 -29.378   9.670  1.00  0.72           C  
+ATOM   1907  OD1 ASN B  60     -21.302 -28.854  10.562  1.00  0.72           O  
+ATOM   1908  ND2 ASN B  60     -20.215 -30.657   9.755  1.00  0.72           N  
+ATOM   1909  N   ILE B  61     -19.103 -25.593  10.313  1.00  0.73           N  
+ATOM   1910  CA  ILE B  61     -19.644 -24.361  10.842  1.00  0.73           C  
+ATOM   1911  C   ILE B  61     -18.524 -23.391  11.078  1.00  0.73           C  
+ATOM   1912  O   ILE B  61     -17.630 -23.622  11.898  1.00  0.73           O  
+ATOM   1913  CB  ILE B  61     -20.408 -24.598  12.145  1.00  0.73           C  
+ATOM   1914  CG1 ILE B  61     -21.708 -25.378  11.850  1.00  0.73           C  
+ATOM   1915  CG2 ILE B  61     -20.725 -23.281  12.896  1.00  0.73           C  
+ATOM   1916  CD1 ILE B  61     -22.306 -26.028  13.094  1.00  0.73           C  
+ATOM   1917  N   SER B  62     -18.587 -22.257  10.367  1.00  0.78           N  
+ATOM   1918  CA  SER B  62     -17.646 -21.169  10.510  1.00  0.78           C  
+ATOM   1919  C   SER B  62     -18.338 -20.045  11.288  1.00  0.78           C  
+ATOM   1920  O   SER B  62     -19.373 -19.519  10.876  1.00  0.78           O  
+ATOM   1921  CB  SER B  62     -17.190 -20.580   9.136  1.00  0.78           C  
+ATOM   1922  OG  SER B  62     -16.595 -21.529   8.258  1.00  0.78           O  
+ATOM   1923  N   PHE B  63     -17.787 -19.628  12.447  1.00  0.78           N  
+ATOM   1924  CA  PHE B  63     -18.247 -18.446  13.158  1.00  0.78           C  
+ATOM   1925  C   PHE B  63     -17.452 -17.270  12.645  1.00  0.78           C  
+ATOM   1926  O   PHE B  63     -16.273 -17.130  12.951  1.00  0.78           O  
+ATOM   1927  CB  PHE B  63     -18.023 -18.535  14.689  1.00  0.78           C  
+ATOM   1928  CG  PHE B  63     -19.085 -19.374  15.329  1.00  0.78           C  
+ATOM   1929  CD1 PHE B  63     -20.253 -18.772  15.828  1.00  0.78           C  
+ATOM   1930  CD2 PHE B  63     -18.924 -20.763  15.451  1.00  0.78           C  
+ATOM   1931  CE1 PHE B  63     -21.244 -19.544  16.446  1.00  0.78           C  
+ATOM   1932  CE2 PHE B  63     -19.918 -21.539  16.059  1.00  0.78           C  
+ATOM   1933  CZ  PHE B  63     -21.074 -20.929  16.560  1.00  0.78           C  
+ATOM   1934  N   THR B  64     -18.087 -16.401  11.840  1.00  0.81           N  
+ATOM   1935  CA  THR B  64     -17.401 -15.289  11.191  1.00  0.81           C  
+ATOM   1936  C   THR B  64     -17.741 -14.014  11.921  1.00  0.81           C  
+ATOM   1937  O   THR B  64     -18.908 -13.651  12.044  1.00  0.81           O  
+ATOM   1938  CB  THR B  64     -17.787 -15.107   9.726  1.00  0.81           C  
+ATOM   1939  OG1 THR B  64     -17.478 -16.269   8.970  1.00  0.81           O  
+ATOM   1940  CG2 THR B  64     -16.994 -13.977   9.068  1.00  0.81           C  
+ATOM   1941  N   VAL B  65     -16.724 -13.301  12.440  1.00  0.80           N  
+ATOM   1942  CA  VAL B  65     -16.922 -12.094  13.224  1.00  0.80           C  
+ATOM   1943  C   VAL B  65     -16.229 -10.898  12.604  1.00  0.80           C  
+ATOM   1944  O   VAL B  65     -15.087 -10.986  12.162  1.00  0.80           O  
+ATOM   1945  CB  VAL B  65     -16.402 -12.283  14.639  1.00  0.80           C  
+ATOM   1946  CG1 VAL B  65     -16.633 -11.039  15.514  1.00  0.80           C  
+ATOM   1947  CG2 VAL B  65     -17.098 -13.516  15.228  1.00  0.80           C  
+ATOM   1948  N   TRP B  66     -16.906  -9.728  12.569  1.00  0.68           N  
+ATOM   1949  CA  TRP B  66     -16.249  -8.484  12.222  1.00  0.68           C  
+ATOM   1950  C   TRP B  66     -16.948  -7.287  12.853  1.00  0.68           C  
+ATOM   1951  O   TRP B  66     -18.148  -7.311  13.131  1.00  0.68           O  
+ATOM   1952  CB  TRP B  66     -16.088  -8.315  10.690  1.00  0.68           C  
+ATOM   1953  CG  TRP B  66     -17.349  -8.125   9.859  1.00  0.68           C  
+ATOM   1954  CD1 TRP B  66     -18.087  -6.983   9.742  1.00  0.68           C  
+ATOM   1955  CD2 TRP B  66     -17.864  -9.055   8.903  1.00  0.68           C  
+ATOM   1956  NE1 TRP B  66     -19.042  -7.140   8.775  1.00  0.68           N  
+ATOM   1957  CE2 TRP B  66     -18.943  -8.390   8.241  1.00  0.68           C  
+ATOM   1958  CE3 TRP B  66     -17.493 -10.342   8.532  1.00  0.68           C  
+ATOM   1959  CZ2 TRP B  66     -19.644  -9.019   7.243  1.00  0.68           C  
+ATOM   1960  CZ3 TRP B  66     -18.195 -10.961   7.489  1.00  0.68           C  
+ATOM   1961  CH2 TRP B  66     -19.267 -10.306   6.856  1.00  0.68           C  
+ATOM   1962  N   ASP B  67     -16.201  -6.193  13.112  1.00  0.63           N  
+ATOM   1963  CA  ASP B  67     -16.778  -4.963  13.612  1.00  0.63           C  
+ATOM   1964  C   ASP B  67     -17.430  -4.177  12.491  1.00  0.63           C  
+ATOM   1965  O   ASP B  67     -17.015  -4.197  11.335  1.00  0.63           O  
+ATOM   1966  CB  ASP B  67     -15.768  -4.039  14.327  1.00  0.63           C  
+ATOM   1967  CG  ASP B  67     -15.067  -4.701  15.496  1.00  0.63           C  
+ATOM   1968  OD1 ASP B  67     -15.663  -5.614  16.130  1.00  0.63           O  
+ATOM   1969  OD2 ASP B  67     -13.966  -4.215  15.836  1.00  0.63           O  
+ATOM   1970  N   VAL B  68     -18.504  -3.459  12.826  1.00  0.65           N  
+ATOM   1971  CA  VAL B  68     -19.312  -2.754  11.854  1.00  0.65           C  
+ATOM   1972  C   VAL B  68     -19.420  -1.317  12.312  1.00  0.65           C  
+ATOM   1973  O   VAL B  68     -19.457  -1.051  13.511  1.00  0.65           O  
+ATOM   1974  CB  VAL B  68     -20.706  -3.365  11.668  1.00  0.65           C  
+ATOM   1975  CG1 VAL B  68     -20.597  -4.866  11.358  1.00  0.65           C  
+ATOM   1976  CG2 VAL B  68     -21.531  -3.201  12.946  1.00  0.65           C  
+ATOM   1977  N   GLY B  69     -19.445  -0.353  11.364  1.00  0.63           N  
+ATOM   1978  CA  GLY B  69     -19.624   1.075  11.680  1.00  0.63           C  
+ATOM   1979  C   GLY B  69     -20.968   1.467  12.174  1.00  0.63           C  
+ATOM   1980  O   GLY B  69     -21.681   0.631  12.685  1.00  0.63           O  
+ATOM   1981  N   GLY B  70     -21.351   2.766  12.033  1.00  0.46           N  
+ATOM   1982  CA  GLY B  70     -22.765   3.092  12.215  1.00  0.46           C  
+ATOM   1983  C   GLY B  70     -23.466   3.488  10.938  1.00  0.46           C  
+ATOM   1984  O   GLY B  70     -24.693   3.391  10.820  1.00  0.46           O  
+ATOM   1985  N   GLN B  71     -22.738   3.855   9.872  1.00  0.44           N  
+ATOM   1986  CA  GLN B  71     -23.348   4.169   8.601  1.00  0.44           C  
+ATOM   1987  C   GLN B  71     -22.533   3.493   7.513  1.00  0.44           C  
+ATOM   1988  O   GLN B  71     -21.368   3.136   7.767  1.00  0.44           O  
+ATOM   1989  CB  GLN B  71     -23.591   5.667   8.344  1.00  0.44           C  
+ATOM   1990  CG  GLN B  71     -24.751   6.245   9.214  1.00  0.44           C  
+ATOM   1991  CD  GLN B  71     -25.050   7.733   8.993  1.00  0.44           C  
+ATOM   1992  OE1 GLN B  71     -24.181   8.598   9.087  1.00  0.44           O  
+ATOM   1993  NE2 GLN B  71     -26.346   8.064   8.773  1.00  0.44           N  
+ATOM   1994  N   ASP B  72     -23.128   3.237   6.331  1.00  0.50           N  
+ATOM   1995  CA  ASP B  72     -22.540   2.610   5.154  1.00  0.50           C  
+ATOM   1996  C   ASP B  72     -21.854   1.256   5.400  1.00  0.50           C  
+ATOM   1997  O   ASP B  72     -20.740   0.985   4.978  1.00  0.50           O  
+ATOM   1998  CB  ASP B  72     -21.696   3.614   4.327  1.00  0.50           C  
+ATOM   1999  CG  ASP B  72     -22.564   4.799   3.935  1.00  0.50           C  
+ATOM   2000  OD1 ASP B  72     -23.693   4.555   3.432  1.00  0.50           O  
+ATOM   2001  OD2 ASP B  72     -22.130   5.953   4.171  1.00  0.50           O  
+ATOM   2002  N   LYS B  73     -22.552   0.348   6.112  1.00  0.39           N  
+ATOM   2003  CA  LYS B  73     -22.040  -0.967   6.465  1.00  0.39           C  
+ATOM   2004  C   LYS B  73     -21.713  -1.950   5.366  1.00  0.39           C  
+ATOM   2005  O   LYS B  73     -20.609  -2.464   5.318  1.00  0.39           O  
+ATOM   2006  CB  LYS B  73     -23.073  -1.526   7.432  1.00  0.39           C  
+ATOM   2007  CG  LYS B  73     -22.913  -2.899   8.073  1.00  0.39           C  
+ATOM   2008  CD  LYS B  73     -23.757  -3.105   9.335  1.00  0.39           C  
+ATOM   2009  CE  LYS B  73     -23.706  -4.485   9.920  1.00  0.39           C  
+ATOM   2010  NZ  LYS B  73     -24.369  -4.485  11.209  1.00  0.39           N  
+ATOM   2011  N   ILE B  74     -22.634  -2.228   4.432  1.00  0.51           N  
+ATOM   2012  CA  ILE B  74     -22.407  -3.089   3.274  1.00  0.51           C  
+ATOM   2013  C   ILE B  74     -21.123  -2.866   2.484  1.00  0.51           C  
+ATOM   2014  O   ILE B  74     -20.512  -1.805   2.461  1.00  0.51           O  
+ATOM   2015  CB  ILE B  74     -23.590  -3.094   2.325  1.00  0.51           C  
+ATOM   2016  CG1 ILE B  74     -23.905  -1.727   1.671  1.00  0.51           C  
+ATOM   2017  CG2 ILE B  74     -24.795  -3.581   3.148  1.00  0.51           C  
+ATOM   2018  CD1 ILE B  74     -23.121  -1.409   0.391  1.00  0.51           C  
+ATOM   2019  N   ARG B  75     -20.675  -3.920   1.782  1.00  0.50           N  
+ATOM   2020  CA  ARG B  75     -19.457  -3.871   1.029  1.00  0.50           C  
+ATOM   2021  C   ARG B  75     -19.533  -5.047   0.075  1.00  0.50           C  
+ATOM   2022  O   ARG B  75     -20.211  -6.019   0.426  1.00  0.50           O  
+ATOM   2023  CB  ARG B  75     -18.293  -4.056   2.024  1.00  0.50           C  
+ATOM   2024  CG  ARG B  75     -16.952  -3.411   1.646  1.00  0.50           C  
+ATOM   2025  CD  ARG B  75     -15.811  -4.077   2.414  1.00  0.50           C  
+ATOM   2026  NE  ARG B  75     -14.846  -3.037   2.895  1.00  0.50           N  
+ATOM   2027  CZ  ARG B  75     -13.540  -3.023   2.605  1.00  0.50           C  
+ATOM   2028  NH1 ARG B  75     -13.052  -3.719   1.587  1.00  0.50           N  
+ATOM   2029  NH2 ARG B  75     -12.708  -2.287   3.337  1.00  0.50           N  
+ATOM   2030  N   PRO B  76     -18.885  -5.090  -1.091  1.00  0.63           N  
+ATOM   2031  CA  PRO B  76     -19.061  -6.201  -2.031  1.00  0.63           C  
+ATOM   2032  C   PRO B  76     -18.615  -7.539  -1.477  1.00  0.63           C  
+ATOM   2033  O   PRO B  76     -19.211  -8.568  -1.776  1.00  0.63           O  
+ATOM   2034  CB  PRO B  76     -18.233  -5.769  -3.248  1.00  0.63           C  
+ATOM   2035  CG  PRO B  76     -18.332  -4.243  -3.224  1.00  0.63           C  
+ATOM   2036  CD  PRO B  76     -18.266  -3.923  -1.736  1.00  0.63           C  
+ATOM   2037  N   LEU B  77     -17.562  -7.538  -0.644  1.00  0.67           N  
+ATOM   2038  CA  LEU B  77     -17.021  -8.746  -0.051  1.00  0.67           C  
+ATOM   2039  C   LEU B  77     -17.902  -9.353   1.019  1.00  0.67           C  
+ATOM   2040  O   LEU B  77     -17.914 -10.555   1.271  1.00  0.67           O  
+ATOM   2041  CB  LEU B  77     -15.632  -8.453   0.558  1.00  0.67           C  
+ATOM   2042  CG  LEU B  77     -14.870  -9.703   1.039  1.00  0.67           C  
+ATOM   2043  CD1 LEU B  77     -14.724 -10.756  -0.064  1.00  0.67           C  
+ATOM   2044  CD2 LEU B  77     -13.479  -9.322   1.538  1.00  0.67           C  
+ATOM   2045  N   TRP B  78     -18.692  -8.521   1.697  1.00  0.64           N  
+ATOM   2046  CA  TRP B  78     -19.552  -8.987   2.748  1.00  0.64           C  
+ATOM   2047  C   TRP B  78     -20.760  -9.724   2.213  1.00  0.64           C  
+ATOM   2048  O   TRP B  78     -21.182 -10.719   2.787  1.00  0.64           O  
+ATOM   2049  CB  TRP B  78     -19.977  -7.810   3.612  1.00  0.64           C  
+ATOM   2050  CG  TRP B  78     -18.876  -7.005   4.268  1.00  0.64           C  
+ATOM   2051  CD1 TRP B  78     -17.513  -7.035   4.195  1.00  0.64           C  
+ATOM   2052  CD2 TRP B  78     -19.226  -6.011   5.213  1.00  0.64           C  
+ATOM   2053  NE1 TRP B  78     -16.989  -6.068   5.019  1.00  0.64           N  
+ATOM   2054  CE2 TRP B  78     -18.007  -5.447   5.694  1.00  0.64           C  
+ATOM   2055  CE3 TRP B  78     -20.445  -5.640   5.731  1.00  0.64           C  
+ATOM   2056  CZ2 TRP B  78     -18.033  -4.462   6.668  1.00  0.64           C  
+ATOM   2057  CZ3 TRP B  78     -20.437  -4.794   6.819  1.00  0.64           C  
+ATOM   2058  CH2 TRP B  78     -19.274  -4.115   7.220  1.00  0.64           C  
+ATOM   2059  N   ARG B  79     -21.285  -9.297   1.048  1.00  0.62           N  
+ATOM   2060  CA  ARG B  79     -22.323  -9.992   0.301  1.00  0.62           C  
+ATOM   2061  C   ARG B  79     -21.896 -11.410  -0.064  1.00  0.62           C  
+ATOM   2062  O   ARG B  79     -22.652 -12.358   0.102  1.00  0.62           O  
+ATOM   2063  CB  ARG B  79     -22.705  -9.155  -0.938  1.00  0.62           C  
+ATOM   2064  CG  ARG B  79     -23.366  -7.813  -0.548  1.00  0.62           C  
+ATOM   2065  CD  ARG B  79     -23.523  -6.860  -1.736  1.00  0.62           C  
+ATOM   2066  NE  ARG B  79     -24.260  -5.666  -1.290  1.00  0.62           N  
+ATOM   2067  CZ  ARG B  79     -24.550  -4.588  -2.012  1.00  0.62           C  
+ATOM   2068  NH1 ARG B  79     -24.175  -4.512  -3.278  1.00  0.62           N  
+ATOM   2069  NH2 ARG B  79     -25.316  -3.653  -1.460  1.00  0.62           N  
+ATOM   2070  N   HIS B  80     -20.613 -11.609  -0.426  1.00  0.68           N  
+ATOM   2071  CA  HIS B  80     -20.007 -12.939  -0.545  1.00  0.68           C  
+ATOM   2072  C   HIS B  80     -20.096 -13.793   0.725  1.00  0.68           C  
+ATOM   2073  O   HIS B  80     -20.478 -14.960   0.691  1.00  0.68           O  
+ATOM   2074  CB  HIS B  80     -18.526 -12.827  -1.010  1.00  0.68           C  
+ATOM   2075  CG  HIS B  80     -17.543 -13.776  -0.380  1.00  0.68           C  
+ATOM   2076  ND1 HIS B  80     -17.513 -15.097  -0.773  1.00  0.68           N  
+ATOM   2077  CD2 HIS B  80     -16.700 -13.577   0.667  1.00  0.68           C  
+ATOM   2078  CE1 HIS B  80     -16.655 -15.680   0.039  1.00  0.68           C  
+ATOM   2079  NE2 HIS B  80     -16.135 -14.804   0.932  1.00  0.68           N  
+ATOM   2080  N   TYR B  81     -19.791 -13.227   1.908  1.00  0.71           N  
+ATOM   2081  CA  TYR B  81     -20.033 -13.908   3.168  1.00  0.71           C  
+ATOM   2082  C   TYR B  81     -21.511 -14.194   3.434  1.00  0.71           C  
+ATOM   2083  O   TYR B  81     -21.846 -15.279   3.913  1.00  0.71           O  
+ATOM   2084  CB  TYR B  81     -19.447 -13.106   4.354  1.00  0.71           C  
+ATOM   2085  CG  TYR B  81     -17.941 -13.127   4.337  1.00  0.71           C  
+ATOM   2086  CD1 TYR B  81     -17.247 -14.334   4.523  1.00  0.71           C  
+ATOM   2087  CD2 TYR B  81     -17.198 -11.944   4.196  1.00  0.71           C  
+ATOM   2088  CE1 TYR B  81     -15.845 -14.357   4.558  1.00  0.71           C  
+ATOM   2089  CE2 TYR B  81     -15.798 -11.964   4.250  1.00  0.71           C  
+ATOM   2090  CZ  TYR B  81     -15.122 -13.171   4.431  1.00  0.71           C  
+ATOM   2091  OH  TYR B  81     -13.716 -13.220   4.499  1.00  0.71           O  
+ATOM   2092  N   PHE B  82     -22.419 -13.244   3.108  1.00  0.75           N  
+ATOM   2093  CA  PHE B  82     -23.863 -13.363   3.257  1.00  0.75           C  
+ATOM   2094  C   PHE B  82     -24.450 -14.502   2.460  1.00  0.75           C  
+ATOM   2095  O   PHE B  82     -25.338 -15.188   2.959  1.00  0.75           O  
+ATOM   2096  CB  PHE B  82     -24.630 -12.079   2.843  1.00  0.75           C  
+ATOM   2097  CG  PHE B  82     -24.268 -10.843   3.632  1.00  0.75           C  
+ATOM   2098  CD1 PHE B  82     -23.502 -10.862   4.816  1.00  0.75           C  
+ATOM   2099  CD2 PHE B  82     -24.614  -9.600   3.076  1.00  0.75           C  
+ATOM   2100  CE1 PHE B  82     -22.943  -9.681   5.313  1.00  0.75           C  
+ATOM   2101  CE2 PHE B  82     -24.038  -8.421   3.556  1.00  0.75           C  
+ATOM   2102  CZ  PHE B  82     -23.216  -8.468   4.678  1.00  0.75           C  
+ATOM   2103  N   GLN B  83     -23.929 -14.770   1.241  1.00  0.66           N  
+ATOM   2104  CA  GLN B  83     -24.276 -15.884   0.358  1.00  0.66           C  
+ATOM   2105  C   GLN B  83     -24.023 -17.302   0.931  1.00  0.66           C  
+ATOM   2106  O   GLN B  83     -23.799 -18.261   0.199  1.00  0.66           O  
+ATOM   2107  CB  GLN B  83     -23.485 -15.751  -0.978  1.00  0.66           C  
+ATOM   2108  CG  GLN B  83     -23.816 -14.519  -1.867  1.00  0.66           C  
+ATOM   2109  CD  GLN B  83     -22.715 -14.185  -2.880  1.00  0.66           C  
+ATOM   2110  OE1 GLN B  83     -22.574 -13.064  -3.370  1.00  0.66           O  
+ATOM   2111  NE2 GLN B  83     -21.860 -15.180  -3.212  1.00  0.66           N  
+ATOM   2112  N   ASN B  84     -24.064 -17.460   2.268  1.00  0.69           N  
+ATOM   2113  CA  ASN B  84     -23.835 -18.675   3.022  1.00  0.69           C  
+ATOM   2114  C   ASN B  84     -24.293 -18.518   4.486  1.00  0.69           C  
+ATOM   2115  O   ASN B  84     -24.250 -19.454   5.286  1.00  0.69           O  
+ATOM   2116  CB  ASN B  84     -22.309 -18.960   2.961  1.00  0.69           C  
+ATOM   2117  CG  ASN B  84     -21.869 -20.259   3.627  1.00  0.69           C  
+ATOM   2118  OD1 ASN B  84     -20.884 -20.243   4.371  1.00  0.69           O  
+ATOM   2119  ND2 ASN B  84     -22.593 -21.365   3.383  1.00  0.69           N  
+ATOM   2120  N   THR B  85     -24.772 -17.326   4.892  1.00  0.79           N  
+ATOM   2121  CA  THR B  85     -25.091 -17.050   6.292  1.00  0.79           C  
+ATOM   2122  C   THR B  85     -26.448 -17.578   6.689  1.00  0.79           C  
+ATOM   2123  O   THR B  85     -27.481 -17.169   6.171  1.00  0.79           O  
+ATOM   2124  CB  THR B  85     -25.059 -15.572   6.655  1.00  0.79           C  
+ATOM   2125  OG1 THR B  85     -23.773 -15.032   6.390  1.00  0.79           O  
+ATOM   2126  CG2 THR B  85     -25.326 -15.347   8.149  1.00  0.79           C  
+ATOM   2127  N   GLN B  86     -26.475 -18.513   7.653  1.00  0.78           N  
+ATOM   2128  CA  GLN B  86     -27.702 -19.099   8.164  1.00  0.78           C  
+ATOM   2129  C   GLN B  86     -28.199 -18.364   9.388  1.00  0.78           C  
+ATOM   2130  O   GLN B  86     -29.357 -17.968   9.501  1.00  0.78           O  
+ATOM   2131  CB  GLN B  86     -27.441 -20.569   8.562  1.00  0.78           C  
+ATOM   2132  CG  GLN B  86     -26.833 -21.425   7.428  1.00  0.78           C  
+ATOM   2133  CD  GLN B  86     -27.824 -21.782   6.318  1.00  0.78           C  
+ATOM   2134  OE1 GLN B  86     -28.291 -22.921   6.236  1.00  0.78           O  
+ATOM   2135  NE2 GLN B  86     -28.131 -20.813   5.430  1.00  0.78           N  
+ATOM   2136  N   GLY B  87     -27.291 -18.146  10.355  1.00  0.87           N  
+ATOM   2137  CA  GLY B  87     -27.610 -17.451  11.587  1.00  0.87           C  
+ATOM   2138  C   GLY B  87     -26.872 -16.155  11.618  1.00  0.87           C  
+ATOM   2139  O   GLY B  87     -25.694 -16.087  11.282  1.00  0.87           O  
+ATOM   2140  N   LEU B  88     -27.548 -15.093  12.060  1.00  0.88           N  
+ATOM   2141  CA  LEU B  88     -26.962 -13.793  12.248  1.00  0.88           C  
+ATOM   2142  C   LEU B  88     -27.093 -13.478  13.715  1.00  0.88           C  
+ATOM   2143  O   LEU B  88     -28.183 -13.411  14.270  1.00  0.88           O  
+ATOM   2144  CB  LEU B  88     -27.705 -12.738  11.395  1.00  0.88           C  
+ATOM   2145  CG  LEU B  88     -27.241 -11.274  11.551  1.00  0.88           C  
+ATOM   2146  CD1 LEU B  88     -25.747 -11.092  11.269  1.00  0.88           C  
+ATOM   2147  CD2 LEU B  88     -28.050 -10.385  10.603  1.00  0.88           C  
+ATOM   2148  N   ILE B  89     -25.957 -13.305  14.397  1.00  0.90           N  
+ATOM   2149  CA  ILE B  89     -25.924 -12.971  15.798  1.00  0.90           C  
+ATOM   2150  C   ILE B  89     -25.526 -11.515  15.862  1.00  0.90           C  
+ATOM   2151  O   ILE B  89     -24.514 -11.093  15.308  1.00  0.90           O  
+ATOM   2152  CB  ILE B  89     -24.962 -13.829  16.611  1.00  0.90           C  
+ATOM   2153  CG1 ILE B  89     -25.330 -15.328  16.514  1.00  0.90           C  
+ATOM   2154  CG2 ILE B  89     -24.980 -13.354  18.080  1.00  0.90           C  
+ATOM   2155  CD1 ILE B  89     -24.341 -16.259  17.228  1.00  0.90           C  
+ATOM   2156  N   PHE B  90     -26.338 -10.691  16.533  1.00  0.90           N  
+ATOM   2157  CA  PHE B  90     -26.079  -9.284  16.669  1.00  0.90           C  
+ATOM   2158  C   PHE B  90     -25.852  -8.987  18.131  1.00  0.90           C  
+ATOM   2159  O   PHE B  90     -26.751  -9.088  18.958  1.00  0.90           O  
+ATOM   2160  CB  PHE B  90     -27.270  -8.475  16.113  1.00  0.90           C  
+ATOM   2161  CG  PHE B  90     -26.839  -7.069  15.830  1.00  0.90           C  
+ATOM   2162  CD1 PHE B  90     -26.262  -6.763  14.590  1.00  0.90           C  
+ATOM   2163  CD2 PHE B  90     -26.937  -6.069  16.806  1.00  0.90           C  
+ATOM   2164  CE1 PHE B  90     -25.780  -5.476  14.334  1.00  0.90           C  
+ATOM   2165  CE2 PHE B  90     -26.449  -4.782  16.553  1.00  0.90           C  
+ATOM   2166  CZ  PHE B  90     -25.872  -4.481  15.313  1.00  0.90           C  
+ATOM   2167  N   VAL B  91     -24.621  -8.617  18.500  1.00  0.91           N  
+ATOM   2168  CA  VAL B  91     -24.269  -8.397  19.891  1.00  0.91           C  
+ATOM   2169  C   VAL B  91     -24.122  -6.915  20.128  1.00  0.91           C  
+ATOM   2170  O   VAL B  91     -23.457  -6.180  19.397  1.00  0.91           O  
+ATOM   2171  CB  VAL B  91     -23.105  -9.255  20.406  1.00  0.91           C  
+ATOM   2172  CG1 VAL B  91     -22.459 -10.020  19.247  1.00  0.91           C  
+ATOM   2173  CG2 VAL B  91     -22.067  -8.486  21.240  1.00  0.91           C  
+ATOM   2174  N   VAL B  92     -24.808  -6.439  21.175  1.00  0.90           N  
+ATOM   2175  CA  VAL B  92     -24.925  -5.037  21.492  1.00  0.90           C  
+ATOM   2176  C   VAL B  92     -24.239  -4.831  22.812  1.00  0.90           C  
+ATOM   2177  O   VAL B  92     -24.370  -5.648  23.717  1.00  0.90           O  
+ATOM   2178  CB  VAL B  92     -26.383  -4.611  21.660  1.00  0.90           C  
+ATOM   2179  CG1 VAL B  92     -26.523  -3.076  21.662  1.00  0.90           C  
+ATOM   2180  CG2 VAL B  92     -27.238  -5.206  20.531  1.00  0.90           C  
+ATOM   2181  N   ASP B  93     -23.498  -3.720  22.980  1.00  0.88           N  
+ATOM   2182  CA  ASP B  93     -23.148  -3.274  24.308  1.00  0.88           C  
+ATOM   2183  C   ASP B  93     -24.395  -2.648  24.920  1.00  0.88           C  
+ATOM   2184  O   ASP B  93     -24.862  -1.598  24.487  1.00  0.88           O  
+ATOM   2185  CB  ASP B  93     -21.994  -2.247  24.220  1.00  0.88           C  
+ATOM   2186  CG  ASP B  93     -21.431  -1.854  25.576  1.00  0.88           C  
+ATOM   2187  OD1 ASP B  93     -22.175  -1.879  26.586  1.00  0.88           O  
+ATOM   2188  OD2 ASP B  93     -20.201  -1.592  25.637  1.00  0.88           O  
+ATOM   2189  N   SER B  94     -24.976  -3.288  25.946  1.00  0.87           N  
+ATOM   2190  CA  SER B  94     -26.192  -2.794  26.560  1.00  0.87           C  
+ATOM   2191  C   SER B  94     -25.930  -1.590  27.431  1.00  0.87           C  
+ATOM   2192  O   SER B  94     -26.848  -0.862  27.800  1.00  0.87           O  
+ATOM   2193  CB  SER B  94     -26.893  -3.861  27.436  1.00  0.87           C  
+ATOM   2194  OG  SER B  94     -27.395  -4.924  26.631  1.00  0.87           O  
+ATOM   2195  N   ASN B  95     -24.665  -1.317  27.796  1.00  0.83           N  
+ATOM   2196  CA  ASN B  95     -24.329  -0.138  28.564  1.00  0.83           C  
+ATOM   2197  C   ASN B  95     -24.051   1.070  27.671  1.00  0.83           C  
+ATOM   2198  O   ASN B  95     -24.315   2.207  28.065  1.00  0.83           O  
+ATOM   2199  CB  ASN B  95     -23.137  -0.461  29.501  1.00  0.83           C  
+ATOM   2200  CG  ASN B  95     -22.782   0.640  30.497  1.00  0.83           C  
+ATOM   2201  OD1 ASN B  95     -21.665   0.715  31.012  1.00  0.83           O  
+ATOM   2202  ND2 ASN B  95     -23.747   1.518  30.840  1.00  0.83           N  
+ATOM   2203  N   ASP B  96     -23.560   0.858  26.439  1.00  0.84           N  
+ATOM   2204  CA  ASP B  96     -23.345   1.919  25.465  1.00  0.84           C  
+ATOM   2205  C   ASP B  96     -24.648   2.453  24.865  1.00  0.84           C  
+ATOM   2206  O   ASP B  96     -25.029   2.160  23.737  1.00  0.84           O  
+ATOM   2207  CB  ASP B  96     -22.377   1.444  24.360  1.00  0.84           C  
+ATOM   2208  CG  ASP B  96     -21.768   2.575  23.559  1.00  0.84           C  
+ATOM   2209  OD1 ASP B  96     -22.490   3.537  23.191  1.00  0.84           O  
+ATOM   2210  OD2 ASP B  96     -20.552   2.467  23.260  1.00  0.84           O  
+ATOM   2211  N   ARG B  97     -25.355   3.300  25.639  1.00  0.76           N  
+ATOM   2212  CA  ARG B  97     -26.644   3.883  25.304  1.00  0.76           C  
+ATOM   2213  C   ARG B  97     -26.555   4.917  24.192  1.00  0.76           C  
+ATOM   2214  O   ARG B  97     -27.558   5.262  23.563  1.00  0.76           O  
+ATOM   2215  CB  ARG B  97     -27.260   4.575  26.549  1.00  0.76           C  
+ATOM   2216  CG  ARG B  97     -27.612   3.614  27.700  1.00  0.76           C  
+ATOM   2217  CD  ARG B  97     -27.800   4.351  29.030  1.00  0.76           C  
+ATOM   2218  NE  ARG B  97     -28.473   3.424  29.993  1.00  0.76           N  
+ATOM   2219  CZ  ARG B  97     -29.789   3.163  30.043  1.00  0.76           C  
+ATOM   2220  NH1 ARG B  97     -30.669   3.659  29.180  1.00  0.76           N  
+ATOM   2221  NH2 ARG B  97     -30.233   2.358  31.001  1.00  0.76           N  
+ATOM   2222  N   GLU B  98     -25.351   5.448  23.931  1.00  0.80           N  
+ATOM   2223  CA  GLU B  98     -25.104   6.436  22.900  1.00  0.80           C  
+ATOM   2224  C   GLU B  98     -25.209   5.834  21.513  1.00  0.80           C  
+ATOM   2225  O   GLU B  98     -25.967   6.285  20.649  1.00  0.80           O  
+ATOM   2226  CB  GLU B  98     -23.685   7.014  23.132  1.00  0.80           C  
+ATOM   2227  CG  GLU B  98     -23.271   8.192  22.218  1.00  0.80           C  
+ATOM   2228  CD  GLU B  98     -21.881   8.706  22.594  1.00  0.80           C  
+ATOM   2229  OE1 GLU B  98     -21.742   9.222  23.733  1.00  0.80           O  
+ATOM   2230  OE2 GLU B  98     -20.958   8.601  21.748  1.00  0.80           O  
+ATOM   2231  N   ARG B  99     -24.512   4.705  21.308  1.00  0.78           N  
+ATOM   2232  CA  ARG B  99     -24.343   4.146  19.987  1.00  0.78           C  
+ATOM   2233  C   ARG B  99     -25.324   3.023  19.676  1.00  0.78           C  
+ATOM   2234  O   ARG B  99     -25.245   2.369  18.638  1.00  0.78           O  
+ATOM   2235  CB  ARG B  99     -22.910   3.626  19.815  1.00  0.78           C  
+ATOM   2236  CG  ARG B  99     -21.812   4.658  20.140  1.00  0.78           C  
+ATOM   2237  CD  ARG B  99     -20.477   3.986  20.457  1.00  0.78           C  
+ATOM   2238  NE  ARG B  99     -19.948   3.405  19.192  1.00  0.78           N  
+ATOM   2239  CZ  ARG B  99     -19.143   2.333  19.135  1.00  0.78           C  
+ATOM   2240  NH1 ARG B  99     -18.879   1.565  20.188  1.00  0.78           N  
+ATOM   2241  NH2 ARG B  99     -18.608   2.034  17.957  1.00  0.78           N  
+ATOM   2242  N   VAL B 100     -26.349   2.796  20.526  1.00  0.86           N  
+ATOM   2243  CA  VAL B 100     -27.444   1.859  20.251  1.00  0.86           C  
+ATOM   2244  C   VAL B 100     -28.200   2.205  18.986  1.00  0.86           C  
+ATOM   2245  O   VAL B 100     -28.611   1.350  18.209  1.00  0.86           O  
+ATOM   2246  CB  VAL B 100     -28.457   1.728  21.388  1.00  0.86           C  
+ATOM   2247  CG1 VAL B 100     -27.716   1.257  22.633  1.00  0.86           C  
+ATOM   2248  CG2 VAL B 100     -29.229   3.026  21.708  1.00  0.86           C  
+ATOM   2249  N   ASN B 101     -28.365   3.510  18.739  1.00  0.83           N  
+ATOM   2250  CA  ASN B 101     -28.986   4.087  17.569  1.00  0.83           C  
+ATOM   2251  C   ASN B 101     -28.188   3.787  16.299  1.00  0.83           C  
+ATOM   2252  O   ASN B 101     -28.745   3.476  15.248  1.00  0.83           O  
+ATOM   2253  CB  ASN B 101     -29.170   5.612  17.783  1.00  0.83           C  
+ATOM   2254  CG  ASN B 101     -29.751   5.878  19.174  1.00  0.83           C  
+ATOM   2255  OD1 ASN B 101     -30.936   5.674  19.448  1.00  0.83           O  
+ATOM   2256  ND2 ASN B 101     -28.878   6.302  20.120  1.00  0.83           N  
+ATOM   2257  N   GLU B 102     -26.843   3.829  16.394  1.00  0.80           N  
+ATOM   2258  CA  GLU B 102     -25.940   3.409  15.335  1.00  0.80           C  
+ATOM   2259  C   GLU B 102     -26.017   1.914  15.075  1.00  0.80           C  
+ATOM   2260  O   GLU B 102     -26.214   1.462  13.950  1.00  0.80           O  
+ATOM   2261  CB  GLU B 102     -24.475   3.717  15.716  1.00  0.80           C  
+ATOM   2262  CG  GLU B 102     -24.209   5.178  16.130  1.00  0.80           C  
+ATOM   2263  CD  GLU B 102     -22.751   5.402  16.526  1.00  0.80           C  
+ATOM   2264  OE1 GLU B 102     -21.908   4.477  16.380  1.00  0.80           O  
+ATOM   2265  OE2 GLU B 102     -22.476   6.523  17.010  1.00  0.80           O  
+ATOM   2266  N   ALA B 103     -25.964   1.103  16.154  1.00  0.87           N  
+ATOM   2267  CA  ALA B 103     -26.120  -0.337  16.119  1.00  0.87           C  
+ATOM   2268  C   ALA B 103     -27.449  -0.752  15.496  1.00  0.87           C  
+ATOM   2269  O   ALA B 103     -27.512  -1.674  14.686  1.00  0.87           O  
+ATOM   2270  CB  ALA B 103     -25.965  -0.905  17.543  1.00  0.87           C  
+ATOM   2271  N   ARG B 104     -28.536  -0.022  15.809  1.00  0.78           N  
+ATOM   2272  CA  ARG B 104     -29.831  -0.169  15.176  1.00  0.78           C  
+ATOM   2273  C   ARG B 104     -29.844   0.021  13.666  1.00  0.78           C  
+ATOM   2274  O   ARG B 104     -30.342  -0.846  12.949  1.00  0.78           O  
+ATOM   2275  CB  ARG B 104     -30.842   0.845  15.765  1.00  0.78           C  
+ATOM   2276  CG  ARG B 104     -32.260   0.696  15.183  1.00  0.78           C  
+ATOM   2277  CD  ARG B 104     -33.082   1.973  15.315  1.00  0.78           C  
+ATOM   2278  NE  ARG B 104     -34.131   1.885  14.252  1.00  0.78           N  
+ATOM   2279  CZ  ARG B 104     -35.339   1.344  14.441  1.00  0.78           C  
+ATOM   2280  NH1 ARG B 104     -35.767   1.000  15.649  1.00  0.78           N  
+ATOM   2281  NH2 ARG B 104     -36.134   1.167  13.387  1.00  0.78           N  
+ATOM   2282  N   GLU B 105     -29.293   1.133  13.126  1.00  0.77           N  
+ATOM   2283  CA  GLU B 105     -29.338   1.414  11.690  1.00  0.77           C  
+ATOM   2284  C   GLU B 105     -28.622   0.320  10.902  1.00  0.77           C  
+ATOM   2285  O   GLU B 105     -28.999  -0.111   9.817  1.00  0.77           O  
+ATOM   2286  CB  GLU B 105     -28.715   2.801  11.360  1.00  0.77           C  
+ATOM   2287  CG  GLU B 105     -29.728   3.824  10.790  1.00  0.77           C  
+ATOM   2288  CD  GLU B 105     -30.332   3.375   9.465  1.00  0.77           C  
+ATOM   2289  OE1 GLU B 105     -29.622   3.459   8.425  1.00  0.77           O  
+ATOM   2290  OE2 GLU B 105     -31.512   2.948   9.486  1.00  0.77           O  
+ATOM   2291  N   GLU B 106     -27.555  -0.187  11.524  1.00  0.74           N  
+ATOM   2292  CA  GLU B 106     -26.696  -1.234  11.051  1.00  0.74           C  
+ATOM   2293  C   GLU B 106     -27.181  -2.646  11.191  1.00  0.74           C  
+ATOM   2294  O   GLU B 106     -26.787  -3.553  10.453  1.00  0.74           O  
+ATOM   2295  CB  GLU B 106     -25.387  -1.154  11.867  1.00  0.74           C  
+ATOM   2296  CG  GLU B 106     -24.571   0.119  11.632  1.00  0.74           C  
+ATOM   2297  CD  GLU B 106     -24.045   0.245  10.227  1.00  0.74           C  
+ATOM   2298  OE1 GLU B 106     -24.737  -0.317   9.341  1.00  0.74           O  
+ATOM   2299  OE2 GLU B 106     -23.032   0.908   9.921  1.00  0.74           O  
+ATOM   2300  N   LEU B 107     -28.055  -2.919  12.153  1.00  0.82           N  
+ATOM   2301  CA  LEU B 107     -28.852  -4.114  12.140  1.00  0.82           C  
+ATOM   2302  C   LEU B 107     -29.818  -4.070  10.952  1.00  0.82           C  
+ATOM   2303  O   LEU B 107     -29.801  -4.947  10.093  1.00  0.82           O  
+ATOM   2304  CB  LEU B 107     -29.558  -4.179  13.511  1.00  0.82           C  
+ATOM   2305  CG  LEU B 107     -29.869  -5.567  14.084  1.00  0.82           C  
+ATOM   2306  CD1 LEU B 107     -30.888  -5.347  15.209  1.00  0.82           C  
+ATOM   2307  CD2 LEU B 107     -30.345  -6.536  13.008  1.00  0.82           C  
+ATOM   2308  N   MET B 108     -30.577  -2.968  10.795  1.00  0.80           N  
+ATOM   2309  CA  MET B 108     -31.542  -2.797   9.723  1.00  0.80           C  
+ATOM   2310  C   MET B 108     -30.940  -2.837   8.328  1.00  0.80           C  
+ATOM   2311  O   MET B 108     -31.429  -3.533   7.440  1.00  0.80           O  
+ATOM   2312  CB  MET B 108     -32.306  -1.475   9.963  1.00  0.80           C  
+ATOM   2313  CG  MET B 108     -33.177  -1.529  11.234  1.00  0.80           C  
+ATOM   2314  SD  MET B 108     -34.413  -2.863  11.217  1.00  0.80           S  
+ATOM   2315  CE  MET B 108     -35.048  -2.479  12.866  1.00  0.80           C  
+ATOM   2316  N   ARG B 109     -29.802  -2.155   8.126  1.00  0.69           N  
+ATOM   2317  CA  ARG B 109     -29.049  -2.154   6.891  1.00  0.69           C  
+ATOM   2318  C   ARG B 109     -28.529  -3.513   6.505  1.00  0.69           C  
+ATOM   2319  O   ARG B 109     -28.584  -3.917   5.350  1.00  0.69           O  
+ATOM   2320  CB  ARG B 109     -27.862  -1.178   7.007  1.00  0.69           C  
+ATOM   2321  CG  ARG B 109     -27.260  -0.755   5.653  1.00  0.69           C  
+ATOM   2322  CD  ARG B 109     -26.231   0.369   5.763  1.00  0.69           C  
+ATOM   2323  NE  ARG B 109     -26.934   1.530   6.411  1.00  0.69           N  
+ATOM   2324  CZ  ARG B 109     -26.471   2.201   7.467  1.00  0.69           C  
+ATOM   2325  NH1 ARG B 109     -25.389   1.794   8.088  1.00  0.69           N  
+ATOM   2326  NH2 ARG B 109     -27.040   3.330   7.852  1.00  0.69           N  
+ATOM   2327  N   MET B 110     -28.028  -4.300   7.470  1.00  0.76           N  
+ATOM   2328  CA  MET B 110     -27.609  -5.650   7.156  1.00  0.76           C  
+ATOM   2329  C   MET B 110     -28.750  -6.568   6.756  1.00  0.76           C  
+ATOM   2330  O   MET B 110     -28.611  -7.419   5.883  1.00  0.76           O  
+ATOM   2331  CB  MET B 110     -26.841  -6.234   8.345  1.00  0.76           C  
+ATOM   2332  CG  MET B 110     -26.130  -7.560   8.072  1.00  0.76           C  
+ATOM   2333  SD  MET B 110     -24.524  -7.644   8.864  1.00  0.76           S  
+ATOM   2334  CE  MET B 110     -23.768  -6.664   7.539  1.00  0.76           C  
+ATOM   2335  N   LEU B 111     -29.925  -6.389   7.380  1.00  0.80           N  
+ATOM   2336  CA  LEU B 111     -31.107  -7.170   7.082  1.00  0.80           C  
+ATOM   2337  C   LEU B 111     -31.822  -6.770   5.806  1.00  0.80           C  
+ATOM   2338  O   LEU B 111     -32.691  -7.502   5.335  1.00  0.80           O  
+ATOM   2339  CB  LEU B 111     -32.122  -7.063   8.235  1.00  0.80           C  
+ATOM   2340  CG  LEU B 111     -31.628  -7.606   9.587  1.00  0.80           C  
+ATOM   2341  CD1 LEU B 111     -32.707  -7.346  10.641  1.00  0.80           C  
+ATOM   2342  CD2 LEU B 111     -31.225  -9.082   9.568  1.00  0.80           C  
+ATOM   2343  N   ALA B 112     -31.482  -5.606   5.224  1.00  0.79           N  
+ATOM   2344  CA  ALA B 112     -31.929  -5.222   3.905  1.00  0.79           C  
+ATOM   2345  C   ALA B 112     -31.414  -6.131   2.795  1.00  0.79           C  
+ATOM   2346  O   ALA B 112     -32.150  -6.466   1.869  1.00  0.79           O  
+ATOM   2347  CB  ALA B 112     -31.489  -3.773   3.641  1.00  0.79           C  
+ATOM   2348  N   GLU B 113     -30.136  -6.548   2.872  1.00  0.73           N  
+ATOM   2349  CA  GLU B 113     -29.483  -7.337   1.842  1.00  0.73           C  
+ATOM   2350  C   GLU B 113     -30.094  -8.730   1.588  1.00  0.73           C  
+ATOM   2351  O   GLU B 113     -30.291  -9.545   2.493  1.00  0.73           O  
+ATOM   2352  CB  GLU B 113     -27.972  -7.509   2.151  1.00  0.73           C  
+ATOM   2353  CG  GLU B 113     -27.181  -6.204   2.419  1.00  0.73           C  
+ATOM   2354  CD  GLU B 113     -26.975  -5.281   1.249  1.00  0.73           C  
+ATOM   2355  OE1 GLU B 113     -25.927  -5.456   0.598  1.00  0.73           O  
+ATOM   2356  OE2 GLU B 113     -27.710  -4.307   0.990  1.00  0.73           O  
+ATOM   2357  N   ASP B 114     -30.362  -9.053   0.305  1.00  0.75           N  
+ATOM   2358  CA  ASP B 114     -31.073 -10.224  -0.173  1.00  0.75           C  
+ATOM   2359  C   ASP B 114     -30.589 -11.600   0.259  1.00  0.75           C  
+ATOM   2360  O   ASP B 114     -31.405 -12.477   0.531  1.00  0.75           O  
+ATOM   2361  CB  ASP B 114     -31.118 -10.167  -1.713  1.00  0.75           C  
+ATOM   2362  CG  ASP B 114     -32.149  -9.145  -2.089  1.00  0.75           C  
+ATOM   2363  OD1 ASP B 114     -31.829  -7.940  -2.038  1.00  0.75           O  
+ATOM   2364  OD2 ASP B 114     -33.294  -9.570  -2.386  1.00  0.75           O  
+ATOM   2365  N   GLU B 115     -29.285 -11.887   0.379  1.00  0.71           N  
+ATOM   2366  CA  GLU B 115     -28.890 -13.208   0.850  1.00  0.71           C  
+ATOM   2367  C   GLU B 115     -29.123 -13.415   2.340  1.00  0.71           C  
+ATOM   2368  O   GLU B 115     -29.182 -14.536   2.838  1.00  0.71           O  
+ATOM   2369  CB  GLU B 115     -27.425 -13.506   0.504  1.00  0.71           C  
+ATOM   2370  CG  GLU B 115     -27.203 -13.570  -1.023  1.00  0.71           C  
+ATOM   2371  CD  GLU B 115     -26.749 -12.241  -1.623  1.00  0.71           C  
+ATOM   2372  OE1 GLU B 115     -26.565 -11.257  -0.859  1.00  0.71           O  
+ATOM   2373  OE2 GLU B 115     -26.605 -12.207  -2.868  1.00  0.71           O  
+ATOM   2374  N   LEU B 116     -29.341 -12.324   3.092  1.00  0.81           N  
+ATOM   2375  CA  LEU B 116     -29.575 -12.367   4.518  1.00  0.81           C  
+ATOM   2376  C   LEU B 116     -31.054 -12.317   4.833  1.00  0.81           C  
+ATOM   2377  O   LEU B 116     -31.487 -12.268   5.985  1.00  0.81           O  
+ATOM   2378  CB  LEU B 116     -28.854 -11.176   5.161  1.00  0.81           C  
+ATOM   2379  CG  LEU B 116     -27.912 -11.576   6.298  1.00  0.81           C  
+ATOM   2380  CD1 LEU B 116     -26.756 -12.441   5.798  1.00  0.81           C  
+ATOM   2381  CD2 LEU B 116     -27.353 -10.288   6.866  1.00  0.81           C  
+ATOM   2382  N   ARG B 117     -31.886 -12.386   3.784  1.00  0.73           N  
+ATOM   2383  CA  ARG B 117     -33.332 -12.409   3.837  1.00  0.73           C  
+ATOM   2384  C   ARG B 117     -33.840 -13.573   4.657  1.00  0.73           C  
+ATOM   2385  O   ARG B 117     -34.681 -13.402   5.536  1.00  0.73           O  
+ATOM   2386  CB  ARG B 117     -33.816 -12.503   2.383  1.00  0.73           C  
+ATOM   2387  CG  ARG B 117     -35.332 -12.599   2.137  1.00  0.73           C  
+ATOM   2388  CD  ARG B 117     -35.676 -12.682   0.642  1.00  0.73           C  
+ATOM   2389  NE  ARG B 117     -34.902 -13.833   0.076  1.00  0.73           N  
+ATOM   2390  CZ  ARG B 117     -33.947 -13.718  -0.861  1.00  0.73           C  
+ATOM   2391  NH1 ARG B 117     -33.779 -12.621  -1.603  1.00  0.73           N  
+ATOM   2392  NH2 ARG B 117     -33.147 -14.768  -1.048  1.00  0.73           N  
+ATOM   2393  N   ASP B 118     -33.242 -14.756   4.461  1.00  0.81           N  
+ATOM   2394  CA  ASP B 118     -33.684 -15.965   5.113  1.00  0.81           C  
+ATOM   2395  C   ASP B 118     -32.924 -16.248   6.426  1.00  0.81           C  
+ATOM   2396  O   ASP B 118     -33.208 -17.213   7.132  1.00  0.81           O  
+ATOM   2397  CB  ASP B 118     -33.537 -17.128   4.087  1.00  0.81           C  
+ATOM   2398  CG  ASP B 118     -34.154 -16.773   2.732  1.00  0.81           C  
+ATOM   2399  OD1 ASP B 118     -35.376 -16.502   2.675  1.00  0.81           O  
+ATOM   2400  OD2 ASP B 118     -33.416 -16.742   1.708  1.00  0.81           O  
+ATOM   2401  N   ALA B 119     -31.958 -15.380   6.815  1.00  0.88           N  
+ATOM   2402  CA  ALA B 119     -31.173 -15.523   8.034  1.00  0.88           C  
+ATOM   2403  C   ALA B 119     -31.942 -15.386   9.355  1.00  0.88           C  
+ATOM   2404  O   ALA B 119     -32.770 -14.495   9.567  1.00  0.88           O  
+ATOM   2405  CB  ALA B 119     -29.967 -14.556   8.059  1.00  0.88           C  
+ATOM   2406  N   VAL B 120     -31.626 -16.252  10.328  1.00  0.88           N  
+ATOM   2407  CA  VAL B 120     -32.204 -16.205  11.662  1.00  0.88           C  
+ATOM   2408  C   VAL B 120     -31.457 -15.199  12.529  1.00  0.88           C  
+ATOM   2409  O   VAL B 120     -30.238 -15.273  12.653  1.00  0.88           O  
+ATOM   2410  CB  VAL B 120     -32.153 -17.578  12.314  1.00  0.88           C  
+ATOM   2411  CG1 VAL B 120     -32.774 -17.527  13.716  1.00  0.88           C  
+ATOM   2412  CG2 VAL B 120     -32.922 -18.583  11.435  1.00  0.88           C  
+ATOM   2413  N   LEU B 121     -32.156 -14.221  13.157  1.00  0.89           N  
+ATOM   2414  CA  LEU B 121     -31.498 -13.179  13.936  1.00  0.89           C  
+ATOM   2415  C   LEU B 121     -31.509 -13.483  15.437  1.00  0.89           C  
+ATOM   2416  O   LEU B 121     -32.542 -13.475  16.099  1.00  0.89           O  
+ATOM   2417  CB  LEU B 121     -32.197 -11.809  13.689  1.00  0.89           C  
+ATOM   2418  CG  LEU B 121     -31.389 -10.497  13.884  1.00  0.89           C  
+ATOM   2419  CD1 LEU B 121     -32.328  -9.391  14.387  1.00  0.89           C  
+ATOM   2420  CD2 LEU B 121     -30.180 -10.590  14.815  1.00  0.89           C  
+ATOM   2421  N   LEU B 122     -30.334 -13.710  16.040  1.00  0.91           N  
+ATOM   2422  CA  LEU B 122     -30.198 -13.751  17.482  1.00  0.91           C  
+ATOM   2423  C   LEU B 122     -29.587 -12.448  17.944  1.00  0.91           C  
+ATOM   2424  O   LEU B 122     -28.527 -12.041  17.486  1.00  0.91           O  
+ATOM   2425  CB  LEU B 122     -29.275 -14.907  17.922  1.00  0.91           C  
+ATOM   2426  CG  LEU B 122     -28.955 -14.970  19.431  1.00  0.91           C  
+ATOM   2427  CD1 LEU B 122     -30.208 -15.091  20.311  1.00  0.91           C  
+ATOM   2428  CD2 LEU B 122     -28.000 -16.135  19.707  1.00  0.91           C  
+ATOM   2429  N   VAL B 123     -30.232 -11.738  18.877  1.00  0.91           N  
+ATOM   2430  CA  VAL B 123     -29.678 -10.518  19.428  1.00  0.91           C  
+ATOM   2431  C   VAL B 123     -29.146 -10.812  20.814  1.00  0.91           C  
+ATOM   2432  O   VAL B 123     -29.859 -11.285  21.692  1.00  0.91           O  
+ATOM   2433  CB  VAL B 123     -30.679  -9.372  19.471  1.00  0.91           C  
+ATOM   2434  CG1 VAL B 123     -29.967  -8.063  19.867  1.00  0.91           C  
+ATOM   2435  CG2 VAL B 123     -31.316  -9.213  18.080  1.00  0.91           C  
+ATOM   2436  N   PHE B 124     -27.857 -10.534  21.056  1.00  0.90           N  
+ATOM   2437  CA  PHE B 124     -27.274 -10.648  22.372  1.00  0.90           C  
+ATOM   2438  C   PHE B 124     -27.191  -9.260  22.974  1.00  0.90           C  
+ATOM   2439  O   PHE B 124     -26.429  -8.401  22.532  1.00  0.90           O  
+ATOM   2440  CB  PHE B 124     -25.847 -11.257  22.341  1.00  0.90           C  
+ATOM   2441  CG  PHE B 124     -25.787 -12.757  22.219  1.00  0.90           C  
+ATOM   2442  CD1 PHE B 124     -26.679 -13.604  22.901  1.00  0.90           C  
+ATOM   2443  CD2 PHE B 124     -24.708 -13.338  21.530  1.00  0.90           C  
+ATOM   2444  CE1 PHE B 124     -26.469 -14.987  22.940  1.00  0.90           C  
+ATOM   2445  CE2 PHE B 124     -24.498 -14.722  21.554  1.00  0.90           C  
+ATOM   2446  CZ  PHE B 124     -25.373 -15.542  22.273  1.00  0.90           C  
+ATOM   2447  N   ALA B 125     -27.975  -9.012  24.032  1.00  0.90           N  
+ATOM   2448  CA  ALA B 125     -27.896  -7.797  24.800  1.00  0.90           C  
+ATOM   2449  C   ALA B 125     -26.825  -8.002  25.860  1.00  0.90           C  
+ATOM   2450  O   ALA B 125     -27.075  -8.528  26.942  1.00  0.90           O  
+ATOM   2451  CB  ALA B 125     -29.279  -7.517  25.406  1.00  0.90           C  
+ATOM   2452  N   ASN B 126     -25.576  -7.644  25.514  1.00  0.88           N  
+ATOM   2453  CA  ASN B 126     -24.397  -8.004  26.265  1.00  0.88           C  
+ATOM   2454  C   ASN B 126     -24.025  -6.921  27.262  1.00  0.88           C  
+ATOM   2455  O   ASN B 126     -24.410  -5.763  27.135  1.00  0.88           O  
+ATOM   2456  CB  ASN B 126     -23.221  -8.306  25.288  1.00  0.88           C  
+ATOM   2457  CG  ASN B 126     -22.022  -8.927  25.992  1.00  0.88           C  
+ATOM   2458  OD1 ASN B 126     -22.124  -9.765  26.893  1.00  0.88           O  
+ATOM   2459  ND2 ASN B 126     -20.808  -8.483  25.618  1.00  0.88           N  
+ATOM   2460  N   LYS B 127     -23.231  -7.301  28.280  1.00  0.83           N  
+ATOM   2461  CA  LYS B 127     -22.744  -6.441  29.345  1.00  0.83           C  
+ATOM   2462  C   LYS B 127     -23.841  -6.127  30.335  1.00  0.83           C  
+ATOM   2463  O   LYS B 127     -23.992  -5.019  30.847  1.00  0.83           O  
+ATOM   2464  CB  LYS B 127     -22.026  -5.164  28.851  1.00  0.83           C  
+ATOM   2465  CG  LYS B 127     -21.008  -5.434  27.738  1.00  0.83           C  
+ATOM   2466  CD  LYS B 127     -19.938  -4.343  27.679  1.00  0.83           C  
+ATOM   2467  CE  LYS B 127     -19.088  -4.449  26.420  1.00  0.83           C  
+ATOM   2468  NZ  LYS B 127     -18.284  -3.228  26.241  1.00  0.83           N  
+ATOM   2469  N   GLN B 128     -24.651  -7.160  30.627  1.00  0.80           N  
+ATOM   2470  CA  GLN B 128     -25.853  -7.048  31.414  1.00  0.80           C  
+ATOM   2471  C   GLN B 128     -25.576  -7.006  32.907  1.00  0.80           C  
+ATOM   2472  O   GLN B 128     -26.452  -6.735  33.724  1.00  0.80           O  
+ATOM   2473  CB  GLN B 128     -26.805  -8.208  31.040  1.00  0.80           C  
+ATOM   2474  CG  GLN B 128     -28.289  -7.867  31.270  1.00  0.80           C  
+ATOM   2475  CD  GLN B 128     -28.809  -6.833  30.270  1.00  0.80           C  
+ATOM   2476  OE1 GLN B 128     -29.263  -7.156  29.169  1.00  0.80           O  
+ATOM   2477  NE2 GLN B 128     -28.801  -5.546  30.671  1.00  0.80           N  
+ATOM   2478  N   ASP B 129     -24.314  -7.243  33.280  1.00  0.80           N  
+ATOM   2479  CA  ASP B 129     -23.772  -7.133  34.607  1.00  0.80           C  
+ATOM   2480  C   ASP B 129     -23.566  -5.696  35.088  1.00  0.80           C  
+ATOM   2481  O   ASP B 129     -23.501  -5.417  36.286  1.00  0.80           O  
+ATOM   2482  CB  ASP B 129     -22.423  -7.900  34.597  1.00  0.80           C  
+ATOM   2483  CG  ASP B 129     -21.421  -7.376  33.563  1.00  0.80           C  
+ATOM   2484  OD1 ASP B 129     -21.790  -7.292  32.360  1.00  0.80           O  
+ATOM   2485  OD2 ASP B 129     -20.275  -7.069  33.967  1.00  0.80           O  
+ATOM   2486  N   LEU B 130     -23.466  -4.741  34.148  1.00  0.79           N  
+ATOM   2487  CA  LEU B 130     -23.189  -3.357  34.450  1.00  0.79           C  
+ATOM   2488  C   LEU B 130     -24.430  -2.570  34.902  1.00  0.79           C  
+ATOM   2489  O   LEU B 130     -25.493  -2.721  34.301  1.00  0.79           O  
+ATOM   2490  CB  LEU B 130     -22.581  -2.652  33.216  1.00  0.79           C  
+ATOM   2491  CG  LEU B 130     -21.266  -3.274  32.703  1.00  0.79           C  
+ATOM   2492  CD1 LEU B 130     -20.837  -2.621  31.385  1.00  0.79           C  
+ATOM   2493  CD2 LEU B 130     -20.130  -3.149  33.723  1.00  0.79           C  
+ATOM   2494  N   PRO B 131     -24.375  -1.683  35.911  1.00  0.75           N  
+ATOM   2495  CA  PRO B 131     -25.569  -1.089  36.527  1.00  0.75           C  
+ATOM   2496  C   PRO B 131     -26.451  -0.267  35.615  1.00  0.75           C  
+ATOM   2497  O   PRO B 131     -27.646  -0.143  35.857  1.00  0.75           O  
+ATOM   2498  CB  PRO B 131     -24.981  -0.180  37.612  1.00  0.75           C  
+ATOM   2499  CG  PRO B 131     -23.741  -0.930  38.082  1.00  0.75           C  
+ATOM   2500  CD  PRO B 131     -23.213  -1.567  36.800  1.00  0.75           C  
+ATOM   2501  N   ASN B 132     -25.861   0.365  34.591  1.00  0.77           N  
+ATOM   2502  CA  ASN B 132     -26.590   1.217  33.675  1.00  0.77           C  
+ATOM   2503  C   ASN B 132     -26.933   0.479  32.399  1.00  0.77           C  
+ATOM   2504  O   ASN B 132     -27.425   1.090  31.449  1.00  0.77           O  
+ATOM   2505  CB  ASN B 132     -25.727   2.461  33.323  1.00  0.77           C  
+ATOM   2506  CG  ASN B 132     -26.428   3.754  33.707  1.00  0.77           C  
+ATOM   2507  OD1 ASN B 132     -27.565   3.996  33.295  1.00  0.77           O  
+ATOM   2508  ND2 ASN B 132     -25.723   4.627  34.456  1.00  0.77           N  
+ATOM   2509  N   ALA B 133     -26.673  -0.839  32.332  1.00  0.83           N  
+ATOM   2510  CA  ALA B 133     -27.000  -1.630  31.174  1.00  0.83           C  
+ATOM   2511  C   ALA B 133     -28.489  -1.722  30.895  1.00  0.83           C  
+ATOM   2512  O   ALA B 133     -29.295  -2.121  31.732  1.00  0.83           O  
+ATOM   2513  CB  ALA B 133     -26.391  -3.029  31.300  1.00  0.83           C  
+ATOM   2514  N   MET B 134     -28.891  -1.345  29.669  1.00  0.80           N  
+ATOM   2515  CA  MET B 134     -30.255  -1.456  29.211  1.00  0.80           C  
+ATOM   2516  C   MET B 134     -30.684  -2.909  29.226  1.00  0.80           C  
+ATOM   2517  O   MET B 134     -29.921  -3.795  28.859  1.00  0.80           O  
+ATOM   2518  CB  MET B 134     -30.392  -0.935  27.770  1.00  0.80           C  
+ATOM   2519  CG  MET B 134     -29.825   0.471  27.544  1.00  0.80           C  
+ATOM   2520  SD  MET B 134     -29.502   0.770  25.793  1.00  0.80           S  
+ATOM   2521  CE  MET B 134     -30.759   2.041  25.553  1.00  0.80           C  
+ATOM   2522  N   ASN B 135     -31.903  -3.224  29.671  1.00  0.80           N  
+ATOM   2523  CA  ASN B 135     -32.335  -4.604  29.680  1.00  0.80           C  
+ATOM   2524  C   ASN B 135     -32.874  -5.007  28.322  1.00  0.80           C  
+ATOM   2525  O   ASN B 135     -33.102  -4.171  27.452  1.00  0.80           O  
+ATOM   2526  CB  ASN B 135     -33.312  -4.882  30.851  1.00  0.80           C  
+ATOM   2527  CG  ASN B 135     -34.598  -4.070  30.769  1.00  0.80           C  
+ATOM   2528  OD1 ASN B 135     -34.899  -3.366  29.798  1.00  0.80           O  
+ATOM   2529  ND2 ASN B 135     -35.439  -4.196  31.812  1.00  0.80           N  
+ATOM   2530  N   ALA B 136     -33.127  -6.315  28.113  1.00  0.85           N  
+ATOM   2531  CA  ALA B 136     -33.667  -6.821  26.866  1.00  0.85           C  
+ATOM   2532  C   ALA B 136     -34.935  -6.104  26.414  1.00  0.85           C  
+ATOM   2533  O   ALA B 136     -35.112  -5.824  25.233  1.00  0.85           O  
+ATOM   2534  CB  ALA B 136     -33.914  -8.334  26.991  1.00  0.85           C  
+ATOM   2535  N   ALA B 137     -35.808  -5.709  27.357  1.00  0.83           N  
+ATOM   2536  CA  ALA B 137     -36.958  -4.885  27.064  1.00  0.83           C  
+ATOM   2537  C   ALA B 137     -36.645  -3.525  26.415  1.00  0.83           C  
+ATOM   2538  O   ALA B 137     -37.178  -3.221  25.351  1.00  0.83           O  
+ATOM   2539  CB  ALA B 137     -37.744  -4.689  28.373  1.00  0.83           C  
+ATOM   2540  N   GLU B 138     -35.723  -2.709  26.981  1.00  0.79           N  
+ATOM   2541  CA  GLU B 138     -35.321  -1.443  26.367  1.00  0.79           C  
+ATOM   2542  C   GLU B 138     -34.560  -1.635  25.047  1.00  0.79           C  
+ATOM   2543  O   GLU B 138     -34.780  -0.919  24.071  1.00  0.79           O  
+ATOM   2544  CB  GLU B 138     -34.534  -0.510  27.346  1.00  0.79           C  
+ATOM   2545  CG  GLU B 138     -34.579   0.998  26.934  1.00  0.79           C  
+ATOM   2546  CD  GLU B 138     -33.595   1.983  27.594  1.00  0.79           C  
+ATOM   2547  OE1 GLU B 138     -32.893   1.661  28.589  1.00  0.79           O  
+ATOM   2548  OE2 GLU B 138     -33.493   3.118  27.045  1.00  0.79           O  
+ATOM   2549  N   ILE B 139     -33.668  -2.653  24.958  1.00  0.85           N  
+ATOM   2550  CA  ILE B 139     -32.931  -2.988  23.731  1.00  0.85           C  
+ATOM   2551  C   ILE B 139     -33.856  -3.365  22.575  1.00  0.85           C  
+ATOM   2552  O   ILE B 139     -33.673  -2.914  21.445  1.00  0.85           O  
+ATOM   2553  CB  ILE B 139     -31.932  -4.137  23.921  1.00  0.85           C  
+ATOM   2554  CG1 ILE B 139     -30.910  -3.883  25.054  1.00  0.85           C  
+ATOM   2555  CG2 ILE B 139     -31.193  -4.477  22.601  1.00  0.85           C  
+ATOM   2556  CD1 ILE B 139     -29.699  -3.023  24.675  1.00  0.85           C  
+ATOM   2557  N   THR B 140     -34.908  -4.175  22.832  1.00  0.85           N  
+ATOM   2558  CA  THR B 140     -35.907  -4.592  21.844  1.00  0.85           C  
+ATOM   2559  C   THR B 140     -36.610  -3.420  21.195  1.00  0.85           C  
+ATOM   2560  O   THR B 140     -36.793  -3.396  19.978  1.00  0.85           O  
+ATOM   2561  CB  THR B 140     -36.977  -5.485  22.474  1.00  0.85           C  
+ATOM   2562  OG1 THR B 140     -36.395  -6.716  22.859  1.00  0.85           O  
+ATOM   2563  CG2 THR B 140     -38.121  -5.867  21.529  1.00  0.85           C  
+ATOM   2564  N   ASP B 141     -37.001  -2.402  21.981  1.00  0.82           N  
+ATOM   2565  CA  ASP B 141     -37.549  -1.162  21.459  1.00  0.82           C  
+ATOM   2566  C   ASP B 141     -36.531  -0.241  20.781  1.00  0.82           C  
+ATOM   2567  O   ASP B 141     -36.743   0.242  19.668  1.00  0.82           O  
+ATOM   2568  CB  ASP B 141     -38.256  -0.424  22.616  1.00  0.82           C  
+ATOM   2569  CG  ASP B 141     -39.757  -0.547  22.451  1.00  0.82           C  
+ATOM   2570  OD1 ASP B 141     -40.250  -0.191  21.350  1.00  0.82           O  
+ATOM   2571  OD2 ASP B 141     -40.418  -1.007  23.412  1.00  0.82           O  
+ATOM   2572  N   LYS B 142     -35.344  -0.010  21.384  1.00  0.82           N  
+ATOM   2573  CA  LYS B 142     -34.302   0.825  20.795  1.00  0.82           C  
+ATOM   2574  C   LYS B 142     -33.797   0.302  19.456  1.00  0.82           C  
+ATOM   2575  O   LYS B 142     -33.528   1.067  18.529  1.00  0.82           O  
+ATOM   2576  CB  LYS B 142     -33.140   1.047  21.792  1.00  0.82           C  
+ATOM   2577  CG  LYS B 142     -33.514   1.972  22.965  1.00  0.82           C  
+ATOM   2578  CD  LYS B 142     -33.634   3.447  22.545  1.00  0.82           C  
+ATOM   2579  CE  LYS B 142     -33.601   4.411  23.734  1.00  0.82           C  
+ATOM   2580  NZ  LYS B 142     -33.678   5.805  23.240  1.00  0.82           N  
+ATOM   2581  N   LEU B 143     -33.734  -1.030  19.288  1.00  0.85           N  
+ATOM   2582  CA  LEU B 143     -33.421  -1.645  18.023  1.00  0.85           C  
+ATOM   2583  C   LEU B 143     -34.653  -1.899  17.172  1.00  0.85           C  
+ATOM   2584  O   LEU B 143     -34.540  -2.264  16.007  1.00  0.85           O  
+ATOM   2585  CB  LEU B 143     -32.724  -3.002  18.261  1.00  0.85           C  
+ATOM   2586  CG  LEU B 143     -31.334  -2.921  18.923  1.00  0.85           C  
+ATOM   2587  CD1 LEU B 143     -30.673  -4.303  18.962  1.00  0.85           C  
+ATOM   2588  CD2 LEU B 143     -30.408  -1.946  18.196  1.00  0.85           C  
+ATOM   2589  N   GLY B 144     -35.875  -1.666  17.693  1.00  0.85           N  
+ATOM   2590  CA  GLY B 144     -37.119  -1.862  16.957  1.00  0.85           C  
+ATOM   2591  C   GLY B 144     -37.347  -3.250  16.446  1.00  0.85           C  
+ATOM   2592  O   GLY B 144     -37.838  -3.412  15.339  1.00  0.85           O  
+ATOM   2593  N   LEU B 145     -37.003  -4.290  17.225  1.00  0.83           N  
+ATOM   2594  CA  LEU B 145     -37.083  -5.686  16.807  1.00  0.83           C  
+ATOM   2595  C   LEU B 145     -38.508  -6.098  16.448  1.00  0.83           C  
+ATOM   2596  O   LEU B 145     -38.750  -6.887  15.544  1.00  0.83           O  
+ATOM   2597  CB  LEU B 145     -36.496  -6.637  17.876  1.00  0.83           C  
+ATOM   2598  CG  LEU B 145     -35.030  -6.358  18.271  1.00  0.83           C  
+ATOM   2599  CD1 LEU B 145     -34.583  -7.341  19.361  1.00  0.83           C  
+ATOM   2600  CD2 LEU B 145     -34.075  -6.439  17.074  1.00  0.83           C  
+ATOM   2601  N   HIS B 146     -39.509  -5.478  17.097  1.00  0.73           N  
+ATOM   2602  CA  HIS B 146     -40.918  -5.624  16.750  1.00  0.73           C  
+ATOM   2603  C   HIS B 146     -41.331  -5.061  15.386  1.00  0.73           C  
+ATOM   2604  O   HIS B 146     -42.441  -5.298  14.921  1.00  0.73           O  
+ATOM   2605  CB  HIS B 146     -41.814  -5.015  17.852  1.00  0.73           C  
+ATOM   2606  CG  HIS B 146     -41.873  -5.893  19.070  1.00  0.73           C  
+ATOM   2607  ND1 HIS B 146     -42.469  -7.133  18.956  1.00  0.73           N  
+ATOM   2608  CD2 HIS B 146     -41.452  -5.693  20.348  1.00  0.73           C  
+ATOM   2609  CE1 HIS B 146     -42.408  -7.663  20.160  1.00  0.73           C  
+ATOM   2610  NE2 HIS B 146     -41.800  -6.834  21.040  1.00  0.73           N  
+ATOM   2611  N   SER B 147     -40.454  -4.330  14.664  1.00  0.75           N  
+ATOM   2612  CA  SER B 147     -40.723  -3.963  13.275  1.00  0.75           C  
+ATOM   2613  C   SER B 147     -40.498  -5.125  12.321  1.00  0.75           C  
+ATOM   2614  O   SER B 147     -40.977  -5.137  11.183  1.00  0.75           O  
+ATOM   2615  CB  SER B 147     -39.865  -2.752  12.800  1.00  0.75           C  
+ATOM   2616  OG  SER B 147     -38.501  -3.090  12.521  1.00  0.75           O  
+ATOM   2617  N   LEU B 148     -39.757  -6.154  12.777  1.00  0.75           N  
+ATOM   2618  CA  LEU B 148     -39.375  -7.306  11.996  1.00  0.75           C  
+ATOM   2619  C   LEU B 148     -40.505  -8.302  11.799  1.00  0.75           C  
+ATOM   2620  O   LEU B 148     -40.473  -9.446  12.239  1.00  0.75           O  
+ATOM   2621  CB  LEU B 148     -38.148  -8.010  12.610  1.00  0.75           C  
+ATOM   2622  CG  LEU B 148     -36.909  -7.107  12.769  1.00  0.75           C  
+ATOM   2623  CD1 LEU B 148     -35.833  -7.845  13.572  1.00  0.75           C  
+ATOM   2624  CD2 LEU B 148     -36.340  -6.638  11.426  1.00  0.75           C  
+ATOM   2625  N   ARG B 149     -41.522  -7.886  11.029  1.00  0.62           N  
+ATOM   2626  CA  ARG B 149     -42.739  -8.624  10.742  1.00  0.62           C  
+ATOM   2627  C   ARG B 149     -42.541  -9.750   9.743  1.00  0.62           C  
+ATOM   2628  O   ARG B 149     -43.498 -10.394   9.325  1.00  0.62           O  
+ATOM   2629  CB  ARG B 149     -43.819  -7.634  10.203  1.00  0.62           C  
+ATOM   2630  CG  ARG B 149     -43.378  -6.685   9.054  1.00  0.62           C  
+ATOM   2631  CD  ARG B 149     -43.300  -7.299   7.645  1.00  0.62           C  
+ATOM   2632  NE  ARG B 149     -42.171  -6.617   6.922  1.00  0.62           N  
+ATOM   2633  CZ  ARG B 149     -42.051  -6.543   5.590  1.00  0.62           C  
+ATOM   2634  NH1 ARG B 149     -42.964  -7.049   4.768  1.00  0.62           N  
+ATOM   2635  NH2 ARG B 149     -40.982  -5.946   5.067  1.00  0.62           N  
+ATOM   2636  N   HIS B 150     -41.291  -9.990   9.306  1.00  0.68           N  
+ATOM   2637  CA  HIS B 150     -40.995 -10.961   8.267  1.00  0.68           C  
+ATOM   2638  C   HIS B 150     -39.759 -11.773   8.573  1.00  0.68           C  
+ATOM   2639  O   HIS B 150     -39.135 -12.323   7.671  1.00  0.68           O  
+ATOM   2640  CB  HIS B 150     -40.784 -10.274   6.887  1.00  0.68           C  
+ATOM   2641  CG  HIS B 150     -41.201 -11.094   5.692  1.00  0.68           C  
+ATOM   2642  ND1 HIS B 150     -42.153 -12.083   5.823  1.00  0.68           N  
+ATOM   2643  CD2 HIS B 150     -40.821 -10.988   4.390  1.00  0.68           C  
+ATOM   2644  CE1 HIS B 150     -42.323 -12.575   4.614  1.00  0.68           C  
+ATOM   2645  NE2 HIS B 150     -41.546 -11.942   3.706  1.00  0.68           N  
+ATOM   2646  N   ARG B 151     -39.341 -11.875   9.851  1.00  0.72           N  
+ATOM   2647  CA  ARG B 151     -38.252 -12.788  10.149  1.00  0.72           C  
+ATOM   2648  C   ARG B 151     -38.243 -13.318  11.553  1.00  0.72           C  
+ATOM   2649  O   ARG B 151     -38.764 -12.735  12.498  1.00  0.72           O  
+ATOM   2650  CB  ARG B 151     -36.826 -12.270   9.813  1.00  0.72           C  
+ATOM   2651  CG  ARG B 151     -36.148 -11.310  10.814  1.00  0.72           C  
+ATOM   2652  CD  ARG B 151     -34.664 -11.098  10.487  1.00  0.72           C  
+ATOM   2653  NE  ARG B 151     -34.600 -10.595   9.074  1.00  0.72           N  
+ATOM   2654  CZ  ARG B 151     -33.816 -11.089   8.107  1.00  0.72           C  
+ATOM   2655  NH1 ARG B 151     -33.020 -12.136   8.269  1.00  0.72           N  
+ATOM   2656  NH2 ARG B 151     -33.752 -10.451   6.940  1.00  0.72           N  
+ATOM   2657  N   ASN B 152     -37.596 -14.481  11.700  1.00  0.84           N  
+ATOM   2658  CA  ASN B 152     -37.334 -15.128  12.956  1.00  0.84           C  
+ATOM   2659  C   ASN B 152     -36.325 -14.332  13.784  1.00  0.84           C  
+ATOM   2660  O   ASN B 152     -35.257 -13.966  13.284  1.00  0.84           O  
+ATOM   2661  CB  ASN B 152     -36.796 -16.534  12.606  1.00  0.84           C  
+ATOM   2662  CG  ASN B 152     -37.102 -17.533  13.703  1.00  0.84           C  
+ATOM   2663  OD1 ASN B 152     -37.485 -17.175  14.821  1.00  0.84           O  
+ATOM   2664  ND2 ASN B 152     -36.968 -18.829  13.369  1.00  0.84           N  
+ATOM   2665  N   TRP B 153     -36.643 -14.050  15.063  1.00  0.82           N  
+ATOM   2666  CA  TRP B 153     -35.752 -13.305  15.923  1.00  0.82           C  
+ATOM   2667  C   TRP B 153     -35.928 -13.634  17.396  1.00  0.82           C  
+ATOM   2668  O   TRP B 153     -36.991 -14.035  17.856  1.00  0.82           O  
+ATOM   2669  CB  TRP B 153     -35.824 -11.765  15.706  1.00  0.82           C  
+ATOM   2670  CG  TRP B 153     -37.124 -11.063  16.072  1.00  0.82           C  
+ATOM   2671  CD1 TRP B 153     -38.188 -10.749  15.271  1.00  0.82           C  
+ATOM   2672  CD2 TRP B 153     -37.435 -10.527  17.377  1.00  0.82           C  
+ATOM   2673  NE1 TRP B 153     -39.139 -10.052  15.986  1.00  0.82           N  
+ATOM   2674  CE2 TRP B 153     -38.700  -9.921  17.282  1.00  0.82           C  
+ATOM   2675  CE3 TRP B 153     -36.724 -10.522  18.578  1.00  0.82           C  
+ATOM   2676  CZ2 TRP B 153     -39.296  -9.322  18.387  1.00  0.82           C  
+ATOM   2677  CZ3 TRP B 153     -37.324  -9.916  19.692  1.00  0.82           C  
+ATOM   2678  CH2 TRP B 153     -38.600  -9.345  19.606  1.00  0.82           C  
+ATOM   2679  N   TYR B 154     -34.843 -13.457  18.175  1.00  0.87           N  
+ATOM   2680  CA  TYR B 154     -34.847 -13.651  19.610  1.00  0.87           C  
+ATOM   2681  C   TYR B 154     -33.831 -12.701  20.186  1.00  0.87           C  
+ATOM   2682  O   TYR B 154     -32.804 -12.427  19.577  1.00  0.87           O  
+ATOM   2683  CB  TYR B 154     -34.453 -15.108  19.948  1.00  0.87           C  
+ATOM   2684  CG  TYR B 154     -34.601 -15.553  21.384  1.00  0.87           C  
+ATOM   2685  CD1 TYR B 154     -35.839 -16.022  21.860  1.00  0.87           C  
+ATOM   2686  CD2 TYR B 154     -33.479 -15.639  22.226  1.00  0.87           C  
+ATOM   2687  CE1 TYR B 154     -35.944 -16.588  23.141  1.00  0.87           C  
+ATOM   2688  CE2 TYR B 154     -33.584 -16.202  23.507  1.00  0.87           C  
+ATOM   2689  CZ  TYR B 154     -34.815 -16.682  23.962  1.00  0.87           C  
+ATOM   2690  OH  TYR B 154     -34.907 -17.263  25.243  1.00  0.87           O  
+ATOM   2691  N   ILE B 155     -34.097 -12.177  21.390  1.00  0.88           N  
+ATOM   2692  CA  ILE B 155     -33.154 -11.348  22.110  1.00  0.88           C  
+ATOM   2693  C   ILE B 155     -32.841 -12.058  23.402  1.00  0.88           C  
+ATOM   2694  O   ILE B 155     -33.715 -12.482  24.148  1.00  0.88           O  
+ATOM   2695  CB  ILE B 155     -33.603  -9.911  22.355  1.00  0.88           C  
+ATOM   2696  CG1 ILE B 155     -32.587  -9.146  23.236  1.00  0.88           C  
+ATOM   2697  CG2 ILE B 155     -35.018  -9.871  22.961  1.00  0.88           C  
+ATOM   2698  CD1 ILE B 155     -32.789  -7.633  23.215  1.00  0.88           C  
+ATOM   2699  N   GLN B 156     -31.545 -12.226  23.682  1.00  0.85           N  
+ATOM   2700  CA  GLN B 156     -31.080 -12.864  24.876  1.00  0.85           C  
+ATOM   2701  C   GLN B 156     -30.192 -11.882  25.602  1.00  0.85           C  
+ATOM   2702  O   GLN B 156     -29.262 -11.313  25.040  1.00  0.85           O  
+ATOM   2703  CB  GLN B 156     -30.300 -14.130  24.487  1.00  0.85           C  
+ATOM   2704  CG  GLN B 156     -29.603 -14.836  25.661  1.00  0.85           C  
+ATOM   2705  CD  GLN B 156     -30.585 -15.337  26.720  1.00  0.85           C  
+ATOM   2706  OE1 GLN B 156     -31.599 -15.968  26.419  1.00  0.85           O  
+ATOM   2707  NE2 GLN B 156     -30.270 -15.053  28.003  1.00  0.85           N  
+ATOM   2708  N   ALA B 157     -30.461 -11.648  26.895  1.00  0.90           N  
+ATOM   2709  CA  ALA B 157     -29.603 -10.850  27.734  1.00  0.90           C  
+ATOM   2710  C   ALA B 157     -28.396 -11.667  28.170  1.00  0.90           C  
+ATOM   2711  O   ALA B 157     -28.542 -12.814  28.592  1.00  0.90           O  
+ATOM   2712  CB  ALA B 157     -30.421 -10.352  28.933  1.00  0.90           C  
+ATOM   2713  N   THR B 158     -27.175 -11.119  28.020  1.00  0.90           N  
+ATOM   2714  CA  THR B 158     -25.949 -11.871  28.257  1.00  0.90           C  
+ATOM   2715  C   THR B 158     -24.921 -11.086  29.042  1.00  0.90           C  
+ATOM   2716  O   THR B 158     -24.878  -9.858  29.075  1.00  0.90           O  
+ATOM   2717  CB  THR B 158     -25.228 -12.391  27.001  1.00  0.90           C  
+ATOM   2718  OG1 THR B 158     -24.827 -11.350  26.117  1.00  0.90           O  
+ATOM   2719  CG2 THR B 158     -26.165 -13.300  26.210  1.00  0.90           C  
+ATOM   2720  N   CYS B 159     -24.011 -11.822  29.695  1.00  0.89           N  
+ATOM   2721  CA  CYS B 159     -22.752 -11.286  30.158  1.00  0.89           C  
+ATOM   2722  C   CYS B 159     -21.661 -12.177  29.584  1.00  0.89           C  
+ATOM   2723  O   CYS B 159     -21.443 -13.301  30.014  1.00  0.89           O  
+ATOM   2724  CB  CYS B 159     -22.678 -11.260  31.697  1.00  0.89           C  
+ATOM   2725  SG  CYS B 159     -21.058 -10.655  32.296  1.00  0.89           S  
+ATOM   2726  N   ALA B 160     -20.925 -11.691  28.570  1.00  0.91           N  
+ATOM   2727  CA  ALA B 160     -19.878 -12.438  27.896  1.00  0.91           C  
+ATOM   2728  C   ALA B 160     -18.688 -12.840  28.761  1.00  0.91           C  
+ATOM   2729  O   ALA B 160     -18.071 -13.880  28.564  1.00  0.91           O  
+ATOM   2730  CB  ALA B 160     -19.371 -11.640  26.679  1.00  0.91           C  
+ATOM   2731  N   THR B 161     -18.279 -12.012  29.729  1.00  0.85           N  
+ATOM   2732  CA  THR B 161     -17.157 -12.321  30.612  1.00  0.85           C  
+ATOM   2733  C   THR B 161     -17.384 -13.434  31.610  1.00  0.85           C  
+ATOM   2734  O   THR B 161     -16.466 -14.215  31.860  1.00  0.85           O  
+ATOM   2735  CB  THR B 161     -16.632 -11.108  31.347  1.00  0.85           C  
+ATOM   2736  OG1 THR B 161     -17.714 -10.387  31.911  1.00  0.85           O  
+ATOM   2737  CG2 THR B 161     -15.943 -10.201  30.321  1.00  0.85           C  
+ATOM   2738  N   SER B 162     -18.587 -13.553  32.190  1.00  0.87           N  
+ATOM   2739  CA  SER B 162     -18.963 -14.689  33.022  1.00  0.87           C  
+ATOM   2740  C   SER B 162     -19.529 -15.848  32.218  1.00  0.87           C  
+ATOM   2741  O   SER B 162     -19.399 -17.012  32.593  1.00  0.87           O  
+ATOM   2742  CB  SER B 162     -20.066 -14.279  34.018  1.00  0.87           C  
+ATOM   2743  OG  SER B 162     -21.180 -13.723  33.323  1.00  0.87           O  
+ATOM   2744  N   GLY B 163     -20.157 -15.551  31.064  1.00  0.90           N  
+ATOM   2745  CA  GLY B 163     -20.819 -16.529  30.212  1.00  0.90           C  
+ATOM   2746  C   GLY B 163     -22.306 -16.643  30.397  1.00  0.90           C  
+ATOM   2747  O   GLY B 163     -22.945 -17.447  29.716  1.00  0.90           O  
+ATOM   2748  N   ASP B 164     -22.909 -15.836  31.291  1.00  0.89           N  
+ATOM   2749  CA  ASP B 164     -24.339 -15.846  31.542  1.00  0.89           C  
+ATOM   2750  C   ASP B 164     -25.179 -15.558  30.301  1.00  0.89           C  
+ATOM   2751  O   ASP B 164     -24.935 -14.617  29.543  1.00  0.89           O  
+ATOM   2752  CB  ASP B 164     -24.745 -14.831  32.637  1.00  0.89           C  
+ATOM   2753  CG  ASP B 164     -24.073 -15.144  33.958  1.00  0.89           C  
+ATOM   2754  OD1 ASP B 164     -24.210 -16.297  34.428  1.00  0.89           O  
+ATOM   2755  OD2 ASP B 164     -23.419 -14.220  34.513  1.00  0.89           O  
+ATOM   2756  N   GLY B 165     -26.189 -16.414  30.054  1.00  0.91           N  
+ATOM   2757  CA  GLY B 165     -27.133 -16.288  28.953  1.00  0.91           C  
+ATOM   2758  C   GLY B 165     -26.617 -16.686  27.598  1.00  0.91           C  
+ATOM   2759  O   GLY B 165     -27.350 -16.654  26.612  1.00  0.91           O  
+ATOM   2760  N   LEU B 166     -25.338 -17.083  27.464  1.00  0.89           N  
+ATOM   2761  CA  LEU B 166     -24.816 -17.516  26.179  1.00  0.89           C  
+ATOM   2762  C   LEU B 166     -25.471 -18.802  25.700  1.00  0.89           C  
+ATOM   2763  O   LEU B 166     -25.803 -18.943  24.524  1.00  0.89           O  
+ATOM   2764  CB  LEU B 166     -23.279 -17.686  26.179  1.00  0.89           C  
+ATOM   2765  CG  LEU B 166     -22.452 -16.402  26.397  1.00  0.89           C  
+ATOM   2766  CD1 LEU B 166     -20.963 -16.757  26.298  1.00  0.89           C  
+ATOM   2767  CD2 LEU B 166     -22.783 -15.291  25.393  1.00  0.89           C  
+ATOM   2768  N   TYR B 167     -25.701 -19.771  26.610  1.00  0.86           N  
+ATOM   2769  CA  TYR B 167     -26.331 -21.031  26.258  1.00  0.86           C  
+ATOM   2770  C   TYR B 167     -27.765 -20.877  25.794  1.00  0.86           C  
+ATOM   2771  O   TYR B 167     -28.108 -21.392  24.736  1.00  0.86           O  
+ATOM   2772  CB  TYR B 167     -26.200 -22.023  27.439  1.00  0.86           C  
+ATOM   2773  CG  TYR B 167     -26.664 -23.411  27.091  1.00  0.86           C  
+ATOM   2774  CD1 TYR B 167     -28.008 -23.759  27.297  1.00  0.86           C  
+ATOM   2775  CD2 TYR B 167     -25.775 -24.376  26.588  1.00  0.86           C  
+ATOM   2776  CE1 TYR B 167     -28.459 -25.054  27.017  1.00  0.86           C  
+ATOM   2777  CE2 TYR B 167     -26.225 -25.676  26.307  1.00  0.86           C  
+ATOM   2778  CZ  TYR B 167     -27.568 -26.012  26.528  1.00  0.86           C  
+ATOM   2779  OH  TYR B 167     -28.033 -27.318  26.280  1.00  0.86           O  
+ATOM   2780  N   GLU B 168     -28.602 -20.108  26.505  1.00  0.85           N  
+ATOM   2781  CA  GLU B 168     -30.005 -19.879  26.213  1.00  0.85           C  
+ATOM   2782  C   GLU B 168     -30.242 -19.292  24.832  1.00  0.85           C  
+ATOM   2783  O   GLU B 168     -31.092 -19.750  24.068  1.00  0.85           O  
+ATOM   2784  CB  GLU B 168     -30.608 -18.907  27.260  1.00  0.85           C  
+ATOM   2785  CG  GLU B 168     -30.712 -19.473  28.701  1.00  0.85           C  
+ATOM   2786  CD  GLU B 168     -29.469 -19.280  29.573  1.00  0.85           C  
+ATOM   2787  OE1 GLU B 168     -28.327 -19.311  29.040  1.00  0.85           O  
+ATOM   2788  OE2 GLU B 168     -29.658 -19.079  30.797  1.00  0.85           O  
+ATOM   2789  N   GLY B 169     -29.445 -18.278  24.432  1.00  0.90           N  
+ATOM   2790  CA  GLY B 169     -29.594 -17.704  23.099  1.00  0.90           C  
+ATOM   2791  C   GLY B 169     -29.097 -18.615  22.012  1.00  0.90           C  
+ATOM   2792  O   GLY B 169     -29.700 -18.731  20.947  1.00  0.90           O  
+ATOM   2793  N   LEU B 170     -27.976 -19.314  22.251  1.00  0.82           N  
+ATOM   2794  CA  LEU B 170     -27.449 -20.266  21.295  1.00  0.82           C  
+ATOM   2795  C   LEU B 170     -28.282 -21.531  21.155  1.00  0.82           C  
+ATOM   2796  O   LEU B 170     -28.389 -22.073  20.062  1.00  0.82           O  
+ATOM   2797  CB  LEU B 170     -25.966 -20.597  21.577  1.00  0.82           C  
+ATOM   2798  CG  LEU B 170     -24.995 -19.431  21.301  1.00  0.82           C  
+ATOM   2799  CD1 LEU B 170     -23.560 -19.830  21.650  1.00  0.82           C  
+ATOM   2800  CD2 LEU B 170     -25.053 -18.928  19.854  1.00  0.82           C  
+ATOM   2801  N   ASP B 171     -28.924 -22.011  22.235  1.00  0.87           N  
+ATOM   2802  CA  ASP B 171     -29.872 -23.112  22.215  1.00  0.87           C  
+ATOM   2803  C   ASP B 171     -31.085 -22.830  21.341  1.00  0.87           C  
+ATOM   2804  O   ASP B 171     -31.435 -23.602  20.443  1.00  0.87           O  
+ATOM   2805  CB  ASP B 171     -30.307 -23.404  23.668  1.00  0.87           C  
+ATOM   2806  CG  ASP B 171     -30.967 -24.764  23.805  1.00  0.87           C  
+ATOM   2807  OD1 ASP B 171     -30.620 -25.675  23.011  1.00  0.87           O  
+ATOM   2808  OD2 ASP B 171     -31.806 -24.895  24.729  1.00  0.87           O  
+ATOM   2809  N   TRP B 172     -31.667 -21.618  21.486  1.00  0.84           N  
+ATOM   2810  CA  TRP B 172     -32.686 -21.118  20.581  1.00  0.84           C  
+ATOM   2811  C   TRP B 172     -32.224 -21.155  19.123  1.00  0.84           C  
+ATOM   2812  O   TRP B 172     -32.894 -21.711  18.256  1.00  0.84           O  
+ATOM   2813  CB  TRP B 172     -33.053 -19.650  20.947  1.00  0.84           C  
+ATOM   2814  CG  TRP B 172     -34.072 -19.011  20.020  1.00  0.84           C  
+ATOM   2815  CD1 TRP B 172     -35.426 -19.185  20.003  1.00  0.84           C  
+ATOM   2816  CD2 TRP B 172     -33.739 -18.182  18.897  1.00  0.84           C  
+ATOM   2817  NE1 TRP B 172     -35.965 -18.522  18.927  1.00  0.84           N  
+ATOM   2818  CE2 TRP B 172     -34.962 -17.897  18.232  1.00  0.84           C  
+ATOM   2819  CE3 TRP B 172     -32.532 -17.669  18.426  1.00  0.84           C  
+ATOM   2820  CZ2 TRP B 172     -34.980 -17.087  17.113  1.00  0.84           C  
+ATOM   2821  CZ3 TRP B 172     -32.564 -16.838  17.300  1.00  0.84           C  
+ATOM   2822  CH2 TRP B 172     -33.775 -16.545  16.656  1.00  0.84           C  
+ATOM   2823  N   LEU B 173     -31.023 -20.605  18.853  1.00  0.85           N  
+ATOM   2824  CA  LEU B 173     -30.408 -20.488  17.541  1.00  0.85           C  
+ATOM   2825  C   LEU B 173     -30.160 -21.848  16.904  1.00  0.85           C  
+ATOM   2826  O   LEU B 173     -30.411 -22.071  15.716  1.00  0.85           O  
+ATOM   2827  CB  LEU B 173     -29.107 -19.657  17.740  1.00  0.85           C  
+ATOM   2828  CG  LEU B 173     -28.406 -18.993  16.534  1.00  0.85           C  
+ATOM   2829  CD1 LEU B 173     -27.108 -19.721  16.164  1.00  0.85           C  
+ATOM   2830  CD2 LEU B 173     -29.308 -18.793  15.317  1.00  0.85           C  
+ATOM   2831  N   SER B 174     -29.741 -22.830  17.714  1.00  0.79           N  
+ATOM   2832  CA  SER B 174     -29.580 -24.220  17.331  1.00  0.79           C  
+ATOM   2833  C   SER B 174     -30.852 -24.862  16.834  1.00  0.79           C  
+ATOM   2834  O   SER B 174     -30.841 -25.528  15.805  1.00  0.79           O  
+ATOM   2835  CB  SER B 174     -29.038 -25.070  18.506  1.00  0.79           C  
+ATOM   2836  OG  SER B 174     -27.828 -25.712  18.109  1.00  0.79           O  
+ATOM   2837  N   ASN B 175     -32.006 -24.660  17.508  1.00  0.79           N  
+ATOM   2838  CA  ASN B 175     -33.286 -25.151  17.012  1.00  0.79           C  
+ATOM   2839  C   ASN B 175     -33.667 -24.565  15.667  1.00  0.79           C  
+ATOM   2840  O   ASN B 175     -34.072 -25.296  14.770  1.00  0.79           O  
+ATOM   2841  CB  ASN B 175     -34.438 -24.864  18.007  1.00  0.79           C  
+ATOM   2842  CG  ASN B 175     -34.435 -25.895  19.121  1.00  0.79           C  
+ATOM   2843  OD1 ASN B 175     -34.076 -25.614  20.260  1.00  0.79           O  
+ATOM   2844  ND2 ASN B 175     -34.868 -27.136  18.806  1.00  0.79           N  
+ATOM   2845  N   GLN B 176     -33.484 -23.247  15.462  1.00  0.78           N  
+ATOM   2846  CA  GLN B 176     -33.879 -22.598  14.223  1.00  0.78           C  
+ATOM   2847  C   GLN B 176     -33.133 -23.158  13.018  1.00  0.78           C  
+ATOM   2848  O   GLN B 176     -33.695 -23.414  11.956  1.00  0.78           O  
+ATOM   2849  CB  GLN B 176     -33.684 -21.067  14.304  1.00  0.78           C  
+ATOM   2850  CG  GLN B 176     -34.193 -20.389  15.602  1.00  0.78           C  
+ATOM   2851  CD  GLN B 176     -35.572 -20.859  16.073  1.00  0.78           C  
+ATOM   2852  OE1 GLN B 176     -36.588 -20.716  15.387  1.00  0.78           O  
+ATOM   2853  NE2 GLN B 176     -35.627 -21.456  17.281  1.00  0.78           N  
+ATOM   2854  N   LEU B 177     -31.831 -23.422  13.204  1.00  0.76           N  
+ATOM   2855  CA  LEU B 177     -30.954 -23.995  12.206  1.00  0.76           C  
+ATOM   2856  C   LEU B 177     -31.116 -25.506  12.049  1.00  0.76           C  
+ATOM   2857  O   LEU B 177     -30.738 -26.085  11.029  1.00  0.76           O  
+ATOM   2858  CB  LEU B 177     -29.495 -23.699  12.622  1.00  0.76           C  
+ATOM   2859  CG  LEU B 177     -28.930 -22.291  12.312  1.00  0.76           C  
+ATOM   2860  CD1 LEU B 177     -29.918 -21.131  12.488  1.00  0.76           C  
+ATOM   2861  CD2 LEU B 177     -27.694 -22.061  13.192  1.00  0.76           C  
+ATOM   2862  N   ARG B 178     -31.700 -26.197  13.047  1.00  0.67           N  
+ATOM   2863  CA  ARG B 178     -31.925 -27.633  13.008  1.00  0.67           C  
+ATOM   2864  C   ARG B 178     -33.028 -28.022  12.049  1.00  0.67           C  
+ATOM   2865  O   ARG B 178     -33.023 -29.107  11.474  1.00  0.67           O  
+ATOM   2866  CB  ARG B 178     -32.258 -28.137  14.426  1.00  0.67           C  
+ATOM   2867  CG  ARG B 178     -32.036 -29.644  14.667  1.00  0.67           C  
+ATOM   2868  CD  ARG B 178     -31.965 -30.005  16.155  1.00  0.67           C  
+ATOM   2869  NE  ARG B 178     -30.842 -29.201  16.738  1.00  0.67           N  
+ATOM   2870  CZ  ARG B 178     -29.685 -29.671  17.214  1.00  0.67           C  
+ATOM   2871  NH1 ARG B 178     -29.411 -30.967  17.285  1.00  0.67           N  
+ATOM   2872  NH2 ARG B 178     -28.803 -28.782  17.664  1.00  0.67           N  
+ATOM   2873  N   ASN B 179     -33.975 -27.098  11.818  1.00  0.69           N  
+ATOM   2874  CA  ASN B 179     -35.072 -27.287  10.896  1.00  0.69           C  
+ATOM   2875  C   ASN B 179     -35.129 -26.125   9.911  1.00  0.69           C  
+ATOM   2876  O   ASN B 179     -36.167 -25.501   9.704  1.00  0.69           O  
+ATOM   2877  CB  ASN B 179     -36.411 -27.539  11.645  1.00  0.69           C  
+ATOM   2878  CG  ASN B 179     -36.683 -26.571  12.796  1.00  0.69           C  
+ATOM   2879  OD1 ASN B 179     -36.713 -26.963  13.965  1.00  0.69           O  
+ATOM   2880  ND2 ASN B 179     -36.931 -25.288  12.465  1.00  0.69           N  
+ATOM   2881  N   GLN B 180     -33.974 -25.808   9.291  1.00  0.54           N  
+ATOM   2882  CA  GLN B 180     -33.837 -24.716   8.337  1.00  0.54           C  
+ATOM   2883  C   GLN B 180     -34.270 -25.072   6.917  1.00  0.54           C  
+ATOM   2884  O   GLN B 180     -35.323 -24.641   6.451  1.00  0.54           O  
+ATOM   2885  CB  GLN B 180     -32.380 -24.168   8.317  1.00  0.54           C  
+ATOM   2886  CG  GLN B 180     -32.233 -22.746   8.912  1.00  0.54           C  
+ATOM   2887  CD  GLN B 180     -32.457 -21.565   7.964  1.00  0.54           C  
+ATOM   2888  OE1 GLN B 180     -31.960 -20.472   8.245  1.00  0.54           O  
+ATOM   2889  NE2 GLN B 180     -33.187 -21.750   6.846  1.00  0.54           N  
+ATOM   2890  N   LYS B 181     -33.415 -25.805   6.184  1.00  0.66           N  
+ATOM   2891  CA  LYS B 181     -33.632 -26.295   4.847  1.00  0.66           C  
+ATOM   2892  C   LYS B 181     -32.840 -27.626   4.744  1.00  0.66           C  
+ATOM   2893  O   LYS B 181     -31.973 -27.893   5.630  1.00  0.66           O  
+ATOM   2894  CB  LYS B 181     -33.117 -25.342   3.725  1.00  0.66           C  
+ATOM   2895  CG  LYS B 181     -33.823 -23.977   3.621  1.00  0.66           C  
+ATOM   2896  CD  LYS B 181     -34.038 -23.526   2.165  1.00  0.66           C  
+ATOM   2897  CE  LYS B 181     -34.726 -22.162   2.071  1.00  0.66           C  
+ATOM   2898  NZ  LYS B 181     -35.067 -21.856   0.664  1.00  0.66           N  
+ATOM   2899  OXT LYS B 181     -33.088 -28.372   3.762  1.00  0.66           O  
+TER    2900      LYS B 181                                                      
+HETATM 2901  PB  GDP _   3      -3.572  -2.551  15.491  1.00 24.31           P  
+HETATM 2902  O1B GDP _   3      -3.502  -4.088  15.696  1.00 22.93           O  
+HETATM 2903  O2B GDP _   3      -2.325  -1.879  15.899  1.00 24.73           O  
+HETATM 2904  O3B GDP _   3      -4.741  -2.069  16.317  1.00 26.63           O  
+HETATM 2905  O3A GDP _   3      -3.978  -2.138  14.040  1.00 25.26           O  
+HETATM 2906  PA  GDP _   3      -4.437  -2.526  12.628  1.00 27.27           P  
+HETATM 2907  O1A GDP _   3      -3.525  -3.403  11.866  1.00 30.11           O  
+HETATM 2908  O2A GDP _   3      -5.815  -3.228  12.795  1.00 30.45           O  
+HETATM 2909  O5' GDP _   3      -4.525  -1.213  11.808  1.00 29.82           O  
+HETATM 2910  C5' GDP _   3      -5.259  -0.073  12.178  1.00 30.75           C  
+HETATM 2911  C4' GDP _   3      -5.854   0.568  10.894  1.00 34.62           C  
+HETATM 2912  O4' GDP _   3      -4.757   1.296  10.263  1.00 35.90           O  
+HETATM 2913  C3' GDP _   3      -6.312  -0.457   9.772  1.00 35.81           C  
+HETATM 2914  O3' GDP _   3      -7.603  -0.038   9.246  1.00 41.34           O  
+HETATM 2915  C2' GDP _   3      -5.173  -0.550   8.710  1.00 33.23           C  
+HETATM 2916  O2' GDP _   3      -5.618  -1.252   7.478  1.00 28.09           O  
+HETATM 2917  C1' GDP _   3      -4.513   0.878   8.852  1.00 33.51           C  
+HETATM 2918  N9  GDP _   3      -3.011   0.751   8.571  1.00 34.49           N  
+HETATM 2919  C8  GDP _   3      -2.069  -0.133   9.045  1.00 32.19           C  
+HETATM 2920  N7  GDP _   3      -0.841   0.067   8.552  1.00 32.43           N  
+HETATM 2921  C5  GDP _   3      -1.023   1.149   7.709  1.00 31.75           C  
+HETATM 2922  C6  GDP _   3      -0.120   1.855   6.917  1.00 32.20           C  
+HETATM 2923  O6  GDP _   3       1.085   1.653   6.846  1.00 33.57           O  
+HETATM 2924  N1  GDP _   3      -0.677   2.886   6.214  1.00 30.88           N  
+HETATM 2925  C2  GDP _   3      -1.950   3.241   6.236  1.00 31.82           C  
+HETATM 2926  N2  GDP _   3      -2.361   4.337   5.484  1.00 28.31           N  
+HETATM 2927  N3  GDP _   3      -2.820   2.597   6.981  1.00 31.37           N  
+HETATM 2928  C4  GDP _   3      -2.345   1.571   7.705  1.00 31.71           C  
+HETATM 2929  PB  GDP _   4     -15.411  -6.701  20.230  1.00 21.70           P  
+HETATM 2930  O1B GDP _   4     -16.795  -6.781  19.777  1.00 17.96           O  
+HETATM 2931  O2B GDP _   4     -14.650  -7.863  19.677  1.00 20.42           O  
+HETATM 2932  O3B GDP _   4     -14.662  -5.408  19.858  1.00 20.13           O  
+HETATM 2933  O3A GDP _   4     -15.272  -6.919  21.828  1.00 19.52           O  
+HETATM 2934  PA  GDP _   4     -14.518  -7.489  23.025  1.00 22.04           P  
+HETATM 2935  O1A GDP _   4     -14.678  -8.967  23.244  1.00 21.87           O  
+HETATM 2936  O2A GDP _   4     -13.033  -7.084  23.053  1.00 25.80           O  
+HETATM 2937  O5' GDP _   4     -15.095  -6.744  24.221  1.00 24.58           O  
+HETATM 2938  C5' GDP _   4     -14.834  -5.376  24.499  1.00 24.04           C  
+HETATM 2939  C4' GDP _   4     -14.462  -5.184  26.002  1.00 27.29           C  
+HETATM 2940  O4' GDP _   4     -15.735  -5.471  26.613  1.00 27.43           O  
+HETATM 2941  C3' GDP _   4     -13.500  -6.203  26.710  1.00 28.22           C  
+HETATM 2942  O3' GDP _   4     -12.835  -5.515  27.831  1.00 29.90           O  
+HETATM 2943  C2' GDP _   4     -14.426  -7.308  27.247  1.00 26.76           C  
+HETATM 2944  O2' GDP _   4     -13.724  -7.979  28.340  1.00 26.31           O  
+HETATM 2945  C1' GDP _   4     -15.621  -6.442  27.643  1.00 25.98           C  
+HETATM 2946  N9  GDP _   4     -16.835  -7.246  27.616  1.00 25.88           N  
+HETATM 2947  C8  GDP _   4     -17.294  -8.233  26.833  1.00 25.17           C  
+HETATM 2948  N7  GDP _   4     -18.422  -8.850  27.263  1.00 25.96           N  
+HETATM 2949  C5  GDP _   4     -18.693  -8.155  28.447  1.00 30.04           C  
+HETATM 2950  C6  GDP _   4     -19.691  -8.301  29.498  1.00 30.38           C  
+HETATM 2951  O6  GDP _   4     -20.641  -9.090  29.553  1.00 31.53           O  
+HETATM 2952  N1  GDP _   4     -19.482  -7.389  30.544  1.00 30.93           N  
+HETATM 2953  C2  GDP _   4     -18.489  -6.453  30.612  1.00 31.28           C  
+HETATM 2954  N2  GDP _   4     -18.331  -5.587  31.665  1.00 29.37           N  
+HETATM 2955  N3  GDP _   4     -17.581  -6.318  29.654  1.00 30.49           N  
+HETATM 2956  C4  GDP _   4     -17.694  -7.159  28.617  1.00 27.66           C  
+CONECT 2901 2902 2903 2904 2905
+CONECT 2902 2901
+CONECT 2903 2901
+CONECT 2904 2901
+CONECT 2905 2901 2906
+CONECT 2906 2905 2907 2908 2909
+CONECT 2907 2906
+CONECT 2908 2906
+CONECT 2909 2906 2910
+CONECT 2910 2909 2911
+CONECT 2911 2910 2912 2913
+CONECT 2912 2911 2917
+CONECT 2913 2911 2914 2915
+CONECT 2914 2913
+CONECT 2915 2913 2916 2917
+CONECT 2916 2915
+CONECT 2917 2912 2915 2918
+CONECT 2918 2917 2919 2928
+CONECT 2919 2918 2920
+CONECT 2920 2919 2921
+CONECT 2921 2920 2922 2928
+CONECT 2922 2921 2923 2924
+CONECT 2923 2922
+CONECT 2924 2922 2925
+CONECT 2925 2924 2926 2927
+CONECT 2926 2925
+CONECT 2927 2925 2928
+CONECT 2928 2918 2921 2927
+CONECT 2929 2930 2931 2932 2933
+CONECT 2930 2929
+CONECT 2931 2929
+CONECT 2932 2929
+CONECT 2933 2929 2934
+CONECT 2934 2933 2935 2936 2937
+CONECT 2935 2934
+CONECT 2936 2934
+CONECT 2937 2934 2938
+CONECT 2938 2937 2939
+CONECT 2939 2938 2940 2941
+CONECT 2940 2939 2945
+CONECT 2941 2939 2942 2943
+CONECT 2942 2941
+CONECT 2943 2941 2944 2945
+CONECT 2944 2943
+CONECT 2945 2940 2943 2946
+CONECT 2946 2945 2947 2956
+CONECT 2947 2946 2948
+CONECT 2948 2947 2949
+CONECT 2949 2948 2950 2956
+CONECT 2950 2949 2951 2952
+CONECT 2951 2950
+CONECT 2952 2950 2953
+CONECT 2953 2952 2954 2955
+CONECT 2954 2953
+CONECT 2955 2953 2956
+CONECT 2956 2946 2949 2955
+END   
diff --git a/modules/mol/alg/tests/testfiles/P84080_model_02.pdb b/modules/mol/alg/tests/testfiles/P84080_model_02.pdb
new file mode 100644
index 000000000..85e3eed00
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/P84080_model_02.pdb
@@ -0,0 +1,1670 @@
+TITLE     SWISS-MODEL SERVER (https://swissmodel.expasy.org)
+TITLE    2 ARF1_BOVIN P84080 ADP-ribosylation factor 1
+EXPDTA    THEORETICAL MODEL (SWISS-MODEL SERVER)
+AUTHOR    SWISS-MODEL SERVER (SEE REFERENCE IN JRNL Records)
+REVDAT   1   23-DEC-22 1MOD    1       13:16
+JRNL        AUTH   A.WATERHOUSE,M.BERTONI,S.BIENERT,G.STUDER,G.TAURIELLO,
+JRNL        AUTH 2 R.GUMIENNY,F.T.HEER,T.A.P.DE BEER,C.REMPFER,L.BORDOLI,
+JRNL        AUTH 3 R.LEPORE,T.SCHWEDE
+JRNL        TITL   SWISS-MODEL: HOMOLOGY MODELLING OF PROTEIN STRUCTURES AND
+JRNL        TITL 2 COMPLEXES
+JRNL        REF    NUCLEIC.ACIDS.RES..           V.  46 W296  2018
+JRNL        PMID   29788355
+JRNL        DOI    10.1093/nar/gky427
+REMARK   1
+REMARK   1 REFERENCE 1
+REMARK   1  AUTH   S.BIENERT,A.WATERHOUSE,T.A.P.DE BEER,G.TAURIELLO,G.STUDER,
+REMARK   1  AUTH 2 L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   THE SWISS-MODEL REPOSITORY - NEW FEATURES AND FUNCTIONALITY
+REMARK   1  REF    NUCLEIC.ACIDS.RES..           V.  45       2017
+REMARK   1  REFN                   ISSN 0305-1048
+REMARK   1  PMID   27899672
+REMARK   1  DOI    10.1093/nar/gkw1132
+REMARK   1
+REMARK   1 REFERENCE 2
+REMARK   1  AUTH   N.GUEX,M.C.PEITSCH,T.SCHWEDE
+REMARK   1  TITL   AUTOMATED COMPARATIVE PROTEIN STRUCTURE MODELING WITH
+REMARK   1  TITL 2 SWISS-MODEL AND SWISS-PDBVIEWER: A HISTORICAL PERSPECTIVE
+REMARK   1  REF    ELECTROPHORESIS               V.  30       2009
+REMARK   1  REFN                   ISSN 0173-0835
+REMARK   1  PMID   19517507
+REMARK   1  DOI    10.1002/elps.200900140
+REMARK   1
+REMARK   1 REFERENCE 3
+REMARK   1  AUTH   G.STUDER,G.TAURIELLO,S.BIENERT,M.BIASINI,N.JOHNER,T.SCHWEDE
+REMARK   1  TITL   PROMOD3 - A VERSATILE HOMOLOGY MODELLING TOOLBOX
+REMARK   1  REF    PLOS COMP. BIOL.              V.  17       2021
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   33507980
+REMARK   1  DOI    https://doi.org/10.1371/journal.pcbi.1008667
+REMARK   1
+REMARK   1 REFERENCE 4
+REMARK   1  AUTH   G.STUDER,C.REMPFER,A.WATERHOUSE,R.GUMIENNY,J.HAAS,T.SCHWEDE
+REMARK   1  TITL   QMEANDISCO - DISTANCE CONSTRAINTS APPLIED ON MODEL QUALITY 
+REMARK   1  TITL 2 ESTIMATION
+REMARK   1  REF    BIOINFORMATICS                V.  36       2020
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   31697312
+REMARK   1  DOI    https://doi.org/10.1093/bioinformatics/btz828
+REMARK   1
+REMARK   1 REFERENCE 5
+REMARK   1  AUTH   P.BENKERT,M.BIASINI,T.SCHWEDE
+REMARK   1  TITL   TOWARD THE ESTIMATION OF THE ABSOLUTE QUALITY OF INDIVIDUAL
+REMARK   1  TITL 2 PROTEIN STRUCTURE MODELS
+REMARK   1  REF    BIOINFORMATICS                V.  27       2011
+REMARK   1  REFN                   ISSN 1367-4803
+REMARK   1  PMID   21134891
+REMARK   1  DOI    10.1093/bioinformatics/btq662
+REMARK   1
+REMARK   1 REFERENCE 6
+REMARK   1  AUTH   M.BERTONI,F.KIEFER,M.BIASINI,L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   MODELING PROTEIN QUATERNARY STRUCTURE OF HOMO- AND
+REMARK   1  TITL 2 HETERO-OLIGOMERS BEYOND BINARY INTERACTIONS BY HOMOLOGY
+REMARK   1  REF    SCI.REP.                      V.   7       2017
+REMARK   1  REFN                   ISSN
+REMARK   1  PMID   28874689
+REMARK   1  DOI    10.1038/s41598-017-09654-8
+REMARK   1
+REMARK   1 DISCLAIMER
+REMARK   1 The SWISS-MODEL SERVER produces theoretical models for proteins.
+REMARK   1 The results of any theoretical modelling procedure is
+REMARK   1 NON-EXPERIMENTAL and MUST be considered with care. These models may
+REMARK   1 contain significant errors. This is especially true for automated
+REMARK   1 modeling since there is no human intervention during model
+REMARK   1 building. Please read the header section and the logfile carefully
+REMARK   1 to know what templates and alignments were used during the model
+REMARK   1 building process. All information by the SWISS-MODEL SERVER is
+REMARK   1 provided "AS-IS", without any warranty, expressed or implied.
+REMARK   2
+REMARK   2 COPYRIGHT NOTICE
+REMARK   2 This SWISS-MODEL protein model is copyright. It is produced by the
+REMARK   2 SWISS-MODEL server, developed by the Computational Structural
+REMARK   2 Biology Group at the SIB Swiss Institute of Bioinformatics at the
+REMARK   2 Biozentrum, University of Basel (https://swissmodel.expasy.org). This
+REMARK   2 model is licensed under the CC BY-SA 4.0 Creative Commons
+REMARK   2 Attribution-ShareAlike 4.0 International License
+REMARK   2 (https://creativecommons.org/licenses/by-sa/4.0/legalcode), i.e. you
+REMARK   2 can copy and redistribute the model in any medium or format,
+REMARK   2 transform and build upon the model for any purpose, even
+REMARK   2 commercially, under the following terms:
+REMARK   2 Attribution - You must give appropriate credit, provide a link to
+REMARK   2 the license, and indicate if changes were made. You may do so in any
+REMARK   2 reasonable manner, but not in any way that suggests the licensor
+REMARK   2 endorses you or your use. When you publish, patent or distribute
+REMARK   2 results that were fully or partially based on the model, please cite
+REMARK   2 the corresponding papers mentioned under JRNL.
+REMARK   2 ShareAlike - If you remix, transform, or build upon the material,
+REMARK   2 you must distribute your contributions under the same license as the
+REMARK   2 original.
+REMARK   2 No additional restrictions - you may not apply legal terms or
+REMARK   2 technological measures that legally restrict others from doing
+REMARK   2 anything the license permits.
+REMARK   2 Find a human-readable summary of (and not a substitute for) the
+REMARK   2 CC BY-SA 4.0 license at this link:
+REMARK   2 https://creativecommons.org/licenses/by-sa/4.0/
+REMARK   3 
+REMARK   3 MODEL INFORMATION
+REMARK   3  ENGIN   PROMOD3
+REMARK   3  VERSN   3.2.1
+REMARK   3  OSTAT   monomer
+REMARK   3  OSRSN   MONOMER (USER)
+REMARK   3  QSPRD   0.000
+REMARK   3  GMQE    0.77
+REMARK   3  QMNV    4.3.0
+REMARK   3  QMNDG   0.75
+REMARK   3  MODT    FALSE
+REMARK   3 
+REMARK   3 MODEL LIGAND 1
+REMARK   3  NAME    G3D
+REMARK   3  BIND    A.25
+REMARK   3  BIND 2  A.26
+REMARK   3  BIND 3  A.27
+REMARK   3  BIND 4  A.28
+REMARK   3  BIND 5  A.29
+REMARK   3  BIND 6  A.30
+REMARK   3  BIND 7  A.31
+REMARK   3  BIND 8  A.32
+REMARK   3  BIND 9  A.126
+REMARK   3  BIND 10  A.127
+REMARK   3  BIND 11  A.129
+REMARK   3  BIND 12  A.130
+REMARK   3  BIND 13  A.159
+REMARK   3  BIND 14  A.160
+REMARK   3  BIND 15  A.161
+REMARK   3  BIND 16  _.2
+REMARK   3 
+REMARK   3 TEMPLATE 1
+REMARK   3  PDBID   1r8q
+REMARK   3  CHAIN   A
+REMARK   3  MMCIF   A
+REMARK   3  PDBV    2022-12-09
+REMARK   3  SMTLE   1r8q.3.A
+REMARK   3  SMTLV   2022-12-14
+REMARK   3  MTHD    X-RAY DIFFRACTION 1.86 A
+REMARK   3  FOUND   BLAST
+REMARK   3  GMQE    0.77
+REMARK   3  SIM     0.61
+REMARK   3  SID     100.00
+REMARK   3  OSTAT   monomer
+REMARK   3  LIGND   MG
+REMARK   3  LIGND 2 MG
+REMARK   3  LIGND 3 G3D
+REMARK   3  LIGND 4 G3D
+REMARK   3  LIGND 5 AFB
+REMARK   3  LIGND 6 AFB
+REMARK   3  LIGND 7 ZN
+REMARK   3  ALN A TRG MGNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TRG KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TRG RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TRG NQLRNQK
+REMARK   3  ALN A TPL MGNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TPL KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TPL RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TPL NQLRNQK
+REMARK   3  ALN A OFF 0
+ATOM      1  N   GLY A   2     -19.171  20.618  44.104  1.00  0.45           N  
+ATOM      2  CA  GLY A   2     -18.959  20.699  42.613  1.00  0.45           C  
+ATOM      3  C   GLY A   2     -17.546  21.158  42.419  1.00  0.45           C  
+ATOM      4  O   GLY A   2     -17.189  22.178  43.012  1.00  0.45           O  
+ATOM      5  N   ASN A   3     -16.687  20.417  41.698  1.00  0.72           N  
+ATOM      6  CA  ASN A   3     -15.251  20.660  41.628  1.00  0.72           C  
+ATOM      7  C   ASN A   3     -14.849  22.052  41.101  1.00  0.72           C  
+ATOM      8  O   ASN A   3     -14.992  22.339  39.914  1.00  0.72           O  
+ATOM      9  CB  ASN A   3     -14.587  19.493  40.820  1.00  0.72           C  
+ATOM     10  CG  ASN A   3     -13.064  19.418  40.982  1.00  0.72           C  
+ATOM     11  OD1 ASN A   3     -12.394  20.452  40.953  1.00  0.72           O  
+ATOM     12  ND2 ASN A   3     -12.498  18.199  41.136  1.00  0.72           N  
+ATOM     13  N   ILE A   4     -14.299  22.926  41.988  1.00  0.78           N  
+ATOM     14  CA  ILE A   4     -13.880  24.297  41.699  1.00  0.78           C  
+ATOM     15  C   ILE A   4     -12.891  24.349  40.548  1.00  0.78           C  
+ATOM     16  O   ILE A   4     -13.038  25.140  39.609  1.00  0.78           O  
+ATOM     17  CB  ILE A   4     -13.240  25.000  42.924  1.00  0.78           C  
+ATOM     18  CG1 ILE A   4     -12.445  24.078  43.891  1.00  0.78           C  
+ATOM     19  CG2 ILE A   4     -14.283  25.870  43.671  1.00  0.78           C  
+ATOM     20  CD1 ILE A   4     -11.193  24.786  44.436  1.00  0.78           C  
+ATOM     21  N   PHE A   5     -11.885  23.471  40.567  1.00  0.76           N  
+ATOM     22  CA  PHE A   5     -10.824  23.415  39.592  1.00  0.76           C  
+ATOM     23  C   PHE A   5     -11.299  22.967  38.224  1.00  0.76           C  
+ATOM     24  O   PHE A   5     -10.870  23.510  37.209  1.00  0.76           O  
+ATOM     25  CB  PHE A   5      -9.714  22.446  40.042  1.00  0.76           C  
+ATOM     26  CG  PHE A   5      -9.166  22.767  41.400  1.00  0.76           C  
+ATOM     27  CD1 PHE A   5      -8.497  23.976  41.632  1.00  0.76           C  
+ATOM     28  CD2 PHE A   5      -9.298  21.852  42.459  1.00  0.76           C  
+ATOM     29  CE1 PHE A   5      -7.957  24.263  42.890  1.00  0.76           C  
+ATOM     30  CE2 PHE A   5      -8.783  22.151  43.726  1.00  0.76           C  
+ATOM     31  CZ  PHE A   5      -8.099  23.352  43.939  1.00  0.76           C  
+ATOM     32  N   ALA A   6     -12.210  21.972  38.151  1.00  0.72           N  
+ATOM     33  CA  ALA A   6     -12.835  21.551  36.910  1.00  0.72           C  
+ATOM     34  C   ALA A   6     -13.679  22.645  36.290  1.00  0.72           C  
+ATOM     35  O   ALA A   6     -13.636  22.878  35.082  1.00  0.72           O  
+ATOM     36  CB  ALA A   6     -13.696  20.290  37.105  1.00  0.72           C  
+ATOM     37  N   ASN A   7     -14.412  23.398  37.138  1.00  0.70           N  
+ATOM     38  CA  ASN A   7     -15.203  24.540  36.721  1.00  0.70           C  
+ATOM     39  C   ASN A   7     -14.376  25.607  35.999  1.00  0.70           C  
+ATOM     40  O   ASN A   7     -14.873  26.242  35.075  1.00  0.70           O  
+ATOM     41  CB  ASN A   7     -16.029  25.141  37.889  1.00  0.70           C  
+ATOM     42  CG  ASN A   7     -17.075  24.133  38.356  1.00  0.70           C  
+ATOM     43  OD1 ASN A   7     -17.539  23.268  37.612  1.00  0.70           O  
+ATOM     44  ND2 ASN A   7     -17.520  24.263  39.625  1.00  0.70           N  
+ATOM     45  N   LEU A   8     -13.080  25.806  36.315  1.00  0.73           N  
+ATOM     46  CA  LEU A   8     -12.203  26.708  35.576  1.00  0.73           C  
+ATOM     47  C   LEU A   8     -12.116  26.436  34.078  1.00  0.73           C  
+ATOM     48  O   LEU A   8     -11.981  27.356  33.272  1.00  0.73           O  
+ATOM     49  CB  LEU A   8     -10.767  26.686  36.142  1.00  0.73           C  
+ATOM     50  CG  LEU A   8     -10.605  27.382  37.502  1.00  0.73           C  
+ATOM     51  CD1 LEU A   8      -9.180  27.139  38.014  1.00  0.73           C  
+ATOM     52  CD2 LEU A   8     -10.868  28.889  37.360  1.00  0.73           C  
+ATOM     53  N   PHE A   9     -12.227  25.164  33.667  1.00  0.71           N  
+ATOM     54  CA  PHE A   9     -12.030  24.733  32.304  1.00  0.71           C  
+ATOM     55  C   PHE A   9     -13.370  24.446  31.639  1.00  0.71           C  
+ATOM     56  O   PHE A   9     -13.422  23.851  30.564  1.00  0.71           O  
+ATOM     57  CB  PHE A   9     -11.159  23.454  32.280  1.00  0.71           C  
+ATOM     58  CG  PHE A   9      -9.824  23.710  32.935  1.00  0.71           C  
+ATOM     59  CD1 PHE A   9      -8.772  24.286  32.209  1.00  0.71           C  
+ATOM     60  CD2 PHE A   9      -9.619  23.422  34.293  1.00  0.71           C  
+ATOM     61  CE1 PHE A   9      -7.544  24.559  32.826  1.00  0.71           C  
+ATOM     62  CE2 PHE A   9      -8.413  23.746  34.927  1.00  0.71           C  
+ATOM     63  CZ  PHE A   9      -7.365  24.294  34.185  1.00  0.71           C  
+ATOM     64  N   LYS A  10     -14.500  24.890  32.245  1.00  0.69           N  
+ATOM     65  CA  LYS A  10     -15.853  24.544  31.819  1.00  0.69           C  
+ATOM     66  C   LYS A  10     -16.170  24.857  30.348  1.00  0.69           C  
+ATOM     67  O   LYS A  10     -16.810  24.079  29.643  1.00  0.69           O  
+ATOM     68  CB  LYS A  10     -16.924  25.186  32.771  1.00  0.69           C  
+ATOM     69  CG  LYS A  10     -17.132  26.711  32.613  1.00  0.69           C  
+ATOM     70  CD  LYS A  10     -18.022  27.407  33.671  1.00  0.69           C  
+ATOM     71  CE  LYS A  10     -17.213  27.956  34.855  1.00  0.69           C  
+ATOM     72  NZ  LYS A  10     -17.933  28.988  35.637  1.00  0.69           N  
+ATOM     73  N   GLY A  11     -15.689  26.015  29.847  1.00  0.60           N  
+ATOM     74  CA  GLY A  11     -15.869  26.486  28.482  1.00  0.60           C  
+ATOM     75  C   GLY A  11     -14.565  26.579  27.765  1.00  0.60           C  
+ATOM     76  O   GLY A  11     -14.047  27.671  27.543  1.00  0.60           O  
+ATOM     77  N   LEU A  12     -14.003  25.425  27.367  1.00  0.63           N  
+ATOM     78  CA  LEU A  12     -12.897  25.407  26.433  1.00  0.63           C  
+ATOM     79  C   LEU A  12     -13.359  25.493  24.979  1.00  0.63           C  
+ATOM     80  O   LEU A  12     -12.871  26.370  24.273  1.00  0.63           O  
+ATOM     81  CB  LEU A  12     -11.995  24.184  26.706  1.00  0.63           C  
+ATOM     82  CG  LEU A  12     -10.973  24.441  27.833  1.00  0.63           C  
+ATOM     83  CD1 LEU A  12     -10.435  23.100  28.362  1.00  0.63           C  
+ATOM     84  CD2 LEU A  12      -9.870  25.398  27.341  1.00  0.63           C  
+ATOM     85  N   PHE A  13     -14.308  24.606  24.552  1.00  0.45           N  
+ATOM     86  CA  PHE A  13     -15.155  24.661  23.339  1.00  0.45           C  
+ATOM     87  C   PHE A  13     -15.590  23.232  22.915  1.00  0.45           C  
+ATOM     88  O   PHE A  13     -15.995  22.987  21.774  1.00  0.45           O  
+ATOM     89  CB  PHE A  13     -14.574  25.579  22.182  1.00  0.45           C  
+ATOM     90  CG  PHE A  13     -15.168  25.464  20.796  1.00  0.45           C  
+ATOM     91  CD1 PHE A  13     -14.417  24.879  19.763  1.00  0.45           C  
+ATOM     92  CD2 PHE A  13     -16.495  25.832  20.528  1.00  0.45           C  
+ATOM     93  CE1 PHE A  13     -14.984  24.620  18.513  1.00  0.45           C  
+ATOM     94  CE2 PHE A  13     -17.070  25.574  19.275  1.00  0.45           C  
+ATOM     95  CZ  PHE A  13     -16.314  24.964  18.268  1.00  0.45           C  
+ATOM     96  N   GLY A  14     -15.542  22.175  23.768  1.00  0.66           N  
+ATOM     97  CA  GLY A  14     -15.539  20.797  23.232  1.00  0.66           C  
+ATOM     98  C   GLY A  14     -14.318  20.501  22.385  1.00  0.66           C  
+ATOM     99  O   GLY A  14     -14.383  19.706  21.459  1.00  0.66           O  
+ATOM    100  N   LYS A  15     -13.193  21.203  22.650  1.00  0.54           N  
+ATOM    101  CA  LYS A  15     -12.402  21.824  21.594  1.00  0.54           C  
+ATOM    102  C   LYS A  15     -11.497  20.863  20.829  1.00  0.54           C  
+ATOM    103  O   LYS A  15     -11.047  21.132  19.711  1.00  0.54           O  
+ATOM    104  CB  LYS A  15     -11.493  22.890  22.284  1.00  0.54           C  
+ATOM    105  CG  LYS A  15     -10.957  23.996  21.349  1.00  0.54           C  
+ATOM    106  CD  LYS A  15      -9.833  24.901  21.902  1.00  0.54           C  
+ATOM    107  CE  LYS A  15      -9.978  26.391  21.515  1.00  0.54           C  
+ATOM    108  NZ  LYS A  15      -8.675  26.960  21.142  1.00  0.54           N  
+ATOM    109  N   LYS A  16     -11.216  19.749  21.515  1.00  0.62           N  
+ATOM    110  CA  LYS A  16     -10.204  18.729  21.357  1.00  0.62           C  
+ATOM    111  C   LYS A  16      -9.841  18.395  22.789  1.00  0.62           C  
+ATOM    112  O   LYS A  16      -9.925  19.271  23.651  1.00  0.62           O  
+ATOM    113  CB  LYS A  16      -8.907  19.172  20.607  1.00  0.62           C  
+ATOM    114  CG  LYS A  16      -8.088  20.260  21.328  1.00  0.62           C  
+ATOM    115  CD  LYS A  16      -7.047  20.963  20.444  1.00  0.62           C  
+ATOM    116  CE  LYS A  16      -5.760  21.258  21.222  1.00  0.62           C  
+ATOM    117  NZ  LYS A  16      -5.142  22.529  20.783  1.00  0.62           N  
+ATOM    118  N   GLU A  17      -9.447  17.149  23.109  1.00  0.61           N  
+ATOM    119  CA  GLU A  17      -8.869  16.829  24.405  1.00  0.61           C  
+ATOM    120  C   GLU A  17      -7.582  17.593  24.676  1.00  0.61           C  
+ATOM    121  O   GLU A  17      -6.721  17.703  23.799  1.00  0.61           O  
+ATOM    122  CB  GLU A  17      -8.532  15.319  24.535  1.00  0.61           C  
+ATOM    123  CG  GLU A  17      -9.134  14.656  25.795  1.00  0.61           C  
+ATOM    124  CD  GLU A  17     -10.591  14.247  25.591  1.00  0.61           C  
+ATOM    125  OE1 GLU A  17     -11.447  15.161  25.454  1.00  0.61           O  
+ATOM    126  OE2 GLU A  17     -10.855  13.018  25.610  1.00  0.61           O  
+ATOM    127  N   MET A  18      -7.391  18.114  25.897  1.00  0.67           N  
+ATOM    128  CA  MET A  18      -6.160  18.775  26.247  1.00  0.67           C  
+ATOM    129  C   MET A  18      -5.431  18.085  27.363  1.00  0.67           C  
+ATOM    130  O   MET A  18      -5.988  17.572  28.330  1.00  0.67           O  
+ATOM    131  CB  MET A  18      -6.348  20.267  26.555  1.00  0.67           C  
+ATOM    132  CG  MET A  18      -6.691  21.076  25.290  1.00  0.67           C  
+ATOM    133  SD  MET A  18      -6.244  22.824  25.397  1.00  0.67           S  
+ATOM    134  CE  MET A  18      -7.508  23.028  26.663  1.00  0.67           C  
+ATOM    135  N   ARG A  19      -4.108  18.031  27.209  1.00  0.71           N  
+ATOM    136  CA  ARG A  19      -3.264  17.250  28.063  1.00  0.71           C  
+ATOM    137  C   ARG A  19      -2.241  18.154  28.684  1.00  0.71           C  
+ATOM    138  O   ARG A  19      -1.520  18.902  28.010  1.00  0.71           O  
+ATOM    139  CB  ARG A  19      -2.573  16.137  27.252  1.00  0.71           C  
+ATOM    140  CG  ARG A  19      -3.570  15.177  26.558  1.00  0.71           C  
+ATOM    141  CD  ARG A  19      -2.952  14.091  25.664  1.00  0.71           C  
+ATOM    142  NE  ARG A  19      -1.955  13.319  26.488  1.00  0.71           N  
+ATOM    143  CZ  ARG A  19      -0.621  13.426  26.363  1.00  0.71           C  
+ATOM    144  NH1 ARG A  19      -0.035  14.293  25.556  1.00  0.71           N  
+ATOM    145  NH2 ARG A  19       0.194  12.681  27.110  1.00  0.71           N  
+ATOM    146  N   ILE A  20      -2.172  18.089  30.014  1.00  0.82           N  
+ATOM    147  CA  ILE A  20      -1.222  18.816  30.803  1.00  0.82           C  
+ATOM    148  C   ILE A  20      -0.343  17.796  31.477  1.00  0.82           C  
+ATOM    149  O   ILE A  20      -0.807  16.824  32.077  1.00  0.82           O  
+ATOM    150  CB  ILE A  20      -1.913  19.681  31.843  1.00  0.82           C  
+ATOM    151  CG1 ILE A  20      -3.036  20.548  31.224  1.00  0.82           C  
+ATOM    152  CG2 ILE A  20      -0.876  20.521  32.615  1.00  0.82           C  
+ATOM    153  CD1 ILE A  20      -2.579  21.561  30.173  1.00  0.82           C  
+ATOM    154  N   LEU A  21       0.977  17.983  31.386  1.00  0.84           N  
+ATOM    155  CA  LEU A  21       1.907  17.132  32.088  1.00  0.84           C  
+ATOM    156  C   LEU A  21       2.417  17.862  33.302  1.00  0.84           C  
+ATOM    157  O   LEU A  21       2.666  19.064  33.274  1.00  0.84           O  
+ATOM    158  CB  LEU A  21       3.070  16.642  31.192  1.00  0.84           C  
+ATOM    159  CG  LEU A  21       2.661  15.660  30.071  1.00  0.84           C  
+ATOM    160  CD1 LEU A  21       3.923  15.168  29.352  1.00  0.84           C  
+ATOM    161  CD2 LEU A  21       1.865  14.460  30.610  1.00  0.84           C  
+ATOM    162  N   MET A  22       2.563  17.148  34.425  1.00  0.85           N  
+ATOM    163  CA  MET A  22       3.101  17.716  35.632  1.00  0.85           C  
+ATOM    164  C   MET A  22       4.389  17.015  35.944  1.00  0.85           C  
+ATOM    165  O   MET A  22       4.461  15.790  36.023  1.00  0.85           O  
+ATOM    166  CB  MET A  22       2.143  17.571  36.822  1.00  0.85           C  
+ATOM    167  CG  MET A  22       2.708  18.109  38.148  1.00  0.85           C  
+ATOM    168  SD  MET A  22       1.570  17.892  39.543  1.00  0.85           S  
+ATOM    169  CE  MET A  22       0.499  19.269  39.078  1.00  0.85           C  
+ATOM    170  N   VAL A  23       5.460  17.789  36.128  1.00  0.87           N  
+ATOM    171  CA  VAL A  23       6.781  17.256  36.323  1.00  0.87           C  
+ATOM    172  C   VAL A  23       7.402  17.982  37.486  1.00  0.87           C  
+ATOM    173  O   VAL A  23       6.893  18.998  37.966  1.00  0.87           O  
+ATOM    174  CB  VAL A  23       7.660  17.374  35.075  1.00  0.87           C  
+ATOM    175  CG1 VAL A  23       6.884  16.884  33.843  1.00  0.87           C  
+ATOM    176  CG2 VAL A  23       8.131  18.815  34.828  1.00  0.87           C  
+ATOM    177  N   GLY A  24       8.512  17.461  38.027  1.00  0.91           N  
+ATOM    178  CA  GLY A  24       9.156  18.102  39.154  1.00  0.91           C  
+ATOM    179  C   GLY A  24       9.888  17.036  39.887  1.00  0.91           C  
+ATOM    180  O   GLY A  24       9.475  15.875  39.848  1.00  0.91           O  
+ATOM    181  N   LEU A  25      10.989  17.365  40.574  1.00  0.86           N  
+ATOM    182  CA  LEU A  25      11.760  16.418  41.367  1.00  0.86           C  
+ATOM    183  C   LEU A  25      10.946  15.614  42.394  1.00  0.86           C  
+ATOM    184  O   LEU A  25       9.823  15.979  42.775  1.00  0.86           O  
+ATOM    185  CB  LEU A  25      12.965  17.101  42.067  1.00  0.86           C  
+ATOM    186  CG  LEU A  25      13.900  17.936  41.164  1.00  0.86           C  
+ATOM    187  CD1 LEU A  25      15.037  18.513  42.022  1.00  0.86           C  
+ATOM    188  CD2 LEU A  25      14.492  17.125  39.999  1.00  0.86           C  
+ATOM    189  N   ASP A  26      11.479  14.477  42.886  1.00  0.79           N  
+ATOM    190  CA  ASP A  26      10.978  13.816  44.079  1.00  0.79           C  
+ATOM    191  C   ASP A  26      10.839  14.740  45.261  1.00  0.79           C  
+ATOM    192  O   ASP A  26      11.723  15.548  45.551  1.00  0.79           O  
+ATOM    193  CB  ASP A  26      11.882  12.643  44.495  1.00  0.79           C  
+ATOM    194  CG  ASP A  26      11.756  11.579  43.430  1.00  0.79           C  
+ATOM    195  OD1 ASP A  26      10.654  11.513  42.826  1.00  0.79           O  
+ATOM    196  OD2 ASP A  26      12.766  10.880  43.198  1.00  0.79           O  
+ATOM    197  N   ALA A  27       9.660  14.650  45.905  1.00  0.85           N  
+ATOM    198  CA  ALA A  27       9.284  15.420  47.068  1.00  0.85           C  
+ATOM    199  C   ALA A  27       8.873  16.878  46.795  1.00  0.85           C  
+ATOM    200  O   ALA A  27       8.555  17.608  47.738  1.00  0.85           O  
+ATOM    201  CB  ALA A  27      10.344  15.308  48.184  1.00  0.85           C  
+ATOM    202  N   ALA A  28       8.759  17.328  45.517  1.00  0.91           N  
+ATOM    203  CA  ALA A  28       8.296  18.667  45.149  1.00  0.91           C  
+ATOM    204  C   ALA A  28       6.856  18.987  45.551  1.00  0.91           C  
+ATOM    205  O   ALA A  28       6.510  20.134  45.819  1.00  0.91           O  
+ATOM    206  CB  ALA A  28       8.523  18.946  43.642  1.00  0.91           C  
+ATOM    207  N   GLY A  29       5.988  17.953  45.639  1.00  0.90           N  
+ATOM    208  CA  GLY A  29       4.578  18.084  46.015  1.00  0.90           C  
+ATOM    209  C   GLY A  29       3.574  17.732  44.945  1.00  0.90           C  
+ATOM    210  O   GLY A  29       2.409  18.078  45.066  1.00  0.90           O  
+ATOM    211  N   LYS A  30       3.982  17.023  43.873  1.00  0.82           N  
+ATOM    212  CA  LYS A  30       3.114  16.673  42.753  1.00  0.82           C  
+ATOM    213  C   LYS A  30       1.898  15.800  43.095  1.00  0.82           C  
+ATOM    214  O   LYS A  30       0.768  16.135  42.748  1.00  0.82           O  
+ATOM    215  CB  LYS A  30       3.936  15.865  41.723  1.00  0.82           C  
+ATOM    216  CG  LYS A  30       5.158  16.599  41.157  1.00  0.82           C  
+ATOM    217  CD  LYS A  30       5.925  15.781  40.097  1.00  0.82           C  
+ATOM    218  CE  LYS A  30       6.541  14.425  40.503  1.00  0.82           C  
+ATOM    219  NZ  LYS A  30       7.691  14.602  41.411  1.00  0.82           N  
+ATOM    220  N   THR A  31       2.146  14.698  43.856  1.00  0.77           N  
+ATOM    221  CA  THR A  31       1.172  13.750  44.430  1.00  0.77           C  
+ATOM    222  C   THR A  31       0.147  14.471  45.290  1.00  0.77           C  
+ATOM    223  O   THR A  31      -1.060  14.272  45.200  1.00  0.77           O  
+ATOM    224  CB  THR A  31       1.839  12.775  45.400  1.00  0.77           C  
+ATOM    225  OG1 THR A  31       2.849  11.971  44.764  1.00  0.77           O  
+ATOM    226  CG2 THR A  31       0.883  11.691  45.878  1.00  0.77           C  
+ATOM    227  N   THR A  32       0.639  15.393  46.149  1.00  0.80           N  
+ATOM    228  CA  THR A  32      -0.148  16.256  47.029  1.00  0.80           C  
+ATOM    229  C   THR A  32      -1.069  17.204  46.290  1.00  0.80           C  
+ATOM    230  O   THR A  32      -2.229  17.381  46.673  1.00  0.80           O  
+ATOM    231  CB  THR A  32       0.728  17.116  47.937  1.00  0.80           C  
+ATOM    232  OG1 THR A  32       1.645  16.299  48.649  1.00  0.80           O  
+ATOM    233  CG2 THR A  32      -0.089  17.893  48.985  1.00  0.80           C  
+ATOM    234  N   ILE A  33      -0.590  17.838  45.196  1.00  0.84           N  
+ATOM    235  CA  ILE A  33      -1.388  18.698  44.324  1.00  0.84           C  
+ATOM    236  C   ILE A  33      -2.512  17.908  43.672  1.00  0.84           C  
+ATOM    237  O   ILE A  33      -3.671  18.320  43.685  1.00  0.84           O  
+ATOM    238  CB  ILE A  33      -0.528  19.390  43.264  1.00  0.84           C  
+ATOM    239  CG1 ILE A  33       0.403  20.414  43.950  1.00  0.84           C  
+ATOM    240  CG2 ILE A  33      -1.395  20.085  42.184  1.00  0.84           C  
+ATOM    241  CD1 ILE A  33       1.506  20.972  43.046  1.00  0.84           C  
+ATOM    242  N   LEU A  34      -2.206  16.703  43.147  1.00  0.77           N  
+ATOM    243  CA  LEU A  34      -3.178  15.809  42.542  1.00  0.77           C  
+ATOM    244  C   LEU A  34      -4.270  15.375  43.498  1.00  0.77           C  
+ATOM    245  O   LEU A  34      -5.439  15.324  43.124  1.00  0.77           O  
+ATOM    246  CB  LEU A  34      -2.522  14.556  41.926  1.00  0.77           C  
+ATOM    247  CG  LEU A  34      -1.751  14.742  40.596  1.00  0.77           C  
+ATOM    248  CD1 LEU A  34      -2.212  13.625  39.650  1.00  0.77           C  
+ATOM    249  CD2 LEU A  34      -1.896  16.104  39.892  1.00  0.77           C  
+ATOM    250  N   TYR A  35      -3.942  15.097  44.773  1.00  0.72           N  
+ATOM    251  CA  TYR A  35      -4.943  14.848  45.800  1.00  0.72           C  
+ATOM    252  C   TYR A  35      -5.945  15.986  45.998  1.00  0.72           C  
+ATOM    253  O   TYR A  35      -7.138  15.739  46.172  1.00  0.72           O  
+ATOM    254  CB  TYR A  35      -4.275  14.491  47.152  1.00  0.72           C  
+ATOM    255  CG  TYR A  35      -3.579  13.160  47.172  1.00  0.72           C  
+ATOM    256  CD1 TYR A  35      -3.967  12.065  46.378  1.00  0.72           C  
+ATOM    257  CD2 TYR A  35      -2.570  12.968  48.126  1.00  0.72           C  
+ATOM    258  CE1 TYR A  35      -3.344  10.820  46.526  1.00  0.72           C  
+ATOM    259  CE2 TYR A  35      -1.942  11.726  48.273  1.00  0.72           C  
+ATOM    260  CZ  TYR A  35      -2.333  10.653  47.471  1.00  0.72           C  
+ATOM    261  OH  TYR A  35      -1.749   9.389  47.652  1.00  0.72           O  
+ATOM    262  N   LYS A  36      -5.500  17.258  45.938  1.00  0.73           N  
+ATOM    263  CA  LYS A  36      -6.376  18.420  45.891  1.00  0.73           C  
+ATOM    264  C   LYS A  36      -7.236  18.521  44.634  1.00  0.73           C  
+ATOM    265  O   LYS A  36      -8.430  18.794  44.722  1.00  0.73           O  
+ATOM    266  CB  LYS A  36      -5.576  19.735  46.067  1.00  0.73           C  
+ATOM    267  CG  LYS A  36      -4.730  19.816  47.346  1.00  0.73           C  
+ATOM    268  CD  LYS A  36      -5.536  19.593  48.633  1.00  0.73           C  
+ATOM    269  CE  LYS A  36      -4.670  19.861  49.853  1.00  0.73           C  
+ATOM    270  NZ  LYS A  36      -5.337  19.470  51.111  1.00  0.73           N  
+ATOM    271  N   LEU A  37      -6.665  18.262  43.438  1.00  0.73           N  
+ATOM    272  CA  LEU A  37      -7.375  18.281  42.165  1.00  0.73           C  
+ATOM    273  C   LEU A  37      -8.475  17.231  42.084  1.00  0.73           C  
+ATOM    274  O   LEU A  37      -9.550  17.451  41.518  1.00  0.73           O  
+ATOM    275  CB  LEU A  37      -6.401  18.206  40.963  1.00  0.73           C  
+ATOM    276  CG  LEU A  37      -5.347  19.340  40.884  1.00  0.73           C  
+ATOM    277  CD1 LEU A  37      -4.608  19.262  39.537  1.00  0.73           C  
+ATOM    278  CD2 LEU A  37      -5.899  20.760  41.125  1.00  0.73           C  
+ATOM    279  N   LYS A  38      -8.280  16.063  42.721  1.00  0.65           N  
+ATOM    280  CA  LYS A  38      -9.324  15.057  42.769  1.00  0.65           C  
+ATOM    281  C   LYS A  38     -10.268  15.241  43.950  1.00  0.65           C  
+ATOM    282  O   LYS A  38     -11.161  14.428  44.169  1.00  0.65           O  
+ATOM    283  CB  LYS A  38      -8.744  13.627  42.878  1.00  0.65           C  
+ATOM    284  CG  LYS A  38      -7.632  13.312  41.869  1.00  0.65           C  
+ATOM    285  CD  LYS A  38      -7.716  11.875  41.339  1.00  0.65           C  
+ATOM    286  CE  LYS A  38      -6.354  11.220  41.099  1.00  0.65           C  
+ATOM    287  NZ  LYS A  38      -6.205  10.006  41.932  1.00  0.65           N  
+ATOM    288  N   LEU A  39     -10.073  16.309  44.749  1.00  0.59           N  
+ATOM    289  CA  LEU A  39     -10.838  16.635  45.942  1.00  0.59           C  
+ATOM    290  C   LEU A  39     -10.744  15.600  47.054  1.00  0.59           C  
+ATOM    291  O   LEU A  39     -11.613  15.505  47.918  1.00  0.59           O  
+ATOM    292  CB  LEU A  39     -12.314  16.980  45.644  1.00  0.59           C  
+ATOM    293  CG  LEU A  39     -12.522  18.187  44.715  1.00  0.59           C  
+ATOM    294  CD1 LEU A  39     -13.997  18.173  44.310  1.00  0.59           C  
+ATOM    295  CD2 LEU A  39     -12.135  19.543  45.338  1.00  0.59           C  
+ATOM    296  N   GLY A  40      -9.658  14.800  47.098  1.00  0.57           N  
+ATOM    297  CA  GLY A  40      -9.528  13.759  48.106  1.00  0.57           C  
+ATOM    298  C   GLY A  40     -10.321  12.500  47.864  1.00  0.57           C  
+ATOM    299  O   GLY A  40     -10.313  11.613  48.711  1.00  0.57           O  
+ATOM    300  N   GLU A  41     -11.031  12.365  46.727  1.00  0.49           N  
+ATOM    301  CA  GLU A  41     -11.822  11.176  46.458  1.00  0.49           C  
+ATOM    302  C   GLU A  41     -10.980   9.933  46.107  1.00  0.49           C  
+ATOM    303  O   GLU A  41     -10.102   9.968  45.237  1.00  0.49           O  
+ATOM    304  CB  GLU A  41     -12.889  11.456  45.373  1.00  0.49           C  
+ATOM    305  CG  GLU A  41     -14.275  10.843  45.707  1.00  0.49           C  
+ATOM    306  CD  GLU A  41     -15.081  10.362  44.496  1.00  0.49           C  
+ATOM    307  OE1 GLU A  41     -14.667  10.614  43.335  1.00  0.49           O  
+ATOM    308  OE2 GLU A  41     -16.137   9.725  44.749  1.00  0.49           O  
+ATOM    309  N   ILE A  42     -11.211   8.791  46.797  1.00  0.46           N  
+ATOM    310  CA  ILE A  42     -10.481   7.551  46.584  1.00  0.46           C  
+ATOM    311  C   ILE A  42     -11.361   6.483  45.962  1.00  0.46           C  
+ATOM    312  O   ILE A  42     -12.559   6.377  46.217  1.00  0.46           O  
+ATOM    313  CB  ILE A  42      -9.870   6.946  47.850  1.00  0.46           C  
+ATOM    314  CG1 ILE A  42     -10.847   6.957  49.050  1.00  0.46           C  
+ATOM    315  CG2 ILE A  42      -8.549   7.682  48.156  1.00  0.46           C  
+ATOM    316  CD1 ILE A  42     -10.521   5.861  50.072  1.00  0.46           C  
+ATOM    317  N   VAL A  43     -10.743   5.623  45.137  1.00  0.40           N  
+ATOM    318  CA  VAL A  43     -11.342   4.445  44.564  1.00  0.40           C  
+ATOM    319  C   VAL A  43     -10.409   3.336  44.930  1.00  0.40           C  
+ATOM    320  O   VAL A  43      -9.201   3.548  45.068  1.00  0.40           O  
+ATOM    321  CB  VAL A  43     -11.438   4.429  43.032  1.00  0.40           C  
+ATOM    322  CG1 VAL A  43     -12.915   4.570  42.642  1.00  0.40           C  
+ATOM    323  CG2 VAL A  43     -10.559   5.527  42.400  1.00  0.40           C  
+ATOM    324  N   THR A  44     -10.945   2.113  45.050  1.00  0.46           N  
+ATOM    325  CA  THR A  44     -10.131   0.910  45.001  1.00  0.46           C  
+ATOM    326  C   THR A  44      -9.995   0.516  43.555  1.00  0.46           C  
+ATOM    327  O   THR A  44     -10.969   0.144  42.899  1.00  0.46           O  
+ATOM    328  CB  THR A  44     -10.666  -0.312  45.730  1.00  0.46           C  
+ATOM    329  OG1 THR A  44     -11.071   0.021  47.049  1.00  0.46           O  
+ATOM    330  CG2 THR A  44      -9.534  -1.341  45.868  1.00  0.46           C  
+ATOM    331  N   THR A  45      -8.770   0.596  43.023  1.00  0.46           N  
+ATOM    332  CA  THR A  45      -8.486   0.459  41.601  1.00  0.46           C  
+ATOM    333  C   THR A  45      -7.828  -0.876  41.409  1.00  0.46           C  
+ATOM    334  O   THR A  45      -6.990  -1.269  42.218  1.00  0.46           O  
+ATOM    335  CB  THR A  45      -7.506   1.517  41.097  1.00  0.46           C  
+ATOM    336  OG1 THR A  45      -7.992   2.818  41.390  1.00  0.46           O  
+ATOM    337  CG2 THR A  45      -7.304   1.490  39.574  1.00  0.46           C  
+ATOM    338  N   ILE A  46      -8.174  -1.643  40.352  1.00  0.43           N  
+ATOM    339  CA  ILE A  46      -7.490  -2.901  40.070  1.00  0.43           C  
+ATOM    340  C   ILE A  46      -5.967  -2.721  39.906  1.00  0.43           C  
+ATOM    341  O   ILE A  46      -5.570  -1.719  39.309  1.00  0.43           O  
+ATOM    342  CB  ILE A  46      -8.068  -3.600  38.842  1.00  0.43           C  
+ATOM    343  CG1 ILE A  46      -8.224  -2.650  37.630  1.00  0.43           C  
+ATOM    344  CG2 ILE A  46      -9.414  -4.247  39.234  1.00  0.43           C  
+ATOM    345  CD1 ILE A  46      -8.133  -3.382  36.286  1.00  0.43           C  
+ATOM    346  N   PRO A  47      -5.054  -3.562  40.412  1.00  0.47           N  
+ATOM    347  CA  PRO A  47      -3.633  -3.238  40.354  1.00  0.47           C  
+ATOM    348  C   PRO A  47      -3.044  -3.540  38.991  1.00  0.47           C  
+ATOM    349  O   PRO A  47      -3.492  -4.479  38.336  1.00  0.47           O  
+ATOM    350  CB  PRO A  47      -2.964  -4.141  41.409  1.00  0.47           C  
+ATOM    351  CG  PRO A  47      -4.113  -4.618  42.299  1.00  0.47           C  
+ATOM    352  CD  PRO A  47      -5.308  -4.660  41.344  1.00  0.47           C  
+ATOM    353  N   THR A  48      -2.014  -2.787  38.567  1.00  0.55           N  
+ATOM    354  CA  THR A  48      -1.373  -2.981  37.272  1.00  0.55           C  
+ATOM    355  C   THR A  48       0.107  -3.000  37.530  1.00  0.55           C  
+ATOM    356  O   THR A  48       0.628  -2.162  38.262  1.00  0.55           O  
+ATOM    357  CB  THR A  48      -1.658  -1.885  36.247  1.00  0.55           C  
+ATOM    358  OG1 THR A  48      -3.059  -1.770  36.056  1.00  0.55           O  
+ATOM    359  CG2 THR A  48      -1.081  -2.218  34.860  1.00  0.55           C  
+ATOM    360  N   ILE A  49       0.847  -3.972  36.966  1.00  0.45           N  
+ATOM    361  CA  ILE A  49       2.299  -3.958  37.019  1.00  0.45           C  
+ATOM    362  C   ILE A  49       2.886  -2.881  36.119  1.00  0.45           C  
+ATOM    363  O   ILE A  49       2.609  -2.817  34.922  1.00  0.45           O  
+ATOM    364  CB  ILE A  49       2.897  -5.315  36.664  1.00  0.45           C  
+ATOM    365  CG1 ILE A  49       2.418  -6.417  37.642  1.00  0.45           C  
+ATOM    366  CG2 ILE A  49       4.442  -5.281  36.586  1.00  0.45           C  
+ATOM    367  CD1 ILE A  49       2.717  -6.163  39.128  1.00  0.45           C  
+ATOM    368  N   GLY A  50       3.744  -2.013  36.686  1.00  0.37           N  
+ATOM    369  CA  GLY A  50       4.496  -1.040  35.926  1.00  0.37           C  
+ATOM    370  C   GLY A  50       4.596   0.233  36.692  1.00  0.37           C  
+ATOM    371  O   GLY A  50       4.656   0.232  37.920  1.00  0.37           O  
+ATOM    372  N   PHE A  51       4.658   1.355  35.963  1.00  0.32           N  
+ATOM    373  CA  PHE A  51       4.759   2.698  36.492  1.00  0.32           C  
+ATOM    374  C   PHE A  51       3.518   3.108  37.264  1.00  0.32           C  
+ATOM    375  O   PHE A  51       2.392   2.761  36.905  1.00  0.32           O  
+ATOM    376  CB  PHE A  51       5.018   3.753  35.373  1.00  0.32           C  
+ATOM    377  CG  PHE A  51       6.233   3.381  34.562  1.00  0.32           C  
+ATOM    378  CD1 PHE A  51       7.501   3.871  34.910  1.00  0.32           C  
+ATOM    379  CD2 PHE A  51       6.136   2.492  33.477  1.00  0.32           C  
+ATOM    380  CE1 PHE A  51       8.642   3.462  34.209  1.00  0.32           C  
+ATOM    381  CE2 PHE A  51       7.277   2.072  32.785  1.00  0.32           C  
+ATOM    382  CZ  PHE A  51       8.533   2.566  33.143  1.00  0.32           C  
+ATOM    383  N   ASN A  52       3.695   3.908  38.335  1.00  0.46           N  
+ATOM    384  CA  ASN A  52       2.606   4.657  38.935  1.00  0.46           C  
+ATOM    385  C   ASN A  52       2.009   5.622  37.922  1.00  0.46           C  
+ATOM    386  O   ASN A  52       2.721   6.361  37.244  1.00  0.46           O  
+ATOM    387  CB  ASN A  52       3.055   5.507  40.156  1.00  0.46           C  
+ATOM    388  CG  ASN A  52       3.580   4.642  41.289  1.00  0.46           C  
+ATOM    389  OD1 ASN A  52       3.169   3.500  41.477  1.00  0.46           O  
+ATOM    390  ND2 ASN A  52       4.512   5.206  42.098  1.00  0.46           N  
+ATOM    391  N   VAL A  53       0.676   5.627  37.805  1.00  0.52           N  
+ATOM    392  CA  VAL A  53      -0.027   6.531  36.924  1.00  0.52           C  
+ATOM    393  C   VAL A  53      -0.892   7.378  37.812  1.00  0.52           C  
+ATOM    394  O   VAL A  53      -1.831   6.915  38.461  1.00  0.52           O  
+ATOM    395  CB  VAL A  53      -0.862   5.848  35.841  1.00  0.52           C  
+ATOM    396  CG1 VAL A  53      -1.594   6.908  34.986  1.00  0.52           C  
+ATOM    397  CG2 VAL A  53       0.084   5.012  34.954  1.00  0.52           C  
+ATOM    398  N   GLU A  54      -0.568   8.672  37.867  1.00  0.63           N  
+ATOM    399  CA  GLU A  54      -1.303   9.633  38.633  1.00  0.63           C  
+ATOM    400  C   GLU A  54      -1.864  10.614  37.635  1.00  0.63           C  
+ATOM    401  O   GLU A  54      -1.135  11.354  36.974  1.00  0.63           O  
+ATOM    402  CB  GLU A  54      -0.381  10.339  39.642  1.00  0.63           C  
+ATOM    403  CG  GLU A  54       0.242   9.419  40.713  1.00  0.63           C  
+ATOM    404  CD  GLU A  54       1.142  10.257  41.621  1.00  0.63           C  
+ATOM    405  OE1 GLU A  54       2.232  10.670  41.151  1.00  0.63           O  
+ATOM    406  OE2 GLU A  54       0.740  10.528  42.783  1.00  0.63           O  
+ATOM    407  N   THR A  55      -3.199  10.613  37.480  1.00  0.70           N  
+ATOM    408  CA  THR A  55      -3.874  11.449  36.512  1.00  0.70           C  
+ATOM    409  C   THR A  55      -5.174  11.902  37.100  1.00  0.70           C  
+ATOM    410  O   THR A  55      -5.785  11.182  37.890  1.00  0.70           O  
+ATOM    411  CB  THR A  55      -4.156  10.758  35.169  1.00  0.70           C  
+ATOM    412  OG1 THR A  55      -4.700  11.659  34.216  1.00  0.70           O  
+ATOM    413  CG2 THR A  55      -5.140   9.575  35.270  1.00  0.70           C  
+ATOM    414  N   VAL A  56      -5.619  13.117  36.747  1.00  0.72           N  
+ATOM    415  CA  VAL A  56      -6.961  13.592  37.007  1.00  0.72           C  
+ATOM    416  C   VAL A  56      -7.508  14.071  35.686  1.00  0.72           C  
+ATOM    417  O   VAL A  56      -6.835  14.754  34.917  1.00  0.72           O  
+ATOM    418  CB  VAL A  56      -7.074  14.672  38.101  1.00  0.72           C  
+ATOM    419  CG1 VAL A  56      -6.269  15.939  37.753  1.00  0.72           C  
+ATOM    420  CG2 VAL A  56      -8.550  14.993  38.445  1.00  0.72           C  
+ATOM    421  N   GLU A  57      -8.754  13.685  35.369  1.00  0.67           N  
+ATOM    422  CA  GLU A  57      -9.383  14.058  34.130  1.00  0.67           C  
+ATOM    423  C   GLU A  57     -10.611  14.872  34.425  1.00  0.67           C  
+ATOM    424  O   GLU A  57     -11.523  14.432  35.131  1.00  0.67           O  
+ATOM    425  CB  GLU A  57      -9.818  12.821  33.339  1.00  0.67           C  
+ATOM    426  CG  GLU A  57      -8.660  11.843  33.071  1.00  0.67           C  
+ATOM    427  CD  GLU A  57      -9.196  10.597  32.376  1.00  0.67           C  
+ATOM    428  OE1 GLU A  57     -10.392  10.611  31.977  1.00  0.67           O  
+ATOM    429  OE2 GLU A  57      -8.411   9.623  32.273  1.00  0.67           O  
+ATOM    430  N   TYR A  58     -10.690  16.089  33.871  1.00  0.61           N  
+ATOM    431  CA  TYR A  58     -11.851  16.954  34.028  1.00  0.61           C  
+ATOM    432  C   TYR A  58     -12.747  16.965  32.823  1.00  0.61           C  
+ATOM    433  O   TYR A  58     -13.816  17.557  32.887  1.00  0.61           O  
+ATOM    434  CB  TYR A  58     -11.516  18.420  34.343  1.00  0.61           C  
+ATOM    435  CG  TYR A  58     -10.839  18.570  35.647  1.00  0.61           C  
+ATOM    436  CD1 TYR A  58     -11.118  17.770  36.768  1.00  0.61           C  
+ATOM    437  CD2 TYR A  58      -9.968  19.651  35.772  1.00  0.61           C  
+ATOM    438  CE1 TYR A  58     -10.501  18.037  37.989  1.00  0.61           C  
+ATOM    439  CE2 TYR A  58      -9.345  19.918  36.989  1.00  0.61           C  
+ATOM    440  CZ  TYR A  58      -9.614  19.104  38.090  1.00  0.61           C  
+ATOM    441  OH  TYR A  58      -9.012  19.376  39.313  1.00  0.61           O  
+ATOM    442  N   LYS A  59     -12.343  16.231  31.759  1.00  0.60           N  
+ATOM    443  CA  LYS A  59     -13.089  16.043  30.523  1.00  0.60           C  
+ATOM    444  C   LYS A  59     -12.911  17.311  29.669  1.00  0.60           C  
+ATOM    445  O   LYS A  59     -13.152  18.411  30.158  1.00  0.60           O  
+ATOM    446  CB  LYS A  59     -14.549  15.529  30.750  1.00  0.60           C  
+ATOM    447  CG  LYS A  59     -14.652  14.399  31.809  1.00  0.60           C  
+ATOM    448  CD  LYS A  59     -15.542  14.801  33.015  1.00  0.60           C  
+ATOM    449  CE  LYS A  59     -14.964  14.697  34.436  1.00  0.60           C  
+ATOM    450  NZ  LYS A  59     -14.057  13.546  34.556  1.00  0.60           N  
+ATOM    451  N   ASN A  60     -12.343  17.223  28.436  1.00  0.55           N  
+ATOM    452  CA  ASN A  60     -11.708  18.350  27.737  1.00  0.55           C  
+ATOM    453  C   ASN A  60     -10.298  18.638  28.260  1.00  0.55           C  
+ATOM    454  O   ASN A  60      -9.456  19.120  27.514  1.00  0.55           O  
+ATOM    455  CB  ASN A  60     -12.572  19.654  27.714  1.00  0.55           C  
+ATOM    456  CG  ASN A  60     -12.619  20.407  26.395  1.00  0.55           C  
+ATOM    457  OD1 ASN A  60     -11.653  20.774  25.721  1.00  0.55           O  
+ATOM    458  ND2 ASN A  60     -13.868  20.708  25.977  1.00  0.55           N  
+ATOM    459  N   ILE A  61      -9.973  18.309  29.532  1.00  0.67           N  
+ATOM    460  CA  ILE A  61      -8.625  18.481  30.058  1.00  0.67           C  
+ATOM    461  C   ILE A  61      -8.225  17.364  31.011  1.00  0.67           C  
+ATOM    462  O   ILE A  61      -9.014  16.920  31.847  1.00  0.67           O  
+ATOM    463  CB  ILE A  61      -8.387  19.864  30.670  1.00  0.67           C  
+ATOM    464  CG1 ILE A  61      -6.874  20.128  30.849  1.00  0.67           C  
+ATOM    465  CG2 ILE A  61      -9.229  20.126  31.944  1.00  0.67           C  
+ATOM    466  CD1 ILE A  61      -6.580  21.621  30.978  1.00  0.67           C  
+ATOM    467  N   SER A  62      -6.979  16.856  30.881  1.00  0.74           N  
+ATOM    468  CA  SER A  62      -6.368  15.884  31.774  1.00  0.74           C  
+ATOM    469  C   SER A  62      -5.034  16.390  32.293  1.00  0.74           C  
+ATOM    470  O   SER A  62      -4.318  17.127  31.614  1.00  0.74           O  
+ATOM    471  CB  SER A  62      -6.193  14.468  31.143  1.00  0.74           C  
+ATOM    472  OG  SER A  62      -5.233  14.417  30.081  1.00  0.74           O  
+ATOM    473  N   PHE A  63      -4.681  16.028  33.540  1.00  0.73           N  
+ATOM    474  CA  PHE A  63      -3.436  16.418  34.176  1.00  0.73           C  
+ATOM    475  C   PHE A  63      -2.755  15.163  34.632  1.00  0.73           C  
+ATOM    476  O   PHE A  63      -3.298  14.447  35.473  1.00  0.73           O  
+ATOM    477  CB  PHE A  63      -3.611  17.252  35.473  1.00  0.73           C  
+ATOM    478  CG  PHE A  63      -4.281  18.553  35.222  1.00  0.73           C  
+ATOM    479  CD1 PHE A  63      -3.520  19.720  35.105  1.00  0.73           C  
+ATOM    480  CD2 PHE A  63      -5.675  18.631  35.114  1.00  0.73           C  
+ATOM    481  CE1 PHE A  63      -4.141  20.949  34.863  1.00  0.73           C  
+ATOM    482  CE2 PHE A  63      -6.300  19.857  34.880  1.00  0.73           C  
+ATOM    483  CZ  PHE A  63      -5.535  21.021  34.772  1.00  0.73           C  
+ATOM    484  N   THR A  64      -1.549  14.882  34.117  1.00  0.75           N  
+ATOM    485  CA  THR A  64      -0.874  13.612  34.364  1.00  0.75           C  
+ATOM    486  C   THR A  64       0.510  13.861  34.914  1.00  0.75           C  
+ATOM    487  O   THR A  64       1.297  14.604  34.323  1.00  0.75           O  
+ATOM    488  CB  THR A  64      -0.724  12.781  33.091  1.00  0.75           C  
+ATOM    489  OG1 THR A  64      -1.988  12.420  32.560  1.00  0.75           O  
+ATOM    490  CG2 THR A  64       0.010  11.452  33.308  1.00  0.75           C  
+ATOM    491  N   VAL A  65       0.883  13.252  36.061  1.00  0.75           N  
+ATOM    492  CA  VAL A  65       2.260  13.282  36.540  1.00  0.75           C  
+ATOM    493  C   VAL A  65       3.184  12.514  35.597  1.00  0.75           C  
+ATOM    494  O   VAL A  65       2.926  11.374  35.207  1.00  0.75           O  
+ATOM    495  CB  VAL A  65       2.413  12.822  37.995  1.00  0.75           C  
+ATOM    496  CG1 VAL A  65       3.890  12.807  38.450  1.00  0.75           C  
+ATOM    497  CG2 VAL A  65       1.589  13.736  38.934  1.00  0.75           C  
+ATOM    498  N   TRP A  66       4.295  13.145  35.186  1.00  0.54           N  
+ATOM    499  CA  TRP A  66       5.322  12.513  34.408  1.00  0.54           C  
+ATOM    500  C   TRP A  66       6.532  12.419  35.302  1.00  0.54           C  
+ATOM    501  O   TRP A  66       7.119  13.418  35.736  1.00  0.54           O  
+ATOM    502  CB  TRP A  66       5.571  13.257  33.074  1.00  0.54           C  
+ATOM    503  CG  TRP A  66       6.427  12.495  32.087  1.00  0.54           C  
+ATOM    504  CD1 TRP A  66       7.787  12.437  31.996  1.00  0.54           C  
+ATOM    505  CD2 TRP A  66       5.900  11.567  31.145  1.00  0.54           C  
+ATOM    506  NE1 TRP A  66       8.147  11.525  31.040  1.00  0.54           N  
+ATOM    507  CE2 TRP A  66       7.021  10.959  30.504  1.00  0.54           C  
+ATOM    508  CE3 TRP A  66       4.606  11.185  30.833  1.00  0.54           C  
+ATOM    509  CZ2 TRP A  66       6.824   9.972  29.561  1.00  0.54           C  
+ATOM    510  CZ3 TRP A  66       4.421  10.198  29.866  1.00  0.54           C  
+ATOM    511  CH2 TRP A  66       5.518   9.592  29.241  1.00  0.54           C  
+ATOM    512  N   ASP A  67       6.887  11.175  35.640  1.00  0.49           N  
+ATOM    513  CA  ASP A  67       8.078  10.820  36.355  1.00  0.49           C  
+ATOM    514  C   ASP A  67       9.287  10.944  35.408  1.00  0.49           C  
+ATOM    515  O   ASP A  67       9.345  10.318  34.348  1.00  0.49           O  
+ATOM    516  CB  ASP A  67       7.858   9.402  36.940  1.00  0.49           C  
+ATOM    517  CG  ASP A  67       8.962   9.005  37.904  1.00  0.49           C  
+ATOM    518  OD1 ASP A  67       9.983   9.742  37.965  1.00  0.49           O  
+ATOM    519  OD2 ASP A  67       8.782   7.965  38.583  1.00  0.49           O  
+ATOM    520  N   VAL A  68      10.267  11.801  35.765  1.00  0.56           N  
+ATOM    521  CA  VAL A  68      11.462  12.054  34.977  1.00  0.56           C  
+ATOM    522  C   VAL A  68      12.663  11.295  35.508  1.00  0.56           C  
+ATOM    523  O   VAL A  68      13.776  11.457  34.996  1.00  0.56           O  
+ATOM    524  CB  VAL A  68      11.822  13.540  34.921  1.00  0.56           C  
+ATOM    525  CG1 VAL A  68      10.764  14.299  34.094  1.00  0.56           C  
+ATOM    526  CG2 VAL A  68      11.998  14.105  36.346  1.00  0.56           C  
+ATOM    527  N   GLY A  69      12.476  10.453  36.551  1.00  0.42           N  
+ATOM    528  CA  GLY A  69      13.525   9.592  37.078  1.00  0.42           C  
+ATOM    529  C   GLY A  69      14.098   8.604  36.080  1.00  0.42           C  
+ATOM    530  O   GLY A  69      13.521   8.297  35.038  1.00  0.42           O  
+ATOM    531  N   GLY A  70      15.271   8.030  36.409  1.00  0.46           N  
+ATOM    532  CA  GLY A  70      15.962   7.091  35.536  1.00  0.46           C  
+ATOM    533  C   GLY A  70      16.995   7.739  34.656  1.00  0.46           C  
+ATOM    534  O   GLY A  70      17.312   8.919  34.762  1.00  0.46           O  
+ATOM    535  N   GLN A  71      17.610   6.921  33.789  1.00  0.55           N  
+ATOM    536  CA  GLN A  71      18.694   7.324  32.920  1.00  0.55           C  
+ATOM    537  C   GLN A  71      18.214   8.010  31.642  1.00  0.55           C  
+ATOM    538  O   GLN A  71      17.076   7.862  31.207  1.00  0.55           O  
+ATOM    539  CB  GLN A  71      19.520   6.073  32.519  1.00  0.55           C  
+ATOM    540  CG  GLN A  71      20.171   5.320  33.708  1.00  0.55           C  
+ATOM    541  CD  GLN A  71      20.720   3.965  33.268  1.00  0.55           C  
+ATOM    542  OE1 GLN A  71      20.375   2.910  33.799  1.00  0.55           O  
+ATOM    543  NE2 GLN A  71      21.592   3.974  32.238  1.00  0.55           N  
+ATOM    544  N   ASP A  72      19.110   8.740  30.951  1.00  0.62           N  
+ATOM    545  CA  ASP A  72      18.795   9.407  29.701  1.00  0.62           C  
+ATOM    546  C   ASP A  72      18.557   8.478  28.493  1.00  0.62           C  
+ATOM    547  O   ASP A  72      17.887   8.850  27.531  1.00  0.62           O  
+ATOM    548  CB  ASP A  72      19.904  10.444  29.428  1.00  0.62           C  
+ATOM    549  CG  ASP A  72      19.728  11.597  30.403  1.00  0.62           C  
+ATOM    550  OD1 ASP A  72      20.622  11.829  31.250  1.00  0.62           O  
+ATOM    551  OD2 ASP A  72      18.664  12.267  30.334  1.00  0.62           O  
+ATOM    552  N   LYS A  73      19.026   7.207  28.541  1.00  0.63           N  
+ATOM    553  CA  LYS A  73      18.816   6.186  27.511  1.00  0.63           C  
+ATOM    554  C   LYS A  73      17.360   5.859  27.202  1.00  0.63           C  
+ATOM    555  O   LYS A  73      17.041   5.478  26.076  1.00  0.63           O  
+ATOM    556  CB  LYS A  73      19.584   4.872  27.833  1.00  0.63           C  
+ATOM    557  CG  LYS A  73      21.078   4.978  27.487  1.00  0.63           C  
+ATOM    558  CD  LYS A  73      21.926   3.825  28.057  1.00  0.63           C  
+ATOM    559  CE  LYS A  73      23.433   4.100  27.950  1.00  0.63           C  
+ATOM    560  NZ  LYS A  73      24.238   3.011  28.556  1.00  0.63           N  
+ATOM    561  N   ILE A  74      16.448   5.996  28.185  1.00  0.61           N  
+ATOM    562  CA  ILE A  74      15.048   5.643  28.036  1.00  0.61           C  
+ATOM    563  C   ILE A  74      14.171   6.841  27.683  1.00  0.61           C  
+ATOM    564  O   ILE A  74      12.999   6.680  27.348  1.00  0.61           O  
+ATOM    565  CB  ILE A  74      14.499   4.920  29.271  1.00  0.61           C  
+ATOM    566  CG1 ILE A  74      14.655   5.679  30.625  1.00  0.61           C  
+ATOM    567  CG2 ILE A  74      15.157   3.510  29.314  1.00  0.61           C  
+ATOM    568  CD1 ILE A  74      13.697   6.855  30.913  1.00  0.61           C  
+ATOM    569  N   ARG A  75      14.726   8.078  27.675  1.00  0.55           N  
+ATOM    570  CA  ARG A  75      14.025   9.278  27.226  1.00  0.55           C  
+ATOM    571  C   ARG A  75      13.525   9.286  25.772  1.00  0.55           C  
+ATOM    572  O   ARG A  75      12.417   9.780  25.564  1.00  0.55           O  
+ATOM    573  CB  ARG A  75      14.781  10.593  27.542  1.00  0.55           C  
+ATOM    574  CG  ARG A  75      15.050  10.810  29.048  1.00  0.55           C  
+ATOM    575  CD  ARG A  75      15.458  12.259  29.378  1.00  0.55           C  
+ATOM    576  NE  ARG A  75      15.396  12.424  30.880  1.00  0.55           N  
+ATOM    577  CZ  ARG A  75      15.103  13.552  31.548  1.00  0.55           C  
+ATOM    578  NH1 ARG A  75      14.751  14.690  30.962  1.00  0.55           N  
+ATOM    579  NH2 ARG A  75      15.082  13.557  32.884  1.00  0.55           N  
+ATOM    580  N   PRO A  76      14.175   8.756  24.721  1.00  0.65           N  
+ATOM    581  CA  PRO A  76      13.589   8.655  23.382  1.00  0.65           C  
+ATOM    582  C   PRO A  76      12.225   7.970  23.290  1.00  0.65           C  
+ATOM    583  O   PRO A  76      11.514   8.192  22.300  1.00  0.65           O  
+ATOM    584  CB  PRO A  76      14.625   7.847  22.585  1.00  0.65           C  
+ATOM    585  CG  PRO A  76      15.969   8.107  23.267  1.00  0.65           C  
+ATOM    586  CD  PRO A  76      15.582   8.338  24.728  1.00  0.65           C  
+ATOM    587  N   LEU A  77      11.866   7.117  24.279  1.00  0.61           N  
+ATOM    588  CA  LEU A  77      10.608   6.398  24.389  1.00  0.61           C  
+ATOM    589  C   LEU A  77       9.450   7.321  24.777  1.00  0.61           C  
+ATOM    590  O   LEU A  77       8.284   7.012  24.546  1.00  0.61           O  
+ATOM    591  CB  LEU A  77      10.705   5.257  25.441  1.00  0.61           C  
+ATOM    592  CG  LEU A  77      11.749   4.150  25.162  1.00  0.61           C  
+ATOM    593  CD1 LEU A  77      11.808   3.185  26.362  1.00  0.61           C  
+ATOM    594  CD2 LEU A  77      11.453   3.379  23.861  1.00  0.61           C  
+ATOM    595  N   TRP A  78       9.750   8.501  25.362  1.00  0.55           N  
+ATOM    596  CA  TRP A  78       8.764   9.445  25.868  1.00  0.55           C  
+ATOM    597  C   TRP A  78       8.066  10.227  24.770  1.00  0.55           C  
+ATOM    598  O   TRP A  78       6.929  10.682  24.927  1.00  0.55           O  
+ATOM    599  CB  TRP A  78       9.446  10.448  26.833  1.00  0.55           C  
+ATOM    600  CG  TRP A  78      10.112   9.838  28.071  1.00  0.55           C  
+ATOM    601  CD1 TRP A  78      10.121   8.553  28.544  1.00  0.55           C  
+ATOM    602  CD2 TRP A  78      10.797  10.634  29.034  1.00  0.55           C  
+ATOM    603  NE1 TRP A  78      10.751   8.512  29.762  1.00  0.55           N  
+ATOM    604  CE2 TRP A  78      11.163   9.767  30.110  1.00  0.55           C  
+ATOM    605  CE3 TRP A  78      11.099  11.978  29.080  1.00  0.55           C  
+ATOM    606  CZ2 TRP A  78      11.801  10.272  31.227  1.00  0.55           C  
+ATOM    607  CZ3 TRP A  78      11.701  12.489  30.226  1.00  0.55           C  
+ATOM    608  CH2 TRP A  78      12.054  11.647  31.290  1.00  0.55           C  
+ATOM    609  N   ARG A  79       8.712  10.354  23.603  1.00  0.63           N  
+ATOM    610  CA  ARG A  79       8.430  11.359  22.594  1.00  0.63           C  
+ATOM    611  C   ARG A  79       7.003  11.417  22.062  1.00  0.63           C  
+ATOM    612  O   ARG A  79       6.444  12.497  21.885  1.00  0.63           O  
+ATOM    613  CB  ARG A  79       9.440  11.193  21.438  1.00  0.63           C  
+ATOM    614  CG  ARG A  79      10.779  11.896  21.762  1.00  0.63           C  
+ATOM    615  CD  ARG A  79      11.859  11.846  20.673  1.00  0.63           C  
+ATOM    616  NE  ARG A  79      11.970  10.389  20.296  1.00  0.63           N  
+ATOM    617  CZ  ARG A  79      12.977   9.798  19.646  1.00  0.63           C  
+ATOM    618  NH1 ARG A  79      14.072  10.468  19.309  1.00  0.63           N  
+ATOM    619  NH2 ARG A  79      12.898   8.497  19.354  1.00  0.63           N  
+ATOM    620  N   HIS A  80       6.332  10.268  21.832  1.00  0.61           N  
+ATOM    621  CA  HIS A  80       4.926  10.264  21.435  1.00  0.61           C  
+ATOM    622  C   HIS A  80       3.981  10.778  22.532  1.00  0.61           C  
+ATOM    623  O   HIS A  80       2.974  11.427  22.261  1.00  0.61           O  
+ATOM    624  CB  HIS A  80       4.471   8.923  20.786  1.00  0.61           C  
+ATOM    625  CG  HIS A  80       3.768   7.950  21.678  1.00  0.61           C  
+ATOM    626  ND1 HIS A  80       2.408   8.114  21.814  1.00  0.61           N  
+ATOM    627  CD2 HIS A  80       4.193   6.896  22.424  1.00  0.61           C  
+ATOM    628  CE1 HIS A  80       2.024   7.168  22.636  1.00  0.61           C  
+ATOM    629  NE2 HIS A  80       3.063   6.399  23.038  1.00  0.61           N  
+ATOM    630  N   TYR A  81       4.306  10.582  23.829  1.00  0.63           N  
+ATOM    631  CA  TYR A  81       3.463  11.052  24.915  1.00  0.63           C  
+ATOM    632  C   TYR A  81       3.545  12.552  25.123  1.00  0.63           C  
+ATOM    633  O   TYR A  81       2.655  13.156  25.729  1.00  0.63           O  
+ATOM    634  CB  TYR A  81       3.854  10.408  26.258  1.00  0.63           C  
+ATOM    635  CG  TYR A  81       3.527   8.956  26.242  1.00  0.63           C  
+ATOM    636  CD1 TYR A  81       2.208   8.538  26.448  1.00  0.63           C  
+ATOM    637  CD2 TYR A  81       4.531   7.997  26.073  1.00  0.63           C  
+ATOM    638  CE1 TYR A  81       1.898   7.176  26.517  1.00  0.63           C  
+ATOM    639  CE2 TYR A  81       4.223   6.632  26.138  1.00  0.63           C  
+ATOM    640  CZ  TYR A  81       2.902   6.223  26.353  1.00  0.63           C  
+ATOM    641  OH  TYR A  81       2.557   4.860  26.387  1.00  0.63           O  
+ATOM    642  N   PHE A  82       4.620  13.178  24.609  1.00  0.78           N  
+ATOM    643  CA  PHE A  82       4.827  14.611  24.633  1.00  0.78           C  
+ATOM    644  C   PHE A  82       4.208  15.300  23.416  1.00  0.78           C  
+ATOM    645  O   PHE A  82       4.068  16.518  23.406  1.00  0.78           O  
+ATOM    646  CB  PHE A  82       6.343  14.954  24.722  1.00  0.78           C  
+ATOM    647  CG  PHE A  82       7.015  14.585  26.029  1.00  0.78           C  
+ATOM    648  CD1 PHE A  82       6.348  14.024  27.136  1.00  0.78           C  
+ATOM    649  CD2 PHE A  82       8.391  14.838  26.160  1.00  0.78           C  
+ATOM    650  CE1 PHE A  82       7.026  13.734  28.323  1.00  0.78           C  
+ATOM    651  CE2 PHE A  82       9.069  14.557  27.352  1.00  0.78           C  
+ATOM    652  CZ  PHE A  82       8.388  13.997  28.432  1.00  0.78           C  
+ATOM    653  N   GLN A  83       3.772  14.540  22.385  1.00  0.68           N  
+ATOM    654  CA  GLN A  83       3.245  15.080  21.136  1.00  0.68           C  
+ATOM    655  C   GLN A  83       1.986  15.940  21.211  1.00  0.68           C  
+ATOM    656  O   GLN A  83       1.893  17.001  20.599  1.00  0.68           O  
+ATOM    657  CB  GLN A  83       3.003  13.949  20.112  1.00  0.68           C  
+ATOM    658  CG  GLN A  83       4.292  13.650  19.324  1.00  0.68           C  
+ATOM    659  CD  GLN A  83       4.063  12.558  18.290  1.00  0.68           C  
+ATOM    660  OE1 GLN A  83       2.937  12.262  17.884  1.00  0.68           O  
+ATOM    661  NE2 GLN A  83       5.163  11.940  17.806  1.00  0.68           N  
+ATOM    662  N   ASN A  84       0.968  15.498  21.971  1.00  0.72           N  
+ATOM    663  CA  ASN A  84      -0.283  16.217  22.119  1.00  0.72           C  
+ATOM    664  C   ASN A  84      -0.346  16.768  23.520  1.00  0.72           C  
+ATOM    665  O   ASN A  84      -1.188  16.369  24.323  1.00  0.72           O  
+ATOM    666  CB  ASN A  84      -1.521  15.338  21.749  1.00  0.72           C  
+ATOM    667  CG  ASN A  84      -2.772  16.190  21.586  1.00  0.72           C  
+ATOM    668  OD1 ASN A  84      -3.834  15.921  22.147  1.00  0.72           O  
+ATOM    669  ND2 ASN A  84      -2.646  17.291  20.816  1.00  0.72           N  
+ATOM    670  N   THR A  85       0.558  17.682  23.861  1.00  0.81           N  
+ATOM    671  CA  THR A  85       0.652  18.309  25.174  1.00  0.81           C  
+ATOM    672  C   THR A  85       0.592  19.819  25.019  1.00  0.81           C  
+ATOM    673  O   THR A  85       1.415  20.429  24.340  1.00  0.81           O  
+ATOM    674  CB  THR A  85       1.945  17.937  25.877  1.00  0.81           C  
+ATOM    675  OG1 THR A  85       2.111  16.527  25.978  1.00  0.81           O  
+ATOM    676  CG2 THR A  85       1.955  18.454  27.316  1.00  0.81           C  
+ATOM    677  N   GLN A  86      -0.408  20.476  25.645  1.00  0.78           N  
+ATOM    678  CA  GLN A  86      -0.637  21.908  25.512  1.00  0.78           C  
+ATOM    679  C   GLN A  86      -0.080  22.656  26.694  1.00  0.78           C  
+ATOM    680  O   GLN A  86       0.097  23.872  26.647  1.00  0.78           O  
+ATOM    681  CB  GLN A  86      -2.153  22.237  25.425  1.00  0.78           C  
+ATOM    682  CG  GLN A  86      -2.808  21.843  24.084  1.00  0.78           C  
+ATOM    683  CD  GLN A  86      -2.902  20.333  23.926  1.00  0.78           C  
+ATOM    684  OE1 GLN A  86      -3.315  19.606  24.841  1.00  0.78           O  
+ATOM    685  NE2 GLN A  86      -2.496  19.802  22.758  1.00  0.78           N  
+ATOM    686  N   GLY A  87       0.253  21.947  27.783  1.00  0.88           N  
+ATOM    687  CA  GLY A  87       0.810  22.614  28.936  1.00  0.88           C  
+ATOM    688  C   GLY A  87       1.707  21.740  29.738  1.00  0.88           C  
+ATOM    689  O   GLY A  87       1.555  20.521  29.811  1.00  0.88           O  
+ATOM    690  N   LEU A  88       2.668  22.389  30.396  1.00  0.89           N  
+ATOM    691  CA  LEU A  88       3.574  21.767  31.321  1.00  0.89           C  
+ATOM    692  C   LEU A  88       3.441  22.475  32.658  1.00  0.89           C  
+ATOM    693  O   LEU A  88       3.549  23.698  32.755  1.00  0.89           O  
+ATOM    694  CB  LEU A  88       5.026  21.849  30.790  1.00  0.89           C  
+ATOM    695  CG  LEU A  88       6.099  21.177  31.668  1.00  0.89           C  
+ATOM    696  CD1 LEU A  88       5.885  19.665  31.807  1.00  0.89           C  
+ATOM    697  CD2 LEU A  88       7.497  21.447  31.096  1.00  0.89           C  
+ATOM    698  N   ILE A  89       3.188  21.712  33.734  1.00  0.92           N  
+ATOM    699  CA  ILE A  89       3.223  22.210  35.096  1.00  0.92           C  
+ATOM    700  C   ILE A  89       4.531  21.736  35.700  1.00  0.92           C  
+ATOM    701  O   ILE A  89       4.807  20.540  35.790  1.00  0.92           O  
+ATOM    702  CB  ILE A  89       2.017  21.819  35.956  1.00  0.92           C  
+ATOM    703  CG1 ILE A  89       0.739  22.447  35.352  1.00  0.92           C  
+ATOM    704  CG2 ILE A  89       2.226  22.296  37.415  1.00  0.92           C  
+ATOM    705  CD1 ILE A  89      -0.563  22.019  36.039  1.00  0.92           C  
+ATOM    706  N   PHE A  90       5.392  22.679  36.119  1.00  0.91           N  
+ATOM    707  CA  PHE A  90       6.642  22.373  36.786  1.00  0.91           C  
+ATOM    708  C   PHE A  90       6.465  22.682  38.260  1.00  0.91           C  
+ATOM    709  O   PHE A  90       6.132  23.801  38.647  1.00  0.91           O  
+ATOM    710  CB  PHE A  90       7.850  23.146  36.165  1.00  0.91           C  
+ATOM    711  CG  PHE A  90       9.177  22.631  36.667  1.00  0.91           C  
+ATOM    712  CD1 PHE A  90       9.776  21.553  36.003  1.00  0.91           C  
+ATOM    713  CD2 PHE A  90       9.825  23.151  37.802  1.00  0.91           C  
+ATOM    714  CE1 PHE A  90      10.880  20.888  36.538  1.00  0.91           C  
+ATOM    715  CE2 PHE A  90      10.995  22.549  38.284  1.00  0.91           C  
+ATOM    716  CZ  PHE A  90      11.494  21.392  37.681  1.00  0.91           C  
+ATOM    717  N   VAL A  91       6.662  21.679  39.129  1.00  0.92           N  
+ATOM    718  CA  VAL A  91       6.495  21.828  40.564  1.00  0.92           C  
+ATOM    719  C   VAL A  91       7.859  21.761  41.211  1.00  0.92           C  
+ATOM    720  O   VAL A  91       8.607  20.797  41.031  1.00  0.92           O  
+ATOM    721  CB  VAL A  91       5.606  20.747  41.175  1.00  0.92           C  
+ATOM    722  CG1 VAL A  91       5.322  21.059  42.660  1.00  0.92           C  
+ATOM    723  CG2 VAL A  91       4.278  20.701  40.401  1.00  0.92           C  
+ATOM    724  N   VAL A  92       8.217  22.794  41.993  1.00  0.92           N  
+ATOM    725  CA  VAL A  92       9.488  22.874  42.680  1.00  0.92           C  
+ATOM    726  C   VAL A  92       9.244  23.003  44.168  1.00  0.92           C  
+ATOM    727  O   VAL A  92       8.333  23.707  44.603  1.00  0.92           O  
+ATOM    728  CB  VAL A  92      10.352  24.012  42.118  1.00  0.92           C  
+ATOM    729  CG1 VAL A  92       9.719  25.416  42.268  1.00  0.92           C  
+ATOM    730  CG2 VAL A  92      11.779  23.961  42.700  1.00  0.92           C  
+ATOM    731  N   ASP A  93      10.038  22.295  45.002  1.00  0.91           N  
+ATOM    732  CA  ASP A  93      10.106  22.554  46.418  1.00  0.91           C  
+ATOM    733  C   ASP A  93      10.913  23.838  46.592  1.00  0.91           C  
+ATOM    734  O   ASP A  93      12.104  23.894  46.274  1.00  0.91           O  
+ATOM    735  CB  ASP A  93      10.740  21.335  47.134  1.00  0.91           C  
+ATOM    736  CG  ASP A  93      10.762  21.477  48.643  1.00  0.91           C  
+ATOM    737  OD1 ASP A  93      10.655  22.593  49.200  1.00  0.91           O  
+ATOM    738  OD2 ASP A  93      10.862  20.387  49.264  1.00  0.91           O  
+ATOM    739  N   SER A  94      10.278  24.918  47.072  1.00  0.89           N  
+ATOM    740  CA  SER A  94      10.929  26.202  47.234  1.00  0.89           C  
+ATOM    741  C   SER A  94      11.732  26.297  48.503  1.00  0.89           C  
+ATOM    742  O   SER A  94      12.468  27.261  48.718  1.00  0.89           O  
+ATOM    743  CB  SER A  94       9.933  27.371  47.227  1.00  0.89           C  
+ATOM    744  OG  SER A  94       9.226  27.410  45.988  1.00  0.89           O  
+ATOM    745  N   ASN A  95      11.635  25.303  49.400  1.00  0.85           N  
+ATOM    746  CA  ASN A  95      12.454  25.269  50.584  1.00  0.85           C  
+ATOM    747  C   ASN A  95      13.767  24.554  50.294  1.00  0.85           C  
+ATOM    748  O   ASN A  95      14.766  24.832  50.963  1.00  0.85           O  
+ATOM    749  CB  ASN A  95      11.633  24.612  51.721  1.00  0.85           C  
+ATOM    750  CG  ASN A  95      12.298  24.689  53.085  1.00  0.85           C  
+ATOM    751  OD1 ASN A  95      12.523  23.677  53.756  1.00  0.85           O  
+ATOM    752  ND2 ASN A  95      12.628  25.907  53.561  1.00  0.85           N  
+ATOM    753  N   ASP A  96      13.822  23.701  49.248  1.00  0.88           N  
+ATOM    754  CA  ASP A  96      14.984  22.901  48.925  1.00  0.88           C  
+ATOM    755  C   ASP A  96      15.973  23.733  48.093  1.00  0.88           C  
+ATOM    756  O   ASP A  96      15.964  23.778  46.858  1.00  0.88           O  
+ATOM    757  CB  ASP A  96      14.493  21.594  48.238  1.00  0.88           C  
+ATOM    758  CG  ASP A  96      15.481  20.436  48.293  1.00  0.88           C  
+ATOM    759  OD1 ASP A  96      16.708  20.687  48.181  1.00  0.88           O  
+ATOM    760  OD2 ASP A  96      15.004  19.264  48.346  1.00  0.88           O  
+ATOM    761  N   ARG A  97      16.848  24.486  48.792  1.00  0.81           N  
+ATOM    762  CA  ARG A  97      17.854  25.349  48.207  1.00  0.81           C  
+ATOM    763  C   ARG A  97      19.005  24.574  47.566  1.00  0.81           C  
+ATOM    764  O   ARG A  97      19.576  25.026  46.572  1.00  0.81           O  
+ATOM    765  CB  ARG A  97      18.352  26.373  49.263  1.00  0.81           C  
+ATOM    766  CG  ARG A  97      17.288  27.446  49.621  1.00  0.81           C  
+ATOM    767  CD  ARG A  97      17.622  28.297  50.857  1.00  0.81           C  
+ATOM    768  NE  ARG A  97      16.473  29.262  51.134  1.00  0.81           N  
+ATOM    769  CZ  ARG A  97      16.310  30.504  50.641  1.00  0.81           C  
+ATOM    770  NH1 ARG A  97      17.151  31.040  49.763  1.00  0.81           N  
+ATOM    771  NH2 ARG A  97      15.222  31.209  50.954  1.00  0.81           N  
+ATOM    772  N   GLU A  98      19.347  23.388  48.103  1.00  0.86           N  
+ATOM    773  CA  GLU A  98      20.378  22.484  47.619  1.00  0.86           C  
+ATOM    774  C   GLU A  98      20.053  21.838  46.260  1.00  0.86           C  
+ATOM    775  O   GLU A  98      20.944  21.607  45.434  1.00  0.86           O  
+ATOM    776  CB  GLU A  98      20.682  21.406  48.696  1.00  0.86           C  
+ATOM    777  CG  GLU A  98      21.401  21.913  49.986  1.00  0.86           C  
+ATOM    778  CD  GLU A  98      20.690  23.042  50.737  1.00  0.86           C  
+ATOM    779  OE1 GLU A  98      19.485  22.886  51.058  1.00  0.86           O  
+ATOM    780  OE2 GLU A  98      21.343  24.093  50.959  1.00  0.86           O  
+ATOM    781  N   ARG A  99      18.761  21.540  45.976  1.00  0.83           N  
+ATOM    782  CA  ARG A  99      18.323  20.908  44.733  1.00  0.83           C  
+ATOM    783  C   ARG A  99      17.687  21.871  43.734  1.00  0.83           C  
+ATOM    784  O   ARG A  99      17.221  21.466  42.668  1.00  0.83           O  
+ATOM    785  CB  ARG A  99      17.327  19.763  45.019  1.00  0.83           C  
+ATOM    786  CG  ARG A  99      17.983  18.566  45.735  1.00  0.83           C  
+ATOM    787  CD  ARG A  99      16.947  17.666  46.400  1.00  0.83           C  
+ATOM    788  NE  ARG A  99      16.479  16.625  45.427  1.00  0.83           N  
+ATOM    789  CZ  ARG A  99      15.255  16.084  45.518  1.00  0.83           C  
+ATOM    790  NH1 ARG A  99      14.373  16.520  46.417  1.00  0.83           N  
+ATOM    791  NH2 ARG A  99      14.881  15.120  44.680  1.00  0.83           N  
+ATOM    792  N   VAL A 100      17.676  23.196  43.993  1.00  0.90           N  
+ATOM    793  CA  VAL A 100      17.083  24.157  43.059  1.00  0.90           C  
+ATOM    794  C   VAL A 100      17.740  24.208  41.676  1.00  0.90           C  
+ATOM    795  O   VAL A 100      17.074  24.342  40.648  1.00  0.90           O  
+ATOM    796  CB  VAL A 100      16.887  25.551  43.655  1.00  0.90           C  
+ATOM    797  CG1 VAL A 100      18.187  26.378  43.742  1.00  0.90           C  
+ATOM    798  CG2 VAL A 100      15.811  26.293  42.836  1.00  0.90           C  
+ATOM    799  N   ASN A 101      19.083  24.070  41.592  1.00  0.90           N  
+ATOM    800  CA  ASN A 101      19.773  23.956  40.321  1.00  0.90           C  
+ATOM    801  C   ASN A 101      19.456  22.649  39.584  1.00  0.90           C  
+ATOM    802  O   ASN A 101      19.236  22.676  38.377  1.00  0.90           O  
+ATOM    803  CB  ASN A 101      21.290  24.218  40.475  1.00  0.90           C  
+ATOM    804  CG  ASN A 101      21.960  24.487  39.132  1.00  0.90           C  
+ATOM    805  OD1 ASN A 101      22.862  23.769  38.718  1.00  0.90           O  
+ATOM    806  ND2 ASN A 101      21.570  25.583  38.441  1.00  0.90           N  
+ATOM    807  N   GLU A 102      19.339  21.501  40.296  1.00  0.82           N  
+ATOM    808  CA  GLU A 102      18.890  20.229  39.731  1.00  0.82           C  
+ATOM    809  C   GLU A 102      17.480  20.349  39.135  1.00  0.82           C  
+ATOM    810  O   GLU A 102      17.199  19.905  38.021  1.00  0.82           O  
+ATOM    811  CB  GLU A 102      18.925  19.113  40.816  1.00  0.82           C  
+ATOM    812  CG  GLU A 102      18.498  17.702  40.328  1.00  0.82           C  
+ATOM    813  CD  GLU A 102      18.305  16.673  41.452  1.00  0.82           C  
+ATOM    814  OE1 GLU A 102      18.617  16.961  42.638  1.00  0.82           O  
+ATOM    815  OE2 GLU A 102      17.761  15.585  41.131  1.00  0.82           O  
+ATOM    816  N   ALA A 103      16.562  21.044  39.844  1.00  0.90           N  
+ATOM    817  CA  ALA A 103      15.234  21.366  39.345  1.00  0.90           C  
+ATOM    818  C   ALA A 103      15.224  22.243  38.086  1.00  0.90           C  
+ATOM    819  O   ALA A 103      14.462  22.009  37.143  1.00  0.90           O  
+ATOM    820  CB  ALA A 103      14.408  22.061  40.445  1.00  0.90           C  
+ATOM    821  N   ARG A 104      16.100  23.264  38.027  1.00  0.83           N  
+ATOM    822  CA  ARG A 104      16.329  24.101  36.862  1.00  0.83           C  
+ATOM    823  C   ARG A 104      16.805  23.300  35.656  1.00  0.83           C  
+ATOM    824  O   ARG A 104      16.276  23.451  34.558  1.00  0.83           O  
+ATOM    825  CB  ARG A 104      17.390  25.187  37.178  1.00  0.83           C  
+ATOM    826  CG  ARG A 104      17.727  26.086  35.974  1.00  0.83           C  
+ATOM    827  CD  ARG A 104      18.885  27.053  36.211  1.00  0.83           C  
+ATOM    828  NE  ARG A 104      19.408  27.411  34.834  1.00  0.83           N  
+ATOM    829  CZ  ARG A 104      20.414  26.783  34.205  1.00  0.83           C  
+ATOM    830  NH1 ARG A 104      21.198  25.904  34.821  1.00  0.83           N  
+ATOM    831  NH2 ARG A 104      20.609  26.975  32.896  1.00  0.83           N  
+ATOM    832  N   GLU A 105      17.798  22.404  35.838  1.00  0.85           N  
+ATOM    833  CA  GLU A 105      18.306  21.540  34.786  1.00  0.85           C  
+ATOM    834  C   GLU A 105      17.278  20.575  34.231  1.00  0.85           C  
+ATOM    835  O   GLU A 105      17.170  20.401  33.015  1.00  0.85           O  
+ATOM    836  CB  GLU A 105      19.576  20.794  35.222  1.00  0.85           C  
+ATOM    837  CG  GLU A 105      20.749  21.784  35.404  1.00  0.85           C  
+ATOM    838  CD  GLU A 105      22.133  21.137  35.355  1.00  0.85           C  
+ATOM    839  OE1 GLU A 105      22.232  19.932  35.015  1.00  0.85           O  
+ATOM    840  OE2 GLU A 105      23.101  21.908  35.580  1.00  0.85           O  
+ATOM    841  N   GLU A 106      16.444  19.957  35.094  1.00  0.84           N  
+ATOM    842  CA  GLU A 106      15.350  19.141  34.608  1.00  0.84           C  
+ATOM    843  C   GLU A 106      14.324  19.922  33.811  1.00  0.84           C  
+ATOM    844  O   GLU A 106      13.939  19.517  32.715  1.00  0.84           O  
+ATOM    845  CB  GLU A 106      14.619  18.356  35.714  1.00  0.84           C  
+ATOM    846  CG  GLU A 106      13.628  17.312  35.139  1.00  0.84           C  
+ATOM    847  CD  GLU A 106      14.298  16.344  34.161  1.00  0.84           C  
+ATOM    848  OE1 GLU A 106      13.803  16.157  33.018  1.00  0.84           O  
+ATOM    849  OE2 GLU A 106      15.361  15.753  34.496  1.00  0.84           O  
+ATOM    850  N   LEU A 107      13.913  21.114  34.302  1.00  0.89           N  
+ATOM    851  CA  LEU A 107      12.991  21.976  33.583  1.00  0.89           C  
+ATOM    852  C   LEU A 107      13.521  22.367  32.203  1.00  0.89           C  
+ATOM    853  O   LEU A 107      12.819  22.243  31.202  1.00  0.89           O  
+ATOM    854  CB  LEU A 107      12.687  23.255  34.404  1.00  0.89           C  
+ATOM    855  CG  LEU A 107      11.836  24.324  33.679  1.00  0.89           C  
+ATOM    856  CD1 LEU A 107      10.472  23.793  33.198  1.00  0.89           C  
+ATOM    857  CD2 LEU A 107      11.677  25.574  34.560  1.00  0.89           C  
+ATOM    858  N   MET A 108      14.802  22.779  32.103  1.00  0.87           N  
+ATOM    859  CA  MET A 108      15.456  23.105  30.845  1.00  0.87           C  
+ATOM    860  C   MET A 108      15.568  21.928  29.882  1.00  0.87           C  
+ATOM    861  O   MET A 108      15.367  22.093  28.681  1.00  0.87           O  
+ATOM    862  CB  MET A 108      16.824  23.809  31.071  1.00  0.87           C  
+ATOM    863  CG  MET A 108      16.711  25.211  31.719  1.00  0.87           C  
+ATOM    864  SD  MET A 108      15.541  26.334  30.883  1.00  0.87           S  
+ATOM    865  CE  MET A 108      15.399  27.498  32.263  1.00  0.87           C  
+ATOM    866  N   ARG A 109      15.839  20.697  30.371  1.00  0.75           N  
+ATOM    867  CA  ARG A 109      15.762  19.506  29.535  1.00  0.75           C  
+ATOM    868  C   ARG A 109      14.376  19.241  28.962  1.00  0.75           C  
+ATOM    869  O   ARG A 109      14.239  19.029  27.761  1.00  0.75           O  
+ATOM    870  CB  ARG A 109      16.258  18.239  30.264  1.00  0.75           C  
+ATOM    871  CG  ARG A 109      17.789  18.221  30.404  1.00  0.75           C  
+ATOM    872  CD  ARG A 109      18.358  16.820  30.617  1.00  0.75           C  
+ATOM    873  NE  ARG A 109      17.893  16.370  31.962  1.00  0.75           N  
+ATOM    874  CZ  ARG A 109      18.350  15.267  32.573  1.00  0.75           C  
+ATOM    875  NH1 ARG A 109      19.184  14.453  31.945  1.00  0.75           N  
+ATOM    876  NH2 ARG A 109      17.921  14.971  33.796  1.00  0.75           N  
+ATOM    877  N   MET A 110      13.315  19.336  29.790  1.00  0.79           N  
+ATOM    878  CA  MET A 110      11.927  19.235  29.354  1.00  0.79           C  
+ATOM    879  C   MET A 110      11.536  20.289  28.331  1.00  0.79           C  
+ATOM    880  O   MET A 110      10.818  20.024  27.369  1.00  0.79           O  
+ATOM    881  CB  MET A 110      10.958  19.385  30.557  1.00  0.79           C  
+ATOM    882  CG  MET A 110      10.899  18.190  31.523  1.00  0.79           C  
+ATOM    883  SD  MET A 110      10.376  16.611  30.762  1.00  0.79           S  
+ATOM    884  CE  MET A 110       8.761  17.108  30.092  1.00  0.79           C  
+ATOM    885  N   LEU A 111      12.013  21.531  28.503  1.00  0.83           N  
+ATOM    886  CA  LEU A 111      11.735  22.608  27.576  1.00  0.83           C  
+ATOM    887  C   LEU A 111      12.502  22.537  26.259  1.00  0.83           C  
+ATOM    888  O   LEU A 111      12.110  23.210  25.302  1.00  0.83           O  
+ATOM    889  CB  LEU A 111      11.971  23.987  28.231  1.00  0.83           C  
+ATOM    890  CG  LEU A 111      11.032  24.323  29.410  1.00  0.83           C  
+ATOM    891  CD1 LEU A 111      11.378  25.724  29.931  1.00  0.83           C  
+ATOM    892  CD2 LEU A 111       9.534  24.202  29.073  1.00  0.83           C  
+ATOM    893  N   ALA A 112      13.568  21.709  26.164  1.00  0.81           N  
+ATOM    894  CA  ALA A 112      14.315  21.484  24.938  1.00  0.81           C  
+ATOM    895  C   ALA A 112      13.829  20.241  24.186  1.00  0.81           C  
+ATOM    896  O   ALA A 112      14.362  19.916  23.119  1.00  0.81           O  
+ATOM    897  CB  ALA A 112      15.826  21.301  25.222  1.00  0.81           C  
+ATOM    898  N   GLU A 113      12.792  19.531  24.678  1.00  0.76           N  
+ATOM    899  CA  GLU A 113      12.028  18.562  23.901  1.00  0.76           C  
+ATOM    900  C   GLU A 113      11.239  19.294  22.808  1.00  0.76           C  
+ATOM    901  O   GLU A 113      10.404  20.163  23.099  1.00  0.76           O  
+ATOM    902  CB  GLU A 113      11.032  17.746  24.782  1.00  0.76           C  
+ATOM    903  CG  GLU A 113      11.645  16.911  25.954  1.00  0.76           C  
+ATOM    904  CD  GLU A 113      12.138  15.477  25.688  1.00  0.76           C  
+ATOM    905  OE1 GLU A 113      11.785  14.857  24.659  1.00  0.76           O  
+ATOM    906  OE2 GLU A 113      12.835  14.960  26.611  1.00  0.76           O  
+ATOM    907  N   ASP A 114      11.477  18.962  21.517  1.00  0.77           N  
+ATOM    908  CA  ASP A 114      10.875  19.573  20.333  1.00  0.77           C  
+ATOM    909  C   ASP A 114       9.352  19.432  20.354  1.00  0.77           C  
+ATOM    910  O   ASP A 114       8.596  20.323  19.964  1.00  0.77           O  
+ATOM    911  CB  ASP A 114      11.452  18.947  19.026  1.00  0.77           C  
+ATOM    912  CG  ASP A 114      10.746  19.564  17.819  1.00  0.77           C  
+ATOM    913  OD1 ASP A 114      10.802  20.814  17.691  1.00  0.77           O  
+ATOM    914  OD2 ASP A 114      10.034  18.824  17.092  1.00  0.77           O  
+ATOM    915  N   GLU A 115       8.855  18.300  20.855  1.00  0.75           N  
+ATOM    916  CA  GLU A 115       7.458  17.966  20.942  1.00  0.75           C  
+ATOM    917  C   GLU A 115       6.699  18.888  21.904  1.00  0.75           C  
+ATOM    918  O   GLU A 115       5.487  19.062  21.798  1.00  0.75           O  
+ATOM    919  CB  GLU A 115       7.314  16.475  21.353  1.00  0.75           C  
+ATOM    920  CG  GLU A 115       8.053  15.459  20.425  1.00  0.75           C  
+ATOM    921  CD  GLU A 115       9.574  15.307  20.624  1.00  0.75           C  
+ATOM    922  OE1 GLU A 115      10.169  16.061  21.436  1.00  0.75           O  
+ATOM    923  OE2 GLU A 115      10.142  14.417  19.932  1.00  0.75           O  
+ATOM    924  N   LEU A 116       7.418  19.561  22.832  1.00  0.84           N  
+ATOM    925  CA  LEU A 116       6.870  20.506  23.785  1.00  0.84           C  
+ATOM    926  C   LEU A 116       7.201  21.939  23.415  1.00  0.84           C  
+ATOM    927  O   LEU A 116       7.131  22.832  24.261  1.00  0.84           O  
+ATOM    928  CB  LEU A 116       7.403  20.242  25.212  1.00  0.84           C  
+ATOM    929  CG  LEU A 116       6.967  18.889  25.793  1.00  0.84           C  
+ATOM    930  CD1 LEU A 116       7.644  18.654  27.142  1.00  0.84           C  
+ATOM    931  CD2 LEU A 116       5.446  18.783  25.955  1.00  0.84           C  
+ATOM    932  N   ARG A 117       7.542  22.249  22.154  1.00  0.73           N  
+ATOM    933  CA  ARG A 117       7.831  23.606  21.702  1.00  0.73           C  
+ATOM    934  C   ARG A 117       6.727  24.649  21.962  1.00  0.73           C  
+ATOM    935  O   ARG A 117       7.019  25.734  22.461  1.00  0.73           O  
+ATOM    936  CB  ARG A 117       8.271  23.597  20.218  1.00  0.73           C  
+ATOM    937  CG  ARG A 117       7.243  23.080  19.198  1.00  0.73           C  
+ATOM    938  CD  ARG A 117       7.859  22.963  17.805  1.00  0.73           C  
+ATOM    939  NE  ARG A 117       6.760  22.510  16.900  1.00  0.73           N  
+ATOM    940  CZ  ARG A 117       6.416  21.223  16.748  1.00  0.73           C  
+ATOM    941  NH1 ARG A 117       7.055  20.234  17.365  1.00  0.73           N  
+ATOM    942  NH2 ARG A 117       5.383  20.934  15.955  1.00  0.73           N  
+ATOM    943  N   ASP A 118       5.442  24.292  21.731  1.00  0.82           N  
+ATOM    944  CA  ASP A 118       4.295  25.185  21.809  1.00  0.82           C  
+ATOM    945  C   ASP A 118       3.585  25.110  23.170  1.00  0.82           C  
+ATOM    946  O   ASP A 118       2.639  25.848  23.446  1.00  0.82           O  
+ATOM    947  CB  ASP A 118       3.296  24.781  20.682  1.00  0.82           C  
+ATOM    948  CG  ASP A 118       3.908  24.983  19.297  1.00  0.82           C  
+ATOM    949  OD1 ASP A 118       4.894  25.750  19.173  1.00  0.82           O  
+ATOM    950  OD2 ASP A 118       3.421  24.325  18.339  1.00  0.82           O  
+ATOM    951  N   ALA A 119       4.032  24.214  24.088  1.00  0.90           N  
+ATOM    952  CA  ALA A 119       3.421  24.064  25.403  1.00  0.90           C  
+ATOM    953  C   ALA A 119       3.571  25.307  26.286  1.00  0.90           C  
+ATOM    954  O   ALA A 119       4.654  25.892  26.391  1.00  0.90           O  
+ATOM    955  CB  ALA A 119       3.917  22.799  26.162  1.00  0.90           C  
+ATOM    956  N   VAL A 120       2.477  25.739  26.957  1.00  0.90           N  
+ATOM    957  CA  VAL A 120       2.519  26.768  27.989  1.00  0.90           C  
+ATOM    958  C   VAL A 120       3.161  26.237  29.255  1.00  0.90           C  
+ATOM    959  O   VAL A 120       3.093  25.043  29.549  1.00  0.90           O  
+ATOM    960  CB  VAL A 120       1.165  27.419  28.291  1.00  0.90           C  
+ATOM    961  CG1 VAL A 120       0.553  27.948  26.981  1.00  0.90           C  
+ATOM    962  CG2 VAL A 120       0.176  26.456  28.970  1.00  0.90           C  
+ATOM    963  N   LEU A 121       3.826  27.096  30.040  1.00  0.90           N  
+ATOM    964  CA  LEU A 121       4.523  26.647  31.223  1.00  0.90           C  
+ATOM    965  C   LEU A 121       3.925  27.277  32.460  1.00  0.90           C  
+ATOM    966  O   LEU A 121       3.855  28.496  32.601  1.00  0.90           O  
+ATOM    967  CB  LEU A 121       6.024  26.972  31.109  1.00  0.90           C  
+ATOM    968  CG  LEU A 121       6.853  26.675  32.373  1.00  0.90           C  
+ATOM    969  CD1 LEU A 121       6.876  25.182  32.741  1.00  0.90           C  
+ATOM    970  CD2 LEU A 121       8.279  27.199  32.186  1.00  0.90           C  
+ATOM    971  N   LEU A 122       3.489  26.462  33.425  1.00  0.91           N  
+ATOM    972  CA  LEU A 122       3.053  26.970  34.700  1.00  0.91           C  
+ATOM    973  C   LEU A 122       4.010  26.429  35.738  1.00  0.91           C  
+ATOM    974  O   LEU A 122       4.178  25.220  35.886  1.00  0.91           O  
+ATOM    975  CB  LEU A 122       1.593  26.557  34.980  1.00  0.91           C  
+ATOM    976  CG  LEU A 122       1.083  26.870  36.399  1.00  0.91           C  
+ATOM    977  CD1 LEU A 122       1.143  28.364  36.761  1.00  0.91           C  
+ATOM    978  CD2 LEU A 122      -0.346  26.340  36.557  1.00  0.91           C  
+ATOM    979  N   VAL A 123       4.700  27.310  36.479  1.00  0.93           N  
+ATOM    980  CA  VAL A 123       5.578  26.892  37.553  1.00  0.93           C  
+ATOM    981  C   VAL A 123       4.854  27.075  38.867  1.00  0.93           C  
+ATOM    982  O   VAL A 123       4.385  28.164  39.202  1.00  0.93           O  
+ATOM    983  CB  VAL A 123       6.907  27.637  37.572  1.00  0.93           C  
+ATOM    984  CG1 VAL A 123       7.778  27.189  38.770  1.00  0.93           C  
+ATOM    985  CG2 VAL A 123       7.635  27.367  36.240  1.00  0.93           C  
+ATOM    986  N   PHE A 124       4.749  26.002  39.665  1.00  0.91           N  
+ATOM    987  CA  PHE A 124       4.263  26.082  41.022  1.00  0.91           C  
+ATOM    988  C   PHE A 124       5.465  26.118  41.941  1.00  0.91           C  
+ATOM    989  O   PHE A 124       6.214  25.147  42.072  1.00  0.91           O  
+ATOM    990  CB  PHE A 124       3.337  24.904  41.438  1.00  0.91           C  
+ATOM    991  CG  PHE A 124       1.962  24.988  40.839  1.00  0.91           C  
+ATOM    992  CD1 PHE A 124       1.231  26.184  40.877  1.00  0.91           C  
+ATOM    993  CD2 PHE A 124       1.326  23.836  40.353  1.00  0.91           C  
+ATOM    994  CE1 PHE A 124      -0.109  26.227  40.485  1.00  0.91           C  
+ATOM    995  CE2 PHE A 124      -0.015  23.874  39.949  1.00  0.91           C  
+ATOM    996  CZ  PHE A 124      -0.739  25.068  40.030  1.00  0.91           C  
+ATOM    997  N   ALA A 125       5.674  27.273  42.600  1.00  0.92           N  
+ATOM    998  CA  ALA A 125       6.699  27.462  43.595  1.00  0.92           C  
+ATOM    999  C   ALA A 125       6.120  27.020  44.928  1.00  0.92           C  
+ATOM   1000  O   ALA A 125       5.514  27.810  45.653  1.00  0.92           O  
+ATOM   1001  CB  ALA A 125       7.156  28.944  43.626  1.00  0.92           C  
+ATOM   1002  N   ASN A 126       6.278  25.724  45.256  1.00  0.89           N  
+ATOM   1003  CA  ASN A 126       5.540  25.051  46.301  1.00  0.89           C  
+ATOM   1004  C   ASN A 126       6.254  25.117  47.640  1.00  0.89           C  
+ATOM   1005  O   ASN A 126       7.453  25.372  47.720  1.00  0.89           O  
+ATOM   1006  CB  ASN A 126       5.252  23.585  45.859  1.00  0.89           C  
+ATOM   1007  CG  ASN A 126       4.244  22.895  46.764  1.00  0.89           C  
+ATOM   1008  OD1 ASN A 126       3.294  23.491  47.287  1.00  0.89           O  
+ATOM   1009  ND2 ASN A 126       4.459  21.590  47.019  1.00  0.89           N  
+ATOM   1010  N   LYS A 127       5.490  24.882  48.726  1.00  0.85           N  
+ATOM   1011  CA  LYS A 127       5.953  24.835  50.102  1.00  0.85           C  
+ATOM   1012  C   LYS A 127       6.294  26.207  50.646  1.00  0.85           C  
+ATOM   1013  O   LYS A 127       7.269  26.402  51.376  1.00  0.85           O  
+ATOM   1014  CB  LYS A 127       7.106  23.833  50.340  1.00  0.85           C  
+ATOM   1015  CG  LYS A 127       6.901  22.474  49.664  1.00  0.85           C  
+ATOM   1016  CD  LYS A 127       7.705  21.372  50.352  1.00  0.85           C  
+ATOM   1017  CE  LYS A 127       7.636  20.061  49.575  1.00  0.85           C  
+ATOM   1018  NZ  LYS A 127       8.666  19.137  50.069  1.00  0.85           N  
+ATOM   1019  N   GLN A 128       5.453  27.203  50.313  1.00  0.80           N  
+ATOM   1020  CA  GLN A 128       5.591  28.584  50.734  1.00  0.80           C  
+ATOM   1021  C   GLN A 128       5.219  28.809  52.192  1.00  0.80           C  
+ATOM   1022  O   GLN A 128       5.469  29.882  52.748  1.00  0.80           O  
+ATOM   1023  CB  GLN A 128       4.689  29.487  49.863  1.00  0.80           C  
+ATOM   1024  CG  GLN A 128       5.096  29.554  48.377  1.00  0.80           C  
+ATOM   1025  CD  GLN A 128       6.436  30.256  48.181  1.00  0.80           C  
+ATOM   1026  OE1 GLN A 128       6.680  31.364  48.671  1.00  0.80           O  
+ATOM   1027  NE2 GLN A 128       7.330  29.601  47.411  1.00  0.80           N  
+ATOM   1028  N   ASP A 129       4.617  27.807  52.855  1.00  0.82           N  
+ATOM   1029  CA  ASP A 129       4.304  27.780  54.260  1.00  0.82           C  
+ATOM   1030  C   ASP A 129       5.590  27.631  55.079  1.00  0.82           C  
+ATOM   1031  O   ASP A 129       5.667  28.042  56.239  1.00  0.82           O  
+ATOM   1032  CB  ASP A 129       3.275  26.631  54.525  1.00  0.82           C  
+ATOM   1033  CG  ASP A 129       3.769  25.269  54.042  1.00  0.82           C  
+ATOM   1034  OD1 ASP A 129       4.026  25.143  52.812  1.00  0.82           O  
+ATOM   1035  OD2 ASP A 129       3.897  24.351  54.887  1.00  0.82           O  
+ATOM   1036  N   LEU A 130       6.666  27.064  54.487  1.00  0.80           N  
+ATOM   1037  CA  LEU A 130       7.893  26.814  55.217  1.00  0.80           C  
+ATOM   1038  C   LEU A 130       8.760  28.062  55.435  1.00  0.80           C  
+ATOM   1039  O   LEU A 130       8.986  28.815  54.489  1.00  0.80           O  
+ATOM   1040  CB  LEU A 130       8.752  25.725  54.540  1.00  0.80           C  
+ATOM   1041  CG  LEU A 130       8.070  24.345  54.490  1.00  0.80           C  
+ATOM   1042  CD1 LEU A 130       8.908  23.354  53.673  1.00  0.80           C  
+ATOM   1043  CD2 LEU A 130       7.803  23.763  55.886  1.00  0.80           C  
+ATOM   1044  N   PRO A 131       9.322  28.327  56.627  1.00  0.78           N  
+ATOM   1045  CA  PRO A 131       9.781  29.662  57.031  1.00  0.78           C  
+ATOM   1046  C   PRO A 131      10.951  30.203  56.218  1.00  0.78           C  
+ATOM   1047  O   PRO A 131      11.135  31.414  56.144  1.00  0.78           O  
+ATOM   1048  CB  PRO A 131      10.123  29.526  58.531  1.00  0.78           C  
+ATOM   1049  CG  PRO A 131      10.191  28.021  58.808  1.00  0.78           C  
+ATOM   1050  CD  PRO A 131       9.258  27.415  57.764  1.00  0.78           C  
+ATOM   1051  N   ASN A 132      11.767  29.307  55.632  1.00  0.78           N  
+ATOM   1052  CA  ASN A 132      12.946  29.638  54.859  1.00  0.78           C  
+ATOM   1053  C   ASN A 132      12.752  29.350  53.375  1.00  0.78           C  
+ATOM   1054  O   ASN A 132      13.726  29.334  52.613  1.00  0.78           O  
+ATOM   1055  CB  ASN A 132      14.188  28.876  55.410  1.00  0.78           C  
+ATOM   1056  CG  ASN A 132      15.076  29.846  56.174  1.00  0.78           C  
+ATOM   1057  OD1 ASN A 132      15.253  29.752  57.390  1.00  0.78           O  
+ATOM   1058  ND2 ASN A 132      15.652  30.822  55.441  1.00  0.78           N  
+ATOM   1059  N   ALA A 133      11.497  29.124  52.916  1.00  0.86           N  
+ATOM   1060  CA  ALA A 133      11.168  28.941  51.515  1.00  0.86           C  
+ATOM   1061  C   ALA A 133      11.574  30.148  50.681  1.00  0.86           C  
+ATOM   1062  O   ALA A 133      11.454  31.291  51.113  1.00  0.86           O  
+ATOM   1063  CB  ALA A 133       9.660  28.650  51.324  1.00  0.86           C  
+ATOM   1064  N   MET A 134      12.128  29.910  49.480  1.00  0.83           N  
+ATOM   1065  CA  MET A 134      12.298  30.918  48.455  1.00  0.83           C  
+ATOM   1066  C   MET A 134      10.937  31.351  47.944  1.00  0.83           C  
+ATOM   1067  O   MET A 134      10.077  30.512  47.673  1.00  0.83           O  
+ATOM   1068  CB  MET A 134      13.118  30.346  47.269  1.00  0.83           C  
+ATOM   1069  CG  MET A 134      14.563  29.993  47.662  1.00  0.83           C  
+ATOM   1070  SD  MET A 134      15.625  29.313  46.348  1.00  0.83           S  
+ATOM   1071  CE  MET A 134      14.935  27.640  46.454  1.00  0.83           C  
+ATOM   1072  N   ASN A 135      10.672  32.655  47.781  1.00  0.81           N  
+ATOM   1073  CA  ASN A 135       9.401  33.076  47.223  1.00  0.81           C  
+ATOM   1074  C   ASN A 135       9.378  32.957  45.703  1.00  0.81           C  
+ATOM   1075  O   ASN A 135      10.356  32.566  45.068  1.00  0.81           O  
+ATOM   1076  CB  ASN A 135       8.881  34.418  47.807  1.00  0.81           C  
+ATOM   1077  CG  ASN A 135       9.617  35.660  47.325  1.00  0.81           C  
+ATOM   1078  OD1 ASN A 135      10.232  35.704  46.258  1.00  0.81           O  
+ATOM   1079  ND2 ASN A 135       9.458  36.759  48.103  1.00  0.81           N  
+ATOM   1080  N   ALA A 136       8.232  33.273  45.062  1.00  0.87           N  
+ATOM   1081  CA  ALA A 136       8.086  33.189  43.620  1.00  0.87           C  
+ATOM   1082  C   ALA A 136       9.112  34.018  42.836  1.00  0.87           C  
+ATOM   1083  O   ALA A 136       9.657  33.547  41.840  1.00  0.87           O  
+ATOM   1084  CB  ALA A 136       6.649  33.601  43.237  1.00  0.87           C  
+ATOM   1085  N   ALA A 137       9.441  35.247  43.287  1.00  0.85           N  
+ATOM   1086  CA  ALA A 137      10.472  36.076  42.690  1.00  0.85           C  
+ATOM   1087  C   ALA A 137      11.877  35.452  42.760  1.00  0.85           C  
+ATOM   1088  O   ALA A 137      12.575  35.393  41.751  1.00  0.85           O  
+ATOM   1089  CB  ALA A 137      10.446  37.477  43.342  1.00  0.85           C  
+ATOM   1090  N   GLU A 138      12.293  34.898  43.924  1.00  0.81           N  
+ATOM   1091  CA  GLU A 138      13.554  34.177  44.069  1.00  0.81           C  
+ATOM   1092  C   GLU A 138      13.644  32.900  43.217  1.00  0.81           C  
+ATOM   1093  O   GLU A 138      14.671  32.611  42.601  1.00  0.81           O  
+ATOM   1094  CB  GLU A 138      13.782  33.764  45.540  1.00  0.81           C  
+ATOM   1095  CG  GLU A 138      13.927  34.896  46.578  1.00  0.81           C  
+ATOM   1096  CD  GLU A 138      13.982  34.230  47.953  1.00  0.81           C  
+ATOM   1097  OE1 GLU A 138      15.045  33.680  48.366  1.00  0.81           O  
+ATOM   1098  OE2 GLU A 138      12.880  34.165  48.564  1.00  0.81           O  
+ATOM   1099  N   ILE A 139      12.552  32.095  43.150  1.00  0.87           N  
+ATOM   1100  CA  ILE A 139      12.450  30.898  42.304  1.00  0.87           C  
+ATOM   1101  C   ILE A 139      12.582  31.217  40.826  1.00  0.87           C  
+ATOM   1102  O   ILE A 139      13.278  30.516  40.092  1.00  0.87           O  
+ATOM   1103  CB  ILE A 139      11.166  30.096  42.544  1.00  0.87           C  
+ATOM   1104  CG1 ILE A 139      11.160  29.466  43.953  1.00  0.87           C  
+ATOM   1105  CG2 ILE A 139      10.923  28.995  41.479  1.00  0.87           C  
+ATOM   1106  CD1 ILE A 139      12.220  28.382  44.174  1.00  0.87           C  
+ATOM   1107  N   THR A 140      11.950  32.314  40.359  1.00  0.88           N  
+ATOM   1108  CA  THR A 140      12.038  32.810  38.980  1.00  0.88           C  
+ATOM   1109  C   THR A 140      13.462  33.039  38.519  1.00  0.88           C  
+ATOM   1110  O   THR A 140      13.848  32.594  37.434  1.00  0.88           O  
+ATOM   1111  CB  THR A 140      11.274  34.121  38.806  1.00  0.88           C  
+ATOM   1112  OG1 THR A 140       9.888  33.886  38.951  1.00  0.88           O  
+ATOM   1113  CG2 THR A 140      11.389  34.774  37.425  1.00  0.88           C  
+ATOM   1114  N   ASP A 141      14.284  33.688  39.366  1.00  0.85           N  
+ATOM   1115  CA  ASP A 141      15.705  33.879  39.157  1.00  0.85           C  
+ATOM   1116  C   ASP A 141      16.500  32.575  39.170  1.00  0.85           C  
+ATOM   1117  O   ASP A 141      17.296  32.294  38.274  1.00  0.85           O  
+ATOM   1118  CB  ASP A 141      16.228  34.829  40.262  1.00  0.85           C  
+ATOM   1119  CG  ASP A 141      15.777  36.265  40.015  1.00  0.85           C  
+ATOM   1120  OD1 ASP A 141      15.153  36.538  38.956  1.00  0.85           O  
+ATOM   1121  OD2 ASP A 141      16.088  37.109  40.892  1.00  0.85           O  
+ATOM   1122  N   LYS A 142      16.259  31.702  40.169  1.00  0.84           N  
+ATOM   1123  CA  LYS A 142      16.951  30.429  40.319  1.00  0.84           C  
+ATOM   1124  C   LYS A 142      16.683  29.395  39.242  1.00  0.84           C  
+ATOM   1125  O   LYS A 142      17.553  28.579  38.924  1.00  0.84           O  
+ATOM   1126  CB  LYS A 142      16.661  29.789  41.687  1.00  0.84           C  
+ATOM   1127  CG  LYS A 142      17.311  30.539  42.861  1.00  0.84           C  
+ATOM   1128  CD  LYS A 142      18.848  30.431  42.854  1.00  0.84           C  
+ATOM   1129  CE  LYS A 142      19.507  30.906  44.152  1.00  0.84           C  
+ATOM   1130  NZ  LYS A 142      20.680  30.052  44.461  1.00  0.84           N  
+ATOM   1131  N   LEU A 143      15.478  29.407  38.650  1.00  0.89           N  
+ATOM   1132  CA  LEU A 143      15.136  28.574  37.521  1.00  0.89           C  
+ATOM   1133  C   LEU A 143      15.488  29.234  36.196  1.00  0.89           C  
+ATOM   1134  O   LEU A 143      15.427  28.601  35.149  1.00  0.89           O  
+ATOM   1135  CB  LEU A 143      13.627  28.230  37.528  1.00  0.89           C  
+ATOM   1136  CG  LEU A 143      13.149  27.352  38.704  1.00  0.89           C  
+ATOM   1137  CD1 LEU A 143      11.648  27.060  38.551  1.00  0.89           C  
+ATOM   1138  CD2 LEU A 143      13.917  26.029  38.832  1.00  0.89           C  
+ATOM   1139  N   GLY A 144      15.928  30.511  36.190  1.00  0.88           N  
+ATOM   1140  CA  GLY A 144      16.309  31.192  34.958  1.00  0.88           C  
+ATOM   1141  C   GLY A 144      15.161  31.525  34.038  1.00  0.88           C  
+ATOM   1142  O   GLY A 144      15.322  31.590  32.827  1.00  0.88           O  
+ATOM   1143  N   LEU A 145      13.952  31.754  34.571  1.00  0.88           N  
+ATOM   1144  CA  LEU A 145      12.750  31.915  33.766  1.00  0.88           C  
+ATOM   1145  C   LEU A 145      12.742  33.144  32.854  1.00  0.88           C  
+ATOM   1146  O   LEU A 145      12.198  33.128  31.753  1.00  0.88           O  
+ATOM   1147  CB  LEU A 145      11.483  31.893  34.648  1.00  0.88           C  
+ATOM   1148  CG  LEU A 145      11.289  30.625  35.512  1.00  0.88           C  
+ATOM   1149  CD1 LEU A 145       9.958  30.698  36.279  1.00  0.88           C  
+ATOM   1150  CD2 LEU A 145      11.342  29.330  34.686  1.00  0.88           C  
+ATOM   1151  N   HIS A 146      13.426  34.233  33.253  1.00  0.80           N  
+ATOM   1152  CA  HIS A 146      13.600  35.428  32.436  1.00  0.80           C  
+ATOM   1153  C   HIS A 146      14.495  35.208  31.214  1.00  0.80           C  
+ATOM   1154  O   HIS A 146      14.547  36.041  30.300  1.00  0.80           O  
+ATOM   1155  CB  HIS A 146      14.133  36.596  33.301  1.00  0.80           C  
+ATOM   1156  CG  HIS A 146      13.120  37.073  34.291  1.00  0.80           C  
+ATOM   1157  ND1 HIS A 146      11.939  37.570  33.785  1.00  0.80           N  
+ATOM   1158  CD2 HIS A 146      13.150  37.206  35.644  1.00  0.80           C  
+ATOM   1159  CE1 HIS A 146      11.272  38.001  34.831  1.00  0.80           C  
+ATOM   1160  NE2 HIS A 146      11.956  37.807  35.984  1.00  0.80           N  
+ATOM   1161  N   SER A 147      15.214  34.065  31.125  1.00  0.83           N  
+ATOM   1162  CA  SER A 147      16.030  33.741  29.962  1.00  0.83           C  
+ATOM   1163  C   SER A 147      15.202  33.032  28.904  1.00  0.83           C  
+ATOM   1164  O   SER A 147      15.612  32.948  27.744  1.00  0.83           O  
+ATOM   1165  CB  SER A 147      17.340  32.953  30.283  1.00  0.83           C  
+ATOM   1166  OG  SER A 147      17.134  31.575  30.584  1.00  0.83           O  
+ATOM   1167  N   LEU A 148      13.976  32.566  29.250  1.00  0.82           N  
+ATOM   1168  CA  LEU A 148      13.064  31.914  28.332  1.00  0.82           C  
+ATOM   1169  C   LEU A 148      12.653  32.823  27.184  1.00  0.82           C  
+ATOM   1170  O   LEU A 148      12.506  34.043  27.317  1.00  0.82           O  
+ATOM   1171  CB  LEU A 148      11.813  31.294  29.032  1.00  0.82           C  
+ATOM   1172  CG  LEU A 148      12.115  30.191  30.077  1.00  0.82           C  
+ATOM   1173  CD1 LEU A 148      10.833  29.803  30.845  1.00  0.82           C  
+ATOM   1174  CD2 LEU A 148      12.782  28.956  29.445  1.00  0.82           C  
+ATOM   1175  N   ARG A 149      12.489  32.239  25.990  1.00  0.68           N  
+ATOM   1176  CA  ARG A 149      12.075  32.941  24.806  1.00  0.68           C  
+ATOM   1177  C   ARG A 149      11.079  32.059  24.119  1.00  0.68           C  
+ATOM   1178  O   ARG A 149      11.167  30.835  24.206  1.00  0.68           O  
+ATOM   1179  CB  ARG A 149      13.249  33.197  23.832  1.00  0.68           C  
+ATOM   1180  CG  ARG A 149      14.323  34.135  24.410  1.00  0.68           C  
+ATOM   1181  CD  ARG A 149      13.788  35.535  24.712  1.00  0.68           C  
+ATOM   1182  NE  ARG A 149      14.925  36.331  25.261  1.00  0.68           N  
+ATOM   1183  CZ  ARG A 149      15.134  36.569  26.565  1.00  0.68           C  
+ATOM   1184  NH1 ARG A 149      14.338  36.103  27.521  1.00  0.68           N  
+ATOM   1185  NH2 ARG A 149      16.181  37.318  26.910  1.00  0.68           N  
+ATOM   1186  N   HIS A 150      10.077  32.679  23.465  1.00  0.72           N  
+ATOM   1187  CA  HIS A 150       9.040  32.002  22.705  1.00  0.72           C  
+ATOM   1188  C   HIS A 150       8.251  31.013  23.529  1.00  0.72           C  
+ATOM   1189  O   HIS A 150       7.838  29.949  23.082  1.00  0.72           O  
+ATOM   1190  CB  HIS A 150       9.609  31.391  21.412  1.00  0.72           C  
+ATOM   1191  CG  HIS A 150      10.308  32.431  20.600  1.00  0.72           C  
+ATOM   1192  ND1 HIS A 150       9.565  33.495  20.134  1.00  0.72           N  
+ATOM   1193  CD2 HIS A 150      11.608  32.563  20.224  1.00  0.72           C  
+ATOM   1194  CE1 HIS A 150      10.416  34.247  19.473  1.00  0.72           C  
+ATOM   1195  NE2 HIS A 150      11.669  33.732  19.496  1.00  0.72           N  
+ATOM   1196  N   ARG A 151       8.009  31.378  24.792  1.00  0.74           N  
+ATOM   1197  CA  ARG A 151       7.403  30.503  25.735  1.00  0.74           C  
+ATOM   1198  C   ARG A 151       6.517  31.376  26.543  1.00  0.74           C  
+ATOM   1199  O   ARG A 151       6.936  32.410  27.065  1.00  0.74           O  
+ATOM   1200  CB  ARG A 151       8.453  29.877  26.677  1.00  0.74           C  
+ATOM   1201  CG  ARG A 151       7.889  28.865  27.699  1.00  0.74           C  
+ATOM   1202  CD  ARG A 151       7.348  27.549  27.111  1.00  0.74           C  
+ATOM   1203  NE  ARG A 151       8.508  26.840  26.473  1.00  0.74           N  
+ATOM   1204  CZ  ARG A 151       8.407  25.677  25.810  1.00  0.74           C  
+ATOM   1205  NH1 ARG A 151       7.258  25.033  25.705  1.00  0.74           N  
+ATOM   1206  NH2 ARG A 151       9.483  25.117  25.251  1.00  0.74           N  
+ATOM   1207  N   ASN A 152       5.265  30.961  26.662  1.00  0.85           N  
+ATOM   1208  CA  ASN A 152       4.302  31.580  27.514  1.00  0.85           C  
+ATOM   1209  C   ASN A 152       4.414  30.927  28.881  1.00  0.85           C  
+ATOM   1210  O   ASN A 152       4.231  29.714  29.001  1.00  0.85           O  
+ATOM   1211  CB  ASN A 152       2.959  31.297  26.831  1.00  0.85           C  
+ATOM   1212  CG  ASN A 152       1.799  32.028  27.419  1.00  0.85           C  
+ATOM   1213  OD1 ASN A 152       1.962  32.942  28.308  1.00  0.85           O  
+ATOM   1214  ND2 ASN A 152       0.606  31.696  26.961  1.00  0.85           N  
+ATOM   1215  N   TRP A 153       4.767  31.696  29.926  1.00  0.85           N  
+ATOM   1216  CA  TRP A 153       5.010  31.125  31.222  1.00  0.85           C  
+ATOM   1217  C   TRP A 153       4.455  31.983  32.319  1.00  0.85           C  
+ATOM   1218  O   TRP A 153       4.233  33.183  32.164  1.00  0.85           O  
+ATOM   1219  CB  TRP A 153       6.521  30.808  31.461  1.00  0.85           C  
+ATOM   1220  CG  TRP A 153       7.480  31.998  31.470  1.00  0.85           C  
+ATOM   1221  CD1 TRP A 153       8.126  32.591  30.420  1.00  0.85           C  
+ATOM   1222  CD2 TRP A 153       7.859  32.748  32.640  1.00  0.85           C  
+ATOM   1223  NE1 TRP A 153       8.870  33.663  30.857  1.00  0.85           N  
+ATOM   1224  CE2 TRP A 153       8.708  33.786  32.212  1.00  0.85           C  
+ATOM   1225  CE3 TRP A 153       7.524  32.611  33.981  1.00  0.85           C  
+ATOM   1226  CZ2 TRP A 153       9.234  34.701  33.115  1.00  0.85           C  
+ATOM   1227  CZ3 TRP A 153       8.017  33.560  34.886  1.00  0.85           C  
+ATOM   1228  CH2 TRP A 153       8.875  34.579  34.464  1.00  0.85           C  
+ATOM   1229  N   TYR A 154       4.204  31.339  33.465  1.00  0.89           N  
+ATOM   1230  CA  TYR A 154       3.714  31.984  34.648  1.00  0.89           C  
+ATOM   1231  C   TYR A 154       4.275  31.236  35.827  1.00  0.89           C  
+ATOM   1232  O   TYR A 154       4.522  30.031  35.751  1.00  0.89           O  
+ATOM   1233  CB  TYR A 154       2.179  31.921  34.654  1.00  0.89           C  
+ATOM   1234  CG  TYR A 154       1.526  32.758  35.707  1.00  0.89           C  
+ATOM   1235  CD1 TYR A 154       1.483  34.151  35.566  1.00  0.89           C  
+ATOM   1236  CD2 TYR A 154       0.913  32.165  36.819  1.00  0.89           C  
+ATOM   1237  CE1 TYR A 154       0.831  34.944  36.522  1.00  0.89           C  
+ATOM   1238  CE2 TYR A 154       0.258  32.952  37.770  1.00  0.89           C  
+ATOM   1239  CZ  TYR A 154       0.209  34.336  37.620  1.00  0.89           C  
+ATOM   1240  OH  TYR A 154      -0.482  35.069  38.599  1.00  0.89           O  
+ATOM   1241  N   ILE A 155       4.508  31.940  36.945  1.00  0.89           N  
+ATOM   1242  CA  ILE A 155       4.923  31.332  38.188  1.00  0.89           C  
+ATOM   1243  C   ILE A 155       3.925  31.705  39.249  1.00  0.89           C  
+ATOM   1244  O   ILE A 155       3.521  32.857  39.399  1.00  0.89           O  
+ATOM   1245  CB  ILE A 155       6.349  31.665  38.625  1.00  0.89           C  
+ATOM   1246  CG1 ILE A 155       6.762  30.862  39.888  1.00  0.89           C  
+ATOM   1247  CG2 ILE A 155       6.544  33.190  38.788  1.00  0.89           C  
+ATOM   1248  CD1 ILE A 155       8.275  30.673  40.018  1.00  0.89           C  
+ATOM   1249  N   GLN A 156       3.476  30.699  40.003  1.00  0.87           N  
+ATOM   1250  CA  GLN A 156       2.518  30.854  41.053  1.00  0.87           C  
+ATOM   1251  C   GLN A 156       3.128  30.323  42.339  1.00  0.87           C  
+ATOM   1252  O   GLN A 156       3.650  29.209  42.389  1.00  0.87           O  
+ATOM   1253  CB  GLN A 156       1.254  30.073  40.649  1.00  0.87           C  
+ATOM   1254  CG  GLN A 156       0.133  30.065  41.700  1.00  0.87           C  
+ATOM   1255  CD  GLN A 156      -0.402  31.466  41.968  1.00  0.87           C  
+ATOM   1256  OE1 GLN A 156      -0.830  32.160  41.039  1.00  0.87           O  
+ATOM   1257  NE2 GLN A 156      -0.393  31.921  43.240  1.00  0.87           N  
+ATOM   1258  N   ALA A 157       3.115  31.124  43.421  1.00  0.91           N  
+ATOM   1259  CA  ALA A 157       3.412  30.679  44.769  1.00  0.91           C  
+ATOM   1260  C   ALA A 157       2.318  29.747  45.293  1.00  0.91           C  
+ATOM   1261  O   ALA A 157       1.135  30.067  45.165  1.00  0.91           O  
+ATOM   1262  CB  ALA A 157       3.545  31.931  45.667  1.00  0.91           C  
+ATOM   1263  N   THR A 158       2.672  28.576  45.871  1.00  0.90           N  
+ATOM   1264  CA  THR A 158       1.672  27.622  46.333  1.00  0.90           C  
+ATOM   1265  C   THR A 158       2.013  27.007  47.672  1.00  0.90           C  
+ATOM   1266  O   THR A 158       3.165  26.917  48.098  1.00  0.90           O  
+ATOM   1267  CB  THR A 158       1.379  26.455  45.377  1.00  0.90           C  
+ATOM   1268  OG1 THR A 158       2.515  25.656  45.087  1.00  0.90           O  
+ATOM   1269  CG2 THR A 158       0.904  26.968  44.022  1.00  0.90           C  
+ATOM   1270  N   CYS A 159       0.977  26.535  48.382  1.00  0.91           N  
+ATOM   1271  CA  CYS A 159       1.131  25.552  49.430  1.00  0.91           C  
+ATOM   1272  C   CYS A 159       0.199  24.438  49.020  1.00  0.91           C  
+ATOM   1273  O   CYS A 159      -1.024  24.566  49.037  1.00  0.91           O  
+ATOM   1274  CB  CYS A 159       0.802  26.123  50.843  1.00  0.91           C  
+ATOM   1275  SG  CYS A 159       0.820  24.934  52.220  1.00  0.91           S  
+ATOM   1276  N   ALA A 160       0.746  23.293  48.583  1.00  0.91           N  
+ATOM   1277  CA  ALA A 160      -0.070  22.188  48.135  1.00  0.91           C  
+ATOM   1278  C   ALA A 160      -0.849  21.455  49.234  1.00  0.91           C  
+ATOM   1279  O   ALA A 160      -1.890  20.861  48.958  1.00  0.91           O  
+ATOM   1280  CB  ALA A 160       0.800  21.184  47.364  1.00  0.91           C  
+ATOM   1281  N   THR A 161      -0.391  21.469  50.508  1.00  0.86           N  
+ATOM   1282  CA  THR A 161      -1.076  20.849  51.649  1.00  0.86           C  
+ATOM   1283  C   THR A 161      -2.381  21.556  51.981  1.00  0.86           C  
+ATOM   1284  O   THR A 161      -3.368  20.901  52.326  1.00  0.86           O  
+ATOM   1285  CB  THR A 161      -0.222  20.716  52.911  1.00  0.86           C  
+ATOM   1286  OG1 THR A 161       0.330  21.970  53.263  1.00  0.86           O  
+ATOM   1287  CG2 THR A 161       0.945  19.763  52.621  1.00  0.86           C  
+ATOM   1288  N   SER A 162      -2.424  22.902  51.847  1.00  0.87           N  
+ATOM   1289  CA  SER A 162      -3.613  23.734  52.024  1.00  0.87           C  
+ATOM   1290  C   SER A 162      -4.424  23.855  50.740  1.00  0.87           C  
+ATOM   1291  O   SER A 162      -5.655  23.900  50.770  1.00  0.87           O  
+ATOM   1292  CB  SER A 162      -3.305  25.159  52.591  1.00  0.87           C  
+ATOM   1293  OG  SER A 162      -2.480  25.956  51.736  1.00  0.87           O  
+ATOM   1294  N   GLY A 163      -3.752  23.831  49.570  1.00  0.89           N  
+ATOM   1295  CA  GLY A 163      -4.330  24.076  48.253  1.00  0.89           C  
+ATOM   1296  C   GLY A 163      -4.202  25.517  47.812  1.00  0.89           C  
+ATOM   1297  O   GLY A 163      -4.598  25.848  46.693  1.00  0.89           O  
+ATOM   1298  N   ASP A 164      -3.619  26.404  48.649  1.00  0.90           N  
+ATOM   1299  CA  ASP A 164      -3.412  27.808  48.330  1.00  0.90           C  
+ATOM   1300  C   ASP A 164      -2.545  28.010  47.096  1.00  0.90           C  
+ATOM   1301  O   ASP A 164      -1.476  27.413  46.942  1.00  0.90           O  
+ATOM   1302  CB  ASP A 164      -2.799  28.608  49.514  1.00  0.90           C  
+ATOM   1303  CG  ASP A 164      -3.748  28.614  50.703  1.00  0.90           C  
+ATOM   1304  OD1 ASP A 164      -4.968  28.818  50.482  1.00  0.90           O  
+ATOM   1305  OD2 ASP A 164      -3.258  28.355  51.838  1.00  0.90           O  
+ATOM   1306  N   GLY A 165      -3.020  28.852  46.155  1.00  0.93           N  
+ATOM   1307  CA  GLY A 165      -2.331  29.177  44.920  1.00  0.93           C  
+ATOM   1308  C   GLY A 165      -2.654  28.237  43.786  1.00  0.93           C  
+ATOM   1309  O   GLY A 165      -2.377  28.529  42.625  1.00  0.93           O  
+ATOM   1310  N   LEU A 166      -3.260  27.060  44.055  1.00  0.88           N  
+ATOM   1311  CA  LEU A 166      -3.591  26.121  42.995  1.00  0.88           C  
+ATOM   1312  C   LEU A 166      -4.666  26.633  42.066  1.00  0.88           C  
+ATOM   1313  O   LEU A 166      -4.572  26.478  40.846  1.00  0.88           O  
+ATOM   1314  CB  LEU A 166      -4.046  24.740  43.521  1.00  0.88           C  
+ATOM   1315  CG  LEU A 166      -2.988  23.937  44.300  1.00  0.88           C  
+ATOM   1316  CD1 LEU A 166      -3.589  22.587  44.731  1.00  0.88           C  
+ATOM   1317  CD2 LEU A 166      -1.692  23.730  43.498  1.00  0.88           C  
+ATOM   1318  N   TYR A 167      -5.709  27.278  42.615  1.00  0.84           N  
+ATOM   1319  CA  TYR A 167      -6.800  27.843  41.847  1.00  0.84           C  
+ATOM   1320  C   TYR A 167      -6.302  28.924  40.891  1.00  0.84           C  
+ATOM   1321  O   TYR A 167      -6.536  28.854  39.688  1.00  0.84           O  
+ATOM   1322  CB  TYR A 167      -7.851  28.424  42.834  1.00  0.84           C  
+ATOM   1323  CG  TYR A 167      -9.066  28.957  42.121  1.00  0.84           C  
+ATOM   1324  CD1 TYR A 167     -10.125  28.108  41.763  1.00  0.84           C  
+ATOM   1325  CD2 TYR A 167      -9.124  30.308  41.745  1.00  0.84           C  
+ATOM   1326  CE1 TYR A 167     -11.238  28.613  41.075  1.00  0.84           C  
+ATOM   1327  CE2 TYR A 167     -10.216  30.803  41.024  1.00  0.84           C  
+ATOM   1328  CZ  TYR A 167     -11.291  29.965  40.725  1.00  0.84           C  
+ATOM   1329  OH  TYR A 167     -12.390  30.484  40.012  1.00  0.84           O  
+ATOM   1330  N   GLU A 168      -5.521  29.888  41.409  1.00  0.88           N  
+ATOM   1331  CA  GLU A 168      -4.953  31.019  40.707  1.00  0.88           C  
+ATOM   1332  C   GLU A 168      -4.021  30.623  39.566  1.00  0.88           C  
+ATOM   1333  O   GLU A 168      -4.072  31.177  38.467  1.00  0.88           O  
+ATOM   1334  CB  GLU A 168      -4.231  31.964  41.711  1.00  0.88           C  
+ATOM   1335  CG  GLU A 168      -5.136  32.524  42.844  1.00  0.88           C  
+ATOM   1336  CD  GLU A 168      -5.303  31.608  44.065  1.00  0.88           C  
+ATOM   1337  OE1 GLU A 168      -5.021  30.382  43.976  1.00  0.88           O  
+ATOM   1338  OE2 GLU A 168      -5.730  32.139  45.114  1.00  0.88           O  
+ATOM   1339  N   GLY A 169      -3.165  29.598  39.768  1.00  0.92           N  
+ATOM   1340  CA  GLY A 169      -2.309  29.088  38.698  1.00  0.92           C  
+ATOM   1341  C   GLY A 169      -3.047  28.329  37.618  1.00  0.92           C  
+ATOM   1342  O   GLY A 169      -2.739  28.452  36.432  1.00  0.92           O  
+ATOM   1343  N   LEU A 170      -4.066  27.531  37.992  1.00  0.80           N  
+ATOM   1344  CA  LEU A 170      -4.953  26.877  37.043  1.00  0.80           C  
+ATOM   1345  C   LEU A 170      -5.857  27.839  36.271  1.00  0.80           C  
+ATOM   1346  O   LEU A 170      -6.113  27.619  35.091  1.00  0.80           O  
+ATOM   1347  CB  LEU A 170      -5.762  25.723  37.673  1.00  0.80           C  
+ATOM   1348  CG  LEU A 170      -4.909  24.566  38.245  1.00  0.80           C  
+ATOM   1349  CD1 LEU A 170      -5.849  23.495  38.807  1.00  0.80           C  
+ATOM   1350  CD2 LEU A 170      -3.915  23.934  37.253  1.00  0.80           C  
+ATOM   1351  N   ASP A 171      -6.342  28.932  36.897  1.00  0.84           N  
+ATOM   1352  CA  ASP A 171      -7.078  30.017  36.268  1.00  0.84           C  
+ATOM   1353  C   ASP A 171      -6.231  30.756  35.234  1.00  0.84           C  
+ATOM   1354  O   ASP A 171      -6.663  31.067  34.123  1.00  0.84           O  
+ATOM   1355  CB  ASP A 171      -7.592  30.949  37.396  1.00  0.84           C  
+ATOM   1356  CG  ASP A 171      -8.675  31.914  36.939  1.00  0.84           C  
+ATOM   1357  OD1 ASP A 171      -9.156  31.786  35.786  1.00  0.84           O  
+ATOM   1358  OD2 ASP A 171      -9.048  32.784  37.767  1.00  0.84           O  
+ATOM   1359  N   TRP A 172      -4.933  30.995  35.514  1.00  0.84           N  
+ATOM   1360  CA  TRP A 172      -4.030  31.470  34.483  1.00  0.84           C  
+ATOM   1361  C   TRP A 172      -3.923  30.491  33.315  1.00  0.84           C  
+ATOM   1362  O   TRP A 172      -4.074  30.865  32.152  1.00  0.84           O  
+ATOM   1363  CB  TRP A 172      -2.612  31.726  35.059  1.00  0.84           C  
+ATOM   1364  CG  TRP A 172      -1.625  32.246  34.012  1.00  0.84           C  
+ATOM   1365  CD1 TRP A 172      -1.513  33.518  33.533  1.00  0.84           C  
+ATOM   1366  CD2 TRP A 172      -0.752  31.428  33.214  1.00  0.84           C  
+ATOM   1367  NE1 TRP A 172      -0.620  33.553  32.488  1.00  0.84           N  
+ATOM   1368  CE2 TRP A 172      -0.133  32.292  32.270  1.00  0.84           C  
+ATOM   1369  CE3 TRP A 172      -0.455  30.069  33.230  1.00  0.84           C  
+ATOM   1370  CZ2 TRP A 172       0.809  31.807  31.380  1.00  0.84           C  
+ATOM   1371  CZ3 TRP A 172       0.485  29.583  32.314  1.00  0.84           C  
+ATOM   1372  CH2 TRP A 172       1.129  30.446  31.418  1.00  0.84           C  
+ATOM   1373  N   LEU A 173      -3.719  29.194  33.620  1.00  0.83           N  
+ATOM   1374  CA  LEU A 173      -3.604  28.141  32.631  1.00  0.83           C  
+ATOM   1375  C   LEU A 173      -4.855  27.973  31.755  1.00  0.83           C  
+ATOM   1376  O   LEU A 173      -4.757  27.828  30.536  1.00  0.83           O  
+ATOM   1377  CB  LEU A 173      -3.252  26.807  33.335  1.00  0.83           C  
+ATOM   1378  CG  LEU A 173      -3.064  25.599  32.397  1.00  0.83           C  
+ATOM   1379  CD1 LEU A 173      -1.919  25.816  31.405  1.00  0.83           C  
+ATOM   1380  CD2 LEU A 173      -2.860  24.307  33.198  1.00  0.83           C  
+ATOM   1381  N   SER A 174      -6.071  28.027  32.338  1.00  0.77           N  
+ATOM   1382  CA  SER A 174      -7.354  27.932  31.639  1.00  0.77           C  
+ATOM   1383  C   SER A 174      -7.550  29.055  30.632  1.00  0.77           C  
+ATOM   1384  O   SER A 174      -7.922  28.823  29.479  1.00  0.77           O  
+ATOM   1385  CB  SER A 174      -8.576  27.883  32.615  1.00  0.77           C  
+ATOM   1386  OG  SER A 174      -8.839  29.148  33.219  1.00  0.77           O  
+ATOM   1387  N   ASN A 175      -7.217  30.301  31.041  1.00  0.81           N  
+ATOM   1388  CA  ASN A 175      -7.234  31.489  30.204  1.00  0.81           C  
+ATOM   1389  C   ASN A 175      -6.294  31.389  29.018  1.00  0.81           C  
+ATOM   1390  O   ASN A 175      -6.637  31.784  27.905  1.00  0.81           O  
+ATOM   1391  CB  ASN A 175      -7.010  32.787  31.021  1.00  0.81           C  
+ATOM   1392  CG  ASN A 175      -8.306  33.011  31.786  1.00  0.81           C  
+ATOM   1393  OD1 ASN A 175      -9.376  33.069  31.133  1.00  0.81           O  
+ATOM   1394  ND2 ASN A 175      -8.283  33.121  33.116  1.00  0.81           N  
+ATOM   1395  N   GLN A 176      -5.100  30.803  29.216  1.00  0.78           N  
+ATOM   1396  CA  GLN A 176      -4.164  30.516  28.143  1.00  0.78           C  
+ATOM   1397  C   GLN A 176      -4.629  29.536  27.103  1.00  0.78           C  
+ATOM   1398  O   GLN A 176      -4.445  29.729  25.902  1.00  0.78           O  
+ATOM   1399  CB  GLN A 176      -2.801  30.043  28.703  1.00  0.78           C  
+ATOM   1400  CG  GLN A 176      -2.072  31.140  29.515  1.00  0.78           C  
+ATOM   1401  CD  GLN A 176      -1.977  32.462  28.770  1.00  0.78           C  
+ATOM   1402  OE1 GLN A 176      -1.982  32.490  27.527  1.00  0.78           O  
+ATOM   1403  NE2 GLN A 176      -1.983  33.613  29.455  1.00  0.78           N  
+ATOM   1404  N   LEU A 177      -5.271  28.457  27.546  1.00  0.75           N  
+ATOM   1405  CA  LEU A 177      -5.703  27.414  26.661  1.00  0.75           C  
+ATOM   1406  C   LEU A 177      -7.003  27.710  25.930  1.00  0.75           C  
+ATOM   1407  O   LEU A 177      -7.294  27.115  24.890  1.00  0.75           O  
+ATOM   1408  CB  LEU A 177      -5.849  26.142  27.495  1.00  0.75           C  
+ATOM   1409  CG  LEU A 177      -4.545  25.620  28.123  1.00  0.75           C  
+ATOM   1410  CD1 LEU A 177      -4.840  24.349  28.927  1.00  0.75           C  
+ATOM   1411  CD2 LEU A 177      -3.455  25.366  27.073  1.00  0.75           C  
+ATOM   1412  N   ARG A 178      -7.813  28.668  26.428  1.00  0.61           N  
+ATOM   1413  CA  ARG A 178      -8.964  29.147  25.687  1.00  0.61           C  
+ATOM   1414  C   ARG A 178      -8.602  30.169  24.605  1.00  0.61           C  
+ATOM   1415  O   ARG A 178      -9.312  30.283  23.608  1.00  0.61           O  
+ATOM   1416  CB  ARG A 178     -10.058  29.691  26.645  1.00  0.61           C  
+ATOM   1417  CG  ARG A 178      -9.901  31.151  27.114  1.00  0.61           C  
+ATOM   1418  CD  ARG A 178     -11.074  31.621  27.980  1.00  0.61           C  
+ATOM   1419  NE  ARG A 178     -11.772  32.699  27.194  1.00  0.61           N  
+ATOM   1420  CZ  ARG A 178     -13.040  33.082  27.382  1.00  0.61           C  
+ATOM   1421  NH1 ARG A 178     -13.797  32.497  28.303  1.00  0.61           N  
+ATOM   1422  NH2 ARG A 178     -13.564  34.058  26.640  1.00  0.61           N  
+ATOM   1423  N   ASN A 179      -7.496  30.931  24.802  1.00  0.67           N  
+ATOM   1424  CA  ASN A 179      -6.973  31.970  23.914  1.00  0.67           C  
+ATOM   1425  C   ASN A 179      -6.413  31.480  22.575  1.00  0.67           C  
+ATOM   1426  O   ASN A 179      -6.524  32.186  21.573  1.00  0.67           O  
+ATOM   1427  CB  ASN A 179      -5.913  32.836  24.659  1.00  0.67           C  
+ATOM   1428  CG  ASN A 179      -6.534  34.075  25.290  1.00  0.67           C  
+ATOM   1429  OD1 ASN A 179      -6.117  35.207  25.022  1.00  0.67           O  
+ATOM   1430  ND2 ASN A 179      -7.539  33.911  26.172  1.00  0.67           N  
+ATOM   1431  N   GLN A 180      -5.772  30.293  22.552  1.00  0.57           N  
+ATOM   1432  CA  GLN A 180      -5.252  29.643  21.350  1.00  0.57           C  
+ATOM   1433  C   GLN A 180      -6.347  29.054  20.436  1.00  0.57           C  
+ATOM   1434  O   GLN A 180      -7.532  29.246  20.809  1.00  0.57           O  
+ATOM   1435  CB  GLN A 180      -4.390  28.436  21.771  1.00  0.57           C  
+ATOM   1436  CG  GLN A 180      -3.026  28.801  22.376  1.00  0.57           C  
+ATOM   1437  CD  GLN A 180      -2.515  27.682  23.278  1.00  0.57           C  
+ATOM   1438  OE1 GLN A 180      -2.955  26.522  23.240  1.00  0.57           O  
+ATOM   1439  NE2 GLN A 180      -1.538  28.033  24.141  1.00  0.57           N  
+ATOM   1440  OXT GLN A 180      -6.057  28.362  19.419  1.00  0.57           O  
+TER    1441      GLN A 180                                                      
+HETATM 1442  PB  G3D _   2       6.089  14.277  44.955  1.00 23.99           P  
+HETATM 1443  O1B G3D _   2       6.366  15.441  44.012  1.00 26.39           O  
+HETATM 1444  O2B G3D _   2       4.871  13.343  44.485  1.00 24.91           O  
+HETATM 1445  O3B G3D _   2       7.297  13.345  45.224  1.00 23.51           O  
+HETATM 1446  PA  G3D _   2       4.600  14.668  47.471  1.00 24.81           P  
+HETATM 1447  O3A G3D _   2       5.806  14.940  46.477  1.00 22.54           O  
+HETATM 1448  O1A G3D _   2       3.417  15.379  47.058  1.00 25.34           O  
+HETATM 1449  O2A G3D _   2       4.693  13.163  47.758  1.00 22.19           O  
+HETATM 1450  O5' G3D _   2       5.119  15.536  48.524  1.00 24.76           O  
+HETATM 1451  C5' G3D _   2       6.336  15.362  49.255  1.00 30.91           C  
+HETATM 1452  C4' G3D _   2       6.187  15.639  50.853  1.00 25.36           C  
+HETATM 1453  O4' G3D _   2       6.148  17.102  50.926  1.00 30.26           O  
+HETATM 1454  C3' G3D _   2       4.884  15.144  51.477  1.00 27.80           C  
+HETATM 1455  O3' G3D _   2       5.264  15.024  52.910  1.00 35.31           O  
+HETATM 1456  C2' G3D _   2       3.963  16.304  51.320  1.00 29.74           C  
+HETATM 1457  O2' G3D _   2       3.010  16.329  52.385  1.00 32.13           O  
+HETATM 1458  C1' G3D _   2       4.962  17.451  51.547  1.00 28.33           C  
+HETATM 1459  N9  G3D _   2       4.382  18.650  50.926  1.00 26.06           N  
+HETATM 1460  C8  G3D _   2       3.789  18.721  49.594  1.00 23.74           C  
+HETATM 1461  N7  G3D _   2       3.508  20.071  49.519  1.00 24.30           N  
+HETATM 1462  C5  G3D _   2       3.857  20.743  50.599  1.00 24.56           C  
+HETATM 1463  C6  G3D _   2       3.771  22.053  50.979  1.00 26.16           C  
+HETATM 1464  O6  G3D _   2       3.251  23.065  50.299  1.00 27.60           O  
+HETATM 1465  N1  G3D _   2       4.244  22.415  52.200  1.00 27.82           N  
+HETATM 1466  C2  G3D _   2       4.828  21.529  53.033  1.00 27.24           C  
+HETATM 1467  N2  G3D _   2       5.249  22.002  54.211  1.00 29.12           N  
+HETATM 1468  N3  G3D _   2       4.919  20.287  52.656  1.00 28.96           N  
+HETATM 1469  C4  G3D _   2       4.388  19.866  51.487  1.00 25.24           C  
+HETATM 1470  P1  G3D _   2       5.540  13.563  53.471  1.00 47.75           P  
+HETATM 1471  O4P G3D _   2       6.529  12.645  52.797  1.00 47.28           O  
+HETATM 1472  O5P G3D _   2       4.043  13.055  53.502  1.00 49.07           O  
+HETATM 1473  O6P G3D _   2       5.885  13.929  54.970  1.00 50.88           O  
+CONECT 1442 1443 1444 1445 1447
+CONECT 1443 1442
+CONECT 1444 1442
+CONECT 1445 1442
+CONECT 1446 1447 1448 1449 1450
+CONECT 1447 1442 1446
+CONECT 1448 1446
+CONECT 1449 1446
+CONECT 1450 1446 1451
+CONECT 1451 1450 1452
+CONECT 1452 1451 1453 1454
+CONECT 1453 1452 1458
+CONECT 1454 1452 1455 1456
+CONECT 1455 1454 1470
+CONECT 1456 1454 1457 1458
+CONECT 1457 1456
+CONECT 1458 1453 1456 1459
+CONECT 1459 1458 1460 1469
+CONECT 1460 1459 1461
+CONECT 1461 1460 1462
+CONECT 1462 1461 1463 1469
+CONECT 1463 1462 1464 1465
+CONECT 1464 1463
+CONECT 1465 1463 1466
+CONECT 1466 1465 1467 1468
+CONECT 1467 1466
+CONECT 1468 1466 1469
+CONECT 1469 1459 1462 1468
+CONECT 1470 1455 1471 1472 1473
+CONECT 1471 1470
+CONECT 1472 1470
+CONECT 1473 1470
+END   
diff --git a/modules/mol/alg/tests/testfiles/P84080_model_02_ligand_0.sdf b/modules/mol/alg/tests/testfiles/P84080_model_02_ligand_0.sdf
new file mode 100644
index 000000000..7f34f59ed
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/P84080_model_02_ligand_0.sdf
@@ -0,0 +1,72 @@
+L_2
+
+
+ 32 34  0  0  0  0            999 V2000
+    6.0890   14.2770   44.9550 P   0  0  0  0  0  0
+    6.3660   15.4410   44.0120 O   0  0  0  0  0  0
+    4.8710   13.3430   44.4850 O   0  0  0  0  0  0
+    7.2970   13.3450   45.2240 O   0  0  0  0  0  0
+    4.6000   14.6680   47.4710 P   0  0  0  0  0  0
+    5.8060   14.9400   46.4770 O   0  0  0  0  0  0
+    3.4170   15.3790   47.0580 O   0  0  0  0  0  0
+    4.6930   13.1630   47.7580 O   0  0  0  0  0  0
+    5.1190   15.5360   48.5240 O   0  0  0  0  0  0
+    6.3360   15.3620   49.2550 C   0  0  0  0  0  0
+    6.1870   15.6390   50.8530 C   0  0  0  0  0  0
+    6.1480   17.1020   50.9260 O   0  0  0  0  0  0
+    4.8840   15.1440   51.4770 C   0  0  0  0  0  0
+    5.2640   15.0240   52.9100 O   0  0  0  0  0  0
+    3.9630   16.3040   51.3200 C   0  0  0  0  0  0
+    3.0100   16.3290   52.3850 O   0  0  0  0  0  0
+    4.9620   17.4510   51.5470 C   0  0  0  0  0  0
+    4.3820   18.6500   50.9260 N   0  0  0  0  0  0
+    3.7890   18.7210   49.5940 C   0  0  0  0  0  0
+    3.5080   20.0710   49.5190 N   0  0  0  0  0  0
+    3.8570   20.7430   50.5990 C   0  0  0  0  0  0
+    3.7710   22.0530   50.9790 C   0  0  0  0  0  0
+    3.2510   23.0650   50.2990 O   0  0  0  0  0  0
+    4.2440   22.4150   52.2000 N   0  0  0  0  0  0
+    4.8280   21.5290   53.0330 C   0  0  0  0  0  0
+    5.2490   22.0020   54.2110 N   0  0  0  0  0  0
+    4.9190   20.2870   52.6560 N   0  0  0  0  0  0
+    4.3880   19.8660   51.4870 C   0  0  0  0  0  0
+    5.5400   13.5630   53.4710 P   0  0  0  0  0  0
+    6.5290   12.6450   52.7970 O   0  0  0  0  0  0
+    4.0430   13.0550   53.5020 O   0  0  0  0  0  0
+    5.8850   13.9290   54.9700 O   0  0  0  0  0  0
+  1  2  2  0  0  0
+  1  3  1  0  0  0
+  1  4  1  0  0  0
+  1  6  1  0  0  0
+  5  6  1  0  0  0
+  5  7  2  0  0  0
+  5  8  1  0  0  0
+  5  9  1  0  0  0
+  9 10  1  0  0  0
+ 10 11  1  0  0  0
+ 11 12  1  0  0  0
+ 11 13  1  0  0  0
+ 12 17  1  0  0  0
+ 13 14  1  0  0  0
+ 13 15  1  0  0  0
+ 14 29  1  0  0  0
+ 15 16  1  0  0  0
+ 15 17  1  0  0  0
+ 17 18  1  0  0  0
+ 18 19  1  0  0  0
+ 18 28  1  0  0  0
+ 19 20  2  0  0  0
+ 20 21  1  0  0  0
+ 21 22  1  0  0  0
+ 21 28  2  0  0  0
+ 22 23  2  0  0  0
+ 22 24  1  0  0  0
+ 24 25  1  0  0  0
+ 25 26  1  0  0  0
+ 25 27  2  0  0  0
+ 27 28  1  0  0  0
+ 29 30  1  0  0  0
+ 29 31  1  0  0  0
+ 29 32  2  0  0  0
+M  END
+$$$$
diff --git a/modules/mol/alg/tests/testfiles/P84080_model_02_nolig.pdb b/modules/mol/alg/tests/testfiles/P84080_model_02_nolig.pdb
new file mode 100644
index 000000000..b3532d8c9
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/P84080_model_02_nolig.pdb
@@ -0,0 +1,1442 @@
+ATOM      1  N   GLY A   2     -19.171  20.618  44.104  1.00  0.45           N  
+ATOM      2  CA  GLY A   2     -18.959  20.699  42.613  1.00  0.45           C  
+ATOM      3  C   GLY A   2     -17.546  21.158  42.419  1.00  0.45           C  
+ATOM      4  O   GLY A   2     -17.189  22.178  43.012  1.00  0.45           O  
+ATOM      5  N   ASN A   3     -16.687  20.417  41.698  1.00  0.72           N  
+ATOM      6  CA  ASN A   3     -15.251  20.660  41.628  1.00  0.72           C  
+ATOM      7  C   ASN A   3     -14.849  22.052  41.101  1.00  0.72           C  
+ATOM      8  O   ASN A   3     -14.992  22.339  39.914  1.00  0.72           O  
+ATOM      9  CB  ASN A   3     -14.587  19.493  40.820  1.00  0.72           C  
+ATOM     10  CG  ASN A   3     -13.064  19.418  40.982  1.00  0.72           C  
+ATOM     11  OD1 ASN A   3     -12.394  20.452  40.953  1.00  0.72           O  
+ATOM     12  ND2 ASN A   3     -12.498  18.199  41.136  1.00  0.72           N  
+ATOM     13  N   ILE A   4     -14.299  22.926  41.988  1.00  0.78           N  
+ATOM     14  CA  ILE A   4     -13.880  24.297  41.699  1.00  0.78           C  
+ATOM     15  C   ILE A   4     -12.891  24.349  40.548  1.00  0.78           C  
+ATOM     16  O   ILE A   4     -13.038  25.140  39.609  1.00  0.78           O  
+ATOM     17  CB  ILE A   4     -13.240  25.000  42.924  1.00  0.78           C  
+ATOM     18  CG1 ILE A   4     -12.445  24.078  43.891  1.00  0.78           C  
+ATOM     19  CG2 ILE A   4     -14.283  25.870  43.671  1.00  0.78           C  
+ATOM     20  CD1 ILE A   4     -11.193  24.786  44.436  1.00  0.78           C  
+ATOM     21  N   PHE A   5     -11.885  23.471  40.567  1.00  0.76           N  
+ATOM     22  CA  PHE A   5     -10.824  23.415  39.592  1.00  0.76           C  
+ATOM     23  C   PHE A   5     -11.299  22.967  38.224  1.00  0.76           C  
+ATOM     24  O   PHE A   5     -10.870  23.510  37.209  1.00  0.76           O  
+ATOM     25  CB  PHE A   5      -9.714  22.446  40.042  1.00  0.76           C  
+ATOM     26  CG  PHE A   5      -9.166  22.767  41.400  1.00  0.76           C  
+ATOM     27  CD1 PHE A   5      -8.497  23.976  41.632  1.00  0.76           C  
+ATOM     28  CD2 PHE A   5      -9.298  21.852  42.459  1.00  0.76           C  
+ATOM     29  CE1 PHE A   5      -7.957  24.263  42.890  1.00  0.76           C  
+ATOM     30  CE2 PHE A   5      -8.783  22.151  43.726  1.00  0.76           C  
+ATOM     31  CZ  PHE A   5      -8.099  23.352  43.939  1.00  0.76           C  
+ATOM     32  N   ALA A   6     -12.210  21.972  38.151  1.00  0.72           N  
+ATOM     33  CA  ALA A   6     -12.835  21.551  36.910  1.00  0.72           C  
+ATOM     34  C   ALA A   6     -13.679  22.645  36.290  1.00  0.72           C  
+ATOM     35  O   ALA A   6     -13.636  22.878  35.082  1.00  0.72           O  
+ATOM     36  CB  ALA A   6     -13.696  20.290  37.105  1.00  0.72           C  
+ATOM     37  N   ASN A   7     -14.412  23.398  37.138  1.00  0.70           N  
+ATOM     38  CA  ASN A   7     -15.203  24.540  36.721  1.00  0.70           C  
+ATOM     39  C   ASN A   7     -14.376  25.607  35.999  1.00  0.70           C  
+ATOM     40  O   ASN A   7     -14.873  26.242  35.075  1.00  0.70           O  
+ATOM     41  CB  ASN A   7     -16.029  25.141  37.889  1.00  0.70           C  
+ATOM     42  CG  ASN A   7     -17.075  24.133  38.356  1.00  0.70           C  
+ATOM     43  OD1 ASN A   7     -17.539  23.268  37.612  1.00  0.70           O  
+ATOM     44  ND2 ASN A   7     -17.520  24.263  39.625  1.00  0.70           N  
+ATOM     45  N   LEU A   8     -13.080  25.806  36.315  1.00  0.73           N  
+ATOM     46  CA  LEU A   8     -12.203  26.708  35.576  1.00  0.73           C  
+ATOM     47  C   LEU A   8     -12.116  26.436  34.078  1.00  0.73           C  
+ATOM     48  O   LEU A   8     -11.981  27.356  33.272  1.00  0.73           O  
+ATOM     49  CB  LEU A   8     -10.767  26.686  36.142  1.00  0.73           C  
+ATOM     50  CG  LEU A   8     -10.605  27.382  37.502  1.00  0.73           C  
+ATOM     51  CD1 LEU A   8      -9.180  27.139  38.014  1.00  0.73           C  
+ATOM     52  CD2 LEU A   8     -10.868  28.889  37.360  1.00  0.73           C  
+ATOM     53  N   PHE A   9     -12.227  25.164  33.667  1.00  0.71           N  
+ATOM     54  CA  PHE A   9     -12.030  24.733  32.304  1.00  0.71           C  
+ATOM     55  C   PHE A   9     -13.370  24.446  31.639  1.00  0.71           C  
+ATOM     56  O   PHE A   9     -13.422  23.851  30.564  1.00  0.71           O  
+ATOM     57  CB  PHE A   9     -11.159  23.454  32.280  1.00  0.71           C  
+ATOM     58  CG  PHE A   9      -9.824  23.710  32.935  1.00  0.71           C  
+ATOM     59  CD1 PHE A   9      -8.772  24.286  32.209  1.00  0.71           C  
+ATOM     60  CD2 PHE A   9      -9.619  23.422  34.293  1.00  0.71           C  
+ATOM     61  CE1 PHE A   9      -7.544  24.559  32.826  1.00  0.71           C  
+ATOM     62  CE2 PHE A   9      -8.413  23.746  34.927  1.00  0.71           C  
+ATOM     63  CZ  PHE A   9      -7.365  24.294  34.185  1.00  0.71           C  
+ATOM     64  N   LYS A  10     -14.500  24.890  32.245  1.00  0.69           N  
+ATOM     65  CA  LYS A  10     -15.853  24.544  31.819  1.00  0.69           C  
+ATOM     66  C   LYS A  10     -16.170  24.857  30.348  1.00  0.69           C  
+ATOM     67  O   LYS A  10     -16.810  24.079  29.643  1.00  0.69           O  
+ATOM     68  CB  LYS A  10     -16.924  25.186  32.771  1.00  0.69           C  
+ATOM     69  CG  LYS A  10     -17.132  26.711  32.613  1.00  0.69           C  
+ATOM     70  CD  LYS A  10     -18.022  27.407  33.671  1.00  0.69           C  
+ATOM     71  CE  LYS A  10     -17.213  27.956  34.855  1.00  0.69           C  
+ATOM     72  NZ  LYS A  10     -17.933  28.988  35.637  1.00  0.69           N  
+ATOM     73  N   GLY A  11     -15.689  26.015  29.847  1.00  0.60           N  
+ATOM     74  CA  GLY A  11     -15.869  26.486  28.482  1.00  0.60           C  
+ATOM     75  C   GLY A  11     -14.565  26.579  27.765  1.00  0.60           C  
+ATOM     76  O   GLY A  11     -14.047  27.671  27.543  1.00  0.60           O  
+ATOM     77  N   LEU A  12     -14.003  25.425  27.367  1.00  0.63           N  
+ATOM     78  CA  LEU A  12     -12.897  25.407  26.433  1.00  0.63           C  
+ATOM     79  C   LEU A  12     -13.359  25.493  24.979  1.00  0.63           C  
+ATOM     80  O   LEU A  12     -12.871  26.370  24.273  1.00  0.63           O  
+ATOM     81  CB  LEU A  12     -11.995  24.184  26.706  1.00  0.63           C  
+ATOM     82  CG  LEU A  12     -10.973  24.441  27.833  1.00  0.63           C  
+ATOM     83  CD1 LEU A  12     -10.435  23.100  28.362  1.00  0.63           C  
+ATOM     84  CD2 LEU A  12      -9.870  25.398  27.341  1.00  0.63           C  
+ATOM     85  N   PHE A  13     -14.308  24.606  24.552  1.00  0.45           N  
+ATOM     86  CA  PHE A  13     -15.155  24.661  23.339  1.00  0.45           C  
+ATOM     87  C   PHE A  13     -15.590  23.232  22.915  1.00  0.45           C  
+ATOM     88  O   PHE A  13     -15.995  22.987  21.774  1.00  0.45           O  
+ATOM     89  CB  PHE A  13     -14.574  25.579  22.182  1.00  0.45           C  
+ATOM     90  CG  PHE A  13     -15.168  25.464  20.796  1.00  0.45           C  
+ATOM     91  CD1 PHE A  13     -14.417  24.879  19.763  1.00  0.45           C  
+ATOM     92  CD2 PHE A  13     -16.495  25.832  20.528  1.00  0.45           C  
+ATOM     93  CE1 PHE A  13     -14.984  24.620  18.513  1.00  0.45           C  
+ATOM     94  CE2 PHE A  13     -17.070  25.574  19.275  1.00  0.45           C  
+ATOM     95  CZ  PHE A  13     -16.314  24.964  18.268  1.00  0.45           C  
+ATOM     96  N   GLY A  14     -15.542  22.175  23.768  1.00  0.66           N  
+ATOM     97  CA  GLY A  14     -15.539  20.797  23.232  1.00  0.66           C  
+ATOM     98  C   GLY A  14     -14.318  20.501  22.385  1.00  0.66           C  
+ATOM     99  O   GLY A  14     -14.383  19.706  21.459  1.00  0.66           O  
+ATOM    100  N   LYS A  15     -13.193  21.203  22.650  1.00  0.54           N  
+ATOM    101  CA  LYS A  15     -12.402  21.824  21.594  1.00  0.54           C  
+ATOM    102  C   LYS A  15     -11.497  20.863  20.829  1.00  0.54           C  
+ATOM    103  O   LYS A  15     -11.047  21.132  19.711  1.00  0.54           O  
+ATOM    104  CB  LYS A  15     -11.493  22.890  22.284  1.00  0.54           C  
+ATOM    105  CG  LYS A  15     -10.957  23.996  21.349  1.00  0.54           C  
+ATOM    106  CD  LYS A  15      -9.833  24.901  21.902  1.00  0.54           C  
+ATOM    107  CE  LYS A  15      -9.978  26.391  21.515  1.00  0.54           C  
+ATOM    108  NZ  LYS A  15      -8.675  26.960  21.142  1.00  0.54           N  
+ATOM    109  N   LYS A  16     -11.216  19.749  21.515  1.00  0.62           N  
+ATOM    110  CA  LYS A  16     -10.204  18.729  21.357  1.00  0.62           C  
+ATOM    111  C   LYS A  16      -9.841  18.395  22.789  1.00  0.62           C  
+ATOM    112  O   LYS A  16      -9.925  19.271  23.651  1.00  0.62           O  
+ATOM    113  CB  LYS A  16      -8.907  19.172  20.607  1.00  0.62           C  
+ATOM    114  CG  LYS A  16      -8.088  20.260  21.328  1.00  0.62           C  
+ATOM    115  CD  LYS A  16      -7.047  20.963  20.444  1.00  0.62           C  
+ATOM    116  CE  LYS A  16      -5.760  21.258  21.222  1.00  0.62           C  
+ATOM    117  NZ  LYS A  16      -5.142  22.529  20.783  1.00  0.62           N  
+ATOM    118  N   GLU A  17      -9.447  17.149  23.109  1.00  0.61           N  
+ATOM    119  CA  GLU A  17      -8.869  16.829  24.405  1.00  0.61           C  
+ATOM    120  C   GLU A  17      -7.582  17.593  24.676  1.00  0.61           C  
+ATOM    121  O   GLU A  17      -6.721  17.703  23.799  1.00  0.61           O  
+ATOM    122  CB  GLU A  17      -8.532  15.319  24.535  1.00  0.61           C  
+ATOM    123  CG  GLU A  17      -9.134  14.656  25.795  1.00  0.61           C  
+ATOM    124  CD  GLU A  17     -10.591  14.247  25.591  1.00  0.61           C  
+ATOM    125  OE1 GLU A  17     -11.447  15.161  25.454  1.00  0.61           O  
+ATOM    126  OE2 GLU A  17     -10.855  13.018  25.610  1.00  0.61           O  
+ATOM    127  N   MET A  18      -7.391  18.114  25.897  1.00  0.67           N  
+ATOM    128  CA  MET A  18      -6.160  18.775  26.247  1.00  0.67           C  
+ATOM    129  C   MET A  18      -5.431  18.085  27.363  1.00  0.67           C  
+ATOM    130  O   MET A  18      -5.988  17.572  28.330  1.00  0.67           O  
+ATOM    131  CB  MET A  18      -6.348  20.267  26.555  1.00  0.67           C  
+ATOM    132  CG  MET A  18      -6.691  21.076  25.290  1.00  0.67           C  
+ATOM    133  SD  MET A  18      -6.244  22.824  25.397  1.00  0.67           S  
+ATOM    134  CE  MET A  18      -7.508  23.028  26.663  1.00  0.67           C  
+ATOM    135  N   ARG A  19      -4.108  18.031  27.209  1.00  0.71           N  
+ATOM    136  CA  ARG A  19      -3.264  17.250  28.063  1.00  0.71           C  
+ATOM    137  C   ARG A  19      -2.241  18.154  28.684  1.00  0.71           C  
+ATOM    138  O   ARG A  19      -1.520  18.902  28.010  1.00  0.71           O  
+ATOM    139  CB  ARG A  19      -2.573  16.137  27.252  1.00  0.71           C  
+ATOM    140  CG  ARG A  19      -3.570  15.177  26.558  1.00  0.71           C  
+ATOM    141  CD  ARG A  19      -2.952  14.091  25.664  1.00  0.71           C  
+ATOM    142  NE  ARG A  19      -1.955  13.319  26.488  1.00  0.71           N  
+ATOM    143  CZ  ARG A  19      -0.621  13.426  26.363  1.00  0.71           C  
+ATOM    144  NH1 ARG A  19      -0.035  14.293  25.556  1.00  0.71           N  
+ATOM    145  NH2 ARG A  19       0.194  12.681  27.110  1.00  0.71           N  
+ATOM    146  N   ILE A  20      -2.172  18.089  30.014  1.00  0.82           N  
+ATOM    147  CA  ILE A  20      -1.222  18.816  30.803  1.00  0.82           C  
+ATOM    148  C   ILE A  20      -0.343  17.796  31.477  1.00  0.82           C  
+ATOM    149  O   ILE A  20      -0.807  16.824  32.077  1.00  0.82           O  
+ATOM    150  CB  ILE A  20      -1.913  19.681  31.843  1.00  0.82           C  
+ATOM    151  CG1 ILE A  20      -3.036  20.548  31.224  1.00  0.82           C  
+ATOM    152  CG2 ILE A  20      -0.876  20.521  32.615  1.00  0.82           C  
+ATOM    153  CD1 ILE A  20      -2.579  21.561  30.173  1.00  0.82           C  
+ATOM    154  N   LEU A  21       0.977  17.983  31.386  1.00  0.84           N  
+ATOM    155  CA  LEU A  21       1.907  17.132  32.088  1.00  0.84           C  
+ATOM    156  C   LEU A  21       2.417  17.862  33.302  1.00  0.84           C  
+ATOM    157  O   LEU A  21       2.666  19.064  33.274  1.00  0.84           O  
+ATOM    158  CB  LEU A  21       3.070  16.642  31.192  1.00  0.84           C  
+ATOM    159  CG  LEU A  21       2.661  15.660  30.071  1.00  0.84           C  
+ATOM    160  CD1 LEU A  21       3.923  15.168  29.352  1.00  0.84           C  
+ATOM    161  CD2 LEU A  21       1.865  14.460  30.610  1.00  0.84           C  
+ATOM    162  N   MET A  22       2.563  17.148  34.425  1.00  0.85           N  
+ATOM    163  CA  MET A  22       3.101  17.716  35.632  1.00  0.85           C  
+ATOM    164  C   MET A  22       4.389  17.015  35.944  1.00  0.85           C  
+ATOM    165  O   MET A  22       4.461  15.790  36.023  1.00  0.85           O  
+ATOM    166  CB  MET A  22       2.143  17.571  36.822  1.00  0.85           C  
+ATOM    167  CG  MET A  22       2.708  18.109  38.148  1.00  0.85           C  
+ATOM    168  SD  MET A  22       1.570  17.892  39.543  1.00  0.85           S  
+ATOM    169  CE  MET A  22       0.499  19.269  39.078  1.00  0.85           C  
+ATOM    170  N   VAL A  23       5.460  17.789  36.128  1.00  0.87           N  
+ATOM    171  CA  VAL A  23       6.781  17.256  36.323  1.00  0.87           C  
+ATOM    172  C   VAL A  23       7.402  17.982  37.486  1.00  0.87           C  
+ATOM    173  O   VAL A  23       6.893  18.998  37.966  1.00  0.87           O  
+ATOM    174  CB  VAL A  23       7.660  17.374  35.075  1.00  0.87           C  
+ATOM    175  CG1 VAL A  23       6.884  16.884  33.843  1.00  0.87           C  
+ATOM    176  CG2 VAL A  23       8.131  18.815  34.828  1.00  0.87           C  
+ATOM    177  N   GLY A  24       8.512  17.461  38.027  1.00  0.91           N  
+ATOM    178  CA  GLY A  24       9.156  18.102  39.154  1.00  0.91           C  
+ATOM    179  C   GLY A  24       9.888  17.036  39.887  1.00  0.91           C  
+ATOM    180  O   GLY A  24       9.475  15.875  39.848  1.00  0.91           O  
+ATOM    181  N   LEU A  25      10.989  17.365  40.574  1.00  0.86           N  
+ATOM    182  CA  LEU A  25      11.760  16.418  41.367  1.00  0.86           C  
+ATOM    183  C   LEU A  25      10.946  15.614  42.394  1.00  0.86           C  
+ATOM    184  O   LEU A  25       9.823  15.979  42.775  1.00  0.86           O  
+ATOM    185  CB  LEU A  25      12.965  17.101  42.067  1.00  0.86           C  
+ATOM    186  CG  LEU A  25      13.900  17.936  41.164  1.00  0.86           C  
+ATOM    187  CD1 LEU A  25      15.037  18.513  42.022  1.00  0.86           C  
+ATOM    188  CD2 LEU A  25      14.492  17.125  39.999  1.00  0.86           C  
+ATOM    189  N   ASP A  26      11.479  14.477  42.886  1.00  0.79           N  
+ATOM    190  CA  ASP A  26      10.978  13.816  44.079  1.00  0.79           C  
+ATOM    191  C   ASP A  26      10.839  14.740  45.261  1.00  0.79           C  
+ATOM    192  O   ASP A  26      11.723  15.548  45.551  1.00  0.79           O  
+ATOM    193  CB  ASP A  26      11.882  12.643  44.495  1.00  0.79           C  
+ATOM    194  CG  ASP A  26      11.756  11.579  43.430  1.00  0.79           C  
+ATOM    195  OD1 ASP A  26      10.654  11.513  42.826  1.00  0.79           O  
+ATOM    196  OD2 ASP A  26      12.766  10.880  43.198  1.00  0.79           O  
+ATOM    197  N   ALA A  27       9.660  14.650  45.905  1.00  0.85           N  
+ATOM    198  CA  ALA A  27       9.284  15.420  47.068  1.00  0.85           C  
+ATOM    199  C   ALA A  27       8.873  16.878  46.795  1.00  0.85           C  
+ATOM    200  O   ALA A  27       8.555  17.608  47.738  1.00  0.85           O  
+ATOM    201  CB  ALA A  27      10.344  15.308  48.184  1.00  0.85           C  
+ATOM    202  N   ALA A  28       8.759  17.328  45.517  1.00  0.91           N  
+ATOM    203  CA  ALA A  28       8.296  18.667  45.149  1.00  0.91           C  
+ATOM    204  C   ALA A  28       6.856  18.987  45.551  1.00  0.91           C  
+ATOM    205  O   ALA A  28       6.510  20.134  45.819  1.00  0.91           O  
+ATOM    206  CB  ALA A  28       8.523  18.946  43.642  1.00  0.91           C  
+ATOM    207  N   GLY A  29       5.988  17.953  45.639  1.00  0.90           N  
+ATOM    208  CA  GLY A  29       4.578  18.084  46.015  1.00  0.90           C  
+ATOM    209  C   GLY A  29       3.574  17.732  44.945  1.00  0.90           C  
+ATOM    210  O   GLY A  29       2.409  18.078  45.066  1.00  0.90           O  
+ATOM    211  N   LYS A  30       3.982  17.023  43.873  1.00  0.82           N  
+ATOM    212  CA  LYS A  30       3.114  16.673  42.753  1.00  0.82           C  
+ATOM    213  C   LYS A  30       1.898  15.800  43.095  1.00  0.82           C  
+ATOM    214  O   LYS A  30       0.768  16.135  42.748  1.00  0.82           O  
+ATOM    215  CB  LYS A  30       3.936  15.865  41.723  1.00  0.82           C  
+ATOM    216  CG  LYS A  30       5.158  16.599  41.157  1.00  0.82           C  
+ATOM    217  CD  LYS A  30       5.925  15.781  40.097  1.00  0.82           C  
+ATOM    218  CE  LYS A  30       6.541  14.425  40.503  1.00  0.82           C  
+ATOM    219  NZ  LYS A  30       7.691  14.602  41.411  1.00  0.82           N  
+ATOM    220  N   THR A  31       2.146  14.698  43.856  1.00  0.77           N  
+ATOM    221  CA  THR A  31       1.172  13.750  44.430  1.00  0.77           C  
+ATOM    222  C   THR A  31       0.147  14.471  45.290  1.00  0.77           C  
+ATOM    223  O   THR A  31      -1.060  14.272  45.200  1.00  0.77           O  
+ATOM    224  CB  THR A  31       1.839  12.775  45.400  1.00  0.77           C  
+ATOM    225  OG1 THR A  31       2.849  11.971  44.764  1.00  0.77           O  
+ATOM    226  CG2 THR A  31       0.883  11.691  45.878  1.00  0.77           C  
+ATOM    227  N   THR A  32       0.639  15.393  46.149  1.00  0.80           N  
+ATOM    228  CA  THR A  32      -0.148  16.256  47.029  1.00  0.80           C  
+ATOM    229  C   THR A  32      -1.069  17.204  46.290  1.00  0.80           C  
+ATOM    230  O   THR A  32      -2.229  17.381  46.673  1.00  0.80           O  
+ATOM    231  CB  THR A  32       0.728  17.116  47.937  1.00  0.80           C  
+ATOM    232  OG1 THR A  32       1.645  16.299  48.649  1.00  0.80           O  
+ATOM    233  CG2 THR A  32      -0.089  17.893  48.985  1.00  0.80           C  
+ATOM    234  N   ILE A  33      -0.590  17.838  45.196  1.00  0.84           N  
+ATOM    235  CA  ILE A  33      -1.388  18.698  44.324  1.00  0.84           C  
+ATOM    236  C   ILE A  33      -2.512  17.908  43.672  1.00  0.84           C  
+ATOM    237  O   ILE A  33      -3.671  18.320  43.685  1.00  0.84           O  
+ATOM    238  CB  ILE A  33      -0.528  19.390  43.264  1.00  0.84           C  
+ATOM    239  CG1 ILE A  33       0.403  20.414  43.950  1.00  0.84           C  
+ATOM    240  CG2 ILE A  33      -1.395  20.085  42.184  1.00  0.84           C  
+ATOM    241  CD1 ILE A  33       1.506  20.972  43.046  1.00  0.84           C  
+ATOM    242  N   LEU A  34      -2.206  16.703  43.147  1.00  0.77           N  
+ATOM    243  CA  LEU A  34      -3.178  15.809  42.542  1.00  0.77           C  
+ATOM    244  C   LEU A  34      -4.270  15.375  43.498  1.00  0.77           C  
+ATOM    245  O   LEU A  34      -5.439  15.324  43.124  1.00  0.77           O  
+ATOM    246  CB  LEU A  34      -2.522  14.556  41.926  1.00  0.77           C  
+ATOM    247  CG  LEU A  34      -1.751  14.742  40.596  1.00  0.77           C  
+ATOM    248  CD1 LEU A  34      -2.212  13.625  39.650  1.00  0.77           C  
+ATOM    249  CD2 LEU A  34      -1.896  16.104  39.892  1.00  0.77           C  
+ATOM    250  N   TYR A  35      -3.942  15.097  44.773  1.00  0.72           N  
+ATOM    251  CA  TYR A  35      -4.943  14.848  45.800  1.00  0.72           C  
+ATOM    252  C   TYR A  35      -5.945  15.986  45.998  1.00  0.72           C  
+ATOM    253  O   TYR A  35      -7.138  15.739  46.172  1.00  0.72           O  
+ATOM    254  CB  TYR A  35      -4.275  14.491  47.152  1.00  0.72           C  
+ATOM    255  CG  TYR A  35      -3.579  13.160  47.172  1.00  0.72           C  
+ATOM    256  CD1 TYR A  35      -3.967  12.065  46.378  1.00  0.72           C  
+ATOM    257  CD2 TYR A  35      -2.570  12.968  48.126  1.00  0.72           C  
+ATOM    258  CE1 TYR A  35      -3.344  10.820  46.526  1.00  0.72           C  
+ATOM    259  CE2 TYR A  35      -1.942  11.726  48.273  1.00  0.72           C  
+ATOM    260  CZ  TYR A  35      -2.333  10.653  47.471  1.00  0.72           C  
+ATOM    261  OH  TYR A  35      -1.749   9.389  47.652  1.00  0.72           O  
+ATOM    262  N   LYS A  36      -5.500  17.258  45.938  1.00  0.73           N  
+ATOM    263  CA  LYS A  36      -6.376  18.420  45.891  1.00  0.73           C  
+ATOM    264  C   LYS A  36      -7.236  18.521  44.634  1.00  0.73           C  
+ATOM    265  O   LYS A  36      -8.430  18.794  44.722  1.00  0.73           O  
+ATOM    266  CB  LYS A  36      -5.576  19.735  46.067  1.00  0.73           C  
+ATOM    267  CG  LYS A  36      -4.730  19.816  47.346  1.00  0.73           C  
+ATOM    268  CD  LYS A  36      -5.536  19.593  48.633  1.00  0.73           C  
+ATOM    269  CE  LYS A  36      -4.670  19.861  49.853  1.00  0.73           C  
+ATOM    270  NZ  LYS A  36      -5.337  19.470  51.111  1.00  0.73           N  
+ATOM    271  N   LEU A  37      -6.665  18.262  43.438  1.00  0.73           N  
+ATOM    272  CA  LEU A  37      -7.375  18.281  42.165  1.00  0.73           C  
+ATOM    273  C   LEU A  37      -8.475  17.231  42.084  1.00  0.73           C  
+ATOM    274  O   LEU A  37      -9.550  17.451  41.518  1.00  0.73           O  
+ATOM    275  CB  LEU A  37      -6.401  18.206  40.963  1.00  0.73           C  
+ATOM    276  CG  LEU A  37      -5.347  19.340  40.884  1.00  0.73           C  
+ATOM    277  CD1 LEU A  37      -4.608  19.262  39.537  1.00  0.73           C  
+ATOM    278  CD2 LEU A  37      -5.899  20.760  41.125  1.00  0.73           C  
+ATOM    279  N   LYS A  38      -8.280  16.063  42.721  1.00  0.65           N  
+ATOM    280  CA  LYS A  38      -9.324  15.057  42.769  1.00  0.65           C  
+ATOM    281  C   LYS A  38     -10.268  15.241  43.950  1.00  0.65           C  
+ATOM    282  O   LYS A  38     -11.161  14.428  44.169  1.00  0.65           O  
+ATOM    283  CB  LYS A  38      -8.744  13.627  42.878  1.00  0.65           C  
+ATOM    284  CG  LYS A  38      -7.632  13.312  41.869  1.00  0.65           C  
+ATOM    285  CD  LYS A  38      -7.716  11.875  41.339  1.00  0.65           C  
+ATOM    286  CE  LYS A  38      -6.354  11.220  41.099  1.00  0.65           C  
+ATOM    287  NZ  LYS A  38      -6.205  10.006  41.932  1.00  0.65           N  
+ATOM    288  N   LEU A  39     -10.073  16.309  44.749  1.00  0.59           N  
+ATOM    289  CA  LEU A  39     -10.838  16.635  45.942  1.00  0.59           C  
+ATOM    290  C   LEU A  39     -10.744  15.600  47.054  1.00  0.59           C  
+ATOM    291  O   LEU A  39     -11.613  15.505  47.918  1.00  0.59           O  
+ATOM    292  CB  LEU A  39     -12.314  16.980  45.644  1.00  0.59           C  
+ATOM    293  CG  LEU A  39     -12.522  18.187  44.715  1.00  0.59           C  
+ATOM    294  CD1 LEU A  39     -13.997  18.173  44.310  1.00  0.59           C  
+ATOM    295  CD2 LEU A  39     -12.135  19.543  45.338  1.00  0.59           C  
+ATOM    296  N   GLY A  40      -9.658  14.800  47.098  1.00  0.57           N  
+ATOM    297  CA  GLY A  40      -9.528  13.759  48.106  1.00  0.57           C  
+ATOM    298  C   GLY A  40     -10.321  12.500  47.864  1.00  0.57           C  
+ATOM    299  O   GLY A  40     -10.313  11.613  48.711  1.00  0.57           O  
+ATOM    300  N   GLU A  41     -11.031  12.365  46.727  1.00  0.49           N  
+ATOM    301  CA  GLU A  41     -11.822  11.176  46.458  1.00  0.49           C  
+ATOM    302  C   GLU A  41     -10.980   9.933  46.107  1.00  0.49           C  
+ATOM    303  O   GLU A  41     -10.102   9.968  45.237  1.00  0.49           O  
+ATOM    304  CB  GLU A  41     -12.889  11.456  45.373  1.00  0.49           C  
+ATOM    305  CG  GLU A  41     -14.275  10.843  45.707  1.00  0.49           C  
+ATOM    306  CD  GLU A  41     -15.081  10.362  44.496  1.00  0.49           C  
+ATOM    307  OE1 GLU A  41     -14.667  10.614  43.335  1.00  0.49           O  
+ATOM    308  OE2 GLU A  41     -16.137   9.725  44.749  1.00  0.49           O  
+ATOM    309  N   ILE A  42     -11.211   8.791  46.797  1.00  0.46           N  
+ATOM    310  CA  ILE A  42     -10.481   7.551  46.584  1.00  0.46           C  
+ATOM    311  C   ILE A  42     -11.361   6.483  45.962  1.00  0.46           C  
+ATOM    312  O   ILE A  42     -12.559   6.377  46.217  1.00  0.46           O  
+ATOM    313  CB  ILE A  42      -9.870   6.946  47.850  1.00  0.46           C  
+ATOM    314  CG1 ILE A  42     -10.847   6.957  49.050  1.00  0.46           C  
+ATOM    315  CG2 ILE A  42      -8.549   7.682  48.156  1.00  0.46           C  
+ATOM    316  CD1 ILE A  42     -10.521   5.861  50.072  1.00  0.46           C  
+ATOM    317  N   VAL A  43     -10.743   5.623  45.137  1.00  0.40           N  
+ATOM    318  CA  VAL A  43     -11.342   4.445  44.564  1.00  0.40           C  
+ATOM    319  C   VAL A  43     -10.409   3.336  44.930  1.00  0.40           C  
+ATOM    320  O   VAL A  43      -9.201   3.548  45.068  1.00  0.40           O  
+ATOM    321  CB  VAL A  43     -11.438   4.429  43.032  1.00  0.40           C  
+ATOM    322  CG1 VAL A  43     -12.915   4.570  42.642  1.00  0.40           C  
+ATOM    323  CG2 VAL A  43     -10.559   5.527  42.400  1.00  0.40           C  
+ATOM    324  N   THR A  44     -10.945   2.113  45.050  1.00  0.46           N  
+ATOM    325  CA  THR A  44     -10.131   0.910  45.001  1.00  0.46           C  
+ATOM    326  C   THR A  44      -9.995   0.516  43.555  1.00  0.46           C  
+ATOM    327  O   THR A  44     -10.969   0.144  42.899  1.00  0.46           O  
+ATOM    328  CB  THR A  44     -10.666  -0.312  45.730  1.00  0.46           C  
+ATOM    329  OG1 THR A  44     -11.071   0.021  47.049  1.00  0.46           O  
+ATOM    330  CG2 THR A  44      -9.534  -1.341  45.868  1.00  0.46           C  
+ATOM    331  N   THR A  45      -8.770   0.596  43.023  1.00  0.46           N  
+ATOM    332  CA  THR A  45      -8.486   0.459  41.601  1.00  0.46           C  
+ATOM    333  C   THR A  45      -7.828  -0.876  41.409  1.00  0.46           C  
+ATOM    334  O   THR A  45      -6.990  -1.269  42.218  1.00  0.46           O  
+ATOM    335  CB  THR A  45      -7.506   1.517  41.097  1.00  0.46           C  
+ATOM    336  OG1 THR A  45      -7.992   2.818  41.390  1.00  0.46           O  
+ATOM    337  CG2 THR A  45      -7.304   1.490  39.574  1.00  0.46           C  
+ATOM    338  N   ILE A  46      -8.174  -1.643  40.352  1.00  0.43           N  
+ATOM    339  CA  ILE A  46      -7.490  -2.901  40.070  1.00  0.43           C  
+ATOM    340  C   ILE A  46      -5.967  -2.721  39.906  1.00  0.43           C  
+ATOM    341  O   ILE A  46      -5.570  -1.719  39.309  1.00  0.43           O  
+ATOM    342  CB  ILE A  46      -8.068  -3.600  38.842  1.00  0.43           C  
+ATOM    343  CG1 ILE A  46      -8.224  -2.650  37.630  1.00  0.43           C  
+ATOM    344  CG2 ILE A  46      -9.414  -4.247  39.234  1.00  0.43           C  
+ATOM    345  CD1 ILE A  46      -8.133  -3.382  36.286  1.00  0.43           C  
+ATOM    346  N   PRO A  47      -5.054  -3.562  40.412  1.00  0.47           N  
+ATOM    347  CA  PRO A  47      -3.633  -3.238  40.354  1.00  0.47           C  
+ATOM    348  C   PRO A  47      -3.044  -3.540  38.991  1.00  0.47           C  
+ATOM    349  O   PRO A  47      -3.492  -4.479  38.336  1.00  0.47           O  
+ATOM    350  CB  PRO A  47      -2.964  -4.141  41.409  1.00  0.47           C  
+ATOM    351  CG  PRO A  47      -4.113  -4.618  42.299  1.00  0.47           C  
+ATOM    352  CD  PRO A  47      -5.308  -4.660  41.344  1.00  0.47           C  
+ATOM    353  N   THR A  48      -2.014  -2.787  38.567  1.00  0.55           N  
+ATOM    354  CA  THR A  48      -1.373  -2.981  37.272  1.00  0.55           C  
+ATOM    355  C   THR A  48       0.107  -3.000  37.530  1.00  0.55           C  
+ATOM    356  O   THR A  48       0.628  -2.162  38.262  1.00  0.55           O  
+ATOM    357  CB  THR A  48      -1.658  -1.885  36.247  1.00  0.55           C  
+ATOM    358  OG1 THR A  48      -3.059  -1.770  36.056  1.00  0.55           O  
+ATOM    359  CG2 THR A  48      -1.081  -2.218  34.860  1.00  0.55           C  
+ATOM    360  N   ILE A  49       0.847  -3.972  36.966  1.00  0.45           N  
+ATOM    361  CA  ILE A  49       2.299  -3.958  37.019  1.00  0.45           C  
+ATOM    362  C   ILE A  49       2.886  -2.881  36.119  1.00  0.45           C  
+ATOM    363  O   ILE A  49       2.609  -2.817  34.922  1.00  0.45           O  
+ATOM    364  CB  ILE A  49       2.897  -5.315  36.664  1.00  0.45           C  
+ATOM    365  CG1 ILE A  49       2.418  -6.417  37.642  1.00  0.45           C  
+ATOM    366  CG2 ILE A  49       4.442  -5.281  36.586  1.00  0.45           C  
+ATOM    367  CD1 ILE A  49       2.717  -6.163  39.128  1.00  0.45           C  
+ATOM    368  N   GLY A  50       3.744  -2.013  36.686  1.00  0.37           N  
+ATOM    369  CA  GLY A  50       4.496  -1.040  35.926  1.00  0.37           C  
+ATOM    370  C   GLY A  50       4.596   0.233  36.692  1.00  0.37           C  
+ATOM    371  O   GLY A  50       4.656   0.232  37.920  1.00  0.37           O  
+ATOM    372  N   PHE A  51       4.658   1.355  35.963  1.00  0.32           N  
+ATOM    373  CA  PHE A  51       4.759   2.698  36.492  1.00  0.32           C  
+ATOM    374  C   PHE A  51       3.518   3.108  37.264  1.00  0.32           C  
+ATOM    375  O   PHE A  51       2.392   2.761  36.905  1.00  0.32           O  
+ATOM    376  CB  PHE A  51       5.018   3.753  35.373  1.00  0.32           C  
+ATOM    377  CG  PHE A  51       6.233   3.381  34.562  1.00  0.32           C  
+ATOM    378  CD1 PHE A  51       7.501   3.871  34.910  1.00  0.32           C  
+ATOM    379  CD2 PHE A  51       6.136   2.492  33.477  1.00  0.32           C  
+ATOM    380  CE1 PHE A  51       8.642   3.462  34.209  1.00  0.32           C  
+ATOM    381  CE2 PHE A  51       7.277   2.072  32.785  1.00  0.32           C  
+ATOM    382  CZ  PHE A  51       8.533   2.566  33.143  1.00  0.32           C  
+ATOM    383  N   ASN A  52       3.695   3.908  38.335  1.00  0.46           N  
+ATOM    384  CA  ASN A  52       2.606   4.657  38.935  1.00  0.46           C  
+ATOM    385  C   ASN A  52       2.009   5.622  37.922  1.00  0.46           C  
+ATOM    386  O   ASN A  52       2.721   6.361  37.244  1.00  0.46           O  
+ATOM    387  CB  ASN A  52       3.055   5.507  40.156  1.00  0.46           C  
+ATOM    388  CG  ASN A  52       3.580   4.642  41.289  1.00  0.46           C  
+ATOM    389  OD1 ASN A  52       3.169   3.500  41.477  1.00  0.46           O  
+ATOM    390  ND2 ASN A  52       4.512   5.206  42.098  1.00  0.46           N  
+ATOM    391  N   VAL A  53       0.676   5.627  37.805  1.00  0.52           N  
+ATOM    392  CA  VAL A  53      -0.027   6.531  36.924  1.00  0.52           C  
+ATOM    393  C   VAL A  53      -0.892   7.378  37.812  1.00  0.52           C  
+ATOM    394  O   VAL A  53      -1.831   6.915  38.461  1.00  0.52           O  
+ATOM    395  CB  VAL A  53      -0.862   5.848  35.841  1.00  0.52           C  
+ATOM    396  CG1 VAL A  53      -1.594   6.908  34.986  1.00  0.52           C  
+ATOM    397  CG2 VAL A  53       0.084   5.012  34.954  1.00  0.52           C  
+ATOM    398  N   GLU A  54      -0.568   8.672  37.867  1.00  0.63           N  
+ATOM    399  CA  GLU A  54      -1.303   9.633  38.633  1.00  0.63           C  
+ATOM    400  C   GLU A  54      -1.864  10.614  37.635  1.00  0.63           C  
+ATOM    401  O   GLU A  54      -1.135  11.354  36.974  1.00  0.63           O  
+ATOM    402  CB  GLU A  54      -0.381  10.339  39.642  1.00  0.63           C  
+ATOM    403  CG  GLU A  54       0.242   9.419  40.713  1.00  0.63           C  
+ATOM    404  CD  GLU A  54       1.142  10.257  41.621  1.00  0.63           C  
+ATOM    405  OE1 GLU A  54       2.232  10.670  41.151  1.00  0.63           O  
+ATOM    406  OE2 GLU A  54       0.740  10.528  42.783  1.00  0.63           O  
+ATOM    407  N   THR A  55      -3.199  10.613  37.480  1.00  0.70           N  
+ATOM    408  CA  THR A  55      -3.874  11.449  36.512  1.00  0.70           C  
+ATOM    409  C   THR A  55      -5.174  11.902  37.100  1.00  0.70           C  
+ATOM    410  O   THR A  55      -5.785  11.182  37.890  1.00  0.70           O  
+ATOM    411  CB  THR A  55      -4.156  10.758  35.169  1.00  0.70           C  
+ATOM    412  OG1 THR A  55      -4.700  11.659  34.216  1.00  0.70           O  
+ATOM    413  CG2 THR A  55      -5.140   9.575  35.270  1.00  0.70           C  
+ATOM    414  N   VAL A  56      -5.619  13.117  36.747  1.00  0.72           N  
+ATOM    415  CA  VAL A  56      -6.961  13.592  37.007  1.00  0.72           C  
+ATOM    416  C   VAL A  56      -7.508  14.071  35.686  1.00  0.72           C  
+ATOM    417  O   VAL A  56      -6.835  14.754  34.917  1.00  0.72           O  
+ATOM    418  CB  VAL A  56      -7.074  14.672  38.101  1.00  0.72           C  
+ATOM    419  CG1 VAL A  56      -6.269  15.939  37.753  1.00  0.72           C  
+ATOM    420  CG2 VAL A  56      -8.550  14.993  38.445  1.00  0.72           C  
+ATOM    421  N   GLU A  57      -8.754  13.685  35.369  1.00  0.67           N  
+ATOM    422  CA  GLU A  57      -9.383  14.058  34.130  1.00  0.67           C  
+ATOM    423  C   GLU A  57     -10.611  14.872  34.425  1.00  0.67           C  
+ATOM    424  O   GLU A  57     -11.523  14.432  35.131  1.00  0.67           O  
+ATOM    425  CB  GLU A  57      -9.818  12.821  33.339  1.00  0.67           C  
+ATOM    426  CG  GLU A  57      -8.660  11.843  33.071  1.00  0.67           C  
+ATOM    427  CD  GLU A  57      -9.196  10.597  32.376  1.00  0.67           C  
+ATOM    428  OE1 GLU A  57     -10.392  10.611  31.977  1.00  0.67           O  
+ATOM    429  OE2 GLU A  57      -8.411   9.623  32.273  1.00  0.67           O  
+ATOM    430  N   TYR A  58     -10.690  16.089  33.871  1.00  0.61           N  
+ATOM    431  CA  TYR A  58     -11.851  16.954  34.028  1.00  0.61           C  
+ATOM    432  C   TYR A  58     -12.747  16.965  32.823  1.00  0.61           C  
+ATOM    433  O   TYR A  58     -13.816  17.557  32.887  1.00  0.61           O  
+ATOM    434  CB  TYR A  58     -11.516  18.420  34.343  1.00  0.61           C  
+ATOM    435  CG  TYR A  58     -10.839  18.570  35.647  1.00  0.61           C  
+ATOM    436  CD1 TYR A  58     -11.118  17.770  36.768  1.00  0.61           C  
+ATOM    437  CD2 TYR A  58      -9.968  19.651  35.772  1.00  0.61           C  
+ATOM    438  CE1 TYR A  58     -10.501  18.037  37.989  1.00  0.61           C  
+ATOM    439  CE2 TYR A  58      -9.345  19.918  36.989  1.00  0.61           C  
+ATOM    440  CZ  TYR A  58      -9.614  19.104  38.090  1.00  0.61           C  
+ATOM    441  OH  TYR A  58      -9.012  19.376  39.313  1.00  0.61           O  
+ATOM    442  N   LYS A  59     -12.343  16.231  31.759  1.00  0.60           N  
+ATOM    443  CA  LYS A  59     -13.089  16.043  30.523  1.00  0.60           C  
+ATOM    444  C   LYS A  59     -12.911  17.311  29.669  1.00  0.60           C  
+ATOM    445  O   LYS A  59     -13.152  18.411  30.158  1.00  0.60           O  
+ATOM    446  CB  LYS A  59     -14.549  15.529  30.750  1.00  0.60           C  
+ATOM    447  CG  LYS A  59     -14.652  14.399  31.809  1.00  0.60           C  
+ATOM    448  CD  LYS A  59     -15.542  14.801  33.015  1.00  0.60           C  
+ATOM    449  CE  LYS A  59     -14.964  14.697  34.436  1.00  0.60           C  
+ATOM    450  NZ  LYS A  59     -14.057  13.546  34.556  1.00  0.60           N  
+ATOM    451  N   ASN A  60     -12.343  17.223  28.436  1.00  0.55           N  
+ATOM    452  CA  ASN A  60     -11.708  18.350  27.737  1.00  0.55           C  
+ATOM    453  C   ASN A  60     -10.298  18.638  28.260  1.00  0.55           C  
+ATOM    454  O   ASN A  60      -9.456  19.120  27.514  1.00  0.55           O  
+ATOM    455  CB  ASN A  60     -12.572  19.654  27.714  1.00  0.55           C  
+ATOM    456  CG  ASN A  60     -12.619  20.407  26.395  1.00  0.55           C  
+ATOM    457  OD1 ASN A  60     -11.653  20.774  25.721  1.00  0.55           O  
+ATOM    458  ND2 ASN A  60     -13.868  20.708  25.977  1.00  0.55           N  
+ATOM    459  N   ILE A  61      -9.973  18.309  29.532  1.00  0.67           N  
+ATOM    460  CA  ILE A  61      -8.625  18.481  30.058  1.00  0.67           C  
+ATOM    461  C   ILE A  61      -8.225  17.364  31.011  1.00  0.67           C  
+ATOM    462  O   ILE A  61      -9.014  16.920  31.847  1.00  0.67           O  
+ATOM    463  CB  ILE A  61      -8.387  19.864  30.670  1.00  0.67           C  
+ATOM    464  CG1 ILE A  61      -6.874  20.128  30.849  1.00  0.67           C  
+ATOM    465  CG2 ILE A  61      -9.229  20.126  31.944  1.00  0.67           C  
+ATOM    466  CD1 ILE A  61      -6.580  21.621  30.978  1.00  0.67           C  
+ATOM    467  N   SER A  62      -6.979  16.856  30.881  1.00  0.74           N  
+ATOM    468  CA  SER A  62      -6.368  15.884  31.774  1.00  0.74           C  
+ATOM    469  C   SER A  62      -5.034  16.390  32.293  1.00  0.74           C  
+ATOM    470  O   SER A  62      -4.318  17.127  31.614  1.00  0.74           O  
+ATOM    471  CB  SER A  62      -6.193  14.468  31.143  1.00  0.74           C  
+ATOM    472  OG  SER A  62      -5.233  14.417  30.081  1.00  0.74           O  
+ATOM    473  N   PHE A  63      -4.681  16.028  33.540  1.00  0.73           N  
+ATOM    474  CA  PHE A  63      -3.436  16.418  34.176  1.00  0.73           C  
+ATOM    475  C   PHE A  63      -2.755  15.163  34.632  1.00  0.73           C  
+ATOM    476  O   PHE A  63      -3.298  14.447  35.473  1.00  0.73           O  
+ATOM    477  CB  PHE A  63      -3.611  17.252  35.473  1.00  0.73           C  
+ATOM    478  CG  PHE A  63      -4.281  18.553  35.222  1.00  0.73           C  
+ATOM    479  CD1 PHE A  63      -3.520  19.720  35.105  1.00  0.73           C  
+ATOM    480  CD2 PHE A  63      -5.675  18.631  35.114  1.00  0.73           C  
+ATOM    481  CE1 PHE A  63      -4.141  20.949  34.863  1.00  0.73           C  
+ATOM    482  CE2 PHE A  63      -6.300  19.857  34.880  1.00  0.73           C  
+ATOM    483  CZ  PHE A  63      -5.535  21.021  34.772  1.00  0.73           C  
+ATOM    484  N   THR A  64      -1.549  14.882  34.117  1.00  0.75           N  
+ATOM    485  CA  THR A  64      -0.874  13.612  34.364  1.00  0.75           C  
+ATOM    486  C   THR A  64       0.510  13.861  34.914  1.00  0.75           C  
+ATOM    487  O   THR A  64       1.297  14.604  34.323  1.00  0.75           O  
+ATOM    488  CB  THR A  64      -0.724  12.781  33.091  1.00  0.75           C  
+ATOM    489  OG1 THR A  64      -1.988  12.420  32.560  1.00  0.75           O  
+ATOM    490  CG2 THR A  64       0.010  11.452  33.308  1.00  0.75           C  
+ATOM    491  N   VAL A  65       0.883  13.252  36.061  1.00  0.75           N  
+ATOM    492  CA  VAL A  65       2.260  13.282  36.540  1.00  0.75           C  
+ATOM    493  C   VAL A  65       3.184  12.514  35.597  1.00  0.75           C  
+ATOM    494  O   VAL A  65       2.926  11.374  35.207  1.00  0.75           O  
+ATOM    495  CB  VAL A  65       2.413  12.822  37.995  1.00  0.75           C  
+ATOM    496  CG1 VAL A  65       3.890  12.807  38.450  1.00  0.75           C  
+ATOM    497  CG2 VAL A  65       1.589  13.736  38.934  1.00  0.75           C  
+ATOM    498  N   TRP A  66       4.295  13.145  35.186  1.00  0.54           N  
+ATOM    499  CA  TRP A  66       5.322  12.513  34.408  1.00  0.54           C  
+ATOM    500  C   TRP A  66       6.532  12.419  35.302  1.00  0.54           C  
+ATOM    501  O   TRP A  66       7.119  13.418  35.736  1.00  0.54           O  
+ATOM    502  CB  TRP A  66       5.571  13.257  33.074  1.00  0.54           C  
+ATOM    503  CG  TRP A  66       6.427  12.495  32.087  1.00  0.54           C  
+ATOM    504  CD1 TRP A  66       7.787  12.437  31.996  1.00  0.54           C  
+ATOM    505  CD2 TRP A  66       5.900  11.567  31.145  1.00  0.54           C  
+ATOM    506  NE1 TRP A  66       8.147  11.525  31.040  1.00  0.54           N  
+ATOM    507  CE2 TRP A  66       7.021  10.959  30.504  1.00  0.54           C  
+ATOM    508  CE3 TRP A  66       4.606  11.185  30.833  1.00  0.54           C  
+ATOM    509  CZ2 TRP A  66       6.824   9.972  29.561  1.00  0.54           C  
+ATOM    510  CZ3 TRP A  66       4.421  10.198  29.866  1.00  0.54           C  
+ATOM    511  CH2 TRP A  66       5.518   9.592  29.241  1.00  0.54           C  
+ATOM    512  N   ASP A  67       6.887  11.175  35.640  1.00  0.49           N  
+ATOM    513  CA  ASP A  67       8.078  10.820  36.355  1.00  0.49           C  
+ATOM    514  C   ASP A  67       9.287  10.944  35.408  1.00  0.49           C  
+ATOM    515  O   ASP A  67       9.345  10.318  34.348  1.00  0.49           O  
+ATOM    516  CB  ASP A  67       7.858   9.402  36.940  1.00  0.49           C  
+ATOM    517  CG  ASP A  67       8.962   9.005  37.904  1.00  0.49           C  
+ATOM    518  OD1 ASP A  67       9.983   9.742  37.965  1.00  0.49           O  
+ATOM    519  OD2 ASP A  67       8.782   7.965  38.583  1.00  0.49           O  
+ATOM    520  N   VAL A  68      10.267  11.801  35.765  1.00  0.56           N  
+ATOM    521  CA  VAL A  68      11.462  12.054  34.977  1.00  0.56           C  
+ATOM    522  C   VAL A  68      12.663  11.295  35.508  1.00  0.56           C  
+ATOM    523  O   VAL A  68      13.776  11.457  34.996  1.00  0.56           O  
+ATOM    524  CB  VAL A  68      11.822  13.540  34.921  1.00  0.56           C  
+ATOM    525  CG1 VAL A  68      10.764  14.299  34.094  1.00  0.56           C  
+ATOM    526  CG2 VAL A  68      11.998  14.105  36.346  1.00  0.56           C  
+ATOM    527  N   GLY A  69      12.476  10.453  36.551  1.00  0.42           N  
+ATOM    528  CA  GLY A  69      13.525   9.592  37.078  1.00  0.42           C  
+ATOM    529  C   GLY A  69      14.098   8.604  36.080  1.00  0.42           C  
+ATOM    530  O   GLY A  69      13.521   8.297  35.038  1.00  0.42           O  
+ATOM    531  N   GLY A  70      15.271   8.030  36.409  1.00  0.46           N  
+ATOM    532  CA  GLY A  70      15.962   7.091  35.536  1.00  0.46           C  
+ATOM    533  C   GLY A  70      16.995   7.739  34.656  1.00  0.46           C  
+ATOM    534  O   GLY A  70      17.312   8.919  34.762  1.00  0.46           O  
+ATOM    535  N   GLN A  71      17.610   6.921  33.789  1.00  0.55           N  
+ATOM    536  CA  GLN A  71      18.694   7.324  32.920  1.00  0.55           C  
+ATOM    537  C   GLN A  71      18.214   8.010  31.642  1.00  0.55           C  
+ATOM    538  O   GLN A  71      17.076   7.862  31.207  1.00  0.55           O  
+ATOM    539  CB  GLN A  71      19.520   6.073  32.519  1.00  0.55           C  
+ATOM    540  CG  GLN A  71      20.171   5.320  33.708  1.00  0.55           C  
+ATOM    541  CD  GLN A  71      20.720   3.965  33.268  1.00  0.55           C  
+ATOM    542  OE1 GLN A  71      20.375   2.910  33.799  1.00  0.55           O  
+ATOM    543  NE2 GLN A  71      21.592   3.974  32.238  1.00  0.55           N  
+ATOM    544  N   ASP A  72      19.110   8.740  30.951  1.00  0.62           N  
+ATOM    545  CA  ASP A  72      18.795   9.407  29.701  1.00  0.62           C  
+ATOM    546  C   ASP A  72      18.557   8.478  28.493  1.00  0.62           C  
+ATOM    547  O   ASP A  72      17.887   8.850  27.531  1.00  0.62           O  
+ATOM    548  CB  ASP A  72      19.904  10.444  29.428  1.00  0.62           C  
+ATOM    549  CG  ASP A  72      19.728  11.597  30.403  1.00  0.62           C  
+ATOM    550  OD1 ASP A  72      20.622  11.829  31.250  1.00  0.62           O  
+ATOM    551  OD2 ASP A  72      18.664  12.267  30.334  1.00  0.62           O  
+ATOM    552  N   LYS A  73      19.026   7.207  28.541  1.00  0.63           N  
+ATOM    553  CA  LYS A  73      18.816   6.186  27.511  1.00  0.63           C  
+ATOM    554  C   LYS A  73      17.360   5.859  27.202  1.00  0.63           C  
+ATOM    555  O   LYS A  73      17.041   5.478  26.076  1.00  0.63           O  
+ATOM    556  CB  LYS A  73      19.584   4.872  27.833  1.00  0.63           C  
+ATOM    557  CG  LYS A  73      21.078   4.978  27.487  1.00  0.63           C  
+ATOM    558  CD  LYS A  73      21.926   3.825  28.057  1.00  0.63           C  
+ATOM    559  CE  LYS A  73      23.433   4.100  27.950  1.00  0.63           C  
+ATOM    560  NZ  LYS A  73      24.238   3.011  28.556  1.00  0.63           N  
+ATOM    561  N   ILE A  74      16.448   5.996  28.185  1.00  0.61           N  
+ATOM    562  CA  ILE A  74      15.048   5.643  28.036  1.00  0.61           C  
+ATOM    563  C   ILE A  74      14.171   6.841  27.683  1.00  0.61           C  
+ATOM    564  O   ILE A  74      12.999   6.680  27.348  1.00  0.61           O  
+ATOM    565  CB  ILE A  74      14.499   4.920  29.271  1.00  0.61           C  
+ATOM    566  CG1 ILE A  74      14.655   5.679  30.625  1.00  0.61           C  
+ATOM    567  CG2 ILE A  74      15.157   3.510  29.314  1.00  0.61           C  
+ATOM    568  CD1 ILE A  74      13.697   6.855  30.913  1.00  0.61           C  
+ATOM    569  N   ARG A  75      14.726   8.078  27.675  1.00  0.55           N  
+ATOM    570  CA  ARG A  75      14.025   9.278  27.226  1.00  0.55           C  
+ATOM    571  C   ARG A  75      13.525   9.286  25.772  1.00  0.55           C  
+ATOM    572  O   ARG A  75      12.417   9.780  25.564  1.00  0.55           O  
+ATOM    573  CB  ARG A  75      14.781  10.593  27.542  1.00  0.55           C  
+ATOM    574  CG  ARG A  75      15.050  10.810  29.048  1.00  0.55           C  
+ATOM    575  CD  ARG A  75      15.458  12.259  29.378  1.00  0.55           C  
+ATOM    576  NE  ARG A  75      15.396  12.424  30.880  1.00  0.55           N  
+ATOM    577  CZ  ARG A  75      15.103  13.552  31.548  1.00  0.55           C  
+ATOM    578  NH1 ARG A  75      14.751  14.690  30.962  1.00  0.55           N  
+ATOM    579  NH2 ARG A  75      15.082  13.557  32.884  1.00  0.55           N  
+ATOM    580  N   PRO A  76      14.175   8.756  24.721  1.00  0.65           N  
+ATOM    581  CA  PRO A  76      13.589   8.655  23.382  1.00  0.65           C  
+ATOM    582  C   PRO A  76      12.225   7.970  23.290  1.00  0.65           C  
+ATOM    583  O   PRO A  76      11.514   8.192  22.300  1.00  0.65           O  
+ATOM    584  CB  PRO A  76      14.625   7.847  22.585  1.00  0.65           C  
+ATOM    585  CG  PRO A  76      15.969   8.107  23.267  1.00  0.65           C  
+ATOM    586  CD  PRO A  76      15.582   8.338  24.728  1.00  0.65           C  
+ATOM    587  N   LEU A  77      11.866   7.117  24.279  1.00  0.61           N  
+ATOM    588  CA  LEU A  77      10.608   6.398  24.389  1.00  0.61           C  
+ATOM    589  C   LEU A  77       9.450   7.321  24.777  1.00  0.61           C  
+ATOM    590  O   LEU A  77       8.284   7.012  24.546  1.00  0.61           O  
+ATOM    591  CB  LEU A  77      10.705   5.257  25.441  1.00  0.61           C  
+ATOM    592  CG  LEU A  77      11.749   4.150  25.162  1.00  0.61           C  
+ATOM    593  CD1 LEU A  77      11.808   3.185  26.362  1.00  0.61           C  
+ATOM    594  CD2 LEU A  77      11.453   3.379  23.861  1.00  0.61           C  
+ATOM    595  N   TRP A  78       9.750   8.501  25.362  1.00  0.55           N  
+ATOM    596  CA  TRP A  78       8.764   9.445  25.868  1.00  0.55           C  
+ATOM    597  C   TRP A  78       8.066  10.227  24.770  1.00  0.55           C  
+ATOM    598  O   TRP A  78       6.929  10.682  24.927  1.00  0.55           O  
+ATOM    599  CB  TRP A  78       9.446  10.448  26.833  1.00  0.55           C  
+ATOM    600  CG  TRP A  78      10.112   9.838  28.071  1.00  0.55           C  
+ATOM    601  CD1 TRP A  78      10.121   8.553  28.544  1.00  0.55           C  
+ATOM    602  CD2 TRP A  78      10.797  10.634  29.034  1.00  0.55           C  
+ATOM    603  NE1 TRP A  78      10.751   8.512  29.762  1.00  0.55           N  
+ATOM    604  CE2 TRP A  78      11.163   9.767  30.110  1.00  0.55           C  
+ATOM    605  CE3 TRP A  78      11.099  11.978  29.080  1.00  0.55           C  
+ATOM    606  CZ2 TRP A  78      11.801  10.272  31.227  1.00  0.55           C  
+ATOM    607  CZ3 TRP A  78      11.701  12.489  30.226  1.00  0.55           C  
+ATOM    608  CH2 TRP A  78      12.054  11.647  31.290  1.00  0.55           C  
+ATOM    609  N   ARG A  79       8.712  10.354  23.603  1.00  0.63           N  
+ATOM    610  CA  ARG A  79       8.430  11.359  22.594  1.00  0.63           C  
+ATOM    611  C   ARG A  79       7.003  11.417  22.062  1.00  0.63           C  
+ATOM    612  O   ARG A  79       6.444  12.497  21.885  1.00  0.63           O  
+ATOM    613  CB  ARG A  79       9.440  11.193  21.438  1.00  0.63           C  
+ATOM    614  CG  ARG A  79      10.779  11.896  21.762  1.00  0.63           C  
+ATOM    615  CD  ARG A  79      11.859  11.846  20.673  1.00  0.63           C  
+ATOM    616  NE  ARG A  79      11.970  10.389  20.296  1.00  0.63           N  
+ATOM    617  CZ  ARG A  79      12.977   9.798  19.646  1.00  0.63           C  
+ATOM    618  NH1 ARG A  79      14.072  10.468  19.309  1.00  0.63           N  
+ATOM    619  NH2 ARG A  79      12.898   8.497  19.354  1.00  0.63           N  
+ATOM    620  N   HIS A  80       6.332  10.268  21.832  1.00  0.61           N  
+ATOM    621  CA  HIS A  80       4.926  10.264  21.435  1.00  0.61           C  
+ATOM    622  C   HIS A  80       3.981  10.778  22.532  1.00  0.61           C  
+ATOM    623  O   HIS A  80       2.974  11.427  22.261  1.00  0.61           O  
+ATOM    624  CB  HIS A  80       4.471   8.923  20.786  1.00  0.61           C  
+ATOM    625  CG  HIS A  80       3.768   7.950  21.678  1.00  0.61           C  
+ATOM    626  ND1 HIS A  80       2.408   8.114  21.814  1.00  0.61           N  
+ATOM    627  CD2 HIS A  80       4.193   6.896  22.424  1.00  0.61           C  
+ATOM    628  CE1 HIS A  80       2.024   7.168  22.636  1.00  0.61           C  
+ATOM    629  NE2 HIS A  80       3.063   6.399  23.038  1.00  0.61           N  
+ATOM    630  N   TYR A  81       4.306  10.582  23.829  1.00  0.63           N  
+ATOM    631  CA  TYR A  81       3.463  11.052  24.915  1.00  0.63           C  
+ATOM    632  C   TYR A  81       3.545  12.552  25.123  1.00  0.63           C  
+ATOM    633  O   TYR A  81       2.655  13.156  25.729  1.00  0.63           O  
+ATOM    634  CB  TYR A  81       3.854  10.408  26.258  1.00  0.63           C  
+ATOM    635  CG  TYR A  81       3.527   8.956  26.242  1.00  0.63           C  
+ATOM    636  CD1 TYR A  81       2.208   8.538  26.448  1.00  0.63           C  
+ATOM    637  CD2 TYR A  81       4.531   7.997  26.073  1.00  0.63           C  
+ATOM    638  CE1 TYR A  81       1.898   7.176  26.517  1.00  0.63           C  
+ATOM    639  CE2 TYR A  81       4.223   6.632  26.138  1.00  0.63           C  
+ATOM    640  CZ  TYR A  81       2.902   6.223  26.353  1.00  0.63           C  
+ATOM    641  OH  TYR A  81       2.557   4.860  26.387  1.00  0.63           O  
+ATOM    642  N   PHE A  82       4.620  13.178  24.609  1.00  0.78           N  
+ATOM    643  CA  PHE A  82       4.827  14.611  24.633  1.00  0.78           C  
+ATOM    644  C   PHE A  82       4.208  15.300  23.416  1.00  0.78           C  
+ATOM    645  O   PHE A  82       4.068  16.518  23.406  1.00  0.78           O  
+ATOM    646  CB  PHE A  82       6.343  14.954  24.722  1.00  0.78           C  
+ATOM    647  CG  PHE A  82       7.015  14.585  26.029  1.00  0.78           C  
+ATOM    648  CD1 PHE A  82       6.348  14.024  27.136  1.00  0.78           C  
+ATOM    649  CD2 PHE A  82       8.391  14.838  26.160  1.00  0.78           C  
+ATOM    650  CE1 PHE A  82       7.026  13.734  28.323  1.00  0.78           C  
+ATOM    651  CE2 PHE A  82       9.069  14.557  27.352  1.00  0.78           C  
+ATOM    652  CZ  PHE A  82       8.388  13.997  28.432  1.00  0.78           C  
+ATOM    653  N   GLN A  83       3.772  14.540  22.385  1.00  0.68           N  
+ATOM    654  CA  GLN A  83       3.245  15.080  21.136  1.00  0.68           C  
+ATOM    655  C   GLN A  83       1.986  15.940  21.211  1.00  0.68           C  
+ATOM    656  O   GLN A  83       1.893  17.001  20.599  1.00  0.68           O  
+ATOM    657  CB  GLN A  83       3.003  13.949  20.112  1.00  0.68           C  
+ATOM    658  CG  GLN A  83       4.292  13.650  19.324  1.00  0.68           C  
+ATOM    659  CD  GLN A  83       4.063  12.558  18.290  1.00  0.68           C  
+ATOM    660  OE1 GLN A  83       2.937  12.262  17.884  1.00  0.68           O  
+ATOM    661  NE2 GLN A  83       5.163  11.940  17.806  1.00  0.68           N  
+ATOM    662  N   ASN A  84       0.968  15.498  21.971  1.00  0.72           N  
+ATOM    663  CA  ASN A  84      -0.283  16.217  22.119  1.00  0.72           C  
+ATOM    664  C   ASN A  84      -0.346  16.768  23.520  1.00  0.72           C  
+ATOM    665  O   ASN A  84      -1.188  16.369  24.323  1.00  0.72           O  
+ATOM    666  CB  ASN A  84      -1.521  15.338  21.749  1.00  0.72           C  
+ATOM    667  CG  ASN A  84      -2.772  16.190  21.586  1.00  0.72           C  
+ATOM    668  OD1 ASN A  84      -3.834  15.921  22.147  1.00  0.72           O  
+ATOM    669  ND2 ASN A  84      -2.646  17.291  20.816  1.00  0.72           N  
+ATOM    670  N   THR A  85       0.558  17.682  23.861  1.00  0.81           N  
+ATOM    671  CA  THR A  85       0.652  18.309  25.174  1.00  0.81           C  
+ATOM    672  C   THR A  85       0.592  19.819  25.019  1.00  0.81           C  
+ATOM    673  O   THR A  85       1.415  20.429  24.340  1.00  0.81           O  
+ATOM    674  CB  THR A  85       1.945  17.937  25.877  1.00  0.81           C  
+ATOM    675  OG1 THR A  85       2.111  16.527  25.978  1.00  0.81           O  
+ATOM    676  CG2 THR A  85       1.955  18.454  27.316  1.00  0.81           C  
+ATOM    677  N   GLN A  86      -0.408  20.476  25.645  1.00  0.78           N  
+ATOM    678  CA  GLN A  86      -0.637  21.908  25.512  1.00  0.78           C  
+ATOM    679  C   GLN A  86      -0.080  22.656  26.694  1.00  0.78           C  
+ATOM    680  O   GLN A  86       0.097  23.872  26.647  1.00  0.78           O  
+ATOM    681  CB  GLN A  86      -2.153  22.237  25.425  1.00  0.78           C  
+ATOM    682  CG  GLN A  86      -2.808  21.843  24.084  1.00  0.78           C  
+ATOM    683  CD  GLN A  86      -2.902  20.333  23.926  1.00  0.78           C  
+ATOM    684  OE1 GLN A  86      -3.315  19.606  24.841  1.00  0.78           O  
+ATOM    685  NE2 GLN A  86      -2.496  19.802  22.758  1.00  0.78           N  
+ATOM    686  N   GLY A  87       0.253  21.947  27.783  1.00  0.88           N  
+ATOM    687  CA  GLY A  87       0.810  22.614  28.936  1.00  0.88           C  
+ATOM    688  C   GLY A  87       1.707  21.740  29.738  1.00  0.88           C  
+ATOM    689  O   GLY A  87       1.555  20.521  29.811  1.00  0.88           O  
+ATOM    690  N   LEU A  88       2.668  22.389  30.396  1.00  0.89           N  
+ATOM    691  CA  LEU A  88       3.574  21.767  31.321  1.00  0.89           C  
+ATOM    692  C   LEU A  88       3.441  22.475  32.658  1.00  0.89           C  
+ATOM    693  O   LEU A  88       3.549  23.698  32.755  1.00  0.89           O  
+ATOM    694  CB  LEU A  88       5.026  21.849  30.790  1.00  0.89           C  
+ATOM    695  CG  LEU A  88       6.099  21.177  31.668  1.00  0.89           C  
+ATOM    696  CD1 LEU A  88       5.885  19.665  31.807  1.00  0.89           C  
+ATOM    697  CD2 LEU A  88       7.497  21.447  31.096  1.00  0.89           C  
+ATOM    698  N   ILE A  89       3.188  21.712  33.734  1.00  0.92           N  
+ATOM    699  CA  ILE A  89       3.223  22.210  35.096  1.00  0.92           C  
+ATOM    700  C   ILE A  89       4.531  21.736  35.700  1.00  0.92           C  
+ATOM    701  O   ILE A  89       4.807  20.540  35.790  1.00  0.92           O  
+ATOM    702  CB  ILE A  89       2.017  21.819  35.956  1.00  0.92           C  
+ATOM    703  CG1 ILE A  89       0.739  22.447  35.352  1.00  0.92           C  
+ATOM    704  CG2 ILE A  89       2.226  22.296  37.415  1.00  0.92           C  
+ATOM    705  CD1 ILE A  89      -0.563  22.019  36.039  1.00  0.92           C  
+ATOM    706  N   PHE A  90       5.392  22.679  36.119  1.00  0.91           N  
+ATOM    707  CA  PHE A  90       6.642  22.373  36.786  1.00  0.91           C  
+ATOM    708  C   PHE A  90       6.465  22.682  38.260  1.00  0.91           C  
+ATOM    709  O   PHE A  90       6.132  23.801  38.647  1.00  0.91           O  
+ATOM    710  CB  PHE A  90       7.850  23.146  36.165  1.00  0.91           C  
+ATOM    711  CG  PHE A  90       9.177  22.631  36.667  1.00  0.91           C  
+ATOM    712  CD1 PHE A  90       9.776  21.553  36.003  1.00  0.91           C  
+ATOM    713  CD2 PHE A  90       9.825  23.151  37.802  1.00  0.91           C  
+ATOM    714  CE1 PHE A  90      10.880  20.888  36.538  1.00  0.91           C  
+ATOM    715  CE2 PHE A  90      10.995  22.549  38.284  1.00  0.91           C  
+ATOM    716  CZ  PHE A  90      11.494  21.392  37.681  1.00  0.91           C  
+ATOM    717  N   VAL A  91       6.662  21.679  39.129  1.00  0.92           N  
+ATOM    718  CA  VAL A  91       6.495  21.828  40.564  1.00  0.92           C  
+ATOM    719  C   VAL A  91       7.859  21.761  41.211  1.00  0.92           C  
+ATOM    720  O   VAL A  91       8.607  20.797  41.031  1.00  0.92           O  
+ATOM    721  CB  VAL A  91       5.606  20.747  41.175  1.00  0.92           C  
+ATOM    722  CG1 VAL A  91       5.322  21.059  42.660  1.00  0.92           C  
+ATOM    723  CG2 VAL A  91       4.278  20.701  40.401  1.00  0.92           C  
+ATOM    724  N   VAL A  92       8.217  22.794  41.993  1.00  0.92           N  
+ATOM    725  CA  VAL A  92       9.488  22.874  42.680  1.00  0.92           C  
+ATOM    726  C   VAL A  92       9.244  23.003  44.168  1.00  0.92           C  
+ATOM    727  O   VAL A  92       8.333  23.707  44.603  1.00  0.92           O  
+ATOM    728  CB  VAL A  92      10.352  24.012  42.118  1.00  0.92           C  
+ATOM    729  CG1 VAL A  92       9.719  25.416  42.268  1.00  0.92           C  
+ATOM    730  CG2 VAL A  92      11.779  23.961  42.700  1.00  0.92           C  
+ATOM    731  N   ASP A  93      10.038  22.295  45.002  1.00  0.91           N  
+ATOM    732  CA  ASP A  93      10.106  22.554  46.418  1.00  0.91           C  
+ATOM    733  C   ASP A  93      10.913  23.838  46.592  1.00  0.91           C  
+ATOM    734  O   ASP A  93      12.104  23.894  46.274  1.00  0.91           O  
+ATOM    735  CB  ASP A  93      10.740  21.335  47.134  1.00  0.91           C  
+ATOM    736  CG  ASP A  93      10.762  21.477  48.643  1.00  0.91           C  
+ATOM    737  OD1 ASP A  93      10.655  22.593  49.200  1.00  0.91           O  
+ATOM    738  OD2 ASP A  93      10.862  20.387  49.264  1.00  0.91           O  
+ATOM    739  N   SER A  94      10.278  24.918  47.072  1.00  0.89           N  
+ATOM    740  CA  SER A  94      10.929  26.202  47.234  1.00  0.89           C  
+ATOM    741  C   SER A  94      11.732  26.297  48.503  1.00  0.89           C  
+ATOM    742  O   SER A  94      12.468  27.261  48.718  1.00  0.89           O  
+ATOM    743  CB  SER A  94       9.933  27.371  47.227  1.00  0.89           C  
+ATOM    744  OG  SER A  94       9.226  27.410  45.988  1.00  0.89           O  
+ATOM    745  N   ASN A  95      11.635  25.303  49.400  1.00  0.85           N  
+ATOM    746  CA  ASN A  95      12.454  25.269  50.584  1.00  0.85           C  
+ATOM    747  C   ASN A  95      13.767  24.554  50.294  1.00  0.85           C  
+ATOM    748  O   ASN A  95      14.766  24.832  50.963  1.00  0.85           O  
+ATOM    749  CB  ASN A  95      11.633  24.612  51.721  1.00  0.85           C  
+ATOM    750  CG  ASN A  95      12.298  24.689  53.085  1.00  0.85           C  
+ATOM    751  OD1 ASN A  95      12.523  23.677  53.756  1.00  0.85           O  
+ATOM    752  ND2 ASN A  95      12.628  25.907  53.561  1.00  0.85           N  
+ATOM    753  N   ASP A  96      13.822  23.701  49.248  1.00  0.88           N  
+ATOM    754  CA  ASP A  96      14.984  22.901  48.925  1.00  0.88           C  
+ATOM    755  C   ASP A  96      15.973  23.733  48.093  1.00  0.88           C  
+ATOM    756  O   ASP A  96      15.964  23.778  46.858  1.00  0.88           O  
+ATOM    757  CB  ASP A  96      14.493  21.594  48.238  1.00  0.88           C  
+ATOM    758  CG  ASP A  96      15.481  20.436  48.293  1.00  0.88           C  
+ATOM    759  OD1 ASP A  96      16.708  20.687  48.181  1.00  0.88           O  
+ATOM    760  OD2 ASP A  96      15.004  19.264  48.346  1.00  0.88           O  
+ATOM    761  N   ARG A  97      16.848  24.486  48.792  1.00  0.81           N  
+ATOM    762  CA  ARG A  97      17.854  25.349  48.207  1.00  0.81           C  
+ATOM    763  C   ARG A  97      19.005  24.574  47.566  1.00  0.81           C  
+ATOM    764  O   ARG A  97      19.576  25.026  46.572  1.00  0.81           O  
+ATOM    765  CB  ARG A  97      18.352  26.373  49.263  1.00  0.81           C  
+ATOM    766  CG  ARG A  97      17.288  27.446  49.621  1.00  0.81           C  
+ATOM    767  CD  ARG A  97      17.622  28.297  50.857  1.00  0.81           C  
+ATOM    768  NE  ARG A  97      16.473  29.262  51.134  1.00  0.81           N  
+ATOM    769  CZ  ARG A  97      16.310  30.504  50.641  1.00  0.81           C  
+ATOM    770  NH1 ARG A  97      17.151  31.040  49.763  1.00  0.81           N  
+ATOM    771  NH2 ARG A  97      15.222  31.209  50.954  1.00  0.81           N  
+ATOM    772  N   GLU A  98      19.347  23.388  48.103  1.00  0.86           N  
+ATOM    773  CA  GLU A  98      20.378  22.484  47.619  1.00  0.86           C  
+ATOM    774  C   GLU A  98      20.053  21.838  46.260  1.00  0.86           C  
+ATOM    775  O   GLU A  98      20.944  21.607  45.434  1.00  0.86           O  
+ATOM    776  CB  GLU A  98      20.682  21.406  48.696  1.00  0.86           C  
+ATOM    777  CG  GLU A  98      21.401  21.913  49.986  1.00  0.86           C  
+ATOM    778  CD  GLU A  98      20.690  23.042  50.737  1.00  0.86           C  
+ATOM    779  OE1 GLU A  98      19.485  22.886  51.058  1.00  0.86           O  
+ATOM    780  OE2 GLU A  98      21.343  24.093  50.959  1.00  0.86           O  
+ATOM    781  N   ARG A  99      18.761  21.540  45.976  1.00  0.83           N  
+ATOM    782  CA  ARG A  99      18.323  20.908  44.733  1.00  0.83           C  
+ATOM    783  C   ARG A  99      17.687  21.871  43.734  1.00  0.83           C  
+ATOM    784  O   ARG A  99      17.221  21.466  42.668  1.00  0.83           O  
+ATOM    785  CB  ARG A  99      17.327  19.763  45.019  1.00  0.83           C  
+ATOM    786  CG  ARG A  99      17.983  18.566  45.735  1.00  0.83           C  
+ATOM    787  CD  ARG A  99      16.947  17.666  46.400  1.00  0.83           C  
+ATOM    788  NE  ARG A  99      16.479  16.625  45.427  1.00  0.83           N  
+ATOM    789  CZ  ARG A  99      15.255  16.084  45.518  1.00  0.83           C  
+ATOM    790  NH1 ARG A  99      14.373  16.520  46.417  1.00  0.83           N  
+ATOM    791  NH2 ARG A  99      14.881  15.120  44.680  1.00  0.83           N  
+ATOM    792  N   VAL A 100      17.676  23.196  43.993  1.00  0.90           N  
+ATOM    793  CA  VAL A 100      17.083  24.157  43.059  1.00  0.90           C  
+ATOM    794  C   VAL A 100      17.740  24.208  41.676  1.00  0.90           C  
+ATOM    795  O   VAL A 100      17.074  24.342  40.648  1.00  0.90           O  
+ATOM    796  CB  VAL A 100      16.887  25.551  43.655  1.00  0.90           C  
+ATOM    797  CG1 VAL A 100      18.187  26.378  43.742  1.00  0.90           C  
+ATOM    798  CG2 VAL A 100      15.811  26.293  42.836  1.00  0.90           C  
+ATOM    799  N   ASN A 101      19.083  24.070  41.592  1.00  0.90           N  
+ATOM    800  CA  ASN A 101      19.773  23.956  40.321  1.00  0.90           C  
+ATOM    801  C   ASN A 101      19.456  22.649  39.584  1.00  0.90           C  
+ATOM    802  O   ASN A 101      19.236  22.676  38.377  1.00  0.90           O  
+ATOM    803  CB  ASN A 101      21.290  24.218  40.475  1.00  0.90           C  
+ATOM    804  CG  ASN A 101      21.960  24.487  39.132  1.00  0.90           C  
+ATOM    805  OD1 ASN A 101      22.862  23.769  38.718  1.00  0.90           O  
+ATOM    806  ND2 ASN A 101      21.570  25.583  38.441  1.00  0.90           N  
+ATOM    807  N   GLU A 102      19.339  21.501  40.296  1.00  0.82           N  
+ATOM    808  CA  GLU A 102      18.890  20.229  39.731  1.00  0.82           C  
+ATOM    809  C   GLU A 102      17.480  20.349  39.135  1.00  0.82           C  
+ATOM    810  O   GLU A 102      17.199  19.905  38.021  1.00  0.82           O  
+ATOM    811  CB  GLU A 102      18.925  19.113  40.816  1.00  0.82           C  
+ATOM    812  CG  GLU A 102      18.498  17.702  40.328  1.00  0.82           C  
+ATOM    813  CD  GLU A 102      18.305  16.673  41.452  1.00  0.82           C  
+ATOM    814  OE1 GLU A 102      18.617  16.961  42.638  1.00  0.82           O  
+ATOM    815  OE2 GLU A 102      17.761  15.585  41.131  1.00  0.82           O  
+ATOM    816  N   ALA A 103      16.562  21.044  39.844  1.00  0.90           N  
+ATOM    817  CA  ALA A 103      15.234  21.366  39.345  1.00  0.90           C  
+ATOM    818  C   ALA A 103      15.224  22.243  38.086  1.00  0.90           C  
+ATOM    819  O   ALA A 103      14.462  22.009  37.143  1.00  0.90           O  
+ATOM    820  CB  ALA A 103      14.408  22.061  40.445  1.00  0.90           C  
+ATOM    821  N   ARG A 104      16.100  23.264  38.027  1.00  0.83           N  
+ATOM    822  CA  ARG A 104      16.329  24.101  36.862  1.00  0.83           C  
+ATOM    823  C   ARG A 104      16.805  23.300  35.656  1.00  0.83           C  
+ATOM    824  O   ARG A 104      16.276  23.451  34.558  1.00  0.83           O  
+ATOM    825  CB  ARG A 104      17.390  25.187  37.178  1.00  0.83           C  
+ATOM    826  CG  ARG A 104      17.727  26.086  35.974  1.00  0.83           C  
+ATOM    827  CD  ARG A 104      18.885  27.053  36.211  1.00  0.83           C  
+ATOM    828  NE  ARG A 104      19.408  27.411  34.834  1.00  0.83           N  
+ATOM    829  CZ  ARG A 104      20.414  26.783  34.205  1.00  0.83           C  
+ATOM    830  NH1 ARG A 104      21.198  25.904  34.821  1.00  0.83           N  
+ATOM    831  NH2 ARG A 104      20.609  26.975  32.896  1.00  0.83           N  
+ATOM    832  N   GLU A 105      17.798  22.404  35.838  1.00  0.85           N  
+ATOM    833  CA  GLU A 105      18.306  21.540  34.786  1.00  0.85           C  
+ATOM    834  C   GLU A 105      17.278  20.575  34.231  1.00  0.85           C  
+ATOM    835  O   GLU A 105      17.170  20.401  33.015  1.00  0.85           O  
+ATOM    836  CB  GLU A 105      19.576  20.794  35.222  1.00  0.85           C  
+ATOM    837  CG  GLU A 105      20.749  21.784  35.404  1.00  0.85           C  
+ATOM    838  CD  GLU A 105      22.133  21.137  35.355  1.00  0.85           C  
+ATOM    839  OE1 GLU A 105      22.232  19.932  35.015  1.00  0.85           O  
+ATOM    840  OE2 GLU A 105      23.101  21.908  35.580  1.00  0.85           O  
+ATOM    841  N   GLU A 106      16.444  19.957  35.094  1.00  0.84           N  
+ATOM    842  CA  GLU A 106      15.350  19.141  34.608  1.00  0.84           C  
+ATOM    843  C   GLU A 106      14.324  19.922  33.811  1.00  0.84           C  
+ATOM    844  O   GLU A 106      13.939  19.517  32.715  1.00  0.84           O  
+ATOM    845  CB  GLU A 106      14.619  18.356  35.714  1.00  0.84           C  
+ATOM    846  CG  GLU A 106      13.628  17.312  35.139  1.00  0.84           C  
+ATOM    847  CD  GLU A 106      14.298  16.344  34.161  1.00  0.84           C  
+ATOM    848  OE1 GLU A 106      13.803  16.157  33.018  1.00  0.84           O  
+ATOM    849  OE2 GLU A 106      15.361  15.753  34.496  1.00  0.84           O  
+ATOM    850  N   LEU A 107      13.913  21.114  34.302  1.00  0.89           N  
+ATOM    851  CA  LEU A 107      12.991  21.976  33.583  1.00  0.89           C  
+ATOM    852  C   LEU A 107      13.521  22.367  32.203  1.00  0.89           C  
+ATOM    853  O   LEU A 107      12.819  22.243  31.202  1.00  0.89           O  
+ATOM    854  CB  LEU A 107      12.687  23.255  34.404  1.00  0.89           C  
+ATOM    855  CG  LEU A 107      11.836  24.324  33.679  1.00  0.89           C  
+ATOM    856  CD1 LEU A 107      10.472  23.793  33.198  1.00  0.89           C  
+ATOM    857  CD2 LEU A 107      11.677  25.574  34.560  1.00  0.89           C  
+ATOM    858  N   MET A 108      14.802  22.779  32.103  1.00  0.87           N  
+ATOM    859  CA  MET A 108      15.456  23.105  30.845  1.00  0.87           C  
+ATOM    860  C   MET A 108      15.568  21.928  29.882  1.00  0.87           C  
+ATOM    861  O   MET A 108      15.367  22.093  28.681  1.00  0.87           O  
+ATOM    862  CB  MET A 108      16.824  23.809  31.071  1.00  0.87           C  
+ATOM    863  CG  MET A 108      16.711  25.211  31.719  1.00  0.87           C  
+ATOM    864  SD  MET A 108      15.541  26.334  30.883  1.00  0.87           S  
+ATOM    865  CE  MET A 108      15.399  27.498  32.263  1.00  0.87           C  
+ATOM    866  N   ARG A 109      15.839  20.697  30.371  1.00  0.75           N  
+ATOM    867  CA  ARG A 109      15.762  19.506  29.535  1.00  0.75           C  
+ATOM    868  C   ARG A 109      14.376  19.241  28.962  1.00  0.75           C  
+ATOM    869  O   ARG A 109      14.239  19.029  27.761  1.00  0.75           O  
+ATOM    870  CB  ARG A 109      16.258  18.239  30.264  1.00  0.75           C  
+ATOM    871  CG  ARG A 109      17.789  18.221  30.404  1.00  0.75           C  
+ATOM    872  CD  ARG A 109      18.358  16.820  30.617  1.00  0.75           C  
+ATOM    873  NE  ARG A 109      17.893  16.370  31.962  1.00  0.75           N  
+ATOM    874  CZ  ARG A 109      18.350  15.267  32.573  1.00  0.75           C  
+ATOM    875  NH1 ARG A 109      19.184  14.453  31.945  1.00  0.75           N  
+ATOM    876  NH2 ARG A 109      17.921  14.971  33.796  1.00  0.75           N  
+ATOM    877  N   MET A 110      13.315  19.336  29.790  1.00  0.79           N  
+ATOM    878  CA  MET A 110      11.927  19.235  29.354  1.00  0.79           C  
+ATOM    879  C   MET A 110      11.536  20.289  28.331  1.00  0.79           C  
+ATOM    880  O   MET A 110      10.818  20.024  27.369  1.00  0.79           O  
+ATOM    881  CB  MET A 110      10.958  19.385  30.557  1.00  0.79           C  
+ATOM    882  CG  MET A 110      10.899  18.190  31.523  1.00  0.79           C  
+ATOM    883  SD  MET A 110      10.376  16.611  30.762  1.00  0.79           S  
+ATOM    884  CE  MET A 110       8.761  17.108  30.092  1.00  0.79           C  
+ATOM    885  N   LEU A 111      12.013  21.531  28.503  1.00  0.83           N  
+ATOM    886  CA  LEU A 111      11.735  22.608  27.576  1.00  0.83           C  
+ATOM    887  C   LEU A 111      12.502  22.537  26.259  1.00  0.83           C  
+ATOM    888  O   LEU A 111      12.110  23.210  25.302  1.00  0.83           O  
+ATOM    889  CB  LEU A 111      11.971  23.987  28.231  1.00  0.83           C  
+ATOM    890  CG  LEU A 111      11.032  24.323  29.410  1.00  0.83           C  
+ATOM    891  CD1 LEU A 111      11.378  25.724  29.931  1.00  0.83           C  
+ATOM    892  CD2 LEU A 111       9.534  24.202  29.073  1.00  0.83           C  
+ATOM    893  N   ALA A 112      13.568  21.709  26.164  1.00  0.81           N  
+ATOM    894  CA  ALA A 112      14.315  21.484  24.938  1.00  0.81           C  
+ATOM    895  C   ALA A 112      13.829  20.241  24.186  1.00  0.81           C  
+ATOM    896  O   ALA A 112      14.362  19.916  23.119  1.00  0.81           O  
+ATOM    897  CB  ALA A 112      15.826  21.301  25.222  1.00  0.81           C  
+ATOM    898  N   GLU A 113      12.792  19.531  24.678  1.00  0.76           N  
+ATOM    899  CA  GLU A 113      12.028  18.562  23.901  1.00  0.76           C  
+ATOM    900  C   GLU A 113      11.239  19.294  22.808  1.00  0.76           C  
+ATOM    901  O   GLU A 113      10.404  20.163  23.099  1.00  0.76           O  
+ATOM    902  CB  GLU A 113      11.032  17.746  24.782  1.00  0.76           C  
+ATOM    903  CG  GLU A 113      11.645  16.911  25.954  1.00  0.76           C  
+ATOM    904  CD  GLU A 113      12.138  15.477  25.688  1.00  0.76           C  
+ATOM    905  OE1 GLU A 113      11.785  14.857  24.659  1.00  0.76           O  
+ATOM    906  OE2 GLU A 113      12.835  14.960  26.611  1.00  0.76           O  
+ATOM    907  N   ASP A 114      11.477  18.962  21.517  1.00  0.77           N  
+ATOM    908  CA  ASP A 114      10.875  19.573  20.333  1.00  0.77           C  
+ATOM    909  C   ASP A 114       9.352  19.432  20.354  1.00  0.77           C  
+ATOM    910  O   ASP A 114       8.596  20.323  19.964  1.00  0.77           O  
+ATOM    911  CB  ASP A 114      11.452  18.947  19.026  1.00  0.77           C  
+ATOM    912  CG  ASP A 114      10.746  19.564  17.819  1.00  0.77           C  
+ATOM    913  OD1 ASP A 114      10.802  20.814  17.691  1.00  0.77           O  
+ATOM    914  OD2 ASP A 114      10.034  18.824  17.092  1.00  0.77           O  
+ATOM    915  N   GLU A 115       8.855  18.300  20.855  1.00  0.75           N  
+ATOM    916  CA  GLU A 115       7.458  17.966  20.942  1.00  0.75           C  
+ATOM    917  C   GLU A 115       6.699  18.888  21.904  1.00  0.75           C  
+ATOM    918  O   GLU A 115       5.487  19.062  21.798  1.00  0.75           O  
+ATOM    919  CB  GLU A 115       7.314  16.475  21.353  1.00  0.75           C  
+ATOM    920  CG  GLU A 115       8.053  15.459  20.425  1.00  0.75           C  
+ATOM    921  CD  GLU A 115       9.574  15.307  20.624  1.00  0.75           C  
+ATOM    922  OE1 GLU A 115      10.169  16.061  21.436  1.00  0.75           O  
+ATOM    923  OE2 GLU A 115      10.142  14.417  19.932  1.00  0.75           O  
+ATOM    924  N   LEU A 116       7.418  19.561  22.832  1.00  0.84           N  
+ATOM    925  CA  LEU A 116       6.870  20.506  23.785  1.00  0.84           C  
+ATOM    926  C   LEU A 116       7.201  21.939  23.415  1.00  0.84           C  
+ATOM    927  O   LEU A 116       7.131  22.832  24.261  1.00  0.84           O  
+ATOM    928  CB  LEU A 116       7.403  20.242  25.212  1.00  0.84           C  
+ATOM    929  CG  LEU A 116       6.967  18.889  25.793  1.00  0.84           C  
+ATOM    930  CD1 LEU A 116       7.644  18.654  27.142  1.00  0.84           C  
+ATOM    931  CD2 LEU A 116       5.446  18.783  25.955  1.00  0.84           C  
+ATOM    932  N   ARG A 117       7.542  22.249  22.154  1.00  0.73           N  
+ATOM    933  CA  ARG A 117       7.831  23.606  21.702  1.00  0.73           C  
+ATOM    934  C   ARG A 117       6.727  24.649  21.962  1.00  0.73           C  
+ATOM    935  O   ARG A 117       7.019  25.734  22.461  1.00  0.73           O  
+ATOM    936  CB  ARG A 117       8.271  23.597  20.218  1.00  0.73           C  
+ATOM    937  CG  ARG A 117       7.243  23.080  19.198  1.00  0.73           C  
+ATOM    938  CD  ARG A 117       7.859  22.963  17.805  1.00  0.73           C  
+ATOM    939  NE  ARG A 117       6.760  22.510  16.900  1.00  0.73           N  
+ATOM    940  CZ  ARG A 117       6.416  21.223  16.748  1.00  0.73           C  
+ATOM    941  NH1 ARG A 117       7.055  20.234  17.365  1.00  0.73           N  
+ATOM    942  NH2 ARG A 117       5.383  20.934  15.955  1.00  0.73           N  
+ATOM    943  N   ASP A 118       5.442  24.292  21.731  1.00  0.82           N  
+ATOM    944  CA  ASP A 118       4.295  25.185  21.809  1.00  0.82           C  
+ATOM    945  C   ASP A 118       3.585  25.110  23.170  1.00  0.82           C  
+ATOM    946  O   ASP A 118       2.639  25.848  23.446  1.00  0.82           O  
+ATOM    947  CB  ASP A 118       3.296  24.781  20.682  1.00  0.82           C  
+ATOM    948  CG  ASP A 118       3.908  24.983  19.297  1.00  0.82           C  
+ATOM    949  OD1 ASP A 118       4.894  25.750  19.173  1.00  0.82           O  
+ATOM    950  OD2 ASP A 118       3.421  24.325  18.339  1.00  0.82           O  
+ATOM    951  N   ALA A 119       4.032  24.214  24.088  1.00  0.90           N  
+ATOM    952  CA  ALA A 119       3.421  24.064  25.403  1.00  0.90           C  
+ATOM    953  C   ALA A 119       3.571  25.307  26.286  1.00  0.90           C  
+ATOM    954  O   ALA A 119       4.654  25.892  26.391  1.00  0.90           O  
+ATOM    955  CB  ALA A 119       3.917  22.799  26.162  1.00  0.90           C  
+ATOM    956  N   VAL A 120       2.477  25.739  26.957  1.00  0.90           N  
+ATOM    957  CA  VAL A 120       2.519  26.768  27.989  1.00  0.90           C  
+ATOM    958  C   VAL A 120       3.161  26.237  29.255  1.00  0.90           C  
+ATOM    959  O   VAL A 120       3.093  25.043  29.549  1.00  0.90           O  
+ATOM    960  CB  VAL A 120       1.165  27.419  28.291  1.00  0.90           C  
+ATOM    961  CG1 VAL A 120       0.553  27.948  26.981  1.00  0.90           C  
+ATOM    962  CG2 VAL A 120       0.176  26.456  28.970  1.00  0.90           C  
+ATOM    963  N   LEU A 121       3.826  27.096  30.040  1.00  0.90           N  
+ATOM    964  CA  LEU A 121       4.523  26.647  31.223  1.00  0.90           C  
+ATOM    965  C   LEU A 121       3.925  27.277  32.460  1.00  0.90           C  
+ATOM    966  O   LEU A 121       3.855  28.496  32.601  1.00  0.90           O  
+ATOM    967  CB  LEU A 121       6.024  26.972  31.109  1.00  0.90           C  
+ATOM    968  CG  LEU A 121       6.853  26.675  32.373  1.00  0.90           C  
+ATOM    969  CD1 LEU A 121       6.876  25.182  32.741  1.00  0.90           C  
+ATOM    970  CD2 LEU A 121       8.279  27.199  32.186  1.00  0.90           C  
+ATOM    971  N   LEU A 122       3.489  26.462  33.425  1.00  0.91           N  
+ATOM    972  CA  LEU A 122       3.053  26.970  34.700  1.00  0.91           C  
+ATOM    973  C   LEU A 122       4.010  26.429  35.738  1.00  0.91           C  
+ATOM    974  O   LEU A 122       4.178  25.220  35.886  1.00  0.91           O  
+ATOM    975  CB  LEU A 122       1.593  26.557  34.980  1.00  0.91           C  
+ATOM    976  CG  LEU A 122       1.083  26.870  36.399  1.00  0.91           C  
+ATOM    977  CD1 LEU A 122       1.143  28.364  36.761  1.00  0.91           C  
+ATOM    978  CD2 LEU A 122      -0.346  26.340  36.557  1.00  0.91           C  
+ATOM    979  N   VAL A 123       4.700  27.310  36.479  1.00  0.93           N  
+ATOM    980  CA  VAL A 123       5.578  26.892  37.553  1.00  0.93           C  
+ATOM    981  C   VAL A 123       4.854  27.075  38.867  1.00  0.93           C  
+ATOM    982  O   VAL A 123       4.385  28.164  39.202  1.00  0.93           O  
+ATOM    983  CB  VAL A 123       6.907  27.637  37.572  1.00  0.93           C  
+ATOM    984  CG1 VAL A 123       7.778  27.189  38.770  1.00  0.93           C  
+ATOM    985  CG2 VAL A 123       7.635  27.367  36.240  1.00  0.93           C  
+ATOM    986  N   PHE A 124       4.749  26.002  39.665  1.00  0.91           N  
+ATOM    987  CA  PHE A 124       4.263  26.082  41.022  1.00  0.91           C  
+ATOM    988  C   PHE A 124       5.465  26.118  41.941  1.00  0.91           C  
+ATOM    989  O   PHE A 124       6.214  25.147  42.072  1.00  0.91           O  
+ATOM    990  CB  PHE A 124       3.337  24.904  41.438  1.00  0.91           C  
+ATOM    991  CG  PHE A 124       1.962  24.988  40.839  1.00  0.91           C  
+ATOM    992  CD1 PHE A 124       1.231  26.184  40.877  1.00  0.91           C  
+ATOM    993  CD2 PHE A 124       1.326  23.836  40.353  1.00  0.91           C  
+ATOM    994  CE1 PHE A 124      -0.109  26.227  40.485  1.00  0.91           C  
+ATOM    995  CE2 PHE A 124      -0.015  23.874  39.949  1.00  0.91           C  
+ATOM    996  CZ  PHE A 124      -0.739  25.068  40.030  1.00  0.91           C  
+ATOM    997  N   ALA A 125       5.674  27.273  42.600  1.00  0.92           N  
+ATOM    998  CA  ALA A 125       6.699  27.462  43.595  1.00  0.92           C  
+ATOM    999  C   ALA A 125       6.120  27.020  44.928  1.00  0.92           C  
+ATOM   1000  O   ALA A 125       5.514  27.810  45.653  1.00  0.92           O  
+ATOM   1001  CB  ALA A 125       7.156  28.944  43.626  1.00  0.92           C  
+ATOM   1002  N   ASN A 126       6.278  25.724  45.256  1.00  0.89           N  
+ATOM   1003  CA  ASN A 126       5.540  25.051  46.301  1.00  0.89           C  
+ATOM   1004  C   ASN A 126       6.254  25.117  47.640  1.00  0.89           C  
+ATOM   1005  O   ASN A 126       7.453  25.372  47.720  1.00  0.89           O  
+ATOM   1006  CB  ASN A 126       5.252  23.585  45.859  1.00  0.89           C  
+ATOM   1007  CG  ASN A 126       4.244  22.895  46.764  1.00  0.89           C  
+ATOM   1008  OD1 ASN A 126       3.294  23.491  47.287  1.00  0.89           O  
+ATOM   1009  ND2 ASN A 126       4.459  21.590  47.019  1.00  0.89           N  
+ATOM   1010  N   LYS A 127       5.490  24.882  48.726  1.00  0.85           N  
+ATOM   1011  CA  LYS A 127       5.953  24.835  50.102  1.00  0.85           C  
+ATOM   1012  C   LYS A 127       6.294  26.207  50.646  1.00  0.85           C  
+ATOM   1013  O   LYS A 127       7.269  26.402  51.376  1.00  0.85           O  
+ATOM   1014  CB  LYS A 127       7.106  23.833  50.340  1.00  0.85           C  
+ATOM   1015  CG  LYS A 127       6.901  22.474  49.664  1.00  0.85           C  
+ATOM   1016  CD  LYS A 127       7.705  21.372  50.352  1.00  0.85           C  
+ATOM   1017  CE  LYS A 127       7.636  20.061  49.575  1.00  0.85           C  
+ATOM   1018  NZ  LYS A 127       8.666  19.137  50.069  1.00  0.85           N  
+ATOM   1019  N   GLN A 128       5.453  27.203  50.313  1.00  0.80           N  
+ATOM   1020  CA  GLN A 128       5.591  28.584  50.734  1.00  0.80           C  
+ATOM   1021  C   GLN A 128       5.219  28.809  52.192  1.00  0.80           C  
+ATOM   1022  O   GLN A 128       5.469  29.882  52.748  1.00  0.80           O  
+ATOM   1023  CB  GLN A 128       4.689  29.487  49.863  1.00  0.80           C  
+ATOM   1024  CG  GLN A 128       5.096  29.554  48.377  1.00  0.80           C  
+ATOM   1025  CD  GLN A 128       6.436  30.256  48.181  1.00  0.80           C  
+ATOM   1026  OE1 GLN A 128       6.680  31.364  48.671  1.00  0.80           O  
+ATOM   1027  NE2 GLN A 128       7.330  29.601  47.411  1.00  0.80           N  
+ATOM   1028  N   ASP A 129       4.617  27.807  52.855  1.00  0.82           N  
+ATOM   1029  CA  ASP A 129       4.304  27.780  54.260  1.00  0.82           C  
+ATOM   1030  C   ASP A 129       5.590  27.631  55.079  1.00  0.82           C  
+ATOM   1031  O   ASP A 129       5.667  28.042  56.239  1.00  0.82           O  
+ATOM   1032  CB  ASP A 129       3.275  26.631  54.525  1.00  0.82           C  
+ATOM   1033  CG  ASP A 129       3.769  25.269  54.042  1.00  0.82           C  
+ATOM   1034  OD1 ASP A 129       4.026  25.143  52.812  1.00  0.82           O  
+ATOM   1035  OD2 ASP A 129       3.897  24.351  54.887  1.00  0.82           O  
+ATOM   1036  N   LEU A 130       6.666  27.064  54.487  1.00  0.80           N  
+ATOM   1037  CA  LEU A 130       7.893  26.814  55.217  1.00  0.80           C  
+ATOM   1038  C   LEU A 130       8.760  28.062  55.435  1.00  0.80           C  
+ATOM   1039  O   LEU A 130       8.986  28.815  54.489  1.00  0.80           O  
+ATOM   1040  CB  LEU A 130       8.752  25.725  54.540  1.00  0.80           C  
+ATOM   1041  CG  LEU A 130       8.070  24.345  54.490  1.00  0.80           C  
+ATOM   1042  CD1 LEU A 130       8.908  23.354  53.673  1.00  0.80           C  
+ATOM   1043  CD2 LEU A 130       7.803  23.763  55.886  1.00  0.80           C  
+ATOM   1044  N   PRO A 131       9.322  28.327  56.627  1.00  0.78           N  
+ATOM   1045  CA  PRO A 131       9.781  29.662  57.031  1.00  0.78           C  
+ATOM   1046  C   PRO A 131      10.951  30.203  56.218  1.00  0.78           C  
+ATOM   1047  O   PRO A 131      11.135  31.414  56.144  1.00  0.78           O  
+ATOM   1048  CB  PRO A 131      10.123  29.526  58.531  1.00  0.78           C  
+ATOM   1049  CG  PRO A 131      10.191  28.021  58.808  1.00  0.78           C  
+ATOM   1050  CD  PRO A 131       9.258  27.415  57.764  1.00  0.78           C  
+ATOM   1051  N   ASN A 132      11.767  29.307  55.632  1.00  0.78           N  
+ATOM   1052  CA  ASN A 132      12.946  29.638  54.859  1.00  0.78           C  
+ATOM   1053  C   ASN A 132      12.752  29.350  53.375  1.00  0.78           C  
+ATOM   1054  O   ASN A 132      13.726  29.334  52.613  1.00  0.78           O  
+ATOM   1055  CB  ASN A 132      14.188  28.876  55.410  1.00  0.78           C  
+ATOM   1056  CG  ASN A 132      15.076  29.846  56.174  1.00  0.78           C  
+ATOM   1057  OD1 ASN A 132      15.253  29.752  57.390  1.00  0.78           O  
+ATOM   1058  ND2 ASN A 132      15.652  30.822  55.441  1.00  0.78           N  
+ATOM   1059  N   ALA A 133      11.497  29.124  52.916  1.00  0.86           N  
+ATOM   1060  CA  ALA A 133      11.168  28.941  51.515  1.00  0.86           C  
+ATOM   1061  C   ALA A 133      11.574  30.148  50.681  1.00  0.86           C  
+ATOM   1062  O   ALA A 133      11.454  31.291  51.113  1.00  0.86           O  
+ATOM   1063  CB  ALA A 133       9.660  28.650  51.324  1.00  0.86           C  
+ATOM   1064  N   MET A 134      12.128  29.910  49.480  1.00  0.83           N  
+ATOM   1065  CA  MET A 134      12.298  30.918  48.455  1.00  0.83           C  
+ATOM   1066  C   MET A 134      10.937  31.351  47.944  1.00  0.83           C  
+ATOM   1067  O   MET A 134      10.077  30.512  47.673  1.00  0.83           O  
+ATOM   1068  CB  MET A 134      13.118  30.346  47.269  1.00  0.83           C  
+ATOM   1069  CG  MET A 134      14.563  29.993  47.662  1.00  0.83           C  
+ATOM   1070  SD  MET A 134      15.625  29.313  46.348  1.00  0.83           S  
+ATOM   1071  CE  MET A 134      14.935  27.640  46.454  1.00  0.83           C  
+ATOM   1072  N   ASN A 135      10.672  32.655  47.781  1.00  0.81           N  
+ATOM   1073  CA  ASN A 135       9.401  33.076  47.223  1.00  0.81           C  
+ATOM   1074  C   ASN A 135       9.378  32.957  45.703  1.00  0.81           C  
+ATOM   1075  O   ASN A 135      10.356  32.566  45.068  1.00  0.81           O  
+ATOM   1076  CB  ASN A 135       8.881  34.418  47.807  1.00  0.81           C  
+ATOM   1077  CG  ASN A 135       9.617  35.660  47.325  1.00  0.81           C  
+ATOM   1078  OD1 ASN A 135      10.232  35.704  46.258  1.00  0.81           O  
+ATOM   1079  ND2 ASN A 135       9.458  36.759  48.103  1.00  0.81           N  
+ATOM   1080  N   ALA A 136       8.232  33.273  45.062  1.00  0.87           N  
+ATOM   1081  CA  ALA A 136       8.086  33.189  43.620  1.00  0.87           C  
+ATOM   1082  C   ALA A 136       9.112  34.018  42.836  1.00  0.87           C  
+ATOM   1083  O   ALA A 136       9.657  33.547  41.840  1.00  0.87           O  
+ATOM   1084  CB  ALA A 136       6.649  33.601  43.237  1.00  0.87           C  
+ATOM   1085  N   ALA A 137       9.441  35.247  43.287  1.00  0.85           N  
+ATOM   1086  CA  ALA A 137      10.472  36.076  42.690  1.00  0.85           C  
+ATOM   1087  C   ALA A 137      11.877  35.452  42.760  1.00  0.85           C  
+ATOM   1088  O   ALA A 137      12.575  35.393  41.751  1.00  0.85           O  
+ATOM   1089  CB  ALA A 137      10.446  37.477  43.342  1.00  0.85           C  
+ATOM   1090  N   GLU A 138      12.293  34.898  43.924  1.00  0.81           N  
+ATOM   1091  CA  GLU A 138      13.554  34.177  44.069  1.00  0.81           C  
+ATOM   1092  C   GLU A 138      13.644  32.900  43.217  1.00  0.81           C  
+ATOM   1093  O   GLU A 138      14.671  32.611  42.601  1.00  0.81           O  
+ATOM   1094  CB  GLU A 138      13.782  33.764  45.540  1.00  0.81           C  
+ATOM   1095  CG  GLU A 138      13.927  34.896  46.578  1.00  0.81           C  
+ATOM   1096  CD  GLU A 138      13.982  34.230  47.953  1.00  0.81           C  
+ATOM   1097  OE1 GLU A 138      15.045  33.680  48.366  1.00  0.81           O  
+ATOM   1098  OE2 GLU A 138      12.880  34.165  48.564  1.00  0.81           O  
+ATOM   1099  N   ILE A 139      12.552  32.095  43.150  1.00  0.87           N  
+ATOM   1100  CA  ILE A 139      12.450  30.898  42.304  1.00  0.87           C  
+ATOM   1101  C   ILE A 139      12.582  31.217  40.826  1.00  0.87           C  
+ATOM   1102  O   ILE A 139      13.278  30.516  40.092  1.00  0.87           O  
+ATOM   1103  CB  ILE A 139      11.166  30.096  42.544  1.00  0.87           C  
+ATOM   1104  CG1 ILE A 139      11.160  29.466  43.953  1.00  0.87           C  
+ATOM   1105  CG2 ILE A 139      10.923  28.995  41.479  1.00  0.87           C  
+ATOM   1106  CD1 ILE A 139      12.220  28.382  44.174  1.00  0.87           C  
+ATOM   1107  N   THR A 140      11.950  32.314  40.359  1.00  0.88           N  
+ATOM   1108  CA  THR A 140      12.038  32.810  38.980  1.00  0.88           C  
+ATOM   1109  C   THR A 140      13.462  33.039  38.519  1.00  0.88           C  
+ATOM   1110  O   THR A 140      13.848  32.594  37.434  1.00  0.88           O  
+ATOM   1111  CB  THR A 140      11.274  34.121  38.806  1.00  0.88           C  
+ATOM   1112  OG1 THR A 140       9.888  33.886  38.951  1.00  0.88           O  
+ATOM   1113  CG2 THR A 140      11.389  34.774  37.425  1.00  0.88           C  
+ATOM   1114  N   ASP A 141      14.284  33.688  39.366  1.00  0.85           N  
+ATOM   1115  CA  ASP A 141      15.705  33.879  39.157  1.00  0.85           C  
+ATOM   1116  C   ASP A 141      16.500  32.575  39.170  1.00  0.85           C  
+ATOM   1117  O   ASP A 141      17.296  32.294  38.274  1.00  0.85           O  
+ATOM   1118  CB  ASP A 141      16.228  34.829  40.262  1.00  0.85           C  
+ATOM   1119  CG  ASP A 141      15.777  36.265  40.015  1.00  0.85           C  
+ATOM   1120  OD1 ASP A 141      15.153  36.538  38.956  1.00  0.85           O  
+ATOM   1121  OD2 ASP A 141      16.088  37.109  40.892  1.00  0.85           O  
+ATOM   1122  N   LYS A 142      16.259  31.702  40.169  1.00  0.84           N  
+ATOM   1123  CA  LYS A 142      16.951  30.429  40.319  1.00  0.84           C  
+ATOM   1124  C   LYS A 142      16.683  29.395  39.242  1.00  0.84           C  
+ATOM   1125  O   LYS A 142      17.553  28.579  38.924  1.00  0.84           O  
+ATOM   1126  CB  LYS A 142      16.661  29.789  41.687  1.00  0.84           C  
+ATOM   1127  CG  LYS A 142      17.311  30.539  42.861  1.00  0.84           C  
+ATOM   1128  CD  LYS A 142      18.848  30.431  42.854  1.00  0.84           C  
+ATOM   1129  CE  LYS A 142      19.507  30.906  44.152  1.00  0.84           C  
+ATOM   1130  NZ  LYS A 142      20.680  30.052  44.461  1.00  0.84           N  
+ATOM   1131  N   LEU A 143      15.478  29.407  38.650  1.00  0.89           N  
+ATOM   1132  CA  LEU A 143      15.136  28.574  37.521  1.00  0.89           C  
+ATOM   1133  C   LEU A 143      15.488  29.234  36.196  1.00  0.89           C  
+ATOM   1134  O   LEU A 143      15.427  28.601  35.149  1.00  0.89           O  
+ATOM   1135  CB  LEU A 143      13.627  28.230  37.528  1.00  0.89           C  
+ATOM   1136  CG  LEU A 143      13.149  27.352  38.704  1.00  0.89           C  
+ATOM   1137  CD1 LEU A 143      11.648  27.060  38.551  1.00  0.89           C  
+ATOM   1138  CD2 LEU A 143      13.917  26.029  38.832  1.00  0.89           C  
+ATOM   1139  N   GLY A 144      15.928  30.511  36.190  1.00  0.88           N  
+ATOM   1140  CA  GLY A 144      16.309  31.192  34.958  1.00  0.88           C  
+ATOM   1141  C   GLY A 144      15.161  31.525  34.038  1.00  0.88           C  
+ATOM   1142  O   GLY A 144      15.322  31.590  32.827  1.00  0.88           O  
+ATOM   1143  N   LEU A 145      13.952  31.754  34.571  1.00  0.88           N  
+ATOM   1144  CA  LEU A 145      12.750  31.915  33.766  1.00  0.88           C  
+ATOM   1145  C   LEU A 145      12.742  33.144  32.854  1.00  0.88           C  
+ATOM   1146  O   LEU A 145      12.198  33.128  31.753  1.00  0.88           O  
+ATOM   1147  CB  LEU A 145      11.483  31.893  34.648  1.00  0.88           C  
+ATOM   1148  CG  LEU A 145      11.289  30.625  35.512  1.00  0.88           C  
+ATOM   1149  CD1 LEU A 145       9.958  30.698  36.279  1.00  0.88           C  
+ATOM   1150  CD2 LEU A 145      11.342  29.330  34.686  1.00  0.88           C  
+ATOM   1151  N   HIS A 146      13.426  34.233  33.253  1.00  0.80           N  
+ATOM   1152  CA  HIS A 146      13.600  35.428  32.436  1.00  0.80           C  
+ATOM   1153  C   HIS A 146      14.495  35.208  31.214  1.00  0.80           C  
+ATOM   1154  O   HIS A 146      14.547  36.041  30.300  1.00  0.80           O  
+ATOM   1155  CB  HIS A 146      14.133  36.596  33.301  1.00  0.80           C  
+ATOM   1156  CG  HIS A 146      13.120  37.073  34.291  1.00  0.80           C  
+ATOM   1157  ND1 HIS A 146      11.939  37.570  33.785  1.00  0.80           N  
+ATOM   1158  CD2 HIS A 146      13.150  37.206  35.644  1.00  0.80           C  
+ATOM   1159  CE1 HIS A 146      11.272  38.001  34.831  1.00  0.80           C  
+ATOM   1160  NE2 HIS A 146      11.956  37.807  35.984  1.00  0.80           N  
+ATOM   1161  N   SER A 147      15.214  34.065  31.125  1.00  0.83           N  
+ATOM   1162  CA  SER A 147      16.030  33.741  29.962  1.00  0.83           C  
+ATOM   1163  C   SER A 147      15.202  33.032  28.904  1.00  0.83           C  
+ATOM   1164  O   SER A 147      15.612  32.948  27.744  1.00  0.83           O  
+ATOM   1165  CB  SER A 147      17.340  32.953  30.283  1.00  0.83           C  
+ATOM   1166  OG  SER A 147      17.134  31.575  30.584  1.00  0.83           O  
+ATOM   1167  N   LEU A 148      13.976  32.566  29.250  1.00  0.82           N  
+ATOM   1168  CA  LEU A 148      13.064  31.914  28.332  1.00  0.82           C  
+ATOM   1169  C   LEU A 148      12.653  32.823  27.184  1.00  0.82           C  
+ATOM   1170  O   LEU A 148      12.506  34.043  27.317  1.00  0.82           O  
+ATOM   1171  CB  LEU A 148      11.813  31.294  29.032  1.00  0.82           C  
+ATOM   1172  CG  LEU A 148      12.115  30.191  30.077  1.00  0.82           C  
+ATOM   1173  CD1 LEU A 148      10.833  29.803  30.845  1.00  0.82           C  
+ATOM   1174  CD2 LEU A 148      12.782  28.956  29.445  1.00  0.82           C  
+ATOM   1175  N   ARG A 149      12.489  32.239  25.990  1.00  0.68           N  
+ATOM   1176  CA  ARG A 149      12.075  32.941  24.806  1.00  0.68           C  
+ATOM   1177  C   ARG A 149      11.079  32.059  24.119  1.00  0.68           C  
+ATOM   1178  O   ARG A 149      11.167  30.835  24.206  1.00  0.68           O  
+ATOM   1179  CB  ARG A 149      13.249  33.197  23.832  1.00  0.68           C  
+ATOM   1180  CG  ARG A 149      14.323  34.135  24.410  1.00  0.68           C  
+ATOM   1181  CD  ARG A 149      13.788  35.535  24.712  1.00  0.68           C  
+ATOM   1182  NE  ARG A 149      14.925  36.331  25.261  1.00  0.68           N  
+ATOM   1183  CZ  ARG A 149      15.134  36.569  26.565  1.00  0.68           C  
+ATOM   1184  NH1 ARG A 149      14.338  36.103  27.521  1.00  0.68           N  
+ATOM   1185  NH2 ARG A 149      16.181  37.318  26.910  1.00  0.68           N  
+ATOM   1186  N   HIS A 150      10.077  32.679  23.465  1.00  0.72           N  
+ATOM   1187  CA  HIS A 150       9.040  32.002  22.705  1.00  0.72           C  
+ATOM   1188  C   HIS A 150       8.251  31.013  23.529  1.00  0.72           C  
+ATOM   1189  O   HIS A 150       7.838  29.949  23.082  1.00  0.72           O  
+ATOM   1190  CB  HIS A 150       9.609  31.391  21.412  1.00  0.72           C  
+ATOM   1191  CG  HIS A 150      10.308  32.431  20.600  1.00  0.72           C  
+ATOM   1192  ND1 HIS A 150       9.565  33.495  20.134  1.00  0.72           N  
+ATOM   1193  CD2 HIS A 150      11.608  32.563  20.224  1.00  0.72           C  
+ATOM   1194  CE1 HIS A 150      10.416  34.247  19.473  1.00  0.72           C  
+ATOM   1195  NE2 HIS A 150      11.669  33.732  19.496  1.00  0.72           N  
+ATOM   1196  N   ARG A 151       8.009  31.378  24.792  1.00  0.74           N  
+ATOM   1197  CA  ARG A 151       7.403  30.503  25.735  1.00  0.74           C  
+ATOM   1198  C   ARG A 151       6.517  31.376  26.543  1.00  0.74           C  
+ATOM   1199  O   ARG A 151       6.936  32.410  27.065  1.00  0.74           O  
+ATOM   1200  CB  ARG A 151       8.453  29.877  26.677  1.00  0.74           C  
+ATOM   1201  CG  ARG A 151       7.889  28.865  27.699  1.00  0.74           C  
+ATOM   1202  CD  ARG A 151       7.348  27.549  27.111  1.00  0.74           C  
+ATOM   1203  NE  ARG A 151       8.508  26.840  26.473  1.00  0.74           N  
+ATOM   1204  CZ  ARG A 151       8.407  25.677  25.810  1.00  0.74           C  
+ATOM   1205  NH1 ARG A 151       7.258  25.033  25.705  1.00  0.74           N  
+ATOM   1206  NH2 ARG A 151       9.483  25.117  25.251  1.00  0.74           N  
+ATOM   1207  N   ASN A 152       5.265  30.961  26.662  1.00  0.85           N  
+ATOM   1208  CA  ASN A 152       4.302  31.580  27.514  1.00  0.85           C  
+ATOM   1209  C   ASN A 152       4.414  30.927  28.881  1.00  0.85           C  
+ATOM   1210  O   ASN A 152       4.231  29.714  29.001  1.00  0.85           O  
+ATOM   1211  CB  ASN A 152       2.959  31.297  26.831  1.00  0.85           C  
+ATOM   1212  CG  ASN A 152       1.799  32.028  27.419  1.00  0.85           C  
+ATOM   1213  OD1 ASN A 152       1.962  32.942  28.308  1.00  0.85           O  
+ATOM   1214  ND2 ASN A 152       0.606  31.696  26.961  1.00  0.85           N  
+ATOM   1215  N   TRP A 153       4.767  31.696  29.926  1.00  0.85           N  
+ATOM   1216  CA  TRP A 153       5.010  31.125  31.222  1.00  0.85           C  
+ATOM   1217  C   TRP A 153       4.455  31.983  32.319  1.00  0.85           C  
+ATOM   1218  O   TRP A 153       4.233  33.183  32.164  1.00  0.85           O  
+ATOM   1219  CB  TRP A 153       6.521  30.808  31.461  1.00  0.85           C  
+ATOM   1220  CG  TRP A 153       7.480  31.998  31.470  1.00  0.85           C  
+ATOM   1221  CD1 TRP A 153       8.126  32.591  30.420  1.00  0.85           C  
+ATOM   1222  CD2 TRP A 153       7.859  32.748  32.640  1.00  0.85           C  
+ATOM   1223  NE1 TRP A 153       8.870  33.663  30.857  1.00  0.85           N  
+ATOM   1224  CE2 TRP A 153       8.708  33.786  32.212  1.00  0.85           C  
+ATOM   1225  CE3 TRP A 153       7.524  32.611  33.981  1.00  0.85           C  
+ATOM   1226  CZ2 TRP A 153       9.234  34.701  33.115  1.00  0.85           C  
+ATOM   1227  CZ3 TRP A 153       8.017  33.560  34.886  1.00  0.85           C  
+ATOM   1228  CH2 TRP A 153       8.875  34.579  34.464  1.00  0.85           C  
+ATOM   1229  N   TYR A 154       4.204  31.339  33.465  1.00  0.89           N  
+ATOM   1230  CA  TYR A 154       3.714  31.984  34.648  1.00  0.89           C  
+ATOM   1231  C   TYR A 154       4.275  31.236  35.827  1.00  0.89           C  
+ATOM   1232  O   TYR A 154       4.522  30.031  35.751  1.00  0.89           O  
+ATOM   1233  CB  TYR A 154       2.179  31.921  34.654  1.00  0.89           C  
+ATOM   1234  CG  TYR A 154       1.526  32.758  35.707  1.00  0.89           C  
+ATOM   1235  CD1 TYR A 154       1.483  34.151  35.566  1.00  0.89           C  
+ATOM   1236  CD2 TYR A 154       0.913  32.165  36.819  1.00  0.89           C  
+ATOM   1237  CE1 TYR A 154       0.831  34.944  36.522  1.00  0.89           C  
+ATOM   1238  CE2 TYR A 154       0.258  32.952  37.770  1.00  0.89           C  
+ATOM   1239  CZ  TYR A 154       0.209  34.336  37.620  1.00  0.89           C  
+ATOM   1240  OH  TYR A 154      -0.482  35.069  38.599  1.00  0.89           O  
+ATOM   1241  N   ILE A 155       4.508  31.940  36.945  1.00  0.89           N  
+ATOM   1242  CA  ILE A 155       4.923  31.332  38.188  1.00  0.89           C  
+ATOM   1243  C   ILE A 155       3.925  31.705  39.249  1.00  0.89           C  
+ATOM   1244  O   ILE A 155       3.521  32.857  39.399  1.00  0.89           O  
+ATOM   1245  CB  ILE A 155       6.349  31.665  38.625  1.00  0.89           C  
+ATOM   1246  CG1 ILE A 155       6.762  30.862  39.888  1.00  0.89           C  
+ATOM   1247  CG2 ILE A 155       6.544  33.190  38.788  1.00  0.89           C  
+ATOM   1248  CD1 ILE A 155       8.275  30.673  40.018  1.00  0.89           C  
+ATOM   1249  N   GLN A 156       3.476  30.699  40.003  1.00  0.87           N  
+ATOM   1250  CA  GLN A 156       2.518  30.854  41.053  1.00  0.87           C  
+ATOM   1251  C   GLN A 156       3.128  30.323  42.339  1.00  0.87           C  
+ATOM   1252  O   GLN A 156       3.650  29.209  42.389  1.00  0.87           O  
+ATOM   1253  CB  GLN A 156       1.254  30.073  40.649  1.00  0.87           C  
+ATOM   1254  CG  GLN A 156       0.133  30.065  41.700  1.00  0.87           C  
+ATOM   1255  CD  GLN A 156      -0.402  31.466  41.968  1.00  0.87           C  
+ATOM   1256  OE1 GLN A 156      -0.830  32.160  41.039  1.00  0.87           O  
+ATOM   1257  NE2 GLN A 156      -0.393  31.921  43.240  1.00  0.87           N  
+ATOM   1258  N   ALA A 157       3.115  31.124  43.421  1.00  0.91           N  
+ATOM   1259  CA  ALA A 157       3.412  30.679  44.769  1.00  0.91           C  
+ATOM   1260  C   ALA A 157       2.318  29.747  45.293  1.00  0.91           C  
+ATOM   1261  O   ALA A 157       1.135  30.067  45.165  1.00  0.91           O  
+ATOM   1262  CB  ALA A 157       3.545  31.931  45.667  1.00  0.91           C  
+ATOM   1263  N   THR A 158       2.672  28.576  45.871  1.00  0.90           N  
+ATOM   1264  CA  THR A 158       1.672  27.622  46.333  1.00  0.90           C  
+ATOM   1265  C   THR A 158       2.013  27.007  47.672  1.00  0.90           C  
+ATOM   1266  O   THR A 158       3.165  26.917  48.098  1.00  0.90           O  
+ATOM   1267  CB  THR A 158       1.379  26.455  45.377  1.00  0.90           C  
+ATOM   1268  OG1 THR A 158       2.515  25.656  45.087  1.00  0.90           O  
+ATOM   1269  CG2 THR A 158       0.904  26.968  44.022  1.00  0.90           C  
+ATOM   1270  N   CYS A 159       0.977  26.535  48.382  1.00  0.91           N  
+ATOM   1271  CA  CYS A 159       1.131  25.552  49.430  1.00  0.91           C  
+ATOM   1272  C   CYS A 159       0.199  24.438  49.020  1.00  0.91           C  
+ATOM   1273  O   CYS A 159      -1.024  24.566  49.037  1.00  0.91           O  
+ATOM   1274  CB  CYS A 159       0.802  26.123  50.843  1.00  0.91           C  
+ATOM   1275  SG  CYS A 159       0.820  24.934  52.220  1.00  0.91           S  
+ATOM   1276  N   ALA A 160       0.746  23.293  48.583  1.00  0.91           N  
+ATOM   1277  CA  ALA A 160      -0.070  22.188  48.135  1.00  0.91           C  
+ATOM   1278  C   ALA A 160      -0.849  21.455  49.234  1.00  0.91           C  
+ATOM   1279  O   ALA A 160      -1.890  20.861  48.958  1.00  0.91           O  
+ATOM   1280  CB  ALA A 160       0.800  21.184  47.364  1.00  0.91           C  
+ATOM   1281  N   THR A 161      -0.391  21.469  50.508  1.00  0.86           N  
+ATOM   1282  CA  THR A 161      -1.076  20.849  51.649  1.00  0.86           C  
+ATOM   1283  C   THR A 161      -2.381  21.556  51.981  1.00  0.86           C  
+ATOM   1284  O   THR A 161      -3.368  20.901  52.326  1.00  0.86           O  
+ATOM   1285  CB  THR A 161      -0.222  20.716  52.911  1.00  0.86           C  
+ATOM   1286  OG1 THR A 161       0.330  21.970  53.263  1.00  0.86           O  
+ATOM   1287  CG2 THR A 161       0.945  19.763  52.621  1.00  0.86           C  
+ATOM   1288  N   SER A 162      -2.424  22.902  51.847  1.00  0.87           N  
+ATOM   1289  CA  SER A 162      -3.613  23.734  52.024  1.00  0.87           C  
+ATOM   1290  C   SER A 162      -4.424  23.855  50.740  1.00  0.87           C  
+ATOM   1291  O   SER A 162      -5.655  23.900  50.770  1.00  0.87           O  
+ATOM   1292  CB  SER A 162      -3.305  25.159  52.591  1.00  0.87           C  
+ATOM   1293  OG  SER A 162      -2.480  25.956  51.736  1.00  0.87           O  
+ATOM   1294  N   GLY A 163      -3.752  23.831  49.570  1.00  0.89           N  
+ATOM   1295  CA  GLY A 163      -4.330  24.076  48.253  1.00  0.89           C  
+ATOM   1296  C   GLY A 163      -4.202  25.517  47.812  1.00  0.89           C  
+ATOM   1297  O   GLY A 163      -4.598  25.848  46.693  1.00  0.89           O  
+ATOM   1298  N   ASP A 164      -3.619  26.404  48.649  1.00  0.90           N  
+ATOM   1299  CA  ASP A 164      -3.412  27.808  48.330  1.00  0.90           C  
+ATOM   1300  C   ASP A 164      -2.545  28.010  47.096  1.00  0.90           C  
+ATOM   1301  O   ASP A 164      -1.476  27.413  46.942  1.00  0.90           O  
+ATOM   1302  CB  ASP A 164      -2.799  28.608  49.514  1.00  0.90           C  
+ATOM   1303  CG  ASP A 164      -3.748  28.614  50.703  1.00  0.90           C  
+ATOM   1304  OD1 ASP A 164      -4.968  28.818  50.482  1.00  0.90           O  
+ATOM   1305  OD2 ASP A 164      -3.258  28.355  51.838  1.00  0.90           O  
+ATOM   1306  N   GLY A 165      -3.020  28.852  46.155  1.00  0.93           N  
+ATOM   1307  CA  GLY A 165      -2.331  29.177  44.920  1.00  0.93           C  
+ATOM   1308  C   GLY A 165      -2.654  28.237  43.786  1.00  0.93           C  
+ATOM   1309  O   GLY A 165      -2.377  28.529  42.625  1.00  0.93           O  
+ATOM   1310  N   LEU A 166      -3.260  27.060  44.055  1.00  0.88           N  
+ATOM   1311  CA  LEU A 166      -3.591  26.121  42.995  1.00  0.88           C  
+ATOM   1312  C   LEU A 166      -4.666  26.633  42.066  1.00  0.88           C  
+ATOM   1313  O   LEU A 166      -4.572  26.478  40.846  1.00  0.88           O  
+ATOM   1314  CB  LEU A 166      -4.046  24.740  43.521  1.00  0.88           C  
+ATOM   1315  CG  LEU A 166      -2.988  23.937  44.300  1.00  0.88           C  
+ATOM   1316  CD1 LEU A 166      -3.589  22.587  44.731  1.00  0.88           C  
+ATOM   1317  CD2 LEU A 166      -1.692  23.730  43.498  1.00  0.88           C  
+ATOM   1318  N   TYR A 167      -5.709  27.278  42.615  1.00  0.84           N  
+ATOM   1319  CA  TYR A 167      -6.800  27.843  41.847  1.00  0.84           C  
+ATOM   1320  C   TYR A 167      -6.302  28.924  40.891  1.00  0.84           C  
+ATOM   1321  O   TYR A 167      -6.536  28.854  39.688  1.00  0.84           O  
+ATOM   1322  CB  TYR A 167      -7.851  28.424  42.834  1.00  0.84           C  
+ATOM   1323  CG  TYR A 167      -9.066  28.957  42.121  1.00  0.84           C  
+ATOM   1324  CD1 TYR A 167     -10.125  28.108  41.763  1.00  0.84           C  
+ATOM   1325  CD2 TYR A 167      -9.124  30.308  41.745  1.00  0.84           C  
+ATOM   1326  CE1 TYR A 167     -11.238  28.613  41.075  1.00  0.84           C  
+ATOM   1327  CE2 TYR A 167     -10.216  30.803  41.024  1.00  0.84           C  
+ATOM   1328  CZ  TYR A 167     -11.291  29.965  40.725  1.00  0.84           C  
+ATOM   1329  OH  TYR A 167     -12.390  30.484  40.012  1.00  0.84           O  
+ATOM   1330  N   GLU A 168      -5.521  29.888  41.409  1.00  0.88           N  
+ATOM   1331  CA  GLU A 168      -4.953  31.019  40.707  1.00  0.88           C  
+ATOM   1332  C   GLU A 168      -4.021  30.623  39.566  1.00  0.88           C  
+ATOM   1333  O   GLU A 168      -4.072  31.177  38.467  1.00  0.88           O  
+ATOM   1334  CB  GLU A 168      -4.231  31.964  41.711  1.00  0.88           C  
+ATOM   1335  CG  GLU A 168      -5.136  32.524  42.844  1.00  0.88           C  
+ATOM   1336  CD  GLU A 168      -5.303  31.608  44.065  1.00  0.88           C  
+ATOM   1337  OE1 GLU A 168      -5.021  30.382  43.976  1.00  0.88           O  
+ATOM   1338  OE2 GLU A 168      -5.730  32.139  45.114  1.00  0.88           O  
+ATOM   1339  N   GLY A 169      -3.165  29.598  39.768  1.00  0.92           N  
+ATOM   1340  CA  GLY A 169      -2.309  29.088  38.698  1.00  0.92           C  
+ATOM   1341  C   GLY A 169      -3.047  28.329  37.618  1.00  0.92           C  
+ATOM   1342  O   GLY A 169      -2.739  28.452  36.432  1.00  0.92           O  
+ATOM   1343  N   LEU A 170      -4.066  27.531  37.992  1.00  0.80           N  
+ATOM   1344  CA  LEU A 170      -4.953  26.877  37.043  1.00  0.80           C  
+ATOM   1345  C   LEU A 170      -5.857  27.839  36.271  1.00  0.80           C  
+ATOM   1346  O   LEU A 170      -6.113  27.619  35.091  1.00  0.80           O  
+ATOM   1347  CB  LEU A 170      -5.762  25.723  37.673  1.00  0.80           C  
+ATOM   1348  CG  LEU A 170      -4.909  24.566  38.245  1.00  0.80           C  
+ATOM   1349  CD1 LEU A 170      -5.849  23.495  38.807  1.00  0.80           C  
+ATOM   1350  CD2 LEU A 170      -3.915  23.934  37.253  1.00  0.80           C  
+ATOM   1351  N   ASP A 171      -6.342  28.932  36.897  1.00  0.84           N  
+ATOM   1352  CA  ASP A 171      -7.078  30.017  36.268  1.00  0.84           C  
+ATOM   1353  C   ASP A 171      -6.231  30.756  35.234  1.00  0.84           C  
+ATOM   1354  O   ASP A 171      -6.663  31.067  34.123  1.00  0.84           O  
+ATOM   1355  CB  ASP A 171      -7.592  30.949  37.396  1.00  0.84           C  
+ATOM   1356  CG  ASP A 171      -8.675  31.914  36.939  1.00  0.84           C  
+ATOM   1357  OD1 ASP A 171      -9.156  31.786  35.786  1.00  0.84           O  
+ATOM   1358  OD2 ASP A 171      -9.048  32.784  37.767  1.00  0.84           O  
+ATOM   1359  N   TRP A 172      -4.933  30.995  35.514  1.00  0.84           N  
+ATOM   1360  CA  TRP A 172      -4.030  31.470  34.483  1.00  0.84           C  
+ATOM   1361  C   TRP A 172      -3.923  30.491  33.315  1.00  0.84           C  
+ATOM   1362  O   TRP A 172      -4.074  30.865  32.152  1.00  0.84           O  
+ATOM   1363  CB  TRP A 172      -2.612  31.726  35.059  1.00  0.84           C  
+ATOM   1364  CG  TRP A 172      -1.625  32.246  34.012  1.00  0.84           C  
+ATOM   1365  CD1 TRP A 172      -1.513  33.518  33.533  1.00  0.84           C  
+ATOM   1366  CD2 TRP A 172      -0.752  31.428  33.214  1.00  0.84           C  
+ATOM   1367  NE1 TRP A 172      -0.620  33.553  32.488  1.00  0.84           N  
+ATOM   1368  CE2 TRP A 172      -0.133  32.292  32.270  1.00  0.84           C  
+ATOM   1369  CE3 TRP A 172      -0.455  30.069  33.230  1.00  0.84           C  
+ATOM   1370  CZ2 TRP A 172       0.809  31.807  31.380  1.00  0.84           C  
+ATOM   1371  CZ3 TRP A 172       0.485  29.583  32.314  1.00  0.84           C  
+ATOM   1372  CH2 TRP A 172       1.129  30.446  31.418  1.00  0.84           C  
+ATOM   1373  N   LEU A 173      -3.719  29.194  33.620  1.00  0.83           N  
+ATOM   1374  CA  LEU A 173      -3.604  28.141  32.631  1.00  0.83           C  
+ATOM   1375  C   LEU A 173      -4.855  27.973  31.755  1.00  0.83           C  
+ATOM   1376  O   LEU A 173      -4.757  27.828  30.536  1.00  0.83           O  
+ATOM   1377  CB  LEU A 173      -3.252  26.807  33.335  1.00  0.83           C  
+ATOM   1378  CG  LEU A 173      -3.064  25.599  32.397  1.00  0.83           C  
+ATOM   1379  CD1 LEU A 173      -1.919  25.816  31.405  1.00  0.83           C  
+ATOM   1380  CD2 LEU A 173      -2.860  24.307  33.198  1.00  0.83           C  
+ATOM   1381  N   SER A 174      -6.071  28.027  32.338  1.00  0.77           N  
+ATOM   1382  CA  SER A 174      -7.354  27.932  31.639  1.00  0.77           C  
+ATOM   1383  C   SER A 174      -7.550  29.055  30.632  1.00  0.77           C  
+ATOM   1384  O   SER A 174      -7.922  28.823  29.479  1.00  0.77           O  
+ATOM   1385  CB  SER A 174      -8.576  27.883  32.615  1.00  0.77           C  
+ATOM   1386  OG  SER A 174      -8.839  29.148  33.219  1.00  0.77           O  
+ATOM   1387  N   ASN A 175      -7.217  30.301  31.041  1.00  0.81           N  
+ATOM   1388  CA  ASN A 175      -7.234  31.489  30.204  1.00  0.81           C  
+ATOM   1389  C   ASN A 175      -6.294  31.389  29.018  1.00  0.81           C  
+ATOM   1390  O   ASN A 175      -6.637  31.784  27.905  1.00  0.81           O  
+ATOM   1391  CB  ASN A 175      -7.010  32.787  31.021  1.00  0.81           C  
+ATOM   1392  CG  ASN A 175      -8.306  33.011  31.786  1.00  0.81           C  
+ATOM   1393  OD1 ASN A 175      -9.376  33.069  31.133  1.00  0.81           O  
+ATOM   1394  ND2 ASN A 175      -8.283  33.121  33.116  1.00  0.81           N  
+ATOM   1395  N   GLN A 176      -5.100  30.803  29.216  1.00  0.78           N  
+ATOM   1396  CA  GLN A 176      -4.164  30.516  28.143  1.00  0.78           C  
+ATOM   1397  C   GLN A 176      -4.629  29.536  27.103  1.00  0.78           C  
+ATOM   1398  O   GLN A 176      -4.445  29.729  25.902  1.00  0.78           O  
+ATOM   1399  CB  GLN A 176      -2.801  30.043  28.703  1.00  0.78           C  
+ATOM   1400  CG  GLN A 176      -2.072  31.140  29.515  1.00  0.78           C  
+ATOM   1401  CD  GLN A 176      -1.977  32.462  28.770  1.00  0.78           C  
+ATOM   1402  OE1 GLN A 176      -1.982  32.490  27.527  1.00  0.78           O  
+ATOM   1403  NE2 GLN A 176      -1.983  33.613  29.455  1.00  0.78           N  
+ATOM   1404  N   LEU A 177      -5.271  28.457  27.546  1.00  0.75           N  
+ATOM   1405  CA  LEU A 177      -5.703  27.414  26.661  1.00  0.75           C  
+ATOM   1406  C   LEU A 177      -7.003  27.710  25.930  1.00  0.75           C  
+ATOM   1407  O   LEU A 177      -7.294  27.115  24.890  1.00  0.75           O  
+ATOM   1408  CB  LEU A 177      -5.849  26.142  27.495  1.00  0.75           C  
+ATOM   1409  CG  LEU A 177      -4.545  25.620  28.123  1.00  0.75           C  
+ATOM   1410  CD1 LEU A 177      -4.840  24.349  28.927  1.00  0.75           C  
+ATOM   1411  CD2 LEU A 177      -3.455  25.366  27.073  1.00  0.75           C  
+ATOM   1412  N   ARG A 178      -7.813  28.668  26.428  1.00  0.61           N  
+ATOM   1413  CA  ARG A 178      -8.964  29.147  25.687  1.00  0.61           C  
+ATOM   1414  C   ARG A 178      -8.602  30.169  24.605  1.00  0.61           C  
+ATOM   1415  O   ARG A 178      -9.312  30.283  23.608  1.00  0.61           O  
+ATOM   1416  CB  ARG A 178     -10.058  29.691  26.645  1.00  0.61           C  
+ATOM   1417  CG  ARG A 178      -9.901  31.151  27.114  1.00  0.61           C  
+ATOM   1418  CD  ARG A 178     -11.074  31.621  27.980  1.00  0.61           C  
+ATOM   1419  NE  ARG A 178     -11.772  32.699  27.194  1.00  0.61           N  
+ATOM   1420  CZ  ARG A 178     -13.040  33.082  27.382  1.00  0.61           C  
+ATOM   1421  NH1 ARG A 178     -13.797  32.497  28.303  1.00  0.61           N  
+ATOM   1422  NH2 ARG A 178     -13.564  34.058  26.640  1.00  0.61           N  
+ATOM   1423  N   ASN A 179      -7.496  30.931  24.802  1.00  0.67           N  
+ATOM   1424  CA  ASN A 179      -6.973  31.970  23.914  1.00  0.67           C  
+ATOM   1425  C   ASN A 179      -6.413  31.480  22.575  1.00  0.67           C  
+ATOM   1426  O   ASN A 179      -6.524  32.186  21.573  1.00  0.67           O  
+ATOM   1427  CB  ASN A 179      -5.913  32.836  24.659  1.00  0.67           C  
+ATOM   1428  CG  ASN A 179      -6.534  34.075  25.290  1.00  0.67           C  
+ATOM   1429  OD1 ASN A 179      -6.117  35.207  25.022  1.00  0.67           O  
+ATOM   1430  ND2 ASN A 179      -7.539  33.911  26.172  1.00  0.67           N  
+ATOM   1431  N   GLN A 180      -5.772  30.293  22.552  1.00  0.57           N  
+ATOM   1432  CA  GLN A 180      -5.252  29.643  21.350  1.00  0.57           C  
+ATOM   1433  C   GLN A 180      -6.347  29.054  20.436  1.00  0.57           C  
+ATOM   1434  O   GLN A 180      -7.532  29.246  20.809  1.00  0.57           O  
+ATOM   1435  CB  GLN A 180      -4.390  28.436  21.771  1.00  0.57           C  
+ATOM   1436  CG  GLN A 180      -3.026  28.801  22.376  1.00  0.57           C  
+ATOM   1437  CD  GLN A 180      -2.515  27.682  23.278  1.00  0.57           C  
+ATOM   1438  OE1 GLN A 180      -2.955  26.522  23.240  1.00  0.57           O  
+ATOM   1439  NE2 GLN A 180      -1.538  28.033  24.141  1.00  0.57           N  
+ATOM   1440  OXT GLN A 180      -6.057  28.362  19.419  1.00  0.57           O  
+TER    1441      GLN A 180                                                      
+END   
diff --git a/modules/mol/alg/tests/testfiles/P84080_model_02_protein.pdb.gz b/modules/mol/alg/tests/testfiles/P84080_model_02_protein.pdb.gz
new file mode 100644
index 0000000000000000000000000000000000000000..a9a12be6a055cdf3ab96d46368f8d5afdad0150d
GIT binary patch
literal 25987
zcmb2|=3oGW|5NuyPWpCiqw0^i)hBpAY@gBY{z|-8XLIx;)4<qk(|^Z%9Bya$!!TcY
z@y|&@Q!AesD%9BhdtLwUkA3_f|3ANeUH|y_`~P3_*T?tI@BIH%zwlqj-yidXeq4O?
z<CoS`cb=y|-pVW1)V9hmt&9CHQ~!T|oh>7O%l!RzjK}*UmouDuobJh9P{vTtl<=(n
zBf}f}tjy!}z4l46JQ0uXFxg!D_}u+~g~y>1ow*F3`voR5|4?TLyLmYN|1WXoG}avZ
zTQBxJ5$d0>D(5XPp5XsZ&g|x4>x91(SIK#CGtIDZh$)(GyN7w2{NfXnoPBvDobNEn
zY-;yEU@6S}tcKzF&*Wo|7#_*V?f?5(em;Zt+lPhnr)~bla@xCbSqmL|T>t;)Z{ZIX
zSHoB)=$HL4bic)9WA^NP{W10j8?Qt@nNrEme_&SmG@t3O<Ny1}GjPXG{;2$EdXbD*
zp7r&%ed@c~|Nq`!mwce;UE-{wQ^uxja}LMNe#j)Yv%UPlpX8p${=$swyKQA1?i|+o
z{()~sU5})s!R1<;ZyUt?omg^;_~#3?)%*!uWuL@Z!yo-Y<%sjkBL4Xeoeg{k90Xdw
zZOZYqcp-O;-&^m?A{lSKU$;Jp<uF{D{;B#`$tmT{EsNRNa%#CJ>{~wne~nkg9qV6D
z_&9%OtYPB1<18OgdaC}vV#8M!ndWJ8>P05?`0XrZzQLn#=kOA%r+gm$j)D%mB9Cic
zpDE)oC7|?F@S)G%iYGt)nD}5yt;1DKd6gxHEmYQgQF!`K`JnBVh64WJsns0~@%zun
z&)s**<@)lEa&4QoKT&)CP}pGGv4*`Tx5qf$V0u%O`>x?}#Xc+j%CgGbsC$zq?3?n~
zw#IA53tJnJzYo~IMO1zLCcya8`{!HDMEkfGdgsGW^H@B)Hp#eFbHA;s%<<zBjut8W
zt*NQ9-Ku-w@%H+Ee{H6GRQ_Ol#@<N(=Z({Qwx-<5G;{s;I-G4v{F3Wx7ynv+E12}p
zLeI?m*IvJqk-ihzADo!VsLlAaOyigC-Z|Z~l*}Ef);+nL{Y6i%A@dz$n5pZ$hDg0{
z3zloi>u+EE;^F1R`;&s7a9T)fS515KV_NcxXrZz#{JWXt__b~_l$<I#$Y~J0R{V~$
zWQM%nfx~t@pOV6_RlOC^vTD$H=<@r+B!kPb)+JutbH5ifEh=Yx`TyVf{)WYqTaLfH
zwAr=&(rRXo_8_HO?c5vwa(tP&c~SqK_T)F7GcMT0G{mY{eKWXp*M8rWnA>6rZofY;
zt%=<C^vaVdvrDz(ro~*aGilI_IWK<G?Bs3d9cHe7r~Lo*_J87mg$?Z+O^$4nT=;S8
z$%{;B;sJlBSSMVnuDG*bVSe1(vy4Y<L+qb&N}Rl8&2W?DWR^)T!>aj3>?*=Dc+Tl9
zpWT1><w?dP&Vlw%`6OIw)js`9;ZOd^;CN_N-6`P>7hgLGUD{k4Gh6B#!{QgIEGe$%
zm;0<g^Q2q$fazz($uFKRZ)w&mk@|E}R_K}7HU{Hc?Vop<rG#AA?xT0BP=oi);S7d{
za@U%^J!F;GRHHd}|I@>vn;m%=TsXCFwR3-{Sh<^F)7Pmdx6O=h;C*|TdxJ_KWAjyw
znMdZe6!2%e|1Mw*GI5EU?X<f{$Fg^W>O+U$1@o?_-MleZ_r_t9bEVt`i)wc;@F#cL
znO5!l;q7TY`37qa<J-gDhr~)xZkaxF&!s)A5*O`a8bl(s7P(~#wzn{!v6MGhSX-gH
zb3(pfb;OgOvrg{5!7<~a-5!-QYgaMHNf`94bzXS-sMdq}e@X`=zTA@W<}KQIQ)HR5
zCff#IW{&xCod>lZuvNU6w99AWq4-l9E?P3UaL!)UApPLuf>+DUU%Zo#_u8h|Bz|C>
z)&oY1qyY9g>&_SUdX+Ieyu8@GKlA|e1ZSo%H7}38yT({Qv0xR~4#rE~b6t9aK4{)|
zT4tB<T>mL&h0V`Dx4s-c{`%8_cb+$XdjC{OeAMkLH#O!>;NI-!h9}Ga{N*gT<X!th
zgfCEbn)B(}=W^e83g1YaufAciqWVT>%4M15HeIYGy-VX1`f?fEg%3C_uknal6V2GL
z;|W*c8{rQ>oPI>-wNEsu)URG0-N5_k2AjbJA$|qByDsM=%NQOeedqg@=p&vm;Y5&U
z)})BNcVd2T;NQUS?@+YE_2OsSl+Ak94LhE2etXF2QMajr(bYL@^Lg0=f(Puj2z|P@
zHTdE3cb**87D_kT)gL4l_?2qA1zz5f>pA0qoeksRjYrlj>zMQD#%<@W5Q*Ox7^dl5
z+<9WvgMyl<TTD6$@>&Yfe6e@9%JN^{nzDm6;-FnmxSqmf>q4EK7w>JX`zB;k!0*od
z`vZ$j+$*j2ODDt>-0#dPuH(uq*}%`6FjwfEcjP67%T+=84a{$xnKiCIV|Wx2WK+^L
zz3p(d#X&oh>WJMMD_1?7X0gYXg)^Pu_l0+flRc_4C$YWUoXhC8fxow9j;^xn`THMi
z?j2t1^3W$ieqO`z*N3Vr_S~t_Xz$J4oTlF(`NmoKp-hsz**Vu<`BMF<p4(<^<o9>z
zvShIpIqAD}UukYe>@hnN?{k4FbKdyzblT=Hn1w9X7BBD!oAk`>>BJXe8+I<Nu6n*!
z%Cw>KRq4y?;-3WtRApAUt^eY_EQEWm-ckci=1kv5;s-jjt}t8*_WZ8zF;DW)Ife{-
z+dA8|y?cuoBR^{fE>>>04DZbj>)zZxXVO-)Z%jVzzkGxw(hnQUt@kekRjE$WzrE@`
zUd*%ktz&=r4%3;8<oJf9E|-ldnfl2k42AsMw{C<v-L(D|EVOfbwfDM=<akc0ldMl3
zFPs|ujOPhkg0uARQ(+tAmihO;f4J~R?wx0>8y5H0GWu;=d_rU<Q^Z=oN=BKC<oJ`V
z*N#4zlfr%Jp@_fJo_1mVZ(Kd{;<Nr4&(#YTzN3;8SEN|f_wTxTg2g_8%57Cb2V!<J
zb9gU1{q?h=qCD4Zxpv>hueRLQ_{g1bsJoWYuW#oiZ{2Cmn}3Qhv~>IWZ`pf;`$IuR
z(-q4jdR|@1@1%vq_S_IpkoY90X8SZ}>pkv-quqNMcGsOgF21<mSu>S;!^5L-4PP%P
zDn+iEbl+Pum$3|_K14Ni@~deRx4(NB5#_IQqi$YNV*1B|Bd0?y--wgeSCF)H|NmOJ
zpyRX0M)qkRHk9UYt*k7ZeZuk=zmVKM+1dHW{Yz_R^={eEaBS&Ufr6zyeEKFCC$g%%
z+q%zM{;IEuDtfy7{|BZ;Iy;~3RZZV{<Ggd{6la?+#j7XHepSrB;lxolhpJqy@HiQ}
zIKlN>Zh7^HJDjqS`}R=Q;MG>e%NAXkF{iJ|O>(cl(eBTwy2eQ~Gb!7Ac1|s0NdLe8
zf4<4H#q4a*+tuRLv#5gk&4l?4cNq>H^?P;kKI83;A%?BHUrh_Kak%6B^~L*!<MUD{
z8uW-3pRjI-wEd;NK*Uxyp38niyVi+=j4ifjUR|`GeumMbE<v>;Q1RPS?-g=?g*U8h
z;-6L0%JYN!!A8USzn_H@w1TvaOblk;4gSZ?(7orz`Rw4EjP~ymg(fe_l{>X+!k_Q&
zd3HRy5fZAkG*8i6;P83Y1GZ;YJAGpF@Vs_t`J7cOhD}p1@b(<vqotDHAi{B7zjfb3
z<_(d}pIHk+J?=3qPRU;>XLiDtC&1!i-Ra6u4?C4LGPA7g4(cTCPg$(Auf^5&*K@hB
zPi`-NzIvV1uX{j)|4s0rlR{JF6His&xT7M@6g1_>cK>RNueKs{oi;}JJMA!Y{j6E;
zV8o}yJWZwY*`D%T3-|x-e;6bpPG{<Mm2ia!{t&t}{geAHX1RLdo7=7DxcSDof4`-W
z(7fn^$T{ak=gIOnPW}|}VCTOcp#=)o=|9VESfospZBR~O7x*4v`^#D(wPMo@rQk_x
zmwwkh!0Eb>tzd)i-6ytZURGq-I{f%z;r_qh-+Nx56HAT8lqXuz-p^$IhKf`%1>IaV
zMWXO;c3(vO52h1Vs<lx?;Rm(^d6aSoEIx8RTe<M?W6A7E8~SSVPqI$p&Ww%dO78Bp
zJsDv?ZBF~optje&*QQqPVRZYt#H8A7d5(Ph!(XRMQ|0m-Jeel3KTr@?l3(BV^+h~`
zwTd`TLiQtl_O-<xW-GWGD)_^nePo-VTIa#b9uw+1b$7MUx-*a2Ih9v4<e4lueo&38
z*5TyE<NQK?o1UM~_&DXzG2R0lCs~V6Ek4N{9pYrr8P6a*<49)gjmJsmmAOA0Pq|Kt
zRbMbYrbD;cvxX_{?NW<*`gQ!;*A6l%ctspgv18O!u#}t-JTs&xUG{_c0WP(Tj5<}P
z=1%?>;yqo~VMqJgM$epY2CuqfcZ;<4ZQ1^WPi-UPn=JWFk9|{Do4x$cWC1c`@h!9C
z+kN6WLVLvXPbLTz_x;<hp70}ZS&C-R<TmjYKA%<JNU8qYzyF^&^SYdfsocKT+rEBE
zymoWP*@D>3>jEEHKX`bte}&q{u<r*oce_<z*Z3&A!TZL{_?(qK+8>gBH%O`0d0Fg8
zcy7?Sm9NZ<U*KKhb&Zd~hn7{(cp3gKbeX<T*u~TGDk-bu>*e&#w5sGcbjIytmJ^S>
zd;8%1BFlXu@23cEaBfnYD!jqXQsm#VmAlSQlkmN67i0O$`oW)rTodhWe+Dh$P4c;}
z5@-2K{XqcxoZLA+|L;x~U<mK~#~JY>WaUHGUG{CYG7JLi&UR#Uy)gIM$xxfHb63}|
zU<dtbPrY*sqJmQx-8u_`*d|q<RTA@KP|&knteK>uQa$gBk>qRF>hop{+_RKkM=pA0
zcky(LLExk#`F2c?<ibo`r?p(M40i3E^v#;#@UuzMvy`|$Y>;WHIc@B1?U_^U{Vt<R
z=fGpb2a}Y}-kQ|1U`fq^#$_j%Y_7bR;@_{_bmen~^D_O0;;*cK%$c`+z9n+5M!c|M
zh5b>x4R^Jhx`IDzmLE{iRC#r~`_f6#oJt;srk3E(n*IkSx*qZiYzg9jE54oK@+<Bg
z`a56SrW{`$lBxZZgX4QamfcfM3k!pJOIG#Ix}G!ThpW@s<uwx~+&`?r7jV+Pt5<#>
z!?mm81@{jh<Il2ruNXG-m-jLa!|$vL3Z(_6mNHdF+)rm87klu^e`4G8EmO{im`14t
z*2<jXiB|g<^H-DK;pDX-MM*}vRSR+@y^Fstzr)bJW%7i$XKJU~b~1<?v@-ZQvjsHm
zXlHe7d#;#xeqKvG(}P$3jt4v(c_NLj>rGYs8ZRxBq#iD{yk+mINnXE}9+7oDZ_55H
zK<|Kw>&4=&wJRsR`4y&L+;vUv6q5~~vo8C($X)fP^&4)SOl8<vX~cT+k4!^=_ZzKW
zA{!>3*4e3MYO%A^sQdmN#fN8qMa{o5HRi#+_dy%=6WG27<XyYYw8Ti4x94)HX4Jl4
zf&!|0BICIYR_i*8TYapyI4za{;!o)EU*>V+sT^DO7G?z*ub6AoQ}RFmI=ZI!N9>+}
ztd25e?+xvRk@5TvetCf*OHMQ2Ud`U&9e3?I?}rPTe-;GIpJKCtF-}^(ATr+kz=F^a
zkzMPR6nAWob1*uZT5J2=pu6_O#fh7)y!tMr_xd$kL~G3B2^;kEnqIZ~2ySo|ZDgEs
zs8cIW^Q-=O+XIZDEb0#wBPYJmJ)V6c<35+QdX<xp=t0gKs=V$|{r3{GI<}d5|FiXZ
zb@Bi6{(9pFqCSrmY#9CCerb<scz$vD61l&!23arc<i)KrlIsc>5>I;C{<41XaYNCz
zZ5he`bU*)KS|RtB_rvtZ`d5n{Y_nqGkyD6yvqbK1@yVouRrNuy)_UKaKB45)!;AL(
ztuy^s=*^y96R~N+<WH(0{r`5hH+TCkijfZry0GYl_l=LYVkW9yRGhN)>>4Hqeg5#}
zYh*wsFF3eatx;jqzDevILVkP9xF`5U`Uq}gJ+(IVHajTGDwr~?%01lQyzh=Y<HLZk
zzJEL0Z9C(hX)ST`OSwPE;NjMtkJ|6d^{YPd{$ZlY&h{puv^{3m7qawP7VxZ@a4}@N
ziq3@Vr+>0M5h`IivuOI_wa3doYifp{cs;ja$^^k+mwD@pB<96!V^YnTaNU~mvgE2+
zi5h_?{qz)`@>T8?F4$_=>uhxKH1D?yr<X6WQCOe;eZu;)Hg>j*KDqfPg+EnsPgr!s
zG5eWCUh#{}=wGjyz548Gtwi)vc!K1DFP&Zcfl>L%S3gdEeG`vG6F8MlY}35A)$st!
z!7VZ8g3~@*n`x>j=U)k9`5Co7g=5*=hRBSaH-1eD2yNxd{@$p|+LWoTpt)RuU+49d
zHG918GlzlHglt}-Up6VYFVlPZ6t;sVo7+u2AF_n=3ls)_(qW&n!P(#~%Mt~*D?5CJ
zk~7~i@^LJ?8QhoDWzt*g==+=dK}*7{i3L78&0?7S9PjQdJyjYR|6iH^&8jjxyRAxJ
z+jBA|E!u8%G}SI~nQ7Q!bB9lJjNU)I5O9?t_=u^+>rMOe8bV_Yi<D-!M8?drV2QbQ
zowwj)hm4uoUH45g4R;QdYQNgFPtJQ<oe0+=*RaJKs~R*GhTXO2Z*9)FB6Lwj;E8uf
zgYUbC?ZM9sj9X`G>sx-`Yx|~%|9yj}aI47qYdd&rs_YbgYtC1h;xIwzhOE#vUx#xx
zcB(y98y8RDl@(I^p2V#1{Kfw|Ij+KQPxU!{((I-%u_W0kTowBNk)`Jn{|8gm!deEi
z@3#)v##sJ(IxCj-UT87np0i(;G9>n0@0b<V_mA&J%l&5?WK<L)^Hp-<x|5<nwSr=#
zn8Uj5mT|MEm3x?7I(6|rWBaeN$L`BdnApafML!gpx@79&{~Ow4XPa)S(VVcLa$>>D
zDbflPvsu_=vXaxYE%z|+@d!$AZuW?{s*<;D^H<h_q>cxZHk3}Cur6!nA>R+SAXooW
zNj!IHP2h|0R}Uw+zrS_B_RWmSGvQZjAFq-8`cl<bFDLd*-^}B}8@hd+8=Nl{Tr``y
zUq{loU;V*_6z$l8v#)#CcHcGpT)`x_Jo;(0-kF(hnF9GI3pQG($(@y(rVz&<J<s)b
zh?&ZfGmkkd<`hi~J~!tHR}{+!TZJ?^{{u>%tm{NCKAODe>&wzJHd36&ueganZSKu{
zKV{=&?e$FW7v>oHo?51<kjZ&u*7T1L_iy5V<7%aH?oncGsAuXoGg*fT1qtfm`#jp0
zOy24h`|a-JD#jyz>x2!wCbJ#qKf1SfT}uH!ds)#;+c#@ooK(5?X054foC-+AhU|wD
zq1N6GMLF*j%Zel&)_E+J$(*iXxMlBth9vdtoE0kqeN&4BzA*3<^9xw-<WW#>?z_zA
zC@cSh@7w!_2iVKzU02IkWU%>j#1WIohO6Eymm7X;+{<9O$LVCN4&zBq-zjlcGn7;8
z?Y(Z82Ht3zapd5&+j|(?Y7)c~Lbgd5&02M2-y3G`hJuahhuF&))iSlz=gn3;7NlJ*
zlvb0Ve_)m9<Cry$?M!pm+9e!hFJlZ6UO%O*V69~9s+_<V+zCh7zfGDTY#ex+g<G>O
zpI=bm_lxefj~%PKK5M!LdmPt{j$gkkaALIlUdAZ_q0_b){M4KlzGT<GPiy<*7+=bz
z)qR?L<5ugcd8fq`zFmwyu%hv!#xt334b_1YWtd7*r>$rRoYnfmZq@qhxhtbT?t8lD
z*NgcLLCd@<rygrKYPLt@{gltI7Vl?f`{~4Yy!~d+2}b^TEgUlzYF}n35|m>!E366n
z#!$$Ab@6^?wWTLjf|xrkQ(oKb^H?GGSGJ&)qbbBquA#R0<SqAlc9mV%PBi#9A7-`5
z<=)^NzHDN^4VLC>=LBzh-@SF1F?Oc<0<##|_DhzZD=us5HwZg@SDpKP!sN#xj|>-w
zZN6dq<rP2JC35x7)jzH-Wol01yVk_&aO3b*_y1E2iZ^ST#+=mjKP~u$X@){cJ(JqP
z8^4v@_jq$@R(ZGC#?*e{sF=hj+YofC&?f$xUCqP|4lnM#Q50?yREXa2`NHYy22rQ)
z%Ud2_P@T-bbfT}9{x)Cs{S0OtccnQkuYCwTx_52L>o>Aq?LuEB`5!p<|7XAlPe02;
z*~!I075t{3E7(<ncqeV+cwVb{qKLCWV_}-ye4(O`C&g<I2VJnpWxK<!^7+eoc7@`e
z$z=<SW^P&)*~ZNA-5~SX$DJwP9%P>MJjL3)H6dQbCw?2tUzQLp&2>CnZ^9hTUgBPm
zCO5xYWB$EF`Bn3oG{1@;VB&lo<mb?r9K6?gO7`P=&4S!XX>#)$VpPtHMkW=oS<gMP
z|Awb=KgWqRvMDboUKL#Wjyq}_sL{XX?WCELCIr0>>bG6<__2Mwr*Xf(Lmuzqd&f0e
zg>Ccqnw6aNIrNLA=hDv7Ke--4yZBSRou2L5FLW)9U)$A0lR0wBImUe=;fG{C-ddw!
z7|6zAIYqObDc0lP){~s;&$6EQtMO%fXx6k__qLvtTz__||HEfJSA9+@3+=IWInZ=H
zjZtn_%N>WTnYoir`CPp1Y%`_n`m;$BHgBJD^s1-x!L2d@huW?`V|rp~7oxV=N_<&4
zf8e3M>(7`{qQ7)=%xOBZ@7FZVN$gVI;R$nY*VlDMJ&@h7c*Bhw;&HP(k6jYom40$X
zv~5Oe6hEJWM+B3UcleYU#X<Ws1bTllt;znzByllf)57YVX0~4IBipK9wE9H;j7ola
z%lTSSh=Zd*rOdXz?d=+gZpkm1o^Y*;pK_~b$Ggw><it#-i9MLo)EPfz_S1->O+TlI
zALu$ZX{XtjnZZ_lv#-zE5RlKX%KiWS|Nka4u9wg`o~g0)rpnT|gsd6QFFwEOUeA7J
z(mMq$ZoLPbQZc_-I)qla|7YQGRn;jvby;m^9K+Sc^-M*FPwTt>3dwM3lI01B>96~G
z@jm0^3nD_Y9-Z=X5#dfR7uPe189Hh_I(I&NQqfx811k4ke4cWXSH+=s%kxd88r`q!
z_O@#un%R=qD97GaD_hO6dBQ63hiAH9|KpQ5+Pr*kie6KnFz+hy=Cj?e|FL<P@$S4-
zQrlE>`fA;2{RZBx_gGI{e$`RgbXk7Zn_nCq*Ox86wtL!{gInTD)`jew$hX(SBH*>|
zf#j7bh8LK<`E^ZQqOZSkJ=7WXe$s?yiTx{@mYbd5wzXY%!L{8P4mYHiR<-M$7vFMf
zm&lGc+oIQ&PyP6Lx?@9VRsP{?BCdR=BG#5O7Hz(z|0THUz+<%px3%SrpI(?TsoZWm
z`FS!kNBbqNEL&woN%t?l?mNvK+&?QNx~@%+QhZUO$$V1i+wAOT%w|`r!oRyKHaH(z
zQXSD=ev0Ep;OkhSvPnIeyNp&}+~L|d`*wpxS*%~;v>aCZ<j8Lqyk^9%y{>j-qrU_1
z`-|d-y;dcyj4qSEAqN`iygAq6-?Z#}Pp4>)Z%h)3eYp%X^ZOW=zOB9GIpyZnDqF_6
zrM+wu<hYWyui2C`dxKqepM3R=t+SqTp0H&2m9(ROUuN<vb%&TuVVmzTZhrD)<|!vR
z_7%;wjB6ayYng)fZ`vWc_vF#GJ|~7FwpX&IStp3P+3f0HlKEM;@2}EAkfzx&;$1o)
zmxmu&bDQA`*GcOHal1$Bb$UL1sku4l3ipCA4?ESAZ^l)nGY%;!>rUc7VfpL+JR!cy
zb$p!Mub(!l<mfjn39hU5@>u4c&S@#&*=*2Oeu~4x>goIE3kBL!(hhj}r=2@x{K+<<
z?PPZ8U!~rn)qf^?U%1)ymC5nLOWv*f-Zgk?y!<&^tT=C1gT}(Bc>e<eDpuDoRpoAL
z+O_!L6I13BaT>0-X5VT*T72N)W$7$Xw_w9xr=L&H)tyR{nf?1k{ePAS%j~cxc5-HA
zQqhTGzjTc&&oUHgvNN(9-g@Z$ak@_-gK_0s7M)8wKZI^QqLKLR+I}-*rzLyiY8id5
zpIWXn?eK>8iKU?jd;~J%8?N|GQi%@SY`0+>%idk_r_Kmunm5GM|Gm0&!8DaE@7{7J
zG<y8z^q3n{#BVvTwnp=45PL{C>lv<zW!j08ogY@ciJAKPXEmp^%dOrPpT&McY=*a%
zZ_SNkuy(n1R<n4mjJ9@VLi%0nDU6aIj-K)TtC=$6;_16j3nikNBR|=!)n~Es5%97N
zKE9vNHYfV9i$!vR(F3-CRct0VPc<&s#aa;+U+%E-NQV&b!tUJ1?e84KmT4JD7Hn>>
zd^)`}$Wr31zEGCwY2FEM4k=ky&2x_Lm{OR}e|q}ahWQQM)BiH86S|Tc(DR%*>_o%-
z2G4XImX+;K)8hCAzHe}3yQ4GnrTwCB-hrj}KTPXsxbb<%pM+N*A6ocMh!R{j&FI)9
z>sy=F*!@y}@FHkt*a=A`|5LL2I;%Tu`_&VsZYU0ks+VJW?a9%wy8j=i#<9RDjyhj-
z{rLsH86=&5%o!2FFJB-1)V8JRm^i1fiz`pUbJd_7sa>@ax2Lt-_?+>5!shNN%mT;N
zzwWiwS>d++fQ3K9k}{#P1GfwHa}(DtcdN|W5xO`${y@soDX9xATwR;kJA}+a7Kax#
z&YaxIG<|PF*S}BP3GSv<o)%LQwtcSl$ZJ(slsn~MTIDJ6BT4+Krt?eg{nHB;N$pj6
z@<eQ_=||?<6YCDLr>v`9?6&^G-jE)7@41VXbS>Rb!Pv9HZT+mWd%IWsUG&7pDRHg%
z5shq6E8^9O8IPx|j^MlaRKlIpcvav}S3h=lO+UF<9d?DKHH<nd+{6<?o(V7F@%Uu%
z<ORc_t&yK!%=doAq9{70aMEitr`N8B+Oob_i73hj>D`?(vFZ!!hQ(5QRi?0IoYF7<
z=4RaE@qv+j)y3BVH~z%6PhM<vqi%n@@YNMB*FM;_Uh}J&NsVyZ*_{oR4(F5ic0G}P
zJz?3Mb5hk7jJACW%kG$iVqwb1Eg`>FulH?8RFX^Ni{CU~Ud88^llj8#$AYUXxdp1_
z{2i8>DZjd?wVdZo)4PtANgJPE)R~#>5|({q<CB<gDo5tI7i%~r8me@AYb~e{Qd0P4
zBgI)+z!~@}V;fU?(a(k(pCi_%@vhTTwR)}Pwd%IWC2oapHnUX2b5ACovgJxTa6?vJ
zpjxiCWzG#-l_ybUpP0TeSi1lJ{x=|{tRT@L)7(y_btbnR$XJJOA6H~{#7UmI2yXq`
z{C=@ibkVF;zm?{4->I0o_*1>E!*vzA-!JkTA|=)PjyKBRSfKS#SV2z`Wc=i*A^#7S
zE;jMlUI}&N(!CM)T^~to|9ayc!{wrH7w<E4Pl*ZAX4!ktlB4ik8z_Y_%=R-$m_DoH
z{^5I*Ha`Eza^+{$9dU&$kstfw7&bn?=%F$Be@BVOrnIBaUer3gTm1jGutIskM9($G
zYZ4bV*7Ik#NUZtysC46R{$+xT9Cw8|nKQ>_HA%eTl<?n_p=Ywdao4t-tG?T&%~E8m
zW|Hgs9`a1M>fxmcfl<;8tVtWP^H<DT>Xoj|U$W@rp0a06v*Y!)I`Le4qsYJcq4@3-
zlVTmFY;fec#&AmKYk}Xhv(p~EVcp=&b4`ZJd~$I2qI0sXeTSy2@^>7Z*AV%Nmvch;
z#gHxg;@0to-CaL@#`D*yJI%iEE?>#Kdf!*39sU2Vt3MFX<Eh%$W)sgiPyhOZoQTqV
zhMC8@Dm%INn;k5>u!kY(>fXqrh`BL2w~yQo$bqO(d1As?9w8oAv{~+NcS}TRJ(F4I
zZGorClCw;FmgMXd<z4;m?4-%(T9W11jcz4Y&E@Y1{qE*;E=;BO)YGFIf7>oNw(sAs
zUfp)nseMU&v0scXAHF!Lz4U<Xqh*&&zI|mmb4yEm$<ysO4>EKJWxaXL=W*s_QLcrv
zQ{AaE)(x@A@#PM4Z=O1Ha;|F5#mNHi60hI5UVPGr<4mw38?)1*53WvqwY5=3%bTwU
zB>kFp*V&QNSmkfH#uTm-Z52Up98+~qSu^gvP#gLA#ruZHtILXdg3lb>wLOo&0xaS(
zS+m3>NIR$??<jXd^OF4&1FmFD+*r{b9oVqqNUu=&SsOdX*-~@Pto+Q?A(Zv(W2Ht+
zy7Ri3VS*~tQ<xc_Pxt*L&6#>ad}~|hdhy)2^XyM#{!aa3&$#+bPHM1A%w~@GE`Evq
zIhXG1%=Fgne81Wwpgd=zs>r#E|G!O{V6{5+<l?S_mTl!51r6$NF4-Sx#NV}~u)>o|
z{eW~W<B@+;%9c(z!mZ)N>le?};uCv1F`@nxr-aE)hwp(5#swa`j$JzNZwjl&Gw$nc
zDKDQqTJTOz;oI^#4IkOf`HZKpJd&I6&Aoi>`o_PSX(#7?KI!=)`lLVOA(?omH~xn0
zN@q@b9@YtYBv__0hj9{j8h`3MxzcT3l|13^>hvG#y4M%+=p>zAv!1swxx%|GyZH3Q
z`3;_TJD3B!F9fpw5K8L%$8yH&-}EDMPlPJXm2Q}^*j&i#W30{d<x3tgK3bU2caNdS
zsAKVwsIyEtfA+P^SZwY+O($~F#JnloE2^tIEPn}qsE}z}GQrAUeIe7lwf^}}U;O`^
zpZ3`P_@T>B_Md97x!fO@vqGuh?9Qo+_cIHvPPh~-wm0U@(X!_a*Fhp?r6rS8)@c6S
zXu5LGI+?$+8?smChXpS=6<5ddN0`CX{eO(n`H7GG*JtZ3$njiZ`Rn;4OJ4`?c|v7;
zW?p}oR`dv;S1tZ&$C$P;;rW+oJq@QUKE`~ylA`^cc>`<oc7~PqPq!~`ajrDi{2Y9=
za?ASOYW~${7T0^-aFq{!pFA}|>ixO478%uZ^7};A&3(*MA$t6{*!(@91uNf!o#wvx
z$l<hkReoyCq4$hC`~SW77ZQs#>fh$^<XPTaqvtRF|0p>X6k)BpzlLGiCiTRoiH6Ik
z-!!@FC?Xa*nfuw4SU;XRuQMlR2nS^T6^~W)<!ug&?5}Gyy>Omi=+c{hz3a<5{2HIX
zX5Db;gaot3&IScP74-}ohl<>!=z}IKDytYQMf9W=J!#tAu8|mjaLaEwBkMzq5-*C?
z*QW2EB7T5TIr+?_N;fq_KatSIXRSqIKDA6VbUS3XWS9S?f_CN<?uwcNM@#o#S+UH1
z5#QluEr}OICQU7P`st_qj`nU)i+!oa%nsY|xy&uU_bj@wYsb6y4W8*??ibIe=rl@w
zWi*!Z=KiojqAIvK_;;`aYend?(!#s;({)NrR>${C#XXwVBHFw3b-=D?OgpZ(Z`xj#
zb%Q&>Ir-(Jf>rM4^K@<bjz$|Xm1U@Bezp<mlM`6)JT;A1LUQvCW4jpX-rBp2n=^KQ
zJrKm$-+PWx!E43F_0|a!gW|Pz@&wgOtf_v@thesBztAy#$^FWK6DQbmKD@QYu8KA0
zYS596>#PPTl^g%+m4f@?EK{DZ?(Uy1uK!%!A*QI!)`oHRCH<0zs^@M6Zf1-~;P*eE
zr^ET>f*a!-Jz3s&iLuouPPUrb&OT;0k=J4A{;0E;a_esT>RmDI|HtRC<Y(*jIi*ib
zOn7(xoU-fLMSI4|S!bsA^)8>F`QhBphUB*oYfm<MU$|cKxMSbE*$Y;J+Y4TAUf*zD
zc1OA2uBw_tXkFzOa|f=QpX=8-z4vct(%;4}v44xw3%(P9maqOLterkJ_*3<PEm}?Q
z8t!~_sVffQT)sW!hBKGn|8DIj0fSSUU4_banrT)G9kSJ7eRDWe*j>_n-wkK2GR<hl
zrTgD8M{9xBEllvt&e18|mQekHp^#ttMmyUC?(%&d8DW#w9#s>MW3ax_uAU%1c}Cii
zOsgGf{!TVi7{4vN>1=qvuf28K&xoQ%C5`w)oZl8QPI;*ksC~J_>&W+pEpo~7dIv<7
zM0V(MXnK1DJb$1!^Ig+M{<8}`vU7ws>jiJDxyf`SYnteqr4yff#!1(uUb^tom-~Wu
zeL>8<kj--%oL}u*q1|^#drr`O%}MJ;S4a9ecx}2gJ*Yq1SkmC;iWA%lVVflm1U&gU
zsr&AegMT?XsynXgr18%@`qsPKDcHUKr>oPNw8#dL#P^3nk7}NA3H=^t&B>Hx+Rgan
zhobAt6I|AQmRD>Y)}&c7YMz`L>9lT}|KDT3UNaTR|Gn>jK#5<=bYtP!OFKe0@A$sK
zb%jy{r-Rr2!t3>-ukCp`(`wfIc5(pqK-z6rG@QwIuI6C1iA$C8-)J7nqMi_FdTWWj
zmf-(8evZn)TmSxKG&niuw*ITX)0`RE@937U_Fa6$pVRV(=l2Pxlb1zokrv9D@`Lln
z7T1lXoS|Ev$Z|1dP5Du&Ve_v~da>)F9AOjvhFh{V>}P`J9W^#q{bqW%$dTnr*0lKl
zf32CX6`!=>O*)$YV#-^G^!r5*?0&`DGqQbMGKop;_Kf$^-m$AA-!)9nK6b|XWmxJj
zrWIFp$`7dQtnBLgV7umo-izq?*wvACZx(KA`^dm_NweC_?D>oOdL})!Jp~%tJIxm6
zNY0tF`2TZthr|`OUy7#AQk5wG#B?I?k$=M-zLS|d79CZeH^1rnGVgESI3=1>&fX9^
z5!fMWuCk=&l>Eob3tzlYT9><A|7dEzBj-!+pUSmXQx+yp+njV~w;6*4lY!&cGOrUG
z!{=SN9dZ24#OK!+g7WONIU+}8JZ3GK6DrS`$lrbp)XU>Ksd2}Be)TDf4ewbEn1!!!
zN~k{e@MP;tR@Y_v!NM{B-h~_2i}`1Joe<4rPhd5D<-H>Gd-;J?JiX30dNNL4(0a|h
zP5(4YDnn)U{<eU|&zk+Z2l%dh$(|%C`P$bfNzYy3@)5rD@4D?^2TU*&zVg!E_0XPB
zmGjfzJ`Z;K^l=93Qf^ZVT}i39m;;gxv;MKj7_rY$@)p_e>6+EGf4j`GYqhr1?=)*v
z`H9GBEtsNvy0Q4n{(37B$yk@OQx*j;s?CjK_&j~-vhB-drg*ik(-OUw$23jf+c%%V
zGQ`V8wIp`ZwVoV?Fpr4uh4YNWj|$&ptNgTbQOmz-3u%=#{s$Bj(|6g4xO$i`3y5bu
z!^fG;EKzd6mf!bj^$t;=*~~)M)D>EPZn;}=!gkIy&wJZtp0%`Wz3KeU@qs|&kE$7`
zzNn=9a-F;(u3<`H&m<?Qs3yL<1^NwwLf6Cs4xf7yw3&Hdu;IDQ6MPTdV&L+uoZuOr
za{Gzx0Upk5?ugJs8aprUE9JM;%NM$)o-oD9ZPx>-BOQg$Z<(CC7|)r_tnt`)(XZ3O
z#f<t5yh7L5CTvbE*|_^y!rkhQ23etNYypc3+bzwHe7tFVE3$A#%U8}7FU_@{>jzC^
zn0A=^!CC)EN!M9SioR3MJfG0fbcH+VfTsSs-|7o^yp)?dG^aKD7VT7Q63eeU#k6Ez
zzNg5h>WLX!9{4G&I68a&CWhHZcz6C-QamN4A@?zBQ`DZHn%ooOq$7>OZI^chAC6Pm
z^HWn>-PKpBXk#VEbH*Fy(`!BlizQ4^kTU;l#u-rdev06SXUk(6a&}(YDj9Tc{xiQj
z%Z|>TUz93mIp3%M@RfVVA2BX!F}FXe!nHf*&7!kY94`G<dU)1<r;5z1$|u>*4Oe&H
zVAxUgrT$NTU+vt*OZYE4XF6ECb^LBny^MniwBS%DN>8FiuJ8RrzZpx{%KViz;BMEv
ze_ZkYCT&Hqyw52y;idny18r^_PkV4V8q^NyR*O!*^ljNj;kntKf2Ta3w6pTNxAN>O
zVN7pT>=bG>+ZWaA&3v7G;$vr##$n#jhnm^tABs=@ITf&?OP-xqG{<Ab-Gly|&O-VM
zW|mL4i9XCp*&KN7&CYh4t$nichMkH_-|7Fn=5BvYUv6G-z$=Dr{F|SI?)(2Gul9?&
zLg1TDKh99zb1zmhM0{G?e~+Q4t?&5?m5;%ft}$1?UTn`e`H0jG_VC5U?<PI;-ud;S
zG^hL3HIV|7Ew1XSmcCxR-P>={_1QX!!uOW)I=oqI?(O$$X~86$OpSVGf!{CAZhh#Z
zTzh(R_ObN$0UP@NvGlBB+V$nz5;c?m(hWD<^HrYAi{`p}`K*_(x?4SW#p}i9)h9|k
zT;`vAuQ-)EPxt3F_k0Fb*)=^USzbI_@<48#T~)5Sq_(T)#H9-2yS+n}MDDHGRq%zs
z<}_#!!D7<4Fqh7*2Q#9$JG`%*c`Q8Pz2ecNW|!w&A9Q{;h)S*JS-`U~Gbq=q;UM!7
z+bd@t%WlX#y-n!G(%%M2@lI!L?lJD(wo{z*^Tp|t_BcB_oLycsDM0IT#P%h6DJ!KL
zPHd}U>XY}m=i%%8%fjV_e<9<{*Z;OJZ;3T}a3>?+2IKK*GV%s>H;=6r{_w$W_7>BR
z;?9{nc9m+}asU7QbHIw3<r`W))$l&#y2WrNAk_4l`7G1J!AllQTy*5Yj~(;xJ=#^z
zq;{<;ROY?N$0@V*6aQ`s4OLGF={l~Zy5CcMV=jZ)id9Ap&8x#tbWSnb%_SUo*FPWB
zhLSOvf9P+OC$qD(P}cd!vJ<)-RsS9gH(lqs_dfGE{piqChMT{Vf?L*|-=QiV<M3;q
zPv}+7iWgIK_KF&*FGy}WcHjBj#rV)r^#x^HCJCRcGv2ti>N?xIhqK(*$FMwpWjgy-
z;@Mn>knahLi}l{eM1Ovf->_dsPUQKMQl2<3k9qHd=4>_X|Hr8@b>}JGDPhU4zBi;_
zwPgyL-1b7`nV0wXKBx6cE7n$i@po9)+-ntO>N;o952c5ZrTq<_@zSqYr|0j?3w*n^
zEbOlGgT#YHE}OjqHDtR^>ved~b4W~7nIhr*|KQ>3;DC3l^4I&u*L8id=@TvG{&n)D
z$H8j7gdKhU@pY$|H)t~V7bNLiJMG`Fp}qE}ra$M;t%|!W7+Va5^&3w6?_>-LS@-Fl
z;aaJ?&bQYvHWX;o{?z1mm={<6MsdH@l(ic?*NJm#mu#EY@a3)B#(k3*m>iFEw?vix
zcXTQ{yW)Ca&g`7^XS-WuziwJ)R3E7qIpNiBm!)oQ`oGl*<yTDCclg%%LN+8%EG4=$
z)L}kIAn=2y*3sa}MX%m7zFhyWhDomeaP!3%+%F&fVBnmcFVx>rRq0tV$LM+BB%dcs
z&m@2PCZOsA(&s0l_SD`+uS}xa`y7a0c6Now%s-QpUm8R{X5FwLF0LW+*|LBYCLVK{
z1@iX4Np#&?<EgQ@w*R=Ihp6LrMW+99LQR>i659KHdQJ)n%y;!kdY~$2m+*hnS^>5I
zuJTC&Q&e8@<?$)Jdl(@u&A7P7JuO#U<zy;oB@^db0k#R;0h9Tfmx{S&ALRQUkk+uN
z<+J!o|Ev`o^)#2{D8D`YS|ca8^pvc@=_B@jS{_`Qw?9cRw5a-D)%17p`xLCO$=f)8
z^Yv$}2F{U9Q#W|r33#?#M{SCK!;bb<!S5PEYi$2bn_7Nu))9ShXa0uDXAeIA@I!O9
zZBOZ~wN;%WBU1P+RCUwq=mx3ZyO_Tj?+i5wl(>`K+`!D0eLnt7Qo*IIiIaH0&K7@A
z(!2Dk`+t@x0-|T1a9yfMRh=`h_JqofWgEV+Tq%(EJaL6F^yjAi>^%Vy*$h7gUPNDu
z^eD((mR|4;G_SEl(|1<k6~F(H->03a{qm7fVo7tio$b;ujWZ5&C;Z&hy4B6eFW~aR
z3yA_Bck}k_XSk*x9kH9C(xqvRk@T!9>(eVc;~Aun@IUv`3rYN|DtducAZGK+n>YTP
zoBiV<=Zz)B-EuedZ2KoT&6;O<{H(uPT?WI<zdb4`aTBFuA96ov`LU3(C-N?5-ZR+@
z9pCd!Z|5xje_S}AeWUuLBN?08w^`qqKB4%_etX8{dz$B1b;TQ<Iy+f_QTPZyuY&pK
zNtajjt~fYNbq_;YhrE<SX5$H?>_+uHOLPw~eLT!6vDIk$9Jea*m7&+7`1Bh@AGNbh
z*lnbF@|2fX_h&PZoBbW6K5BQ_WxvneJSS7XL3Y-u^YKf9eP;=)a(3EX{ypvC<=tl&
zn>YCUcYLpSel16Y;X8Z2?Ui5D6RxK%)F?iCO1JI>^Sx&m=QmtQ)6r^Jy*gt-@izvr
zCVR%!Qm-95ws#A;=6KB5mlM2`F~v$MOYV{8ZO_Wv``ORLZ(I3?Mdwz6z>=~~wwG;t
zZFMSg*I9hyT2#8LU-i_ThWG2w&T_A3pJP8m{53<$J^iRpH=>IUXBRVm;#s%k;N2h<
z;eCuZKHi#fVehYsHDz80SFM_!ZT#WZ8a9Wyt9;`$&M)>qW%+M!i}3ohTc50BRPf8Y
zm~wBg>iWtr<(!MJ=uC`0JwNW&)_q~}d%xM7yBa6HB&)%9qSu~{?32DH9o`yQ`^Eo&
z#F1?emmOZ@(|dn^JE$f(;p?<ydZkmz<p;OEH?T&f`X5kv^PI)P_0SbtQHJYjXF<Jw
z)BZ!nU%8e(+*ZQ%{6+nLjul!Bk&34$tlPnRfN$+4wty<FNnd_Uc^ur5{aC-!Vf7lu
zC;uwBHctrlYsk&#SO0METoIF+Z;0{r+Luug-{vx(v(EpKz^f2$9ej`__64&*+REMQ
zBK4ybE7?`r-J3Fe5(8Hh+2k{-J!rONoP6a>V83Mj=@6AyJGXCWchy$OZ*ZA0d1-U^
z@m-fDUGA$seK?m_ehs6Dee0je2l|^Yh}Y>Swu)SeiS-C%TO7Exc0zT;8(W*^{pW-8
zCOBC!PIhZw-E)7X<E~bFrbm;kmrU?Gpz~2G>yp9)FV*SQ4a`9v>Ixf6GVV-R=g({L
zU5ufSUwz4h1b)?!Q(L#2COw|2uLuf(E$yDx=@$3GGE<!HGWASwGHURVcbTYKwJ&R$
z*v9wM&(wYi=Q_zy6e+7J+Qh(gbY^{SSYMrOeE53F$$T513OxO}$u%JF#Fq6ke`O~u
zQxmI8NS}~jdF#Lq>4$H$-Rs%c9J=f$bSYC@>gq$*Qo#)iuWeqNxajMSQ(H_P{{Ll`
zax1*=-_9qCN^ite)p^X=*0ihk>5KV7M)mrt86Jj051vg@&)Um+V~WZANq0Xbxxb$E
z)BBms-iuY!TN*75LvG799ANp%v}29_%CdQXr%YI0Ava%c^OH$j8@Bb%KJ{jG|3AJP
zOaD!fi>R{C;8#5KGKvo*v?3?(i`*vh3#l3(*&b}#C)W^qIbTLst$1Cv_c2@W@}3nJ
z@2PA$vdrV&q=Lx!ep?^sFGkzVr*=-(h-dgc{VlgaL(K2FQ~s=CQ|!IRAag-HVI6O9
zgK(;YuqXrD^V3^r#&6R<z>wC*r@i~BVxl&9x$RZ)glRgA3pD=BZrwF;k253Z$pXV#
zM)d`grWhwq)~K4H^_yu%g3LXc=eB2Dix$WHckO4MQ7qRO5f7@meY#cVi4+%2UzaRp
z&-h4g+Emls%xq_0>mFxUnxo$!dhDU3gWBRHCxm{VKHkiI{g|@A>ukBd!U0+ai>5?P
zn$Pr-KmO3ZO9we5RJoj1p3%5(#G_otC=*{MGjD2v7mu09#(fE1=eQrV6jnUDW#DM#
z>iVKT`$(bsKe?j5e^Tw~)8>Rfo4qAAbkR-T1GD`iWlfwH6)l<GE%kO<<MTEAi|ZdG
z_0RU($*{SswqUNaX40e@mKIwX^SPTCcE3p8b>q$QJCkDc8_eexF)mZ_e#WS#dRM45
z?x)H5MO&?&GM(|<)&JwB)^{ek_(LE=W}co>u|L8|se4^?1IUQkD!()JXRiqSvZUq!
zNWPmd<>5NnDwzY7U)G=XU9RKs%5QzV(X@>Q3BC6gHne<R7Q8ObIP61Al8DKsEvgUq
zyqv-vkajLaGQjoY;fHS(nbf44Qzxm}rs}0H`og}qS@nL>hJ&nU%-FIS4^KGWIJ1K9
zK!Q9w!x38@kdSJ~(yQN1Qg7Sw={H<Gmf(0u@94*wayOi&9WG#aczO2OV+r~WPs^5N
zt<vgu-ki#*FH|PoyqDqRtM^&*e3iL5>}R<jY%sjRy}@fECwr68elz9wZy#<66qK_#
z)9~5m>4M3p3=h4Goh{hZ+ZAzO-8tp-ef`djkA%aW{A&LF(NH`eu=q^!#5p1@k#P)@
zK}x2GPGEPJvpRN7e%JN1mYl^(>Is*`a(CSboD{S4eavjZu<{Sg1=|*^i=1u}b8n|v
z^Ye@I11EADWS*F!<TI(VrQrVQNwa&qA~<Ir>)I!>%g#pemUZeLv%9m77_ND8XiDZW
zmNk}|8RmA;YV#V>TUD6&W=1>Kp7vblyS>tu;fSq`wu<0{9lux%UfcF8aEm<vYCcNr
z3~s!kr~N+BV_r)EXzr}|q|gsVu1jaCIj)}57n&zJsoY`Rw&l~URsK#pF7_Z&v6B6a
z;}@gp(&DnRn;9e4c;+zfyl=D3SpDiIb;WmyTh%t&ifl`mS+m0H+qJ!B94oHs?EiOt
zJ<pC!qU}c){G4(i=g;Tk8uvc4id$!yo|fI<Wz^VHzG>g5r04&?6?R0O{lsYC`Nu%?
z=d{B&E^5X+{PLXrfRfLr5J4CD;CB|%=jwAS<o?>*F|ifqS1JhDZm9P5d$7FVl`p^R
z4c*Nwmw#NoZTQ@c$^Ix)nr`27b0hQ0g8ilz$7i|!XL)jbjuQ)uW3t++=bnlRKQzS*
zR@R;<PO4n>rf<HH&<{=Vgy}b1u53KuwaR<<^R|`;%Of1lZ41tRG~w00o8>W^Cm!(M
z$<RI}W|`i>o;w@Dp0Eo1nZjN0%Jz+w-p-8ur@mij`!hv&!lAP<Pwy<rv6`H@=kcsw
zp1M=45~X=wqHL*?3@W|ZIE{a3hB@Wk^EELJ_NqUA=i>{@hbf|ePc1K5_<uowsCR_w
zp)a|1tuN=USrp&kyn;FGOyi1|ig}NhPWbVnu5L=f)Z+%)DzaQF800rBTC|@bS^V_E
z8Y#=S&z9WSvc0R0ah*lkgsR!UMUIMdT5J8PnrF29&x%!9BC?X3Cs#gMyt%86ahY?j
z*B^stq1$#%zAjw}G9!4}wq>67E2mZD^LsnE?q}G%=gR8lwluv4=6B3)dv1gubN6WH
z<IKLEmA<?ED8r$ndYt;-rhYtmOaBzJN@hoM>SK0?8;2)-Op1>*&a|;r@d<j+JD1xo
z;b3>|QloS+?rD)iD|+Plj)GQ@@3}F(MQHo7JzZiI?)m(IhuXw{gO>7S*Rh^$+kEt-
zeuJ$3H`Rqb5lg?7S0*IizJ0h+{PvROW|wJ?X6+H%8+^=mPQ}KvTLZbL1z#}P%NLg;
zKH>Sr`n6#kY9C{k%Y2RQ+mtdR?)kLiJzRe^#T70_zFvNuui{vwN8Z{KD=y4WQeAUP
zf7a|fhqr{v8Ebu69>KY^vS{WJ!IdxXJ`(n8i2JK47I5fXB-3P@pn~N}9XnU8|2Ku(
z!0UnfOY^y#L*C>uIMttG^>F0o6%0txOy8(t#<0--sMiTm2@$0iMY#$0UT`n?w*1fh
z`~MC%X#Wjdx6D+}&u{yhNb`mY{;l>;`65g=O)1?WR4a3pk%hBT?k_uMCx5h6hT8QW
zpPBW$8CU$(^mo{I;mMDJy@wAl<ukNY-`HaRly3#|?;RHty!y6OH)teItNy|AWE!JZ
zQ`e-Dw-eTWVB|Oa_v`s_TOFZ?PZ%Z6^uL|^DW2g(=y&<=6RdacVljSEm?5X&b>l+i
zo=My}OAG4Od+(Pk5Zob_6D{|bIpD;9KGRdv-b|@HBhMIk=;_7#44To3x$|t^81SZi
zsAHV-!X~c4Q`C0zu_dCaKUp}wZ_w}m$F^g~$~K1Q4W@JUwb(BDT%o!%rS8gv5*h!B
zo6J5hY-XKFmi={<WoE{Ma~s?a^qhOFx=>(hfS$sK>5t^OVx-Sq{Qo!dkitjlt5u?H
zn|}+1mB@)dxbpItYx?1}Zhzma=73C4uAc9D!>S@G_%_p<1x$~;>SK5>TArTH^tbA+
zscV@0Us(e!e#56MTFgvOlgp=Gd9}En=~Iglm$h-O+E>mavIoHZ425+Si@Vc1Upm+^
z9a_Hq*NgcLll8xe<SDG$y;0OrUq~&0G3=1$e7VaF7Z{inv_3K#uV7%-I3F&&Z@tU}
z8BqpDR)gz*^Z5_x>v}7=&#AS2r1pU!@DP_;VT`8AtI{jK4(ssiTua^^IPoHQOUaWb
zn(9jhm%S46ThJowlcby&n%v2L$58TtpD5$@U4MTHPWV1q=Y~e2{THS?KOW9V5Sp#}
zd9g$1A;l-*5^061Q!2mAXK?n5R}bX#<=y<|vVMc0PZG06Xy}nM5fTM?UNa7;#5I^G
z8;hT9P-kP=bx8aG&&k#un?!$_SnPItxhQmTUaFM&{25OUaYj68T$(jaagtxhxyqvz
z$?KvXwYSLpS@L~?@5H9VH{%(kRm9h{Wa*q;acuYLeCF>3>!Kb>KS(^MS?UmGR>!mK
zrw|_p%hA=xmuoZk+wie+rd_Y;=5IGr6i8uk7D`^3C02f`&X!?|(5ITu^W{}~mRla@
zW%HaFV8)=#(&Xo`bz6t_TF+1R5kh7Re}ox?S(<uU{^%B;?bxyNZdH)JP#On|q(kDJ
z%;Q@p2DeF_6F<Pzs8Foo^dxerf0st>v3qi194wNYJ5_q_+|i0vSo`j6Vza}9i4&AB
zrPOL}Oz#G*J<qciw|KEw=u^<*UBXNL9#Huv^I>PvmvV<s`;N>>K3yvKyoTk7?VQzN
zEDV`Jl~euuJ4J$b%q-S>aO&cH#(w|2E=%<%*}+zlc1(xl*2(;Bw+-2+zjEPa!(M5j
zW%`$QCVZc;U*MMWv^Cx@vX~8SpJTNUNi`Ibdi}4tGtF#TOwRKr)+v^v&Pn_s+gPtn
z=a2Z<82j$f1i`#HKPT=vwZgiNOPlBSfpzh3te$kYZ9biOe$!+9^EW;=#_soc6PYB$
zzcgfK^gWI5^8bD^Zg{oegyv#FkB7Hk%z54Lc}v>w199HdDyw|6rh5F2luC?0B=Vtg
zFJJ5AH8LT>t^HqO>=KT!m;HS-WryPAFJ8@c-qF<_w{F{Q(9U){<+;kISxj^Ko65x-
z+Rv2c%SAAsxV|LAaK*D_W(?fBL|?1EyS3hC>G7T~n^;SNJ&HjK1#kB+oax@FlX}(g
zeyaAfSBvYtW`teS@z$>>G`8coadGVqhMoJ;bf@|xo6m2mwz#m?pju*+)ErOd$@k<I
zwFuws%H~gh{Y%%|zPA0Ef%t^qFM6X3Jx?6D60&>Ao2HF9o+o0yA6pyI5Sp&YyHY9P
zcG~NJu)es*W`%o?ShY>OEI)~@bAg-f_p)^|e}yM-^HhBE39eVQY|uz-<ao|`V@uc)
zkHCyw?3Zf}a0&V;CkAX|QS4sE_VNY8AzRRniU$)Wt~$bO{q(1o+4}EFiR~QACr&61
zOo`_A<p%925%jCpu-fmwt7-QXnOp|Hj)GgxiO$9+&xCE->U?9TS@-LIoF}e`h9t~Z
zDY<p}+9XT&dRL3Ln%d>_O`ZfBoQ*c}nxSy0l1c7VW=8#~q;+en8zghz6f#X)^!`DJ
z>-%f+N(v?H@eQsgOn3Nri~QY?^C$15YJ1(<-n|T)jZR!QRuFlcvqStqo7p#}C9`~g
zep#Yu`nvcVr-0pFrn?8joYu+uS;dxZ?aKAwxO-46AR?^0?2=FBvO5fOGLqxl4+%<C
z<%V^#vozgNJ#F*ri{qh1%*w?<mo2K7_cRD9duxkColA)765`;xwzu?jSbD7JB=ZB_
zhc2YNWaTK<QFxOWD>{kaL9S-bwAvdfr#`YJ96WJp>yu@FPs<!w%(JAl=FX<je~)rg
zUQQ~Qx5Y!-YJ2dp^S#2$j;pVY_eo#l=)pL9id3#l7idkeDOW(a)r3s;8T&j|%sg(L
zFs(?!iigkIKljKlxdNyDe#R+h%y~1XFUZpcwHLvoC<a`@a@PyIn$&hK=MgeHXLF1_
z;lj_p<M&>woU;7JaC5Q0Jj3-jlA8V!R-JFF5Afu<Mom1uM(~{8pV?FXX~-$W%nm!S
z)`GEnQqGoax5Qh&rbV-EKjd*jkLTjW63^6W+qOSp%WI7_(*C7*)c;6?^tOFZuN_=#
z!8m)_{S|y+RR@!A{0h3ou>BB2(O1E@3&pNI+qb=4_zoBMiYIInJvIBokLR9bbU1f0
zKJO@}MT$+)B|Fho+izAUR3E9{F~xtH<jj(dv#-cIbsTv5`;qMS?;n_WcD3)}(E7WT
zZTacYqhHj%$>}*L#ZL~<EWR83_o3KRW${)2e+n98acLHcI!?Xzw!fi(zxrtP4u-`W
zGA<@)>4~dMPRT#X`~D%T25*Cu)(NXixy&0L+wNi5dAr%@{+;NHpvGgt1KW@TrjgBG
z3I#b86aO+<1orAB$E@eP{EItb<JRKKrnfSeua%13@1dIa=?nkUhilAcn8n(sx`ZsA
z-s0@cywE%Q2E(>cd4q*gdl@Wm*2{3Ib9_G1<i^laZDF+P;@5897Zdn6D+L&JcY>M@
zj;6cnHoj&#^?0k~twkJB=h@e+aMO2q`1@6qh}Y%U-xy{;Rqe}c_3sipDIA>p$TmlB
zxn7*~)_wCDVmgoU>U*wm&wX}r{|(SugNUiqcW{=gd@Pu@7BmEYpK*57|4_D#Q(Dec
z{QGQr_17-uXNUDC?%-uVayoayI{k-NcCEKwz*cv|bn?C16SvRP2ki)Lh-q`EK5>PS
zarxvu4A1lrd*?6~Pr9KU{w7FR)rQYbA$+rq${*E^myTv;M-Qx!&a3z?z_`=tlcM6;
ze;t>yk8Mpmeso@HKL73M4^_7{#M)NLb%$#(Z&|t|jXmEa_9g#3wZq>Mr<wT&e8~$*
zS$F0!Z-B7L6V?k~HAR-L=2P(6Vbss>VD{kU(J;IA%;;3x0}?Ol|9@sy2n;(hsr{3@
z*$%Tlclk=LSs&f}53DP8Yd82Pu(R>3%|4GEi;i4kp11Bm#ipl*tsdq%caCWu>ppWJ
zdj<0)(c{xrmLA`l_^VY-R1(yl5>>79S|Mla{-#5W(@p$mgSJ-<^P3<^Peb-9cJ8e@
zRSgvy+FpMmidF?(Qha+X^ms+R{=+Vz`wZPevcdD?p4z?%5PZVSw}8)rar3nfnPXP9
z+g;vd9&g^KQ^{1?FmZ!MbGfQ+;IH2M$M%|ik=zjd(Z1gBfoQX?*Zu>lT`no<`rEDt
zRxqslH-%k+eeMji%|^OGEkWk$pCxAQ`1zcjbN0JLVK<v)7Pm73dty?4JZC?kH)ZjY
z<r7j&vyMJdcd(eU<5#d;gQ1S<)JP|pPfxu;T<>Q|igJ>{EhqTiE#$wU68&+?1oeP`
zMYHVoN)-qk<5sBE++WL-6SY#?_i6AgTXTk$?_R%Ge;{C`!u2f8@@ay0Y5co~TY?WK
z8SP}~)hV<V*0sE)u~B$?=bFZKD-*>w`00kL-fojT*~QG^?e}WA4dZ0Cixw*bF86cD
zOtMReD&^}}{e1M=xtX&J9y2!-Y@GZ{v)n;-+R~%|)o!`7x1FbKsF}GkG0cf?QJ}&k
z%VYU(4D}nnp7!D0%`kh4VgNUb@UuHJooWw!OI_9$>9B0lqK*EiL~iY3@2I}<_R0qC
z4<8nssPPVN%5c4X-~8Rf29<E5iQhENDStjFvz&+3CT@~;(dSOjBFO_XM<SBe?T*ST
zX<e6l*zy;@P*|Yfn|pHJYmcvVuAa*;p?ETtp)&5&$E6&S373V=<O`Wh+-#tBvXn`#
zYG?O)b)g`iYqy=J7&uQl&0u7H!81M9<r41!CQrR$4Wr4cy&O9HEUQ4LXL#x<D~f*%
znzZ`VB=#9fb_vZ5DRJW4PImjcS=VZY{+zaN|Bao_4xd=A$jNiDOkB1$lr6dDzwUEJ
z#*@MY8D6y>cf(b0o!P}|p{S6_V7bpx-)v=G+^0L0GF}Z0OQvp6`^v<!q3P)ZuLva;
z6<!77iH56Zds%#E5N1(%JE{4})SVJr(iG)yF`N;Yuw}W-5}{^Esn@zIelx8ojsO4m
zy}jgzSKKGOE}g#8Kea+2H}S1OLjiyHwOU(7)z7x6^ZeghTsbz|rII1*?seV?v)h)4
zy8BElTb=fiaqGL+d=jm;+U|)CmJExRx_)wtmTQRm{&k8$)^+!#;mi3}?z=xB;PpN`
zhE*GnJoA^`u2d;LVduO5KVJsycy9Re$ktmIO{*Du9yC0^x^uy2*_D~SS6?hlzVq>8
zLGC%3zq|&2A1LweGW()%k(pcd#l9A8_x}u2jwgDpe)REWYIgE|2C;$z{s(mS$uds5
zwbDe*<bBL+WA}Py9jh+|9^ZQ8B5s>}QF@qUxQlVpQUxI+P1e{q`^rzr$`mkbD2FY7
zlNx$&X|F1O!2w={{yEFey;@>*bgowS^)#mvz4*D@MxB$EwVqt)^I&eVR2*Nwu|vr@
zhEFAGe4(yo`Pv~ft@esel-)UBUR8vTY1IwcM-9!rZ<*CP&fQeKEV}f}cM(qI9cg~~
zM;T`*T5V_8zl`VWBEI^6L5qsE*61fThTYt=>K%W$k0r;BosGxlz7aSh*RU#hUc;H1
zNzHyI7e2gkmC=PWbom{|<}?4*?3Z>$8?NQ5V0?2yE1SW2dRvWLo9{!r?R)w7T|v`F
z-g2thY@0G}q&hoY)hs`-XtUAs37;pmSeq11)K$8yRm~KZ=(Ftm1WkEOcPp6#`xy-C
zZiYoFKfJO=vfZom#g07LQ;&AVuRj~Aa(?lv%Cv&16Eth8{I2P=9WAYAUUIXb+jaHp
zg*P4vuaDPnJ6igm<%!vOXQy?OmFnJXVDAV_+MJT8@1_2*jKQlwJzMPXqh0&GEn0MD
zMI@IvT)i=Kjo{%&yXy63$`&Mv<_I;PePHveK|<Bc+t2It(dP8ikIH}4os>}Bw%msy
z#P)zQ|9fSjJK4reS}VU6@J%(y=33e1Udm*3Hk&=cMYWWX%Qtaai|O;=CT5Om3n8tQ
ztR7p|cKXkB?kUfEE`FfL>lIUumu6_G&{GXi8)or>NxMF2Ivt#2Dllc~seI={UG10r
zId6VZV6vWOaDNha-iea07w<EOcMJMXetKN-Bv0G>=3SsMXbIK7-aQp5CKoRp-o|e6
zAwVo4D9mxu(vvkBHm6_xzVP?e;{O{`<UZamO^6pW`|@5j=JSiKYc>0Wot}xQzw-$C
zaYTiGS;y~}Yb(E$AJADC^vElj^R%wPyM1P$k>3f{8842iaqKcHd~F*8S}N=6v}DN=
zjZKkxPn-UI-umpKz3P*?)FhkCNzzAGbbuzU-<GmXh+gp{U{;^rt&B7MiQDvV$E7p6
z2bFmTGH%Yxv^DzbTYZ<)Lv&ZD9D7x>rolVE>_fIP7vj?2DNbHwa5OIUz^h5p3JZQ|
z8m*ke`Cnv1n4xRMY;NDKZ}*(5H_p`lAytsi$jvxG-Sp|va|d2M+uL4Pc(;B+fk&xk
ze1?{tr?r-X-n!q`3Dab3XCDcwVcNTW9ajga(crOe<~0HT%7pBj(VMQ-)-v%-T9BBm
zdH>x){uQP1<qle@6Mi}CRV)-z=D7R2;q7Uj9oyRvZJjML_wk=1$Nqn;0jnebeP-|7
z)}uPd`<We|*3Vv7?WQ#?^O)trK?4FO6=Id1KW#eJ=(_OUmt7KIvH7CAWIXH`vcIUX
z8~{yNKDj4n)H!qGw)@BID;;}w{CY9Jdd8H{3Eb0GIvH)z<$URF`R*a_gk#4)Px-EM
zFy@x?h12_5BHuj>K6IwF=PA4Y%|)v3ds2JuSmbX?OJ!B*?&*HcURE$u%x=THjYoJ-
zt7Vrlg?X;LJn8zD@2?``H4>ZG+~lm#SSm23a}AfmmbRY_vYXP>6Q=v=J$myv+qfWR
zQ?|~=+j*PP+zz<}3O+kJ&nRutTM6$wSCTiSmGSQmo4#ohm;Rn33@1LnSifc_V~<x@
z+|Su^M($64t6ok|*p!xbGN)U}zIuXc|4Us-M&T>Br<5=mO%3UL9@4?_Y|iDSa+Y@a
zuX1@Fc<G7QPLZ(%AKNm&A=hJus{hXR%;krziZ<SvFVC=b!E7$|U3=Oygsfv<O<X<C
zXK(M+4W3PHncSITLKb%WT3%hWS3PrTYS_!8YR?PXr&|<FxNzn6oCfFkoLL=OY9CkJ
zn<Q9Jce84?@Pr$>s#eE)OqaO5zP8Zd`rrHf4tcLdUUv&iEloJRt)Bn7P1V`gQ$??+
zYRPlX6q^>3yzze6vZJ8E=M(#k<D~-`MQ{Aro3v-gvy1f;3OZWu?60vA65KJj*5Qr+
z#s<$*LN^{N*5yS1dL8y1q=|2aYU#<GJjdxa+f<JH6Jb6f6ewvg{oYy0N4nw0{30f|
znL@`r>kX%6-L)2Z<8LVBH9K9nD8$IMVe4Ubo7emPwKJ|?pm&{b^F_I@Q*4X*K<h2)
z*_Sv)Rc_pA(><&0&d<{d4`;dmpEBXL&CFLDy-sAM|10VN<w%3q9ii)XD|(BuZQ60|
z`m4q9?VFe;J#phmxPHU=?L5nN$nKg+VYy1Ky`i?hb(@R7UaV)(NlJF-O?$xnnmOtG
zV#X9F4yGrsg<BcwlKDX!8&rf2oN;hwb~-yZq)!N}ASmR~C0`-t)u1L|()q_se`Xa;
z<Sg*oV)0ei-nHn<%jOmto5z1P9g(|r!|LhO#s44IcTdWCZmW~RTrfk``-dc-s)WOi
zc5Tpz_ceAd54Ddg8jhaOwd({;<1P6mWyvFV`ozZexr;9BDEi{>z-J!Jv#rDPkV)+Q
zX%a`LF0N<V<fJmW!t03aZ>Ac~(B(GYC!BqMr?q}EU-~=7N$&M`4qGp{q*y2(GvPR6
z#k4=cVRJt@9?}w0Gn%Fm82pW|b?th8p=ElnCQG|ilw7<v$<sY3@I||7IHz^7Ue_{H
zUVo>EPqW<rU(bJ}zuuy3YPI{WC7!7PEcG|NBaVaC?%r7Px`S_V$6DL%lhziVUHo4m
zF(Ob<^Ey-5c5#QlLGv1Py&Q^Gd0x89V^O0CTDH3(yE|u+g4EP(#>##AiZ7?!w`bh+
z(xYmo?XQNz=J6_TR!sN3v2*qv4PloX#}8`%ecB|jdb+-YUSq=E7!@z}YtzHGow9p<
zo?l2Ub4!x2O15*>O~yBjUq7*)c#>VR(fiuA$8$Gby`lW-DQm@x#~M|Ux4f23T3V-{
z=(M-S^Mv7|HLCfM+?r+##;=~TN-XJZ=~~cq$9c}0hs<JEPET){<L@cOt0<l;T#zc)
zx?|;x3x5TInwPBYx_s-#*{%G)PubWpG=H-2QMGDoNGaBB-)Gcsen3O@`INN}>Q*+n
z9M^Bq{``aC$@)or&E7U$FQ)awj@)UL>vKO^k}KzBEmS1`_r1SE>bqqN)_HLpt<Z1y
zcsgi~BxmI_3&~krHy+Px;nX<S)8Z52q{DefHD=<v3;WGLE24xqykhoFc3Qf4^{r)}
z#5uVG=G?SBlf+fbr+znyPhTi(frT~W>@SN`s<yRF$lcN2)WGZWXcyDt)jrxMPbj_8
zVG%M5XI*3WOZve>R+g((iM$+KatiMrGEDx#BGVou^gS%&U*^6mcbMiR2+ePZZIe-Z
zyC#iq{}TqtV61oEtBdKfOG6j2a|o@o`}KU`lMQz|H4d6)Z`seFX3*K&QZuphN$bz&
zO)+2I`&WLwcwe>0NUBk{{f}z%Tw8}J8yY-wrk#1yl=4?ww7Bu7rd<N-<QrZ$p4h&z
zS}mZqey`5X#!0KRH~SvjHP47$t=s6dzJvK8OKXjl!T~1(Pxf$MI({ed(gf+|xy)0p
zaNa2SG~aB&rO&DEfA=x?1q888kTiWMXC&+|p8r63!QY@Djs;83$cgFBf953jEc%tS
zkkR?IfkA2f?S5sFUMklbUf*N)S+ImBA?)@3tR==w{=4~SIC{=hy{@2ddc8Vudck+T
zr|}FC4xTq{c@9}`ciY9QG3mSNngvVFOj;_s=--2~Eg|{(+w>EeRZE%tI78R^)n7V&
z^|muhOpkC-eZ+P1DAoDyH@Q@|WaljsU_3ruH`<o5G)t*6$XTzf)u4O2hL8C5zp@jo
z(><JeckpYhDP`1O_uG1b!F(UdU7mTaA3!TacDxguu;;?cx~`h4<n#%7KH}GHncNhE
z&R7W~7yig)NYjWmZIBU4SR5<8A>qiX{ZE)uSF0xoG(Ao}nR}|*V)piw9iU+|`~T10
z<nHa5z2o?EmL)gWT6_NA0@`K}s&Ou?qIKu*GNT8Xg?H^$pV%=J9cce?w(@hp75_@6
zbpe?n2VMlRKUlb8ei3_464T_ziv`a;lH>B&0n!~?rI~Rum~s0nnMnnAkF!7cad2jm
zUVr4w54HzXj$I0NdUxm4EqniM-^AuKPrvm4^>%+DzTTW|%jEV(YcqWZt<|wrU1D?Z
zLcq#t6-U-qpQ!z^|0%!sI?qoUMy5K-{Li@+HcQy5#(0J;>J~n*BlOn6H9q$L>%1yv
z6bHWEI9o;h*tsR2PN-_z|NpV2-C2E#cO+Blf$b$;m(Dz{|JQ!FwsfUC7pI3o@5|=T
zXHAQZAIy3E^!hWl8LrbmJPxp1GGWghjqFA9=c~T?m6OWZlf38x`;{|~g*T|ZY<nyg
z`6{8{^1%<cQr1q`!z_0`RDA96#k!j=apilg=n*bIpdq{Vi*7h)+LsO6pR8JcmO0>4
zRY;?v_qqwEzA(<-XJ&ptL3q*6rPE%VDA24G*wCH*jU~mqQRu4cVr9^wN(<MYWuCz6
z$Je9Im&UOB0rvxu$v>DACiwTM2g)^^O>JUwnCJfgIP(Ybq{7L3QhI&MH?_Qct9a+I
zX@A`5u-Cs{bXPFi95wzRcgV#5e{|gE7xNopB2M==FPZe{#;<ADZGKrV*z~VR@ut@0
zTf4x`&;XHIp{FjQlV(@1_&LQ|Ve93S+s}mbhX_vDW9!0c`B}oA;gg1U(ELBatNqLw
zcD~cDWq9%{yYC>|v<>-8efrUFYnb?I6Piu@iyR-zJ%~K3r1sHOA#7Jj&*u3)4c5uK
zm7llrbYJB3Sn|}_cY@NEnbD$;-w6Kuqmg)}N}A6;Skk^=^N)sf)6=pOxQ}b>6kQ^r
z&ks6QD|BuVdyiAf@lHw0DPiAKLgp5+^UMn37m8b`r*h)r?}o3ZH%aI^RPDR6cdAj{
zr!~jK6gEjn9+=qtYKp@0H*#F>6gNpoI^^w$s+u{g?M|M>o_6M0*I)f|-O7G*vKCK7
z&XT*2n|m|Qg0|WVOt;^AlC}4)*tM!HGY!E_^(BhG4=>igbaU357mLIXaGcFne~|Qc
zLAG+k#ia*Yox%G^*SXGhUuP6LYY8u>@t3eGQ(HYQ<(*NTeyQ3z=kE05rSg{_?b^@m
z#;U?Pf63un=QO@VTu6?J`R>oDy7EH3L8o&0%H_HT*!GI5CtT}f^L-_7`eE9QgAQ`n
zYkj(3|J(WGj;i?4d9^D&3co2mY`Dj@IptaYf**-j+g?0mT-5UU^tZ4%4USs+7JH1A
zEH=n}t0-Apl3VAcTR2yIfm^#}V8oW|&wuCd%s&5E*5FmlW-Z%vm;D=@8>M%8J%8@b
zX_@9{8E8~=T4d2pUWd1pdl>%-l`e9;s8_m5>4TlE#guin{r;S(1u4R6^SnI&uf5*(
zrgwkce~uHq;jV4kp}9wXar_WxFss-YZNZp2D`#5y1S_s~b;Wr_?c&vpLd8bKp{j<h
zE4^*2-z(}>9_Y?xXg_B>+221|K)OLV?v3z-EOX}c(>vrB@aX*g>R-uHvGJ@N->=Kg
zP7ja2J7n}@Z;SGw?z@k6J~3`Rxu@9i&$M9u>Nkd&Dis_353Jy^*)`qtUXN<OSF88Z
zy1EGy&X`Z!aOrdCW8F<pn8iR!YTn#T;GC)Qb;k|Krd@K?K2oA_Ih)&MIBgiLkJip?
zO!q&;rvHuU50}?ZiPTMQXPrX#D<-y!-)89gZaLNX?S;#k{)ZT!HtEi75Bl+Qk=%zP
z?M7Y4T^p{utzB=OAf~06RC@WknnQno_CY_;CKXrJE0HEgw!M;?!y&OS<^#(br-g?;
z?{8)(;}_sdUG?>AOcCFr=|3;7m8!cp!N7Uv0$UNkyim={t4#KudmZn_$-TvCOO4l!
zsq(X#oqR66ZjF2}CH?QFwF2r17rSGpC?wr^wK4X4*|w)P_ZTfVdUwTH9-H{|68oDA
zT!{>?r`*vnPY_+S>buGj+nBmj@iMA;+M8U&qt9ACOOyN|_e<>~XhlSdee26;*Vm~V
za&2CBpFU7uH^HD&+##g;Oz6_)Rb~v+=NB>e2o*nIS$IL|phNog2WPV7{sucqJ~Ugx
z(fV%T*?apuX6(<ozv8B|-x&dg&+=?4vQ>;a7tE`e#0*<!-Y7OmkgWDzcfmYMWs1z-
z!d-uATvsOEV#xWSdtKNdL;mlIN1m=Tc%O?_81G#8cba&@C8a%;pSpZD@bAq^Klkz9
zABDtAoDI$uxm}>SEcLq6Zin=CR_ZAz$4z{qEBWoilU>uTZft9ki0tSM|14!`=Wytm
z=;No8U;ks&nDW5)*9(5m=U*5SPpV)4%ez5ix!y-1Zv)+&ubyBPCnmS<=t}kYU-S`l
z2#tRwlhIkt&|t%(k^4$he+gaFkG892Qk!Y(TxEIM_DGw!e1N37oebA>2|?KohDQPs
z@*C=JetIc9VHNwNTV|V{BssI_H!use`ilP0pVB-jO0_KYMbhr#10Uu5JVfR-_}=Z(
z^Gn`2yEv{h(2r55m2HCj=Ot@z-TAifvcTNn7MF#LYi^x6otQ55pJig%dZS)xY2QU3
zSeD4trZ{X9p7}m|`Qcg3SJVP4nEZZT+2OIzIKijdTW^9!$btA7!Qo$wg8KueNbF&d
z-{7?9g2#!4m)2Ze#uBk7ySaf^sC9YE6t=jmkafN<svBg5TGLL(SRUT0#Py==m-2%K
zmxWUc*1cPN>idS}ww&rJT>b}C{;UsCUc|hr$@+oZyF|VN-?wsY@6VrkfB%x58cJsx
zIWMmBJNfbSr`ov<uDkme`IIeGbv|^fHn%9M>L;JXmWJhpY(@8kuGuB9?bGMpv8<x(
z<rn?4lLfwSsEORC&wN6ZTjY4&q{*)eUmrd9_4KFOna-V2?9taBGptRtQ}|RX>9Eap
z^R&R}O|4t?8%}&rWw^eOLw8bHS?-&M4Eyw%Z-gIf*VI`t?Q*mcQ<8jbwBR{WiTRHL
zpK1p8`M*BB`uMr+cE5xTJmqae-HM`5PT2OizhOiBcDpKNMd2mJA9sK0-?oFjqxOrN
z)66|)E$b$@Mc<kxQ=S#E@9V|yqV_tgf_Gh5DKF$#eu(>>;<t;^2UZ$Kw?=IA4!`5>
z5M%W1;{1ltNq<u;3(g9CZFpa@?OC+^U(OpXr)L`3eW?j_ZM!YoQw=uU@7L#!7M<mL
zOdAyL|9bIOuC225U8fl5l@<IQwO`8kx9YoA9X#HfaE*1(*NgKTA|r%usOarU+5c9S
zQJKZ?S66{q?iu@>**fC0(;I8@3*utFb9n5%Kk3W#MK($WpUzlLF>n?*?4hCc;6hob
z*5ym{EXxb;-e+8T#mH;Z)RpIKUUR>Dc(k-WzG&{G_-A@5uU;^HlZZdW=GY@#@ZwF@
z+r3MLltFc)Y?FlggDH}&A%Z3;{0AB9BR@4Lv@!BT{lC?I=kPsH(pl{k<fRw>p0Bnl
z%EIvZq75JXB;P#*ZIbYszU!JmFz@pln>K=)o(9=7!zMJ=9+~!FR~p9-EtUB~T9tO@
zdnVMCb<R%U2dl`uT|Fg{@5_N}YqKwhwLalB(3<b@>tJj6nFVh=I~rCyePWDQJY|9R
z%8MV3-^-p_HDM1UTW9iRO?5_}cUv6~@O{0(HsLj|r_tLm{dMMD-wQ%L>=>3Rb*%Wd
zL{-Ug3HSiN(EeP8rTPxXA6%UDSxn*l;{U%D6<70W9uq#ssT6UCd5Qkh_w6n5Ru<FW
z9Nt`<_&UJC{r~Y`r&TPoKD`vJJmz)hlIGvE+L>S6MVcq?miRn3`3~>QZ?nIaGHz24
z^m|seD5<hTXQ$w~y3PC6<*=%6=S$8k3k<8x)?(St{qLvX2L0l^i3yHeCn1`2Bi+`R
z?KLxLs`5VsGQ;RGOKQy)Y0YNMN6h!utY`IjRh$()H*WR@)rUJG<GClC_|J5^J#xB?
z;+^NrZXVm#ZQB{&;TP)^YNIk?T23+JUGHtrrY_#kTsHHl>vgr$yKk&{%Fv*Z*p{-I
zaZOZ_<d>@lBR%XA8dFv?&as-D{USzlfgl^W?_bY;rORa3jbFDMPJD57dXi??@aDsX
z#{tv)ZcY}cmiv7wtR!*nvlnx=?Z17{LGNR=+>Or}j8kowX}k|-IwZ3`tYvj-ecglr
z_Lpf-uPwdY#(s@;Nyp9k@{F_3ElB)5;hl0#Ra_;{^ffc)xo=L%T(8_5+~5q_NpWP}
zap4J3LakrAo{Q>Vu3!e8VR1ln?JbrYE_2;B<o;0=e^F^7RP>bR^SQNlnxHdvH#;4z
zh`-tOt6B1TIM1|GD|8oFFX-AU8Eja`B=%AvM(4$vznhpls&9nfdB%5R(jEJgoF#Mo
zJ~3G=NV>ydG@m#0m0BR{<-R#(?KOq<%_}AB8Tmy8j!27MTG;qAHT=*a%U}2H8Rscp
zR^rz^^Q4NgCw^PfAC{h=BF|~rliS5sMaD4*hx9}rP@I;1@#fmAa~J(kXGmKi!S1m0
zMv$aQ;iIY5{5#JanpGTrO=qQ)Zr0<F*{5RSudpBJdN#-RaO&D(jay6QK-Vj@J-ah?
zG8fm4nRO3$v|r1pXMB@!F1F!N;MJuO^D-tbWAA7;x-e(=G@XT7QWBc38b{UE#H-B7
zIH!AH(NXo#oa`!@oEb;idl=8|<POLX?=s;pWZRU_=w|X<EMZ!8xyOv_J8tb$Ph^Ul
zSemH$S>kD6hHr;bm+H&hd);S`nzV&KVUd~iEg{&YQz@sh{PPr%`?u!Ht1PjS<_s;&
z`F-Pb+SgCq39NAwg(t8r;Z)FGJw=uGlc2ym#pf^n7qTyLQRI(U5;-%<;o_-zEq_mc
z>XP7G9u<3M>dAPYn@lqC)54!jG03{3=CxAwrrEXlI>tE%w38TqOFcE4x+0}Y=+M@O
zGN5g{YmWGOwY!|D*p_y3`h;uA6|Ou9^H&8gdltIpTJ=N&#`PVHPi7j61g>)Szj@o4
z<xEEMdKO=CKZP#&qPIa47yT5z@OjA&mjkzMaBrB~XCD44=!opP-sfQ-47%patK<Y3
zA9t&spd>OosGczgbiDX#!}*#ASM=Pni$D80c*e{-Abs=R9<x#Cm1CE-ubEh|pf^|L
zieLRYIfZW$3d~;^)o<MpPq^~4%Cob0f&I~VqvtPrduwB7uj2g~bHn%6`uy10M@!dl
zJL|P)!qW?1ZJ%^LwUW+c43jr#?9FAE-1jRtr@&3}=WjuQZv~*@R`c=YtBdtxZu5bL
zXjpUJ2v7JHpz=hc@KVJicL$p(TxQ=mBbEp?pV_G+zWer>$K5TwAT?SlTaR>vIC?!=
zmCI1JVWa<ns})!IYjwWHpY-FcW|T=tmOc=<^m>o<r^{<QKc(`k-?*WkFvU<^Br-{D
zg;L|m_wN<IU;MxS|IdQlib+Pce|>J4OjLfM_^`h2_xI@xucGUi|NQ@b{{OGH@&A{|
P|Chg7l3D%ZI3oi999?NK

literal 0
HcmV?d00001

diff --git a/modules/mol/alg/tests/testfiles/P84080_model_03.cif.gz b/modules/mol/alg/tests/testfiles/P84080_model_03.cif.gz
new file mode 100644
index 0000000000000000000000000000000000000000..05dce44fa6ced7563510d47c51520ecaa0c41763
GIT binary patch
literal 44891
zcmb2|=HMuww=|i7Il#iiz``ItH$NpcC*HtVFF7-f;p$)C=_=bN>UN#`sh#wZ=ictu
zTF!m>75-IAUAmqGPF&;>_cho*OSD^aQ=Yi?>eXG7D(e1j&TZJu%yz)|PN|xDwD(%B
z{+=6|3_Ra<zHJwmkF)vz?ey;b|Ng$6|G2*Xi~WoLarSomYX4pQ+-@!(SNr4ZuUG9~
z>+61eeS7#<|91PD|L33E+w7_T`R?j%{`GSAYnJFu-`>Bz{_oF+cU$Y%O+W4atElqx
zk7s$cvg`l$f0e#hU-A9)Y5w!^d;Wh-|2ON?{g=`6E}#DX!{FD4{&}{``!8Qr-}C3?
z!{^WS<?HKC@8AEod*VI&#qocC+`N06o$1Hn!%x4iHvj+i)!Bae%j$RPKi~XtaeI8P
ze64NOm*4yAtgF7<RR6Iyf8Q?sI3IiY+HW~OV&~ibu0PiQ&#V6y`<EA=_1g^gReXE-
z;^Joi_WNIR{*>4Ld|AHOJ-*)V&${*de_noZar^u_<Ek%rpFeiL&m;bH_kO<m*ZSYj
zyY+9o`}NV`$LG)A-~a1F!QYQ}AM5AOum5}U{VDN{Pq)=4p0-^+_xIn&uRlG#uD`Fo
zV(!1#{r2`1e;59?Dl7ai{z7{f|2F2!HdX&W+<#PRx97`qoBFTMY-_Lc^FKX&e}BdI
zhi5<6Z`1#KYu}gsr>4ur@B8!gZMV7p>hBlJ_te+?`|<AQ;rjodUcG-hS$u!ZkCn~6
z@$df3)P6Rf^Zo1R`E@^kF8=-g-<MQ7?<ETR9{o?bdU$tnpscv)&!gRQ*ByLW*>~*a
zNngcByyc&-{^GP((|Y|p;e~7Ry3Ly|yXfD@@GbbFc)e53Cw%%nn@r)gU3$;X$A1lJ
z?Amhm{Y(4ryH{{b3CdgcKJ=Q^;w{M`AElOg#4lbHI9WNyVd;8BhWa_rI?Crer3$U8
zjhy-ORm_t0LBTVwE}4@a@-VB3Q7b!L{Oy~_5G$6dv#%C-PTFkS+Ew@3|IhrpqAC%S
z166e7)!)C}vZ&}N)2oK^TdO<2tO`4pZG5wUYpVCAUw1FBP_w_>KR@?M*z?+_Yma`n
zNLCl$<EOpCG~lI#vhG^@)>G;s^KBco;?^>)T2V76GdndTEr`K%cjmIz#o=d5mfH4-
zhGg|^+4uaLsOOBl?tJ@7rqCT$apJdP9N1UhS;@Iu_LH&NkxH*kv(}Y(aPI3@j97i{
z?dlmRUtij3addC9RJ>p;t0yiobyrs0HG!lJ2Q96dXWcW8WD;fCJ9Wa`$yas0h(@bO
zud2KozGdOI+^OHD?$0`W|H;*q7^|6E*3W6(WpM20%_+Z6?Ot+c1G96AZPWSp3xXzJ
z2#*b6IpwnEYR)5`w;7UCRex?wn^B`uyR35i#JmMtTUbnGnK&M^XsLd=>JawPYgh3+
zS>46kPv>n9f2)%nX#d)?a(<tJ$iA?aQ`YP6YKBC;SiNrz$CQP!qHFj|c5yhkrHbf_
zF+LJz|I^aQnvr}ZaIQ;g%f45qyVl8=KUU718?%I&J)q=qWpirpk_hG8Z+q6KX&442
z7)sSW=L`vZv6@k<w72Buh3~r;Y&7x=Su&+y*_=bFi_?zp)^aeM;J5f}T1@3*8HcH*
zzt#O0G_jb}Zr*rd+Me5<VPPAy%&$qTZQh)@**g5Oed8(hvmagxuXq!h80%q@qjqG^
z`d8T=pG{YohRynC?epx-J}%F&|36u@+;7_^?3VVIN|<`}NS9-!^9q~!j!vwz)4xr=
z=r~cxvQ<khvUc4(r>7+|!spt4*1tbd%7g3ns+-#Kmzb*NaQEI$vsx{=Der&G`^BHG
zyLEq-EIGQ<=Nqr5_93yu?`9tsIk(`_<Q;`K6k`G(ew?bGF7wIqi09?)8}FXpU=ztU
zLE$CqB^kqPw&z;EO%^Ie7~XCEVm&LT$FjbTf2xqVpZL|I7pA%&yXR8T^F3<io`#8{
zVmI~rw#_;9ZK~<6VmAJTmmVFv>9}-5gi7Vq+`vsz>&nt>Unxm0IkqI)Ac0xSb-LwD
z_HQCu%6W4XwYEKdac1JFk~fb9)DCkMmu+Y}={EoJHYMdXj~~l8r5^1yc5r>hSXQ0+
zH8FnaXSZt_Yp<o$mKE;0cSJEHa(n%<c`iqnF(fuSpV(A%-E*^0Y02xOH!Y^;uzhNI
z;X5s_D291?fNt6Dd(KC<&(`MAoNZP;<L8FUp3C1(eIxx%&FgI)SLn63^KBHhCv|^u
zSJbJ9c@sF<(8f`D@=ZTKErW@&f+uROE)Q^BxZc8R>%t(<uz7F1Yvd}IR{4Fqde?<r
z;luR`?)=co*)F0nYa_*VyQYekS=;Sz&l3B!s+()mtjLHPvDcQ}wL5t5!TOI&W~wz!
zE3>xzyk)(}&a9KC?fOpnIK}e@Ow>&+ymyl8!jn6j_bHt{&?i3g)01lxs*0xHwK&We
z;sr{1x87~I?LC|E{<0rMCMicJ{HaM{wv@7P7TzhdaNBym1(!g^{LF56DEClc)tdD$
zUO#(sQT$g|-0YkAS5hubKGeHBKr&I0Kfv{dj?%dW>nw8DM87n<R26xUbCz%9uA?uf
zaV-ysTqyY~eS%F=O!Jnq;*yk8OR6_iTPJU4wBLF4+^e55tB&SfuU^5Rt;G<~IAynS
zah&7v?-xV_rYK%Ee(P|0U+XN-M$7WN?Z5AGsQ7g4xt+P%|AOZlsn1-K^m%pD9!_-I
zm2k;=@rI@0As<#OEcO)sU6S<C(KaN}oN4ExODUdJf}x8=RW^%k@GzV(@ys@b59M!H
zJFj?@$6~aYNn_4_hakn=qj7RG&xT*(^xS@Y%Y7p)!IxHzS@(J!^j7f5IzFs6(m8+M
zg}u=vhv()#CF5ED7&hIV8uUy=%lfUG!gbLlwkC<&r85{8Ki;(d$F{465#P4__z@F&
z!1`po!NK$IM6|X_H^!v6ns1yOxcA_`qLh<7=N`OW@g<L?XyQ~i4iWjR^!$^YXTK}#
z6#F5!>1UJL=Ob#&^-q?{Ii!{;PmmOC?Ap`n8GC7}xcYRLR9orKd0|f;O#FD<Zr1Uq
zK2eEGTYk!DX@3!2e#9&!?J5sfVxa%F9iAWOZ@GQ5T(!D&%8Krr@;!_bD}NQe4cWSW
zlBrqbC4IFIe;dxfUs&W6|8{}Vj%blc{nL^yx-Wj5-@YUNhIfmQBZHBU(d$yl{Z<X9
zxNEPvy6&E9$C2&2TT6wLAw;ygL-GDOzZ;j-16UWX-?btmp0znTr|scPKe4(yrV%o}
z=E5<zJUBz{d)u~Xan)X(F1m*KY}oQ`my^CahV?#oeYd4Yd%lAycYVQz^#U`N>bkJ^
zhAesZTkiI$CCN)quKjSiNh>6AtMQ6EDt``6Tr)*jvVG6(?I)@lbX~0{gxH=DZRc>A
zYG~Qu#d-DsE4#GT?pNOqWT$R5v%7EcP|A|qahC1Thp~RX5e-U)mr4V&E?P#eJ9T-h
zZ}*!|&%XzpjL8xgeOs0jcjs`5ltSCl{Qhvh6CvxBf>dh$3$IAg+uF^wVM~*@%tRg@
z&AQTslVAGmjp`8D*lei%yky0ieatIT^h&oh1uvbI<mRf)5^3q*wqn~H)`qL%+R?vQ
zw6?#$xO-0L<t<Tsr(#`$e5R!?T@Za!{*2?=HMjdS0<XJ2{ciiKrOP0b??-zl&y*)S
zFG!mNnJEdoZJIRkr|^nH``q_03X=J^qQrV})3N2;(b7xiMQp6>6D|LCl`*97{^Ij1
z4w)A8Is|;lEU{Pr&826%J1F{@bl7}ByIY(gpFz5vnEJ{Dm`+^INtz~_Q(;xh()BIu
z9KTcWSw}&$U%yTr-zhnDzTR%R+Iw#sMAQDc1o^z&5-XC)XqR_x;^)UAd&-xvt1r~`
zTM+bHu6Ekg?BY9|*Vb6_Iy5P2U){)8SQD1+{cYpQx8H6DzO3!9n<%Q;)-a=|^VZKT
z%?w&6WNZUoI=Y@>3~_t*BJltAg`c#wxbOOHTdpo$YbH6>iD!C_*r(;OT{?%4&-`uq
zD{jug?}3ps7r$TFl;*$_qL^y5-1f{09_d;Yog$CqzAF=EKTdz5s~&ybSjORLO5Z+x
z?O$rloH>^7R91Ix&U^Co3`d#4l9~Bp;t$S*m>p&eiF@{9_a>#_8E?O-MywW(Jp0D?
zNx|au5UzdpxzeJ0SL;5x9mqO!vHaWB$7U}qk1%>}t6t=>J1t*n0z<6mYMVx_Q!;-G
zwx55aGQnAD=b~oEqpKKB7yLMT_~bXii|(am@lR)*S+)L`w#2$^SHrvdW`9xJ5yWk|
zLdma4CUl08)?WS9k~8xKCpT_*5%tV__MMjpzVgIOX6<g@7d8FnQs)&*?w(`4AiZir
z%F~ypo*popnNu>o<>;iBu36XQqt31>QrIOV;=cRCPuq}7dG8lHDXl9}_i<ZlVejE!
z>Ag-^Bt6vrTDi4W=JxVH#%XCkFW2>_94!9AJdNje(9Sje`RSV~6BbOm^u5jZVDO41
zckMv6nRQFb9aq_qTW^JBeyv<}re)2t24jcm6C6{%i)ckMTShsC?$-Om=KPy0>I}>5
zoF_{pZLURCZ+qhZPFpfxe8r<Cu9J2vayA|DT{l@VQj%}A>!r{o7Yf-tw!42?lwPI!
zX=>!1bGi5W?Dw~O9lPzmqDQDyO}rxR)}}Q**Qd2SF0K>aXB_KnbgzzKYR~raz{L2%
zjSqvKOe}F|xf>&6J~c00<#<udzEyp84PM7?|K7Cd>^kZEM?w?&pG$RjxEN;#8tJXs
zv9W(~m(jg@?ylwDSLSRiOuPJ6WzC87gw?B^I~(0*9MoN1%XL-QaAxJr@O$E>YbKxE
z)U_#2xGQnT`b(|B*F;{{`3BY~sTr@2nj-V)(3FGHHR?fA)}{0B_Md$F)grsrSDiD?
z>{+vbJL;Z=ID6zru1RvL7iJk|PMI_LLC^f4y3Z`D)RT;~SNY|>ZQUXvt?SKl+F%t&
zde6D};hS%SZ(p31WR&qEGH_<*M#&e+0&kX7w=bDsqaWo|6!CLUWd4JRAGzFiac;bC
zTWMRRm;e0QB*VYA`fnUb*|p+OY1;kE7r*g75q@Uuq4Z_rs{M~*Hncugf1Sd&Fe}L@
zHe@Hy&Ysgrj4$Ur%s#bd>D(gLMarLNY<XuHX=*rAZq<{e)0T;>7u|U-rzEoIkIh@_
z`2m)Fjg!@k-Ta>im>SNsTlI5Ql>GBYn?J8nzm#m4TJbpayz7s&`%ZETX3d^)hU4m!
zS6Zztr#?*;=G1CBGd)Dr=zdJ9q0`nQDP@6@n<8&GUFW-%VcE<f@2Pt%)BAxscWGH@
z%5MfO-A&V!LyTWH%#qsY8CJrU)5X0!%XE6cL3{1$^?nOZ8P5D)!xb9L-W$K~)&Xhj
z3uTKpCkU@ftou+FVl@5K-!5sbtyyf6fjd6*KK?m-n^nSUx60?g*ze~2{9Fw#al0P#
zteG94_^RZS8pqW1s}9$uF0WPzm5QwW+A*!o!L0eyM-i==-fvH9O_&@mw`NPzHz^CQ
zelab1kw-_bZMkcp9&j?|6-TJLJHP2E(+N+`Ocq}+z`faEX`qyhXQ#r`(md8wz0xh~
zV}v8ycg@;)yd|tFq|H^XH6T(?y!XRqFZt&Jt8%ul-+9GOOK(#G^ZC{Xz5cTl51jXR
z%b&rq{!wh}Znac{RUA(kLsS?hddt2mi_|=_i7Q6n(Sv8~%(}@ZpE()mzPj>v#rcJk
z%62;}760v}d~V~Co}hTGp0>z}FBxuu%=ay)h&`J0_|4);W!3Uicl*h_Qnt3d;5%vc
zp`3N~vtGIyEwfN_mOlMJipy%&&T~vM4ytdz>1nlzGIpCd^Hh2L?)oOc{!rbddeMpp
zlUhu#UOUPeaw$)Kfzs6@j=cS|mI(y=v~3H}s!+SEEit<$Txi;Jr<u#-pEGDlPJX#w
zA#>SIo|9|twd^Upq_{@;vwFbK+Or!Lz6x2gVD&`qiQB6JUwjMvdzCRHG2U25yW^9%
z_G0;OUhxOq<R|67IWM4f+-l9mMePA6e|_8a>fVf}JbYR&f^v16K6t5~Z(q~)?k$gZ
zn%`G#3y!ege}3AAY}!}b!euI)y)kavuaK<VbvkNHtp?v;EtzS&V%okdwULEoC%NU>
zMLXU+x)6RL*2n6QT8QA$;wR?TGZwuP(b{^uKX^gbs(0_zf*4nNwr^pxePryA9#CdE
z*Fp95ZFg-CwcmS08)xlls4+iWVEAEP@R!4imt22!^JLCEzEkpQ(EWAaQd3=Lx;wSb
zwGZ7pt>8s!{9DeDu#C2SYiufwKgsQJUKv^>U?X1i+=lO=+|$B5x2;#U+iPmOoXBKN
zU!A;8)9I)_yF%bj;XSj8+stD;i|+EgKf5Aj&)#zvrFTc2IOb97dSC3OOaHVOhfV1w
z`QJQ0d9R5wnR?su(}@#CPjt4vye6Wl`uJ^Z$jLX_(yc$<UcPk1TTM&q_+;H3e+7;N
zg|P>mtf-C;JJIYA<~o(Vw%5x}$#Nazg9Var{I<Vg3;~sQrju*cU-?w*ZWmek@r9U?
zUgU{|_l3(@rcV3#O;797i_+!GI(S0tnx8Da<emBd(kjdA??El0w_)$s{64i}bx~40
zqt@(2U2hzse2+#t-#NFV&?EXnXvSI1kf@9{JFUZ^dW-zp^5z^VS{%shq{esq?UuVW
z^PfIr(Apfmck`l4;p<=jDtLCrgEw@E{YxDmwc9);p@%0V{t{a24=SJP*RI*OHmp~F
z&L%&0!7nm@7_FUq3f|pNEZM8Y-C>q_k>gjBrq2BP&R375RIOm}zIIgA-*~B-N1w*=
zbnmt^&o=2A&vCkXBxTnor^>RI7hW%sh`F?IR*t4on#Jzsd*AZjUs4S5^;xE^ea<i9
z#@r{>S(87V%c$_vT<#kmo3leH!+BRypGHL3a!^s%xJK)h{M1!C>q`D~Z_p@;6N@}u
zH|HV8s>m0s1+^*`DV<v&w3ERyZi&{3XHIgLj?L}+Iy+FecIE1QQg6!Y=Q3MIwym>F
zo;GjCk#h|;GmHgAH%@z_ZQ{5+Myx$RbK!co-(A(a9z303Y5qKFXWah<xs}uW7DPRI
zyL(ep_vMwF6wK%Arfm9oVwQo-`?8GYw!HZhW1n%n;|%eBe`(#Cfb#)@+n<PTnKn11
zY9`<2&oyk%vlHYPPM#{|2;Fx3x{ibV)YrFp&MmWckq%mNF)gyyh(X+cVUcHi?Y@4l
zuM7)2yC-dkh&?MeZ@y#C)yyj~XJx0&c3vU1d+)g!YfLBTdF_^UyMIPJ?@CFg`}sM3
z*91eZuXW}-IlDpS<i)2e8eU#owQ`yM*8Wq^R>ZAidr;M8-P<Hk7WLrAg-JhMY?v3X
zpT5|>Vb#Xl)hi+*CfRbvi0xQ$v!Hwd3ujMOQ&L9hZ^e+_yLL{g8(Jpj*t2v;_8VND
zGDYFwr$yE8ELJVk-@3oa!_c|i%BpG22E7`~^JdpI7SyOkxTUsVy~rM5T2?JCs`Y1~
zEAQRoR?GUnT34*hi5J~F?ah-1YVlFi&z;QLc>8<cL@D!*&Mes%V&`_xjeD}`|0Sob
zE6yKZRrcyO|AI-iE1PRu&x`E!?ub8|D#c#tyzQ6E+f$q&W%h?>2dw;g%Pq<?Y*w_5
znpM`l_Aj<6Un46zyLwcfF57hc3B#(t_f&<$ypMf6bVPH~{xgP8tiLd?e6n?dmU@KZ
z+tq^h&itX<*@ARyS1x|x9#JE6c)p~LlfumJ%x5a@{C#?HYq!o%)un1|H$O11_*Ok#
zEJV<Jo<+06(-}XUojWCu@46dzxZ~g(kR?k~S$F<u-YneeUf&+I@sjVEe+dtqvW{C$
znGDis7ODBte92tV)TNWJY8b6p)BSkGwS8CA%dB&ClC|y&&tUp&e4((|b8`HR#o;kA
zt3~6TUWsUx-t4W@S)r84$h>>Hj-*5|=hU<%8|KQ&S{$7zxy5SInl)GXD)o!GuGYQ3
zw5jRM(?rJHXE#p#&ML}DNL<a@cfruz@XpOg$Lt!tzUgu5?%FU<iS1;T#wA|c-A5-C
z`lY=~G+v;2ZsCdL=PoL5QdzWOS@h9WbKb<hT6F2b+1^8W`%ll}OxeITEq;?^&1L0c
zrm1gYr50vYcSI(#3SK|l``9vQiu1dNB3d_hUx|0zQsdm)<R}&TRq_4m2{J6ZW}K9N
zETI?hGVbqH#gI+qnJTM0QY<9jtL;1@zU?;eayF$Elbif6THiTWtN)b)WQ1$#2^$Ch
znOqO17-`LS{Ip3($M?Q-wD!{%%qId0pIhuJ^IJIU``UdyT}PTExGTf$d{$c9Sy~1e
zUr3V=`6K7J^~=(}HT!zF%632Xd6(j}YI{m_$nporUB21ewW*AsnV0)kF(m8$tLQRo
zC!<n%t7>6gaqUNo7G8f|$}#oc_FvDw9(!oJ$D*Y;j7M)N<2EmKm#&yK`Da|Wm+x5Y
zyFD$sa&!LIv)yMeeDj@<v>|4x(cv`58}mP(TT)Ov-}WVg)^3n&n#almkIwo2>RPSi
zv?24Lo~D}d*B`F@3yXe--QU*K_<31s>6f|cS5NJAE|A&t^zOSW3fu)8Q}1v8_3UWg
zcA0C%Dk58p?iSA%Dyw!W41Tw4fojOHX@XZk{lBZ`>nG-(I}{R{*s^Nv85LP8{)%n<
z3%Y)X-S0Y8@X>GA`=XGye6f0)&T~aJFuI>&4Een8>h`kY72CSRerp|_(7n#-$b_3m
z7nG)%-85ctVfwGDJG@VbO?@JklHbOcki_uV_=N9+P}QBzdYjYy;sTczq~83Uxcllw
ztrd6m7WQymFIHdmY~94o7jOJ`JNsb;=M|mvM>#_#JudH9_3{wg)!Nmrg6mRWrF_cJ
zzINGp#hJY67dACLXkuVEJ>^?xsN9{4F?Cz7NG%h+ayYI5)K8weTsU{dm86q9*hIrF
z6toG<%rMG-z;9*zV)1+<RkK4%lY>tc<?7n)Z})l@w0p&jEUzM~hec_twm5hl{LIQ6
z8M!GS_Vq=1XVv1B&LPEzFXaSPtxo$?l3+6@D*us$)=Y2N1xZG{YCIv??pI|suKeJT
z*m6wjUGxE=Z%VGmK}|x2sjhR~x3>R2bNJlW8XHh6F-u-ldU2_2e%JP5t2(9LliQ3_
zT)E;yw#vG1{j#)fQ#aR<!wD9O!Uv2Oeh>=n-g8&EX<OTQ<AAHm;eHE)GUL}qo<7Jm
z>7vqZsf`V99!*)pyQRtSOHthMfR{a9?@yiDe)EaQWW&&%iZ^DgGj^VO^F#8A6rW}5
zUT>Bbf8A2Xk?a`|*_|BbXw{s`b2E{-ZCZTEt|-S-sh>fk5;J_{MK@o#DyFuHVeT(S
zr>7463h5d$&Z@~q%#o72iXI4^7tXP(I9a|SPpI_Et&OJ^%qlKqn%Z-+B+xN7^3AkG
z?#-!FSCyaQQ2AD^f3ARMYR}0pfsI?8KGfaOt!YdtyL9$#^TE|EC(EjR`W8kd8D;T{
zCe`M&Pnhec)M>ZSYh%<DA8qG<&S$<Sh<vW~TM$)Jz5h}9-Egg|`k}UJU!pudJMAdD
zU9@~o^G%!3Yex%1yyIUjcvL=lYVPm3%SG&(bRSRco|C=gwB*joU84V4w6>lW$TmOc
z!y4W;Wru5R;kwY`l|57MWFD6Jl*#&4Vbk1h`4>eO)Rt^c{9Ss&JO0&QJ*{S2ogeQ$
z<es!@;5hi>*hcvm+QPdm*E6q3d4I_vtgj?_MLOp~rK7h?EEionasFpnT3H*o#k8qB
zb4OE*Y21??`gf8KsSB@t+4j!;{DL(pRra8wus6&g;vmDZ6+*>c2M@eAn5&kwy7AG4
zkjb)q3qCo;e@&fwV%w_<`+&1CjU55fxfRbsie@}*K2akVU7EN3^u47I_i=4ISNQn0
zQo352H`~PSdC5v2g4o|oVGlTYZ|SbZr}RYk&*gMKk#x4xSz!Gnv5w5`i}~9^Y?)4f
zmCVteo3sB>`Lw;>u^|~h@@|$q4A|V*)u@>BkU{j)y1aL1<@ZQVjr$cee}bs-rUide
zHnV)lHIt5DJ8PcU$9c8G_%nmn*4tNitV_r#a{FO6f7OQTLRJfAtuMQfUC96{p4TQw
zH}0AJN#N4j%1+nNFp<!ye(V7=@2)#m%6eM<lF$#SDT?lwZ-y)1>j#Hn0;}NaLk*J8
zdOUnyuDCfbMb%PQ;pG9l`DYkIHu<?ND0;n*D~an>>+d~JQrJK337M{)6P5POZ{oVZ
zOTVq2oPWP?QmIjFNJiU)uhRnFt~zTitmAjS)CLqibA95&5;_IztT+W0r&f9v9k5nW
zz4i9EWt-QvlRRMsc|RgPB+s5%)#7!!`VWg%q`L8xsZS&lb!Vk<`U;-hex#W9`0C^T
zYB@xI1${R;+;%GQOGxBi<Jjd#W}K8sn$de=KI7*8;5BD%R^@Hi{~Y8#E75W3Y^!@E
zkCy~Yy}W|Q_bUrWLTT0XzJ-%^hCF=yB+Geq(Nu?>w>Pe}sB?8|G5!*(nAs*MzS=je
z?xEmEP&SKsB{0=|(>5^~%{8-6m?@+?JNNIF6*~wjtx7w*!WI~=I<Z!rtu&$Vk>@eK
zGl&0X9R^D^bbXt;O{OkT<HZHZt4B6zS!xUJ7Yc6oTQF(o6~$FEFF%YfHLS}>F1~eX
z!X*>4lUgQ*ONCb)N;UsAF<{}r5~0GQCizX?3f-OC^ZcAOs^&al4>)={?@RK;sSAx)
zZ0Ho_XYklP_ehYqL+mHpjL6MR7C)D)nHKYE-I^Ie$IXpJY_h73NY1%^Q|Wl1>F1#R
z|DO4)uG%o~VCJgaoh;e~-`6>bZhC%4>V28V)yY!>!==9kl)nB|Vys`<;gxxl(JT9C
zvY@EUe9b4u8EnET{0k@Tyuzr(Q@5%3Y%a&EXCbn&8%(TA;*NXWpXZ=jyplQO*(#UR
z$E}iQE<N3&5<GcLkKU~5cQirMQ+8V0+?HoO%Wqn05#tkmZjxzoWXRt;M+`&!p6vOx
z!l6LnN6XAhD_5TP%RFs2`8i`q+><?RE1spTQ~e@peg0?+LrnAHoe$XqT5ILi*Zs~q
zWXsW~(o!#0D_YUg<i2s?!>))cBCUaa`_}&5a5u_y@0X>0HFH>}u3fn-X<F#>vak!{
zcXzx1)pz}y7X~SH%`4koy6Rr;i>#LC5oa1L`%d}%w)1m3`o`I!aplsYhp)Rcld>)Q
zyLL;l%l%~x$-001<O-crDbKpNo4$u0X7*f=mQsG=fMMX5N?C`c-)raOvNH4Be-Yp(
zR2;6%@q1SFgfIcshPDvh;!|^+Qoq&CVV(MV^WLQ!RN7`JNMv2+`u6(;|H4V7Mu#Td
ze0K45SlENpk6+J}32N<|p`zU{$tD|pW$A&0hyTGPyVXoRt%gZF-^AzbKJu|_Q(xv@
zo!{qfL^SuUVqTFl_e?<8vL!50KW<;{DDD0hF!hGw&Zc$tj-MDndBuVCkevj_QyJl?
zgR@dB?kXNW8Oa`S(rTun)@`4;VG{285l=U+msxG*>KAxrs@PuHsdHAEPZND5xkioK
zHQi7B0N0r)&*SHJ9H<TBGwz<aZAtZs+q%=MIIdorZuP0~Q{MNtEepJ7v8m>?ExD5|
zTgEi?*7w3~ckNndP45Y`TqnAD%hu$C-Io&$R@|QT+^hZrXgFczYTmnBT()`cj-Got
z;`9|cmEg#3wM8XArfs=7`{Y;aZ&P1~NoQ#%8`Xv!Xi4H)tg~$HF40ie+!;1|US~ud
zWDGG<Gj>RwwMX~$>Y2_jGV{W$W^TErxpQ-&$b1J-RTr|WGhF?wLb2Hz=N)~~A@60J
zRV~@~{o8ZrZN?Mti~Z+#0?s_k*t)`X&+ge<P2L_6sHx+h`b6f%VkZB|2|@`WU5jtD
z<~{0Yd3~FQJ;3u^qn*}-|678WKkWNBD`&FjY59(|F$bAfs60R55f(M?JGb@9qIu%E
zWk+R<U8i3L*J<y|0uAe@tPt@!G->i?fmKsx9uZzKt>U-v3In#Ow>_`zyj_{Dx^AUu
z@}b1ohvjn|RCgX?Td|=%RP^$R1v`%H+i+V_{Jv%OnlCI`Cq>O}g<mwY<MUz5Te95t
z$lbn`NqgrXw`|jT{mp;=gsHh}KC)y#vsOQzT`F{yW%j}jk2wxg-+uEiPrcf|YU0@o
zQ>Q*#Ki%hLdqC>$+P7C;uV29U^^?l3--+=jJx@6ty?i58@2iBC<m8?IzpWO!8g$(}
zIV@T9vd65(^z)a+Cmvi<lBVow<0yS;=_B*0@`)<N5A3di24_H_?>evhh4cOmVo$v?
z{KYqRX_`B(NHYsy-Tu%J6ge(WpXNkQIJG>-;@z`Ib^WO)b#_IbW?r!e)SM`M>9As7
z_u=qj%e*GzH3s@srAEgCPR=;v5VmkSYsb!uTV8n|b=brg{L3&T>W)Qhh=kvvb1t^|
zP3sPBTB=?7C1dldYzzMdMrYR?Yh2T_%_z!ypK-s}lJ(tPd)DW4pIdjCv5F_O@1)3P
zsp?Hdv9(ucuVnwXI&RKG39U%=;Ok#4H_tt&)?Zv$dC%qK^QPUIuhuC1Ik=>VIpPh+
zj??q+JFC7<*|nm8>Gmm~kc+3*sIFs_n;|%dZGO<qa=QkvYbU=1E{qN<nZ3wQZOb0{
zGkc9YjPLY;gu^%dQS7h`N;x5wR=nduetW0RwO`<R>PC3+<DCXtda3Ly&0cEvpU`Le
z?D6A^#M*p!(P=Y!Zn>r!ZeyR-Xm;w<`32&Wo_TdkZIZlmr6fewdFze0e{bFD;j-&n
z*QTMfJNDYD)aYHO!sj?#J(hCnp6d3i*M0>E?a<dgvE|#A7-7EjRqysMa_5!Za%bAE
z^BW%iDy?1E3u@Jwe|qurz*!lqwFzsSgUnhzf4#Zi9<bGLCgZBINk(&Y_7xm>(K78{
zOy-hcC0B!`@=jNerL?VhQj%aGe|neQx~$j6{PK>fuT$7o<QO+Md=E8#*wG#Ca_l9G
z)=A3??xBAc+)Y_qGAn{}ilE0ArUbUOz=A*CZ8wxxh@ERxPgxp#ymVrBO2|aXDBhVX
zZJ0hz%Hm=9{*^Q2bKd%=U0vS<CTE7oawXgl_#E`J?AqR!2iyaWW^TW3wAjd_ZTmJ2
zb)65Z4uxjScr5;9US2X|Mbp!?7O%I@Ud)X?pO6#~E#&z})vPqF*{aoH#{?6*MIS1(
zm8QD#{Jiuysr0YZiL|&^3{&$rGx!{cpMEz!Xu%Std$z4!-}HD>k8TmXy61|u$;^VL
ztCQQMERUTEG%ZY?=b&0Web)+}S6sEW>ADNOKL4MP-m4fovG19ltdnZ>bhb@gzF!)C
zx?a|hl0PZKCMcu7z}aZe+Z9$Vr`|t%As*Q}?{43<q?6IJ^JF?s6`b3i;BVCgvM%N7
zx6KBVmuJ43(EfQ3-@-|Iy$`+m>^<k;$r)^?v(nVv8}At(n~+@V_<d&dr0>2_^ZR-(
zYSvv{Zx-__$bDY8lWY0>sWWv<zHhJnV&lEybZI@y)l1WVwXER?o0C$;xkr9#=ekL2
zQc_=XhGgCU{AqStM*5oOQiYd+Pfsd8t>#!-R(4=!rM1@0-6j)6zil{i@xEe>n3Z<M
z&5s$`+58KPe$NY^CYn3#Q&HJWf3=of9G@mB-!9cZ%n9m%cW9Yd{<5CFYSXrmOR6`+
z_v*a?^+Vhuj1q6ZUGd_>MC-%C-kab5YR<9=UZ47@<ZssD$YUvND-w9LC(hoX-248f
zqU)_I#`<ht&F;0r>;Wf1U6VI<@|Iing)|yzPk-FPc~jt)!mSN&R{wL^#tiD>baS~2
zoRl=GQ4+uWJdWYe)5Y4xg_`;I*5}(dcpXb&)Ak6H-zV36uky`VF0GDztamJ$vkuP=
zoLL(8YTueeS5NVIu}#fk`|<06@tJKaw(Yez4C=st=JICQ)SmV3O!%>0<z-9eIxPKe
zyM9BIk=C`FlABVN`EA#_^mE}lUc1IqZ>r;>OScI7Jl4@ZsyVsIb%M*)=N_O2sKd2j
zgFA<wWLnk6ZCU>;?Uw4p_s`Vy?q&w8i=LS|t#aje{{>Fl)&0V5Uae^F=}b&Nw2I-n
z`od4a=bh|YyskNv1vZACwaomgXnruyu1)R2vsps@nx}4=c|V%7CWZG&K$y+K<xjXC
z-?cmVIWi;rqjZ4Miwzljt~jqq;Z2DTlejCI;w$)ebz5kcSb;(8Q-M`~cY5bNb>{P^
z^fl%bKe+FVtZ#LPby3&JP>CGN2jY8WuNvu>8kA=`vwD>J3Wf!I+~M2$ce1tr1pOC&
z7FI1;7vEO#i}EX^xV@NkaTb5#mZ|Tj?|F0Z$b{R0nSsAAx=&5ppPcSm@cF1~SmuG^
zlN-6u8YJ{uG@R<V)!(@0QK^xW*6F#-y<3m1vUqKE*G9Ck<y6<Le#TYjVi=f~8hm8B
zKV_9d?5(#pvlexB%Q-zQd#<;3g-yr4iRH_xEsD#SM1=c8N^5r<cU05Pw(naw$#jD0
z;;pm8b+erB*1NBGAvNp9B*hsi+ZX(k?qWQ<kEJYbNAtIuIeACdXFgxr7vQ=vnnTnw
za?YKF#?NJg?q|lkmKknawM%$K3hxt!sky(^Bt&0dYvL8_y!J5V((S;v=VPM+3Paj%
zKmP1HCouBt#J6kbHU4CC4ZU3$@^;UaeQN@A)R!j+XdOOzC1`u`T#x<x{xWE(zB|ac
z>Sb0+9@7e|bOG-UJ;kLaJ~P#mjF>~BDuiQ0X1qDjx^SYIz}#08!UP;=Mn)Me$lF%D
zKJ7QdD%b7r7k4RXh!|@fuQ^eYt}e8(MQiDtylxTRfSa*w|5!s`+~N^i;y3%|nO~<S
zUcGbnv5b>yvQg>RzWLK4=I6~=w!qanHg876G`=~G_t)l|M;%MqwZg*ve#iyJY3W&3
zJ}>6&{3ku}=fjr8w*$eMDdBAIzM!vDdCxcASGV}$w_uXtOhK(E$$j^kesY}ob#8@-
zk}KEZDJP|!MVUN~E}32r>gV%>P1rI)>?_ZO@UuO|Cr))%N*)i?{T#$zT6=U~SJE!M
zg-$;O-jw;<v6_de{gK<rXkQs*9lHK0V@THab?YZg?fR-B?v`5dpjA=)qF<-^G+)W1
zwig=8g2Jjm(xI0(@`ZfX(R%UEeC-3f<N88!*JE;DWdBx)e0xSZx+L*&o?Adc;2M9Q
z7ssA|54d@k?*db3`aPCAhJAHAjwl|p>ys{PkaKuiX6<0C6?gF1@q;PsdI`lRte<B-
zia6v5a>Z|%{n}dBU91K3-k)LBs7uh9A9Jv_@4o2Ny>7P+mQJ33|B8L#z6I;HS~q6R
zf4tq{sY<<d+3rAIE$bDNEn7fB5eGe8_$xS-#fvUme&1Yfah`#-^mVO)#3X6|lUXml
zWlI{wR@};Dy`!v>wojqKYEDJ9HE0>%_W9HHZNC0ma?0dS5n)=sfv%@CkGdp$QYdqM
zSKJjgZPO~ZNrkDi--o%+PK|r@S9pchcH>XYZ+TdapOsjFnhiXuPnR$AJ65K)X=9Oj
zsNN4y)8MjeD{IQE`5mcqiqCZ~&y6})G12Jio!u>)jtI_v2kK8R>t7Y^SvOsCtM^$3
z=VhmvD|xO4sc-Jj@|zcbR)9M)@}SAl&J~Qu-!q16Dqs0-#V2j~qT)?KFB?+zFJ3%V
z^{n)1h4m&0Hj{V%R?g^oe@$`rQvI)W@>BPo^RbD!9>36UnM8-!W^=<NWy=PyZ+g8c
zOP5}qqNcfdGDrTInJ4D)$LP;ncd2vx{hm`N?=2NvwQQ5%ic2xxxAIc9WbE6U5q)-X
z-&f`pQ!JWeLw0z~va9l0)EVQ!XOy(;`EHd&-#OA88k`%Sfrffb9F|TjoG{a3b~Kak
zkvG#96n|;9)GmFHw_H7|%WXx^j=AldlIFdrI%ef@*EOVf?!x+7*0m>QeEBZgVWYlr
zeMDHyl@Om7%Vbv^n07sRxlKdXOYd5zu#VydKH&>vvo^ZEJoUJVOZ4xV<VBabte#bH
z8vp8AUi|x1caLX$n1rqV58evK(pl?*3N9q>Ij?cJ+Ip3Ok=kO>CqH6s*D`E+^fvB;
zh~wtQRrB}E_PJKib=9tZ_kAmo8D3j<+^zUz&7SQUC~@X_!nY+$B(=VMTAH@|4`Zj}
zzdv$Xk<2$;k1qM-c#9`ti(jw-mtWC~vK88wM9soXZ?gyJeh!*HE%ZPJi_wyrwDZTd
ztA1O}$<mZ^?(^F-Y1#Vs>Nuv}TH6;Fu=F6q)$)h#&-1RXz0^7Pjo$tjiXofWHtlax
z^k2N{*^!I;j849|T#}`h7Mifx|Hu@-1-G8($A=4S6%Gz%?Yf(19DXC`!iUVuZ|}T0
z04@Rrri#km|FP{#rq#unU*7CnUOubt>^H%X-?c06<^J|MUAy$NhJ014Uiznupgpn^
z_nB^eH2*`;ZqwV(I`>^+oyvGS#`d%L`bn>69lO3TvV2}qS!RS|x%H~Q`>u$JHq}l_
z|D9y0I9vN<p}hOt&C~qO_}esQ?bk1LeOfKMV8$fXPZ~8*g^w$Q=704+ww`Upx8FhC
zqI079M0je;auog9eB^I_P6{`>JnhEcsy4<|>c4`Fwag}LUE|F5SSfsCl8J$?-t*^|
z3RC?Gb}d|cYdx3r!l2z(FRorwGOIfFPTro|&5!TyOVxOIp|2tvJh^kf_H$`x*4ka`
zHQ4W5+Bi>5QrvR=6u#@BX7z8U<w}azZcn>yQoAxXL{md}b?MF}?~Iq-JDIGJW3_hD
z(&sE%H>clnXXQL0&7LCGd-eFMun2MWfRp<`;~Bc^-V3^krq)g1mS6Mo)?0Rv@V|YB
zCj4v@<j_pZ+`iZ&WeRAb^xIOt6j5n8*L&f5yxA@9eZ<6GYfpY<$R&4Lc*V4RAzw|j
z)+~5-?yCte*Gz|#qQ|sS1VXJFvZj^R)`k?Po3ZbRNI$r`t-^W=N0j)1i^X}{7we1u
zdUaVn#njyJhWDbIZRX8J1}ECSPTkj5c|fYrT1)lyuV24T9g<nMJhw@6Z%@aQU3SGs
zkNnE)S~=BeuG7{l4zprI%3hUxciz7I=BA@P#pl*uxt!>?;MA_a_TN*FroJxy^L)~B
z(GP{u%Xc`18Er3Ox*Ej%vt>=lYisAQdB5i}Us`tWTz8)P&AnxDeq|O7TE|oD>Yc)N
zojvl9$7rqO-6MQ68TyQGT;aa#Gr^|K>zc#8`sjsR-R}3xJRa~I^E}twu6y_N2fvl_
zDXY@w|E_C4bZL6k{_a)j^J8YPPuk73w=75bc~9pW2b)H(YYu#Ym3s9nC6W$aIwPhf
zq3Y9h?UB-(m#dS()p)3ay!r<X<xd{sbr(4w$1ckie%aFH9i6)8ufVFM`d`a;uMh~E
zBUR>gMWoVFQe>vZ8|_;cmYwmHabDVT)?k8Yq^@tRwM5cZ?fo4~<EJysyY+T+-m3Cl
zD_$J<eQdTu1n+s%YrCe$TD4_8<huNOML_<|H)X9G8G@hwUV2hw?!SY{D^lK1`mpEG
zuBN~r!I`Xk-*}ta7^b{4Vk+H|v42v{%;{ELbw^USZ#SL59QpFKNz(s)vY=7a6Q>q;
zZohR{{DZ@}m)%85$CsR_iDjwe0!c0U^x@Nno@s9yw=}8o>Mh@W(NAyV)P?g;aMpig
z0X56-gjY=y)w~g|<6xE5Rr|}k$@Il>%LcDc+rNLGntjto@4@TM`*_}{MzYFqiyBm}
zIoEc-=hV8|mCY}XU$d8({m(IEBOAwto~;*;U0O9yx|C_^tyHh?pLaD)nm_sb)aNJp
zo?JWcr@iin>Ge&A7H*ngU0hMS-RhR!=b-oHfg2ScKdF(c;+A}=<7Dws@8;WOGx>^{
zrmmSRd1BSudtM8C)>J<dsF$u>2_7qAT*aZk+A8u3+l9R+XX?MH`dSp%9<X%|v+Al1
zSFgDR`Ztyz5L@$D-!sDW@Y}9cPdzyAYK7fC<NbEgA&v{4A!i=RO5D^^;Ry6ijrb(8
zYFhCE?bSQYqo<ikmmgVZUCI^pygDFEVV=X)BEB!Fsn5%1S+0F>CgpqI6y~&)n27j7
z#q#AwpBYx|ycr%pb;Xru7a#vNwS1kC<MT`F(zZtd7sC!7>%G_<*TA=3(Qbcp)=Tfb
z^-Q9*n^xbHeaUOQ>{~+k#P)+nM5n9hT*{c;U&u8z>szR}=o&T2Q02(2uf4<<J}Wvq
zGiG7u<DcpQFVo^n0~%Y_uU!!AG23gNLd^L^&EHtGlyzo4<Z@f~RO|W0c#~S;`l)A^
z{@+ul*L82T@QO7b_WW8=k?iTGzSh7Xb@!(Yw*vx=XRRz}m@0fX{jX?<?X!p7*HTOz
zw&$-2+8{aM!QP48r7fq-W5k;8zDq0%o8u?-jL}E)g7Z1W^m30Vwyn(f6vE^EepxqY
zU3U<R5nEhqS}gp{C27O8)Ie6XT!y7lK5=3@H@8Wab%ShAnd|d*DcjytUJFZ4CQsQF
znU{WTu|x*n$B6=p+Oo4Hel)EzbKO~`Uh>-Yt&x7I!2VM!9O};<Y|h%YhDmwC3(w0>
zE}VDGdL#qNT$+(LL%zlP|2q8jO*WrJFXtR3YtU$3Z@lh`84>cQY}vY5y)H)Wnky^b
zt$T2viuTEXB5-<Hn~<=-aru*#G3`FPS1sFRe&^P^DKFoDV_tD4RljcQf}poNXIZ?b
zs%h<OPw-U|uVtEgw>N(6Z?4kJO>tAUT~%3YcY)!<g*i&`g-la#_r{B^I24j6UU&G;
zwaN^4H*KyD>b`l|YbvhtEx7euh9k|kSvP;J(@){;X3syKQ!{Kip_!?@YF5vcXXoE9
zy!BirA~4bGddSDLl!!AEou>0z9Te75ub$u!(yI|*_&)1qc4zI<;K`nb`G=lZs<oCD
zGhMZN?%<Z{TwXM7zuShsNt?D9K6@p3V^PAg%Ox6TL+)FcFOK>Z#6E|aTkBl)={Sa4
zZ+*-6&%9)@b6wtk*{MC-`NIo}nocu?%|EnFOIPw%cyZuv;b+AwzFD$!h46`ps#Xi>
zNM1g3+_SCv`f<yKtog+Wj#J${R^4)9(>c3zqTrV0ok#iI?l%-aU|3aqt}!USvvVV7
z=&L}360?^oJ6cX1z7yG1envCING-VhRcp-5%vj&54Ra122u*ZdE+g}6lcG;}x`AeS
z#JVRMzhGl?t=8hww{NtnK06d>8mZb)Vf~%ojY;d-2RYE-XmTW{SybOD)44}Eu5FSG
ztZ-Hb4Za10aVedMb3SLSK1<qcnb<rfwP4MM^CwST(<pPwYxC`Zr$MpS%q99!)z+&@
z<5t~rPOW5Wn6qxtj&OlnOtHt8e4o6}Xz|JS>;byF_TE1n{cg2eSPe&Vu5rP=$R8Q%
z0lK?t<HHn=Wxp*`lbd%-=5GW0CkCyPmIeRMrmL<B(eJvrspyfLT}u&P{zvC>|Fcux
zUGgwv{dQtzx^zq4-W9RWmfm~6cvFgkxnYV`lkoP9`id!k*fOdP><tcCImbcOl6}_-
zy-WqMpe0Kj#pkJPC^{K=<H^!<n|?t@sazM>bacJqcv5oIr%&>YhTe(;Jq``2)i$o}
zpuydLT(hP{PYf5>vqoX+a_b3i^v^G-NGh<F{UNYQWABxHYrcp&J7(ltGEGP}O2`XL
zT|CoklTp&Or<@_1H~eB-A+lCs$70d`N9Qi`A3OTAsBfKeclg20Cf%AljtA~s%Jzvf
zB>3>Wvoo6JR4=(0app_xB-@t)TB=o#eys@DdM+*BGMN8~rzY#Buc6s0a}wMWLfAiF
znCmq4^=<ob|AkzeQ!ejS`1~d|)jWIClHcF1g7%TDFRf(`+4%5mLS*ZepsgD@Cap10
zFO`i;KY!Be+R2)~XXkr`WQ%5B)<3gij^LiHQYzQ)^f||wZkArRLT~O&{e{uF8PoS&
z`CS`g7H4`n>gvvrD2F`%>k@O1*0M_JTwb*38K`Gs?4mleI&yov=NZ9;*%QJxrz^@k
zfyYI4A{I%XYvfi;h^p?-42UbNo1Jj=@DYE|6b5tTM%93udo$xJ7v45aT6*JciD6Y(
z(((Y$zWWck*slB3nHLBxRTVC{V#Tx3JwUg1<@`5`HeI-}YM%b#6=~;cE;}tXjGtb@
zU!)b7rpv!D$cX9Z%m2ZPyh>}ugbx+pzkNvRl>3ImJ2<*x_q@{0oFH&|#|p1kTvxTd
z3R9zBT>E+x)VC2A&2C$?=Dgn2nN?X9Ck3llEH+mMO>;1=y5N($Z^_B`+xD?rdh)mW
z|J%Pd?UgLZOKmG|8CP_!ytLwx%z+>K8T~IZhD`EL+tI|!Z2x|BmQBI8xn~>Fe=}(5
zD^I8m(U>yP_?l=_mXh_Q*CsZNS{(YNC2Y^j;<TFNd8YbBT{$@Wh(Px5$(#8WMpaG!
zBBy1()NJV{{<+~B=BD(B%9Iq#IH<l(d9|-oVETz|lioPjuuT=TOj~U5b;Y_pH#V>T
zb+yeq9yEnLPomq}TrKVB$tT7uZk+9!=P<$c)GSBSIj__MR^DBAjA`nVvj_V3yG34a
zFI&{vnJ=V1!M+td1bv}2TS3t7(VmxP^%DYA>$=kpT~rL&<d>$PeR=g{#q1p~4IMXT
z2?pP;(gjaC)kaE6oY?$g>l4Add+su?)V^UkT{Y(RN=>VlQ=GM?PEU7et$igFr1AWL
z(21tT`LD~f+HMQ4_>&j@cvq9clt!t!55u4KX%$GHvPzkf6TT(M|A-{pifL9eYa>&&
z+KP@{R{hFk@H+Fr7suz%R8}#}T2P-GfAsFUV@_dlH`F<&2?lSfXwzK&=)}oqn$gPx
z&hC!wWnI;#D5h=UX(rIi7G@g0X5;a|qnX=R7e*djxz-_h_QIWWEzJ$rUR*tSS1qWc
zZmPG*D3Yag4&xN1BtHFqo0+d~%@khoB`^GOQ<uBU)u}g5roDLj!glwUP0`;3R;fRF
z`*~I@lX*_;>N3uRswT0H6qy+f=7$%XyDnJ$MJ;CCkE;P2V(uTDf8Y75%bwb}KaQ;@
zs;+3VPk8S*f5yu&C&{z#5*&7KEaJL3M`=|V$5r8v-$X;x=ZSx=+pv#Gc2km_<T)k|
zy$QlA=5=g8AN|M6SBX0zBXl<B-4(BmOZ9%SfE;joU)K|r6LH@D*A*rQPunUVvo`E}
zqh;f(&WhiAs=gG>5_(^z{@3xXV;qZ5-8HXIb$5C|QcBvlbaRp>^}nlm$J#JmYqR$X
zuGil_$T^wX3+A6+apL4f-z6OZtm`(!OI>>#C-wmB)zf+9UPaeq628n_#yz`5)MfrH
z&Jh12w}rJ1T`@>hi-<aN=c?Z3ya?xc`+G01ylV$GNg#u<ac>caXRhJQn_c@jdCkP_
z)^wTG7<`<vFY8y3{r^R4CU;&I`<t=ZTUM7V-{}+YyAbJPb^V@~r(3zC3eNB~mFrG3
z2#+qF5xePgOwP8SB3hF9@(Y;COZJ9|FEf~3xlT1LPpWUpfqjQU7tfeudQAP*1ossw
zdultpIDfOeKM}co=1JultFIiG@@$#g6!sNaZdV}-S&uTVX>%2*j6b0zHRJHT<q`AO
zck1{rob>Tq<C+PD4qv%fy1tG1^vB}qQR@|N7OP(`Jm6MjtYw~hcVE@Y+K?r;t^YP(
zw|F|up};ev&v=I6?c0nYUKJ}38*99c6PxClY|DFTvSQ_z2d~zD{mU7`J^#$)O_!Rg
zCGQIhYl+Kb{Y>aIX5N2cyLy1+#pFw_M=kY_td^~fJ@{m%jQ+0HScmsDuMB6V<~?Q6
zT6z2R%hG}~MJz&F_nN9(&UKueG3%n8$D$`aoTowz);VaGy|`+pb=6(9v|3)&bHQ8Q
z<;Evwo{^k4-!a2z;UwAb>H(g2@42!@*tqU|)_CRmGA5C`=`rHBR{z*5JN3%j+Q`yp
zS03JewJ+kzMWr8&e66K1uj<+laZJ7PcCqN2H)Wp+cPwa<c@Zf&U*b&A{^IF>e=}&U
zyv?rNk+e04<xg4EHP2&`2Yy;69NR5>RrqrdcSzASMW+*|OfNGvct!jG*=^@?_0!jj
zX`5>-C$sgogf1^VD*xb?*K+3-OF-+x<r`05I<-P-$Ds;6hN?72D@h}b9beWs1-m?A
zS+#WEU(ZO-e;Q`4mTy;k`1FN{9l!0^Z}oz~w&4`l`RpaPt!?*gxg9$}Ov~Tm)kj5n
z(4g>Ay%hnPDxbD-hNaAs-f(=9_2v&EzW+bvP2cNn8eDbf7klENsk@&t-IYsKx4%`G
zpg28rNA{ZaZx{F9?bEt`##?ql*5;EvS{IZ3Rs@DgnK8FX7Z?Ax>V^zAxm+!}u=30~
zgXENc#e|hzR|}<<C+@Ut@%pC68)*7@kArhSEw`~^L9*8N4d=X$H~D_&Sd|v{N?>Z%
zkM$FZ9_^KDQhIwJh9@RiC2N!4f}l;yR<v{V9-Y+M-@o9yj4-F!OpBFGeV147wK?~8
zMM`b8{8Xo{ad+GM?jMs&GPSCFYx>X0#a>2Qh^zAcBIkz!TFUPZ3a+|vI_lP$FR=x8
z{li)OuW#9F*?y|4x?sb4wND;<H%JPsD-B(FS#_#=d8Iwy!lFlVGK&u-O-u?2OK;;%
zIlPnE#CqkM=gz%luh;V}{Palf&3c8M%|1^$GiJtrZcbP(61hDj*CKz)yI&$&mgOs-
z$#kS`UcY8d$*d!-#!p437*D@mZJ-vCvf66X$&!D6<W_0q%~4#XusWhLs_~E9i`A!G
zH!lx3`{<bDqFE((&mR)*v-oB7P>F4R-mbz&9rGWSg}m^-`_LmYaN)@#SMOYPcv`V}
zx{W{p@5brnb}e3=(#yNK7VcZN?c2KR%TMf*4VZ3}SIjk4%>0}~*aEwGud71$%@1as
zYb0UySjhhHj^OuYA>DcRr(fmyr&}}cw75yVuUSffi{HDR;>vhMElJxewHjI{`4?{5
zEu*=5P1-Jw*t;A3v{%Gv*>igYWzEg9Usm_^oMK4cbmdgXRv|0PdI8fly4PjhdbsW8
z39pFiyU#T>_PoO1yTxapR4xzBshwr>(z|Mb(W;1mv+w=OI_}Q1NM8cVWa&(j>v#44
zJGW$#TuaVL)ex(<W$fN<=U8rvrM!NBK0sn&mSx@UO-dV0=FBXg@#cVIimc3+>`QMq
z&$&^}G<D1E_7y!-Yfh9W+|Jj2p>|TGP-g1Xvg&$P!MaSXxdy8z3dg8TI8`wDT&UQ-
zEPLx#uUl^q-<A8YF!U|E+T>p*4HFzDv>ADZ<+zuW{ALW%J^ua!&nd6v)@M?AE{V+*
zR<FG1Sj{x`=G+Uh3yd!Me|@5J?C4aj;tN|MHawmnH^o@NZ$Z|hw^#2heIb^gl*U}C
z`ftaQjnfK+R<~AfShQBx)cMk)qm~cOzh9X3=&fyt!Nll)->g$~kKXyPWW%pre;HP(
z-Mi<U`Xa^D@QJmHiv?4sVd1nK|H;zvY;*kB157`DTepV6JMFOH^`NDliW;FG71i7n
zn&Y~bE_kj2(t0;Mxa<EF$;s9MS3a4$x@tKeRaFZXy7MY{#k0FN(~s`!+BExd-l=3=
z^$p<@e#;bnm)vc^R};I>uGxHXQRH_1wE1hbJ^qRCFICQ2(q|FmvZCS^^NkYIHEB<B
zZp?nLB=NLKDZ|uT-`W3md2L$yG;{W<Yi|uwd@Q4uxJ-51IAx#vo3fCdsd2AP$lnRj
z{IhaNQ<|K|`4utu!d2BRx1WBs57Zrd6DzgglW%F^tk$zxR}TAyZuXs(cmiZBXpu6L
ze37*{!=^_|7KW!hvTXmAAJSTwm=qXW#{?RvS+8(>!p<Fb<?|m(eOdNywnIqo*^Z`%
z;6a)z)34TSH8>{vex9mcRePYxp=n;X=B`e^lsDUdA=mGJ3*x_qPL5UbbTzx3=|1sZ
zvE2RUWo}1)U1KiDi$7Xhe_?&$#ckdl2{WIlE8p?orRcsb^8B}&IkyAP{{HtsO`E@~
zOKbY6F!|d&NAG;N5@qvUA}Qbf>GD{&*E@X6E^MCj#r=A*55om^Kd!?YSG4W2737;V
z$#qX|(CO#j16I0qmj&K@{U+s_(6Szv238*C+ERw8d0SpEgc@J}#3#FAj~d6cB#X>#
zzjP)S<`ggXTVS-i=bEG_+tY=j3%325Am!ouy~BG~LeTw|#Cubco_zxC2U`D|{qZgC
zgjt^TEvJ_KJa^+?BA4Rki9Hnx!Po1r+Dq)-%aHfdd+&Ys*0`f9*QGlw&`{sIW4dy|
z-}0_+FTL*1hwM4JGSft-sodscYvRJ(>&IrSez)AqbdHni+i!xaJUPwc7j)G;6!0lJ
zzDzYcb3wl6<yj(YZ9rM2Hso2>YNt0-jz=#0HYHYh2V1DE@pEvO#L09j^E9z{FRmyl
zZe6jZxgXpqpL>*Bt9q`}VVfGoH7j>a|0Z+d<E6JUk$1BuP4O(fqaL6+QC?<_qsgMv
zGPY5&rziCIh0Q<y#=`X(OSxiu@QN>b-3fE1-+h<z$Nk@eXa&K_B)h&#a=EVC-bD1j
zEYsV`o4kF}9n;T2zgH|XJKihP;Kd@}c1C;YqbW+a&+fS?ykZUL90;EakwHBl^jMU4
zygB~R)8wvJxATfSdfgA2xQ>2NN<U&cVb9I!DL+Jt{$x4F-{#rA7_?qAaN~wo_vH5#
zP0DLOwS0YuA^$-E(6a4KckL1cby8F<-EO3Lc&_hQq!Zw@?6TJ8b?O1Sd%bJL4)$<O
zoaPy#sh~4kYnyCj(Bwj!M8OqqpbZmeox1zZCB#O|SZg==mxyca?zz>rd)xzDGq+#2
z{8jmq^#PCc?YVVa_nxn+KD*wPe{pJ>o6{Tn9J8u~ldS8~<}W?-J}Y4cX!zh#-up#O
zH&5S`WdD6`jp>BU_^B&`g!AV&{%6q2-2OfFYUdV%H79oWehUmyEJ~?9C2Gs6ehrjp
z-k;_&><zfD+~ZX!Tr$T&St2PZGf!>Z9Ea5M*XzR~kG6R}XnG{O^v35XF562{#V1Xy
z>R$G1sF%n)JS}^@{?y%dS=n>yZKt{=MKRpAI4L&uj-z@&<wD6{+8qBX)*a@1GVNF^
z|INvhCkvggToEUhH8F1PxwqdG-mJd3FYD&<Mz3TK+aJd(a|+f?HuMlMyK3DYpgV`z
z|74f<-c>*Je+4ZTn*5L9R7ti1|H3E>_IZ;+FK<4-V%Ez8GW(@UH170e&75wvVt-VC
z;-#is-*98y^Gn3-B&|c64-2mnTz(nU42|>ub@*|M*U3|E*LdcsZ_+)>U{(6+;K!&4
z1}|N!<&znM&-kB-ItyAp^!ROU$iCjU#;a!jzJFr=#ROO1Z&Q=68!nnOxv$;66|_%v
zh0NXNNvnI#D?|%1`d%mzm}$$&y!Tb5q<X-~ir*e#e~njYYx&O(<lWW6w_wu8Z+fey
ze4G6FMXuUq)#6i^B2Dzli+wWewJQ$!FZguGNp9_fE1T}b82HT%pYY8pvenQy%Kcz}
z6;r5y*ryjf*AAD8&tCX8K%>r}S#wUbqh-100<W)&Zk6ez+<Uw7{>&*7!YWHV#J4|Y
znJi}gZt<(@-FmevmCsHHoM_l*(lTqp{4dh)+n-LWJn|<X`~Bqi=O51Idw=}wia$pB
zUpXTucAk?_Hnuadn*RF*^D|Wk?u-plyU!?PJiC4V0mIZ=*LftT-n#ENJ>>6f+w}@o
z|NIwR`aLT#*74{xkxPv$#4bdJ^l_gwRkNyI7xTpHlcU-@2CdEOCAWz_F_OHse+lcS
zJt3D8Gxu$ET`k9{{`5s`WJr0|_TMMpWw*t6`fbR`d39U)-NBtnpInMMkAEneA;7nw
zXt(gqw9Ri;r%m#1QeD16N#jIGzU%v|U0Gh&Oe8z3T-F_$z1wuczM0c+xtng)IWC?i
z_~cfUu;86XH>|3^H0^%DqGdUIaW@xpmB0d}WRsoER*Nr%g;+Wm_B;w_4>);KCN_lO
z>M5=@F=r0A_OUGwnv}O)X059DSr+T5ajzIdii2}+#2-9i$eXg?(S1^$%!CU|FRpog
zL?AEHT`)ImUx?#;(2f&6wN0X%UX_Sxhgdp<r9@x!JyCA<X?Bw+Xsx^T#9ZgAAJrT-
z>+W1^XcB$x)?A0JR~%l&hImX66Yq-)zfk<s)AHd7rFGU{pS8(5q_*t)_3iSeOPSla
zwa(XW-0EK6=&dCw{!)PNms-`l@a=4u^lMjs-@W2eh@07+>o@9{t{N~s6zDqfhcjf7
z_8NU{{itW+wMS)6dcSdAUSS=)Yr0O4dVuG;4UKDJf|pNDI4SvDZF}6;Uut{{CdDK&
zha|*4UABY4c7ntYeF-bw*RB)iIP6sPh)SF{FZ$q`+xFE=p&2(WePA|Suxdq=(%C=L
zzhB*Rd!fPZ()i4ihI1+uP6uAmntRY-#%>Ye&V-xqZOT{k{sqku^`F`rx?qi~waory
ziF+*?z225-q=e|`KJB_<ygxQmK$P=rLyza(<{GA{_udBFNJ;%QIm635Qa|d-lqB2M
zQ*X*Na#lqBtJpU;RZTP2GDGa{vJ3MZR4wa%uh6N~Ys%F-IBTZg_6y<L=K9w%O}+g#
zAmW=So3P0}mb85ZQ(e=zPKWXtNSE9TDV=)s?TSBn?T3`KYjcgx=xC`qYpQlQ2-a+o
zQ@+3$vPnNQ!f53>f5k-)r1hshPdIZ`M{$|6T;@fW(pW#q*}F??_r3IfyXcYSfqP*$
zb>ps`(2h8xlNOOA^_w$f6KMVPw<$}{9(!9|@<%75=hNK1e-*aYvxQ!sek=aqjGm91
z^!fq|*C$(^<w)5zVG38<9mR#N`R+@<)ynLD>>Fccyh`Y9bbZ?)kTbS+d-*SF(8~<G
zer@H4R^=J@{1+JgwmYY_dS~y~i+68?Z7}Rj*#GD|gVyf%kAJBCS~xqCQ%7g@>z&hL
zrd#x{(#dnXdL%{b+!@O?+g|8o1^<*Qic5JE6w`aXbgf~;?%&Byp;vC7y;~J{|BUzB
z#g7sv%4BQ4DLdL*6g>5;>(mnkO1Iyxm^I@JL+FmGdy#>b8w#GX<}CYG!2Les-Vu<D
z55K5(pkMW6zOIR{A4!CMDO#sG`Ol&AYV~K%uUYE9AS=n}Z|&27jaH$5KHB6?7PXt}
zC2kaKxxAu!?os!EwV#8&r>0&m5DHw)_PNbEdG2?{*2kPvzX<v-2wIfCsNZWcpLn%J
zZn^Rvmk`DCkMgV<z21LP%wI7{c0<d>&AMF%HMSFbyZdYM_kC6jaZ5S;dxb+Z<K7Kh
zw9+D9Zu4vH&VFsFqaJWG*6s=K)id+-=hiPXh<?UoQW+nzQEQod?~2nJpDfw~cE;L0
zVZGWCrLUv#QqiPcU#w{MPIphP<%}sIZw0hYT7I~>dDElvzV23=)0&@ON*OsB7yMT+
zKfNtx&0N0LozWj(Pp@40{r3tbNv0&VyQ(+OCX~+S$=bHnYlY19_=~0<>;>yyO~`i#
zk63@Xa_&M3r`oy3ON-N-X5LF_cV40L+(BG4p>>&7kIT}XCR=XYEMe)rl5-ri-*o?N
z_oWx2V?T$)-;fB&DYJZ=xi%)LTDv;%)vLL;16M8!Uf<1im`g1){;aNliB~jJn04@b
z1})vZIgDEVUI(}$9UF}HUtPV}uJM$~+^W6CFJ7)LcpPD(bR%_J&I@0ow7v+r$AZP*
z?}3IudhSi1s?6+t<hP>sCeExiIr5wLy>;1^@BX#ru3dh5z=o)eEQ{x5pXc^<lF{(|
z=X!VHgpOt2>wfQyZhv!Exa{|yl*87RRZgw%p7)k1M;aMV-X<3Inlr@z##?Qz#j~v>
zb+RvtpN_q;Li_FQ@b&=P#O>#^UAr>1UOcG$XfAqr!2{od{M}2fE!d3bI)81syYJMh
zlg%HvUMW1UEZxP{xA+s-ocj-Nx~cVauG4M2oU?s$T*j(fehaD&<;8~^7(GtPN()?h
ziSw6Nlx|Dbv%P7VpA$3AuQYx!f5UC@vk6vrH?5JBV2n_1y5^mibl^Ze!&Tw3>S>}`
zPZuz9@7vvT+I?P4uUy(RQLT@=K`F`q##_m$@2`m{c4+TZ=@D#f3tlmA!)^0O&oJ$4
z;f=FxD;va5?bM%{UOnOSF4?JDZm*uDWa=CJXVuJ??6pT-tl8oeJx{0GN!FCM+pavz
z4>~x;b9Zgas+ZOY>Y?tEYrkepKmKdx9qC%GsatOEUh(6UVC8L=(;b<!w_J-WoI7<+
zS{=vKEw_JfVw#zEn4eL9DsM{Ebq2kfH@;1&Y?C+Vxr;8jd(Zu9;zREZO@gw%D|qMq
zdgI9sI!5Z2v#Xeue`?Q(2?pU`H#PZ{&C4*@o1A=7b6tCY?#FL=vGIzlw=s*z?S1x8
zhD}sV@zWfO^10~;<LW>YdMk|zxt=aLo!8zed2-LDQ@-9?ww;}!kX>0kT>x~f)|$yL
z7hPI5_vh&qQhr5u9%mh3u4I_HX7bC$O0B&cl-|zhuu|W8<o08oMNzlpUK&a+npA33
z8^ZVa^R{f2(7VbEE4@E=EzU|aSp898Rob$+^7zDL*L|EPBbWBh-?}1StvO31(r4=*
zzXe%ouXw+OZg|_0C$PLC&vCn2xLDSiT`8|JZq-(bUE&P+9M`wc;i`{%;_QWMS3fQ~
z8Moyd$Ev0JTjwv<FWa46ly`F9qqNg&)!I@-uO|52VGPOAXIi;zt8?PBSF&#}eKDS&
z`qbyC&GK`yn)^4pp9gI=FKYc7@N?Qu^Mjw<QW#HUJ$+d!%$4nQSGe4I)imuj{aUZu
zOq)!ar}^Cf;@6!kx>a@KwaNGS7i8@`R0TSZLw<Ea=fl%Gcg8AQy*OtF^NOf-8~9e;
z30D2wJc0XLfMESW`3Y?SEs}p_ul5#$4Q%JSFIp;kI4xxEim2P+)l8wMMa>+R?%cU+
zO=C;agVQ@-d~>;fBw+jfzEw}Tq~|!EJXPm8F}HWYg&?zeNhc0_TztFY*<Ow(U0U1D
z?A6iUv@(nPywBP{eT$=>EnS!X;or^L&Qm&O&inn;0u`ss)z>gwaU#MzB=@WtC<Z5m
z#fwi}pQiLoPWZ`lgT7T=I?3!xzZQx}RjY4~F12?77f?a>)?eg#wJON+xLCeB`)iH1
z8V1lNiPK$&(|gSs>loK5^7iGu)x6PD|HyCa)=ghPOTrCqg-_0V%rp0uq~8al>0D8>
zgyw(d4B7p$Os;Zr*ag!wx(=!8H(z@^bCo%BC@<Lv)Z^Iw@f)kC%%e?TlGpb2?Fma+
z@AII!G)LYlQniTbYTlk&S5WfSJ|UiHYIwxt=1$=iWsl!#ukzR(>*k=i`j$wjCYxP~
z|1MdO(!1duTefW8pr~_jN#`^>$%z&{S~|5W|5p6g(q@16Vp+79Y-p1+Z`*F6y{ps%
z-X6Oh9%2!(apUdfezFF)<~Y>ZO80oJkx1fSaI1H__=>bLckXRlxZSV*$WZ$1lFhxk
zWA}5Hr-wnl`Q~Ko6Su)SPH*okS<~%>lfZ7eotOVUX4=%`<cREB!3<|sv>9K6n6!Iu
z=hWB-j}58?i!_h99o>Gq!0(P?$nH|3tfKCHuRa(%guUSto8z*?<*UtuO&PCmgHAIk
zdz}&%k|6i3bkD5qSC1^~QDUrGeOX5MZpgHG4qKzuH!pa#d9P!{vFp1yFV3#KaJZV`
zYTn#4ZC<gq(#6r`HJe;_zS{SM>#&f~-^<tDR?C1l>I4~US%mm5ms_-T(m|f-#rwnF
z3TSP8zf^BUf$eEc2@R#(HFiGtXS4l!RR(g~QOTUL)2-Q)PdgeIzW?^nw!(VVU8|W)
zQ|F)F5OQutOWH4~^cwI|{@tZUtgF(rl$*1jt<1insuZ@fXN~3d+e`221*9(fqIvd_
z+T%WxA4{GsE%($8l<YL&)4s#>e_r1Eu)D>s|K^E(U7dEJI5zgotb?Vy_IJtOd9^&i
zbN60-?N4b*#^s&Wx<^X{%mivJC%h2>_dlmfMH#p>3Y=AZT{h3wEOe*O+}X9e3oqUd
z^xR#$W&NTv=RR;5&320|?O!1F?x3IE*R+tRTW^&^HVgH%zAT$oTHB#{64U^`lqdhD
zEcWsT-HA%4&(0HWn>n$}KQyt-<o-_vt-b4A#X~#<Hf7y-cBJsBgYo()VHdiyP71F$
zvrp`9%GKUg6VEb)d|A|Wa?(u4a*I$<NA>Ne?W;9&qP9F;FguVr^0>%@b73XtcAq&6
zO5T1M7X`IWhbDRpB_y(BJ*zxeJmrV~f=^D}Wq}*>wnvB*UEh2DW<i1UrhQuZGJ2Y`
zw8J(EuPFO@J3O*6;@rs--&jA#?%)zOHIyhU@!ViBd)LOiISyM--`{ttYjyDJ9ZHL{
z)Fvl!-kcIXW6$)wMu^T3gVb5`EYzH4cnQyR<o&g$Z-G(d_U}J$i-#E8zN%CFWx+A;
z-(6xxM{e$n$!?#ui{a<YTa$LmUR`witKKSyeY;N-ZeC-P&dZ(WEW*d5ZhfcEi@Wyg
z)8+T4t`G~WoG~NnSM$cyofmy%V_*Lk4Lz&{Dmp>OQ!Z+<zEM_O61Z~iO_}YBH#x=g
zrnvew%{fulSTz5Jud6NNO#U+h-fW9j=-4)%;shP$w(Ef5rWsq*PW&t0p2O08KgQ7a
zrDng-`ww4b9iF!ClX|~8WAzQY?p4WO6Ac_Dc3QP-anxRQWj%Z0T6fdIH8XAPFHbN2
z;xU<jZIg9-SKPm8|307Gx2EC%&$iu<rtJ`U-JCaFxGx}EJ$?IJhph#F-o0PFa<2a5
z0Ly8joc%nKb~81e$Xz{or{|Q}&MQ_-mh00m96Y-6wd>CQ*f(V@TaJ{>U=8(<yw^Ix
z`8jAbwP<B+$R?fM`v*1)r3VJP=taF*|9~;XS8r=S*L3g6hKi*}ndf<@S?Mv#_}tzj
z8#>wh?cz_1Ht4@zo#1-c{?MW<fytH)t4=Qc7BF#z+GWr_`$yArFJ2V6emijI-#3@k
zw7VVr?>@i!dSUBDgA@F64o|;t_KpnOm%1Y1{ArDOrZc!pMWSoJ)gR_+`}-!y&Gp`y
zJ0a3)uf)`Lsaa2`;W)m+WV+o1E#4EUvw~MVsw>NkbllZZdsn~4k*9K+q_AFvs11X9
zz}eq7mxhMzJ>}D$`OH*n(}cS#)Zdkb<lQ>2mm2vra1Y0tiLDzps9V1Hcq{EemS<mG
znVQGFKCib?C$gdzWvysxnZ0WItdDCp`kYm7t~EW?*50KhbBzmBnXGA)Sy(hFn|pt4
zXwB0JqOC`kMy}FfyUfM6V3O&C+K?TEGbXL*5s5vZ-W<B|iSpt2YnHoJRyFv8WSK+$
z-Ac?{R;&7ReMIM@qbH*0{=VV|l86o2vf3u3+V(fkQGcHn2Cg+r`}ZBbTF*3fO{2_-
zF0<XMD&zG#|3=@K`yyg~i*7Ab=#8xt#3LJBr3>G7ym=QCEV3Z-qv?(|53Lopu6tMa
zaLscNE!TaL6kqx5?2Hp#UZs0(ge_bf+MUb(nloe)`=&nQ2U#bzPZT!`+}a`#eebRB
zQoc8<3+MV=T4cFb<n!}#(0YYtjuf}nZ`PMnd<<Bf|9yS1PcAGC6hLkY;*nGB*_2ML
zcvjMxBWD}M_(p@N(pu{z^Udi~_iMGZzBKZ`xJhMoYt)7rs#9*yS+;5YcNVRa%$7I8
zQyxt9-BUbmYU;Lqi`a}lmizv-dU89^Q|<(#77ts8^wO`J)-N;3E1tdX(9I8m(~rJg
zaVL+Z$kntoZ4I;N^i`sF<2&LDXQ&+aU;XRb?LghKYI~;06RW<?y=ZVw&(GyRhn~dr
z-JJp2R*MfF`SnT8reW2?#x<)VrpA^3R!RG~WTSUbw-Mvt74;jMS4D4@owo1F@7NH7
ziBpY|;wSD~&sNqF^76^fwB6ysCDyCj*f(`^y>rR_`g5A6aE(Rb0j+v#tuIU8g}ATZ
zG%NUi%QEc?Yd)6or`cQ!m(G6PqxE2=ed({VkgV-iRky>9H`OhXU(2tU;`VyRF{5=Y
zwX*_EZ|)Rc0XhyTYE{VQ+@$lLy`<-zW?_2C*t=g~v#VMl|D>7AR?Y9s*9EP$mdt;@
z=upqslhdAA?4Qe-wXx~61kW{|$?v~K$vLS$e(M}^Zn`4to<<)wJ_o;q{`6_LmbmWJ
z+qhztbt7oBO}nG%<|PNuK+{h$LYAsU!X;eAN7v7+>{`{4BM;JE8!6f2T{_kMjJCuM
z`82n`6Uyw;b@wK`vI6OL-}GsPpocB{>noX7GmEAPD7n^h{}foYBRX|r;LVkXxsKf|
z=<F(9dAF*~dBwB4THQ(8qql^L8DG<%Gn?Uk+a)v6jLlbDxz^0$eqyo8;%!)@&Za{u
zQi0AVf~U`!V{}Ygqv9oa*G89OnC9*UTsv}&rM=x!4+dC^t2F67-E-sciC$~fd|mZ*
zt2cudCa5MG#fFHlULSUKYup-%TYk1d+p7$?e}neZN-lOfnx)43HIqHoH|k(fmFygu
zWg3M`q;)=ff_KFJ6+L3xwC3p<S+&aT`bRW3h`l&xY#3?e`}`bdh>_Z5_tbS6J_@pO
zhFcZZ#jQ$WGv?Vk$Hf0#%I5W}UHKPIGMssk>(a%h>F!ZibYv>TC%Z+gyR0S<dbmX5
z+V}sr^7yOoT-09GvN~zQ@qIy)?}XcIK6dWzPH*;rqqgr}l(HU-VmzPfwR3GLYjD@T
z9<Ie466qHr>K1n{4>&oa=fa{q+vZL4SvPszJ;qgXBIfR_?#1jn=9+Du+t_7{PDjOm
z)vlXfxl(y`zO!hh%IwFpexI4Lu4uma&$^WT#i|0A-3l0QniW1}(UP1jxj^agb=E?D
zKh21!$VVPge8zjWFP>yL(@v``bo1Z)3s>pgJbvw%<dzMZZD*`E9IvWknA&raC*|td
zw%0b&&I{}Nd%lzy9h`LOX`@Yp7icG2&gIF+<4x3qyT0-N<Xy2q**fipY6-*C+uMJM
zg-Ga~X69HNmA>Zk(@PZ<2EU%X*(SW=&%UeM7aY2g{i5vChh<BRf>XCyswkaU9Jf1_
zx5h-yIrck~jDzU6wfkDQ7CE{0D8^5)(|f9xvHQH{>$Zu#o0EFavwhOoRBOFzhy2ZN
z-FNe%&U-J7yc5ltzb<_S%l(I4S~r^~D9-hLcO~#|*Zs7(EOF7F7Qq=6_G049l_DWu
zeoWYX{=kNXO>>L?-bf7DICJ_f*Q1r`F_lm6sK5DE*2T^AE-CFSXGoU)ro9We!q18s
zW&FOB;{R(_&Eu(|PCZ@C{Byge+zx#C_ry0f?KHW#Lvv^H|CG8R;TF?tvdphGZgbC;
zxelq{lyBE{itH?lj}>_LY>Vn#(;e5e!Y6g--4|Z*rY@yA+EH80;E<TFu28D1(WYrt
z2b3xpt}eRGKJo2ao>Mz?)+=oPpv30!EW<=|`mHmGmW^KDmR|eHleIG6Ju&etgIoOK
zN)F93vzd{4zAxIItEx%7$-J0%G(YE8(C-x+HqX$|WD#mS6g4qx{<D;AuNQFUCT*Fy
zzK=KL952_|0&A_C)2*CDgU(mo++DK0CsoC}$)=XMmnUS><EJbjxd_L4-UZH@x+x7_
z+7b6GB-&J7t>|Bz^($!i3Z7+}on7&35_Yj&)al54HD~ie?}Q_{6%12vtqqM%NfrOM
zF?W-CO6cz9IrsY>@0<qS6~L%<^~|=04UbHw>cy=~k}WNkaY!x8zG|dZv?oos$W2G*
zSJFA(38&m2X)c^3e9nKtrrle!R<8-r7N2Q<?kVT>>DEPRY5$Ze7MHjdr%0z9S!XW)
zTtI7k^y;uhk8DHA5+|?m$y)8QWnx@gjLZ$eh|Wv8FIJ!AV-NUwH)^Zs)V19&Bg52U
zD@&}MbS5X6@qReO>GxH5#jKbt*}omDRfEl^E*0H!=T^*G1)&z7of%WsNr>yuwNwK&
zNOv254GW3M@0hnLm)|+8@pOh~`iz7iJ>jQ3G66vX^Qw~$T@<+b&S$T0*gU?4U-rC9
zc(_#m)WStq&M5xg+Q0acuU=`(sRt<&Q&UUNd|gz&&iJV4l9_AV%+Ixet>+ibUCqaS
zZ|>6YR=MNb9!=ZV8O-4CBPqS;(x+oDPj~4#MJh9d*nKF<6_ycw_LxJqh-vE0{_eaL
zYAjYK`Z^c18*ol}%CNw!gmcxEo88+w_vuz~OugIRee7%5yw!r<-D^~wS)z@aSU<98
zZIAyQ_=U;j?%(nm;aU;W7tS`;UR`}NPyH|GfDX@dje1&4rXOowF3Or)y8EKhd!BU$
z*59+Q=DA-jX#JYX`bf}v?a`IRPE(&Txc^vn@Uv`FrQ~6)?%RQ;F^RDuHmwZ1YEKt_
z=6d#_osVyo!qxblbx#i{hVX{p$cWDj6-tk}k;1X^YucxXh`B#*zfAcwLF@R%Z+|mq
zD~F`rn#;Z5dRP28CmrF*#e4qtoj&%nTg1||)3hnhxYYHmANz`T*Se2^*DHq3H*Ip*
zxx{tz{Haxk+dr;mUXk)XC_ZdenVQe7@GYC4zCGi+N11Qe?ZA`wmfC4uFg7uiT*3A(
ztk*c{wAb<%?9X|^kAIW_Z6a_{{j88<d?shxg|qH)t2#BKZvT)~4|qD`OoHBlP3s;0
zT#Pb$kk=-*;P5jZ$FnitbGW`$>E^p{eG>H5PD}a4B?hjuf7i@1&|#UJHEGSU%`JKE
zs&Btp)v<nleQFWcrle`>9hW8Qy!AUPe66u=QS^bZjr-)Zu7cF)X~|uF>Kd;#=Sl|m
z^_$CW`lPNo-0SnY^|m%dqHG20|EqKTnm4Z!O^Mk!uLrVDLR@t75sx_YAf8ogCl}86
zVt)Trsv&4v*iOr6g5~~DgZT=-1cg>L@Gx4&Wp3Ag#uVw5HP51%8FWnL$yJHJ-LsV9
z&jlY~eL2Hd{H1E1{chjw`~frXp7^$FeVPf&)rm@cil^TnTqm{hrJTdoBe#D~eCr#g
zo3B?Cmvee@z2iTZ1l`F!7Z3h92<kA#E{Lk!X50T~?TmI$(=#i7_s!v1JHx}BeHZ)D
zKgU=@+bbi=v$GdZ1sz4VU8S?iJB+t$=DZWDRbHPm{O*^r{Qq3gO!vMuH9<2{TkEY_
zx_IZTIB;;j(VoH+AFCOrZn@pQsi@d?GT+P{W>L|9AH0}189b856|TQ_*&F^%jXqsA
zS*-F6e5)U6Zt-36f@4)`+$)cG-A$j~PBE6Ko!ZEw&nLd@3BPrt*W1^tS*PxP<$29m
zV9gSPlQY$7PtGjW*f#Nf4a3xX*TZk;nJcBU1Q;%zF5~1ePy39+zayq=#Fp(@rPe0n
zp!!^ob9H{ISH2P7ihG{T-!@#_Gyn3ICWCn^r(0E>`rT>2zx~v^>Nv^J>HL*mhCj06
zm#(}Vb7^wz@!%DA_C22(IMYsRdW)&+rPn3BDsfvA*<Ub*)ZPDl>gq*>7gH`bzF(H(
zrFc))cIWw(>++^;cJ*7p^?TlRtF;X^k2E58hRl0qzIanXnN4q}*|m_ZhvztLJrgTc
z5jT6yniVe&tbVa0?d*i;pO;k?eiryGh}v<8ZQk_Auc6X6kL~dPR#RX*`D^2Bxv9*`
z>o(jDtdyMm^Ves8?~pRf=E-LYH(#B8B1hKki_gT|K(&jni><zX3EduNqE`zVd>055
zFm2%sd$NCikE5{q<SiP;QzlfphGnn$0Xi4ZaHgJC%LfyF#=BY<D&ixr{dkg`DY}DO
zdV`NSXk%W_$uFr_=T~GOxOAq>IFsko=UTOyb_vEjpf&OtthS#|wg`x-**@K6XIj`~
z?$dYH{$BWkohyHD^<PkQXp-dHZ_9T5;QJE2c@Mjw`bD2lO4h6R7JfQ3N%D>M<;}N6
zd)5W@rbTwnxyu>i7-3W!X*p%p!(&HV%~kn!?bggM6Up`WnDp4VXK&w+3H%G9EZECZ
zS?~3fZPST7F>mr0*IKjh+1&NtSXQ-aztN1We7AkscjXWA(<-We&69C>K7(VEMDxo7
z+ri_1UwN8qQ?0kkOR;Ia*Lv;wV&d;T9HM`?isDbsU#ESNe?ic0OZ~kelZ;oJ?|yIN
zZ~OgmM&7)piBB`S3*Wk{H|<*FHMO(E)+MG>ufC2y^z!a2&P&sNc^s@^QeCw(L4=L@
zR+^wEqlTsYZ<bZd%2#S@=bc@<{I$^<m+9e0ZqH<Qc>QnRE?JPasiKmPegAMh6K$8|
zSn^$QiRA05D~GE&KvMU^PZXV&T(IT#?3wx<TzwS^{0p+O6jtw?W_7)L(bZnf12$EH
zJNRE8`fD+1vdzY9zZLf!KmHE>JhybeQ89S+$x;D{xv%2<-HwJbm87$KAA3IM%2Zij
zo}IFx!OS<Em+lhXFY)QAE6>cIY`P2bO0TE~n3_&t4%yYI$Sk&<Z>nwKiF~K6lL}9y
zc0La?Ff*O-x3=|^lcngyn;sFI3Tdw_@AJn^pQ3zUOWtomkguy3yXdKkomSQjzizyG
z(tqjhp^1w;X3Z75Sde!}Az;yr7oAgEty;a_`|Z&^x1h~1>O)#gM7Q76*|Sc4P7nN9
z09wygvHJv<Uek=^)4#o9EXCWN#@e!eXVKDDzFq%!o6FQ!zd}6D)Od3)iJK8U>zAUQ
z@I#|JORubSxO(o{g}=M@fhr4m(X<J-d^>-)&Q~nBwdsUP<Ltts)}*b=11cqNzFYXH
z$y<+``SHHq%y&Wwk>BPS9%RsbS;FRir;R<p^v~Pa$eY>1(^I=d%4)U*E0(TNW3!Fy
zFJuZmeE;5bQCZy&0b1OfYTt^TW4!ypxFNL1{d)dYe|3n)g~s7$q*Fu8J}|kZo?P(!
zMA?m*=7q+f-9nSqQ$%Oa)co=GR90WH&n(9<hIyb%MV9|wabr?up3FQ>^Q%*5#<Z@U
zAj5NxYu?-2fvI*g|JMjjO{(&_6#gYCjU`A!qv6o4WxopDXGoq|4Bkvr|832sw<~W6
z%$a+#Pe-l%qpQYOQNF~ij~Wq8$L?6~iqGBg1-uuevv|Rr9tM_`@!Qk1*yCkCJzSDE
zcaBe$v6f{1`^8Se+uqD(Sk<<^f9ndVE35AIf%<_fLX<Ms>81q8f8ObGE0Xn{kWxTY
zQQ;g1)yHoai-yD$_ArLt+1_vdBIcckU-pvTr8(bTOnqARyz`33+{OE4Lq(!Ww%nd7
z{B_!y4HIYSa_gS@sGXy&*YM@zk~L`yU3afg(7B(%7Ggg$s57dso2_jZ3+wlvzkaQF
zmYMZyZuO=^Vu!e_-mdMlI)D74Lf87@FAYoG!tTFaQRK7iMftn+3$oQUZ~Gn1pXJV`
z>U6ySX(`v#CtRzuw|(7n!t10))ur%IMzPacJ-HXl4o!R)w(%TjpMafK?NdQM;YzCv
zkvZXc&i9<3sz@~#zA4<$WWIP(Ok!=w3y~*N#8+vStozS&T>tpC&@aaA36s_+g%wEh
z7xPWM{q|Wzz{JO@k#8AKm3|Z5c{79k)vMLB1ApGl>&s<j{(kYf(PW!^Ch2bOE!(p!
z1%CH}3(uIu#dqb>51u*xTgxlWd_$MwbJ0DsChD);8IkWMTE5#-EW~D!OuN)Rqo%`>
zSI@*Kc)7my;Qx^4Jl*H+!78S!dv2fIcv7q7Q^LwE>-S7Golv%`%JS?h3oX^+m8Ean
zXHKg%z1pmM`S;21Ny3${4?T0v*kM&US8)GgSKsa1%Hn<nz5gD#a`oeYn~!`ptT}O<
z)6MU>>ksFW-{1qsYC~4ot(<YvXjSC${8M3vRlgebsNK8Q=k+YeeT7t9ty}8SUcSx#
zj;0eX9^WGWyX-f|)H6%_zJ<<?ZL&YXxWy>y^!Egf*}DFqW6kWeQfAzobo0kMqje$M
z_P)!x_I9I6fqkpjv!LHAa?%e4)f;KXpD%Si%Nb%c-74zfvU{H<)udZ?vYm=8041oO
zDf>W2t7%QuNl}?Da$85R^quAImIutY%`-I?`OWKJziaxpnbDwA`X~7>>(`3Yew8I^
zyy`+4V~p|j2Ns}afbgcSg#M(xEj?P-^*6FyRmpdM62u<$g+WU-+kV#yrr63i6U2fg
z8?PENRzB^QY!*m3Ij4qc>XXTm3ym_<KAB}sNENMJeAM8<@+Y>otzMr_%1pdE=Vi&u
zK9-5WT?|Rn&h6LH*4}gFqGZUNA7%%a==@zI`6RFTrd>+)ZrRYw)1#iM^~42aT5>+0
zbY;biJ$)~$GfrKJ=~vys``Td3Nzg>um!*6GH`_WJ-@lo&)z>lL8qW?RTc@d-u?zec
zX8j7PULlZ`@@iJrB%`>z$CFsHyQ1sP%yGK<WocQU=8fq_=N1%n?l^li!1A2Itc3*(
zp_ivyML1rr68^B_=Es%GXD+U2usxJ2cBwGr^qwn@*NPmk&YU@^@Z`Rbb)m2QjqMw}
z-lpk_he+(S?tIU#=C}CD>#P#ngC9k-_RijVCq?weNiB7qk8d^?<(M1KP?Xi%A?d$h
z(#LPRz8#)Xy1jUZeS}BOOkM6YE7R~`!ARo{$z|4&442ogo!i^9{d-_y(wY|w_IyaW
zlxEiUa6ypi$`34{Jq!!I{w$mNzNS(4P1fqu4J9Qe&JW8%jPBV*9rT+ouEUwfqiSv1
z_CiqD@Uq|k2X8^cTK%UIINTmrvKGAexq3!?%hhGq*89zQSQc_AZ~b#U$=wUGlwap8
zlzOJ2czx=&uvxm+@rN~{X3I?C5N|M<1wMo7?KeTK(|3bQdM(a$$E1kP{-ZGKm%zcd
zJ}J9pr%nZ>-RF_*OPCGrTNU$FY+8Tg^Trfo*6u##hAt(gBG3}$-76j}Gg2+Nsd&)T
zH7IOLLulxHyRA)Ox8Bx9F1+SllCN5u+AS7h`rK}-WB6l6P~&>xCK+L+;<lchJF0|z
z&0>`E?WebY5YgIgJu%nusloctjKXcK!Dr1@EM9BY$(eY<5wyA0@|T@f&otMJ`xh>5
zDqg1<l=1w*n{#F}r?4OGRnxrRm$jem(hk#K2l)(dzDaDVJF$DN=G;{>mS$n)_gu`Q
zvUg3L`5AP8oLX4O<~est6W9Gtdu1GOHkILn$g00mCs;+ho;nrte~NM2vnn$*<Fxd>
z@XrD9cR{8WIh$^NzwV_J%R--Zud^-Z9?;J^{i&>$4Lr@Ic4yY&a385%zDjA4lG73z
zG?$vXZ@bv`_IKHD(D{9{BLZh;-rM%!kbrcoWVTP-A~oHh^7C^Yw#GB>eEZE$&$PdK
zMVj}5%mba3De3`luRF}znpS-%$6v#zK>oSp>#O`X8Y6=G%Bu}ILC1SBYp$`|e{4eJ
z_Ucc*M$S6djkomJyvXADdvnv=lkb;B&$QI9U8$UZNZ;J=iKoSrUl*AoXIp<wGG=8q
z=ZjwJTKbbSWD{Fa$EsfAFUt}NjJp!_?Hj=d1{EI6IGlQLZdK0q<_9K4=^P$US3i1D
ztgVr);J#_r&V1(H*>`4FJ$!FC)6cw#H~-Pi^pgH$){}QmSA7xDvYhR_AnLX2U!5DQ
zA98IzRW81HE+(<7dit%O7Pj)sqaDr7KL@$5n3KIl<5tTKzqGK%cFiT7Iga;cs0Xb4
zdw1WWu1{r;gG{fc_-r}Hd2X8GHwMtMxc*b6k9pkm5|ciCQPrJe*Xnid*^5O<&n1^I
za|lmt6*roHX3n1{O^Rk4rN5;Y%Q&c(R@>e@xJI<3N=#;_xZJAiGyRi)1t0rm?zjKa
zN$<OMPEYsroQ`|2?9{w^ITvN4nV=mg_gs%=m8?qNXRyLdx{og`dj2)x6-)BopFS18
zSKQQ6eBPgPCmWZZ%}R~AvuM#}VY9;wpnWkRZd*!U>8zfaKgZ}?g3xU5%KrJ_6aH5)
zJ%6-yla_+(seJb(&E1Oyt+~#4oJg)_+k8IHee0K{d}<eUR$S1MkgheI+^A}lsIc7S
zcU=Crn~Wh@<w9qhyb@n+y>UI}?1eiw6N)~_MC5_GQcKI#FN$n>v?f*brrPS8=B6DB
z9!Z=#v`=zs&-VI{Yu@OXea?!n%uBfQD^gEp|0C|@XC5bThR$V=4&3@@(X#mZt!KRV
z-gjO4sPt2=yXXy*A1Pvgc%(K9Wxrbh8Vav%SvB+dxlKiLii1uVBxjv`%E`8QcHqg1
zYWb@^vpmn}CPk_~;-A7;eJP^RF;mX!?Ta0=LPE=#ruJ;_Pr2%IDmgMWZ;#S7wn-uv
zdyBwT!JBUro~gR{XQ$>Su^hS@F>7wjOP7BO-k8`ldVM-s5?E;6rzvwOG|cFi!=hjJ
zH#B+2zf#}5=}}(fn$W3+oSV*`Qhhf!^FnJa!&ISPuXdl`uNiPN)A8xfpE-+6T~28q
zmpt*)+ch-1EmT=cLu*=jz|Fe9p~m`K`?KDq_*!aA{!w%AfzSPu_gH@ZY`&QeK0{Ga
z>)iPy5q7;NOZV+f-14mQ%fGa{c23}h1|}Wu7KxLXU#m6FTHY34l2!fMf5D_V%!_M9
zcQmb!ay+wj${Il%uIdvrD~(sJxgB16)pcrzK-$HNt%a{L*H>@(7adah%13&)*xmV)
zLj`_iHFR~`ONAH~wu-*)nr8Ryuc2AryVs{c%X7{wy*BlU$IjH+qxVBUiY#oM{`*F^
zpXHf{tmlIwWA`ocx>CSqsA9kJDfl{((iX3ioIP(UK32$>Ml(GsI%{$yYx}fiKY2iH
zU(U$0*E=igwET)fS~l#{dNsjO->@hCZlBlNZ!>aMq}~1TZbkZp+OQ2r+I}9q9e6S(
zOI}p+#GA^C$3ITpeIvYZ(!Jj{vm}Z*rk+_^7RWeFG<er9?HL^mzjE@~18&}xn=BN1
z`nvmS)tS)+dTp~FmWAYPKb{ipc-P2R@!W&eNv3t_CX4SJdAlM-Z|l4AZB>`w9`a9*
ze0l6V``JqgO)2WD(tdvp2elFPv~C^tjS<}6tIe+cLgt<HJia~U{NOgx?iC6QmG^{o
zLJZGv3obcb7<f3P@|tD%`)?4(PGt&@v@QS5)W2`$Td((5oOP>|weE;-I-as+{S%Q8
zF;S}**>Y}1QcKKBn5Is$RjUnIxLEQ+XokxluCm`7K-+w{kH5ED^{QRL@6Ufj)$Zy`
zd!83EP7BoBc}+b)GVu3B`{o&uXRH!tH=SBB%R}(I(5BCBExYEkN-W&8`wx%ws?MuZ
z9rYUad~fO6HevJElSg)11ms#cslLAbx=v<y!Nyf-*A(j>?76m^w@*B0-lq7P&91>A
zYZIn!-@D5Wq-ytyl5#DjRg-^;X=X2D)aH5Rn(w~#{QZ3=x?YyJx{C)`&U+R9YW2%k
z7Tg!M-p+ReOL0x!y@PMpD?8`C8t#8W6_zj>3f_3@aQ@E;yO7Ig_`xUdq=x=cC^)vl
zW|rr&S=H)mx4lfCp69mpjJIsbtF^mhyDxlGT5WP)(mMKh$jr_Tk9xlMphL5Q^CKOv
zyxcO!ufyTf(=`sQ2X?x(+*V!wi!<c+pSRMh>ej1P3I^NWWifmbnEUqaiYU98`=_li
z>$~swrz?EI{`A-Nvyb<5+uq+9e!bmluUhs^$EnNCm~YeAwtIzL;^A1ICOgnHRr`vX
z6>sl(E6J{yB+PlGWBWITRnz>JwRfqDo9+y8FSDM`_oOZP^fwm1l<Ac}7(fTeUDMq?
z_fGQ5i?@9OjUqRBWQyiax_YBLPdg}Q{XZ|?vwN-xuDVfHETO2i@3TSHCY=QC<pFQc
z$KDEHy?^X>sk(GuP2;QLyZ8H6fhQTn6{R?)dS0>LsdYx$a&edM%M0)2Z5q7Z-fzCW
zFYCr^1+90!%V)E?EVr3DbEl-`pTv`IKjm4qd%eHkoVUC1mY(95iVsPW8z$YhjI5of
z{jeKU@y`5PeL;7Z?TOFxmMpz7N1Y+%-^aPV+x=v2JzG>=owa>^?aJorg4^M_a}KJQ
zOCA%M%kX?bH0Ko+-Gjm_mfZdKQ+%rV!*Fl6uq5Z8dC4aP>s~!Ec^$SRwT3M!ZtH{y
z`_r2ft3^v%yl%aX4bk|TWwndr>XbCoEbnbojL$?L<b7SMTLl`x`@JG#<Ed>oLiAUy
z?_<B`)*@1qQpa*si$y=_R`bKWJ0Pp<T#kl(54Go8#cR3Aw~v4M6GidM*Id9OgLYb1
z-#sj0*?Fns4~KUf&+)H!ew6J4wXbivo5n7W{PFUK+1V03iPsLxHYBdm(3SQ1W!>QQ
zbXM-xb}mMbmx7<SFJ-do?JG2zGkMJk!`aIwU3|d;S^{Ir{JXN0SFyI&w{>Rl5sAq2
zIh)r==G@P-Z^-IAX``xrHaE_7`RmkETk`fqERoO&=d3W`U;KgTPvWvouKWu&HN9Qi
z&n3xjxtA~5VAjiPom;n>C;t`DT6uf_-z}&3+m0^IPx>7beOh#a@uqXve%(nw`sMzO
zhzGX!&MB;u`Dy;)`FHR>)uW4TpWac;^GfKtHR(JnOWa+l6QG@<?@yol{^;!zgPS6~
zDZK2HE42f1PsGlQ_PxRx614q$VB>dZpB>Mxspegoy;1PQ=gpi~pRjyB3z1u>wCv%(
z#7`L)@1Ez$Ids|{v?t@&O+78S2{wh<pRH2=O<E+M)W=!1UMtA3nhUf`?D3}cOhqf7
zwk+V@9Bd}*%kkz`(wwlBu0Nk@<)>F)ZEFE-i4SD`WUHF5cmG^x7o(tqQLK~G(&zP(
zQ$cGLyRN?~ir!`UY?r{SdgiB#O8-CR1nreq(H3{{6<k?1b-|)r{o4YzN$R```H|4X
zwXP>e-a++sirc1Hw@&hX2%0>(<7IY%iC&Fh-;7KA3qJk+_dsj)3hzx@-YjL)-5X-@
zWijZYr^Ng6cLF2@FDK+Ho$|Adc_Ovp#A8RDJ#QY`HfX*3-Ta!XE%FTGLos2!ho|3m
zYu=Jbkn#xy^(%efUoxLRbwv@c%8%_9%fik*TafSFXw;gZ?D%v>kK_Ni^7x-qVzty|
zZpLj@{5j3{eGq@B6c1->sEdMOv{@~G`irg3Pr@5jW<D><tKF&|pc%RMvTNuc38%wx
zpXR<QdA0D_9NjC6m_C4p?=n@iBbPQvhR(`9Hnq{(`I+eJGL!nRriU3reBWP6h(8<S
zIq&#smDR%6bBjKoY!ByPi`%h1?o;_(ht$-s=NPVD*<`ZXMqgAlbIH${9_(*s$-E4*
zD~fEiZ#~tS^MhmReCcm0cV|DcikEe_59oKbDzV$XzG&{5<-1oHtO?qrx8V@iAKw52
zi;j1bwDfm{-3J|T@&CD<*44KG36tX0G!-2q&(_(!b>Pc-dNBT*%&HjXpF69Z!i@Wa
z^{W!}=gfW(WVk8+&y$&-IVv~o>o4X2-H`g)Hl%a9tmyP;pXR`yX^&WAb!6%<FEN$b
z_E0k9?4B#P%F8ZSu%0~NrMaFn^_|_PnskHnANFZk{JB<baJH0ZqTS()b?F6rwZfd1
zmMKq=UbU^L;rPYkEfR|Ze`=*IUjH)Gw$ZET4`1NfP315BR3~LvO_W$9pcKux?x~Dz
z<Eb}p3dUM$x4TTg8{KcV`^n3}IWbb=rpVPfJKkUUDhuA3u*pbwwdi_<%MO#Y)au(d
zsO-M!5w}Yiw6tTBgX-&&0&9QGAHhdb4%D8VxbD(6>%LR(-4x72R=s36D(REz<hqUV
z`sQa#%Tmro$A-DfgH8O+#j@J(%;NpV;b&7bMblL$8-LsSf-$7foGEfakjGJ0zHhfv
z<8Qi!B|N%dBwj0Xb&qtTPJm>rap$L$pu2ChONt9tKQ#jlJt&k`*FHYbkQTBk@iT+g
z@hN_(Wt}F?4;O?j_tr2Jy4<#To{Z_Y4$#O&5a<rUD_6=i?lhih@}1eC7xgW6r+=^e
z^~*o~E`Rr1FlpD`ey+RepUqs9p4`pbyXAIh&f+FWE8jKl)tQ4)lbW8nt@LiXdS-F^
zidna2J_hYGf3sTCygE;kea^wMb*i6O&sZd!d?h68%(r0DuG*e1_I7dO$qU_X&v;bR
zn{~mxo?+_!uWDV!7R4J@O%T;Ce;1~k_G;m+0;!6X>;bK@`AM!<uh|@4yj`>3S#OV%
z&ZSLj(t31`DJ)aaGUi{<wfo+YE-vQ1hr;5{Tx0x^GAW7W^oH}XH!8N?x36Hhy63g8
z&Md~8DLif;4(^y?tAB>qzf#8N%E^D9FNCki?{BWUcsuZD=JnYcDWVR=&e>@%UwK}P
z+SMMc&Tz%9zw7kw*oYsX&0N)I>z{t9V$*e({;VMtchGwF>P=l*+$EL00i{2F#q77*
z_0s$8Vx{T#3Y#uS7|9l?{+zp8>zUw(1q)_ZILv!@hY4iHZ-&r3j#YW-vxE0M{bI_y
z@37$EW8g7{Zmx^`etV`{uD4d16cn$eJLB^k{zZPrctE>~jqcrZO`Y~Q>|S%Zo$!{f
zyvWn{<37mF1C4b)uDu%4dbf3(SHtvxl;eI2xOShZIJ$4ru8D!BGFdAX+cW(cx6N{|
zX9&HMdhB*sz~Z>j*H<1+`YHMD(N*KdYKPE?ZXq0Nd1R_T1c)bzeFM4V@9z9l^DMT9
zOln`9uGLsH$w>B4+AUQV(=|zN7rY902W>+7y<!G;aGAz|SD!UsyV`AiHb=lJzHM&R
z_QjJve$&%>`$Deda>#k1U56u%ZCYzs%E=09CZ4RQmY=HXxs^w{+~&c~E=`B{k7@Hg
z7Hpo8R%Z<wm3gCG-y5^mO!;LR)BFe)sZ%1xOy!=v-(LR$Z<^b;re^iV#O>`<PAIZ>
z-^*NRXu6#3fwI!%%saw0CzM0H_r%(&YM-3P8)7##U0IgHYFCOekM0xZ6=J(%-=E?t
zp047~{fOt}XD;Cx;?G4QuU($-^-Ebu_uYNk+E?nfY))l7-6c2Kq<H5yYrh3iNk+Rj
zC1qv`-rOgBV^J8lT!ZimP!X3_AHOh&eL==z4Wq~qx2s=dCgkxij@mjqaOG0{ulC=+
zi|$(D60YE${rc>(h%n(Dil^hQ3a{9d_y2rs<kxqCZc}Z3HH0&tPj*P(xaN>;qt@-W
z^WVSM?(MJ-cgo+I)nRP1M?Pmq_qn;kD^lKHDzDeoo;xS@+=6GC$*Fzw^qwEM`Zh)F
za?`;NPk1?g?c2)pv-6zz^|v*Fr}td>T^sUa-KVURfu_6WU2gOLyJ_aZGdt@--ZFqD
zlAWH;vMep(J*RioSY%Diy1CN}nWnypeYMyrSb^Ps%Ap4@uk7zo*_*<m6k`0UCP`u8
ztCiba^W9Z<9&%d|a{6W^d$0alJ&x5pJI*f;aLqI>34A&2?#Dy>u7~*XZacY4;@-LK
zi)Sr8d%=0Ch?to6^2wLE+G4h>Js{gV<81KWY1<b?{R%Rlov5(dPxN){@w{uts~)+n
zm~vtUPm1fh?(C|=@1276Pu>1omUmcCOE<S|-5QY<r=;%Roc#Rg)w&bQD$;Lw^Y-f2
zGEEf}Jh5-hjcMGAR)1V)EUzy3LA-HRvG$B)qxtU_C4Ezz<Jj)=bxP&7lcn>5?*2`?
zFR;p>YdffNznz_Cv;AA;!U&o6+<7mw{LGlGc3IeG=>B}4vijGOb!|~5qE{Qf%ss>R
z>~+!IJ}q#E-ktUM!iO>q){3ufDz+T%Q2bUFvT5Jm{;X3u#U*zu&Sd+PS!-^LIp6q{
z%j|ubagy>**{N&t-!Do!=d*z8oU8fsQ;Zjq&9-ko9&$u!#WMeelfJ%<4e==sp2qbw
z$D;Oa$Z0NPk+wS*%|Wwzd=|#rMYrfqXFaAp`&IX)eMNJW<5$e~UwCR)?SYv)PjDTq
zJ$UDI+3u+qZ#}u-)Ty!K=bh{Vrm14vKNqm7mlf%lC#Fx6?x_~|x1j9tnx~8*y3ZX%
z8)J5#Py4bX<j*pWlP00>t>R)+ju$5HxO;igT|LF6OYh!uJ^G|!(|t+HUnWcpUyGmo
zGSu=ZvrSOs2QAX>=Bl#_e=qWS(j%TW@40DLS~TXSy^?*{D6=rjlKq!<M1REjSqGOz
zY2VRFOXG{#EWRJSLFV_0koDpZ_@3U}6Scy~{0?Im%U1cK_jh`{ZoO5G-1=t`OV+c8
zg{l1O9T{iuyL()6LDZXX%fC%c6te3*=)dxR-`p!REnk>eCU``h={a@uqRiykfeZCR
z4VHcn{ONgGZ=v;;1<MZET?*?syX;hu@}^|<0L{SQE7y6>JP-UGp|kox))nPt2{&3E
z8}3=KLpAp0Ce<>gsrTltd-N%%@5W38&#r?jMW(eFJ6Z)lSDI+#7`rCHD>)=|&AQvq
zmqOM@YSd?1iFg=qF-*A^xh?0DMeC_kJo({ais?D0yo%Pn_HKUv^3kyj@2RH@wYuV~
zxu)KpyDsR&Da*j$h3ylMPP%%xVNuF~mI8*U(<Se%Ta&=aBIe~$ynOSTS+6p#^zUrU
zvv2VFbn=SKemy;HiBwVT%ZBGQIUV$hF05pm*y8H7Fs=Be<JGr9j}+OgZEj17P7mem
z6Wn6GeBQB>(ycKvWzCM8-zR{^uqOGZHE5Z<xfzpuXxWuF57nigahv_?lC--!<ILL?
z)An6i9+-K~V0!WNkoJpQhqy8hy^A=(9-t}t`t>{QPcLp}aGG7;xa{t_%ONgRy?T!=
zQ=UzE+RiX*@}^6>LAK_wos^no<)FRm(2NBM@fVH-t*D<h|3Wx(h}#c~zoINUC%?Iw
z_dQdLm$<xwx8!DP_M)60;pZ1@bu#|5?@?pPZ64P5r#4>p3{zV+&A~hU>=MsoYVG}b
zcf#-H@ofdo?JZ(b4{F~oR+<^}+p(NGGrX@{T5eYJy``LS{Z{R#xX)g27hTV*ZdK18
zzH)-YiJOY{g5MQ>%643i*tGos&(ABi77nV<^>_mfpF0U2T&!&I^z_a<Z>MqI+0Of;
z<*Wf%?whFQ@nvDW_m}&`o<DGDR??jxCH@O%T`qZWexAeAAmzVS(xUkdXAc}JIH<rM
zX{jf1wBgsS@_n*XvtQlTo_)|i`-}3%|5G9vG|Kr-O^MUe`E${B#<l2bC+o;}pFiAP
zRSg<l%(>XZ<*c%(XVpUUnA6hii?n2ad4V?atjvFZifd2G<~!jj+u6f+u-|waw!JvQ
zZ$Z|p+wLo#t-QME;<A}lGa98YuV&FsnBuRVT*MF>eE(jo<J5??BHu1-F{oU$qVs5z
znk@Tm)wgAbjaMl>kI~kx0#%6X-#czOqdI$G;uS`%WYyVhDX9+w9t(X6w)NbZDtGMp
z_kfcX)#9R;)lILqefjHku6&!C@7Z_fK>h+veW<4WJ#{)+_SD8pH~j?twxmVg{P<?`
zZP55*J!|92m(LDxCg{sATdr6;O-p(0;?12Kc<w$)4?J1%JAu{t@ZOrlPjk=hx%9RD
z$Tt!7pA1vym*rj*ovI!(i(AX1HCj|W<m5i10$HZ>ottNzUMcXyc!A=K^9v_^{Pr-f
zeDj*uk2l(?=C-8$^a)-3&~Eh~j;TE-uiUYYTVL3A;X|E|1k0KDEh67kBNdxHy;|0+
zTRAQCbnc7YTeqG%J;O&{G%I4YV&wEYKPGLvdTrymRSTt}YPhEMoa{*voq4RlOht2j
zQHnJ4Jj)0BLVGu_sc`suEfIX(Sx>;(;KQP2>}vjbSDho}Zw4#M+nng)S=ae*Qdi}V
zGVq$%R>`M1ijyZh^d+v_v|zpWn+bf4fv0~lr3*NIcyQvCSKw~p6^HaLUuipKZsU4q
z<GJalt(I`Dc%k(CV*KpVLZ+#6c87dctls?MTU(-O>6+7=?qW-|o8JVTPkV8FmF{QI
zT;^F_cfD<)w^ttD)D*z;Nv=3lw9Fbb{Wp2jtWsm|7w1aUcn-Rx{Z6a=D5ACXbjIG3
zr_OFlp3D5s&+Xw^n>nf_457mL>z942*qza)kS<%)XLm|2&SK@{7rFOOF8x*a);$As
z2Fw}Dm)UMFuBcrx_#n+QXKSe550+JG_v|KwrpwuW3tg1w*l#g2%Tn#I%<eh0eZfa<
zYOFygy|{|5SG%>gt@Ko>(K_2^8BML*8~j0M%EX2|kbQWN<4MZOjJry!kL4Zbs*2{j
zYTc@3A{%NO@=a>ZjIfzSD>K(G%(~-xZt(@lo{S~mjcd29ll+nIE?WM)GIzzKi`$nd
z-dQA}cJnW5{e<lc9!<3L4~gsvIJ^7v9<z{Dk&aVDW<K%FxoYjO)Y<U%SCLgq^-Gty
z-hK9X%e0<c^-YozKLlsV+HBgIcH&Z4!YvaU=63u2?Ovdx^7S%XRL-ciMmf!XQ}*Cf
zjF$5|g_S->8*}?z7WHrV;ga_V9IdWLg(VdKXB`qWIN6!w;X9>s$Ema(vQt6pep;K_
zw)M+R@w>Foa8A#>s@NOspiFc2`t$9tWM@{sFF$>0pBJC$&-Nwa%YJrNZ<x;;|10Qy
zdEio~C$pB%y3HQFtf*OfvS-&p_1N=vyJe^LZ2z9xYN)ox^<gsW+UZqn=kJ)aMoYGc
zT9`IO?3ppA6qIY<pXSo#n)6LtB8f93z_;!C#LA=V{)Yt?g9i4$r!GC|s&PCn{a*jJ
z`;y-mXeTwj;?%WrFzv1`XgOuJ+ct2?hUcw<uP5%DDjDV?s=3quV%7fmXln;h2{gmz
zy66?(+KNwed)GX9w&TUw&^5{-ULkk+%dMABU!@f`Wz|v@hPT;UZZ5xb;8(K1m#RaP
zBo|C7tB&3L_VA`Axw(0oi<VC}esO!{WwyCD^8_?sRjmA5)fNd_*|#9SiH~DNmCs)L
zos(jY{Nm}jq&uax^OQ;*Xu{^M-K48`p3UW)n!RO)<IIj!C%K}k8I5mQv@*B%r-TaI
zJ?s0r^JUG$oF6A<?*Q$Wb>GAlS7N9h;5&aRV_;ydp8tYLWxqYb!pe3neOA{eq8mOh
zY4hF^>DRY^mW2eqSiNvfiaE>Ttex-Pnyk5J*^njnYgKob`bCrC!|xwmTCroH)3u;a
zhh*KBPTzOMaeBbUrb*__*6~WyBWJuYnK^Hcq2r2-XJTizx<6yl+Im}c%Yvf4rx?R{
zXSuI55M(-EzU^{C)Ir6Ns_otxj;`D%LdCdN-kG6((V=_VJB2sQ9$e+0AMxxo{@ta_
zW*zJFdSB7pUHcTy%%0NgwnNNQzvx)fir;&{D<{v-3*BBEQ@rvFN9<X7mB^dBrdVeN
z+I~;2ovRggf9<`Cled8Gx=&&7PM^Rz@uJ8nkr459uV)M9$GOG6yMC<?)VAvPdVX#8
zB0asA+Q(UQPA%f=GEUTxcsljflc0Qe)wkdDv<?()KJ$U;+MCzAtkQC~-kufq{lVK6
zOYYutKe|?5M%(M@mtwZmuIozgI7QNmzV@kG>nvFG0JMd!JaDDOj>1K6<bC!T@0Q4Y
ze){Z+YvB8|8N=>=Ji99K*&}|V4{PS{4C}Sk-^lF0AjtP>t$$bw=ZsY^EEjW4)_kLP
z*l(44vGv_qOSVjz>-V;7YPLf6s^4;}E+o!6wZxBSnwj;X6XI=4S4}yu8It=xNObbd
z@cgE`PbU5S&BqzGZ%*c7{kdsNBpm$jY`ty$HGE%m{nGg}roR$jSKa(jCR9%4>xZIC
z+>Ye|dtP2yaN$g-Mc=Bov9C^^idFw-6lE|e>`eLv<rtf*JAIm`)mI41J)Ww4ub+9v
zEzt5<GlSEYr&(W{-NSjABhPG;Rjb#v?br7e&zSaOs`6=DE?qBa?TKl6ED_>ii~U3w
zhkEPIV$(Y#)gXMm^hKD}OZ8_<(?S&dv(#l85B7LI)m2n-l`3}a*r}H{eZ^!*qkZwB
zt&=8qTsA$?$hNCfwrR6kqS4~aXXcBmlHy)9afPKDFYfwtFfEF4bBlj-^@p;MEb~>{
zPI{e;J8H)+n{{jJi+R?KUhmzmnuW~zy(i|tf?aPeE<Ue));r?Szv(4{ixz9LiMqbO
z#2AuhzG~aTS7&(H54Jto^dLY`=`^eTE6$KI^Htm4YTxx^SBvz$y5p?O<co_z%au<`
zov?b|dd25kp+J4BRJ&Zk&$4;z9j|S3ioaR6H)HufuKD+!RkIa#ub82_Y-PzIm8ojN
zZYxqszk_C;H}#(?H(?IQwB%;rJMEH?HE8a+FJSAgzkE5rjgJ?cJR77D>RB7-tat5p
z;7O?yc3QWM#5S#&71_LJ{f(S=AL8%!teQF9%IRu>zIx)zl_@8D(hHK*3zJuamaL{7
z-Y%N6JXbBE(@u)<{fW}jfOk7KO;@#P_j;dp*gVqoO<!c#t~3E>jz~W_>&8_NxmHV@
zX^Jyxo_ODNfm&7Qw+m7wr>@T7)L!LMlNcc5S$6!>PumdQ@EZ(Mjcsl;)|6yV-p8U9
zD|#*SnT$fcRJ*9*^@L@`;0(Z8?sjHU+Eu$^#)yfm427QxKK%yg4A-MP8=K6VQ>PYv
z(fhbWJ<gP6+UrV5b<h#O`_=?ZycDu=(@pcMrI}XCR@!!-OgOhNYsaBqo0_DyPVy~x
zt28^3H1lh7EzdIlRXZj97i8@?<hDX&jau)@uq_s!H?5DdOYy(O6eA;6T)oA5>-sk;
zZ&qKF%(-C`w5GqC#b)N4lx*b;hN=+0*O$7oW_s_HoqFr3xNgc*RcX$Yt1j{d<|q9Q
z3$Kt`w_)PGNwW7fcdNXXz4=pIHc>qwb$9In{aq)zI_rFn{yt^b$CvbqN7~k>VJe5&
zp_RrNoAcy9bg$EXvEI#e>dc2$%XjvaaJ`t7xU8h4AYrBYr@y_=)-{4g734p3>uF0k
zYz=j{zIptkk@HEBlErhbzg@BEuH6H1-ICo;?ENqD?<>ss`eMh-7e=XRH?LIqh4~*z
zIn%YO_gc|{#&*@bdCU@xGuSp6&)kxJvgGxIt+h&O$zt^zQvDy<^d+BXJZPFO*wb`Y
z!LrMLL6wr)<iNyrOFQ0f-d7YeO>D2*6@yo;wwbTOTkrOqvK5@{x#ECb%c<6mTTb#$
zeZ~_eXSuY6F4ht}<GEm;JHu;E?#hN&oiom8X&+q@Gf~9M>9BW*ZfJ|h9c!O!?=3?_
z(%h>*aMl-q)f|%Loj1d?z<qMkRo`nu&T&Vd{1RR<uj6En_K7)9L}%+A4APm#z-G*1
zJ*if8??SNDniZ=A);x?db%{?=wXEoB3pU7eS4}o5wfBp#G&W3Z<34in!OSAzH@+O+
zZMAa_9=W~k^*mS`gGZ+%^Zvob`4MerFGa;a;RbKt+P8+m+kkV!<S6m?FVxF^zg>~y
zlh)uB+q{SU{gi`S8m!#?wPjP<eu4KWtzD2*Z?HXV`6(Zlt{qW%ntkW~gilj%p5!kk
zy!u9ANOt_I$(xd#R(APLZ#_CaZiA-uM596uhi6&gg8BO;r{0>oTjWj|+u9itOp!--
zs+4+}H9uy^3S`{TzAAe2TF}`eyH}W4U1L4W*1c-&>dUzxOD`XBt=`mh@c^%->tE4;
zjn-z5`}kIVoAUNBBj{+GvhsI9Zmf6LrOFx|+!TJe?_bzm?)AwQ;t$F~)^&D&3ln(i
z+{D=9sJZRev_&6NPD;FU)0D{bU+~E{W=sDm$>4hXg-&WKdCsWyO)A)G^O@yI)aFmi
z16uFy^nSh1>35`Y{-N!2ye4R!2=Ur?P<X|+=X$!El=9vD?j%I|?rA!AdG6$@XM%qU
zl=ADq?d4)=w*9x>o;l#pF4y{P=3nWHQSZJSs`0VU-B)ZsT}sOK(ER(LLzM2lUvx-v
z%C3pIZ7zQTOI|8e9cIZ9<~~1V-)F{<RV&k9EbzK2%)0LAq|8-|8@-Iq&v95<zB58R
z^5wQwS~tTdnNM@}%86MZ;pY2JM(c7&>(}rN*SQU@y4-*BxFBcWI}Yo{Q)Z!wdqt1D
zefE0YffU8lGPc*(`P71@1hZEis!A8w=r+^vAXnJa@E$JFlEph8ZeRRqcgz}TEd$TB
zzGgRHJr4O4Vw|~1!|Ma@JO|OToe|eXd1lVefBePor{nRdeq6~hJKxD~nq<rfUgU5{
z{*35;ix#EF6HJ<)bw%^&`tA7^u;}p5b1V78x6V!RE@)H#qFvYgL`GtP(;nHa!Y>-;
z2VXN;$@c8*opTKD)T~eV-s#iw`#o_{OP7Od-n~WqKKIK!#r-mh;$GAUPK^Ss>G8Oz
zq|M{2x!v2%v{)<ja$K{x_3~GXFK#)@yy8pUl8k7_Nb8Aw3xy}YDw)!}+HaxJ^t&Dx
zcQx_uKd8EOUx$>7MAG6{FPK+Mn{h@VXv@j2*|yn{u7WM;`Av5e=Otb!dnN0z^~E>G
zB^gsg8H^XW{R~KB@V*#z^zONYzN31(J}AmOoy))A)9%kN4hL=SWjw!Y-a4l9tJn6l
zblQB_6D4O0I+9dj?-f0*G~Ts~*-tt>`}A#6D%;VrRr2Dt4O(9MTidyUm&Y2fZ3sB~
zbc1h7_r``7o0z=W(tRIkhJ1c!^DCFNa+aXeg6t4}JHL!quNb=bvR(QSXl(xnd=F=W
z+}~YI%ib}^hZz*KO@C9-E|a=WW`d2kdVuE3rDfq4RO0?l@^tufr_t@{q>$$I)m;7y
zE**L$eWHu^`^rb9%zU#g=5}RHpL^mDXGmJPT<yjt8-dklF5cG+xUz}u)(+l-_v~h=
zmM~nM<XsyS)~Ct6*sM6APtfhE&)37!?sI0c2kg9C`Q`LJrmuz~+t`0rylPAh$rGDu
zb<$3UC#0Nf>ixOy``>;$_qL{8O*Sv3y;S_m6zf$ylU8o|uJiK6CeUSMGrdJG_E%mE
zUp6a!o~|UjX+X5m3NCGqwdT=N3YW^PKU(>WZ^MQ4yW)QZxffonoH#X|QRCd<wOg|?
zif69Am-gda*e{;rfhS{LafqfDzToP6Bk)T{Ygw%BYuSt1x8`51V3;~HMQ`i=riNBG
z&7kXPaoP3`CzW4iR9;g_3H{OqURKK-BGvpV?P4ISsn#>2EbB|*?ExoaUI|<^x%yXU
zjbzE@rVbIqxu387uK@4kT9+;me(so6!ltAP)1-eUmvm1*!Mw`(_+tB(Q}2$uKA$UN
z>zyrhGb7{*huS6K6-Lhw{C~fD`MCveE+!nk@QGz%<d)aIHodPt`|scV|DCs+>-;aK
zf782H)jIvJ`6iQBP^WtQ_R~FVzh>U%bXIu!>idj>r@L2(Jk)=vFTA2?Pwd}3{?JvE
zXRf~NW-sVlxOs*F%ckn!yG-0#yL?)wTDeRuUiphNWaG&j23nuyKijHv)+k@MDN1hR
zsWS)nFJxN%`CI!@+mM@i=DSziP@ZNpLEN<T+5eA1xBT`Sf7;0V{u#s6Q@ifodB5nB
z?L4J7tB;9owP9Y=^<Q_>rtqVx*H#MOUm+W!_4b=C_XXFdFMcbEe#%#hDw{4k=jq(`
zZ~sp4GD&zm_PU$LBH3`yaq8o@S@B^HRA;wLui3d^ahJLDuOGad52%FPv6^x_(Clo$
z9|e~OWdW&o*UgVPsCKVUG-r8kl<k8vPu8g=_VNZUjd^vvzUcq_{_=ptGm*xtKQ`r<
z{BD*y>N(BwflkHG>YJ*|LbHAtu&oI4dG`4J`$b-2T|1%+*res$8j`Y{p9*B@JqovA
zUpwE-;i<9KZf)(mZXYB>wf}JLJL9u#xwrO-!qm40AJ(sMK6XiLTg1FPD+kd}T<;bK
zg<m}vz_8||Sn#>nD93r*Bs1RsnBp0e()#o3<`+FO3%Vl1o^eL{=JxHIew^{3TR>{%
z7cK3}FF7O^&f2`@Ti{BY?R#eFcE8&^C0}FH#c4f(&web`p7Z{bZ&*o6ORt5~)aOg<
z{#5^ES#`|)MAR0U?+Y%KpO(7B8+yCh!eQyAHD!Sx72;Yho;>LEIXWUhGH>3d&9g<{
zRvusUNK!y|wqD22r&szEwdSTSEla(+`gQZZS<ixcUzc3@HTP&m(dIQpK5CLa)tj<v
z=QJ$1w&iT&%ukYEEV90YEBM9SX>NHHrn~FQ(qpk9H{R;HpJEN=Q=GXcJ6!Qx{q(8a
zzgF#;yKJuUjxS5w)Kjm9T!__sXSICdc5lhdOAq)QD~!rF?B8}`o9l+mRhB|+D~jg!
z+;(lvoSiGGeR9>+wcF0V75Tktr##z=qCI!tFFy2P*IB!BRWnmkf2O{DsS`afmw(n<
zyXme%*K)ssuJklnHErk9riTi9Lb<{!A9y*3UyIuPwrrnd=(@>)zgHYMqM)>3Pm^%;
z;nu6{UH9$c<!?8CG&{TD%hFeW@Alo4nViz0diB7PcVAVc3>ICV__I&ft19k&#>LdQ
zS9V%Qzl2|Qi%K-o+O(ym-a+VPdE)1NyDoaiK3h7gHpH=K+XczcM>j9_@hyD%^PGd}
zhr$Bu`x#$#KL@=Ho|QQ1jdRZ_lk~fXoZbHD@~3Q8T~+4f)A_3YPk;YB`#nEDygI!8
z{C&H9|Gv)p|9!RmlV6|vSKa^ft^NJ~pMU<gm+RmAbKz(2?_X!->uP^r_#5!=VDvq^
zJ%2yEYH$Dle)Ip;-%a`d|NZmv?BUPX`Q`0w_Ei7-^s)U<W_;bZtK#)L{=d2@|L@1m
z&Gt3lj@#G$dTJhT^ZS$jeB0ko{{7o*U-$j4`1yaoj;Ghxe7m_k{!i<_k6+8<YreIw
z|M%%-dHv5X>+Ao#>dycF;cooD$CLNhe7iZ{{^w)y`!#>x*zf!KXMO#T&*As~{@k1%
z|L388{m&=2*W3Mkb~*pwr>o1q->>=ga<l&apPz32T|U3&*PGe?@BV*!b2I)$_WvKx
z{pZ#Gz4~{0{N4NYzmAsAzwq7W_n+J8_iO&04gde~y8geK|99WN-~apDW`DctZ`b`f
zFVx%o{<hlQ{`a%h_WwU_v;Xk(w0QnM|G&(c$$RT+YJTte<^9n;FM3VwmuJ)G-xja0
ztGQhJ*`Hr!`SJb;>&x}EKVOzl=k9#H_^5em-~6wvlMh$E<}UHrSMe?LBh%cc>+SX9
z9q#g{^{>@u`6+4m{M&W$w2zV;n`{nm+4q%Iwc%jO8aw8=+P{)v|GFm2zk1587@WRV
z-$ha3hwdDesJMpH0VkQSRk8Afr+$^(5ct37|C$O%rPjJN_RL1C<_CT`2{;{F8n@q|
zo8L5O*$({*kt@HNrs+$3Jbo~AMZ>}Bv{T2vvT6oD`S?1%^ONl63iew)+AqR7OB*-F
zGHwo97VzxqeWvrv>kghiudpP({`2xjts3>IV*4Md1btZ@x?5mv($#0>LMt~v>Ms`3
zY*P8U{zPq;L)=!L7tSkN&V2sqC3E6OSUvZ;{CC`u@e|ZfdCy#QX&)2Y<(}Vx*TtJ|
z?BI~PzF+Bk<^&^Nt?7E}^fNv#JW&u*pF1I{%X`=9;_g>RvNkr~S#BV>YQO4<&HbPD
zoZqjpPt2}<E02cPYL^Zlr?1-;dIQ#aPg&iclKEHLkwe3)R_dvp>qgI3=2E$<Mh6;K
z#Tz)CFeq64w{cD#Ywffsu7CcjhAI<R_gZt$)LP=_EyERg`crfTOYBccuARGrzH06;
z`r2;wQ#)>-LRh@7)92NmN=Icw_d0W)U0>iHdSHrR{OTNC!=)-g`xdX_=M{3FGT*R!
z{nemlpZbELPK)>a5siMY@UCFZ{-fQkhh#(NdC7%Gze_pi8G7MopH|_6KCS+hMo#mM
z>^)kU%R{#69XlES@l$wHjpLi(cd~l^BK;Zq{hI#n>;H+}3A{SL-+I-r$7^<cuM{f#
z%NL(5k*2H1uh<{AuHN-su=*B}^S{>KS4{1)UKLVn6SFNO$L9LhN$tW>UCU>N8I?XV
z^EI~dX8b4{`j6|~idW%JWREhR&=RbwT(oEM`w8k?<sn~>SML1vsV`~S_E*MDF|~IB
zr*bsM{8jjpnPsgtUD0FaDQm4zfvMgn%R_!j77ER8w9dLaZT9w$j}AXRfBs>1-2MN*
zK7a3DZ?EM4Te<4Gd&xJuMfQ&uuV1x&fBm1^?e%*qz8BPfe)PQk(R}^*{T2WJUA-T-
zx8~!+tB+?tI(T3H-rn``l|NrG@9&&D<!k7-mvZ<2et31Z`})z-4q<;je@*_(YHzcr
z{^z@^(RE*M|NrsmcK-W)e}pSjKIqx~n>pvu_37{HE5FXN`+mG%-!gNmjKZ(;kK5<V
z-FrCSzV^q5Z-4jy{kHx6|BtW!R{vZ3`mp`|eHH&-fBks3fB)V!_W$cFe}BGs{k`1&
znm-41{=Z8w4zGQ>d*a=V+x6rAUGJ8cH_PeIm%q2?|A%+er_0wZw3ps-Z(sGF%HJpY
z-|GvQoqYcF@Kg1wPrp7MkJtZWy8flKp1hoVeEt6)=liX1{Bx22`}WhtFP`>$etdZ3
zH2>eHMzN^}U#@=0(V2e!16$5l^O~Og9lyVQoL;UkueZPc&(F8|nf!YyY9see|M&cT
zoa&kS3isKs<@?|N>)!Wcv3>o|mw&^Ls&BoKb1dzr{g)T+zy2=2_GN#4UB$;|+y6hB
zRrl}b-QV$XwGod@IBy@ex8GC!QK<gz@l4-F-3|NioOpXYT)ytt)8DU8AD>_U``<@K
z>4#st-`D@X?0@?BKkgfK-{1VZ{eH<Et(;jK9?t9Cvxaxu`<EW|JN8xn{JZ+~?CbXN
z_xJpI`RnoH``i8hh;PXKl@iDnuF?EeUVmTxc?(ZhoBx0RZa+Hty}bN??)7ya-@e~B
zNx#10>%*_jH6P#V-``*Nbza}k4~%jDw^sc6e@Sm?@6SI+zu(_q{iFK%!Ta*@|34M~
zbj|n7JOBUNtGmDXKe={nsNwbE<No-!`#b*+W4oW1#jE@G|9kpdU*7BB3Hy)N+r{56
zxch%^#Kdp=?f<=+K7GA>+}=HR_Sbwp{QI;y|NHf_x)bUXs$%{%d#8N-EFUAZ{J<T9
z+4uKVetfsx{@?ZWX4A8D?5p?;jl7Q^Z{_;8eV$m=A8EfA?d{?DdaDmr)K`9d*3K>4
zw0*t&zn>rKde;74tR8Vl{^kF@K@M;J3F}GjT=L)4Tl0_e#=s~B$D&y?_3Zw=Ti)(n
zDOvmZ!?%xrSM&G3uiJYk_MXk3$Dg*hi{Fm_w>|#e9-mti${rouzi$H5+LP|jG&O5}
z{d)Mcy}UoazG_K+{nxtx&WY3F_k~&>@c*x^Q=NEee{IFzZ+}DmZBAaz`^j&re2#Db
ztH;0NPwc4p_)u}}+wSr$>Hq&-(5t^Cdqd{GLTSWF-b+8le*J#;T7KXE)2rL-ZT9@$
ze){jz<>Bu=r={fV*|%q@_IusGo?lJ|WD4Ke+W#gvXu<4fS7-0H-KSi#KF&^&g)jG@
z#_6+s3ySZ4JM{gk`rmKA`TuuUi}Bv<Yy5m${xj>hldHe)uix{#v0#6NbNGYP?lIH#
z<M#e^uzv9N_Vx81ZvFX_6!iZ8<<4(8efT&3`ntM_Q@>7>H*lIPa%ZyoqubNhue&kZ
znmzIFL*e?^|1<xIdmlV<f8X|$tH-TxHJ4w0Gk34|N;lbL22tzUtJ6<Q>7Vwmf7;G|
zX?cmtwz&?s7_A=niQBQRc`p~g|JTQl=~2&4f9KzCcj@*0{g3V|J+ystx<~HsF0I*5
z^G~WDve#_=J-x*E-@m)-x0tPe$$T%izWC>~vMXOdo!p=L`pKzfoJ+oN#xxz+EEJ(}
z<`0MF3e7*?qOG_OMxEB_Ni6yqJEtcpY*D|q^XvOB)<4<b^hQ)>($OV*|Kx70*W0r3
z$D5pImwum(`SmaK>-WBIOeHtmA9`y3d3XALce3HXgtO1WB6QBz$A53?`nUc4#f#>b
z<7T|)`KKK(+IGkH=)uYT;+s!?xc}XJm$LqQxw>V!8)GHxFWmZk>671&hYugV-BlR3
zr}FcUhYvO~v}$-N%1t<QIo)ZgP<yI=#I<SNA}5l=%QOD&48DB#+cFz%p`ZljxBr*<
zet7rPfBlE+j~E`TPi>v>XU^jChyVPq^?jZk^yAmf`TJ6hYj6KZ)=a3CKd|R*t;Y8z
z&R5%SrtI3+D!OyubEo5pOuH@jY3+6`pDul8`tg1Li$b^}di!{P{W+>H{~~IQY{*Z8
zpL;)DJzBVw|KAV$1=s7U{yhDAIA8Dk>K7qJhwcB}J-nO0KR@p8vrnm-p?hs=zkX=D
z=fJh1ChODXeEUD24j<lqKgMpg*pX+;@9+Kb^scthwdAjC)92THJAMAk&HTE*XP?e~
zw7s_O*H31<@BG)_ukz>n`I4W1`u&g6`*z=p-ye5R==0@#xw^XF<~Dz8f1dvQNql04
zNAv$@pVm}#O+M^De`4&HcMFdlvE2XV`@TOf<@xPx9#nVVzk2e9^a-!0%m0Q()NTJS
zKJ(8Oeb3qRzl9&vT~Sr9e>$@N-y(0bI~l!l|9;Ls9sX#?%0FLTw};E$+y95tdijJc
z=lp-q&zWRsa$wD;%m27u{n;|@$)?=t{_oyv&z@iR@6plU_hbGo|IvM?X;t@4^~<RR
zK_PX&j)(KtdslD!le72FyVc_F<4yNxPg{Q1bkomF`KjK^jy#wgTIaR@_vh8}b{+Sx
zzJ9;X`kVRf<jM2vem=UpTKvb8{T?B8<=1~MoKsu(%U-^|s`>ukRhD-pKOdg`|In?v
zAe;W5FR$D0t@``w?d|XU`KO9a^7r4iTo`O*!C`#&I=}tDj`#PDEd6v@Uq0?Ce^}(l
z%i&9c?DxD_qcHE^(~rx`OEe#Rw_op{k&yZ4)3d+d`QQKex&6A1`1S==E^}PHPOE=@
z@c91zA3u+to-cPaGT`*(<MDBqr+#}?yH&u-e((R^-SYLdAKlh0IO)H?=Hk4!Et3BG
z>pp%v%HN;=@#j&mU4Oom^Xtbw?*ExA{&~87-4DjspYLwHb3rlot95$4+$*cO^ZVW}
zuB;Htsk?Q*G|$o0=C{ViUq6o)@B2A_zgmCh&e-d-G*$0U`1d?4$h6{c|9iRm%G3GM
zdl;uz|7tl}-rE0jmdzCQ9cTINYjo=0AN~EE-@g8T)mnyZJBf#LHr;rA|M&epq1Cm2
zDpP;g#7Jm;=|1_VeqT+l;;eU%nc}`z21Z}``!>E_&er+o)z$Lz>i>UuyxP1vzoO#v
zVfU=g?aRyd&e$v{zjW5FrF-;tPPv}T-r-;4XLqnWeEofMBmL`tPTs#c?Z>8yrQ$8O
zZ~XuF?ezP3u^wtqVpo;(U(VOluUC@)Tl8Q0N7VHAdwYHr1j^t4X6qWowEN|3`xVdk
z|Gpf*@5if8rCWp}_kEvVQ~Ukh)$jf9>ub+WQ`zaLZ$H6&iCx^knm2Q@W7Sq{W7n5I
zSy=N~F@H|K{T_wf?+@QG-+l6>@`?L|%YUAwR~<fndwod#ucvjD$3NA+UT@RRU!nW&
zr}NjZk7|pW`|oY9*nU*=&-cIYYyW<DcAVe-W8cfVN8iqW{bEv7@%z!$-SvB_?sKI4
z2(;I4o#bJ<cOC!zUwV~qwy`h0a%3^f+n-Etf8LMV|08fu>$x-f{P}TqIqJ{;pGZ3P
zDdYah`Tw2&HDo>fKilNn;r8<NadDql<>{-`Z>Z9Is<V3fhSf*B&sH8-RR8VieEYp8
z=J(%MQ2PAq>VK!67pgzKOA`Ni?EBDty?giHK-u&?HOKtz_q_~%X%t`g`RQZf`=`<$
zZTgoL?{@yO_zB}nHt~9I4_^MVUS010-=nYNyDm3%KHtp6DD%_JT|8!|sQQH)D-EJ;
zs~7VYPwD%|_Rsrxy;GIV5AI8cuj}ty-u_hdR=xW!_40cSKkf@0bnv=*S!Ky5zPQuT
zyh|Ph)PEH0&ZyjXWzvV@_m_${+r@Xs|E!#Isd%?-{Hq?Hw5X@g^QzaKe&4TV`~CLk
zrCcYUoZS4!Cg=QgCaF5R*I#V%&c}ZJ`}6zrw?Bh6ggrW3uYZ2Jl-T5(Pk;VY+rRaN
zS#ABlzrJ<Zyz5R1`+<d2w*UI)TbJFs&U3e!?foa)#ojD?UR<^BWd7RwzVqilS#0)m
z?bAIkzfb;iRc-&)UFNpuf0+MVdvxE+%3n2mPv)=vyLMjwr)cj+-?Xv^&u9O+cIrV<
z{VU(P?1cqY^PVg>|GBpG@Si(R?%#j1eVX9s;@KZ_KW)DHZ}ZR3=0DfE9(!4NE52&-
z{ixzO^Pay4DN$Jd{N;P|*?+EeJ$VIkufxtM{WqU%zorcmH=g|`Ms@#Fkk+ebJnJ(5
z&-AU!ei%_T@7w&FPo8W2+_`1{8MXaezwC^u-+c0X=%>@a&*yxK=3adH^A@|Z$@inw
zW8c~DKAEpOTkre+yHB=<1%}Vxe==Wp)jE(5ve&FW4|2igrOz|}-|(%=W-a^rbM~J-
zZ(p$QKAFGv{JMShlkZ2Zi+v}*{bc^ydw#!_mw~*S^zPMn^PfMx{y+Wv*z9L()&HgY
z@8^Ds*4}^m?_;x{Yg->={$KL<q1n&1r4L_Lf<u00Mb*4-?YEz759?k2-v3kS>_69(
zJ{A4{<y*J#QoY^Zzjc%EM<vD8?YsX(eAVyksy~1D)@3tR{rvvhw=UbZ>TAv9`%&}a
z=IQT0nZGv7fB*b*+d*-*e){jz`JcMi72E&xt;^1=uA28P{Kk{*VY`<9);?(t3WfWZ
zKX3VeNNs<_%l$L#L0%D?KTo|Taq|5r)%bhwL9|IcDEhBmnEt)~#*^*Su7uwQ*|9<Y
zZU2Uo`Rm?J-(vqrZU5GP`?j11(K7p|<llK>9{yYZHh<yN`(bP1AN7}2uhaVTbLZ`O
zukU^T{dVWdH>-Q>bI#}T$KRQ^`_<>ke;)0z{eJcHm*1ba*sed9f6spNt$E?!itp8L
zzBe!Y6Zgyav(105)n!@wZ@&4@wX&>BYc29WMN9Ln0)=y3^QXEQ=0DfIWq(<DZ2w9B
z&`+nISKoWG-ArBN`E>K6pZ46UfBC&KSm%85*81gNY9`;mbu!>h{ymYOJJ)@W|M$<g
z?$G}e=gohv&E-G(?~(6DoAqy|TRy)3WV@Mb$o~B&^WRR?_#=Ez<n-sIsf#S+vp(Bz
z<LgTLzv}G&8&X<bU&Ckr-}p6L<ac!LzvI{P0{{L~+rRbqqL}+<|KFHp$n|%f+5hC%
zXIFg4{}df<dgj^xm1qCourk;BGyBgqx4uVzK-^zer{3TH)4%rY;y-`R{=c!y?$qDy
zKjou^JwWk!OE~C-`PQHE(cK=c`IGP8G7NeLGFr-G6(~=9n;i1#=9BH)ri(m}2icz+
zH19mfVt=l`OF<U9dVX{M_1o-!a<;GLn`n?R%e_|GoBemb`p^BIJ;>!7L%=@QUHS*4
zzDV=@^Jn!rzWPt!=l?r?jXC&L``Q0DqLRSD%r_I9?Gl%5u)p%GKIgCT(|@=A@Q41E
zudL7ccl=sxaP2=e`}n)^k#-=1?@jrY|Ji<9*ql$_&HpFAKBM^&<iHidr|Li3hrF#%
z`3d443!e8M<mD<aF!xFDy!U7S->9lvb^rbo@vPtaC(A$EZ|hqCvNz!NdC$7p{}*Qc
zSAGprbgTW$GkH+(?dm-9?0!h&CDYE0PxiVj*;2W0--jpCa`*Q}1$8|(-+J)s@_W(g
zR>$9;>r4>PezQ-%{+`rp`TfS~C+1a%M>yWQ9BsF!`s?|RyMwthf9}5ARQHE(s)2`e
z?6iB0{g;jO8mj^v{>+h@`^stmZ`H~L?(&~G+e<I+zHhT{XSDsQKN5cTlbZkhXEb)`
KKmRg}nE?RNkyNk%

literal 0
HcmV?d00001

diff --git a/modules/mol/alg/tests/testfiles/P84080_model_03.pdb b/modules/mol/alg/tests/testfiles/P84080_model_03.pdb
new file mode 100644
index 000000000..6e71eb7b9
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/P84080_model_03.pdb
@@ -0,0 +1,1523 @@
+TITLE     SWISS-MODEL SERVER (https://swissmodel.expasy.org)
+TITLE    2 ARF1_BOVIN P84080 ADP-ribosylation factor 1
+EXPDTA    THEORETICAL MODEL (SWISS-MODEL SERVER)
+AUTHOR    SWISS-MODEL SERVER (SEE REFERENCE IN JRNL Records)
+REVDAT   1   23-DEC-22 1MOD    1       13:23
+JRNL        AUTH   A.WATERHOUSE,M.BERTONI,S.BIENERT,G.STUDER,G.TAURIELLO,
+JRNL        AUTH 2 R.GUMIENNY,F.T.HEER,T.A.P.DE BEER,C.REMPFER,L.BORDOLI,
+JRNL        AUTH 3 R.LEPORE,T.SCHWEDE
+JRNL        TITL   SWISS-MODEL: HOMOLOGY MODELLING OF PROTEIN STRUCTURES AND
+JRNL        TITL 2 COMPLEXES
+JRNL        REF    NUCLEIC.ACIDS.RES..           V.  46 W296  2018
+JRNL        PMID   29788355
+JRNL        DOI    10.1093/nar/gky427
+REMARK   1
+REMARK   1 REFERENCE 1
+REMARK   1  AUTH   S.BIENERT,A.WATERHOUSE,T.A.P.DE BEER,G.TAURIELLO,G.STUDER,
+REMARK   1  AUTH 2 L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   THE SWISS-MODEL REPOSITORY - NEW FEATURES AND FUNCTIONALITY
+REMARK   1  REF    NUCLEIC.ACIDS.RES..           V.  45       2017
+REMARK   1  REFN                   ISSN 0305-1048
+REMARK   1  PMID   27899672
+REMARK   1  DOI    10.1093/nar/gkw1132
+REMARK   1
+REMARK   1 REFERENCE 2
+REMARK   1  AUTH   N.GUEX,M.C.PEITSCH,T.SCHWEDE
+REMARK   1  TITL   AUTOMATED COMPARATIVE PROTEIN STRUCTURE MODELING WITH
+REMARK   1  TITL 2 SWISS-MODEL AND SWISS-PDBVIEWER: A HISTORICAL PERSPECTIVE
+REMARK   1  REF    ELECTROPHORESIS               V.  30       2009
+REMARK   1  REFN                   ISSN 0173-0835
+REMARK   1  PMID   19517507
+REMARK   1  DOI    10.1002/elps.200900140
+REMARK   1
+REMARK   1 REFERENCE 3
+REMARK   1  AUTH   G.STUDER,G.TAURIELLO,S.BIENERT,M.BIASINI,N.JOHNER,T.SCHWEDE
+REMARK   1  TITL   PROMOD3 - A VERSATILE HOMOLOGY MODELLING TOOLBOX
+REMARK   1  REF    PLOS COMP. BIOL.              V.  17       2021
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   33507980
+REMARK   1  DOI    https://doi.org/10.1371/journal.pcbi.1008667
+REMARK   1
+REMARK   1 REFERENCE 4
+REMARK   1  AUTH   G.STUDER,C.REMPFER,A.WATERHOUSE,R.GUMIENNY,J.HAAS,T.SCHWEDE
+REMARK   1  TITL   QMEANDISCO - DISTANCE CONSTRAINTS APPLIED ON MODEL QUALITY 
+REMARK   1  TITL 2 ESTIMATION
+REMARK   1  REF    BIOINFORMATICS                V.  36       2020
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   31697312
+REMARK   1  DOI    https://doi.org/10.1093/bioinformatics/btz828
+REMARK   1
+REMARK   1 REFERENCE 5
+REMARK   1  AUTH   P.BENKERT,M.BIASINI,T.SCHWEDE
+REMARK   1  TITL   TOWARD THE ESTIMATION OF THE ABSOLUTE QUALITY OF INDIVIDUAL
+REMARK   1  TITL 2 PROTEIN STRUCTURE MODELS
+REMARK   1  REF    BIOINFORMATICS                V.  27       2011
+REMARK   1  REFN                   ISSN 1367-4803
+REMARK   1  PMID   21134891
+REMARK   1  DOI    10.1093/bioinformatics/btq662
+REMARK   1
+REMARK   1 REFERENCE 6
+REMARK   1  AUTH   M.BERTONI,F.KIEFER,M.BIASINI,L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   MODELING PROTEIN QUATERNARY STRUCTURE OF HOMO- AND
+REMARK   1  TITL 2 HETERO-OLIGOMERS BEYOND BINARY INTERACTIONS BY HOMOLOGY
+REMARK   1  REF    SCI.REP.                      V.   7       2017
+REMARK   1  REFN                   ISSN
+REMARK   1  PMID   28874689
+REMARK   1  DOI    10.1038/s41598-017-09654-8
+REMARK   1
+REMARK   1 DISCLAIMER
+REMARK   1 The SWISS-MODEL SERVER produces theoretical models for proteins.
+REMARK   1 The results of any theoretical modelling procedure is
+REMARK   1 NON-EXPERIMENTAL and MUST be considered with care. These models may
+REMARK   1 contain significant errors. This is especially true for automated
+REMARK   1 modeling since there is no human intervention during model
+REMARK   1 building. Please read the header section and the logfile carefully
+REMARK   1 to know what templates and alignments were used during the model
+REMARK   1 building process. All information by the SWISS-MODEL SERVER is
+REMARK   1 provided "AS-IS", without any warranty, expressed or implied.
+REMARK   2
+REMARK   2 COPYRIGHT NOTICE
+REMARK   2 This SWISS-MODEL protein model is copyright. It is produced by the
+REMARK   2 SWISS-MODEL server, developed by the Computational Structural
+REMARK   2 Biology Group at the SIB Swiss Institute of Bioinformatics at the
+REMARK   2 Biozentrum, University of Basel (https://swissmodel.expasy.org). This
+REMARK   2 model is licensed under the CC BY-SA 4.0 Creative Commons
+REMARK   2 Attribution-ShareAlike 4.0 International License
+REMARK   2 (https://creativecommons.org/licenses/by-sa/4.0/legalcode), i.e. you
+REMARK   2 can copy and redistribute the model in any medium or format,
+REMARK   2 transform and build upon the model for any purpose, even
+REMARK   2 commercially, under the following terms:
+REMARK   2 Attribution - You must give appropriate credit, provide a link to
+REMARK   2 the license, and indicate if changes were made. You may do so in any
+REMARK   2 reasonable manner, but not in any way that suggests the licensor
+REMARK   2 endorses you or your use. When you publish, patent or distribute
+REMARK   2 results that were fully or partially based on the model, please cite
+REMARK   2 the corresponding papers mentioned under JRNL.
+REMARK   2 ShareAlike - If you remix, transform, or build upon the material,
+REMARK   2 you must distribute your contributions under the same license as the
+REMARK   2 original.
+REMARK   2 No additional restrictions - you may not apply legal terms or
+REMARK   2 technological measures that legally restrict others from doing
+REMARK   2 anything the license permits.
+REMARK   2 Find a human-readable summary of (and not a substitute for) the
+REMARK   2 CC BY-SA 4.0 license at this link:
+REMARK   2 https://creativecommons.org/licenses/by-sa/4.0/
+REMARK   3 
+REMARK   3 MODEL INFORMATION
+REMARK   3  ENGIN   PROMOD3
+REMARK   3  VERSN   3.2.1
+REMARK   3  OSTAT   monomer
+REMARK   3  OSRSN   MONOMER (USER)
+REMARK   3  QSPRD   NA
+REMARK   3  GMQE    0.73
+REMARK   3  QMNV    4.3.0
+REMARK   3  QMNDG   0.76
+REMARK   3  MODT    FALSE
+REMARK   3 
+REMARK   3 MODEL LIGAND 1
+REMARK   3  NAME    GDP
+REMARK   3  BIND    A.25
+REMARK   3  BIND 2  A.26
+REMARK   3  BIND 3  A.27
+REMARK   3  BIND 4  A.28
+REMARK   3  BIND 5  A.29
+REMARK   3  BIND 6  A.30
+REMARK   3  BIND 7  A.31
+REMARK   3  BIND 8  A.32
+REMARK   3  BIND 9  A.126
+REMARK   3  BIND 10  A.127
+REMARK   3  BIND 11  A.129
+REMARK   3  BIND 12  A.130
+REMARK   3  BIND 13  A.159
+REMARK   3  BIND 14  A.160
+REMARK   3  BIND 15  A.161
+REMARK   3  BIND 16  _.2
+REMARK   3 
+REMARK   3 TEMPLATE 1
+REMARK   3  PDBID   1re0
+REMARK   3  CHAIN   A
+REMARK   3  MMCIF   A
+REMARK   3  PDBV    2022-12-09
+REMARK   3  SMTLE   1re0.1.A
+REMARK   3  SMTLV   2022-12-14
+REMARK   3  MTHD    X-RAY DIFFRACTION 2.40 A
+REMARK   3  FOUND   BLAST
+REMARK   3  GMQE    0.72
+REMARK   3  SIM     0.61
+REMARK   3  SID     100.00
+REMARK   3  OSTAT   hetero-oligomer
+REMARK   3  LIGND   MG
+REMARK   3  LIGND 2 GDP
+REMARK   3  LIGND 3 AFB
+REMARK   3  ALN A TRG MGNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TRG KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TRG RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TRG NQLRNQK
+REMARK   3  ALN A TPL -----------------MRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TPL KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TPL RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TPL NQLRNQK
+REMARK   3  ALN A OFF 0
+ATOM      1  N   MET A  18      40.753  -9.460  33.914  1.00  0.56           N  
+ATOM      2  CA  MET A  18      40.116  -8.708  32.773  1.00  0.56           C  
+ATOM      3  C   MET A  18      39.559  -7.373  33.277  1.00  0.56           C  
+ATOM      4  O   MET A  18      39.032  -7.350  34.385  1.00  0.56           O  
+ATOM      5  CB  MET A  18      39.007  -9.644  32.225  1.00  0.56           C  
+ATOM      6  CG  MET A  18      38.417  -9.301  30.843  1.00  0.56           C  
+ATOM      7  SD  MET A  18      37.585 -10.709  30.051  1.00  0.56           S  
+ATOM      8  CE  MET A  18      38.911 -11.207  28.905  1.00  0.56           C  
+ATOM      9  N   ARG A  19      39.695  -6.236  32.548  1.00  0.65           N  
+ATOM     10  CA  ARG A  19      39.389  -4.913  33.063  1.00  0.65           C  
+ATOM     11  C   ARG A  19      38.313  -4.254  32.246  1.00  0.65           C  
+ATOM     12  O   ARG A  19      38.331  -4.318  31.013  1.00  0.65           O  
+ATOM     13  CB  ARG A  19      40.590  -3.964  32.944  1.00  0.65           C  
+ATOM     14  CG  ARG A  19      41.808  -4.411  33.751  1.00  0.65           C  
+ATOM     15  CD  ARG A  19      42.942  -3.414  33.558  1.00  0.65           C  
+ATOM     16  NE  ARG A  19      44.144  -4.007  34.220  1.00  0.65           N  
+ATOM     17  CZ  ARG A  19      45.338  -3.403  34.216  1.00  0.65           C  
+ATOM     18  NH1 ARG A  19      45.528  -2.256  33.569  1.00  0.65           N  
+ATOM     19  NH2 ARG A  19      46.360  -3.965  34.859  1.00  0.65           N  
+ATOM     20  N   ILE A  20      37.379  -3.612  32.955  1.00  0.80           N  
+ATOM     21  CA  ILE A  20      36.264  -2.864  32.433  1.00  0.80           C  
+ATOM     22  C   ILE A  20      36.261  -1.494  33.078  1.00  0.80           C  
+ATOM     23  O   ILE A  20      36.430  -1.351  34.289  1.00  0.80           O  
+ATOM     24  CB  ILE A  20      34.960  -3.569  32.777  1.00  0.80           C  
+ATOM     25  CG1 ILE A  20      34.946  -5.027  32.281  1.00  0.80           C  
+ATOM     26  CG2 ILE A  20      33.755  -2.795  32.222  1.00  0.80           C  
+ATOM     27  CD1 ILE A  20      35.080  -5.147  30.772  1.00  0.80           C  
+ATOM     28  N   LEU A  21      36.060  -0.437  32.275  1.00  0.81           N  
+ATOM     29  CA  LEU A  21      35.908   0.910  32.788  1.00  0.81           C  
+ATOM     30  C   LEU A  21      34.449   1.309  32.773  1.00  0.81           C  
+ATOM     31  O   LEU A  21      33.713   1.016  31.835  1.00  0.81           O  
+ATOM     32  CB  LEU A  21      36.731   1.944  31.991  1.00  0.81           C  
+ATOM     33  CG  LEU A  21      38.257   1.720  32.046  1.00  0.81           C  
+ATOM     34  CD1 LEU A  21      38.961   2.864  31.307  1.00  0.81           C  
+ATOM     35  CD2 LEU A  21      38.814   1.596  33.477  1.00  0.81           C  
+ATOM     36  N   MET A  22      33.997   1.993  33.838  1.00  0.83           N  
+ATOM     37  CA  MET A  22      32.657   2.515  33.933  1.00  0.83           C  
+ATOM     38  C   MET A  22      32.699   4.032  33.917  1.00  0.83           C  
+ATOM     39  O   MET A  22      33.251   4.683  34.803  1.00  0.83           O  
+ATOM     40  CB  MET A  22      31.904   1.990  35.174  1.00  0.83           C  
+ATOM     41  CG  MET A  22      30.459   2.515  35.227  1.00  0.83           C  
+ATOM     42  SD  MET A  22      29.303   1.537  36.216  1.00  0.83           S  
+ATOM     43  CE  MET A  22      29.817   2.463  37.673  1.00  0.83           C  
+ATOM     44  N   VAL A  23      32.111   4.636  32.872  1.00  0.87           N  
+ATOM     45  CA  VAL A  23      32.114   6.066  32.663  1.00  0.87           C  
+ATOM     46  C   VAL A  23      30.683   6.528  32.580  1.00  0.87           C  
+ATOM     47  O   VAL A  23      29.731   5.749  32.578  1.00  0.87           O  
+ATOM     48  CB  VAL A  23      32.863   6.527  31.413  1.00  0.87           C  
+ATOM     49  CG1 VAL A  23      34.316   6.033  31.472  1.00  0.87           C  
+ATOM     50  CG2 VAL A  23      32.155   6.063  30.128  1.00  0.87           C  
+ATOM     51  N   GLY A  24      30.480   7.848  32.544  1.00  0.92           N  
+ATOM     52  CA  GLY A  24      29.150   8.400  32.446  1.00  0.92           C  
+ATOM     53  C   GLY A  24      29.212   9.753  33.040  1.00  0.92           C  
+ATOM     54  O   GLY A  24      30.028   9.985  33.939  1.00  0.92           O  
+ATOM     55  N   LEU A  25      28.354  10.680  32.580  1.00  0.87           N  
+ATOM     56  CA  LEU A  25      28.214  12.014  33.144  1.00  0.87           C  
+ATOM     57  C   LEU A  25      28.106  12.011  34.665  1.00  0.87           C  
+ATOM     58  O   LEU A  25      27.773  11.010  35.314  1.00  0.87           O  
+ATOM     59  CB  LEU A  25      27.041  12.836  32.533  1.00  0.87           C  
+ATOM     60  CG  LEU A  25      27.079  13.039  31.003  1.00  0.87           C  
+ATOM     61  CD1 LEU A  25      25.905  13.922  30.554  1.00  0.87           C  
+ATOM     62  CD2 LEU A  25      28.371  13.707  30.527  1.00  0.87           C  
+ATOM     63  N   ASP A  26      28.412  13.155  35.298  1.00  0.81           N  
+ATOM     64  CA  ASP A  26      28.137  13.349  36.698  1.00  0.81           C  
+ATOM     65  C   ASP A  26      26.638  13.109  36.992  1.00  0.81           C  
+ATOM     66  O   ASP A  26      25.783  13.396  36.151  1.00  0.81           O  
+ATOM     67  CB  ASP A  26      28.660  14.737  37.106  1.00  0.81           C  
+ATOM     68  CG  ASP A  26      28.498  14.835  38.603  1.00  0.81           C  
+ATOM     69  OD1 ASP A  26      27.405  15.270  39.029  1.00  0.81           O  
+ATOM     70  OD2 ASP A  26      29.404  14.323  39.302  1.00  0.81           O  
+ATOM     71  N   ALA A  27      26.311  12.459  38.125  1.00  0.85           N  
+ATOM     72  CA  ALA A  27      24.948  12.169  38.542  1.00  0.85           C  
+ATOM     73  C   ALA A  27      24.210  11.065  37.768  1.00  0.85           C  
+ATOM     74  O   ALA A  27      23.055  10.748  38.077  1.00  0.85           O  
+ATOM     75  CB  ALA A  27      24.104  13.456  38.668  1.00  0.85           C  
+ATOM     76  N   ALA A  28      24.879  10.363  36.818  1.00  0.91           N  
+ATOM     77  CA  ALA A  28      24.319   9.246  36.064  1.00  0.91           C  
+ATOM     78  C   ALA A  28      23.950   8.042  36.931  1.00  0.91           C  
+ATOM     79  O   ALA A  28      23.023   7.282  36.646  1.00  0.91           O  
+ATOM     80  CB  ALA A  28      25.282   8.840  34.926  1.00  0.91           C  
+ATOM     81  N   GLY A  29      24.661   7.889  38.064  1.00  0.90           N  
+ATOM     82  CA  GLY A  29      24.441   6.848  39.062  1.00  0.90           C  
+ATOM     83  C   GLY A  29      25.573   5.888  39.232  1.00  0.90           C  
+ATOM     84  O   GLY A  29      25.389   4.829  39.822  1.00  0.90           O  
+ATOM     85  N   LYS A  30      26.786   6.225  38.766  1.00  0.81           N  
+ATOM     86  CA  LYS A  30      27.954   5.369  38.847  1.00  0.81           C  
+ATOM     87  C   LYS A  30      28.313   4.907  40.256  1.00  0.81           C  
+ATOM     88  O   LYS A  30      28.419   3.708  40.516  1.00  0.81           O  
+ATOM     89  CB  LYS A  30      29.160   6.155  38.291  1.00  0.81           C  
+ATOM     90  CG  LYS A  30      29.057   6.482  36.796  1.00  0.81           C  
+ATOM     91  CD  LYS A  30      30.359   7.073  36.217  1.00  0.81           C  
+ATOM     92  CE  LYS A  30      30.925   8.342  36.878  1.00  0.81           C  
+ATOM     93  NZ  LYS A  30      30.007   9.476  36.663  1.00  0.81           N  
+ATOM     94  N   THR A  31      28.396   5.861  41.216  1.00  0.75           N  
+ATOM     95  CA  THR A  31      28.607   5.608  42.636  1.00  0.75           C  
+ATOM     96  C   THR A  31      27.546   4.714  43.236  1.00  0.75           C  
+ATOM     97  O   THR A  31      27.817   3.747  43.941  1.00  0.75           O  
+ATOM     98  CB  THR A  31      28.510   6.918  43.422  1.00  0.75           C  
+ATOM     99  OG1 THR A  31      29.302   7.947  42.884  1.00  0.75           O  
+ATOM    100  CG2 THR A  31      28.917   6.703  44.892  1.00  0.75           C  
+ATOM    101  N   THR A  32      26.269   4.998  42.918  1.00  0.79           N  
+ATOM    102  CA  THR A  32      25.098   4.251  43.373  1.00  0.79           C  
+ATOM    103  C   THR A  32      25.088   2.812  42.910  1.00  0.79           C  
+ATOM    104  O   THR A  32      24.768   1.898  43.672  1.00  0.79           O  
+ATOM    105  CB  THR A  32      23.790   4.861  42.888  1.00  0.79           C  
+ATOM    106  OG1 THR A  32      23.731   6.239  43.216  1.00  0.79           O  
+ATOM    107  CG2 THR A  32      22.575   4.186  43.547  1.00  0.79           C  
+ATOM    108  N   ILE A  33      25.459   2.564  41.636  1.00  0.82           N  
+ATOM    109  CA  ILE A  33      25.602   1.225  41.079  1.00  0.82           C  
+ATOM    110  C   ILE A  33      26.669   0.458  41.821  1.00  0.82           C  
+ATOM    111  O   ILE A  33      26.449  -0.673  42.264  1.00  0.82           O  
+ATOM    112  CB  ILE A  33      25.924   1.270  39.582  1.00  0.82           C  
+ATOM    113  CG1 ILE A  33      24.680   1.789  38.831  1.00  0.82           C  
+ATOM    114  CG2 ILE A  33      26.348  -0.121  39.052  1.00  0.82           C  
+ATOM    115  CD1 ILE A  33      24.858   1.994  37.323  1.00  0.82           C  
+ATOM    116  N   LEU A  34      27.834   1.086  42.059  1.00  0.73           N  
+ATOM    117  CA  LEU A  34      28.906   0.414  42.750  1.00  0.73           C  
+ATOM    118  C   LEU A  34      28.664   0.196  44.216  1.00  0.73           C  
+ATOM    119  O   LEU A  34      29.253  -0.716  44.781  1.00  0.73           O  
+ATOM    120  CB  LEU A  34      30.273   1.091  42.557  1.00  0.73           C  
+ATOM    121  CG  LEU A  34      31.156   0.272  41.610  1.00  0.73           C  
+ATOM    122  CD1 LEU A  34      30.871   0.646  40.164  1.00  0.73           C  
+ATOM    123  CD2 LEU A  34      32.622   0.544  41.893  1.00  0.73           C  
+ATOM    124  N   TYR A  35      27.780   0.981  44.856  1.00  0.70           N  
+ATOM    125  CA  TYR A  35      27.314   0.758  46.208  1.00  0.70           C  
+ATOM    126  C   TYR A  35      26.520  -0.540  46.338  1.00  0.70           C  
+ATOM    127  O   TYR A  35      26.745  -1.341  47.248  1.00  0.70           O  
+ATOM    128  CB  TYR A  35      26.440   1.967  46.642  1.00  0.70           C  
+ATOM    129  CG  TYR A  35      26.019   1.859  48.078  1.00  0.70           C  
+ATOM    130  CD1 TYR A  35      26.976   1.956  49.095  1.00  0.70           C  
+ATOM    131  CD2 TYR A  35      24.682   1.596  48.417  1.00  0.70           C  
+ATOM    132  CE1 TYR A  35      26.604   1.799  50.434  1.00  0.70           C  
+ATOM    133  CE2 TYR A  35      24.308   1.444  49.760  1.00  0.70           C  
+ATOM    134  CZ  TYR A  35      25.273   1.550  50.769  1.00  0.70           C  
+ATOM    135  OH  TYR A  35      24.927   1.410  52.126  1.00  0.70           O  
+ATOM    136  N   LYS A  36      25.584  -0.793  45.405  1.00  0.72           N  
+ATOM    137  CA  LYS A  36      24.812  -2.024  45.357  1.00  0.72           C  
+ATOM    138  C   LYS A  36      25.590  -3.254  45.017  1.00  0.72           C  
+ATOM    139  O   LYS A  36      25.384  -4.312  45.614  1.00  0.72           O  
+ATOM    140  CB  LYS A  36      23.702  -1.949  44.298  1.00  0.72           C  
+ATOM    141  CG  LYS A  36      22.534  -1.088  44.744  1.00  0.72           C  
+ATOM    142  CD  LYS A  36      21.739  -1.703  45.902  1.00  0.72           C  
+ATOM    143  CE  LYS A  36      20.712  -0.697  46.390  1.00  0.72           C  
+ATOM    144  NZ  LYS A  36      19.900  -1.241  47.491  1.00  0.72           N  
+ATOM    145  N   LEU A  37      26.502  -3.142  44.046  1.00  0.72           N  
+ATOM    146  CA  LEU A  37      27.372  -4.228  43.663  1.00  0.72           C  
+ATOM    147  C   LEU A  37      28.409  -4.516  44.720  1.00  0.72           C  
+ATOM    148  O   LEU A  37      29.031  -5.578  44.711  1.00  0.72           O  
+ATOM    149  CB  LEU A  37      28.170  -3.869  42.395  1.00  0.72           C  
+ATOM    150  CG  LEU A  37      27.333  -3.732  41.118  1.00  0.72           C  
+ATOM    151  CD1 LEU A  37      28.243  -3.233  39.985  1.00  0.72           C  
+ATOM    152  CD2 LEU A  37      26.641  -5.053  40.745  1.00  0.72           C  
+ATOM    153  N   LYS A  38      28.646  -3.552  45.633  1.00  0.64           N  
+ATOM    154  CA  LYS A  38      29.648  -3.663  46.660  1.00  0.64           C  
+ATOM    155  C   LYS A  38      29.400  -4.761  47.656  1.00  0.64           C  
+ATOM    156  O   LYS A  38      30.109  -5.770  47.628  1.00  0.64           O  
+ATOM    157  CB  LYS A  38      29.868  -2.334  47.434  1.00  0.64           C  
+ATOM    158  CG  LYS A  38      31.292  -2.134  47.963  1.00  0.64           C  
+ATOM    159  CD  LYS A  38      32.315  -2.053  46.822  1.00  0.64           C  
+ATOM    160  CE  LYS A  38      33.704  -1.726  47.347  1.00  0.64           C  
+ATOM    161  NZ  LYS A  38      34.689  -1.914  46.279  1.00  0.64           N  
+ATOM    162  N   LEU A  39      28.434  -4.572  48.583  1.00  0.56           N  
+ATOM    163  CA  LEU A  39      28.023  -5.468  49.667  1.00  0.56           C  
+ATOM    164  C   LEU A  39      29.086  -5.786  50.705  1.00  0.56           C  
+ATOM    165  O   LEU A  39      28.794  -6.109  51.856  1.00  0.56           O  
+ATOM    166  CB  LEU A  39      27.499  -6.817  49.135  1.00  0.56           C  
+ATOM    167  CG  LEU A  39      26.473  -6.714  47.996  1.00  0.56           C  
+ATOM    168  CD1 LEU A  39      26.375  -8.069  47.280  1.00  0.56           C  
+ATOM    169  CD2 LEU A  39      25.108  -6.196  48.478  1.00  0.56           C  
+ATOM    170  N   GLY A  40      30.355  -5.698  50.278  1.00  0.51           N  
+ATOM    171  CA  GLY A  40      31.590  -5.853  50.999  1.00  0.51           C  
+ATOM    172  C   GLY A  40      31.660  -4.968  52.179  1.00  0.51           C  
+ATOM    173  O   GLY A  40      31.008  -3.925  52.217  1.00  0.51           O  
+ATOM    174  N   GLU A  41      32.508  -5.354  53.151  1.00  0.36           N  
+ATOM    175  CA  GLU A  41      32.816  -4.583  54.336  1.00  0.36           C  
+ATOM    176  C   GLU A  41      32.930  -3.095  54.031  1.00  0.36           C  
+ATOM    177  O   GLU A  41      33.706  -2.670  53.163  1.00  0.36           O  
+ATOM    178  CB  GLU A  41      34.092  -5.147  55.014  1.00  0.36           C  
+ATOM    179  CG  GLU A  41      34.672  -4.308  56.180  1.00  0.36           C  
+ATOM    180  CD  GLU A  41      35.987  -4.883  56.709  1.00  0.36           C  
+ATOM    181  OE1 GLU A  41      36.890  -5.153  55.876  1.00  0.36           O  
+ATOM    182  OE2 GLU A  41      36.095  -5.039  57.953  1.00  0.36           O  
+ATOM    183  N   ILE A  42      32.084  -2.267  54.678  1.00  0.42           N  
+ATOM    184  CA  ILE A  42      32.135  -0.820  54.565  1.00  0.42           C  
+ATOM    185  C   ILE A  42      33.502  -0.356  54.987  1.00  0.42           C  
+ATOM    186  O   ILE A  42      34.043  -0.858  55.963  1.00  0.42           O  
+ATOM    187  CB  ILE A  42      31.061  -0.128  55.418  1.00  0.42           C  
+ATOM    188  CG1 ILE A  42      29.651  -0.330  54.813  1.00  0.42           C  
+ATOM    189  CG2 ILE A  42      31.338   1.376  55.691  1.00  0.42           C  
+ATOM    190  CD1 ILE A  42      29.454   0.315  53.435  1.00  0.42           C  
+ATOM    191  N   VAL A  43      34.101   0.596  54.245  1.00  0.41           N  
+ATOM    192  CA  VAL A  43      35.415   1.140  54.538  1.00  0.41           C  
+ATOM    193  C   VAL A  43      35.567   1.565  56.003  1.00  0.41           C  
+ATOM    194  O   VAL A  43      34.994   2.551  56.461  1.00  0.41           O  
+ATOM    195  CB  VAL A  43      35.742   2.319  53.619  1.00  0.41           C  
+ATOM    196  CG1 VAL A  43      37.110   2.945  53.969  1.00  0.41           C  
+ATOM    197  CG2 VAL A  43      35.741   1.861  52.144  1.00  0.41           C  
+ATOM    198  N   THR A  44      36.360   0.792  56.767  1.00  0.47           N  
+ATOM    199  CA  THR A  44      36.655   1.009  58.176  1.00  0.47           C  
+ATOM    200  C   THR A  44      38.088   1.482  58.314  1.00  0.47           C  
+ATOM    201  O   THR A  44      38.628   1.630  59.410  1.00  0.47           O  
+ATOM    202  CB  THR A  44      36.473  -0.277  58.980  1.00  0.47           C  
+ATOM    203  OG1 THR A  44      37.000  -1.384  58.256  1.00  0.47           O  
+ATOM    204  CG2 THR A  44      34.968  -0.508  59.197  1.00  0.47           C  
+ATOM    205  N   THR A  45      38.725   1.782  57.168  1.00  0.46           N  
+ATOM    206  CA  THR A  45      40.126   2.163  57.053  1.00  0.46           C  
+ATOM    207  C   THR A  45      40.209   3.645  56.781  1.00  0.46           C  
+ATOM    208  O   THR A  45      39.291   4.256  56.242  1.00  0.46           O  
+ATOM    209  CB  THR A  45      40.878   1.416  55.946  1.00  0.46           C  
+ATOM    210  OG1 THR A  45      40.575   0.035  56.026  1.00  0.46           O  
+ATOM    211  CG2 THR A  45      42.405   1.488  56.110  1.00  0.46           C  
+ATOM    212  N   ILE A  46      41.334   4.283  57.151  1.00  0.44           N  
+ATOM    213  CA  ILE A  46      41.634   5.668  56.818  1.00  0.44           C  
+ATOM    214  C   ILE A  46      41.711   5.844  55.296  1.00  0.44           C  
+ATOM    215  O   ILE A  46      42.424   5.068  54.657  1.00  0.44           O  
+ATOM    216  CB  ILE A  46      42.923   6.114  57.502  1.00  0.44           C  
+ATOM    217  CG1 ILE A  46      42.703   6.036  59.033  1.00  0.44           C  
+ATOM    218  CG2 ILE A  46      43.332   7.540  57.054  1.00  0.44           C  
+ATOM    219  CD1 ILE A  46      43.962   6.293  59.863  1.00  0.44           C  
+ATOM    220  N   PRO A  47      41.006   6.774  54.652  1.00  0.44           N  
+ATOM    221  CA  PRO A  47      41.121   7.037  53.222  1.00  0.44           C  
+ATOM    222  C   PRO A  47      42.515   7.402  52.759  1.00  0.44           C  
+ATOM    223  O   PRO A  47      43.133   8.300  53.326  1.00  0.44           O  
+ATOM    224  CB  PRO A  47      40.109   8.163  52.953  1.00  0.44           C  
+ATOM    225  CG  PRO A  47      39.077   7.972  54.062  1.00  0.44           C  
+ATOM    226  CD  PRO A  47      39.949   7.582  55.251  1.00  0.44           C  
+ATOM    227  N   THR A  48      43.024   6.722  51.717  1.00  0.56           N  
+ATOM    228  CA  THR A  48      44.269   7.068  51.038  1.00  0.56           C  
+ATOM    229  C   THR A  48      44.191   8.452  50.425  1.00  0.56           C  
+ATOM    230  O   THR A  48      43.219   8.788  49.756  1.00  0.56           O  
+ATOM    231  CB  THR A  48      44.591   6.073  49.928  1.00  0.56           C  
+ATOM    232  OG1 THR A  48      44.718   4.774  50.486  1.00  0.56           O  
+ATOM    233  CG2 THR A  48      45.917   6.360  49.208  1.00  0.56           C  
+ATOM    234  N   ILE A  49      45.218   9.307  50.627  1.00  0.52           N  
+ATOM    235  CA  ILE A  49      45.268  10.619  49.991  1.00  0.52           C  
+ATOM    236  C   ILE A  49      45.368  10.494  48.477  1.00  0.52           C  
+ATOM    237  O   ILE A  49      46.263   9.847  47.939  1.00  0.52           O  
+ATOM    238  CB  ILE A  49      46.408  11.496  50.519  1.00  0.52           C  
+ATOM    239  CG1 ILE A  49      46.284  11.751  52.045  1.00  0.52           C  
+ATOM    240  CG2 ILE A  49      46.527  12.832  49.740  1.00  0.52           C  
+ATOM    241  CD1 ILE A  49      45.071  12.593  52.465  1.00  0.52           C  
+ATOM    242  N   GLY A  50      44.427  11.130  47.755  1.00  0.44           N  
+ATOM    243  CA  GLY A  50      44.404  11.110  46.310  1.00  0.44           C  
+ATOM    244  C   GLY A  50      43.003  10.970  45.820  1.00  0.44           C  
+ATOM    245  O   GLY A  50      42.053  11.441  46.440  1.00  0.44           O  
+ATOM    246  N   PHE A  51      42.863  10.347  44.644  1.00  0.35           N  
+ATOM    247  CA  PHE A  51      41.607  10.142  43.958  1.00  0.35           C  
+ATOM    248  C   PHE A  51      40.751   9.080  44.625  1.00  0.35           C  
+ATOM    249  O   PHE A  51      41.255   8.109  45.190  1.00  0.35           O  
+ATOM    250  CB  PHE A  51      41.813   9.737  42.473  1.00  0.35           C  
+ATOM    251  CG  PHE A  51      42.549  10.810  41.719  1.00  0.35           C  
+ATOM    252  CD1 PHE A  51      43.951  10.899  41.765  1.00  0.35           C  
+ATOM    253  CD2 PHE A  51      41.841  11.742  40.946  1.00  0.35           C  
+ATOM    254  CE1 PHE A  51      44.627  11.911  41.074  1.00  0.35           C  
+ATOM    255  CE2 PHE A  51      42.515  12.742  40.235  1.00  0.35           C  
+ATOM    256  CZ  PHE A  51      43.909  12.830  40.303  1.00  0.35           C  
+ATOM    257  N   ASN A  52      39.413   9.227  44.550  1.00  0.39           N  
+ATOM    258  CA  ASN A  52      38.485   8.176  44.932  1.00  0.39           C  
+ATOM    259  C   ASN A  52      38.640   6.963  44.026  1.00  0.39           C  
+ATOM    260  O   ASN A  52      38.776   7.092  42.814  1.00  0.39           O  
+ATOM    261  CB  ASN A  52      37.006   8.640  44.873  1.00  0.39           C  
+ATOM    262  CG  ASN A  52      36.771   9.778  45.851  1.00  0.39           C  
+ATOM    263  OD1 ASN A  52      37.324   9.804  46.955  1.00  0.39           O  
+ATOM    264  ND2 ASN A  52      35.909  10.748  45.477  1.00  0.39           N  
+ATOM    265  N   VAL A  53      38.621   5.747  44.601  1.00  0.53           N  
+ATOM    266  CA  VAL A  53      38.742   4.536  43.817  1.00  0.53           C  
+ATOM    267  C   VAL A  53      37.496   3.733  44.045  1.00  0.53           C  
+ATOM    268  O   VAL A  53      37.250   3.189  45.121  1.00  0.53           O  
+ATOM    269  CB  VAL A  53      39.958   3.691  44.177  1.00  0.53           C  
+ATOM    270  CG1 VAL A  53      40.004   2.414  43.305  1.00  0.53           C  
+ATOM    271  CG2 VAL A  53      41.229   4.532  43.952  1.00  0.53           C  
+ATOM    272  N   GLU A  54      36.674   3.621  42.997  1.00  0.64           N  
+ATOM    273  CA  GLU A  54      35.471   2.852  43.059  1.00  0.64           C  
+ATOM    274  C   GLU A  54      35.660   1.714  42.073  1.00  0.64           C  
+ATOM    275  O   GLU A  54      35.654   1.895  40.856  1.00  0.64           O  
+ATOM    276  CB  GLU A  54      34.264   3.747  42.730  1.00  0.64           C  
+ATOM    277  CG  GLU A  54      34.125   5.005  43.616  1.00  0.64           C  
+ATOM    278  CD  GLU A  54      32.925   5.804  43.122  1.00  0.64           C  
+ATOM    279  OE1 GLU A  54      31.886   5.782  43.827  1.00  0.64           O  
+ATOM    280  OE2 GLU A  54      33.021   6.409  42.025  1.00  0.64           O  
+ATOM    281  N   THR A  55      35.869   0.493  42.599  1.00  0.70           N  
+ATOM    282  CA  THR A  55      36.071  -0.713  41.808  1.00  0.70           C  
+ATOM    283  C   THR A  55      35.355  -1.867  42.479  1.00  0.70           C  
+ATOM    284  O   THR A  55      35.066  -1.807  43.672  1.00  0.70           O  
+ATOM    285  CB  THR A  55      37.550  -1.058  41.586  1.00  0.70           C  
+ATOM    286  OG1 THR A  55      37.742  -2.254  40.852  1.00  0.70           O  
+ATOM    287  CG2 THR A  55      38.314  -1.238  42.910  1.00  0.70           C  
+ATOM    288  N   VAL A  56      35.026  -2.936  41.728  1.00  0.71           N  
+ATOM    289  CA  VAL A  56      34.431  -4.153  42.248  1.00  0.71           C  
+ATOM    290  C   VAL A  56      34.803  -5.305  41.332  1.00  0.71           C  
+ATOM    291  O   VAL A  56      35.069  -5.113  40.145  1.00  0.71           O  
+ATOM    292  CB  VAL A  56      32.908  -4.028  42.429  1.00  0.71           C  
+ATOM    293  CG1 VAL A  56      32.210  -3.773  41.075  1.00  0.71           C  
+ATOM    294  CG2 VAL A  56      32.277  -5.219  43.191  1.00  0.71           C  
+ATOM    295  N   GLU A  57      34.839  -6.532  41.888  1.00  0.72           N  
+ATOM    296  CA  GLU A  57      35.002  -7.762  41.151  1.00  0.72           C  
+ATOM    297  C   GLU A  57      33.687  -8.511  41.071  1.00  0.72           C  
+ATOM    298  O   GLU A  57      32.974  -8.685  42.054  1.00  0.72           O  
+ATOM    299  CB  GLU A  57      36.085  -8.673  41.756  1.00  0.72           C  
+ATOM    300  CG  GLU A  57      37.480  -8.254  41.247  1.00  0.72           C  
+ATOM    301  CD  GLU A  57      38.480  -9.396  41.358  1.00  0.72           C  
+ATOM    302  OE1 GLU A  57      38.182 -10.473  40.774  1.00  0.72           O  
+ATOM    303  OE2 GLU A  57      39.546  -9.192  41.987  1.00  0.72           O  
+ATOM    304  N   TYR A  58      33.334  -8.959  39.851  1.00  0.73           N  
+ATOM    305  CA  TYR A  58      32.166  -9.774  39.602  1.00  0.73           C  
+ATOM    306  C   TYR A  58      32.556 -10.786  38.528  1.00  0.73           C  
+ATOM    307  O   TYR A  58      32.956 -10.405  37.433  1.00  0.73           O  
+ATOM    308  CB  TYR A  58      30.988  -8.876  39.126  1.00  0.73           C  
+ATOM    309  CG  TYR A  58      29.724  -9.637  38.856  1.00  0.73           C  
+ATOM    310  CD1 TYR A  58      29.001 -10.189  39.917  1.00  0.73           C  
+ATOM    311  CD2 TYR A  58      29.234  -9.785  37.548  1.00  0.73           C  
+ATOM    312  CE1 TYR A  58      27.818 -10.898  39.676  1.00  0.73           C  
+ATOM    313  CE2 TYR A  58      28.035 -10.474  37.307  1.00  0.73           C  
+ATOM    314  CZ  TYR A  58      27.333 -11.047  38.372  1.00  0.73           C  
+ATOM    315  OH  TYR A  58      26.133 -11.767  38.175  1.00  0.73           O  
+ATOM    316  N   LYS A  59      32.472 -12.106  38.811  1.00  0.71           N  
+ATOM    317  CA  LYS A  59      32.807 -13.171  37.862  1.00  0.71           C  
+ATOM    318  C   LYS A  59      34.218 -13.124  37.281  1.00  0.71           C  
+ATOM    319  O   LYS A  59      34.411 -13.429  36.091  1.00  0.71           O  
+ATOM    320  CB  LYS A  59      31.743 -13.314  36.740  1.00  0.71           C  
+ATOM    321  CG  LYS A  59      30.386 -13.767  37.286  1.00  0.71           C  
+ATOM    322  CD  LYS A  59      29.337 -14.030  36.195  1.00  0.71           C  
+ATOM    323  CE  LYS A  59      28.028 -14.553  36.804  1.00  0.71           C  
+ATOM    324  NZ  LYS A  59      27.001 -14.791  35.775  1.00  0.71           N  
+ATOM    325  N   ASN A  60      35.236 -12.783  38.091  1.00  0.71           N  
+ATOM    326  CA  ASN A  60      36.640 -12.615  37.720  1.00  0.71           C  
+ATOM    327  C   ASN A  60      36.911 -11.333  36.915  1.00  0.71           C  
+ATOM    328  O   ASN A  60      38.011 -11.111  36.396  1.00  0.71           O  
+ATOM    329  CB  ASN A  60      37.221 -13.834  36.954  1.00  0.71           C  
+ATOM    330  CG  ASN A  60      36.838 -15.129  37.653  1.00  0.71           C  
+ATOM    331  OD1 ASN A  60      37.184 -15.383  38.812  1.00  0.71           O  
+ATOM    332  ND2 ASN A  60      36.077 -15.997  36.954  1.00  0.71           N  
+ATOM    333  N   ILE A  61      35.906 -10.443  36.785  1.00  0.73           N  
+ATOM    334  CA  ILE A  61      35.999  -9.234  35.991  1.00  0.73           C  
+ATOM    335  C   ILE A  61      36.035  -8.058  36.939  1.00  0.73           C  
+ATOM    336  O   ILE A  61      35.247  -7.968  37.875  1.00  0.73           O  
+ATOM    337  CB  ILE A  61      34.842  -9.066  35.004  1.00  0.73           C  
+ATOM    338  CG1 ILE A  61      34.592 -10.316  34.122  1.00  0.73           C  
+ATOM    339  CG2 ILE A  61      35.048  -7.806  34.138  1.00  0.73           C  
+ATOM    340  CD1 ILE A  61      35.816 -10.817  33.357  1.00  0.73           C  
+ATOM    341  N   SER A  62      36.985  -7.134  36.699  1.00  0.77           N  
+ATOM    342  CA  SER A  62      37.221  -5.950  37.502  1.00  0.77           C  
+ATOM    343  C   SER A  62      36.605  -4.770  36.783  1.00  0.77           C  
+ATOM    344  O   SER A  62      36.922  -4.514  35.619  1.00  0.77           O  
+ATOM    345  CB  SER A  62      38.742  -5.691  37.668  1.00  0.77           C  
+ATOM    346  OG  SER A  62      39.030  -4.543  38.469  1.00  0.77           O  
+ATOM    347  N   PHE A  63      35.699  -4.048  37.466  1.00  0.71           N  
+ATOM    348  CA  PHE A  63      34.941  -2.934  36.928  1.00  0.71           C  
+ATOM    349  C   PHE A  63      35.285  -1.706  37.731  1.00  0.71           C  
+ATOM    350  O   PHE A  63      35.025  -1.663  38.931  1.00  0.71           O  
+ATOM    351  CB  PHE A  63      33.404  -3.081  37.089  1.00  0.71           C  
+ATOM    352  CG  PHE A  63      32.916  -4.350  36.488  1.00  0.71           C  
+ATOM    353  CD1 PHE A  63      33.009  -5.564  37.181  1.00  0.71           C  
+ATOM    354  CD2 PHE A  63      32.400  -4.345  35.193  1.00  0.71           C  
+ATOM    355  CE1 PHE A  63      32.613  -6.754  36.568  1.00  0.71           C  
+ATOM    356  CE2 PHE A  63      31.944  -5.527  34.602  1.00  0.71           C  
+ATOM    357  CZ  PHE A  63      32.040  -6.735  35.294  1.00  0.71           C  
+ATOM    358  N   THR A  64      35.844  -0.667  37.088  1.00  0.75           N  
+ATOM    359  CA  THR A  64      36.367   0.505  37.789  1.00  0.75           C  
+ATOM    360  C   THR A  64      35.761   1.774  37.240  1.00  0.75           C  
+ATOM    361  O   THR A  64      35.740   2.006  36.033  1.00  0.75           O  
+ATOM    362  CB  THR A  64      37.883   0.631  37.684  1.00  0.75           C  
+ATOM    363  OG1 THR A  64      38.520  -0.436  38.367  1.00  0.75           O  
+ATOM    364  CG2 THR A  64      38.432   1.900  38.352  1.00  0.75           C  
+ATOM    365  N   VAL A  65      35.240   2.651  38.120  1.00  0.73           N  
+ATOM    366  CA  VAL A  65      34.779   3.987  37.756  1.00  0.73           C  
+ATOM    367  C   VAL A  65      35.905   4.867  37.258  1.00  0.73           C  
+ATOM    368  O   VAL A  65      36.958   4.986  37.884  1.00  0.73           O  
+ATOM    369  CB  VAL A  65      34.049   4.686  38.885  1.00  0.73           C  
+ATOM    370  CG1 VAL A  65      33.402   6.011  38.438  1.00  0.73           C  
+ATOM    371  CG2 VAL A  65      32.914   3.757  39.326  1.00  0.73           C  
+ATOM    372  N   TRP A  66      35.710   5.499  36.093  1.00  0.56           N  
+ATOM    373  CA  TRP A  66      36.688   6.401  35.549  1.00  0.56           C  
+ATOM    374  C   TRP A  66      36.020   7.735  35.261  1.00  0.56           C  
+ATOM    375  O   TRP A  66      35.102   7.833  34.443  1.00  0.56           O  
+ATOM    376  CB  TRP A  66      37.341   5.777  34.285  1.00  0.56           C  
+ATOM    377  CG  TRP A  66      38.519   6.567  33.743  1.00  0.56           C  
+ATOM    378  CD1 TRP A  66      38.512   7.658  32.918  1.00  0.56           C  
+ATOM    379  CD2 TRP A  66      39.878   6.392  34.171  1.00  0.56           C  
+ATOM    380  NE1 TRP A  66      39.783   8.168  32.795  1.00  0.56           N  
+ATOM    381  CE2 TRP A  66      40.635   7.416  33.561  1.00  0.56           C  
+ATOM    382  CE3 TRP A  66      40.471   5.483  35.041  1.00  0.56           C  
+ATOM    383  CZ2 TRP A  66      41.988   7.539  33.816  1.00  0.56           C  
+ATOM    384  CZ3 TRP A  66      41.844   5.609  35.287  1.00  0.56           C  
+ATOM    385  CH2 TRP A  66      42.592   6.627  34.685  1.00  0.56           C  
+ATOM    386  N   ASP A  67      36.473   8.809  35.939  1.00  0.48           N  
+ATOM    387  CA  ASP A  67      36.093  10.169  35.624  1.00  0.48           C  
+ATOM    388  C   ASP A  67      36.696  10.612  34.295  1.00  0.48           C  
+ATOM    389  O   ASP A  67      37.907  10.656  34.106  1.00  0.48           O  
+ATOM    390  CB  ASP A  67      36.505  11.165  36.739  1.00  0.48           C  
+ATOM    391  CG  ASP A  67      35.734  10.925  38.028  1.00  0.48           C  
+ATOM    392  OD1 ASP A  67      34.664  10.263  37.966  1.00  0.48           O  
+ATOM    393  OD2 ASP A  67      36.196  11.451  39.071  1.00  0.48           O  
+ATOM    394  N   VAL A  68      35.826  10.969  33.327  1.00  0.56           N  
+ATOM    395  CA  VAL A  68      36.236  11.451  32.019  1.00  0.56           C  
+ATOM    396  C   VAL A  68      36.278  12.960  31.972  1.00  0.56           C  
+ATOM    397  O   VAL A  68      36.649  13.565  30.960  1.00  0.56           O  
+ATOM    398  CB  VAL A  68      35.298  10.978  30.917  1.00  0.56           C  
+ATOM    399  CG1 VAL A  68      35.479   9.462  30.726  1.00  0.56           C  
+ATOM    400  CG2 VAL A  68      33.834  11.378  31.212  1.00  0.56           C  
+ATOM    401  N   GLY A  69      35.932  13.607  33.100  1.00  0.41           N  
+ATOM    402  CA  GLY A  69      36.095  15.034  33.269  1.00  0.41           C  
+ATOM    403  C   GLY A  69      37.548  15.387  33.418  1.00  0.41           C  
+ATOM    404  O   GLY A  69      38.417  14.538  33.588  1.00  0.41           O  
+ATOM    405  N   GLY A  70      37.840  16.693  33.413  1.00  0.47           N  
+ATOM    406  CA  GLY A  70      39.204  17.167  33.507  1.00  0.47           C  
+ATOM    407  C   GLY A  70      39.725  17.574  32.160  1.00  0.47           C  
+ATOM    408  O   GLY A  70      39.492  16.947  31.129  1.00  0.47           O  
+ATOM    409  N   GLN A  71      40.447  18.698  32.165  1.00  0.53           N  
+ATOM    410  CA  GLN A  71      41.055  19.361  31.031  1.00  0.53           C  
+ATOM    411  C   GLN A  71      42.012  18.492  30.217  1.00  0.53           C  
+ATOM    412  O   GLN A  71      42.742  17.681  30.785  1.00  0.53           O  
+ATOM    413  CB  GLN A  71      41.866  20.553  31.587  1.00  0.53           C  
+ATOM    414  CG  GLN A  71      41.026  21.519  32.453  1.00  0.53           C  
+ATOM    415  CD  GLN A  71      41.909  22.603  33.052  1.00  0.53           C  
+ATOM    416  OE1 GLN A  71      42.678  23.262  32.333  1.00  0.53           O  
+ATOM    417  NE2 GLN A  71      41.898  22.766  34.389  1.00  0.53           N  
+ATOM    418  N   ASP A  72      42.111  18.682  28.878  1.00  0.60           N  
+ATOM    419  CA  ASP A  72      42.828  17.764  27.993  1.00  0.60           C  
+ATOM    420  C   ASP A  72      44.316  17.564  28.302  1.00  0.60           C  
+ATOM    421  O   ASP A  72      44.912  16.544  27.959  1.00  0.60           O  
+ATOM    422  CB  ASP A  72      42.707  18.200  26.514  1.00  0.60           C  
+ATOM    423  CG  ASP A  72      41.251  18.184  26.070  1.00  0.60           C  
+ATOM    424  OD1 ASP A  72      40.666  17.074  26.108  1.00  0.60           O  
+ATOM    425  OD2 ASP A  72      40.709  19.258  25.722  1.00  0.60           O  
+ATOM    426  N   LYS A  73      44.925  18.525  29.027  1.00  0.63           N  
+ATOM    427  CA  LYS A  73      46.301  18.537  29.501  1.00  0.63           C  
+ATOM    428  C   LYS A  73      46.713  17.295  30.303  1.00  0.63           C  
+ATOM    429  O   LYS A  73      47.863  16.855  30.232  1.00  0.63           O  
+ATOM    430  CB  LYS A  73      46.566  19.767  30.427  1.00  0.63           C  
+ATOM    431  CG  LYS A  73      46.057  21.137  29.938  1.00  0.63           C  
+ATOM    432  CD  LYS A  73      46.581  22.330  30.781  1.00  0.63           C  
+ATOM    433  CE  LYS A  73      46.401  22.252  32.304  1.00  0.63           C  
+ATOM    434  NZ  LYS A  73      44.986  22.081  32.615  1.00  0.63           N  
+ATOM    435  N   ILE A  74      45.791  16.711  31.105  1.00  0.62           N  
+ATOM    436  CA  ILE A  74      46.067  15.561  31.957  1.00  0.62           C  
+ATOM    437  C   ILE A  74      45.748  14.234  31.284  1.00  0.62           C  
+ATOM    438  O   ILE A  74      46.157  13.172  31.748  1.00  0.62           O  
+ATOM    439  CB  ILE A  74      45.282  15.593  33.269  1.00  0.62           C  
+ATOM    440  CG1 ILE A  74      43.746  15.618  33.062  1.00  0.62           C  
+ATOM    441  CG2 ILE A  74      45.782  16.787  34.111  1.00  0.62           C  
+ATOM    442  CD1 ILE A  74      42.957  15.112  34.274  1.00  0.62           C  
+ATOM    443  N   ARG A  75      45.059  14.251  30.125  1.00  0.55           N  
+ATOM    444  CA  ARG A  75      44.704  13.042  29.395  1.00  0.55           C  
+ATOM    445  C   ARG A  75      45.859  12.119  28.983  1.00  0.55           C  
+ATOM    446  O   ARG A  75      45.637  10.902  28.945  1.00  0.55           O  
+ATOM    447  CB  ARG A  75      43.876  13.336  28.130  1.00  0.55           C  
+ATOM    448  CG  ARG A  75      42.444  13.818  28.399  1.00  0.55           C  
+ATOM    449  CD  ARG A  75      41.639  13.841  27.097  1.00  0.55           C  
+ATOM    450  NE  ARG A  75      40.191  13.729  27.466  1.00  0.55           N  
+ATOM    451  CZ  ARG A  75      39.381  12.700  27.164  1.00  0.55           C  
+ATOM    452  NH1 ARG A  75      39.796  11.651  26.457  1.00  0.55           N  
+ATOM    453  NH2 ARG A  75      38.122  12.731  27.602  1.00  0.55           N  
+ATOM    454  N   PRO A  76      47.089  12.536  28.676  1.00  0.64           N  
+ATOM    455  CA  PRO A  76      48.215  11.628  28.486  1.00  0.64           C  
+ATOM    456  C   PRO A  76      48.528  10.705  29.659  1.00  0.64           C  
+ATOM    457  O   PRO A  76      49.199   9.688  29.441  1.00  0.64           O  
+ATOM    458  CB  PRO A  76      49.394  12.568  28.202  1.00  0.64           C  
+ATOM    459  CG  PRO A  76      48.753  13.792  27.551  1.00  0.64           C  
+ATOM    460  CD  PRO A  76      47.461  13.916  28.342  1.00  0.64           C  
+ATOM    461  N   LEU A  77      48.103  11.030  30.893  1.00  0.61           N  
+ATOM    462  CA  LEU A  77      48.260  10.209  32.081  1.00  0.61           C  
+ATOM    463  C   LEU A  77      47.235   9.075  32.131  1.00  0.61           C  
+ATOM    464  O   LEU A  77      47.394   8.095  32.857  1.00  0.61           O  
+ATOM    465  CB  LEU A  77      48.182  11.092  33.356  1.00  0.61           C  
+ATOM    466  CG  LEU A  77      49.201  12.257  33.402  1.00  0.61           C  
+ATOM    467  CD1 LEU A  77      48.996  13.101  34.672  1.00  0.61           C  
+ATOM    468  CD2 LEU A  77      50.658  11.771  33.316  1.00  0.61           C  
+ATOM    469  N   TRP A  78      46.168   9.139  31.306  1.00  0.55           N  
+ATOM    470  CA  TRP A  78      45.141   8.113  31.234  1.00  0.55           C  
+ATOM    471  C   TRP A  78      45.602   6.887  30.471  1.00  0.55           C  
+ATOM    472  O   TRP A  78      45.095   5.784  30.670  1.00  0.55           O  
+ATOM    473  CB  TRP A  78      43.866   8.669  30.562  1.00  0.55           C  
+ATOM    474  CG  TRP A  78      43.216   9.839  31.285  1.00  0.55           C  
+ATOM    475  CD1 TRP A  78      43.598  10.523  32.411  1.00  0.55           C  
+ATOM    476  CD2 TRP A  78      41.946  10.378  30.903  1.00  0.55           C  
+ATOM    477  NE1 TRP A  78      42.651  11.457  32.745  1.00  0.55           N  
+ATOM    478  CE2 TRP A  78      41.631  11.388  31.838  1.00  0.55           C  
+ATOM    479  CE3 TRP A  78      41.077  10.052  29.872  1.00  0.55           C  
+ATOM    480  CZ2 TRP A  78      40.453  12.101  31.740  1.00  0.55           C  
+ATOM    481  CZ3 TRP A  78      39.872  10.755  29.794  1.00  0.55           C  
+ATOM    482  CH2 TRP A  78      39.588  11.795  30.686  1.00  0.55           C  
+ATOM    483  N   ARG A  79      46.648   7.041  29.631  1.00  0.57           N  
+ATOM    484  CA  ARG A  79      47.142   6.025  28.716  1.00  0.57           C  
+ATOM    485  C   ARG A  79      47.480   4.687  29.360  1.00  0.57           C  
+ATOM    486  O   ARG A  79      47.109   3.645  28.831  1.00  0.57           O  
+ATOM    487  CB  ARG A  79      48.407   6.523  27.974  1.00  0.57           C  
+ATOM    488  CG  ARG A  79      48.126   7.595  26.901  1.00  0.57           C  
+ATOM    489  CD  ARG A  79      49.371   8.042  26.124  1.00  0.57           C  
+ATOM    490  NE  ARG A  79      50.253   8.765  27.097  1.00  0.57           N  
+ATOM    491  CZ  ARG A  79      51.438   9.309  26.798  1.00  0.57           C  
+ATOM    492  NH1 ARG A  79      51.931   9.228  25.567  1.00  0.57           N  
+ATOM    493  NH2 ARG A  79      52.132   9.948  27.737  1.00  0.57           N  
+ATOM    494  N   HIS A  80      48.139   4.687  30.540  1.00  0.60           N  
+ATOM    495  CA  HIS A  80      48.468   3.490  31.309  1.00  0.60           C  
+ATOM    496  C   HIS A  80      47.230   2.694  31.703  1.00  0.60           C  
+ATOM    497  O   HIS A  80      47.186   1.466  31.632  1.00  0.60           O  
+ATOM    498  CB  HIS A  80      49.240   3.874  32.604  1.00  0.60           C  
+ATOM    499  CG  HIS A  80      49.449   2.730  33.541  1.00  0.60           C  
+ATOM    500  ND1 HIS A  80      50.417   1.801  33.258  1.00  0.60           N  
+ATOM    501  CD2 HIS A  80      48.686   2.320  34.590  1.00  0.60           C  
+ATOM    502  CE1 HIS A  80      50.231   0.832  34.132  1.00  0.60           C  
+ATOM    503  NE2 HIS A  80      49.197   1.101  34.961  1.00  0.60           N  
+ATOM    504  N   TYR A  81      46.155   3.381  32.118  1.00  0.60           N  
+ATOM    505  CA  TYR A  81      44.979   2.728  32.649  1.00  0.60           C  
+ATOM    506  C   TYR A  81      44.029   2.300  31.563  1.00  0.60           C  
+ATOM    507  O   TYR A  81      43.124   1.507  31.808  1.00  0.60           O  
+ATOM    508  CB  TYR A  81      44.197   3.664  33.589  1.00  0.60           C  
+ATOM    509  CG  TYR A  81      45.058   4.005  34.761  1.00  0.60           C  
+ATOM    510  CD1 TYR A  81      45.862   5.153  34.753  1.00  0.60           C  
+ATOM    511  CD2 TYR A  81      45.102   3.144  35.865  1.00  0.60           C  
+ATOM    512  CE1 TYR A  81      46.702   5.434  35.836  1.00  0.60           C  
+ATOM    513  CE2 TYR A  81      45.939   3.426  36.953  1.00  0.60           C  
+ATOM    514  CZ  TYR A  81      46.742   4.573  36.934  1.00  0.60           C  
+ATOM    515  OH  TYR A  81      47.607   4.869  38.003  1.00  0.60           O  
+ATOM    516  N   PHE A  82      44.211   2.816  30.332  1.00  0.70           N  
+ATOM    517  CA  PHE A  82      43.356   2.443  29.229  1.00  0.70           C  
+ATOM    518  C   PHE A  82      43.844   1.167  28.585  1.00  0.70           C  
+ATOM    519  O   PHE A  82      43.035   0.450  27.998  1.00  0.70           O  
+ATOM    520  CB  PHE A  82      43.164   3.599  28.205  1.00  0.70           C  
+ATOM    521  CG  PHE A  82      42.185   4.661  28.687  1.00  0.70           C  
+ATOM    522  CD1 PHE A  82      41.677   5.584  27.754  1.00  0.70           C  
+ATOM    523  CD2 PHE A  82      41.716   4.756  30.015  1.00  0.70           C  
+ATOM    524  CE1 PHE A  82      40.737   6.553  28.129  1.00  0.70           C  
+ATOM    525  CE2 PHE A  82      40.784   5.725  30.393  1.00  0.70           C  
+ATOM    526  CZ  PHE A  82      40.288   6.622  29.450  1.00  0.70           C  
+ATOM    527  N   GLN A  83      45.144   0.816  28.743  1.00  0.69           N  
+ATOM    528  CA  GLN A  83      45.715  -0.440  28.290  1.00  0.69           C  
+ATOM    529  C   GLN A  83      45.024  -1.641  28.889  1.00  0.69           C  
+ATOM    530  O   GLN A  83      44.705  -1.655  30.088  1.00  0.69           O  
+ATOM    531  CB  GLN A  83      47.199  -0.630  28.685  1.00  0.69           C  
+ATOM    532  CG  GLN A  83      48.170   0.492  28.284  1.00  0.69           C  
+ATOM    533  CD  GLN A  83      49.539   0.167  28.874  1.00  0.69           C  
+ATOM    534  OE1 GLN A  83      49.676  -0.151  30.062  1.00  0.69           O  
+ATOM    535  NE2 GLN A  83      50.605   0.206  28.053  1.00  0.69           N  
+ATOM    536  N   ASN A  84      44.821  -2.703  28.083  1.00  0.73           N  
+ATOM    537  CA  ASN A  84      44.238  -3.946  28.554  1.00  0.73           C  
+ATOM    538  C   ASN A  84      42.778  -3.751  28.999  1.00  0.73           C  
+ATOM    539  O   ASN A  84      42.343  -4.284  30.025  1.00  0.73           O  
+ATOM    540  CB  ASN A  84      45.151  -4.554  29.663  1.00  0.73           C  
+ATOM    541  CG  ASN A  84      44.773  -5.966  30.060  1.00  0.73           C  
+ATOM    542  OD1 ASN A  84      44.827  -6.928  29.287  1.00  0.73           O  
+ATOM    543  ND2 ASN A  84      44.386  -6.142  31.341  1.00  0.73           N  
+ATOM    544  N   THR A  85      41.984  -2.981  28.220  1.00  0.79           N  
+ATOM    545  CA  THR A  85      40.592  -2.693  28.553  1.00  0.79           C  
+ATOM    546  C   THR A  85      39.697  -3.354  27.552  1.00  0.79           C  
+ATOM    547  O   THR A  85      39.639  -3.017  26.375  1.00  0.79           O  
+ATOM    548  CB  THR A  85      40.229  -1.219  28.584  1.00  0.79           C  
+ATOM    549  OG1 THR A  85      40.894  -0.564  29.643  1.00  0.79           O  
+ATOM    550  CG2 THR A  85      38.733  -0.988  28.882  1.00  0.79           C  
+ATOM    551  N   GLN A  86      38.930  -4.341  28.033  1.00  0.78           N  
+ATOM    552  CA  GLN A  86      38.179  -5.219  27.162  1.00  0.78           C  
+ATOM    553  C   GLN A  86      36.745  -4.781  27.027  1.00  0.78           C  
+ATOM    554  O   GLN A  86      36.005  -5.229  26.148  1.00  0.78           O  
+ATOM    555  CB  GLN A  86      38.156  -6.637  27.760  1.00  0.78           C  
+ATOM    556  CG  GLN A  86      39.483  -7.413  27.594  1.00  0.78           C  
+ATOM    557  CD  GLN A  86      40.702  -6.846  28.315  1.00  0.78           C  
+ATOM    558  OE1 GLN A  86      41.668  -6.384  27.708  1.00  0.78           O  
+ATOM    559  NE2 GLN A  86      40.683  -6.923  29.660  1.00  0.78           N  
+ATOM    560  N   GLY A  87      36.299  -3.860  27.882  1.00  0.84           N  
+ATOM    561  CA  GLY A  87      34.952  -3.382  27.777  1.00  0.84           C  
+ATOM    562  C   GLY A  87      34.779  -2.090  28.476  1.00  0.84           C  
+ATOM    563  O   GLY A  87      35.572  -1.675  29.319  1.00  0.84           O  
+ATOM    564  N   LEU A  88      33.688  -1.427  28.108  1.00  0.86           N  
+ATOM    565  CA  LEU A  88      33.308  -0.145  28.620  1.00  0.86           C  
+ATOM    566  C   LEU A  88      31.863  -0.264  29.066  1.00  0.86           C  
+ATOM    567  O   LEU A  88      31.016  -0.813  28.368  1.00  0.86           O  
+ATOM    568  CB  LEU A  88      33.470   0.925  27.513  1.00  0.86           C  
+ATOM    569  CG  LEU A  88      33.060   2.360  27.900  1.00  0.86           C  
+ATOM    570  CD1 LEU A  88      34.078   3.009  28.852  1.00  0.86           C  
+ATOM    571  CD2 LEU A  88      32.856   3.216  26.639  1.00  0.86           C  
+ATOM    572  N   ILE A  89      31.560   0.250  30.272  1.00  0.88           N  
+ATOM    573  CA  ILE A  89      30.205   0.411  30.757  1.00  0.88           C  
+ATOM    574  C   ILE A  89      29.910   1.895  30.729  1.00  0.88           C  
+ATOM    575  O   ILE A  89      30.588   2.709  31.350  1.00  0.88           O  
+ATOM    576  CB  ILE A  89      29.974  -0.164  32.151  1.00  0.88           C  
+ATOM    577  CG1 ILE A  89      30.342  -1.663  32.144  1.00  0.88           C  
+ATOM    578  CG2 ILE A  89      28.504   0.051  32.590  1.00  0.88           C  
+ATOM    579  CD1 ILE A  89      30.153  -2.355  33.495  1.00  0.88           C  
+ATOM    580  N   PHE A  90      28.880   2.288  29.964  1.00  0.89           N  
+ATOM    581  CA  PHE A  90      28.454   3.663  29.878  1.00  0.89           C  
+ATOM    582  C   PHE A  90      27.162   3.804  30.661  1.00  0.89           C  
+ATOM    583  O   PHE A  90      26.147   3.177  30.361  1.00  0.89           O  
+ATOM    584  CB  PHE A  90      28.285   4.112  28.407  1.00  0.89           C  
+ATOM    585  CG  PHE A  90      28.120   5.607  28.326  1.00  0.89           C  
+ATOM    586  CD1 PHE A  90      29.259   6.421  28.280  1.00  0.89           C  
+ATOM    587  CD2 PHE A  90      26.855   6.214  28.325  1.00  0.89           C  
+ATOM    588  CE1 PHE A  90      29.150   7.815  28.335  1.00  0.89           C  
+ATOM    589  CE2 PHE A  90      26.740   7.609  28.313  1.00  0.89           C  
+ATOM    590  CZ  PHE A  90      27.887   8.408  28.357  1.00  0.89           C  
+ATOM    591  N   VAL A  91      27.187   4.638  31.713  1.00  0.91           N  
+ATOM    592  CA  VAL A  91      26.033   4.904  32.547  1.00  0.91           C  
+ATOM    593  C   VAL A  91      25.459   6.253  32.166  1.00  0.91           C  
+ATOM    594  O   VAL A  91      26.150   7.270  32.149  1.00  0.91           O  
+ATOM    595  CB  VAL A  91      26.378   4.902  34.032  1.00  0.91           C  
+ATOM    596  CG1 VAL A  91      25.098   5.043  34.881  1.00  0.91           C  
+ATOM    597  CG2 VAL A  91      27.071   3.573  34.375  1.00  0.91           C  
+ATOM    598  N   VAL A  92      24.153   6.287  31.853  1.00  0.91           N  
+ATOM    599  CA  VAL A  92      23.446   7.498  31.506  1.00  0.91           C  
+ATOM    600  C   VAL A  92      22.231   7.614  32.399  1.00  0.91           C  
+ATOM    601  O   VAL A  92      21.573   6.625  32.728  1.00  0.91           O  
+ATOM    602  CB  VAL A  92      23.121   7.556  30.010  1.00  0.91           C  
+ATOM    603  CG1 VAL A  92      22.286   6.348  29.530  1.00  0.91           C  
+ATOM    604  CG2 VAL A  92      22.487   8.905  29.612  1.00  0.91           C  
+ATOM    605  N   ASP A  93      21.938   8.840  32.867  1.00  0.90           N  
+ATOM    606  CA  ASP A  93      20.676   9.192  33.450  1.00  0.90           C  
+ATOM    607  C   ASP A  93      19.622   9.243  32.350  1.00  0.90           C  
+ATOM    608  O   ASP A  93      19.676  10.072  31.439  1.00  0.90           O  
+ATOM    609  CB  ASP A  93      20.864  10.547  34.169  1.00  0.90           C  
+ATOM    610  CG  ASP A  93      19.624  11.006  34.944  1.00  0.90           C  
+ATOM    611  OD1 ASP A  93      19.887  11.688  35.984  1.00  0.90           O  
+ATOM    612  OD2 ASP A  93      18.480  10.627  34.587  1.00  0.90           O  
+ATOM    613  N   SER A  94      18.634   8.339  32.390  1.00  0.89           N  
+ATOM    614  CA  SER A  94      17.570   8.309  31.410  1.00  0.89           C  
+ATOM    615  C   SER A  94      16.507   9.350  31.628  1.00  0.89           C  
+ATOM    616  O   SER A  94      15.637   9.548  30.784  1.00  0.89           O  
+ATOM    617  CB  SER A  94      16.886   6.943  31.384  1.00  0.89           C  
+ATOM    618  OG  SER A  94      17.831   5.982  30.910  1.00  0.89           O  
+ATOM    619  N   ASN A  95      16.521  10.055  32.769  1.00  0.85           N  
+ATOM    620  CA  ASN A  95      15.584  11.113  33.029  1.00  0.85           C  
+ATOM    621  C   ASN A  95      16.156  12.465  32.594  1.00  0.85           C  
+ATOM    622  O   ASN A  95      15.376  13.381  32.334  1.00  0.85           O  
+ATOM    623  CB  ASN A  95      15.209  11.059  34.537  1.00  0.85           C  
+ATOM    624  CG  ASN A  95      14.015  11.923  34.909  1.00  0.85           C  
+ATOM    625  OD1 ASN A  95      13.987  12.625  35.927  1.00  0.85           O  
+ATOM    626  ND2 ASN A  95      12.950  11.890  34.086  1.00  0.85           N  
+ATOM    627  N   ASP A  96      17.496  12.591  32.410  1.00  0.87           N  
+ATOM    628  CA  ASP A  96      18.165  13.825  32.026  1.00  0.87           C  
+ATOM    629  C   ASP A  96      18.083  13.976  30.500  1.00  0.87           C  
+ATOM    630  O   ASP A  96      18.944  13.539  29.726  1.00  0.87           O  
+ATOM    631  CB  ASP A  96      19.624  13.841  32.606  1.00  0.87           C  
+ATOM    632  CG  ASP A  96      20.308  15.205  32.595  1.00  0.87           C  
+ATOM    633  OD1 ASP A  96      19.946  16.016  31.708  1.00  0.87           O  
+ATOM    634  OD2 ASP A  96      21.271  15.422  33.394  1.00  0.87           O  
+ATOM    635  N   ARG A  97      16.976  14.565  30.005  1.00  0.80           N  
+ATOM    636  CA  ARG A  97      16.745  14.826  28.597  1.00  0.80           C  
+ATOM    637  C   ARG A  97      17.646  15.916  28.056  1.00  0.80           C  
+ATOM    638  O   ARG A  97      18.087  15.862  26.908  1.00  0.80           O  
+ATOM    639  CB  ARG A  97      15.263  15.183  28.333  1.00  0.80           C  
+ATOM    640  CG  ARG A  97      14.316  13.985  28.548  1.00  0.80           C  
+ATOM    641  CD  ARG A  97      12.847  14.386  28.694  1.00  0.80           C  
+ATOM    642  NE  ARG A  97      12.026  13.128  28.865  1.00  0.80           N  
+ATOM    643  CZ  ARG A  97      11.645  12.285  27.891  1.00  0.80           C  
+ATOM    644  NH1 ARG A  97      11.989  12.459  26.619  1.00  0.80           N  
+ATOM    645  NH2 ARG A  97      10.963  11.187  28.212  1.00  0.80           N  
+ATOM    646  N   GLU A  98      17.927  16.933  28.883  1.00  0.84           N  
+ATOM    647  CA  GLU A  98      18.702  18.107  28.561  1.00  0.84           C  
+ATOM    648  C   GLU A  98      20.164  17.751  28.294  1.00  0.84           C  
+ATOM    649  O   GLU A  98      20.785  18.244  27.347  1.00  0.84           O  
+ATOM    650  CB  GLU A  98      18.559  19.171  29.688  1.00  0.84           C  
+ATOM    651  CG  GLU A  98      17.101  19.632  30.018  1.00  0.84           C  
+ATOM    652  CD  GLU A  98      16.184  18.545  30.588  1.00  0.84           C  
+ATOM    653  OE1 GLU A  98      16.586  17.876  31.568  1.00  0.84           O  
+ATOM    654  OE2 GLU A  98      15.089  18.336  30.003  1.00  0.84           O  
+ATOM    655  N   ARG A  99      20.743  16.830  29.095  1.00  0.82           N  
+ATOM    656  CA  ARG A  99      22.121  16.398  28.962  1.00  0.82           C  
+ATOM    657  C   ARG A  99      22.321  15.094  28.194  1.00  0.82           C  
+ATOM    658  O   ARG A  99      23.437  14.582  28.093  1.00  0.82           O  
+ATOM    659  CB  ARG A  99      22.784  16.273  30.342  1.00  0.82           C  
+ATOM    660  CG  ARG A  99      22.655  17.579  31.150  1.00  0.82           C  
+ATOM    661  CD  ARG A  99      23.877  17.883  31.994  1.00  0.82           C  
+ATOM    662  NE  ARG A  99      23.952  16.824  33.041  1.00  0.82           N  
+ATOM    663  CZ  ARG A  99      25.040  16.682  33.806  1.00  0.82           C  
+ATOM    664  NH1 ARG A  99      26.121  17.430  33.597  1.00  0.82           N  
+ATOM    665  NH2 ARG A  99      25.054  15.766  34.769  1.00  0.82           N  
+ATOM    666  N   VAL A 100      21.273  14.522  27.560  1.00  0.89           N  
+ATOM    667  CA  VAL A 100      21.407  13.289  26.779  1.00  0.89           C  
+ATOM    668  C   VAL A 100      22.384  13.387  25.611  1.00  0.89           C  
+ATOM    669  O   VAL A 100      23.163  12.471  25.331  1.00  0.89           O  
+ATOM    670  CB  VAL A 100      20.062  12.738  26.303  1.00  0.89           C  
+ATOM    671  CG1 VAL A 100      19.457  13.512  25.109  1.00  0.89           C  
+ATOM    672  CG2 VAL A 100      20.205  11.232  25.992  1.00  0.89           C  
+ATOM    673  N   ASN A 101      22.395  14.539  24.907  1.00  0.89           N  
+ATOM    674  CA  ASN A 101      23.306  14.816  23.812  1.00  0.89           C  
+ATOM    675  C   ASN A 101      24.748  14.895  24.313  1.00  0.89           C  
+ATOM    676  O   ASN A 101      25.644  14.329  23.686  1.00  0.89           O  
+ATOM    677  CB  ASN A 101      22.854  16.077  23.020  1.00  0.89           C  
+ATOM    678  CG  ASN A 101      23.746  16.296  21.799  1.00  0.89           C  
+ATOM    679  OD1 ASN A 101      23.808  15.480  20.865  1.00  0.89           O  
+ATOM    680  ND2 ASN A 101      24.516  17.404  21.817  1.00  0.89           N  
+ATOM    681  N   GLU A 102      24.984  15.533  25.480  1.00  0.84           N  
+ATOM    682  CA  GLU A 102      26.284  15.636  26.137  1.00  0.84           C  
+ATOM    683  C   GLU A 102      26.828  14.245  26.465  1.00  0.84           C  
+ATOM    684  O   GLU A 102      27.983  13.907  26.203  1.00  0.84           O  
+ATOM    685  CB  GLU A 102      26.146  16.470  27.443  1.00  0.84           C  
+ATOM    686  CG  GLU A 102      27.482  16.876  28.120  1.00  0.84           C  
+ATOM    687  CD  GLU A 102      27.261  17.460  29.520  1.00  0.84           C  
+ATOM    688  OE1 GLU A 102      26.290  18.242  29.694  1.00  0.84           O  
+ATOM    689  OE2 GLU A 102      28.025  17.117  30.460  1.00  0.84           O  
+ATOM    690  N   ALA A 103      25.944  13.355  26.972  1.00  0.90           N  
+ATOM    691  CA  ALA A 103      26.240  11.961  27.241  1.00  0.90           C  
+ATOM    692  C   ALA A 103      26.646  11.170  26.003  1.00  0.90           C  
+ATOM    693  O   ALA A 103      27.580  10.366  26.031  1.00  0.90           O  
+ATOM    694  CB  ALA A 103      25.023  11.271  27.894  1.00  0.90           C  
+ATOM    695  N   ARG A 104      25.974  11.403  24.860  1.00  0.82           N  
+ATOM    696  CA  ARG A 104      26.370  10.831  23.587  1.00  0.82           C  
+ATOM    697  C   ARG A 104      27.777  11.247  23.171  1.00  0.82           C  
+ATOM    698  O   ARG A 104      28.574  10.404  22.757  1.00  0.82           O  
+ATOM    699  CB  ARG A 104      25.371  11.202  22.457  1.00  0.82           C  
+ATOM    700  CG  ARG A 104      25.696  10.513  21.114  1.00  0.82           C  
+ATOM    701  CD  ARG A 104      24.859  10.950  19.897  1.00  0.82           C  
+ATOM    702  NE  ARG A 104      24.977  12.437  19.677  1.00  0.82           N  
+ATOM    703  CZ  ARG A 104      26.069  13.128  19.306  1.00  0.82           C  
+ATOM    704  NH1 ARG A 104      27.241  12.543  19.097  1.00  0.82           N  
+ATOM    705  NH2 ARG A 104      25.992  14.454  19.229  1.00  0.82           N  
+ATOM    706  N   GLU A 105      28.150  12.536  23.297  1.00  0.85           N  
+ATOM    707  CA  GLU A 105      29.486  13.017  22.976  1.00  0.85           C  
+ATOM    708  C   GLU A 105      30.588  12.364  23.795  1.00  0.85           C  
+ATOM    709  O   GLU A 105      31.603  11.925  23.247  1.00  0.85           O  
+ATOM    710  CB  GLU A 105      29.570  14.550  23.119  1.00  0.85           C  
+ATOM    711  CG  GLU A 105      28.577  15.271  22.181  1.00  0.85           C  
+ATOM    712  CD  GLU A 105      28.795  16.778  22.114  1.00  0.85           C  
+ATOM    713  OE1 GLU A 105      28.698  17.450  23.168  1.00  0.85           O  
+ATOM    714  OE2 GLU A 105      28.990  17.258  20.968  1.00  0.85           O  
+ATOM    715  N   GLU A 106      30.381  12.213  25.115  1.00  0.82           N  
+ATOM    716  CA  GLU A 106      31.298  11.515  26.000  1.00  0.82           C  
+ATOM    717  C   GLU A 106      31.488  10.052  25.667  1.00  0.82           C  
+ATOM    718  O   GLU A 106      32.609   9.538  25.637  1.00  0.82           O  
+ATOM    719  CB  GLU A 106      30.813  11.612  27.456  1.00  0.82           C  
+ATOM    720  CG  GLU A 106      30.911  13.045  28.016  1.00  0.82           C  
+ATOM    721  CD  GLU A 106      32.326  13.434  28.453  1.00  0.82           C  
+ATOM    722  OE1 GLU A 106      33.301  13.216  27.684  1.00  0.82           O  
+ATOM    723  OE2 GLU A 106      32.440  13.926  29.606  1.00  0.82           O  
+ATOM    724  N   LEU A 107      30.387   9.337  25.356  1.00  0.88           N  
+ATOM    725  CA  LEU A 107      30.455   7.966  24.887  1.00  0.88           C  
+ATOM    726  C   LEU A 107      31.249   7.838  23.598  1.00  0.88           C  
+ATOM    727  O   LEU A 107      32.165   7.022  23.502  1.00  0.88           O  
+ATOM    728  CB  LEU A 107      29.031   7.410  24.640  1.00  0.88           C  
+ATOM    729  CG  LEU A 107      28.976   5.980  24.056  1.00  0.88           C  
+ATOM    730  CD1 LEU A 107      29.519   4.938  25.042  1.00  0.88           C  
+ATOM    731  CD2 LEU A 107      27.549   5.628  23.608  1.00  0.88           C  
+ATOM    732  N   MET A 108      30.963   8.688  22.591  1.00  0.86           N  
+ATOM    733  CA  MET A 108      31.664   8.688  21.319  1.00  0.86           C  
+ATOM    734  C   MET A 108      33.139   9.025  21.452  1.00  0.86           C  
+ATOM    735  O   MET A 108      33.974   8.447  20.756  1.00  0.86           O  
+ATOM    736  CB  MET A 108      30.985   9.612  20.274  1.00  0.86           C  
+ATOM    737  CG  MET A 108      29.554   9.187  19.866  1.00  0.86           C  
+ATOM    738  SD  MET A 108      29.314   7.423  19.493  1.00  0.86           S  
+ATOM    739  CE  MET A 108      30.108   7.457  17.865  1.00  0.86           C  
+ATOM    740  N   ARG A 109      33.509   9.947  22.363  1.00  0.74           N  
+ATOM    741  CA  ARG A 109      34.895  10.230  22.680  1.00  0.74           C  
+ATOM    742  C   ARG A 109      35.621   9.051  23.303  1.00  0.74           C  
+ATOM    743  O   ARG A 109      36.748   8.744  22.918  1.00  0.74           O  
+ATOM    744  CB  ARG A 109      35.034  11.471  23.591  1.00  0.74           C  
+ATOM    745  CG  ARG A 109      36.485  11.989  23.671  1.00  0.74           C  
+ATOM    746  CD  ARG A 109      36.595  13.318  24.418  1.00  0.74           C  
+ATOM    747  NE  ARG A 109      37.996  13.823  24.224  1.00  0.74           N  
+ATOM    748  CZ  ARG A 109      38.462  14.954  24.763  1.00  0.74           C  
+ATOM    749  NH1 ARG A 109      37.746  15.704  25.595  1.00  0.74           N  
+ATOM    750  NH2 ARG A 109      39.698  15.362  24.510  1.00  0.74           N  
+ATOM    751  N   MET A 110      34.989   8.341  24.257  1.00  0.77           N  
+ATOM    752  CA  MET A 110      35.537   7.123  24.825  1.00  0.77           C  
+ATOM    753  C   MET A 110      35.676   6.014  23.796  1.00  0.77           C  
+ATOM    754  O   MET A 110      36.730   5.390  23.679  1.00  0.77           O  
+ATOM    755  CB  MET A 110      34.685   6.649  26.033  1.00  0.77           C  
+ATOM    756  CG  MET A 110      34.919   7.493  27.304  1.00  0.77           C  
+ATOM    757  SD  MET A 110      36.629   7.463  27.944  1.00  0.77           S  
+ATOM    758  CE  MET A 110      36.691   5.717  28.437  1.00  0.77           C  
+ATOM    759  N   LEU A 111      34.663   5.757  22.957  1.00  0.81           N  
+ATOM    760  CA  LEU A 111      34.738   4.700  21.960  1.00  0.81           C  
+ATOM    761  C   LEU A 111      35.750   4.940  20.848  1.00  0.81           C  
+ATOM    762  O   LEU A 111      36.199   3.987  20.204  1.00  0.81           O  
+ATOM    763  CB  LEU A 111      33.377   4.491  21.270  1.00  0.81           C  
+ATOM    764  CG  LEU A 111      32.239   4.013  22.188  1.00  0.81           C  
+ATOM    765  CD1 LEU A 111      30.930   4.002  21.385  1.00  0.81           C  
+ATOM    766  CD2 LEU A 111      32.509   2.651  22.851  1.00  0.81           C  
+ATOM    767  N   ALA A 112      36.107   6.217  20.609  1.00  0.81           N  
+ATOM    768  CA  ALA A 112      37.114   6.653  19.672  1.00  0.81           C  
+ATOM    769  C   ALA A 112      38.537   6.496  20.189  1.00  0.81           C  
+ATOM    770  O   ALA A 112      39.482   6.566  19.402  1.00  0.81           O  
+ATOM    771  CB  ALA A 112      36.906   8.144  19.337  1.00  0.81           C  
+ATOM    772  N   GLU A 113      38.746   6.267  21.508  1.00  0.75           N  
+ATOM    773  CA  GLU A 113      40.046   5.928  22.063  1.00  0.75           C  
+ATOM    774  C   GLU A 113      40.568   4.657  21.392  1.00  0.75           C  
+ATOM    775  O   GLU A 113      39.896   3.622  21.399  1.00  0.75           O  
+ATOM    776  CB  GLU A 113      39.975   5.725  23.607  1.00  0.75           C  
+ATOM    777  CG  GLU A 113      39.616   6.998  24.437  1.00  0.75           C  
+ATOM    778  CD  GLU A 113      40.751   7.998  24.684  1.00  0.75           C  
+ATOM    779  OE1 GLU A 113      40.433   9.121  25.182  1.00  0.75           O  
+ATOM    780  OE2 GLU A 113      41.931   7.652  24.433  1.00  0.75           O  
+ATOM    781  N   ASP A 114      41.785   4.709  20.800  1.00  0.76           N  
+ATOM    782  CA  ASP A 114      42.417   3.646  20.022  1.00  0.76           C  
+ATOM    783  C   ASP A 114      42.455   2.352  20.822  1.00  0.76           C  
+ATOM    784  O   ASP A 114      42.064   1.273  20.370  1.00  0.76           O  
+ATOM    785  CB  ASP A 114      43.837   4.136  19.607  1.00  0.76           C  
+ATOM    786  CG  ASP A 114      44.404   3.357  18.425  1.00  0.76           C  
+ATOM    787  OD1 ASP A 114      44.427   2.102  18.475  1.00  0.76           O  
+ATOM    788  OD2 ASP A 114      44.811   4.025  17.442  1.00  0.76           O  
+ATOM    789  N   GLU A 115      42.770   2.482  22.111  1.00  0.73           N  
+ATOM    790  CA  GLU A 115      42.886   1.404  23.055  1.00  0.73           C  
+ATOM    791  C   GLU A 115      41.558   0.685  23.363  1.00  0.73           C  
+ATOM    792  O   GLU A 115      41.526  -0.458  23.811  1.00  0.73           O  
+ATOM    793  CB  GLU A 115      43.509   2.015  24.318  1.00  0.73           C  
+ATOM    794  CG  GLU A 115      44.202   0.984  25.229  1.00  0.73           C  
+ATOM    795  CD  GLU A 115      45.456   0.310  24.676  1.00  0.73           C  
+ATOM    796  OE1 GLU A 115      46.424   1.041  24.346  1.00  0.73           O  
+ATOM    797  OE2 GLU A 115      45.487  -0.951  24.687  1.00  0.73           O  
+ATOM    798  N   LEU A 116      40.396   1.325  23.079  1.00  0.78           N  
+ATOM    799  CA  LEU A 116      39.078   0.751  23.293  1.00  0.78           C  
+ATOM    800  C   LEU A 116      38.425   0.350  21.987  1.00  0.78           C  
+ATOM    801  O   LEU A 116      37.217   0.111  21.928  1.00  0.78           O  
+ATOM    802  CB  LEU A 116      38.101   1.722  23.996  1.00  0.78           C  
+ATOM    803  CG  LEU A 116      38.578   2.239  25.359  1.00  0.78           C  
+ATOM    804  CD1 LEU A 116      37.444   3.016  26.029  1.00  0.78           C  
+ATOM    805  CD2 LEU A 116      39.030   1.128  26.308  1.00  0.78           C  
+ATOM    806  N   ARG A 117      39.186   0.235  20.886  1.00  0.73           N  
+ATOM    807  CA  ARG A 117      38.636  -0.092  19.582  1.00  0.73           C  
+ATOM    808  C   ARG A 117      37.859  -1.410  19.525  1.00  0.73           C  
+ATOM    809  O   ARG A 117      36.761  -1.450  18.963  1.00  0.73           O  
+ATOM    810  CB  ARG A 117      39.724  -0.025  18.492  1.00  0.73           C  
+ATOM    811  CG  ARG A 117      40.890  -1.020  18.628  1.00  0.73           C  
+ATOM    812  CD  ARG A 117      41.891  -0.801  17.502  1.00  0.73           C  
+ATOM    813  NE  ARG A 117      42.922  -1.871  17.614  1.00  0.73           N  
+ATOM    814  CZ  ARG A 117      43.829  -2.093  16.658  1.00  0.73           C  
+ATOM    815  NH1 ARG A 117      43.820  -1.367  15.544  1.00  0.73           N  
+ATOM    816  NH2 ARG A 117      44.756  -3.029  16.821  1.00  0.73           N  
+ATOM    817  N   ASP A 118      38.356  -2.468  20.199  1.00  0.80           N  
+ATOM    818  CA  ASP A 118      37.765  -3.791  20.227  1.00  0.80           C  
+ATOM    819  C   ASP A 118      36.924  -3.990  21.490  1.00  0.80           C  
+ATOM    820  O   ASP A 118      36.358  -5.055  21.728  1.00  0.80           O  
+ATOM    821  CB  ASP A 118      38.876  -4.878  20.149  1.00  0.80           C  
+ATOM    822  CG  ASP A 118      39.700  -4.679  18.882  1.00  0.80           C  
+ATOM    823  OD1 ASP A 118      39.084  -4.477  17.808  1.00  0.80           O  
+ATOM    824  OD2 ASP A 118      40.959  -4.681  18.982  1.00  0.80           O  
+ATOM    825  N   ALA A 119      36.798  -2.948  22.349  1.00  0.87           N  
+ATOM    826  CA  ALA A 119      36.043  -3.032  23.585  1.00  0.87           C  
+ATOM    827  C   ALA A 119      34.554  -3.334  23.402  1.00  0.87           C  
+ATOM    828  O   ALA A 119      33.865  -2.751  22.563  1.00  0.87           O  
+ATOM    829  CB  ALA A 119      36.218  -1.768  24.461  1.00  0.87           C  
+ATOM    830  N   VAL A 120      34.025  -4.256  24.232  1.00  0.88           N  
+ATOM    831  CA  VAL A 120      32.609  -4.579  24.293  1.00  0.88           C  
+ATOM    832  C   VAL A 120      31.890  -3.490  25.070  1.00  0.88           C  
+ATOM    833  O   VAL A 120      32.328  -3.064  26.136  1.00  0.88           O  
+ATOM    834  CB  VAL A 120      32.363  -5.949  24.922  1.00  0.88           C  
+ATOM    835  CG1 VAL A 120      30.858  -6.283  24.991  1.00  0.88           C  
+ATOM    836  CG2 VAL A 120      33.097  -7.023  24.093  1.00  0.88           C  
+ATOM    837  N   LEU A 121      30.770  -2.974  24.536  1.00  0.88           N  
+ATOM    838  CA  LEU A 121      30.064  -1.885  25.172  1.00  0.88           C  
+ATOM    839  C   LEU A 121      28.827  -2.398  25.880  1.00  0.88           C  
+ATOM    840  O   LEU A 121      28.017  -3.152  25.348  1.00  0.88           O  
+ATOM    841  CB  LEU A 121      29.731  -0.752  24.166  1.00  0.88           C  
+ATOM    842  CG  LEU A 121      28.799   0.368  24.695  1.00  0.88           C  
+ATOM    843  CD1 LEU A 121      29.391   1.130  25.894  1.00  0.88           C  
+ATOM    844  CD2 LEU A 121      28.403   1.359  23.588  1.00  0.88           C  
+ATOM    845  N   LEU A 122      28.648  -1.974  27.132  1.00  0.90           N  
+ATOM    846  CA  LEU A 122      27.399  -2.111  27.830  1.00  0.90           C  
+ATOM    847  C   LEU A 122      26.885  -0.719  28.171  1.00  0.90           C  
+ATOM    848  O   LEU A 122      27.592   0.102  28.750  1.00  0.90           O  
+ATOM    849  CB  LEU A 122      27.636  -2.946  29.102  1.00  0.90           C  
+ATOM    850  CG  LEU A 122      26.430  -3.079  30.045  1.00  0.90           C  
+ATOM    851  CD1 LEU A 122      25.206  -3.695  29.349  1.00  0.90           C  
+ATOM    852  CD2 LEU A 122      26.832  -3.892  31.282  1.00  0.90           C  
+ATOM    853  N   VAL A 123      25.628  -0.404  27.806  1.00  0.93           N  
+ATOM    854  CA  VAL A 123      24.977   0.829  28.215  1.00  0.93           C  
+ATOM    855  C   VAL A 123      23.977   0.504  29.304  1.00  0.93           C  
+ATOM    856  O   VAL A 123      23.101  -0.348  29.146  1.00  0.93           O  
+ATOM    857  CB  VAL A 123      24.281   1.560  27.066  1.00  0.93           C  
+ATOM    858  CG1 VAL A 123      23.487   2.797  27.554  1.00  0.93           C  
+ATOM    859  CG2 VAL A 123      25.358   1.997  26.056  1.00  0.93           C  
+ATOM    860  N   PHE A 124      24.082   1.195  30.452  1.00  0.90           N  
+ATOM    861  CA  PHE A 124      23.061   1.183  31.471  1.00  0.90           C  
+ATOM    862  C   PHE A 124      22.221   2.432  31.320  1.00  0.90           C  
+ATOM    863  O   PHE A 124      22.655   3.551  31.602  1.00  0.90           O  
+ATOM    864  CB  PHE A 124      23.634   1.101  32.913  1.00  0.90           C  
+ATOM    865  CG  PHE A 124      24.111  -0.279  33.295  1.00  0.90           C  
+ATOM    866  CD1 PHE A 124      23.399  -1.431  32.924  1.00  0.90           C  
+ATOM    867  CD2 PHE A 124      25.216  -0.432  34.150  1.00  0.90           C  
+ATOM    868  CE1 PHE A 124      23.773  -2.693  33.391  1.00  0.90           C  
+ATOM    869  CE2 PHE A 124      25.613  -1.700  34.597  1.00  0.90           C  
+ATOM    870  CZ  PHE A 124      24.891  -2.833  34.213  1.00  0.90           C  
+ATOM    871  N   ALA A 125      20.969   2.233  30.858  1.00  0.92           N  
+ATOM    872  CA  ALA A 125      19.929   3.235  30.824  1.00  0.92           C  
+ATOM    873  C   ALA A 125      19.331   3.314  32.222  1.00  0.92           C  
+ATOM    874  O   ALA A 125      18.299   2.711  32.508  1.00  0.92           O  
+ATOM    875  CB  ALA A 125      18.854   2.895  29.756  1.00  0.92           C  
+ATOM    876  N   ASN A 126      20.018   4.038  33.131  1.00  0.89           N  
+ATOM    877  CA  ASN A 126      19.730   4.082  34.547  1.00  0.89           C  
+ATOM    878  C   ASN A 126      18.578   5.027  34.842  1.00  0.89           C  
+ATOM    879  O   ASN A 126      18.231   5.886  34.033  1.00  0.89           O  
+ATOM    880  CB  ASN A 126      21.011   4.492  35.334  1.00  0.89           C  
+ATOM    881  CG  ASN A 126      20.839   4.279  36.832  1.00  0.89           C  
+ATOM    882  OD1 ASN A 126      20.234   3.306  37.293  1.00  0.89           O  
+ATOM    883  ND2 ASN A 126      21.317   5.235  37.654  1.00  0.89           N  
+ATOM    884  N   LYS A 127      17.954   4.882  36.024  1.00  0.85           N  
+ATOM    885  CA  LYS A 127      16.875   5.723  36.505  1.00  0.85           C  
+ATOM    886  C   LYS A 127      15.576   5.495  35.763  1.00  0.85           C  
+ATOM    887  O   LYS A 127      14.790   6.411  35.525  1.00  0.85           O  
+ATOM    888  CB  LYS A 127      17.223   7.225  36.605  1.00  0.85           C  
+ATOM    889  CG  LYS A 127      18.472   7.475  37.453  1.00  0.85           C  
+ATOM    890  CD  LYS A 127      18.667   8.969  37.700  1.00  0.85           C  
+ATOM    891  CE  LYS A 127      20.011   9.305  38.352  1.00  0.85           C  
+ATOM    892  NZ  LYS A 127      20.162  10.772  38.436  1.00  0.85           N  
+ATOM    893  N   GLN A 128      15.300   4.223  35.410  1.00  0.81           N  
+ATOM    894  CA  GLN A 128      14.064   3.811  34.766  1.00  0.81           C  
+ATOM    895  C   GLN A 128      12.889   3.757  35.711  1.00  0.81           C  
+ATOM    896  O   GLN A 128      11.748   3.597  35.285  1.00  0.81           O  
+ATOM    897  CB  GLN A 128      14.178   2.402  34.148  1.00  0.81           C  
+ATOM    898  CG  GLN A 128      15.152   2.335  32.966  1.00  0.81           C  
+ATOM    899  CD  GLN A 128      14.662   3.094  31.735  1.00  0.81           C  
+ATOM    900  OE1 GLN A 128      13.598   2.861  31.154  1.00  0.81           O  
+ATOM    901  NE2 GLN A 128      15.523   4.032  31.294  1.00  0.81           N  
+ATOM    902  N   ASP A 129      13.132   3.885  37.024  1.00  0.82           N  
+ATOM    903  CA  ASP A 129      12.120   4.035  38.029  1.00  0.82           C  
+ATOM    904  C   ASP A 129      11.407   5.379  37.894  1.00  0.82           C  
+ATOM    905  O   ASP A 129      10.244   5.532  38.273  1.00  0.82           O  
+ATOM    906  CB  ASP A 129      12.796   3.863  39.418  1.00  0.82           C  
+ATOM    907  CG  ASP A 129      13.894   4.892  39.671  1.00  0.82           C  
+ATOM    908  OD1 ASP A 129      14.859   4.926  38.859  1.00  0.82           O  
+ATOM    909  OD2 ASP A 129      13.779   5.648  40.665  1.00  0.82           O  
+ATOM    910  N   LEU A 130      12.099   6.405  37.349  1.00  0.81           N  
+ATOM    911  CA  LEU A 130      11.542   7.736  37.261  1.00  0.81           C  
+ATOM    912  C   LEU A 130      10.408   7.921  36.247  1.00  0.81           C  
+ATOM    913  O   LEU A 130      10.510   7.441  35.118  1.00  0.81           O  
+ATOM    914  CB  LEU A 130      12.613   8.832  37.071  1.00  0.81           C  
+ATOM    915  CG  LEU A 130      13.558   8.974  38.283  1.00  0.81           C  
+ATOM    916  CD1 LEU A 130      14.612  10.052  38.010  1.00  0.81           C  
+ATOM    917  CD2 LEU A 130      12.830   9.301  39.601  1.00  0.81           C  
+ATOM    918  N   PRO A 131       9.331   8.660  36.563  1.00  0.78           N  
+ATOM    919  CA  PRO A 131       8.130   8.770  35.730  1.00  0.78           C  
+ATOM    920  C   PRO A 131       8.317   9.109  34.261  1.00  0.78           C  
+ATOM    921  O   PRO A 131       7.647   8.527  33.412  1.00  0.78           O  
+ATOM    922  CB  PRO A 131       7.313   9.863  36.437  1.00  0.78           C  
+ATOM    923  CG  PRO A 131       7.647   9.657  37.912  1.00  0.78           C  
+ATOM    924  CD  PRO A 131       9.133   9.317  37.863  1.00  0.78           C  
+ATOM    925  N   ASN A 132       9.204  10.077  33.954  1.00  0.79           N  
+ATOM    926  CA  ASN A 132       9.430  10.592  32.617  1.00  0.79           C  
+ATOM    927  C   ASN A 132      10.786  10.162  32.089  1.00  0.79           C  
+ATOM    928  O   ASN A 132      11.348  10.815  31.204  1.00  0.79           O  
+ATOM    929  CB  ASN A 132       9.359  12.140  32.573  1.00  0.79           C  
+ATOM    930  CG  ASN A 132       7.944  12.560  32.917  1.00  0.79           C  
+ATOM    931  OD1 ASN A 132       7.006  12.223  32.187  1.00  0.79           O  
+ATOM    932  ND2 ASN A 132       7.748  13.326  34.009  1.00  0.79           N  
+ATOM    933  N   ALA A 133      11.372   9.072  32.639  1.00  0.85           N  
+ATOM    934  CA  ALA A 133      12.593   8.493  32.121  1.00  0.85           C  
+ATOM    935  C   ALA A 133      12.404   8.005  30.689  1.00  0.85           C  
+ATOM    936  O   ALA A 133      11.403   7.377  30.348  1.00  0.85           O  
+ATOM    937  CB  ALA A 133      13.113   7.366  33.040  1.00  0.85           C  
+ATOM    938  N   MET A 134      13.350   8.336  29.794  1.00  0.83           N  
+ATOM    939  CA  MET A 134      13.402   7.805  28.450  1.00  0.83           C  
+ATOM    940  C   MET A 134      13.624   6.311  28.486  1.00  0.83           C  
+ATOM    941  O   MET A 134      14.475   5.805  29.220  1.00  0.83           O  
+ATOM    942  CB  MET A 134      14.545   8.445  27.632  1.00  0.83           C  
+ATOM    943  CG  MET A 134      14.421   9.969  27.479  1.00  0.83           C  
+ATOM    944  SD  MET A 134      15.743  10.731  26.492  1.00  0.83           S  
+ATOM    945  CE  MET A 134      16.744  11.193  27.930  1.00  0.83           C  
+ATOM    946  N   ASN A 135      12.861   5.550  27.684  1.00  0.82           N  
+ATOM    947  CA  ASN A 135      12.991   4.108  27.691  1.00  0.82           C  
+ATOM    948  C   ASN A 135      14.278   3.680  26.986  1.00  0.82           C  
+ATOM    949  O   ASN A 135      14.963   4.477  26.347  1.00  0.82           O  
+ATOM    950  CB  ASN A 135      11.716   3.378  27.167  1.00  0.82           C  
+ATOM    951  CG  ASN A 135      11.309   3.851  25.781  1.00  0.82           C  
+ATOM    952  OD1 ASN A 135      12.132   3.837  24.857  1.00  0.82           O  
+ATOM    953  ND2 ASN A 135      10.034   4.250  25.586  1.00  0.82           N  
+ATOM    954  N   ALA A 136      14.643   2.389  27.075  1.00  0.86           N  
+ATOM    955  CA  ALA A 136      15.821   1.857  26.413  1.00  0.86           C  
+ATOM    956  C   ALA A 136      15.848   2.102  24.896  1.00  0.86           C  
+ATOM    957  O   ALA A 136      16.891   2.436  24.334  1.00  0.86           O  
+ATOM    958  CB  ALA A 136      15.914   0.345  26.713  1.00  0.86           C  
+ATOM    959  N   ALA A 137      14.696   1.989  24.197  1.00  0.85           N  
+ATOM    960  CA  ALA A 137      14.559   2.261  22.778  1.00  0.85           C  
+ATOM    961  C   ALA A 137      14.847   3.716  22.408  1.00  0.85           C  
+ATOM    962  O   ALA A 137      15.593   3.989  21.468  1.00  0.85           O  
+ATOM    963  CB  ALA A 137      13.128   1.904  22.318  1.00  0.85           C  
+ATOM    964  N   GLU A 138      14.294   4.677  23.182  1.00  0.82           N  
+ATOM    965  CA  GLU A 138      14.565   6.101  23.052  1.00  0.82           C  
+ATOM    966  C   GLU A 138      16.026   6.441  23.340  1.00  0.82           C  
+ATOM    967  O   GLU A 138      16.668   7.143  22.562  1.00  0.82           O  
+ATOM    968  CB  GLU A 138      13.597   6.936  23.946  1.00  0.82           C  
+ATOM    969  CG  GLU A 138      13.774   8.482  23.822  1.00  0.82           C  
+ATOM    970  CD  GLU A 138      12.718   9.383  24.495  1.00  0.82           C  
+ATOM    971  OE1 GLU A 138      11.941   8.914  25.362  1.00  0.82           O  
+ATOM    972  OE2 GLU A 138      12.747  10.620  24.204  1.00  0.82           O  
+ATOM    973  N   ILE A 139      16.638   5.890  24.412  1.00  0.87           N  
+ATOM    974  CA  ILE A 139      18.067   6.057  24.706  1.00  0.87           C  
+ATOM    975  C   ILE A 139      18.960   5.544  23.588  1.00  0.87           C  
+ATOM    976  O   ILE A 139      19.937   6.195  23.209  1.00  0.87           O  
+ATOM    977  CB  ILE A 139      18.475   5.368  26.011  1.00  0.87           C  
+ATOM    978  CG1 ILE A 139      17.801   6.028  27.234  1.00  0.87           C  
+ATOM    979  CG2 ILE A 139      20.014   5.309  26.209  1.00  0.87           C  
+ATOM    980  CD1 ILE A 139      18.238   7.472  27.506  1.00  0.87           C  
+ATOM    981  N   THR A 140      18.623   4.381  22.994  1.00  0.87           N  
+ATOM    982  CA  THR A 140      19.326   3.807  21.846  1.00  0.87           C  
+ATOM    983  C   THR A 140      19.379   4.751  20.662  1.00  0.87           C  
+ATOM    984  O   THR A 140      20.435   4.902  20.038  1.00  0.87           O  
+ATOM    985  CB  THR A 140      18.701   2.485  21.394  1.00  0.87           C  
+ATOM    986  OG1 THR A 140      18.860   1.501  22.398  1.00  0.87           O  
+ATOM    987  CG2 THR A 140      19.360   1.856  20.159  1.00  0.87           C  
+ATOM    988  N   ASP A 141      18.259   5.439  20.355  1.00  0.84           N  
+ATOM    989  CA  ASP A 141      18.176   6.471  19.344  1.00  0.84           C  
+ATOM    990  C   ASP A 141      19.015   7.707  19.713  1.00  0.84           C  
+ATOM    991  O   ASP A 141      19.927   8.098  18.979  1.00  0.84           O  
+ATOM    992  CB  ASP A 141      16.674   6.802  19.149  1.00  0.84           C  
+ATOM    993  CG  ASP A 141      16.463   7.707  17.952  1.00  0.84           C  
+ATOM    994  OD1 ASP A 141      16.487   8.950  18.159  1.00  0.84           O  
+ATOM    995  OD2 ASP A 141      16.273   7.164  16.836  1.00  0.84           O  
+ATOM    996  N   LYS A 142      18.822   8.274  20.928  1.00  0.85           N  
+ATOM    997  CA  LYS A 142      19.468   9.502  21.394  1.00  0.85           C  
+ATOM    998  C   LYS A 142      20.979   9.422  21.464  1.00  0.85           C  
+ATOM    999  O   LYS A 142      21.692  10.396  21.213  1.00  0.85           O  
+ATOM   1000  CB  LYS A 142      18.987   9.936  22.801  1.00  0.85           C  
+ATOM   1001  CG  LYS A 142      17.487  10.232  22.918  1.00  0.85           C  
+ATOM   1002  CD  LYS A 142      17.000  11.489  22.192  1.00  0.85           C  
+ATOM   1003  CE  LYS A 142      15.484  11.620  22.345  1.00  0.85           C  
+ATOM   1004  NZ  LYS A 142      15.022  12.854  21.689  1.00  0.85           N  
+ATOM   1005  N   LEU A 143      21.502   8.237  21.815  1.00  0.88           N  
+ATOM   1006  CA  LEU A 143      22.922   7.984  21.871  1.00  0.88           C  
+ATOM   1007  C   LEU A 143      23.474   7.521  20.534  1.00  0.88           C  
+ATOM   1008  O   LEU A 143      24.683   7.372  20.374  1.00  0.88           O  
+ATOM   1009  CB  LEU A 143      23.250   6.911  22.932  1.00  0.88           C  
+ATOM   1010  CG  LEU A 143      22.941   7.322  24.386  1.00  0.88           C  
+ATOM   1011  CD1 LEU A 143      23.375   6.192  25.332  1.00  0.88           C  
+ATOM   1012  CD2 LEU A 143      23.613   8.642  24.794  1.00  0.88           C  
+ATOM   1013  N   GLY A 144      22.623   7.323  19.508  1.00  0.87           N  
+ATOM   1014  CA  GLY A 144      23.072   6.913  18.186  1.00  0.87           C  
+ATOM   1015  C   GLY A 144      23.678   5.539  18.115  1.00  0.87           C  
+ATOM   1016  O   GLY A 144      24.526   5.276  17.267  1.00  0.87           O  
+ATOM   1017  N   LEU A 145      23.265   4.598  18.979  1.00  0.86           N  
+ATOM   1018  CA  LEU A 145      23.872   3.276  19.087  1.00  0.86           C  
+ATOM   1019  C   LEU A 145      23.764   2.441  17.816  1.00  0.86           C  
+ATOM   1020  O   LEU A 145      24.633   1.635  17.488  1.00  0.86           O  
+ATOM   1021  CB  LEU A 145      23.257   2.471  20.249  1.00  0.86           C  
+ATOM   1022  CG  LEU A 145      23.372   3.116  21.645  1.00  0.86           C  
+ATOM   1023  CD1 LEU A 145      22.767   2.184  22.708  1.00  0.86           C  
+ATOM   1024  CD2 LEU A 145      24.822   3.464  22.021  1.00  0.86           C  
+ATOM   1025  N   HIS A 146      22.691   2.656  17.035  1.00  0.76           N  
+ATOM   1026  CA  HIS A 146      22.493   2.049  15.729  1.00  0.76           C  
+ATOM   1027  C   HIS A 146      23.420   2.581  14.634  1.00  0.76           C  
+ATOM   1028  O   HIS A 146      23.499   1.981  13.565  1.00  0.76           O  
+ATOM   1029  CB  HIS A 146      21.021   2.168  15.267  1.00  0.76           C  
+ATOM   1030  CG  HIS A 146      20.095   1.242  15.988  1.00  0.76           C  
+ATOM   1031  ND1 HIS A 146      18.815   1.077  15.519  1.00  0.76           N  
+ATOM   1032  CD2 HIS A 146      20.318   0.416  17.044  1.00  0.76           C  
+ATOM   1033  CE1 HIS A 146      18.275   0.154  16.292  1.00  0.76           C  
+ATOM   1034  NE2 HIS A 146      19.148  -0.280  17.228  1.00  0.76           N  
+ATOM   1035  N   SER A 147      24.159   3.701  14.841  1.00  0.80           N  
+ATOM   1036  CA  SER A 147      25.101   4.205  13.840  1.00  0.80           C  
+ATOM   1037  C   SER A 147      26.468   3.541  13.942  1.00  0.80           C  
+ATOM   1038  O   SER A 147      27.313   3.669  13.051  1.00  0.80           O  
+ATOM   1039  CB  SER A 147      25.302   5.756  13.892  1.00  0.80           C  
+ATOM   1040  OG  SER A 147      26.107   6.193  14.990  1.00  0.80           O  
+ATOM   1041  N   LEU A 148      26.727   2.809  15.047  1.00  0.77           N  
+ATOM   1042  CA  LEU A 148      27.973   2.117  15.297  1.00  0.77           C  
+ATOM   1043  C   LEU A 148      28.190   0.934  14.361  1.00  0.77           C  
+ATOM   1044  O   LEU A 148      27.576  -0.119  14.486  1.00  0.77           O  
+ATOM   1045  CB  LEU A 148      28.078   1.637  16.763  1.00  0.77           C  
+ATOM   1046  CG  LEU A 148      27.821   2.721  17.832  1.00  0.77           C  
+ATOM   1047  CD1 LEU A 148      27.837   2.087  19.232  1.00  0.77           C  
+ATOM   1048  CD2 LEU A 148      28.797   3.906  17.759  1.00  0.77           C  
+ATOM   1049  N   ARG A 149      29.106   1.087  13.388  1.00  0.65           N  
+ATOM   1050  CA  ARG A 149      29.303   0.105  12.338  1.00  0.65           C  
+ATOM   1051  C   ARG A 149      30.125  -1.102  12.754  1.00  0.65           C  
+ATOM   1052  O   ARG A 149      29.928  -2.212  12.263  1.00  0.65           O  
+ATOM   1053  CB  ARG A 149      29.967   0.803  11.133  1.00  0.65           C  
+ATOM   1054  CG  ARG A 149      29.023   1.829  10.472  1.00  0.65           C  
+ATOM   1055  CD  ARG A 149      29.694   2.829   9.529  1.00  0.65           C  
+ATOM   1056  NE  ARG A 149      30.492   3.765  10.392  1.00  0.65           N  
+ATOM   1057  CZ  ARG A 149      31.067   4.894   9.956  1.00  0.65           C  
+ATOM   1058  NH1 ARG A 149      30.959   5.263   8.684  1.00  0.65           N  
+ATOM   1059  NH2 ARG A 149      31.755   5.670  10.793  1.00  0.65           N  
+ATOM   1060  N   HIS A 150      31.067  -0.913  13.692  1.00  0.71           N  
+ATOM   1061  CA  HIS A 150      31.922  -1.978  14.160  1.00  0.71           C  
+ATOM   1062  C   HIS A 150      31.997  -1.859  15.660  1.00  0.71           C  
+ATOM   1063  O   HIS A 150      32.849  -1.167  16.211  1.00  0.71           O  
+ATOM   1064  CB  HIS A 150      33.348  -1.917  13.560  1.00  0.71           C  
+ATOM   1065  CG  HIS A 150      33.354  -2.076  12.075  1.00  0.71           C  
+ATOM   1066  ND1 HIS A 150      33.168  -0.985  11.249  1.00  0.71           N  
+ATOM   1067  CD2 HIS A 150      33.456  -3.218  11.340  1.00  0.71           C  
+ATOM   1068  CE1 HIS A 150      33.157  -1.485  10.026  1.00  0.71           C  
+ATOM   1069  NE2 HIS A 150      33.327  -2.826  10.032  1.00  0.71           N  
+ATOM   1070  N   ARG A 151      31.075  -2.531  16.369  1.00  0.73           N  
+ATOM   1071  CA  ARG A 151      31.009  -2.435  17.807  1.00  0.73           C  
+ATOM   1072  C   ARG A 151      30.019  -3.462  18.313  1.00  0.73           C  
+ATOM   1073  O   ARG A 151      28.901  -3.560  17.823  1.00  0.73           O  
+ATOM   1074  CB  ARG A 151      30.544  -1.027  18.282  1.00  0.73           C  
+ATOM   1075  CG  ARG A 151      30.555  -0.800  19.812  1.00  0.73           C  
+ATOM   1076  CD  ARG A 151      31.919  -0.937  20.504  1.00  0.73           C  
+ATOM   1077  NE  ARG A 151      32.801   0.144  19.958  1.00  0.73           N  
+ATOM   1078  CZ  ARG A 151      34.067   0.341  20.346  1.00  0.73           C  
+ATOM   1079  NH1 ARG A 151      34.638  -0.401  21.284  1.00  0.73           N  
+ATOM   1080  NH2 ARG A 151      34.796   1.322  19.817  1.00  0.73           N  
+ATOM   1081  N   ASN A 152      30.421  -4.265  19.317  1.00  0.83           N  
+ATOM   1082  CA  ASN A 152      29.548  -5.182  20.019  1.00  0.83           C  
+ATOM   1083  C   ASN A 152      28.950  -4.416  21.196  1.00  0.83           C  
+ATOM   1084  O   ASN A 152      29.688  -3.892  22.032  1.00  0.83           O  
+ATOM   1085  CB  ASN A 152      30.401  -6.402  20.483  1.00  0.83           C  
+ATOM   1086  CG  ASN A 152      29.570  -7.519  21.107  1.00  0.83           C  
+ATOM   1087  OD1 ASN A 152      28.346  -7.413  21.212  1.00  0.83           O  
+ATOM   1088  ND2 ASN A 152      30.239  -8.615  21.530  1.00  0.83           N  
+ATOM   1089  N   TRP A 153      27.609  -4.300  21.267  1.00  0.83           N  
+ATOM   1090  CA  TRP A 153      26.974  -3.569  22.336  1.00  0.83           C  
+ATOM   1091  C   TRP A 153      25.635  -4.145  22.739  1.00  0.83           C  
+ATOM   1092  O   TRP A 153      24.975  -4.881  22.012  1.00  0.83           O  
+ATOM   1093  CB  TRP A 153      26.842  -2.047  22.035  1.00  0.83           C  
+ATOM   1094  CG  TRP A 153      26.032  -1.705  20.804  1.00  0.83           C  
+ATOM   1095  CD1 TRP A 153      26.450  -1.679  19.504  1.00  0.83           C  
+ATOM   1096  CD2 TRP A 153      24.618  -1.456  20.781  1.00  0.83           C  
+ATOM   1097  NE1 TRP A 153      25.389  -1.442  18.669  1.00  0.83           N  
+ATOM   1098  CE2 TRP A 153      24.255  -1.322  19.426  1.00  0.83           C  
+ATOM   1099  CE3 TRP A 153      23.665  -1.370  21.792  1.00  0.83           C  
+ATOM   1100  CZ2 TRP A 153      22.939  -1.118  19.061  1.00  0.83           C  
+ATOM   1101  CZ3 TRP A 153      22.336  -1.127  21.420  1.00  0.83           C  
+ATOM   1102  CH2 TRP A 153      21.976  -1.001  20.072  1.00  0.83           C  
+ATOM   1103  N   TYR A 154      25.231  -3.784  23.965  1.00  0.87           N  
+ATOM   1104  CA  TYR A 154      23.970  -4.137  24.557  1.00  0.87           C  
+ATOM   1105  C   TYR A 154      23.552  -2.957  25.403  1.00  0.87           C  
+ATOM   1106  O   TYR A 154      24.381  -2.251  25.978  1.00  0.87           O  
+ATOM   1107  CB  TYR A 154      24.177  -5.385  25.434  1.00  0.87           C  
+ATOM   1108  CG  TYR A 154      22.946  -6.012  26.004  1.00  0.87           C  
+ATOM   1109  CD1 TYR A 154      22.331  -7.077  25.332  1.00  0.87           C  
+ATOM   1110  CD2 TYR A 154      22.468  -5.635  27.267  1.00  0.87           C  
+ATOM   1111  CE1 TYR A 154      21.252  -7.756  25.912  1.00  0.87           C  
+ATOM   1112  CE2 TYR A 154      21.382  -6.306  27.842  1.00  0.87           C  
+ATOM   1113  CZ  TYR A 154      20.776  -7.366  27.166  1.00  0.87           C  
+ATOM   1114  OH  TYR A 154      19.716  -8.054  27.782  1.00  0.87           O  
+ATOM   1115  N   ILE A 155      22.237  -2.708  25.478  1.00  0.89           N  
+ATOM   1116  CA  ILE A 155      21.672  -1.684  26.322  1.00  0.89           C  
+ATOM   1117  C   ILE A 155      20.751  -2.365  27.301  1.00  0.89           C  
+ATOM   1118  O   ILE A 155      19.931  -3.207  26.955  1.00  0.89           O  
+ATOM   1119  CB  ILE A 155      20.956  -0.574  25.552  1.00  0.89           C  
+ATOM   1120  CG1 ILE A 155      20.422   0.514  26.518  1.00  0.89           C  
+ATOM   1121  CG2 ILE A 155      19.862  -1.142  24.616  1.00  0.89           C  
+ATOM   1122  CD1 ILE A 155      20.039   1.822  25.823  1.00  0.89           C  
+ATOM   1123  N   GLN A 156      20.905  -2.019  28.585  1.00  0.87           N  
+ATOM   1124  CA  GLN A 156      20.133  -2.578  29.653  1.00  0.87           C  
+ATOM   1125  C   GLN A 156      19.448  -1.439  30.394  1.00  0.87           C  
+ATOM   1126  O   GLN A 156      20.080  -0.466  30.804  1.00  0.87           O  
+ATOM   1127  CB  GLN A 156      21.078  -3.383  30.565  1.00  0.87           C  
+ATOM   1128  CG  GLN A 156      20.435  -3.924  31.853  1.00  0.87           C  
+ATOM   1129  CD  GLN A 156      19.352  -4.964  31.584  1.00  0.87           C  
+ATOM   1130  OE1 GLN A 156      19.602  -5.989  30.938  1.00  0.87           O  
+ATOM   1131  NE2 GLN A 156      18.120  -4.722  32.079  1.00  0.87           N  
+ATOM   1132  N   ALA A 157      18.113  -1.519  30.546  1.00  0.90           N  
+ATOM   1133  CA  ALA A 157      17.303  -0.679  31.406  1.00  0.90           C  
+ATOM   1134  C   ALA A 157      17.569  -0.981  32.880  1.00  0.90           C  
+ATOM   1135  O   ALA A 157      17.551  -2.146  33.271  1.00  0.90           O  
+ATOM   1136  CB  ALA A 157      15.827  -0.967  31.054  1.00  0.90           C  
+ATOM   1137  N   THR A 158      17.848   0.039  33.725  1.00  0.90           N  
+ATOM   1138  CA  THR A 158      18.249  -0.209  35.107  1.00  0.90           C  
+ATOM   1139  C   THR A 158      17.662   0.785  36.082  1.00  0.90           C  
+ATOM   1140  O   THR A 158      17.215   1.880  35.741  1.00  0.90           O  
+ATOM   1141  CB  THR A 158      19.766  -0.268  35.375  1.00  0.90           C  
+ATOM   1142  OG1 THR A 158      20.464   0.935  35.114  1.00  0.90           O  
+ATOM   1143  CG2 THR A 158      20.441  -1.296  34.475  1.00  0.90           C  
+ATOM   1144  N   CYS A 159      17.654   0.387  37.366  1.00  0.90           N  
+ATOM   1145  CA  CYS A 159      17.468   1.283  38.481  1.00  0.90           C  
+ATOM   1146  C   CYS A 159      18.560   0.946  39.484  1.00  0.90           C  
+ATOM   1147  O   CYS A 159      18.541  -0.081  40.160  1.00  0.90           O  
+ATOM   1148  CB  CYS A 159      16.048   1.131  39.088  1.00  0.90           C  
+ATOM   1149  SG  CYS A 159      15.727   2.148  40.558  1.00  0.90           S  
+ATOM   1150  N   ALA A 160      19.581   1.814  39.607  1.00  0.91           N  
+ATOM   1151  CA  ALA A 160      20.681   1.630  40.530  1.00  0.91           C  
+ATOM   1152  C   ALA A 160      20.298   1.575  42.014  1.00  0.91           C  
+ATOM   1153  O   ALA A 160      20.904   0.844  42.795  1.00  0.91           O  
+ATOM   1154  CB  ALA A 160      21.729   2.734  40.304  1.00  0.91           C  
+ATOM   1155  N   THR A 161      19.292   2.349  42.464  1.00  0.85           N  
+ATOM   1156  CA  THR A 161      18.846   2.418  43.861  1.00  0.85           C  
+ATOM   1157  C   THR A 161      18.156   1.162  44.362  1.00  0.85           C  
+ATOM   1158  O   THR A 161      18.151   0.902  45.573  1.00  0.85           O  
+ATOM   1159  CB  THR A 161      17.871   3.559  44.125  1.00  0.85           C  
+ATOM   1160  OG1 THR A 161      16.873   3.570  43.122  1.00  0.85           O  
+ATOM   1161  CG2 THR A 161      18.592   4.906  44.040  1.00  0.85           C  
+ATOM   1162  N   SER A 162      17.571   0.333  43.476  1.00  0.86           N  
+ATOM   1163  CA  SER A 162      16.972  -0.939  43.834  1.00  0.86           C  
+ATOM   1164  C   SER A 162      17.849  -2.108  43.421  1.00  0.86           C  
+ATOM   1165  O   SER A 162      17.909  -3.111  44.134  1.00  0.86           O  
+ATOM   1166  CB  SER A 162      15.581  -1.093  43.178  1.00  0.86           C  
+ATOM   1167  OG  SER A 162      15.690  -0.911  41.779  1.00  0.86           O  
+ATOM   1168  N   GLY A 163      18.645  -1.971  42.335  1.00  0.91           N  
+ATOM   1169  CA  GLY A 163      19.488  -3.027  41.786  1.00  0.91           C  
+ATOM   1170  C   GLY A 163      18.924  -3.674  40.549  1.00  0.91           C  
+ATOM   1171  O   GLY A 163      19.598  -4.512  39.952  1.00  0.91           O  
+ATOM   1172  N   ASP A 164      17.709  -3.281  40.104  1.00  0.89           N  
+ATOM   1173  CA  ASP A 164      17.066  -3.822  38.914  1.00  0.89           C  
+ATOM   1174  C   ASP A 164      17.914  -3.629  37.656  1.00  0.89           C  
+ATOM   1175  O   ASP A 164      18.385  -2.527  37.369  1.00  0.89           O  
+ATOM   1176  CB  ASP A 164      15.676  -3.180  38.648  1.00  0.89           C  
+ATOM   1177  CG  ASP A 164      14.744  -3.360  39.832  1.00  0.89           C  
+ATOM   1178  OD1 ASP A 164      14.592  -4.507  40.314  1.00  0.89           O  
+ATOM   1179  OD2 ASP A 164      14.176  -2.332  40.278  1.00  0.89           O  
+ATOM   1180  N   GLY A 165      18.159  -4.707  36.879  1.00  0.92           N  
+ATOM   1181  CA  GLY A 165      18.854  -4.642  35.603  1.00  0.92           C  
+ATOM   1182  C   GLY A 165      20.359  -4.664  35.710  1.00  0.92           C  
+ATOM   1183  O   GLY A 165      21.055  -4.895  34.721  1.00  0.92           O  
+ATOM   1184  N   LEU A 166      20.938  -4.416  36.902  1.00  0.89           N  
+ATOM   1185  CA  LEU A 166      22.380  -4.342  37.068  1.00  0.89           C  
+ATOM   1186  C   LEU A 166      23.074  -5.654  36.783  1.00  0.89           C  
+ATOM   1187  O   LEU A 166      23.982  -5.717  35.953  1.00  0.89           O  
+ATOM   1188  CB  LEU A 166      22.778  -3.892  38.502  1.00  0.89           C  
+ATOM   1189  CG  LEU A 166      22.438  -2.433  38.865  1.00  0.89           C  
+ATOM   1190  CD1 LEU A 166      22.912  -2.132  40.301  1.00  0.89           C  
+ATOM   1191  CD2 LEU A 166      23.056  -1.434  37.875  1.00  0.89           C  
+ATOM   1192  N   TYR A 167      22.626  -6.751  37.415  1.00  0.86           N  
+ATOM   1193  CA  TYR A 167      23.214  -8.059  37.224  1.00  0.86           C  
+ATOM   1194  C   TYR A 167      22.964  -8.574  35.824  1.00  0.86           C  
+ATOM   1195  O   TYR A 167      23.900  -9.012  35.156  1.00  0.86           O  
+ATOM   1196  CB  TYR A 167      22.762  -9.052  38.320  1.00  0.86           C  
+ATOM   1197  CG  TYR A 167      23.465  -8.693  39.600  1.00  0.86           C  
+ATOM   1198  CD1 TYR A 167      22.782  -8.205  40.725  1.00  0.86           C  
+ATOM   1199  CD2 TYR A 167      24.860  -8.830  39.668  1.00  0.86           C  
+ATOM   1200  CE1 TYR A 167      23.483  -7.896  41.901  1.00  0.86           C  
+ATOM   1201  CE2 TYR A 167      25.560  -8.525  40.840  1.00  0.86           C  
+ATOM   1202  CZ  TYR A 167      24.868  -8.070  41.965  1.00  0.86           C  
+ATOM   1203  OH  TYR A 167      25.551  -7.778  43.162  1.00  0.86           O  
+ATOM   1204  N   GLU A 168      21.738  -8.408  35.299  1.00  0.87           N  
+ATOM   1205  CA  GLU A 168      21.312  -8.803  33.969  1.00  0.87           C  
+ATOM   1206  C   GLU A 168      22.207  -8.255  32.860  1.00  0.87           C  
+ATOM   1207  O   GLU A 168      22.596  -8.965  31.925  1.00  0.87           O  
+ATOM   1208  CB  GLU A 168      19.844  -8.344  33.716  1.00  0.87           C  
+ATOM   1209  CG  GLU A 168      18.782  -8.866  34.730  1.00  0.87           C  
+ATOM   1210  CD  GLU A 168      18.557  -7.975  35.957  1.00  0.87           C  
+ATOM   1211  OE1 GLU A 168      19.538  -7.704  36.697  1.00  0.87           O  
+ATOM   1212  OE2 GLU A 168      17.401  -7.518  36.145  1.00  0.87           O  
+ATOM   1213  N   GLY A 169      22.617  -6.976  32.974  1.00  0.90           N  
+ATOM   1214  CA  GLY A 169      23.577  -6.371  32.060  1.00  0.90           C  
+ATOM   1215  C   GLY A 169      25.006  -6.831  32.254  1.00  0.90           C  
+ATOM   1216  O   GLY A 169      25.725  -7.072  31.285  1.00  0.90           O  
+ATOM   1217  N   LEU A 170      25.469  -6.980  33.515  1.00  0.82           N  
+ATOM   1218  CA  LEU A 170      26.802  -7.494  33.823  1.00  0.82           C  
+ATOM   1219  C   LEU A 170      27.008  -8.934  33.371  1.00  0.82           C  
+ATOM   1220  O   LEU A 170      28.063  -9.290  32.841  1.00  0.82           O  
+ATOM   1221  CB  LEU A 170      27.153  -7.413  35.328  1.00  0.82           C  
+ATOM   1222  CG  LEU A 170      27.202  -5.992  35.919  1.00  0.82           C  
+ATOM   1223  CD1 LEU A 170      27.375  -6.077  37.442  1.00  0.82           C  
+ATOM   1224  CD2 LEU A 170      28.264  -5.081  35.279  1.00  0.82           C  
+ATOM   1225  N   ASP A 171      25.989  -9.798  33.545  1.00  0.85           N  
+ATOM   1226  CA  ASP A 171      25.972 -11.159  33.048  1.00  0.85           C  
+ATOM   1227  C   ASP A 171      26.063 -11.254  31.538  1.00  0.85           C  
+ATOM   1228  O   ASP A 171      26.802 -12.096  31.019  1.00  0.85           O  
+ATOM   1229  CB  ASP A 171      24.739 -11.942  33.575  1.00  0.85           C  
+ATOM   1230  CG  ASP A 171      24.958 -12.203  35.055  1.00  0.85           C  
+ATOM   1231  OD1 ASP A 171      26.148 -12.440  35.394  1.00  0.85           O  
+ATOM   1232  OD2 ASP A 171      24.012 -12.226  35.870  1.00  0.85           O  
+ATOM   1233  N   TRP A 172      25.370 -10.363  30.789  1.00  0.84           N  
+ATOM   1234  CA  TRP A 172      25.536 -10.269  29.343  1.00  0.84           C  
+ATOM   1235  C   TRP A 172      26.979  -9.949  28.988  1.00  0.84           C  
+ATOM   1236  O   TRP A 172      27.616 -10.664  28.206  1.00  0.84           O  
+ATOM   1237  CB  TRP A 172      24.599  -9.202  28.692  1.00  0.84           C  
+ATOM   1238  CG  TRP A 172      24.734  -9.121  27.165  1.00  0.84           C  
+ATOM   1239  CD1 TRP A 172      24.142  -9.913  26.223  1.00  0.84           C  
+ATOM   1240  CD2 TRP A 172      25.653  -8.268  26.451  1.00  0.84           C  
+ATOM   1241  NE1 TRP A 172      24.633  -9.617  24.968  1.00  0.84           N  
+ATOM   1242  CE2 TRP A 172      25.554  -8.604  25.081  1.00  0.84           C  
+ATOM   1243  CE3 TRP A 172      26.531  -7.276  26.878  1.00  0.84           C  
+ATOM   1244  CZ2 TRP A 172      26.316  -7.938  24.123  1.00  0.84           C  
+ATOM   1245  CZ3 TRP A 172      27.323  -6.632  25.918  1.00  0.84           C  
+ATOM   1246  CH2 TRP A 172      27.212  -6.949  24.558  1.00  0.84           C  
+ATOM   1247  N   LEU A 173      27.557  -8.923  29.634  1.00  0.85           N  
+ATOM   1248  CA  LEU A 173      28.905  -8.458  29.389  1.00  0.85           C  
+ATOM   1249  C   LEU A 173      29.966  -9.521  29.652  1.00  0.85           C  
+ATOM   1250  O   LEU A 173      30.874  -9.733  28.851  1.00  0.85           O  
+ATOM   1251  CB  LEU A 173      29.139  -7.214  30.261  1.00  0.85           C  
+ATOM   1252  CG  LEU A 173      30.505  -6.528  30.101  1.00  0.85           C  
+ATOM   1253  CD1 LEU A 173      30.845  -6.161  28.648  1.00  0.85           C  
+ATOM   1254  CD2 LEU A 173      30.515  -5.277  30.983  1.00  0.85           C  
+ATOM   1255  N   SER A 174      29.818 -10.268  30.763  1.00  0.81           N  
+ATOM   1256  CA  SER A 174      30.663 -11.403  31.131  1.00  0.81           C  
+ATOM   1257  C   SER A 174      30.660 -12.520  30.101  1.00  0.81           C  
+ATOM   1258  O   SER A 174      31.712 -13.033  29.707  1.00  0.81           O  
+ATOM   1259  CB  SER A 174      30.179 -12.015  32.478  1.00  0.81           C  
+ATOM   1260  OG  SER A 174      31.002 -13.089  32.945  1.00  0.81           O  
+ATOM   1261  N   ASN A 175      29.474 -12.896  29.589  1.00  0.81           N  
+ATOM   1262  CA  ASN A 175      29.291 -13.900  28.557  1.00  0.81           C  
+ATOM   1263  C   ASN A 175      29.985 -13.530  27.241  1.00  0.81           C  
+ATOM   1264  O   ASN A 175      30.528 -14.399  26.561  1.00  0.81           O  
+ATOM   1265  CB  ASN A 175      27.771 -14.158  28.376  1.00  0.81           C  
+ATOM   1266  CG  ASN A 175      27.533 -15.325  27.432  1.00  0.81           C  
+ATOM   1267  OD1 ASN A 175      27.915 -16.464  27.727  1.00  0.81           O  
+ATOM   1268  ND2 ASN A 175      26.926 -15.058  26.256  1.00  0.81           N  
+ATOM   1269  N   GLN A 176      29.981 -12.236  26.871  1.00  0.79           N  
+ATOM   1270  CA  GLN A 176      30.589 -11.734  25.649  1.00  0.79           C  
+ATOM   1271  C   GLN A 176      32.089 -11.574  25.681  1.00  0.79           C  
+ATOM   1272  O   GLN A 176      32.716 -11.448  24.632  1.00  0.79           O  
+ATOM   1273  CB  GLN A 176      30.056 -10.322  25.354  1.00  0.79           C  
+ATOM   1274  CG  GLN A 176      28.564 -10.290  25.001  1.00  0.79           C  
+ATOM   1275  CD  GLN A 176      28.262 -11.040  23.711  1.00  0.79           C  
+ATOM   1276  OE1 GLN A 176      28.877 -10.819  22.662  1.00  0.79           O  
+ATOM   1277  NE2 GLN A 176      27.268 -11.951  23.757  1.00  0.79           N  
+ATOM   1278  N   LEU A 177      32.706 -11.528  26.869  1.00  0.78           N  
+ATOM   1279  CA  LEU A 177      34.149 -11.439  26.942  1.00  0.78           C  
+ATOM   1280  C   LEU A 177      34.802 -12.769  27.225  1.00  0.78           C  
+ATOM   1281  O   LEU A 177      36.007 -12.944  27.032  1.00  0.78           O  
+ATOM   1282  CB  LEU A 177      34.545 -10.535  28.118  1.00  0.78           C  
+ATOM   1283  CG  LEU A 177      34.104  -9.077  27.986  1.00  0.78           C  
+ATOM   1284  CD1 LEU A 177      34.420  -8.316  29.274  1.00  0.78           C  
+ATOM   1285  CD2 LEU A 177      34.788  -8.412  26.789  1.00  0.78           C  
+ATOM   1286  N   ARG A 178      34.026 -13.725  27.741  1.00  0.63           N  
+ATOM   1287  CA  ARG A 178      34.478 -15.065  28.011  1.00  0.63           C  
+ATOM   1288  C   ARG A 178      34.655 -15.950  26.793  1.00  0.63           C  
+ATOM   1289  O   ARG A 178      35.636 -16.702  26.710  1.00  0.63           O  
+ATOM   1290  CB  ARG A 178      33.416 -15.713  28.909  1.00  0.63           C  
+ATOM   1291  CG  ARG A 178      33.853 -17.000  29.620  1.00  0.63           C  
+ATOM   1292  CD  ARG A 178      32.715 -17.493  30.505  1.00  0.63           C  
+ATOM   1293  NE  ARG A 178      33.267 -18.490  31.478  1.00  0.63           N  
+ATOM   1294  CZ  ARG A 178      32.561 -18.965  32.514  1.00  0.63           C  
+ATOM   1295  NH1 ARG A 178      31.299 -18.593  32.701  1.00  0.63           N  
+ATOM   1296  NH2 ARG A 178      33.104 -19.838  33.358  1.00  0.63           N  
+ATOM   1297  N   ASN A 179      33.688 -15.910  25.864  1.00  0.64           N  
+ATOM   1298  CA  ASN A 179      33.658 -16.699  24.650  1.00  0.64           C  
+ATOM   1299  C   ASN A 179      33.818 -15.795  23.403  1.00  0.64           C  
+ATOM   1300  O   ASN A 179      33.873 -14.548  23.560  1.00  0.64           O  
+ATOM   1301  CB  ASN A 179      32.307 -17.434  24.478  1.00  0.64           C  
+ATOM   1302  CG  ASN A 179      32.004 -18.295  25.687  1.00  0.64           C  
+ATOM   1303  OD1 ASN A 179      32.714 -19.244  26.037  1.00  0.64           O  
+ATOM   1304  ND2 ASN A 179      30.874 -18.005  26.373  1.00  0.64           N  
+ATOM   1305  OXT ASN A 179      33.841 -16.359  22.274  1.00  0.64           O  
+TER    1306      ASN A 179                                                      
+HETATM 1307  PB  GDP _   2      27.582   9.435  39.841  1.00 33.08           P  
+HETATM 1308  O1B GDP _   2      27.559   8.977  38.438  1.00 31.21           O  
+HETATM 1309  O2B GDP _   2      28.399   8.706  40.817  1.00 32.34           O  
+HETATM 1310  O3B GDP _   2      27.988  10.931  39.844  1.00 30.19           O  
+HETATM 1311  O3A GDP _   2      26.074   9.493  40.440  1.00 34.17           O  
+HETATM 1312  PA  GDP _   2      25.491   8.903  41.842  1.00 38.07           P  
+HETATM 1313  O1A GDP _   2      25.600   7.419  41.847  1.00 34.75           O  
+HETATM 1314  O2A GDP _   2      26.056   9.684  42.952  1.00 37.41           O  
+HETATM 1315  O5' GDP _   2      23.922   9.293  41.621  1.00 38.83           O  
+HETATM 1316  C5' GDP _   2      23.505  10.676  41.632  1.00 40.93           C  
+HETATM 1317  C4' GDP _   2      22.118  10.820  42.280  1.00 42.98           C  
+HETATM 1318  O4' GDP _   2      21.181  10.047  41.518  1.00 41.13           O  
+HETATM 1319  C3' GDP _   2      22.028  10.290  43.718  1.00 43.37           C  
+HETATM 1320  O3' GDP _   2      21.251  11.179  44.486  1.00 43.95           O  
+HETATM 1321  C2' GDP _   2      21.403   8.904  43.580  1.00 43.64           C  
+HETATM 1322  O2' GDP _   2      20.732   8.355  44.729  1.00 45.53           O  
+HETATM 1323  C1' GDP _   2      20.515   9.097  42.371  1.00 42.64           C  
+HETATM 1324  N9  GDP _   2      20.307   7.852  41.613  1.00 42.83           N  
+HETATM 1325  C8  GDP _   2      21.207   6.927  41.156  1.00 42.90           C  
+HETATM 1326  N7  GDP _   2      20.712   5.922  40.512  1.00 42.56           N  
+HETATM 1327  C5  GDP _   2      19.345   6.181  40.535  1.00 42.68           C  
+HETATM 1328  C6  GDP _   2      18.240   5.424  39.974  1.00 42.57           C  
+HETATM 1329  O6  GDP _   2      18.282   4.360  39.349  1.00 40.57           O  
+HETATM 1330  N1  GDP _   2      16.990   6.044  40.224  1.00 41.89           N  
+HETATM 1331  C2  GDP _   2      16.805   7.240  40.916  1.00 43.25           C  
+HETATM 1332  N2  GDP _   2      15.550   7.667  41.048  1.00 42.58           N  
+HETATM 1333  N3  GDP _   2      17.834   7.957  41.440  1.00 43.93           N  
+HETATM 1334  C4  GDP _   2      19.073   7.368  41.213  1.00 43.59           C  
+CONECT 1307 1308 1309 1310 1311
+CONECT 1308 1307
+CONECT 1309 1307
+CONECT 1310 1307
+CONECT 1311 1307 1312
+CONECT 1312 1311 1313 1314 1315
+CONECT 1313 1312
+CONECT 1314 1312
+CONECT 1315 1312 1316
+CONECT 1316 1315 1317
+CONECT 1317 1316 1318 1319
+CONECT 1318 1317 1323
+CONECT 1319 1317 1320 1321
+CONECT 1320 1319
+CONECT 1321 1319 1322 1323
+CONECT 1322 1321
+CONECT 1323 1318 1321 1324
+CONECT 1324 1323 1325 1334
+CONECT 1325 1324 1326
+CONECT 1326 1325 1327
+CONECT 1327 1326 1328 1334
+CONECT 1328 1327 1329 1330
+CONECT 1329 1328
+CONECT 1330 1328 1331
+CONECT 1331 1330 1332 1333
+CONECT 1332 1331
+CONECT 1333 1331 1334
+CONECT 1334 1324 1327 1333
+END   
diff --git a/modules/mol/alg/tests/testfiles/P84080_model_04.cif.gz b/modules/mol/alg/tests/testfiles/P84080_model_04.cif.gz
new file mode 100644
index 0000000000000000000000000000000000000000..2a88230b51bbe8f9a4e620b1fddc1e87810af68e
GIT binary patch
literal 43048
zcmb2|=HO_Uw=|i7Il#iiz``ItH$NpcC*HtBFF7-f;p*Sm?K0aZ>UQmW9e(9O-Hz{l
z$y0^rcfOe}cY2!6%NdhWJ&)Jk)t3?3s`Jszb(80*ySMiLJI2E>(}Cf{Dxa^X<KA9$
zUb80DG@OCs$nzfgdG!_l-rUx=|M%Pe{y)<{&)xrb|9gLRwt4>i+AnWDer=yFU$=MP
zpTxiC`S<UujrsraTl@R}zi;yQzmMNj{qx)5)8^~#gQlOpZN9$l@6V5STkF?NKkfdj
zsPgZ#ug71%u6SF&_Wp-|hj+)v)l_`@^LM@d=j&7c_uc>06IXYj{bGClmoJjFbJp2C
zJnG+XZ(sfK+4Jpxe&60N@$zu+udC|*_I1BK80stb?5X<s%RX-3zmJ@?hYp+1=asMh
zef7u1>x<p%|NP#**nNI&)BRu1R<}Po`s4G(bpQ7IUvFOipZ@2?`!6eM9s2G5CviOP
zUOvB1&h~G~k68cX_1CA*uQRXu^7Z-Q_rHG4-rplv`}?K&V)y&Cc6DFQ76k75{rkiA
zf8Rcoe95>Sd)|J}&!0DcPnVZlZ@;hl^Xc2^@%5kDKe^`Yd>enG=zPZWy8q8Ye|}p1
z{J#CZuK(-q&zIZt>q4#U?j8TRzlh#tzulNAx3~U}|3@qNxL?Kd_SXEJx9@fP@lOxs
z=kNdh;n&Uj?fQRj?fbI-^z?gsDn6dR{d|3V$os|bEB-&bIlKJ4-2czhr~lWPZ}b1@
zVSm}2KSj^a#~A+isff3&{(Jhoylu_*>H3!=l~_ND{?}hAcW-WFX-voianD+v@Yjbo
z=^V_q_vhZ9xKC>7^2|${zv{g>d7)b^M!nno+`-v5_51FX&wX*QWNX@^`H_}y@8n#5
zzP@UegX^tV{a^OC$A(zNJa4rNUU^fm<y31+7N;>|?4E6t&BX2}|1s5><#0CaXX?dY
zB3i<McNMjt+SD#F+I+G5k@<u_XPoqX56+O>A*AKHDC$pA^EUOsi<|d<_+OUldVjyf
zFD>belO9RGCMD<!b7s%<`JiGD75;eL=A)~2RVuFW-mpAir^aggH>bVMhv$k;oABg`
z+T`z|3KxxLR(_hixp>mlg|$zeXM8nDUO(62sq(7xc?&*Wk7WPllCLh*z3C5I{nFIM
z;%nz^{dze`a*FDW%PtS*&Z}HM*TJ=3{;t^lx=s6=K3`>hqm{jNv9cJ?{)4f5xBiez
z*U_E%ywvoYm$z5a*WwNL+Jjd(O}V<<JUk$?cm1Z%Nk3CmGtU}d(A!)dXWd{F{{98e
zuanZb8N25@ZRMyvDt59h%X7uF)yvizYsy~9X-Yd=aPe}eW8#HA^J^dFjF#wDFi)zQ
z!Ib+giFI#MK-UG!r4{0jK3lK2qVgqFT(oi4^PTq`zpUCdDTLwbj-#u0+-B(Bay`W+
zvuEce9`*puh3kK9GJ53|C6qp4-~IEa=LAGX`CVG%)|!z1UQ*<3=?ek#pAH%4PkM3J
znz}sQ*e)7txJA7wJ!Dp%3_r`U$lSw6ese7sWf%TEK`eBxQ)<gTskIA^$1T15?(C!7
z4V<DYL+&)6s>ofoV*Rw$jT@TyOI}8l`h|tPSlzg0+3P0?Vz)l4OyAN}a)-%m_vbCw
z=N|I)S+M0!qk4eq-G3+Tv|=nbH=j({Qglq^>;hfcat)rP9`m)M!o9f?^sf2u4qj1n
zg=hY|#Y&NyG5Jvwx2b$RVBWXPI{(<YIJHX*n~&wO>$qFj27O_#xU}=3$STWIukM!z
z3Tjv<GRAVKux*?5Lu!-TngvUf1sh7189x*=o<BLXW7DsgyAG_USM6(8T%FpKHY0u0
zii~pR)mN`GFkTW}E1PRw&lP&<?flnwMOoIl-da?`TiHB2;<Z3i5{tmJ*)Mw!UX*pY
z-eB46<^SkdVtavW>v7L`-EI4#e;nF)E{EZVTvOisk6-JS2|sx5w4GV!jHBor#nrc#
zoPWPC=+Uv4ixz2bztmI1?;i8zZHqRGkc)?T-%(Q&*7TQB?FN1eE<HLXdE!)zdN04}
ztbO;7+>V@RYTsQwA!PS==HIUvw3PGa>|669uXA_Pzx{<N2akWQ=H0U<Y@*x@-#vvl
zo-H(9(Hz-R{7ytmJ8w?o8l9Cny-R0JTd=0|<B~1u6J+$4Cp^?&5>{wBcQVL(E2CHV
zG_?AZY0QksjGuVX!A;~_w1L*`w<Y{itm5uxcNAaI47r(i{r8Flp6hXPr%!FHeA%pS
z`)Zj$zrq=3-(y?UXP=n^Ht5b2(OR_<-mq3vGkMXVpFfn0)~&g;;c5n}?viw#*k{YO
zt>;_7<rH5yCCho~HDiz8HI0+soK)`pu5fMvSJC#}+DE2|U%h{UXH|ce;ICEvTpQA&
zEA?vFbZ5U6p7Pa4%a*Hj(b71N%FAol=C4hVpE|Q;pVWy{7hNqLpHppaJtH<b;G$Sl
z>lzzNi!CoNMe*lcWL`1lLO65CKd&l5GwxW!!g%*u)9M9Er)TQT5U`a$^i*8q&q=r3
zLZ+!=zgBg3T|1xP`sk|6v<yY<JLe{F$vPDoS8RRsv_)Tia;S9v8O;#4h!f0_E3*wa
zv?Q`E>L!%^R{1NrZ}x+wV%fD!Q$=Sj)YoS1ue&)%$Bi|jZTmJ=Q@?MU``^#0-@Rtj
z-F4ps4({P%EVGW}NZB4C99S7NbJ?!Vo*}6-vV;DKXziD7Y!UKL4|wHWp|nIdVWCjM
z^Ai=<KXOd!jQN=%8JZxev}S2S-tI3yZ9_iiu@t$o-rpQ2?zZ$tkqYCa0FfGR8HcyO
z_I+jyNi=7g8Ne9w`0NDz%GTSh3&J*}Oq?Y$*^s-Yep7T|aeMHJX?HnNHa2xX*66>^
zU7Ning=gm6E?&-0v6<U<tdaaB_UZ46H(R6|V*)4Yva33@O=&HQ*|dgdy;$Ull9vTv
z4o_6w@pk{qJ6us)L23?)G)(u(Q`bCasS;Uv@22Y>>5EY_!na&Fb~xwj@_?6jIa2P0
zKis9Dv+7L>(@##rx}_#}k6cLlER$CB<E~JvS5&UzoQwXp>e`#78_#TN>U>!<vE4&^
zg$)nqr*|jBwtPIM*ven-q%3Fr)973Q!&K2<UBOAxTASakzPZ8M|Mb#D(|JNJ1W*0$
zSI4ed#iDXzzQ@K(qN4M~H{~@gU2LfT@^kfyITym6L%sxFN;9}Fu=ioAQm{pZaC1}L
zO_9SgehWW2#q$OfMr1|)m9%SaNUh-X%#HkUrAO=6+qM`*ql|>c`3|PswO3tJ1$EqZ
zR4uIaeHMFZky`##5s|{4EWSgBEgH2rYE5Gte?6{DZm&EU$#5&&@s;+ck84l#&2`wy
zQNN*^Yn5!8_0PkOlCx7?zb|l4=+9Gre)0fk&#I_b1zb~Sx7goscWnz{(DJ|TwW)gX
zS%&*NV;uR;Zf^9t)}n0s-hW|`lX1bpgKek8es$%G`+ocJXwg-6+bs16Uok_?jFb~u
zTKZ=Wy^4Nhc_A*_|Fq5W^Y0f<+IhuJi+eS{r0{Xc^_uGz?3(mA^tHCoRi(Wfg;%8L
zZSC%IFx@7zH!<sNnp0|l?emDwC4ON>({H)DzHZ;U`@_mv*Iyh@&3u#ggnLfM>v;}O
zzu8tz4+}Ub(Y9;J`tF%)G;~<+cds+uv{A-8pj~_Mt0!|U4@Vq#{rJ;1r0)J={eX?r
zrKa!~@?Z9E5No~azTEHliV5$Yy!Br&>$~kQ-l^qV&7JK(Uv<|`ShTcMYu(ABxdQ5%
zVP9ERZFqk%e}!1zeBEhc-CN3>L@i=^IyBq2>IIs9__uI+Q&^Q{Yu3&0FO0Q5bxb$1
z7p|Xu?ZQX7Wt%-;b8#w(pE*_gIi`Q{r^~6=7vB$<DA||m8vi_4uDx$Td(4z=OA@Af
z?qt+od{;eSWo^IRLZ#Oqy!^N|&lug?Hz8uf%_2{p>ci_ke)3;%>9<_%w5j_J?L26w
z#$vUir7Oie^qN6{@0>WJ&8`wR=Q^dP^vQj#m)4RmwZ3#N?$~X8xytkmHY1nxbjv!{
z+E$m4hfmiRwnb<%*%vm>oM^Yd{nRO$T7J=l$SCVy)|qo_y1vHBL>_+gXJVtf!iK0F
zg*O(?3p~Bx)rwnxSIjwcu{?F@ZgW0evHJ5)b*mlk>E1iH$?GYLmVWV<+DJ*G8r^-}
zW-VnGy;VcnvXg=wySla)Pgb;V%$jETOHWHjQF3AFy_<3Bd}in7eGBa<&D^rqBhSFq
zvwou3=jSP+DSi98yL#C8^Ov1tnxQ@Eo5jozCQSEyR-6cO2sz8T>-1JT_0=MiBfnmC
z2>bA|GIg7kEJt?OwBnV0&IaB#&5k>j7|PkM+Ng$9iHjDwEz;v#bZMS!yF;AaDuW2-
zi@lF)Q)A~isJ<=JYq%G1cD0ylyn{=Zg7!+u2iD&F$>(R!_`PDuT{{O?>)Ds5IZA&z
zxW{Y736uG&Zn3JYko7z2@@>KD>@L0qlgg^aMH{)YrtLG%WUDYr;g!DRQ|IWzc9DP2
z<|{es0iL^S6|`GENO>RII+fXj>46x(rm*eZ5A5tKQh1*fu!^&|oz{xF^|p_Du2}no
zjp~NWoOJiidT~$eD-V0X$%@?$qG2Jsw%-0L`n7thu9x--vHR0Q&mVtz{p(qydv-3a
zZ2BQ)GxyqsZ=9s*l{M*qjnQq<JH<{<@18k6pIPXgjFx1+{Nh7QAya3voGSRTc*SB@
zsfN$1%YU6?4l%lC=kT=Z9?Q$>8MC(pob$CP5WL!RE9#bY+N#A{zc1!8x@UJU+~R|Z
z{;rzl{)_!jPi4+I_4$yLU+J7DEUTmqXGR3OwDII>rrbMuCU~B4q=3nzsvT`FykF?t
zm~ou*MD9iAD~m(EhMyKmp1k6aYH+>h{QJ(O%4(YzPTD5Z{OFN-yRWRk=jT2B58p`q
z4ZeIg_Ll{Fz}=3MI;(Y~)TU3m>$goL{m`8?>7UkE*12pDD?5H-hWRYrgTgEFj-*Wc
zT9%i+O)x#d+f8v5&+;B!IlhnIjnvo!ObsPX{;XMXW=gHh`J?)$Zd$If^Xpi;_KWSo
ziGfFdpNbci7C*K6L2T%Gfohf)5(hqQx&<nEvXYE!Lt+X}itgt=cRr`ou30#nZ5NZ|
zJ5@c!q;M67<I|sMhWPp{>*h+_x-HE*Ch#Xmts_^n%ap9ECrn)?b|{&L{w&^<m1LwG
zB3nO!=Ss%*{BNRWV&QwrYvwSom^I^!z|=$2CEo|@8LfMuwCUj-^X1W*dkd~ehIk84
zez}NACuE+_hp1-)w)!jzk5}F*GOOX|%eu<9;FRIa*pN9}k3_M?T+EhBSDM@?cxH2u
z)`ny4H`}!)DlIEvnkp7~dg7V{`5n71b*@kEeNeTE@$*HeX_423R|NSyyZ=2fF@EFg
z(6C9u8miSk6FxT;8b_K>_K$u3;=Q|S@ya{vcPtFDyq9<T%_UaW)qi|b9!iR=jf*f|
zz`u0Ov^y(34nF@La55%KUi7Z6Ugg{9w&^-4$FG0(Vf*D$cTQ&dtji21QWZEh#H$-S
zsTQwPjx4m;xbCk)0Qc;<OOBi<`(*ZwNhe^@6Qc{u*1wkITQF(o6+Nw*nTHznb$r^6
z{$)J<CP`8497F8PP17H;XwCGNUBFek_@-DW_tvxp=7$pB9RKysed?QUrqiulmY$m6
z*0p`|L(QsPH}*X`J@K((>7Q3|Axmbv>Xmk6IV}#UeLTVN{O;a!Pg%^5AKU8Ymb7s7
zOx~HrE0)~V3wSw4KE{G!XI<p2@M*556K|fmD8(k~CRXGhUz%-yMdj@`JFP8D4^F8z
zpUa%OX_`gLB|C<?BXU)uCG4PV+p%gdyZ(xnXA$uiq&ChHSQ|Fuhw;zPJ6M;448P}k
zbi<AdEY~}ug61^t{`A2%rG$w!PL;d<Vb94h)gq>;JtuhrX0Co{!dLmus_fneu1VHh
zkq7;b)palX;?XVV@btTB^SOTuTvzmOv%LO(rA%nB?{n^)%xIODhc!b!?@K%JHT=n?
z$?DFB7HyWR)#>p1oX9U+wPH;oXHs&ZK-^@-h0mV0wc0qSzP|l>Rdw>U+SV1^vK8y{
z`oHp|D298T`Ow?!%(14cPhC;_`_$fP+IENhwd(8mr>@DDUzGLvTuQf8WbL87-dxrb
zax!lfKM#1i?@IJ0C58>v+`VU4yg5`_D;6hNo=~JzctN_3Vd|~7$4{<c@a~pN3R&WF
zsrbR=uId7_IfhprifBdNzvtRo)Moa}afQxv=^BN#jdNVD@O;`b&tdB8+gI1E@nGuO
z{aAGE`BN<p(H-W}Z{>?t9$vF3jU%RQHt+Y~6>Bc=C`V@M$*i!|_l;M1vpVDJ!MyK%
zW;LQ~Z5y<%Z@)ifYTH9Oo|$v?u3yVCG3l&j-7ULp#(craYij5G4m?>=J$JEr+13eL
zI}Sc#=i9nQsa44Fd1p`eHT#s@ouDSC(Y<@FS6}z_FSs#R<BMn}n{nr<Yr-p1_SCj$
zDVPf0NQv4!O~pa`tLUsb({^?LWdRkJYaZNLounGE`GoI<+LwD)?6K(cI$iObVe0a|
ztE@kkUE^6|+N<hrdG}mfu-cQ-37RXeXoh5MuS$1)x{l-cwKal!rQ3IJNPn?<ZT15e
zEnO35dC@~bd`IIx`$Tyxox$VeS{!I?;2vW1ubgS>&9(P5!!CT#Tc>sMWX`iYN0Mwc
zxp}?WROd`iO7EGr=S`MP%c{<kfA((r71LK|p}y~RlgGs)bM=>em)$0P`jmpJ->#yv
zoH9|t6P8i67CcMLlJ;k8U*_?2-<9^*kTn}?g~eT0WF!gCwE3-B@VvX!dEO#WapV&o
zw!-&mkiM^U-C4bfv*o8*nFs!hs9(G3A*lSExo?fwl%ofK_Hgf5r|{cCctwQM8}6;f
zn%^CLp4El;`lPj-ium}qKwa&uWFE`IlRj59MQv8dSTuk;Jza~p?ukt}|MZpYEhnB;
zFJ>pCd(64^ctuhCt5xfN{m$CANW|e@b68vCr963;ZTt&@oZ@@WD~Q);9DT~8wa{o&
zm#Ew7|7W#l{0_3eJ5_YciXN|rS3@@S&Sjb0S1$c7eZ{r4b#GW!-PyfGTf1fT&RZMT
z9Awdo-n!<o`H2IcZZt4TzHgnG@3+9K?Ds6z7mGiI-*&sYBYJxOgJVY-j(5NJt}=Z+
zL3l;XmGJrR7Z>U7XZ-u3<j%Dv;XbU3U6<XyTW`PWSl)VLwViB}YMw7!%vIPHX1pWu
zn$fojdL<JV`>H)#v}<eDs+Zofiym#57bqs1Yq-g`?aUI@|5LvD#y;W<>Aiao)U)Yb
zb#Q6=VO!NAnRtt=E4tMTp~>672QY@Te|J{Q?V9Vv9?bgAZubobzP0bK8Q<w&_0s$8
zqD8iA0$x0^;Rpz_WeuCaT`FdjZxNAN$v8XIwsF<Q+q+l1*yGJTx%~H;ea0(p|G4M9
z+t%&NEU6RBD>mJ&OWuBawNRm}+tamYE+(h@{;g_bUXc?2iec(*DZcRMO{aJ8A1<Bu
zY7Xz(2S!i+?vS5)_xy)tqApS^Px4P{%#kTST{S_c?WoJy3*YzfExh$U*64FuyzZT4
zTh?*UcQikFi{EJ}`^4OJ+nVdXGV*5W)z<M}t$QEj*80JHGOzpmxPx}07RgO4uN8Ke
zFn}bSTHn>({CIX#)-}<z-D?inHfHTF&zvf{a^V7(uY4y@Y47pSDpostMAH7!qRR>K
zvJPAC?+#hBKvXnihlE3L$P%^^tF_E^7k>w?tzBszF!6IvYObzT_sq9zAKW}xxOLH{
zFDzQ6H+$=*?B08>dBYOV_^HP-_OPa;zUB=1z1LfN)zeolDHe-9#fU7PSYfvLr1p*U
zSyl~R-}E?jrLNu0d)}rfR=aXetWw5{aNlWXG^W2=EEap>P}r9<%RqgPz23|reIdbb
zlVf+BU;Xf}LWE<<#Q6@Y)zf#a5P0=E<?zmi+?A_k-drk}I~OGCw!&)f!xxz*m&(&(
zy8T|hoHh4TUC5^L%pFZ!EP{+@y%dc)i*nbld3}5H1pWn+K!z`AmCAEI_H^g_hLV}#
zcG0yra$UDR;S4#w@9Ok0fu&y-l|4E%ttV4yg2v00$zI0;pYFRd@#^$c*K^gE&o(lo
zT)x_|Lxbmt+PylCskgTOG7Hh|esDBCG^FRYZ_kV~Dywe!Ex7bM?Ea>E7Q!ZFf#T(z
zd08i$pI;W7BY0z}^Z~(rMe$pG<}Hifymrq`knXwC>~V|UJlkP0HS6fL6%RN=%I?34
zz9xOVv330mnZ!WNbIup`_J$Rt#NY9=KgSr7cmLJx07c6k6T;Uge%aXSxNSwA(gYT7
z{nEcTI7900zlsj~t#v@LXKUZheX|0DHeccSv8BQ7aKZVv2FnA^f}9m;)Z}k*i$_Ll
z(fSQ#Q4<(Tt@nDf2ej6%)-Nsg$-U3`{#&NzPWPA?$8#xKTYVH>S#7^Py>_*JdGUpG
zCv&R{e7|*{hh7X*(B}?uESV_p-n#F~`eU(9WvAv%cYEWonEAYa)>WRUsh(-~-nQ*g
z43A8b4CN`^s5NhT=DGRzotKvFZh5oi7SG%s&M1)?R^_W3_gKWt+-hIVH1)|3*#%A+
zdlNfiJ<K<X&9%7K@U$Rd{;M!P8K=~;-7Q=p!WCan9xl!~`&2Y#Ge0NSg|(`Yl?Q)T
zGEF_R^i#<q-l<)`PsPZJ^NGYPn|@>E@ul)+ajt6b%8t9fpLkE{$z40w!}Uyc-fixu
zeyy<6n(6&^@uk>z89{3&uhCQrnf&&MYd@sZTgrQ9d!oAcrt2r2<_DLpTccT|JNp!8
zh|zSbNmHL|-7>Wly5H}@wYu%*r&~rE?LKLCt1s^qodRl6<t<3j-FLO>V_vz;Uj<RG
zUv&?oyxpfS-oWAyYH=xQon>9EbkA;PSA_1uS=oQU$;v-(fm5~3l?%se4y~|J-@8YB
zZ_A_lJy{op!V1;qI4pg%FKY8N=a9`QSK7`BM9Hf!Xx%nzdLdKjtg{=_bluYnHp<*t
zAK`Dv)DURNBlW0Lyi78rRn}QG*{C#j{@FP*Q@no8TFBIum^4Z9ZBgS-)mw}9S}-rX
zRJz~<IGY*HR9wZ`a>jMf|3h<_Wt{o@YO2;RU*g)Epl;FVbu4Aq3Iog2p3joqp593F
zTKc5o>O+n*p`dJHq;`4w)OqV2Ll(qFbZ)A3ma1_&mDso9$(B~(6)8T;^jGsO<~!}>
zeJyxXiqy1u!Yhh=+}<u^5^s64zk7v=`KA0GhYcxnK3w!$aBA1y_>a5SDRdcJWXMW>
zRJ3-}gJZp{ANwL*cgwoW+O~TAJNK!-gV;s)&t4PaYkzKkZYDRUTV{LAssul~Mz6O<
zM{b3*^Mq-aZ93s=mLcc4A}uV*_>rrI#hwqgFRDMQv90)3dSa*k*F^EDZiig%>=X>O
zmS<O#437Mv9&qyBQai2s*aMp;`%ZgdEuH!0sPysD%@2=*Bo1<&yS{T~oO_hbHvTLP
z!>U=2!`Hp2-MP?}9WoANC&Kq|l1X#wrf*8-2h9#2aI$MS#a(N9=dJMSiv|<Z{B_Pg
znEcR6vgB~Xg42c?{XwSh(;qucjJ0a>`lk2wduYbZn#+09uePa#oRuuvy`U_8*Fs6Q
z6)Eq7?gpkNA6<V;LRdn(<Xlqa7uCG-qY2CcD#u(?d<6a(Y+)_@K1HtfQQPNf|IF6<
z{Q4uOb#u3g)75jk7vx7<taA5TI@fqQ%d`p2M$+n66GN=NFTFQq>a(iQUG1V@n)}iX
z?wO1J77tR}FFW<t+pIeQrpD<T8YV^?E;!QYd~bS0z3Q_Kb3mo(uN6LT*p*&qsfFKN
zy2_wP&CBR+hnC4ye)WKvch?>3@oHY|>c_KCH712u<;qm)l0<osCbvzOY<{nK6S{9j
zL`1~%IWeb~6){a+Gg)v&%)M|Kca40TcW$$ki+LMA-#YS3+dr>PQdc)%>t(at?QB8*
zoBWn_ckwGO-|nHmA$Wd(=0BxefsQL5c@#v$i@(lyP<@^9Ym-y{t_N5DOQf7A^lfUr
zymNzlf7AVdDRF0(2b{E;DY&Zb?#E9XyY|LkU}7}=xwFYHk@@1nIV_96GKOsOOWV-2
zZ>ywQ2>;da=qXnlHP<nRyzstznI~^^%8fTAw=PdB*IX6$Z^Dz9JE1Qemi@Iq9`z%5
z#g%<&1vkZV)erg3{5Wx)LTmJ~<L``BZ_f8yFllGV!^c0?tk?N=^~s3^kD_w^Nr`43
z@?icDvNmL|@tj+iFNfdVWjFVCko!gc`K7xj8V46}JPxq8nziKo$<olCtV2)lyq;#;
z;PouXeMOAGnY|8MS7e;@E#YKi?w9ht(S4vERGgIsew@n8qQFtowpd<1*)Mrb#PV*z
zNnNHBT1wyfOIm|;v#+=y8z1d^VUd*|&%)n%iq^8*6oS=wW_;vZFiU^;#r`c#39$}+
z)*0gAhOe3;!e?CTUmd+h?#S)_g<R9`zBsP7I_=aAk<A~yuNF6G#oWxTVG2FB^xY}0
zgVIrlvL5A$g!wFM>NPy`X6d5N@bB8j@7=GS@&5a3_Wmg=f@0-moicml?b`0ji6-aG
zIWfC-<qX#ETQat<^Edw-)V^X(!j;5`(36JO;|gMv_N%{R02Q{2F0Fbi-gY+O(Xk?q
z+}ShQpZq&sXMUV9#Ay1h>7v_qC)PW$erjCnwPMDm#7z(OJ6$c)IetNDe<jmY(O;|d
zwRxRhtW5i%5ThnquVb*A$w<s*#uYu$$%i>Z{GRM_(_V3Nwq}ts3zzXKljz!&`n~1V
zPxK}gwk5CFbE2|0pmJMOkd*uSO+jmBGcCJOXfvxbn(b;Ed%)S>c774z0q1m&Pc?Qw
zJon52fj!+i=ASQ!m2UjGWX|){-CMJ)zAx>onKL0ZmD$~1Y?<q`zOR~5bJyr`Fa)*y
zF!j+rrXno(+PW?4=J!G;yXGZE8<%!P-cZq&jXuo0(|9xQ8TDqZiH>v6{9SQo%lpSI
zIo(C!38I=zT6+2H*KN!D^m)Acm+g>qSo*DYj*50p`Q?x$4%;{V5i8Ntm|J<3<@s~Y
zkgEH~Bfn48`sVd2HfZC$9p~N|aK;+C9GvTv`mJ`(gtx0_&TR>ilQU(GWUqPrG^@??
zc<ol6Me^(cC#@tCPwK1|n<{*0vH3x+6)DZfYO>ZXK6kv-KI-;buFI8iuTC6~yjE-a
zIAh{mah^B(m#kmZXny%_lZj`_mR)*_K%J#X^~=*mf3X+dc~L##Rqw^9nTqMPiC-4#
z9AKEbX0qhk1(}cEdYOFtG?zDI5opvPQvI^KY3MJjd5)V>)@Zj|JP2}j?ENC+zhIK_
zSGN^B`eHZNC3eltGjL^IKI62eM9Znt<)Si9Q-24!+nw9h^wmIPZt795l4W<FslPjE
zZnHEut9p9h!l2)F=ekzC+~4gM|0U{FS830sm8%Q<7fdpox$D*i-`BPpZ{yZ^$0}8d
zoI34!__Jilb%iX8&0?l+??2dewe8la8D}`I_B?1jp|@~>(*md7#x+8gpo;C+iWuwH
z0_J_s7Kptyx%F@f=NnbOvwEF>zi5USsTn(MHR*8?*Vw2~zFX>Zx158jCHuaAd+xmT
zXj<}SQueD~28J!08IImjJ>k`@bF52CuUu{S{L9b32Y8-qw9~5R-TXnYpy`C0-fgjv
zJ8v(}%1?hK3o>HY3X6`MoLt4^H$t12YYUWJwCy)_>^^fs%(lU+h_5H*s+&S&n9j5V
zveWN8ZPHVpcWd&orPJj8{snc{<jVq=T6G7Ue&w|LY|+!EtxwLq7Kp4~zbt2El;6Tr
zAHNxIa$=R$U&!^Otm=s5mm=N?p_Y$dvuK?Zz2<KE{hUI|Qwt-n*GGFcY&>?LOZqcN
z!t4@{@44<k-C)U2*LAc{r*_WjsSdue=s0Nh^rdd3;Jnn8uU&WEm=Hh5;QO@$VlH1V
zDpi$$J9Eo-Z*tP|JD2Ty=+P{Z9}y=`#h0mXl69E+=G)fb{4Grf#a&*ioxkGEIY(EE
zW#y;s;-Grt<cu?ix5rOiQ4|~h;={Eh8QbU+N8dU{UGb1>n%fnBeeHtFexTMyK+X$k
zH-+X#)i;lGgl|?H61=sh>)tO=lOnC<)Ta%njGiBjNwn!~3(0Vh4f!<JFll{Co?YLm
z(=&X;Mb{LT1)2W+d2QJ`FBzwItTO@+xOHbLuktLBn&+UJY~&m=Nmw@Q{+p%t9BFPh
zm5Z6CikbV>Z!ga?U+^d*xm39L%j17?lLfUdpUHZ2IxEa(fwZe!aLUbx3w$m=Zu}9t
zzUsNeDv`;WX{KeVOQri_^zO}64UZ5JvwG?=)v@E5h*qR}@b#}d*WS9&wI=n>TN{=s
zHZ}t8M=Y3EUdub@{pW(8@BI7Ds;^Uattff*c)ixzBwm&5wp=l@7plL4WB3<NDm7w`
z)Ger;zU$PY+vW!uzpqTHvTyXdc9JJhQ_WT*y<w4f!`G{e1U8t;<h!3+eY&Td1C#|9
z%rZQau`>PiqTTZsZ{0BSqT(sJz3RGc3956hAFypb9(dMLZE@bBS+7?*iod(^xNTXJ
z;<TRyG5T#a9HHB8|K7T_a(lI5iPh;<TW24PKGag1*mQr@wBQxDX87FP{UqnwqBB?I
z(uAd>K0W!a5Xqt}*s$)$^YR%2G5go$=Or7-hSWUXGFN|t_2M`cb<rivJzQTeUM+bn
zyyDi3GYnIw6?5*WpTOzH{Vroed2i7d_JFO1Gw*R}ZA#(lnpoP_^mWc1%~hKWJlPdH
z9kzeX$$j})22{<nZMwAJW~7%|<Bs)D-u9UAIpsdNlsPHu?7R|tt&^4)ri-%8dYGr^
zpLR{rpXZ}y!&KdJVe{$-0n=aT*tKaD^WB*+HTPU~%hDSz%dT!!GtzU4FFgJC%wKiU
z<(L1in07brw2rp)-Y1hxr#M!Ysh{}4y@WaE(%U;efdzAA-9?w(jXT|Qs`24sW6zrf
zIkIlnZ&jYW*tkBc>00oLD|vnQc3u^G8j>|Nc9+54=OLf{8xxpvx#ynbvwP=Qki7Fi
zO#h#swxBL&%PPG}zlpgShH^QUivI2U<(7PsnfT)6>feDU?=4-p=0Ib(KRersrAy?W
zcWEt|?$DiZ@-^qaB>!FVQ{Ti&E&P<LYPsUw%q<JwOktjzcYTs&i`O^3(!hf+4)+G%
z=22NaQ&-YmuTAZ@>+;;KY+9{id*!FzKYKAfM6u{?_*Qvwfp41HYMToG_Psju%mSqK
zYv9@NqLgV<D=N+z$6K8_JR_{3_NnKluTQ=+uSj`6X~VCYeRG%Z+{5;m>(#lGpebow
z$4=OW{LMOiXS&s=Jz*g;{I_c^?8%x|T5H1@RS+)^YK-TfK6T=98RPba&uT1op7dcZ
zUs-S9czdqX(r>ow&s<vb;?%^Pd@e`Dbyek=2@MRbukIJGNO^yWVQOC5l;f&75qSp=
z*grDcBR}=#_dPY+);Fa@q#jLB)70LuH}Q`1a-+`-S~quJnJy~5`0N&@NmIrC?kaSv
z*?;LJgO=oE!D(mq+_T8p&K{D!e$JC`uYT}k`E~?6kP3`6lvVrP{6*1lTdrWw<LJv@
zSM!QXPJX#4Y4O6Bhr$H9Q=A&s?21{_9&mDoPkflHS$tLV@jdK0WwRwdKf0(aEPBjm
zM$Sxmn-;HQDQugZ?DnNGBuBbVl5W0vuJD!duGHU?W%(9PGMuTW)v`WdukeI5Gq1fY
zRaxCOk^Ra2RL}F0A!&1`@9O6&4q^H1DH6u<`Pt>$JL>v;4R3N6a7?}Reb2R7xjY_i
zuZ5<}7GGz(bA`wo?P6xJnT>k<PZUF{?teZN`n~vaeYxXxr)c(`g%)=^bJ_!D)}GHk
z_bt>k$u{j#Mtta&Z#`4<W%$k(hu(kYE90b^t?*h?LNDjLLj41=_0L3eemOZ#>FeOg
zt^e{nTvT&qmSnGWiuI=67rUm;R6Flod&4y~AmCxj9{CMDGa}E#d^c8_dds+To_(v=
zHHW?c*6W*!E*|4D2xPuF=fUoNpO;l~X96r5yskO$g$cMZ-(oVfwETQ>#nRyB48xz?
z@$)Y~TpsZDeC(-BMY(f5ukcJxId)ib%U_R+j3K{^ryFV2Z+-j6F-QC6PR5X;d#?*a
zD&t-yyt}lkX$61zqS?(R&6DpKF1R_Z^0)AcO?lUMZ*mekaQddqmYZvP&P-Y{AuYPO
z>79(0ZkGM8O^*&fw0X{xtiLQGb>Ri))8TUdHJzp%Vrzc<eW}GBAQ|}EFydgt<gGjF
z6i;TgJ$7b4t5?~jC7fISV}0MkO^d!Q-ruw^_0W^M`#jo$yLT6^x?jmO_4eG|Qv!A0
z&M}=fHPKAKwT@Z%xY4RsW4p!}wjVd2f1A3dagF5KyFnQj5Ab%Ljyk_!n%_Cj-&~yC
z4?Kb=@b5hD`EHl!{$+EgTe-AGC~r4-{!9DH^xH*G*7a?QVw*gLf59Zv3AG_HihAc2
ztY%65X4`b=Ys?pg`3_s{%QY7|J#5I&VOwi$o7r-Tr|kFN6}Ku^#)hnWd$a$Lkz2%y
zX`!#Lygp>t;MG}Ouwi}7s))7Eq9$!H2{sYgr+q?`|A`vgiY*`1er=ki{G4Iu;g!Z;
zC$*}s_UQL5lUR6aSFL<##!iJtiaastj}CGkNx$HmVrs3Ss<6xQW@5{!cSax9Yj>P#
zOiEs!<$Ni^_;uS^d6kH^zd!G*XiH9Bxw`z%l*c?_=J!~3?RWUwU6irfX%4r5n{oGU
zo7?-M@8@mlIr$~<;w}ZXkSe{xXwy4Q(}JH&)vX85rv$D{^OLdiUvl-h;LMfgo<9Y&
zK-uom2ljBz3s2dckE$F^n3`hqq;Zphz;w=apTklMIi~iUED2mFw0mpHjEZJoPXE^&
zUuWg8B|emQpZa_$->Y9nTD#mzqH{ai6j;)1ANu%AxezWq;heGm%9TcH-xmk%F0Fmd
zwMfm~h<~%tRM8wUHl;hA2h2Y26g8>ZzE1x%S6I4m=;d!#j)@wdCY8=gJgKtZd;anl
z46ADU;{W{o$fFk=*&_Kn$Whp~JAAEj<kz2)Rugk;>iDPLeaqmxLL$snwaRnDtd+K9
z=|$K6uDFxO{z6S#ZkuM+^nksGw|f-wM+U1O`et0H9P(Rczoh7_4T%X!GCz#gf8OJC
z*xq%MmTQzh&rbQPcE{iEYKrP<@pivpzR|3ECtHlxwGXRg9k!nT7`?#gY537wQ3k4=
z|I7tuBtGywJhPJLs@?H?&DGPsiuhjGF{ktl<B>Ir9H|#Rc>D3M&9hKleP_DW3x>15
zPi^55^^BUckeiWbam??;<DgYKUN2VX+w0b*ufKkK=VHkh0#bG@TuYeG2sA2n2eK6T
z-IbA+)&x&8O@6uP(Azubyj}O~HOep1@t7FdBfKJIu8+9r>#~R$rE6z7WiDI$DrHUA
zW~Qpog?tMpl^WHCd^yPbop1H(WxMY+tvOw)`-FK#%G@&v@vMe+`rW5G{46J3T`=j7
zz^WMa&HLA%`22}?vU-Z@?&TgKvu-M$n86U+Z?(N?Q~AnwD?X*|EsRMvR_MQM5Hn%J
zm4s*B>3KWeUsIfYXZo)V{a*2}6*pP7<=oowLZvBcIcNYzZ&eBZDW5s3Ez&9;>3)vq
zT~+?h{b|bkOBt-rPX&(O%`;S#mTon9;q<Th^rly#d@@c;k4Va#IQ1=Uej^|2rdb88
z5%VfeKMnV(?fukP#rK{OR5N$1db`4@F2H>1%z}T@*O?bGOcmVznL#x2@getw5RVzx
zCU4d;Igo$%?N0sD3%b!Kyo!`uBPLy!6JI#rs>bLzXhJSFve9;xjQX@JdxtmIT(TW6
zTzLM&w&7HFkEeWSd*WB2;FYc(is!e=gl?2`FzxO+nZR0mJg>d->J9TPO=SVhl?+$y
z>UZC-VpJ)9ue$Q$*`p6Fb2V;>ZTr%tWwd?TWSg4pX}6#315Fm~V3(F{h}zm(ymF^!
z$HqmUm%b~q>eD*!y;oOzNx>-(?!}J+JEuNBYCQe-$8XFluH=<|>FS!RQ^~*R4D*Vv
zx>y+={a;u7K*bSr$byt<!hHq&VNYjuxtiW)?0&!)lD6H-YT>25FDq>p%+`MK>;V(U
zh9L8H=hxnOnkLHwPD-5+Ts3p<_o`dVmfh8>v6qXv|G31eEo;C2)!n)ArkisEXS{T|
z&s5$Zwkv5@qGEaWwzIwat}snq<GZ)uYOS%psO;;-w|~}!{H|T8t#x<hri6%z0q&KT
z_&%1kXqsIJ|GxOvd+*r5m1^rwEC>noJ#aTZM~<tkNqEJ#-$BA!5=NWOJ!#70Q=aL*
z<GK*rA}2Y!Z(rryOBd^#E?&g#f9}!F1>PD)N2Wzh`Ok87Ws+@+*V{1n_1Ydn4R_^E
z#5vCF^xL$l#`@B`Z+u7BPS5D#{ba!&keO**^SQJ$YpqKD%uC6Y)~|o-ww*cdbi}i4
zS8DC{wA&`ND`P`8?v`hL7xmGgcxs?z=JvyT63iy#>b>9$*`#0EaO%j9NJIYa^9!Dy
zT#)K6Y96mUSNget*3Icw4yo%UeB;8n47JYR-P9UW(EI)81pbASYF8c>eNq|XT5fYY
z+}B;S{N0D#>tXKl4ywO{e(#ojdu~FPn_Bf=cI(Lvf(~!X#pFSq;H$hLypNR^f12iB
ztrT{7BHwba_4A?~ExC7hcR8O3xG{P0<#%h(YVR<}b-nn!m8Vo-+n>Ua7v8P=ewD<B
z`50~CIOckyYw^-b0iJ(GeyX1)RDIHv@prap^g6j~U*novr!MT+Sh4TawZPVS`<Qv8
zl|y#2UAp7YdVAY7pA8e#zuBDrd2ZQSW2;83m*48|PZ!nYPTG(%cemwLzazCr!?;)M
z5kGEve1@1-Wx4-?Q>GJsZ<=*dq?N&FVV~coEUWk(zP@w1!D}2oM{mk1aw}xLdE7we
zc2Ygh@~a)|Ktsa3PY!PvUA0y|Jx^V8aeKH=(6P*?(JMY&+@yMWX4<>ovRvRXT2Z~{
zo+qtR&O|(yFyiv>c`g}PmHB(CKR6vn&RpFzdFr?GQ+Db^MNf$?S8$l^^~HbTB-06p
zMd$3`+xceeo&^5F#=Y|bZXWrQ`(mQtR%7t+y8W9)k20Tiyox-nJ=LgiiT)2colnto
zJY_;!WgV8boHe)=Zky+P|6CT!8qY6Z<~l5${c7$zu1P`yl>%x0NsCra>YS9x;@W$d
zGi0W=&-=xP4BkcFSahcTXxZ-K2MZr_SzYPx<oU`OvZ>s&A}(=iX!<R+x8GWW{iILx
zSVUVIJDhHxWxqGlXo-2{&WkM`$C<xoKzj)tr#emrTwB!l_n^bN{=Uy%Tk}_gMi%#a
zJBRdnMtL1O%B^<ZS&whBrOA8kGf$sfdhjUErV-o~5L~f<^|Hm{Pe#8QcX4Z6oRt2O
z1vCgeLA335SH{QIT7B{KixU<un32iVaxVC6awXH$C;9S=f>tf~bVly4PJa5W@ZPh<
z5>sP;2eDu5Ut6wO(D>WQZlm9s3NGVmGMi6L7E@?FH|wDJ-$&{JD`S_H?0+-I@k9Jc
z9(~;fQ$-tA@9R>OEK>CBnOENUKFs~LjsDk%YO5ljT>r3TRo?TQ9ouyO|KS9UxHfQU
zN;3qc>{j?PFTiwT)`#<pxo2NHcf@F7FsKGO$JO;lEN{+EzJ#Mn2{XUiHm-UqqY-#^
z<+f?QDNlS)CKXH!l=fdA^?8E6kFa@{B){p67>h72u{FK71wPMM6(Aq&T)e&Os@dnD
z-78KMNA6%ORkNP*=k0{It2>)-a9gHS&3b6Pm}7^}#r3=YO01ezyg*%h-j2ZIrzEcG
zR6k304_={mYOcf8BEFJ9$y=hnVhldBCQXm`|Lb$dFvNTF`h8k~EB7?z9yQERnE554
zQNJyP>zwpY3z_EkSL$}GJgN8avo&Z)=CGdDy@*Mv?3-43RTV7QQJeqjw*`B^%Cz{e
zsZX7xCo9fw^!;+E{8?IP?B|Gi4ohd(UY#oXt5M}WyPnh0M8(`a!Ci09wYr$DXtZfK
z#o?W%vU=rVEqi5-^AC?5Ini)`mg}jPB3jxu>mPE3E%;=+qSEec&y;n~cbR{2IQ`N<
zJ;3r}tyzrYY0g_+-Ba^q*6HvZX#AKiE)rL9Zbrr$<%qd{3qSErcV!p-bWUcvDWmVF
z&3)P#)^$cR?pZQ%rj;7cy~4ASZPSBIFV;R_@mgYa>5%pb$E}>5`6V{&eVLKEpG4I`
zqw2T3=a%*vKlrhjTVd(E%Yr2}&tEPujhM=mUlx7oVTevs;P&ihr>x^KcZ;{jU3pfy
zviV1-)6tna8Ei%W@2n}=k|L6qBq!#;?U84*Ik>5#LH1Q{)QiH9o%&zf)_537Mphqs
z=W^I_`Hej*b6yIsxRUoLD^C05>`0r6cE{wWA)AU8uJF5NF$X*>puK|iZnV(U$EQ=n
zHh=2e-emKuOX=nur&PV_kE=zeDh7vy>KOKPE%%)$xtMeHr@(HhyqA}aA99ttU;Vq{
zP2Qg@*VNY!x9#*xduBDW$yzFXgO<-6|Aj@nKd$cS(oEV}m+>_2S+1z3G*|tEEg6<~
z+d(T_zge=UO)jr)7wlMRQ)+v)U*BoPX}!+{EmPY<euEaW{GP)s8M?zS*m!kdqQ})E
z3!LVxkPGBBJ^XjYH%oS-RXdN@x60T)-;*)_^Na~8CvW8WJQG+|d#=&ac<FA57b|ku
zS~p%+y2h^Bm9PK%O5fsBwJVv=HTs5~+y2+$a%t2fj*~90M9Qt*yUye!<-XJetqr^t
zzIT`1nLVakYY%j8n6&cGl|1vPh}ve+IS0$y-`Yt|uuiQnFq~w&vYcDied~G434w*q
ze#VyFmOpMDx}`K>MSOSh?&SV<>(;FK#R<2=7cT1W+HQR6_Rd92g62h=b=GH1F0=v-
zjlS~RdowL$Tkv@U*S@>2j&VL%aQg*YZsV%M>c-{T#%m`U&a~6&oBuFR@wB3gnopdL
z&fRNiOK-@_q#Wi4^^pZv`IVZza-I5M*ZZ>uwjcv{t*|h%shs#ZsW1NEveUX-_O7^P
z7_y12NJU%U_7Qh_#nhf_eoYx(^BuRI^A6p;>Cx|<^OO#*5aDOilSumNH~j)*NaXhK
z)fJo9#LS+%(;>PtjZ-VEyYr>Rm8+d1cl)(of2)mLcwvcozLL(QuOi9kD|cV!YKxqI
zJ3Oq2&!*;cWap{1=I0J2X+9HrP?Wi<+Hm9a<fx);Isr%Jgo6sD&P*--^+yggw&dD+
zyHfMertJ16z1hDDjSLfG%I?eujoY?u3Of6iXSJ)}!Gw_Jm!<6BVcu1**r#PWZ7ncv
z4P9cCc=7W#sn4tK_InlaeF+y}UmY$gc8bYBe)ntjlR_m-p%db=_(cybDu}s};G|jR
zvD@~<++NQMi*3#^hIDWE#io5?33KV3=ADZxH#k4K)jpp`_tmMk4Z*)pJ(W698=~QP
zP>roy<VWA;v<)`;Q?F(5RXsbo<cSj7!41_+Q-y2`nM0<<*e@{hO1GPx=Po*Bh47jm
z>H$lCeLH_uH)P+=xffNRM8r-=mVL(gG0ETnukOs>fvR`+UHi%#(D;tGeD1TGnwry3
zE#v98Sj5e;`J!HDwr}~&kKpEieEsL?LQ~`4YM)$j_*a+ox|dRmqAwWuPiX7cSaa=c
zUjM~gP1-r{!lZBAnf|MQd2060$NGj>4oV(cE8m`QGWr3FR;2o6*QJGzZywA0K4X@#
z>g`h-V!Mqk_|rfWhOblDHW|&>9Ol|)xy<0?y&Q=X4}1fcT%B<?$*vVN?imotQ#)~5
z&;F>F){EC~FFJPaq*u|OZ{ZhWZ;H&bVcWJVrQ4|9`gx(pQ)%<t5|cT17&f<C_X_%^
zgPQ67c_&VNf6k<#{8&F_%e2^)<`FFJE2i`~)cyKDWyP~Sw?((}iy7uzTf|+x@=0TK
z%<YfIGL5dR-q)2Ymy)g_GI=K`dxNJWx9^_U+JAWa<~ezbN)PX?1<hx^Jbmg*TF64q
z+3GTxRTJ$ruU)&<_Vp3iukK6NcZ<&I3^cW@;&prHxb!k($Rz(|`<o&Tv|Z-ByQ$ax
zd_CjswXbs~3a{AH<G`14wLr-=;*9F7)!CJ-p1pd1wXQL*NPD=nFQ9c>FhAp(nd;e5
zL2JLv?Q&$DS!&y;^<D2}Y{=a{trMq;3*S0zSC;&GQ%v-;us^7$R(k)4OxWy1q0rZR
zZqN1+I=8@(xqn}B{MXgI#qqBW>uE7Py=|#wGi$Mg^pSm=v!4ggcUW4sTgp5n>X@j0
z&C8cX`&Z65GU2K}xYU2h<+aX;?P`J5QOzyQ9vA<DI*IXNKePhH#ltUfo@2by?WJ}F
z)O9?=5$YblaFJ7)fz$TWIsZ6A{9deHxMt6b7fJOKq<^lCkoJ46v8v2oYya)5GXfQv
zPDP$>eV2B2o6Kpi+soFSHw(>G4|r-dGd8lYpRNC$R?*InhbGGGZ_(1JdinLSjDsl1
zfsqrF1KumRu_iD4#4b5Cfy1&f>*m`mpA~0Z-X$1{6`e~jh^j~z-@G9*taR$B!jQyU
zZ?n#5cNivXd|Q=dw5LVsHCuWIceM4t2aF+>YMZrJ--zNluWf#8+1+<*-gIu()xXOb
zQnh{cMhDa4wk>OJy4{*``Zsqy&n7FOwXzF#3FgOd>KC@!`>@2|DG%$l@Mgcg^HeXd
zSK&8*^j3RSs@UaH{g}I_H(Q>%xo*danM-Ht83%p%CbLTV<2TW%E8F~z^XMOsf8~`?
zma#T7dt3j)U4r@dQ?42q7VMev`nGplSd5=XRq2mkd|-<LEp;E+8>T<@N;1C}zU<*W
zyT(^;dumU{Wu-5hA9d?)TOQxZ=QT`Mdn<l#`qeD#ZhFdw@1&Q$QvNBwz772Si=*<6
z+@AjC@sBdShG)O(UT~`%O=gu&n_cj8s$#45tMy<z{8u;_9@;fAeRYbP!X=)lBk>Ow
z|6HVaX3k`gsa>lco=wobb?uA8npvD5uEvy_$~l!P-;)cR7;<C6%4NGBTn&5tn4iOD
z0?#*z@^^C_R3E>cUmtkwWQ*qfgKdGc1J7Ra?^|2-S99GuJ#!w=cA1ntd;7VL=$_@d
zFe7DKD8IhYl}&md!OJ;MdA)l*qy0hTl~k6ZomnRjlrc^1+1{UWb!MPw`o0bcy)$8Q
zhJG4Xm&~<o^*VO@_lg&<cV6F|VA;1RYgg#TmTmKP)_^qxn9k}nbq=t3JZD1I@ryxI
zk~QSAJ)irWliwpgb@rsZ_`O#IweI>n>?mYA8F|v=^65*xpaPmxe`~kaylvA?8pqVW
zOj%lMx^ed2($sklQ-7x9oy-c--M-L&uKv?JX5prli`~@&Brhf#O_@4{VSU13;TC0$
z{Ds0RmgKEpe*K`KcO--Q+H*TvymNUs&z9YBG?`6*+TKF8Q2D7>-qwap%lWu$U4LL_
zj8^~hXG>m(y)I`0i+7Z9#clH5v&HvpG~>FuvOQ94o1IrI$&+80rS{Y{pgU!G%A?o|
zjLEa+tN@LWUwIoFa`ESs(%Lx>rwX~uzjb2v4*9G9_FU=Vn%6ybp8T$u8^<+%i#2$C
z{qd`B!7fAnQtM{k+xG5VX?Dyiw&z1w41J7NrCT(3z4~^MODgE`kC4=~#o|)~E`}Gc
z$hyS!r)#?2;kTS2LEFElszy&Y`hWFI`8^-)RL8sGx38q|{9{=abAO+<cFLm&Emn8E
z#h32*I9@O@pW+gE5|r1&D&mwwWa|PAW^6Q#uMocRCTISl@`Ih4>%K28+Wk4`y73B!
zB@svK_2zg#JyCY>8{6HwBa<XSOYcmBt32jbtyrFsmU!IZqKf5Qx1R2d4gKq`AL9_&
zB^$bK=JZ?crrXaP4{QiK_t2F&#e8=O2WV>KWY$BE(2eUWw?}S!*4-s?xziTBR>f`8
ztmZY#JEn^JUK7}|e9q|@)7yn1XZKvOTP2Wr)yr+smX<^BSROB$V_L~Hb&{#8ZOFz+
zdsd!#BKbP_YWPa$(|!d^pcU9BSJ{`ZoT=L4cliFk^+oZo61a|OX$Rfh;4kvCDW&tA
z_oS)WySNHtc3<pwUa@8e`|nMMI&>@}oAz>U`?btwt7)3hY_E-vSIpVL?!IEyt{oDg
z(N98L!jzbot^6HWS;)^99&jvS@dlF^8DF>Eo<A+Ow5*&ry^7=Np3@VB&b;#7A{)A~
zCaqY_>5H0FUFX&&y(85H$8O7h`T*)HI^MBR4%w@@ZU(3NZ}x>Q(`T*z&!S~nzOuWk
z_3D+A3gRakZ+?}CS=9ab^~w0-feZCZ+m%x%ho)~gZk;vfa$8@u;rBl*TB><-?6jPZ
zP3$mrOUyj@r8mStJy58ySaQErgIBk7dP`PTWZsUr$!BNlK4&S_mUIHG%c_;1n)Q16
zqRASIKU`Sk7GgiwA+_8x$Y>R(t)9`nJ`dl;u8Chet9pc2+|hIQvTM%S@*^uuW&MLA
z2m6z@J9qZI`o*^(%d$>8BzyV1?DSWSu@}AWa<$zSu-diP`npj`^`kix%YJi&9%h|=
zKEbwM&SaYMztzkumfXGPdUWm4vmq{gohRy&)i&t}KVKfORc1eP2qRyn!foN!Fs=8i
zpQT8t&zgR2!KO=j@@o@<V`YlZG-hgxtkRva_tuVx#|wO)ObmD);JJHm|EUC?0%`H5
z8hLk<nIcjHPS0~%TCQG_zrxB;a$S+Y-(4)H7ChTOXI3rK)SGiJ%neM;+i4Lw{l_Np
zX)T4k{ZBbVeD~~~wOi!czAMW<tKGZltIzPG;K%N#dpIrDckeL$`MG+<tcq%WQDM=A
zKbI#RbAH<@ba}_j*kTj;=XD^h?OMm`Tlz)2tDdwdE_ih5+7i8U3$q@*jg1tw->_g&
z-t!FeYoWhGRuy+H&Tv?FQf>2$TgCRP)b8DLZT%BvY}qYcmbz6wfVXHRdw}ll&F4Sm
zxu@(nsrT_gd186ehwBAtAMdV+x%9UAW_o4(#H+{Mg3r!8`S{Fh4yoHbF)0`BHM0k-
ztgXM09@2YPx_tMVo+EcOHn=G$&iT1JEaalM?rL7=?Tb%6tz4;GZ?N!^#Hk$}mTE5q
zR`@)r;9nTM#eVUtx{yufE4#T~KbkYg=-AdDi`<zeq{Mt@SvBqP_V%vGog#NG-aM4&
zA-6Yw6>nl(<-$mRQ08WiOtdkWeBI*1QFXJ}yhX0p)HJR%9QeoZee3MsHMQ&kC+{u&
zx6dhM#@pRRx76HQXNa9XBX&ekZxL7UeC;<3t19oye_1V7x^Er-{wGX}ZsnPMxpn6`
zmvw{Io8Qg1xlYBTG^wt!6JA%!@n_DOX|?qi)|)kpf0jxTi9UCnQKw~cmE^tOfj={+
zU$i=6r!T?e`=xbnXIn1sW+~@d?vxN2*7;g~%P+kBToh*-wWYa>H-2Ng{>3@pi{g9L
zJ>(pgO6%U5JT==oKdJ5NiCMWDgdec{kX#+|_8aqxGkS}^YH4%(tzE@#7P`hM`r^kg
zGlMzb%bWqN;=1*=^nZfKT^YG)^R}ei*q0S1AhzlCH@&X`rPYjcrk7QVi*5;!{2wxL
zej~3=;M0bU&dhq(zzKbN=z`g*hK8#x(+>xRt4lUEXf^P(#F&^!|NbeWmARcirS)Mt
z<Axh%Gm5V6-R8sQw9bFtfA;g-%sK~+`U76}8e2H1zWw%*D@;XsI*WHv=|V}@Fot=c
z-g4WD6CWeCiLurlz7!_4@RFxnKe&I{eC|<?R;0$R4F(_kF3hyxUiM*E&>I#l)lbcT
z@7f*b^nR-HXv=+9d(KVML=&H`G`?}hd+p9chbEn0Fm>{rO4ib=W{JwO=T4+?Ts*$8
zRn=7}Vs~qv>dx$EOUnWu@@&&FpYteH%JtSiFZJD$hh4MW77MRfb0NGoq-+)U0VC;?
zcMO(KNc-RsXr21Ja@DGGz6C|Qb(&h&nB1|6vOab+-MMlJd#nAi#rvP-O~1ex68B>D
zN3JaWJQ;)j6MKyL`Hq_!Sl{}$YE`IpgVxQr%wh+F!q$kNn82e|oYpq&{^c{duID*J
zc9yR^uN3iSHS5`VuC}fsVUt-I7H>U~G{<2phwiQGJls`+4oe-mgyXk{{#jL(#`#i!
z&o(37<k7q50j!zZuUr074Rw!h)#8>|oV8hU#>HcK?;8C#?(_8dcgu0>m(`0Q?da~r
zS23Akz7vkLD4#r^FhgbMr%nC~CYAkm2utV;+%c#3Vqu%wVyBNQRwP~B*txy@@tuCJ
zTW^^|Hat~m3~|{Jc2`+%mHOU<RXcpYP5t$D#hbjpp>C{+D>tpue7m}BGRIS%N&L@Q
zw6;grPyIgCZO{IhZ!WwHXqdeA=#yW<EB0LAS$y~26D4IGfo)TQ@9nJ1IWVP;;i}G?
z)plB!XRl;m^=*cS-_fFHZMCKLtIk+%(AEy)O|7nf_s)D*2DdAl$jh^W;WrpVW)>%e
zhlzJ*&YqlboTYkFkIv$C{#D7x1D{r|Z2q;{$=IijeXS!`W)g>ZuD6?l)%2L!kRx(_
z3nqR1R&_~UPF?rbO!LMg=GToc1oCwi_pWh0nscY8Yi9YuXA2DN=RFSp@kb7{WoLnt
zmiROu)0tCNZ>!uHa7He{```;^e#i59_6=UgZnLl0VY%m1$5DQc;Fu{_J+{k(nv>3v
zx*k#|E!Ax1Eqn9NDevgPk1szM%YbBJL&PG3Z>{dz<7d#Co1<d0C_PL?@~p7f$-{w5
zB_E!DtF5o|#7-+<$5vUc1dFHdR`#Y#@9dmtU%_xyN9V~y$&il!XN<*{Evb_!-pW1M
zIqQ7oX@Soc|Cu*&{hp<GwL9wih7X3TmVIt5uYU1eZ)sBAt`n6Fz22bZI?wfZ1AfX$
zbG|Jz3%Iye+QvVtbMgJ(g%@`R{<P6AjSmz1%<sDVc5A!EiJul8&L{Kk3xigTUhwVv
zmvlHZe|PQ77M6*8`af(BYlc+C8?V{4N~?PLp7l28bqeq8vW)utf<bm;u$)8cH&f?(
z;R{##KCPaxQ{~i7Z<&zIf4lB8uXwXB?MA>#HSPvI#mt8v4L%?A*~`4*&O4WFs#hIu
z?Oe9JXZPOV`Mi-c9eGpy<4dy@YK`@`cAq-5c>cAtX;<tkUVd1<Sl#bh|6B)C^Q&#P
zkvluTg+?Bmm2&mWyQW=9ryA#cvQl5Y!Fr<Z!Xl3kW*7MvY~t0v?sT88bYp1T90%3(
z;xFL_CC}U1J&qb!`gYmAxN(ssvo!6r9B8tFUHIlFuB3EUiHI#Lo6mj@dLD8)_{>As
zye4<1s89TsuZy{+-kN(N?2UG0<FOS<b?aP~9^Wd@9`IDkV{dzxO6tRp7iT(o=x?4^
zWi@ltVovde33n|Ty^30Ee`iL%+_L0W)b%K)J-3;qd9&2&=l5;yT_L9TGPAO)YF_wu
zwoA|VU1^tI@#U&gSKQC$8E)sLHouwTymHzKZyS&iyaAFI^Jb+ywJ~vyT)pgAumRtK
zNim7cAx|m~&Yf{}(Zp|IoL3Jm<SUxHlTGLA;~$Rt2N**pY3J-{GCF=Xe_`v|o&7gU
z-NGCyji%(MO?O){DewOqH7!ZWY4$TdPw-L*OmWOlzW&iIB)7q<=+Cv%6W!6@rwUr;
z*{JHCDxPlAwnqPEp8M>w_1+ps>e5puS_H@N?k`!*Tl>ztc1L5E%%P<+caP@t*M=ys
ze$Sw__4dLE0TWkL*|^HAU0a)e#MQREA#by<--1iKWw~0{RAdzHy*+Wqa}Pnu+H<}y
zQkr#7`2@2@-{lNR+wQD*`qU&<Q|HLDjqKt-IlNpCdEUxNxi2AJzPl-H>E6Dk@~7w4
zE_m|e?P8|#uRWXW<om1lu~$ZB#<M!RD_q;2oKjFf>nCGK-gf82SV#YNKEceLic4y4
zB%aZ~)7*Gka-p3O&&<M*xz10^twq8@-mQuX`6e|(^`?Yt+@kL%XLAHU+@-fX;N-rL
z#FIZlySEjxUE(<#<NdBv+NI0tE06c~b?41%S2~C6>g`_S)A~2XNJ_?HN79~Hqp*3P
zDX`ruIHu$$*NPvxcC+vH7uJrCDW(StLww`2<V7{qUC(j&uW$RC@@YTQDt)C@%Zi_~
zXl;G}_{W>dvvXK9s_H9PO_%%H>d7pQNwSsAYWp2{a^IDM`({bm&oymM<L-Ya(V}F@
zy`VNYy@YA%&F_UqT2u5{FAB4VT>5;dMB-**A=A{m-wSKL6+V#mFF9lI+%omB{)_r#
z(^(x|F*=W@O*Zsfkd<U4n*Pja{WsAF$!Rl9zLh;zSaJ1?;m72@DOaYix-fU^gD;<-
ze-AJP4TMJXEA&h|lbWfu@S>$jX|ZrSNLWs5hlNe`+HLEdtgGimbM2PA=M36)%rMo^
zH{aq>_@;Rak0)0$g$hr8xqd<R4uy!Yi<ReRri)i{sJwq)81j10mD<ROijSkYXQo^&
zn6!Hus7g@%rS@xuz?#;{QWrQ=gSRTy%#pa@(V0HkLU@<?ImM8w>HL+>te;&MDBX`N
zytRFXX~*rEx1XF~3t4&ZD~p!$riab7tmiyKQzuJ`iWi0N**c@=_S_{k98>Q;b&d;c
z^_#<3e0ZnqvNdK`7Os3~(|GFbCq?m1vzG5#Z|r8j?9u@*(VW-(tAfw1U65bpbE@mU
z>KgODr0d?=e2MOnXTwj|=pD5w?b$hbPQ+{5jK>!p3g+lt2K8Jf6)))Ka@;ztvEEPE
zo2f`Sh1)n@KCP8+(N=cw5USR%1Q!t|i;j?Ol4+lg?dX?hJbyG(G|;zu#-l=}sZV5H
ztXFu>xIoskvFM)0+JwUgTEn<bF0Pabedqo6u$@-ip<n0rZm3mFU$gkF%cp<y9G1@V
z+j}sNf73tixL1ePyn9kC#BiGDPeG9D^sAg9QFknuL&S>bAISCaTYqlq6TNA|YtH`t
zb!l!w0n^k>tFKkN?|!jb_2A-X6XoSPlW!|O+8^_FL;j<>keU8&?@ymH<yozxtzUUi
z>2c!OpOs8kd3V>|Jjovy;Cb%8v-xH<#akyHnm@Y9ckzVY&Ue%EWH*(YzxfukxmSDr
zyyWV{d?%w@2DVKvqAVI;wcXwK<|(`3uh@dtM$aTMVSm2`yArqSTiRQMZ<bZMEqzY<
z{DTs{9?!haO_L0l3a`k!@pko^Ws`QKo-=%M!)^VAnY{NdduMUWR(vU6{K@>yx7>JN
zUw6?@%|506mlktdFK`y}U3i$U^>^Ui4Y#MqOk8yOVC-u5^|LE>_o_}vEqlkZO1i9i
zn&?hF8PyZ4qMTEEwK(P-K61I(afQn7nP8`+hinU<`SMZ6XV1sajBBcoek`?Mx~=j8
z>=J1$iSQIopA&w|_yR&U7TGe-*tO-^d&dp=2kzG~T;<(uyI9Gz#WMSA48!$re_l_C
zdbx40EU1mTYMF=cPQJ>WdS|M3DeSk)myEOgDE5kLyYb5yJJH{<PN2kcDewIvr(V`_
z0r9E5745t9_C%#vT)xXI&z@7cIU&TV(d*V*=Sanpn4+0+JN|i9#qD6L%&XuknQH97
z4{CoggdQjn4=k;B3@cCb%kI|UxF-62!P{dgeG6tSy?f8~>47_!qH0xi)RSw=Y}P(t
zSe3JVb!_BB^M$LJHn3#HwU{4diAzd5#~EUI@7~(iw*ywj9pBZ|e=s$1iPO}s%^N&p
zKbSswv1?{}Ip5SZlUEuQa&a!+a=WtY^_om+$>*Ea)TI2>EQ&k9f2(v`Q7ONk;TeZ*
zTdu2oR;>kX@1Fc}@u9NszVC&8N~|&To}DQ5eFk``>#h|!%bSf3O)8fQczLko0cd57
zkG!a!`IZBVV#{V0>o>Umy&4iKog^1&A63l}Y8;%uWxa{`_eGxfZXGESPWNy!owC{R
zgz}tS^R6?7INn+m8{%=av+|vwi0t&0r*=JzXed1#?V5JjX8!H)({X)vi<^=r_$=Df
z<m)aVEVzJW(moq^NVnjxOl{+-)BBn$_)kf4-8pLa{p(f6kSu+smCF{1I}}{saMIyc
z!YV6?$8&b<TeHaByPjo7-;Ux2`~B^!o^rijR8+#T_sxo+@MlVzmURbItb4xR?FUIL
zXu4@<I&~(OpvgpK_n49s8w%}LP19b}eyZg41k<9GmqXHgB&H?g*@5P?zXmogThVz<
z>CA?XI0iKh!JY@|0Y6Xsv22<U+J2eyrmER`8%v3t1lMT_X&UF2mi-c0HBCFGVO8+U
z7EKWuX4Tm<P76q0P1tl;F+?}~#si*HJjRQYlIyrvyM`=2`JO#Mw_5N7@6<dkD~YLT
zPhTaTsb<wZ94yN^`3QJvVilYGJi93?&S+`hel4H#%t)y}`AABS?cICpZ=U-cB%ik^
zDet(}Ifv=S=W7&?cjsu&h@1Yz@5;yh!YfpsA7GgJHuZ3&+xC^V`WH6yZDL>t6>N-J
zmmQbNye!MRqp<(@!iR>(BsbhH-uL_om)E&QMy>nNj<T8SR^N(JdAYM^Ywt-Jhpp22
z;gjz!%2JR$@wha1+Etwr;hOYkQPFRF!ZvBoY`?9;P+!M?HE)mYVx@q&TvksFf9{=E
za738pl*7rqYegMd=J)oUJXQARpm$2fiio8Jmc@DM!Yyyornjvqd;C^fYtx092YY;`
z+kDq7iuAY_!ILcIv);M^q-))RcJ~;z#K}v<EEBD`R?pi}Byn}l@1WlwzxjqmtZK5c
zdZy-d+Wy?0{d3}!mM**#a*ovktZ(5g>3zFjSe)Ps*zok^%+u-tZ;##f4(TiRK6pm_
z`G;wzvo3e%n3O2p{=WED@Am21H#!xQ1=h{kxMfSsU$9#4T2YIdr9K_H3;wWun*6jR
zA?{kB{kgv&=Pq4iVzug(lt+(wrp3X7U8z6ik~Xa@-d(%h&&@aQ>LMHdO<l$pdWF}#
zxX#M0Y~APTdrfXtUhQw2x7SXlgc!I+=QjoD&RsFfR2eh^v%AztTPw)v?Vp1hYi=D%
zzTVBfQ~2bW-da<Kt<mb67tLBXZ+Xwv-FGJ+nqs`jYR+Qta*>JCXMLaguB4%9=h9{W
zJD*?bd-V4E;-KGgueRMTy{x+AL0{)TN2|uLPwjI-h6FFldVO1ThWmp_lgypJojo#B
zg=f9<!{*pI6Zd3&Uwmur<eLE#okP=JF20+0;<FZeP^R0}Gs@PDS=;^6Tt%4`c0Ch6
zDiXdf-5|yGv#&@$!=bRZOZGdj0G*TZa}Mi)JxqQrSx+B*XTGXbD!l5@lbnf#dQ<K9
zw|m`ss~i&ZJn-D4zVr#kYDZNP%<iyHz7Hx0tHq}t6}U2QU(gxW=rf<YlKX#w8^C4N
z@nH*Maw2zLnAA2m_6ye{1y{e#;6k-FB;vp{R{=e?a6XZ}-flgyx7KP(ExZIOj+<6U
zEi3ydTwQT<>38PnFLfc8^4>2#6mcT$lth6+s_M;~(@N9sgfn_aY{;AAu=M-ZjC<h<
z&09lLEM95nJ=3sq*jdCdYpRWD(TY%urIK52USG6&%`?{xZE+UA0tGXVMa0k0dNd_?
zMcL2WSEp#5Jg9%`)7OiVCQ8{Sn8S~l{3v`c1X{Hy9JQtUlv3Be6SYUTEMFAlzFU_2
zXI)5K#znhTE8pHskM7#`Gsu6BV&chDmxMt^8EakQvDLe_G*#~61{U|Q`+q@#+iRDu
z&zrbrxlG1{LeIR~L?)e!wPhSv_3EoTPq9aS<c{<dvk__SRois8|CGwzd(ZRr&p+U?
zd!n@I+zPRGJKT;+ZN414gSq5|_5FUW*JXSAxtu-jhJ;HWvwE>KP5EMgc=N7(zXLND
zuHX0P%Wk32h}6)FKc5+|nDw(>qd)EX#Y<Khx#iZ^K!b%U^}iXeUU_*uF_CkcWXrEK
zL;klcS|{({b3f|y@^XlO;o5qE9lMTvn)|Nixie^=X>G`v`Mkdu%wub<vGM7Y{2l!`
zltp3YzQ5Z~f;XFn?_2r$u^i{om8QP##etf7R-KU^>H%k+;!6V?6{blSYl}JRDZFyA
zUo%6Xlu2~&AKkz2CrfW)(#dGkH5YPzT~sBzT-W>2{n&f`imT3i+^w&DC-3&6lx3O@
z1z(SF?@>`Vk#$d<9g`*7c!uZCL#y+q|1IO2eao%he+#-Rw!5}3On&eA_JqY^Z^Qna
z+o@kVCHB;cv|Be?Ur*o6kUO34+tmfhe;HP(O~2*-biG*m1uL~fC6Qs>!alPif+P2r
zF@;X{e!IA+WYes;(@Tw))}?Qkcewf_sCtEg+;Zc!4Vpi)m#Oe6@vF7TI6VEf+56}|
zr%tE2vlT+VoL@T2XG2eVqP)Y?@0-0n!}ghXvI%+|l{4LAG-a)k*88JVwh6Cz_V>*t
zHSOiIZ^}%2<M&3}yCE(8rZR8tweKveHq4K`^(EAFhj!G77kf3GUgyY9;FB($FYB=N
zP5Sh0mTF#~SdDaqdCw$><<3ZNUz29LV%L88sk6Ur_I`atKzVtnTfhs)wN?_(|8w5G
zcgB0|dq>l!cjZ3BKILimKC`sTOSbPMPul#gpV>k2ox=NsBlPfA(YN1RZ}80Mx1AMM
zz%X@9<C{fY8`M}t3|?p~ymV+rf0^+Qk7;>z9~iVEnQu;?`r2^mW~KDB%>ozpideGW
z;sc$I!uup3%-H|;nrAauuB^QBjd8O&@2eC((7HJ1kZp-EZ&KYEPV<5`*__=i_NnXC
zrK!OJq0dj4O+Ga}N9D}k$G>xSu?Muqa$7Ebw6W>LuH0!3BGbOy6HL!o#o4!blFfwD
zIgFYMO8B?&q}_PEqq8_rZ1Ww56|wjDuQ(jDVE*|pjCG&l$DgtxJM~Ki8hutIoY)dI
zMR{{~kMS1K2K9iIcR8MDX)l?fdYJ9iB{fU=<6CMh)B`-_PV8IrV$b=rJOS%;?o=(f
z{KxT~Ldn(MTA8U&8f8vs#mv4}!pG&wR{2ab>X+GJ#*j(uMGdRWU-JL<D&G3ySoG>Z
z9m^zx-SSg!_d2MBaID&D&Ufp+O1OB_)*8+UaoZ(MROiK~?%pfksFTv#^m|q!v$jTU
z`U~yDOPOy^*&@6`O76s}uF#izZkM*N_kX=CNi?zTm5|ojeK%HyKjHcDxf-NEPs@m<
zt7};eo3HgzQ9j$(AC#7rGKC&yzUh3_xc=gfz%tFkN6~(24quY5+^x6Q`m*$0h`acT
zD~D{4bn+-=2hL1><{>TpLihJ~#*nP-R#mP~txP9uOxl`u*<t1V4&%=ZT9WzeH&4^L
zmLvV7X!bkfyN^S<GEe8pwcp-f(C3*harUFx)wMV0%?9lP@VR^YN3+A#O+~#oJ@`Ol
zZFXAoln>s$>NwH=MUp;4`aZ#TYK&1VX^-M22Z7eq+-6@95tX5>y_{Kj?rG0w1{2es
z%0>A_byeLKUXikA@BZ}%j^4V(vnu)Ijn$Hd{NUlW+K?GN7iM3$YY@0d$yGG-vzA_!
z{i+SosS^VeH#i?oXp^#A_gkGgGMdHhahiOn6(~Q1MXH2UHCCE-)}<f$x<hT*3x-x%
z#q`-S?xM@?YITPiFPO&|tq~miQQFBpOv*fM{{L5?O*$(jlBRB|WSyIzax^;n$`Oao
zKCAB9D{r|ix%D)joeBPH^<<fTY0E05wH^D6qw+1{gQ99BLM%Yb;J^nC97xc&&eyvr
zBQ~}5Lb$T`Gmw#z3!^F?xJ`|{)M31(cz3tFORwL;Nrp4+Ru!yuP5m_8t6#))!lvnu
zShOT3OD@b>9#{OMb#r#BF2`rDd8dU}JhOfGqG-EyV5n%K?yhHc&(wtTE-k!m^!3FY
z2hndk78|efev*2;GhE@q(|@jRqAm8!tMjh}mNHE3Imw~>>Qi2R)u~5uWlFyoy_PHg
zUKRgw_VcBEYxae-^R$JAKcD!Eqhd3!#2G%&hSZ5`oK9z~t=^paeB;$}kp7;4$~2)B
zMtfRLo$gz3BKr3EHhIui#M+SJ*H2ZWy?odo3L8AQXW8I&EalgVn%mK`tE-zod@kht
zIKz6=ldYzqd5;*hw&#CU4S7(So$9(f_FVZzyHDr8TV3N{@acD0yj}CUnKq*OGPhF>
zr?>Pki~D<(G34{UtJ70j4fiOmI=-UnqjomC*eAx2qPSHZ@ju@@F3Fn{C#ohbWaARL
zX=03(&RI~;>vUa;b+~);vl~}uI=HFkC(Sdzxc09_gO<tXpx-MjG?XppW^9$3mdI=O
z@_wJ!Tla0@AqE#+kF^AP?%TI>FDvMrlZm<WlZ{kV-YEE1o$$|IbN=LAwh*3GJ?ygX
zso#`u*L|J)&}U*%hb>ojOh^`^EX%>Sde{F7OugHm^ZYJfQ%Bl7@vI*K|3!E#<7Zj-
zF|59CU%?T2?QQdkGPk2w+q`eK&wCWUf#u~rrKhvr9eirVUH^?m>*n;R>&7c8uky$_
z&OG$)sqGav`<iIOz0a-7wd<TOgO+8lduuB(eRWz&pZLR?@-_JlUf-7T1w>BKQ&{G9
z{luiKZ4ZAIY`lMFO6r*@EVZh?v-}rKs$Iz(vM#v3wKAmWn~l(((+4K)ln=c;-Re$w
zF01Tep=&m8f=}9&GEKd;HdOoDRg>z*u01aEY~14Wd%Vw-#QeHA-=~UU>KpI3i<-o8
zpU+6>%Q^h5&1t6N(f6SB_F=hGMcYCYCmtz&9=u0(p;_1r*7sVcy}oRl?~q!aeN{*+
ztT(Di+NnjDL3F!u^xEdQ)66UG<gLBc)@9r2nk{PJWp=D3WBb*T-xsr{newRz{Ja~r
zwMT1<=;p$noY|kHzCV@$)t;|kxJR5%IKAQEtVZ@d6{hNUS^g;ByA^kCb@XQ0EAM>v
z_H>2(zT(&XXyf%Jah^D{@HDG8dikgKU144^D<&&G?8y_8UtQ|iW`;2`*Jt%Vx6r!#
zB<S~w7ki>_?q-Py+o0{#&YM5ycc3ZgTu|S6-6;mjD@|m!R!n^V(GRqbKkA-^a!8vr
zhaqda*WYtF+<K+QP4!<Z)Ri(!z1iQLmp-BS=vT>>=@!?Gn_u$0+PUPY{r2^5>S9b5
z2ZfuSd{=kRrAd=>gWKm9{0oYHZ<Rk?#x^^XwIl0fXU?2YlD;qcuDWp>rNnJM7jU=h
z{)FE_?px)(*Zs|q>|8WaFZF2gVfMck-xp`?IP`1NC);l-EngWHTo9M2xII6voFnwG
z=rwoKcwd35eS+5?ZJ+jdsr+8c##Ilwq~B`q3Z7Q-Fs=VyY^mqfrHj{0xs!c7aAsz?
zUc<etZ0i*^?+z|~HL-y&aoKmJTYH+l%3r%WzXJ{BYMInI-w9tBko1vf*6W^g;%8V`
zc^j-+y+C_47oN?|%w=oeks`bDVV6`ukY<r#&Xy>D(DZ0>r0JQ8ITlZ!90<G05;0Hp
z#>%9<;C-Jby%M7>zf5@%vRpVeXxsV|uZtw!otowA&HW#AzSfemK;122kIK4N%;M44
z+Pdn}rQj7sdRy(q6JifamRc3<;wmy*lqN0OaDsnX!HFg3PI}#XTl$CVnP9-p&Key#
zG0$oHIJ4Ex?Q&|!Dcx8a`2K)ssP$R~&<w}hZ;D!$v!|Nxc3U{PX!EBU`?wpsW={Vl
zXAc^1VGha7FV*5I-a4J5RJHU(VMrKgE=#3x(lxDg#+t(%EmD35waS>LZn?dC#hR{~
z#wAALe&?TfeOmVD`T~206Yp6-vzVz@!zv4Wdrs_H7?f?X_g!5`n)#-^Cr=eI#?NI{
zV4f-Lc}7A|o4vtnI<x;7P0;vDe~$Pjt~)PWZ_DlonKX4`t?-ja7G;9mOF-v##xA(@
zT5`_nN1S!mS=-d(vkf;L(eYs45-KdU_FH=Ki@e<24VUud7c{Mjxx4mus`lgV0?@Hm
zs&BtBYDKMC#y2yQC)Jj5kD^{{ctm7vb9!|Pcv#8P?|sBf&D92tUWd19E^-H1RNJxY
zsWaP5ws5g3R;H;(6xy!IE)$LZ-PyPJ)aM}gUs<US%w^SBp6uCCo!KpZc*lg;C+Yz!
zYip;bx=!c*COY$p%(SbKVR!zR&dzx7flDbj(jU~@djEQLF6-VriM6IH=54sEex<i+
zUT;sGlHgv;##3*q<CaYbZLeN__G0q(>=<WV<$yDjCi4`gfR4TY9&oeve0K5!cEx#f
z0=Jrcb$;WkaLRVKN&R~ft?lnCT|<1d-gjkNgt@c#lpj>oShnNP>3P3OYuN*S)}GIH
z4W0hvhR$k>yyEWAjSua16~1#<eXiFVu#$D_m#ce1(q<Xe+_l<&uX&f=%1FP3T)*dC
zzqN3~KZm^HbvK{!R7&o3&N|M;w^w+DQTUAmpKq1z)^z65{@#~d&Sn1jjPRz!Zm+WQ
zk5}yJIa%}f=W<o8-HRSw4m+FmL@w^2N$ZLQVr#^;SKSbH-)CCe_EawJ?pkqP$WD*7
zvz{)ztbNgJf8(`F9bNI?=ALFdQNT47wAJwJlm2bOeKn_5PaP79`^Fh!q-N}7>bd*7
z&~smodAZl#CK(+C30`(@J!8G9oXPK&)%8oR$@AX5F}Qv6XrEey(b1m8#hZ!_O?vsh
zOzv^ks`rmXbBe!gkhEx+?S0g5;ip5BBu{o}-^`rte%ZE|PeStMvkebIf{x5{GUfJO
z)_<zxre>|r`Ov!}EnM-pK&8>CIn28^Jz`Cf3cGbf>j~$i6_w()v1y$$C!g}!G-?&M
z-klV>yveV#h1EvCU=K?nw+v__<GQarhehA`PEavbOLw{Xa@EzCpBbRG@|@{@qWjHC
zo>^;O@tJ<mPJZhPjce1{YBk?irpyA(IbQvu_cb8V%D{ppUC7bk^&AU!`R>DuCYN{V
zdXxpRgEo83y0>)Q8kvr5sjRYTjvtxMb@8P?X=uK9d}U_>(_yRjRWD;-Ei76PHfLk~
z7WM1dQR*IMk*DQA=cM?)4-yyslzsNd1PhnO*(xR$8)VX_2efqS=kI*SzaT41VfD^w
zx1QHtEm;sZ<MPUx3Y{~0PE2@zbp5ZXGa+%75UH*{S!?E^@Xomj3agn{%#u2xr*$iW
zuW;`KH)fX*t~t!!cNHBrMJ0SaI`6`)(~s&xe0fv&r!r4JddWwPb+O6)b9G8*S2|ze
zNnCRKy}RfvsT1$^aoyEi_v+Qo$Ghe%Y*3YX8uZ?M>8!3Pa$39EpZZu;S(Uz1G&Y~C
z37QfU&cA-w@0;i8cAxkyEm7S@Q`f9`XV-Y@jo+TTDMzQgUV64kK1gDX(bnd-C*xk-
z*))B=LuzWu@Avnot$6m8r|qO~X<k!`=<zvg&wW<S(`m_5TkCnZD6ZP|>7ug&nn63(
z`G0@?t0?}}Vcw8eR*z3zJonssx@+nVo{DAG(dX}-;S@28E_?A-GlaLkT3qy@k*@He
zqF95SSsOPOZrT2<Cu_<2ckWj|Z2ul$Sv_}JTPD}0NrtR<&KX&kF@+w!Zx`iwysj#6
zs@wkBtACOVKZ>oA^%U8)PS<?ReCMklw)dC)KC;$4wXIx@AvO5%oJCoaUjDUMb!Ymo
zlX_aa=7{^a3B;_~_cl0*yK>d)2LA<KyZ&CTjhra9wZrjJnB&#BSrxBuTQHw^HK$|2
zJcp@2QvTJ(hb?^D#&Atre3E~_j2EdshAA)o=YuBF=i9C=sa|EKvNz#kg~O~^#T8=d
zoW3tUN3F`^lY4CVVXn1L@UHmW8NY+%^A>EHTh%u2Y=YIlFPtHuGdrKYNci|<-Ktvx
z+l}47PI0>aN=Vt%r>@ue#8zu_ix+O7Zbv`Yn&nAFRhxcA#GmE<)M(SmRw;9EUL9z)
zCV%*aho?Qf7~6ZdYNUy6&Qt&1-Um8RcOhu8g2I-J_^^`4Tc-MPIdi72>0hn-@$2m^
z7lc=cEp%<)6jft;er}*-@RrF1XH9gTto+u-w>WCq%9rKu7AduII?cXeGVx}~$?~v6
z@<-mTVGaM!8KS8c{Kc9-<?6W=NikL-!OLIE2XCAx<Dk0p(5qRwb5})pnr_+Dq$#}T
z%ZrC;-;2M@&3v{i`sgmm#!Hs0iKT@%rly#Ltm!vgVYY|;y?bi;Zp*O9%8=#VmBKAq
zkA$q2XC|NB7{;UM5ePa}_V(LnCpOKxEur&9JN)w3ogG<n^A7F~^jx>WPRqb)@o6=y
z;MO%3=7Bzo82g{DsQ<vAbyCzU!qMl{>d)JBbl$SAw(*}b``29=_JG#Ad3{V%vwqx8
zRN9;uRlt^}$Nk(`L+6k1ifMQA`hvnd+|q(AZZDen-TCsNMP;V0+jRFlx7p@3-*IV*
z-qv-04K7!)@xHq=bIP=!m28tzOp9N-A6RCd_3V#=*R({JY-wZ5-BDLcva_dyw%m4~
zI_RBWv{KwhIGxRK2Y-dEev{SC2RH8SpX<INMQ>}r))y^feGaaV{9PWL>-}yX43z!!
z7bLO2sfT;|X|c-*XD=8i9!QaR{cU&P$(UCetm=81+Lam`o7x_SFIn*7TwKyr)`+ve
zK*#oijx3(~Hq}S(#P3b}Zd8=*C{CZiYY#fV>h}r*=glWCGEaMEr@h_c)89q*FJ5f9
zHgO&JboqX+IYE<qy5lCaWmGX9C~DrG7qdw{z|(H#`u#t>JH1qEw<d5a-s{tPJK@)h
z>fq&t9JznbZB<|QH2*m0ARfD!dRqSSn!A}IjWv$CIX}DX^ZV4-@DFvM!w7gID}Oyv
zGe7uUq1f%h(?@f{_1>>`T>td%iYaUUzBt7-bzxN6bUg(vefF-E99^CFPKrIgCSK1q
z^~q$(Q>V<!s*U^ZEfsBPoZ)@+jAqCr|Fj0KOpcS6a#$O0&IyP-XjIEIRWvS3T(mDC
zoz*k8aPupl>AZ8lOsIM8dFH!i<Eoe5Ym0>4)^9SJQ^_AQ*(}xj*j72)ogEAO&K+yL
z>wa}@QtYjLR|K_=^SpSv<*au``kKYDyL(Rfn3w%#2)#W0mh;nH!PO7=r7RtV_NX#P
ze_>d)Ouw{&t5sui7<akf+DL}8t5!xhZpeGFXu+|27s8oAv+Dd)-HSMx7<m6%$+Pn=
zkeP8*aLzN!((mSf86m5F);!&{e#W7FT?aqqnHw=>E}Q24jYVtg?5#0@jZc@Y``Wep
zZkLthf+)6FC-#7sch{sAvWZWrH1MrDSE;!BXq3pVraaCxPdDej1Qz>7uVc4g-{PN~
zm3=a2`!0z+vf3vt9V7g=KRx#-aCzKpR)f2@ZXG>Q@tfi59Y1xqlxWk*n>~yTUium;
zz5*`|U-arq{L1XNk6yUkG<X17xqR&Q?iDc}aYeD}%>POrE^P|&xu!Y~RFu_*?7RN6
zDaYdTSzm=Rm6J#2gd5v`WYNmpe!X~lPi*)EciylyF)FJ&CtDx9+$wWkx@7m8AMt@(
zC*SwozAoSJQl9*xtmO#{E_oWwX!K3H(OPS+r44E&%B$yv{I%G-vctydz(&m-emr)N
zhOkG`<2}|F0`p31t#(y(J~1!Tu$Xxk+(>qg%uMUN`Rl@Cp(>Hp7pG4!e3NkBVXODQ
zpTeNUtnRE4(-<?3Cwc6yeJ16x{N#M~<!4;vP9*Zb|GVPNJC|)qtkL)QQy%?r{q#$Q
zE3;9QMSR<NjuM8c!j``#u6eUHac5(igRSFHb!I8Yb;h^uRWe<z<6Tm?IxQnTMDqjp
zgV{E#E7l!zw(onw7ZrH)#DYdcm+#L1{>ZKRD|Mo!%OUclP;<G$nl|GNXT#Yx${%MD
zpSLvh_3Gb&Z?8L~g)Ep8Qu_6DYc=DUO~+CnzcG$!Q8KCrS&-uPblseKjo(X*bS^S_
zm9>b<)IsJ(%qM;iz0G@Y!K^vFlb1~Syyo1(px^gg+^#;m{-Lj6E=%yGIR870A-_#0
zEL~GEtz@64kVg8B#JNjSbx*fi{&5q&`ObZ7JoC&zMK$G53WC$NHXY>QkzV}j#qYqA
zQXYw4f9|=>yv_9H^TM9h{tHT;{+fAXnpU=jdEXR?wXE#6Gac-})2WSb7H^6z^O{!~
zeZGUqbjcjhy6!cNGACE9o%(p)v9{c^Th@rHgZ8jbToZD;)@=cg70aogdUtY8rrkG7
zf6t;7$!zJA`t-?9?>Ez26K+nBomypcV)los3+9CkQ|Fvj1T9gje|k^#ru4h1Jy{Q{
z=5duTnj-q0qrq>ooYuE^-|bC#na`H;1^!H%WW+B$#b!dVwd^w%t*!fSKd-Tlp0no5
zTTS8ipXYS*b!VPP+IN97q{!^JLs*IJ=Btra!Zx46uAB4m+id)rY1`;^?%9jeU3z;C
zy}0`$Wm;RU^py(mw)vp#*C)%K39H{aW7hOHLbqScRG8)?`8FwaS)7!2!TVz`!>uY;
z-u}H}M-6-E1Xth7t?y+F?~2WtDQunm<kO5@yZ<w2t-Q^?sc3E$Tg*8xKc0t^Uaovq
zZ`0`Y>Kmih?ZlmotI{?xpDYopEm9Bg1Wk=Un^xPA8yH<8ZG7HzPe^2B6?j4XLMPw%
zOKh2b|15LcZ=BuelX|e{nsJ8$cljfpRd=Ra&2X6<IFTjBSTu0q-(F32vpTkhO%J!P
zd$6WV{o<P6T+XYO?J}B@=$mxPx}VEIP;=(O&C0Cxhn?gWT-rT3gDX<=q+Y>8v4Dk!
zhCgEO-B1rWS@B!k|Ma<}&1=#xEY$9c;cB^iHfy`LEuT?rB~w||bf5kIw9bS2-CTWD
zg8MGL<Y80xQ+uYRG4HBJ^}M{ZKV`sc4i6ofWOe+k`8km#?)+B`Hfu_3`Mhu!`+IlQ
z$8VWKR!uf!)XFpbc(B@~(0P`T*^H|d3{!iy^QWfHej{{<r^re_W7|`nF5wj_^L@mp
zCa2kbsM(!zPW9-94fcyoGg)UCPq%oxFlX`g<pG{{GaJ`jm>q8t^W0<Nv~szAtvSCZ
zZw8-JYJYR8XxIfs_gOEW6{S@3E!rl=_Q@cq#9mAF%hmGv^}!1^Wyj9ncdj&5`S#me
z+}q6OnOcgwiv2!Qu`Ry->KSj@#X*i6CVse(WGU#|-j?{C1+*{GowfGrxtc)T{TgaN
zKSZ$R3jM#V83JBg^J>-FUDr<pIGJY#g?~PDMt9fb&DM=xMSMJ|q5?S~OBQUpf52oy
z!5$M&_OEi8|L!|Q?B46m9-w-6->cP%THLqzT%&?_mRJjG<#%11ePUzxtwyV=5~iy<
zU#<#FjXO0_x`*rTs!iv+j?0~`{kG(H;K`V*SWmvvxjAjSq!s5oo|JO@eadJ>Q)Gd<
zTJw4EZ83^kJW~YDRGc{$b^f7;bI48iX_w93yHEWclz-YQY(cD2?}9Z&7c8fGu4g-&
z`W4g}lAGMZ^~!6L-i9Sx=2-FGiqQQf4?ZWiam|TxH^;+1&*R%8*Z%f;71q1sok^&0
zIOyojD~wwG|Ey;|Y?X>_x%=*f&6VccKkGuuwjW>OV7j$f*Ec=ZP;27q#lg;(>tae;
zPQCp$<4LXQ_p~*};@O%9EXp%2Ccb6Rn(4jv_uRE{TQ%4(ym8qUa&Cq~-PJSNsh{5N
z`jyEay8mC+M9^Wra}KV2c+b&i*~|*>u3Vd&5A#4rRl1vgP19fy<#IYD-G1|OY3~;n
z&}|889<&JAZM+@Yf4=qH(}{QQIkV=fSNpjA)+%`1cARCEh4!T4m0h*=Mzc1*=epaM
zuyWhE#l^p6v{b8oeyzw^-;^iz%IPzgS+I-Wf>Sd4fB!y}G{b85N!H)yI}WLxbYuG5
zHu>W1J=cX-^sM+RapIKunY}%y3eDN)Ziz6FHGO>obolJMPsS;cXLS#2%}Wydy38f<
zegbRni;0$vUe~r?|7&qACw;=zAJ-NijM|d;|5$*_yAKYcV&$u1zwHURz54ay^OL{6
ztqn;y=KQB;n#zw8`;V@elH&g;us8ML;kr4AEm`yT?{!F>&=%NN9=c`|L+;u&nwK(^
z^n0#tkk^!2c<Xt-{|X%|(W!6jnl-g<?%&!gVq5+xzBl0Q=k4N~R&}#{;yU%NZl0ih
zhw+_$t@GZpC9kGxcc|TKvYoy4#hHH(CVgVgQ9M5*G3qW8C{6h76%}O^n5#Vf#FNha
zOL|4BM<q6;iZwmjD!k&`&)eJ~aYv-|&pgrG8^Xh$wtw{lUCYK*PbdGZ?$p{mPmed>
ztwc?$>sASW5?9Ig<h{+S!mqoph_ai>r`28iw&<Ge_sYUKjmo)4YtrvnoN3u*_-3BN
z)lVnCq_n<$*L9=nO{@}!@ob|d@pBXFdw3;}Wai|ZuxwrRbn?rSS$XM~40S@P62x;Q
z<1T-*p9ebA>Ey0ZW0r&OPH>#K7QO1Ho=sJbf#arf>+i4DbA;a5&u$(fC01k_J?*Y!
z>~~E?HRC&Pzc0Que|N}&S3bt<@|#x3G~~@cP{04i%yYKc*B-B!1)2!D5k5&*cbd%U
z(yOv&kAzoT`DeT1q*qx$+@;W%>t7cZIh<Qz-{|%JezRwo#254HXZB7PS?6jt-ADhI
z#`IM>3{y&0#Xgy`@ps_Nztsh<R}&4C1H%039!Y#UbNztT;(sh!yX*OPt#PfLZI~F-
zmTs+4^hLeJsDiUHd7@Bo@r?5eCzbtv9v^bA<vi$Q#Lf4E({vwSc{y(%)0z&iL_MK$
zy-%Q~_3pjhU2{6`J<%~z`H>xD%)ZN0P;=5%e|6A)n{KW{S?U)P(v7`8_n3By$-OCy
zOfCQo5FTG~B&E|^>ir&_rzN5q+-k>+^?cZBWR`<8^>h7Ps!(Zf@%io>ZD~*c?lT8K
zi$Py;Onn#HdeCG3DjkOVPIqHoDTZiW%~>5Aa$?3AQ|F_qau$Xkr^SD^5eaBK9y`}r
z_3bysRh^w0-sib}^}^2CEf)7J&pNLdVyRZ_9JVcayR(js`?e0Qg<-zWwEY%rYI?hN
z{rVRv3wdqZ-WzRKRH!g(e|c`EXz_7}uwwK6Vvea--rlc^ddhBIck!CoQ&o|f`J4Rb
zuK65k-F=($?zV7!uXx4MYH`tuZP9tomljQaGx0$0S;<dLOP{lVYu`_E&xz~3e;V{|
z?c-U=Cz?++GJ`hxEed+N<9x>U$$9OE*8jMi=vJY}5xA4-14zqn?T)f^!?(t)R$i*h
zlFx1M3YdQ@yfW@px_PSUV!vfJxq%b62XjvSBIv&$==Z;bb<S!LyLJ`^yw}*#9~_bU
z%D3))$@klFTNObEN!EsJo4ZUT@Z`;OspRvnU!JjOMXDRSrOvKuTiPrBStj}7!$QzT
zX2}JcE`BvGS+V1hV7>!m#DvM47reJTxbq~ajiheu@^r?1g#%d+WvXmiCMh<({pR@g
zIAciNeR-XLt=b&XTxQHSKUo!aGEIFLvPeDs{<(*9);z1NFR*RiR?Ze1Tzp1bW7itL
z1zf-XCAg%%Ja_aEt88WTwaPEPX44O6X*B)G-IP@|ec#VDE~2Y>bvcq;?Y-yt$FTh=
zJ;U_jz*M>T_>gs5r{7v_rs8||iym))>ECkkck_&r?x}~r|1oLRYY{Eg)#X(yHmprK
zn$x7Z%;JCzZ!>7Y{H%LR^|THcy<q;%R?OjiCH$F`g=?f=-SIqe;}HJ^Syj{7v~Sea
z&#{eXbxVHA@TmTBl1KQ_ozK++A|v-+jz1W}@%9DJuNlT&R}43mHTtIHUCP`o#lN6P
zN!rduRXb_X8V8Yxr$&M4EYqI($$nxCS?Txevh)g}x%pj1D%_GhF^gW!U8DVJ@$^;m
zU$U%Pa{K>ZwpFd?cCYDsHZ6N%DYI6vTI^TNkd<toinn%i1sgmNIQQgKV$5o<1vbV}
z(+wqkKd{#dgR19$JNKz-FHKMUTDUjM@YKxWFCNc|@7YZ-PqBPgB@=3_zxCVP*i}he
zcg^G5^rZHwlcV<hq}rlYPr9^@xt`WcUKf7UYsHm37NdomxOft}XB<BL>r^)%;|%j=
z&~XEk9+xX<UwwRrW$ly|hwiLav2Qr_#!W$3>r87-dPrgMub|@&JAbdyxni}wY0~5E
z`l}xuPrAKpPt&=p8?|Qe$V_^91$0kNnev3&`)1ubxx|Jk@LT20|AHZP=1h@qR&V=!
zbjP;1$pNMle+sWqIsX2v=n)|`HI^-(l()#9DD%8ycw$1oRuJC;uHAwsoZ@|*jAJjo
zP*3z!@Lc~p)(N!7P4Gk#>+4U`y`v5_1i$dqS2de-<I%<S3wFz2)hVs6eSDz7Z^g4^
z&We4H*X{mfp{G^Uwz^+9^65rV&w~ZWt?c%<d%gOmsFnM=Gp&YSO55U~pn&AYB3TF3
z(%%B2o42pNQZaeWzLklWFU&ZcZN7Z{n+SW*&R9LIPeIn9i4Ll36Wfk1Wq!NQ3M9I4
zO^)$R#<?4FzKG_iRHeVW#26B^oj-8v=G2K>=eXXrKXfYQgZKO%ODnJWPEX7CcJ_2V
zZ?L%7y4H}jd3MRRo3R-}lk9GBhJ0RU9=KrEEj`6;(L3%NFHo?!$>Ur4lQSgo`s|3n
ziDFT&<^-NmIeClqME;YD@(x?yR0(Tq`AbI|`5vrHZ=HG9@vOGRn#numLuZuj?Q{xz
z%M;*Nc~WwLHE2%P=w96Cc+0&nzb&0-e(IGM`@vI3Wi(gGhra&My{oRY<nnYYm#rTX
z&bqk2-XwNa<Bjv#`QMA5Eiis_F&{FbXXns5XX5nO-iKEDlWq&#lVDn5TXyPq;K_<=
zana6G2PY^s&Zu~*vUh_=pUAV<!c+M{jr3}HQIA=L4=3c^&&r-z9-0xT#w|Rz4J7ls
zApYQ%=oh;lsyLkUHTmN^L&0*6RjvK1%IT8pZ-gH_CAlCls&uXB`SN+}dq7v2?LJd+
zn`_&gpa7=aJ+s$5yLp{Q6>LoT{VBGEdg1P~)3~y>SWjJ{c_^)2)vc>!UddeE_X}Tz
zyF)gA<lLVWIB9k5bk`4cpp#J?o+{nFlQSdH;#>6Lqz4uCrs4-oiY@&i3n~0Q`W5q>
zc+$i9N>b&$R&Z2t@cr6ZiJ)yr?b;F3OFrD*`E=K_6-Na(`24y3kZZU6)Sm6-fsxlY
zeOTJ7`b+C!f=;u}0mcx^d+YKR6y>^d=_>|%E;yChr*rbj;~vlzXQ{hm-!F6$TX6Ys
zw-WnG$rFY0uG#zxPL=&$w<c-o(X<mc-c(9fKAx~*iuBhH_xiPtr<A3(c1>A1Gm!QC
z>MX4*8}F5$NGP*k6{7xm<<8cw$qe1a8ryxQ`bpeAJe@o9v%zNF4&{ix1v^Ul%K}&4
znf~j&`M1#isomPfja^q>q$Gb~oGr_vc-QXN??BbN|K9K3)U{T>W4@;K`Hkmwp8BTp
z>o0O&*0+DI!_+t5&VT<dy6Uju0_nfI?26M49iO--;en=9nd!ZLuWx#_-@k9Vbn@m`
zxspkpig`N0ueE!Gq@rpsUW~oK_{=m~c-`%vi$3iEZM-?4-zECx^0A(FHSwzvC-_=V
z{H^`~-7D&~B{<bl{G*N<<NI5SzAv7%*BdlUW6o&Ad(*b{NW+|v3Z|(~xTM!DcqAFx
zRdB?@-KKfPg2m;UQ;WV7o{A{s-4VQ^X^Z5q70>+GHN>6HZ@t>o(elQ`rZH=x*<p^U
zYgQ$ly-;$R>8eq`MbJCfslS8FXD4pBZC!IhYMFvd=%$-eJ!L=E&Qkoow64lIOmS7=
zYR>6pv)5Q$TK>Uw;$==pN42mwr49G`y}V~H)Yj%$@KB~<O^Uzx!lb+FV*BdnIHkI<
zZ0gT?8Rov*Y`-Y;?hULb;|h{?o%*{X$miK->2!fyr-cUmVP_j8RwxH|UGLueCUMVS
z2Cc~ZamJ5#Zasf`%jWYJ-rg)pOkVTrz~@&V;&<k`Pdx=%LA-F*+7}B_VtnU|zx=kW
z`6~<Pf-d*1JQj0j?Xo-b&~>JNJ}du%NnhW_hOC%;adJ=hqS}DMrF^fH)c$cZW{VZx
z6<(22TP-iTJ!IhwyE9^5_f$ectvTQL9j<=6{S>G@U67U*V$r-|LbvCUn3a#WJowS;
zEF!SiaYu-5>fAGoA)ed$EsVQGr)-x#z3ODZrVTE6Pg%5d^PVfN^6FiF%IAvd)zbeO
zb0-F0@>`H)$-au?$+ea2vowDRnLfA5NV}1tRk!i>(cYbx8DH&+b<+C2)b5T;>hxvi
zdnWU?pEXFCx?eu@wB-e7Ry#?FcXfTz9p9%qwTZVf8@~+w^tE!@g`TR5yLXnmt%y3;
zIC0Gl#W^zr70!CIUY)W+^U=b~hYnjnM%Qf3gbFrV>8)jD?wPqrmy3DzxtnuA8wc#P
z^4?F63enBos@T(ZQRF)4hNXSoUC|ZRf*vort;9QA7WLedac|uha&U^>jqqHxzS~n=
z>bP6^k8<uYJ)Y9y)j4aCp4NuFie(dp8;hUa%Urg)K+dbgZN9_O^5v^{*vxh=y)n6B
zgY$~z%^MC~s^#9f{PynJIIt%jS{<`L9Xq&%>DxW-zW8r@rp;RWjzvq`c#m^r=Q@Wy
zi`V{6S5IG=y~uAt(eBHkMp_3}scln>)YKEwkXXC3pm>#~z5jwwMu%@tpPH$1U`3kc
zX-RF1?v;Ju5$suyueToBH)-+|(OJuH1eTR}Ki>U_E6cDyr~T=%(%mf;9S8Z&mpQR+
z-n&@xMESJ6XT{j;!gkFNEnu1o8iUTtd#0DzqQbd*)31iC6}R8JfjZa=7j?U&OxB;F
z@G>c;Vz$pI?Tp{)9~iV$lWT25J_OyqnI7SIlG$_9BhFA&{~w$oRnya}om00=3jN;F
zCGGEZ*1>(lN=y63QylW?EnbC=?q`p3J&IYQkjYl1xgbpLkdpkuRp;#+PjQ|7aJ-BC
zlI~9)vxyIPY|P==lGAf-n);@%>51h5rMoRdKx-p9SIvFXka*)#aYC?L#y0T2)!2{?
z>q};S>5?f~qUUv-yKL>%w<bS?S3J41lu@fFT`IpRK-ahI_@YUB(l{&|z0SqHTC7xS
z8Xei*!+CejkyDm?CQN&=+O{#P^Kzs8?#@%n(*l25h|k-{7E<!yMPB41u3MYdh0MPd
zzHVjy`W!a<wb~s*Pj2NMx2akeYp`TiQ`gmtVL{wtX3jqOQ$oM*i!KG7?{GlOcg33J
z{UV~rzif74s`>T$Zi?t;9^n-R{L7T&9Ijs3{ynwziHGdeN1}6Hn=Op6GwZJ0tR7$r
z>L#xXj_$4vHT{%r*L0X`7xRi)zrG#h@{8FN`z7o%m(}@R=@*lt)7E)3w(3-rgR7ul
zaxF<+H<!+QySi)YYo=?#W^JD<rmm1kd*<W7lf3h2ZU<=e<l{HJRWmx9(>RW0OxJnB
zUG&9hce3x{{wna~SwL&w)pEzu>cg#F^Qxa1PI%w78X}SU^uVqSeZi+Tb(P-Oxp7i_
z?y6hht-1@>Fm0<gJ^Sa8Ln>qBLQjv^dzz%&uGdbMWn1xQOLq6OyZamrb-v1op3s_<
zwD6YTV(XYYZ{tcff+q=`BM-_ey=M?MDgMKCb#D#-A+=-A`f{@#pK9D4cyfl%*}acT
zr%ipA)pqpM8r9q~UaO=lQ7os;&daUJ%U$~kJXc>{HJwS#nq$qD>vKWz242=zvHkE|
z#o{!!ri#ZpTUuM*cU8+YMvLA~&;Pi+Kj0+jN>1m(ZAz)8vqPe}XCDkbx^?;%*2stV
zjJc~phjRZ~k+h=Yx77AqQBen54=;LZqrYZBf{9gQ*1gnOr&h$Q|NVxk_F+Xbd-u(P
zY39EL&F%_<j>vfC{4H&F;Vdm~vpbb8-;cF09Mx0rc^`3NU;OH6&zIWWaWE}6Qu8{h
z;~=_!Q)kJR6+xEZBUYWm43@s|Ddf>!bm_Y5MpK{Jv*P<!q-=lB8Im>q;;so(-D5T;
z-3VawQ_@R+Uzy^5DSSl;lcVR8)z+=6I=6=hSN{q7{ZQ=Y*@YJ#9lSr~WPZi=_bHEN
z-QvH${_l+0pw^W}Qtes0x`!SYRf^(PSROy8JipNK+8?*C=Qu)z^W_)LI<?W!+evg*
z#@gKHd*?Y^J#xExMFD@=vTrxaCK(-<oTg+e?gu(WqBc^~ut@oB+4|P^$FoHKx;zld
zd3NM(uh#i1yBoPuep^HuTb|sx%p);Qvu2K@an*(QlIIts=-W4Hy*c+;E0uMl1kaI~
zpJn1oSPb_zY;3enn#6apxpVvX#ZhI?D^)`zR$iak+FKa4qkv28e1vokTiE@*pi>V$
zy7Nkn99^tG^4&jk{;*`qwHsS`tDUc&eEg&Ct@{MSnTlE`KQxvv*mgBMZ2H}qp!Lq6
z<DMhaVq1k`zifH7r^05#gLH=Ixza~&^DmfWIJ0rhvvZPr6pm)Qq|83q{A&&~=!)Iy
zv)7;3_SKopT(e{Sj<1{En5!jDjBM?yzxw2b_4Z<W>3P3{<jVpb%}@Q?&EfTI?#_!F
zc(%-SR(<@oHpJ&C=jMJrX}&c}bDu`%Ic~VRQMFNNW_0BoLC_HKiB+d%dq0*YsmY|Y
zT0G6UTxYMYEt&uRz4iuv)4%6D^fPs>zFO5Zs|V;ll9PF-oyqAEePze2wLK}RPgxql
z_a-)++#KN;<g665<U-S_%RM4D4LMAf7{54lx9m5=RH4xC&3Df!+PqwPNa88e=S7>v
z8OsBA7l8&qUeC(4e_nfaW#6;HfTqbEzE36@ZQe6CG-UD0O3fvp0swSSMA(JX`yylx
zE>q_-Yj)MzI0MvP+H#wHg+Nno`f0zjf9!WO`<;1e(+FO*v{lZwf~RuXyoIq$P9EYP
z*$rF2f#$!yf1m1l^}kY;&xV#s*0bDS?wD2i3?$wkurSA|B;??prsjxu+B^PL9Z)Z3
z2o?CXs^9Cl(`vS>D%BZ^s}f`H|6L)raDAKhjWP|5fU}=XzAnmVN>%!EH~Rfm@O@Hz
zyIRa5H<reQr(H6YurZ%^Vf%!q`<95h%#XQQU&%D})>|R1a|!LsIrM5D^lnWnpK#`R
z;N+AxL&Li>YnK+szgpm(;o8dSZIr$8#@xtNaSYP8<emtxIFmO$U}MwVlS`gh8n|=4
zEV792SoN15w2E!M?b^KOO^x!;_rH7QaI(-fUUut?9_iiX*0*2yDug_&lv4)n64`S5
z_llh9mpv!$J0Lm3M$%Z*{<x%YeB@flm{gZT>8te@&Mlm>!Y}Q2)`Hvb-BsUyYg{v7
z@$}+~i@Ms8J8x9-rAq(S47rpi|7P_k_Lq~lG)-gQG*v7s{njB)(5{#D4~k4T{nxw2
zv-yQzf3s%Y>%92iLHTPG4kjHx=&IBf<7sE?{`S^%@j%|4<?q~=&RX?*-WsRvO?_)G
zTAgDE<Xs){-hFD8LieiQ@Af$fRIap1nl^Rn=gyr9$sr%B?N@CpU)gmsCG4l(>E0EO
z`}R7QaIhPTRN47$|L1jo#`IU)cQV8o7(Q{1@PCo07Bn&5wsF<l*jFdJSOlW<!kk2J
z6l{C)<3gl|=>%^6-6mUF3a>ro49NxEw@`RiNAXM4qhq?yXDkTw{USUUbTw`E{Yt;7
zeriHDxSxq#eOU5n*M_Qfj&4_H-ZC!Np8KV@a%J&4uEkrOv?l!fb5p1D_Jrfi#w#yB
zoA`)7z#`|#)NK2+-(<8R@7uXNb-kuvB=0Tfv2U(n)}|M2mVK{|?YSZ<%JJlN-87e4
zonQAY)|kBzvTE>p>vokZ(o}fbj{lpN<Ug-svrc<z)!_Bs?W$KuLa#!0YT(B0FNE}E
z4Bs<8cRF{&s`1ntx2s*EZ@&7T3IDc-%bShyL?F*k2Cd!Fq1pj6w`uh_yOx?sd6k5y
z7lZavtSOH3co;uftmy08W4mi-xriIKh_;*+4veju{O<$kLJqb~-Cc$!-#_2zSUj<Z
z&rtf^udVX!p!valYb^dKzLu;g3!iwe$TO^H)>Tf>sgzrqw#0XxDNj@0IA`{W#g;*P
zYQ^5LfF~3i*Law3E3KWS+z^^_?Ux|`6G6~9Q;J%muOxKdm+2MU%81g-=|04yz4<3-
zAUo&Bw%h8;kq0Yu7Qf-`-+FK_=*Z~3vw6?2$m!py>a{v&L6_moy0-5EtJ<{JBpJ;9
zx~u8jnI==EzWCKQJuD7ue`2j(v1@DAEsx!MySeVOe#@EYeRM|o!GyG(b2<BZzWE$1
z<D0tWHv6Va;kid!RIl;8y;HD5c<;IC&MTJOwR2dyuK4n9mVI_*GBztWJ+VBZ_eO60
zEyWPt@Q8BOw^tW0>zESofX!)sis?zqO%qqw?<#lt4qhiaed^mYvmd-XH|al@?t+*v
ze&JiRDi!z_X6-n%YttfW|6A(Qz2`8V%Bzy`owX}<>xDJP18;iX2zQP&%|7bAqkuCu
z(4XNNhvCoHELvMn>(2@-+#$T~w8`SlmuBg#KA>2?=?Ra_(UvZ5_LQrCL5{iM5vKdO
zpkGm}hk4VrcPy(?w)6jRHP?-Dtq<zwJk~b5DxPs#3bP&PRBFck8HJBMmMzoJ*8L%Q
z#wMxSx<%{dH^%)L3vb(U<OXbXo9>yklaYV%jI@@GY_;cK3qTCx4%rjt`laFP)W9S)
z84hvP{->NF=1E3rdkbyKc7NZpJjXEk?v%w-rvLD()GJe(P`sTl^0u_$%$}}4jxDat
zo?6fMN=|*Vx$E-2U!cSG&6A8cMXSEW%G!2>tcfX!_gQq%)FP>RxBS%If|F0KaBBb0
zwP)+Xl|SZ6g>3|1jJ{2D&Vvb)C7=G8v#4su_nSWbkGnT4xND)lTH0`?Z<wRcorI9M
zk2T^>6E<85I=t0Ui|f{@J13ZWK=-bTtSC9V;nw_pY(eV+Q=c({TrDVC8~(U@*%yVr
zgay+*OV1VCh)+8I6SVDN<?q6@-SZq-ud6OoxMJnGGcRC6;Qe!_)@rS}^Y#uq@BA~9
zUcTQkspQ=?#n;R9w{~+)bEvjH>~!pO*PeYh;^wd7J-X&3=$55r`q~eI9Np{>{L{6~
zdN=Lw*-euSX9}+Rxyqn=RnMx8t!G+J%wSs`VScdKg*oF`Nl=)Pn(>YBg%5@Mq)%JU
zJYIM<<?7=V*Y;hJUUA{Dwsw$*F^lSkqRbEZ)24>+E}ovYecr*eW$`hN=ar8xTW}&c
zq%fZK`ty=kKF0HRo8GnpP4IS}dbqnQa^l46`^;>VwJbqZ+T|mz>?=%!Ur#@CSmKNN
zb6bUV+LfpL7i`*HJY7iZa;MkPlPqp$rZH$mJ}+jPn*C^zZRE!zA(Hw1o7q}T`Q>xv
z<{bPT_)|^qmb2*c9^a(6Rjb(TTc^ZIm5RxO=5RC@Hr>5_EJe?!NXzK^9E<mxC(3|?
zGpC9!6ZU2^Zf;Y%`JShZS0}-+{4dL@)al)&-(E{@(aqPbsGq&c;A%<5niWa!h3pa=
zr%txp->e1hA78!F^Ld7arFg^4Wk;T@7hVw(eEx!CE4RB_+v0s$mUYu#AKD|o<*dcF
zYObmGo+ibnwjT61vd<_mNQ|FYyT<sq-aEBe|7QEfQzoH_wvh`XubGD3zw|9i>Wagv
zUEg1^Xx$EJ{hHFcXY-5w-5YrFp368S^X<A&a(=GE(^;!FFs|Bpby0Bte%X!t>_9t{
z>ZW&_F768P-Esc}>s;qOg&FatD?CEPR_%RWDeExxx!%j#$d?j9E0iZld{s~1*Ra_!
z!dyMT^Bm(t{$*Avk5871?X!Mg_Cnj}#ZKo#Dt+-cUH2_Y654iDx5S$DwB)><@gJ?d
zLA#o-Z*`rXb}q8zXr5WILfGfI@7+X~{q+cROI^<~kGt*G%B|~_;^X(ve$1e?RbI1e
zMNg)r)+3jVu21$Pw0oW{W14!eUnF<atkZQJ8QYaF1xkIkYFoc7^TFdg{ikBelwCc;
z-mThwd4brxSutnjmsA(5tbFJPT0Q8vL}THr?~fBwIzG&;+}s`Wfiom>JHL|aZ7!pe
zg{E8CoBv&S?%H*7_R;lgKIMhfm)dLXx9+dwo1K=CrBErb;f3enj2KIO<;9;0=Y`*l
zwE3Q$eOL!{Y^18zTD?Lc1OH^MH8&UcH$VGjCwz!8#Ib6nZ3x>Q$q#B3W{*z2bXl?H
z)7QDVg40T3pG{+4G3{>Um&mXkMQT$*pL!mczNMvC)p^A<#>HR3_qQd;)lQrG(s1eH
zr=55At>v5H{+KUfC*OjgOWv{zvn=Z>HRjA=@2?71+53!@RUj0+n<ApN`EH)o)wVB5
z4r|ta`D^hw`8Q~vTw1x@-)*<m(`s~9iA-Aatcq2C&E49oZ>vF<H{QF#v+beB!PVzZ
z@o3xh*IoU~7?M{mS36Dgu7!f~!ffM$=wzp-x9{cLX>O{0#R3WpyTzaGp5&YH^iG7(
zo0`Hp&NcGC?r<%eapwQ`-O<`FW^-9J&$BqVo3XStEm?H+^;K)0>W0j(|8@6pdAyNU
z)z9o-_n$4TbNXNNtH)*f(&<Kpy5G;Ssxh-$c~sf?oZ#KCN#L5ROKXnOWs&KV+druO
zNo5MX^!641?iCMqDeM(F{Oaeig{)he-ttbnvB1x5_UcJ8D{Dj2ygq`q*j}^PR()}C
zVWQgkHug=6Z%$hC=ITkWcEwdG+h@mybbR#;(@s!jI1@OV!zg!G%dW@<i**y6?`ia3
zI$gnfc1n`bv&8tYUCZ@lr?JE-txL|&>6o=OU(vleD$1ETMD5)--Bo5zsjky`PoF9}
zcY0A)Q{QcwQi<u3rk@KZ_~tAR;0st<v3r-Mw(7Fo8`ku!+4Y<u#=Na(5|7=6C%Y#$
z&RPB8*NT{1Z_NW%`pxZeyzNqWzo4J<<f)F!vjQ4L_uObn;}7jQY4fxDcfIXR=hWF;
zCUK5_yQcDN+|$tX+v=^hhqupvsYP97zbD(@b9q{^@foY>g21o|)3&|w+u^Xv=G^C^
zvwSgIGopFzokWGScDHjy+WYZedvjlW$)p>04#A5b{+KFX`9)*ZL*Ez7p0}T7o~aG-
zjyf0{60==z*Y=2zzRA`llGYmvUhZhBwUb;Ccrw_?Y3i?_`F}3HS+B6x`*NgDy!fI@
z(SVW@liLi>YZqJ!KiBy<<Vx-L1)jAl{r?p)PZfX8d*0*W=c8<w#LoQxxH0Uk$7;((
zP5#;MVh)<<e?2MxwYT=_k<}Ylr|GG2$hBu}+!!}md2wj(!CmY3Jee%9$jCEn_lg~+
z+t>cs`%3N7$;Uyv?_4yzS2{n<17!Y+Z-I&zE?!wBdC9kjyO+V(fANtoyH=i7U!3l^
zcjNZ;lkV=jvx7aIiDC1~H6=}F4;<@U#C%}(?)cr4&MRbZnpIuiqV+WBu%6bkxV&AK
zdJ<{p{z>Rc-r29pcW#n!wehN-d8_rmFFp5r#j`RltrPpFw^>dXe%^FA|LWUyZ<Ayf
zco|A=@8?pn?#=tIutjVI16O#kWTv&^YLWc!=HISfnknHVw&{^xnN?28f!Py2TWo%N
zxA~z|rTrxfmA#;{{hpg>g@eDT`JO+F^AmawDGNS}5<B>coxR9C{$+^z;%|Y8^TH25
zsr;zPWj`_btl<ou)w`mM);}nkyK2REzEvWVFK!RqDz=IFeECkT%rBAKt)zZFsD6LY
zM*pjr*4@jC7BnzxO^CVlF6<@Gu6O&C-apUdj#Rgk++5E#eO+zq$;egT=KhotG5l~f
zZN=T|bEVbKdv7%_tKLyHBb;w>XE>kLg-eB;_kF5jXGYAFl$!lK?(B#C|E{~Amy55j
z`1$a9dj9=AzrN1;_xmaT*^7tzSKa^ft^NJ~-#35rzn{1N-@?z*{9k9=|M~T8<L`xk
znz!$%t@-`%DS!X}_sjp!zjxi{-}BAp>*eR~t@`uf;m5n1#q;Yt=6`#d9$))$dHec#
z|6ZP-Z~OOhdi}r8%j4@lAHA&q|J%*W{&I45zdx7Xul@MteSO`p=ga5U{yKX9g?xPd
z_oM0czh33fulv5;|Np<|>-YWm=70b1+xvDuZ>P`y`*pH?{l~M{{r|t6eg6Ny<@@Wt
z-i^1f{&jTzzi-?9_x*h}Ip6N@v;6qlUmwmcpKtf~(`^0ub~V3FF8AO6^U1?}|M~xV
z_kBBG|M$tu>+!ZVKd&A>yga_<J7?|r%jfsk{yO{oe$ChX`u~sC^WXpb@!{@#``=GC
zFR%YUh2ih*%lZ3%y}q2k@7L@3?|(DT-&^tT*Z(W_6U?ryHqXCjxB6eupNY4{vgP;w
zd;0v_(fRlHyxaG4x%;Hcv-=~gFaQ7j>GFF$aiQz(H`^1=^?YTW+%@x>c+M=7z55)V
zzkYrGwD<(~<2v)dwno;udF<TuwbiwTZO*jiGwQbPTfky4<JHyl177Rw51)!J{N%j1
zCebg%<TbY=2S*u0yZLAC9ZlMm55BE#c=%|g9kbQ{e189Kah0HqUB8SKg1_8ar+>!j
zgu%8~;$j~cx}6gFy2&Ogwbt>pc+Zc=2~)xkT<||7lJS~5XxWN@)%B_;%5@&eX53!A
zAX@brYb%4Ofp%(F_mW@H1<$YOSNxQ0`SLpdU(g<bC+l?{h0k&6`q!T&erV!)v;C7j
z=8D$One35x@A`hF@0y2-uNo~_w_C{Q{BEtn1)o;_iVko&P<rh(_a~Q1&ESxAVFwbJ
z3hJ-_I;3N!=X2^;_!GOiOMTL(dNp1X-|{0MBI0ViwYTn3)k#lxx^DH~dSmmQ<s24a
z^`~{t+ntKF`@iT%RLHE5(+tZu2r1@Vf0f^89kkYa!fJlub^oSDa%gzeN<Fc2{j}{+
z<DSf|JRXtP^d%HiBz9c==dfgd(>@PfR_mRUBqkYMJr>*IBN`;A%Gavn@KZPI(${ni
z7isUS%LU5T*<U#s|M3&+#$Q=Nv*LY)G~cawCF_+@*J{0rX<5&YsMPFEP1T8?WJ7CT
z=oGU2l<fWyrJJhtUSsLjnu90eH-6=N<l*sGH%>?7-HJ~kTC%U^p4rT<^`gdoszrhO
z)Z<g!7l+?Zdh+UV->PdzEq-dp{X3--FYtTHV!fxGk0u^}YWOts@YVZG)~kMfE_4sA
zpCkI+&VSn4`wz2u4}T6h?R;Xf&+GV!zprrW9^GvGy4+*tqdu)rdH!r2QR(xZYo0u8
znbvi9pZ83w!r8}WRxEA!(Wh0<S|0LM`%~YeM!TsTdu;;moh&~g+-kk**W*1gwUzFM
z#X(;sH^<c837pE2zVp}S3(Gh5?2l=SJQZ>;(C~Y#p6dO;r|B)8HEi!zlt$;>JNB7B
zzpjog{`0SY*XQrA|NKhXs#sp|PydT>`$gsTUyi?e`~Lo)$A{}}>%Ujj{{8d(_@nvy
zaklmU|2?&j+gI`L;nUgIk2cra?W>O8|LM_F_Bvr}&DX2nT;5yx{qX7Q=i^27nIk`*
z56_>a|Ks7uzuo2f_dl(^|L?Z={kq>Dr`Id?^V~Z+dHzYwn$n;DrcYo0qPV`M$g^|C
z3x<pT@74Tx`BC=Y&&%!n`S<^yeqaCp-~PCL_2>7O*8X|F{rvs^Rkfer9lsxcZGQdU
zIe&k?cwL^qujX^}$^Y*XjKgc6?w)ve<M#9Me~y2amp9MJzh}3v?*GHP`ucW%oa)UA
z_SSxX_WZ5#e47}BoJr?bA3yE?<;m6A^7VT^T;H=Oe@9Kl=Vw>H=l}cd$$mTj#p3;E
z<$dRWIsBRby#AM$`f{0pl5_S+^-ZYw#`FF_Sp8w)n#0HM@B8`mZujxi^7sGz`8ItA
z`@H?Tp1fcB|Igvm9Y6iwXB7XvKD+$CWBi|s@%#ULdARz~<ft68#La)~tG+1z{kPWi
z@A>)i^Y{Pzn;&!ey#4<lfA#h4pIG=F`S#<!{5{+H#{KU+V}cWA-;B?D^6l|ye*3?l
z{(e0=dw%`@e`l4=4y}HE|Np<`^FJN`$CguH@$19e@}N9XGv6Bp=h@<}vEBY&vcx_n
ze*ceuPrrU$J%9cB_<tpTKc2PU?*E7PhFR^TsRu<*CHy`9`Tc!kzaYW$|9*VP{rKd!
zdHz4<^>rWL%I}+`UtjU_;nl@8AK&WV-(U4}Uf<6TjB)?BR{Z+EIMz%0^Ucri_t$^_
zasFI${l3btr_VnX->bUQ_V@AA<?roJh$|lYWU67QbL9K^`}U8{|9GMw|Hk&;uj%ji
z*XXb+|34BhKYxF7+5hWFuDAaGf3iA0ZckOs&qtp=JbKFiUjM$$zWrre9DY5ll=y#4
zHT}m=b3Ma@4(~G!_t*dZbN7AypZ@q<AHOyBRWqF*^!%Fa#QNXcpL_35cE1<x$EUB?
zUwx>ezVhF%c5d0G?d#?K|Ni(_BKo^~@rs|yf9<tdUHa`Gio8+%cU@`ehj_20ac6i~
zc5<z|So7(wfB*DPM!%kYd^`KQzWtuc@2{UeKK=Um|6P9`fBgAv`v1q%uj?-|TQaxe
z!+QNC4%we3?o@5{kGI|T<HNhNx98uxuzi2c{{IUNPV3*_^tJTi|5=~oW_)=sAHTP@
z{^}k6BVmQV0=ZX}JqWk0{L$Le{ajw|@h!W0_v&x+``>;#ez)=L$M_|D+B+Ss?mN}j
z|M|*)|Nq;kkLzvs{hogM@YChf-+N9=$=S1O&r<F8x_>>toD9emzO%LejjrYe-_M`E
z+TYuwT%sR;M}Vn)Tf&s3UnC=wvu<<W51;?#_j~(4`RD4JY%8AaYErLhto`)qul)U*
zKg<v7{>@r<Ks>)7)~^2NFXp!m+w<f1sz~mwlw~dac|N{EIY#b&eZ|kupO>uZ|MP-#
z-hKCX&pLm6J9=9C+p}|y5%oWg#9yyJ_CHB;#)seEr>*(*!SL<D{^dule-|!m=i2<W
z!^`HU(fY!;x?kG%Hk0g@DsOzta*6MPr2OYY#~Z#L&yU;t=i}M)Th2^>FJE8lyuSYb
zr26ib?=$p_tG>KmmGkNTB)^vZnyu~PCC2|g-d(@NZ2b%7d$IN9Kc|&l`TFVPewEix
zPA%hH@`W>|NpfSShDeV2w5D0l?$>*#CvLme<d-{3efqtlxng``zb2o$@Jsxc_RsYS
z)vWC*v$ssIPx<}aNxJ*|xir1K_s=YSA0Jl#K11K3z1HOZltc3S{w%f-d(3|=C-3ad
zPk*kL>aTcE|6fkli2H5p)8yv=)7No1zgza`!O6)vW|IGY|8p#V^7QWG^ILScaX)5{
zs*a1g$7ye4w=dTG+~@1-@7GvV=y-5l;C|R3k~g38XwZd9{fKMRBDtPyT-|@M>dVGi
zcK7Zr+1Vj^aGiS2g1_-wIPdNK@ly3)lnle4t!o4p%`g6<cjv$7t-_s}t?TFidm3$a
zd3&$@G^T6c1uv)Voqu|7LfY5gDMqpP4|T=dFJAcAV4<39{M0*(`t{3q=;#0XcRElr
z!PLs^#pdVxYZhd0EDLyg_{H~A;hP_O$^UtBf5G*-s?Vo?AHN?f7j|*wi#Ge8had0e
z&yU;x=kC+fL949nYk&Tjb<croMNQVF%lY<yJ{^9%`+lt5YOy2BmfyGi|Maf6(6!mG
zc=c@mzL`G%<>vVRzjmKCKbrsh%a_mYHSgxHyB|8=X8Ce^o49`m@_)ShRq)qpzv`0Z
z_ig_D`6gfS>-eYX)BlK1%<yRb|L)V4imu6r{pU}L{qk<(u_KoIe|+Ef<K=$2`idjp
z#rCgWywQBZR4@PEt0&ZN|1UoC%NBjl+4H`IA50C|yMOxAHSYBnRVDMbxb^@4yZdzb
zqa7>1e0hC*y8ONUKRB(IPuSw;|9gJUB14k{Yc5^>$Mx#VmT4*Xw*8#^`}e73%jetI
z|NB=y{eScySG~orlD=Imk(?tkb>6?9PaoSqnx|_Y{rrCI&p&@pKP&gGyA`WEd)~Le
zof%#{c9Bb$f7xxn|IfqbAF+G?z1x*szungC<;&^k@9(YY^Zz&7<!O2OT=`QsmoNYS
zefIpg$L0I8{K^mg`SHts!?yV%=bfv5ef8Im-&^zh+uz5pKgsCceqZMILWGy^kk9w8
zkNfQ(?KUr5`Q^*$<I}%3hlc(6qPp@5|9NZej^*{$pD$bQ68Z3Z{&n?|w9G%Be*OL4
z|Nh6%?blVrrw8tJoa5?s+Wqr`lk)Tb|M_#&KmSN%z|WVn<Kr$){r0JLtALel?T_c5
z<?CzzMXg!j>A%0`-n_RRlK%Va{(bw&pMUSs=kBQ`FJH>b&EJ1W{_}IaXZrL1e_+1$
ze0TQFh0iOlzMu0qb;awFDyx0{(;h}{c$ry$eP>Tr#katuub)4s*L=3Gc9jd>7khn{
zrs{ox|HaxXrS?2LUY=i9c{*Qu599ReKP_)|A39#+DtAix&a>n4^G@8a{`c?i<Ma3T
zM`<6J#qVaZT<6=b>;KI2ug3Y?t<RaS-n!6fzr@-9=|8i%FP6xQf7o@t`_`g&`Tu`?
zej#~kecZnfZ+;(_kKcE%`tak|@^(R%_vCJWbvor%Ba;29s4})hbNy{Tf%!jrYMP$w
z$M4NgiCg#c?ERb5eoWeXiThCQoBI0SPs{!FRfIq3UH$#E{eEoR9~Zk{Pal?l*s8aG
zPu<Uli{{<=ZtEJwwEN|3`<3bSKThA@_v6(k(<=LArw^;g*Z+C<^n3oj|G&C)J&T&-
zY83K4Y){tPm7UwFCmeFSSv>zlVa;E~+&Sv<^CoZm{oy0~u9Gi6pXgUu{`2ekFKz0#
z*N4>qdaAfzx&Hny?eh<q<GSnr1=Q}Xn1AQN;_s>Nw^_9Q-}Qg*db#-jKOU;zGra46
z=iknG^W6CI=kKri9<P7joJq3o%K4oELMxYre|;EzU$y`4w*^yXRfsIKJ$+%`-^W)!
z%O8z?apupbAHR-1E=&5?ual<J|Lypv=l>h*A3Q!~yF~Pt|D_xK^7r=E6#A~-wO8Qp
z!B<OXY+e(0Xq}M0>2t>Je>bPs|NWv=KW~ql%d@Me|MyB<<o-1M#i2hFYaTvdziId1
zK-u&?HOKtt-}$<_WajhxH6NcH+x}_hjy3ylO~1JL2kWOElk=aK+Ez&YFMa&ce*XSn
zOD%MTe+Agw3KKo?S=~i$`&tkG+zX66R#}%6@}&Rs{+ZtQzvV~82k|5A>*v+`^Pkq<
z^1rXb|J@$OkNXvy8mFvU9_aB@cF(l!QXZ|$;qn_hK7EeyPD;8STa$O~dG<$b`}xy<
z+{rs%JU8&`o!s-KKmRJ$?!Q0pxz>^&caA>){LM!E!iUeQ54mp_hu77A`1o^^?RnO0
z!T1Nye@yvfbA7{<`|Hhqu65o1^!sYxx@_LO8oQ&<XaBi2>CTUzR(AKFY!7=e?NjjV
zKi8V>zWQ$dbM4pNY8!n&fA+1*w#@(Y=garpPtmKZAAkPxbM~KWN%w!)teb!D$@Xji
zj{P-04l*X_!4I3i|J3$xHQI5fzH0LQC=HqK`M>`7)@9!<sFAxKpZ_WPbjRb*Kfb^8
zt=o31{^w7%{aa61*!ll3`?=Qi_|u=4X8*Y+^yJg`vugXdD((DJyZL0kZosqWdhg;l
zpUhtyuJ>`aZ{4~{^F8<PKbgNat?&Hfe}=RFTsyQeXkXgo`KzBifAr6M_MdB)o)`T+
zt7ad5^8E3?`DQ=YwqAT%y!&MS+R1(AmFsq&%-5aW_v6z0{7=!VS9sTyO}-x$68p{{
zq+sK^54oSBPv3m>(-Y(((Hl>HZl3+8X6yfF8ucLg^Xu&DC*O}+7rU<i_LJ>l`O}}D
z&ixeKz4P&V_rDL#e*X0Oe-jik&$9mC)R5nPGJox#zWMS`UxS?RAaLKy&*neZmOlJg
zIc5IsC)=lWPJjL0?C09h#~&+y{q?QO7OdQ9|3_{A&P(+#Ykv9GWp`Ho{8=~oe$3td
zKS43U`r>0{Og+fo?(64)!twIse;uDb&;D~Q>+6s2OW)srvR!Qb^xwDhKXI=suK(#<
zmz`N%BlrFKo|E}&OZvZuSM58QuUiAs%02ZT_s8GQee1F#YrfV@z8|F;fA9Tgwf$Q&
z?Cknqo9BOu&VI4_{{1K0r(FrZ53+EB{@dx5lkW%J)PMP&fA*hizkdI)S(ks~$@XcF
zr+;(2@nn0*Z~dF;iBs=~t%-lcUsk=&>(9x5oO#vjR=@B6#9ddNr}bOw@4r2^+eP=a
z*yo&&eg8gs+w*-@a{u?G-kNuQ?%%B|-d3jCFaH|(<=dV~@tgXm`POA~JMR2H-M22=
z-SN+#9rYlQX2;5XAbP)J&Aht$$@g#71<bpjI(h!8C)4NWe~O+h-1Yb9Y$f~k-{Sw&
z-4pp)sj=Vw(R1I4^Yx$J7k8@Jchdj*Z++YQPr`r8E7pRN=-Y)i;`eBN`h2P`(x+zM
z$^6_djdSMtU4QO`{tgEx=4qWm_n+10$cnW7UugC}IeUf1xAt3q`q%DXWD%eB*?wDD
zH#m#j6+ikfWcL4!rpY1a&3~@lD=GTVw=R3NTj9Se&+2pLN+10h3X&}nc^;hm@A$Rr
zfph$~{*;fN?f&!U?Ef1}Yp1;4{8K(!*kfnC+5hC%oGU>|Fxq7mC_D8{eD&M>=gm|9
z&w@<;t8(>u{-@~M-lsnA{wW{5-Lulp{C{$`o#yrW&-UBmrX2bgH2eR?t;=SdwFkMU
zbd|`r^|$`;hyIq&tOwbAJjnL`lkMBKPWhGm*?ybe^rBjj_A1S%Ak+ALe*OmOJ~HL?
z_Mh_6?LMHCamyh1)%3IfZ~RKvs+s*K>%X%7{U_VYu7}*;fAW0zclSx4;Mr?_6~z60
z?%%yX{cDYvU-1X|_SKZ<<)7_C-qt@k53=*)l;72#?YFI)_o*i5-|=ftf<Z3%_9x_r
z+0V06|BC-L2Ze}xK;=GAI16;0U;M}Xzw_09?py3ZVffbh<DZW|S1>Kio}~1AtBcB(
z%6<C^KJ(_^+j~ay@W<J=9=u%p{o2ekA9n{Y5<kMZ`@Q%4?Z-YHfA7P&LHa$@>*Li`
zr`yZ*|5yKcH$&-EeR<3V_4ffUo3>m~{my37d3px(#|0HXEX|Crw$|`lS}t&x|IFE*
g`*?T!{>r}}e+520UQi__{p3IYnRSz8B!ie40MJ>5&;S4c

literal 0
HcmV?d00001

diff --git a/modules/mol/alg/tests/testfiles/P84080_model_04.pdb b/modules/mol/alg/tests/testfiles/P84080_model_04.pdb
new file mode 100644
index 000000000..a8675f047
--- /dev/null
+++ b/modules/mol/alg/tests/testfiles/P84080_model_04.pdb
@@ -0,0 +1,1515 @@
+TITLE     SWISS-MODEL SERVER (https://swissmodel.expasy.org)
+TITLE    2 ARF1_BOVIN P84080 ADP-ribosylation factor 1
+EXPDTA    THEORETICAL MODEL (SWISS-MODEL SERVER)
+AUTHOR    SWISS-MODEL SERVER (SEE REFERENCE IN JRNL Records)
+REVDAT   1   23-DEC-22 1MOD    1       13:24
+JRNL        AUTH   A.WATERHOUSE,M.BERTONI,S.BIENERT,G.STUDER,G.TAURIELLO,
+JRNL        AUTH 2 R.GUMIENNY,F.T.HEER,T.A.P.DE BEER,C.REMPFER,L.BORDOLI,
+JRNL        AUTH 3 R.LEPORE,T.SCHWEDE
+JRNL        TITL   SWISS-MODEL: HOMOLOGY MODELLING OF PROTEIN STRUCTURES AND
+JRNL        TITL 2 COMPLEXES
+JRNL        REF    NUCLEIC.ACIDS.RES..           V.  46 W296  2018
+JRNL        PMID   29788355
+JRNL        DOI    10.1093/nar/gky427
+REMARK   1
+REMARK   1 REFERENCE 1
+REMARK   1  AUTH   S.BIENERT,A.WATERHOUSE,T.A.P.DE BEER,G.TAURIELLO,G.STUDER,
+REMARK   1  AUTH 2 L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   THE SWISS-MODEL REPOSITORY - NEW FEATURES AND FUNCTIONALITY
+REMARK   1  REF    NUCLEIC.ACIDS.RES..           V.  45       2017
+REMARK   1  REFN                   ISSN 0305-1048
+REMARK   1  PMID   27899672
+REMARK   1  DOI    10.1093/nar/gkw1132
+REMARK   1
+REMARK   1 REFERENCE 2
+REMARK   1  AUTH   N.GUEX,M.C.PEITSCH,T.SCHWEDE
+REMARK   1  TITL   AUTOMATED COMPARATIVE PROTEIN STRUCTURE MODELING WITH
+REMARK   1  TITL 2 SWISS-MODEL AND SWISS-PDBVIEWER: A HISTORICAL PERSPECTIVE
+REMARK   1  REF    ELECTROPHORESIS               V.  30       2009
+REMARK   1  REFN                   ISSN 0173-0835
+REMARK   1  PMID   19517507
+REMARK   1  DOI    10.1002/elps.200900140
+REMARK   1
+REMARK   1 REFERENCE 3
+REMARK   1  AUTH   G.STUDER,G.TAURIELLO,S.BIENERT,M.BIASINI,N.JOHNER,T.SCHWEDE
+REMARK   1  TITL   PROMOD3 - A VERSATILE HOMOLOGY MODELLING TOOLBOX
+REMARK   1  REF    PLOS COMP. BIOL.              V.  17       2021
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   33507980
+REMARK   1  DOI    https://doi.org/10.1371/journal.pcbi.1008667
+REMARK   1
+REMARK   1 REFERENCE 4
+REMARK   1  AUTH   G.STUDER,C.REMPFER,A.WATERHOUSE,R.GUMIENNY,J.HAAS,T.SCHWEDE
+REMARK   1  TITL   QMEANDISCO - DISTANCE CONSTRAINTS APPLIED ON MODEL QUALITY 
+REMARK   1  TITL 2 ESTIMATION
+REMARK   1  REF    BIOINFORMATICS                V.  36       2020
+REMARK   1  REFN                   ISSN 
+REMARK   1  PMID   31697312
+REMARK   1  DOI    https://doi.org/10.1093/bioinformatics/btz828
+REMARK   1
+REMARK   1 REFERENCE 5
+REMARK   1  AUTH   P.BENKERT,M.BIASINI,T.SCHWEDE
+REMARK   1  TITL   TOWARD THE ESTIMATION OF THE ABSOLUTE QUALITY OF INDIVIDUAL
+REMARK   1  TITL 2 PROTEIN STRUCTURE MODELS
+REMARK   1  REF    BIOINFORMATICS                V.  27       2011
+REMARK   1  REFN                   ISSN 1367-4803
+REMARK   1  PMID   21134891
+REMARK   1  DOI    10.1093/bioinformatics/btq662
+REMARK   1
+REMARK   1 REFERENCE 6
+REMARK   1  AUTH   M.BERTONI,F.KIEFER,M.BIASINI,L.BORDOLI,T.SCHWEDE
+REMARK   1  TITL   MODELING PROTEIN QUATERNARY STRUCTURE OF HOMO- AND
+REMARK   1  TITL 2 HETERO-OLIGOMERS BEYOND BINARY INTERACTIONS BY HOMOLOGY
+REMARK   1  REF    SCI.REP.                      V.   7       2017
+REMARK   1  REFN                   ISSN
+REMARK   1  PMID   28874689
+REMARK   1  DOI    10.1038/s41598-017-09654-8
+REMARK   1
+REMARK   1 DISCLAIMER
+REMARK   1 The SWISS-MODEL SERVER produces theoretical models for proteins.
+REMARK   1 The results of any theoretical modelling procedure is
+REMARK   1 NON-EXPERIMENTAL and MUST be considered with care. These models may
+REMARK   1 contain significant errors. This is especially true for automated
+REMARK   1 modeling since there is no human intervention during model
+REMARK   1 building. Please read the header section and the logfile carefully
+REMARK   1 to know what templates and alignments were used during the model
+REMARK   1 building process. All information by the SWISS-MODEL SERVER is
+REMARK   1 provided "AS-IS", without any warranty, expressed or implied.
+REMARK   2
+REMARK   2 COPYRIGHT NOTICE
+REMARK   2 This SWISS-MODEL protein model is copyright. It is produced by the
+REMARK   2 SWISS-MODEL server, developed by the Computational Structural
+REMARK   2 Biology Group at the SIB Swiss Institute of Bioinformatics at the
+REMARK   2 Biozentrum, University of Basel (https://swissmodel.expasy.org). This
+REMARK   2 model is licensed under the CC BY-SA 4.0 Creative Commons
+REMARK   2 Attribution-ShareAlike 4.0 International License
+REMARK   2 (https://creativecommons.org/licenses/by-sa/4.0/legalcode), i.e. you
+REMARK   2 can copy and redistribute the model in any medium or format,
+REMARK   2 transform and build upon the model for any purpose, even
+REMARK   2 commercially, under the following terms:
+REMARK   2 Attribution - You must give appropriate credit, provide a link to
+REMARK   2 the license, and indicate if changes were made. You may do so in any
+REMARK   2 reasonable manner, but not in any way that suggests the licensor
+REMARK   2 endorses you or your use. When you publish, patent or distribute
+REMARK   2 results that were fully or partially based on the model, please cite
+REMARK   2 the corresponding papers mentioned under JRNL.
+REMARK   2 ShareAlike - If you remix, transform, or build upon the material,
+REMARK   2 you must distribute your contributions under the same license as the
+REMARK   2 original.
+REMARK   2 No additional restrictions - you may not apply legal terms or
+REMARK   2 technological measures that legally restrict others from doing
+REMARK   2 anything the license permits.
+REMARK   2 Find a human-readable summary of (and not a substitute for) the
+REMARK   2 CC BY-SA 4.0 license at this link:
+REMARK   2 https://creativecommons.org/licenses/by-sa/4.0/
+REMARK   3 
+REMARK   3 MODEL INFORMATION
+REMARK   3  ENGIN   PROMOD3
+REMARK   3  VERSN   3.2.1
+REMARK   3  OSTAT   monomer
+REMARK   3  OSRSN   MONOMER (USER)
+REMARK   3  QSPRD   NA
+REMARK   3  GMQE    0.71
+REMARK   3  QMNV    4.3.0
+REMARK   3  QMNDG   0.75
+REMARK   3  MODT    FALSE
+REMARK   3 
+REMARK   3 MODEL LIGAND 1
+REMARK   3  NAME    GDP
+REMARK   3  BIND    A.25
+REMARK   3  BIND 2  A.26
+REMARK   3  BIND 3  A.27
+REMARK   3  BIND 4  A.28
+REMARK   3  BIND 5  A.29
+REMARK   3  BIND 6  A.30
+REMARK   3  BIND 7  A.31
+REMARK   3  BIND 8  A.32
+REMARK   3  BIND 9  A.126
+REMARK   3  BIND 10  A.127
+REMARK   3  BIND 11  A.129
+REMARK   3  BIND 12  A.130
+REMARK   3  BIND 13  A.159
+REMARK   3  BIND 14  A.160
+REMARK   3  BIND 15  A.161
+REMARK   3  BIND 16  _.2
+REMARK   3 
+REMARK   3 TEMPLATE 1
+REMARK   3  PDBID   1s9d
+REMARK   3  CHAIN   A
+REMARK   3  MMCIF   A
+REMARK   3  PDBV    2022-12-09
+REMARK   3  SMTLE   1s9d.1.A
+REMARK   3  SMTLV   2022-12-14
+REMARK   3  MTHD    X-RAY DIFFRACTION 1.80 A
+REMARK   3  FOUND   HHblits
+REMARK   3  GMQE    0.70
+REMARK   3  SIM     0.61
+REMARK   3  SID     100.00
+REMARK   3  OSTAT   hetero-1-1-mer
+REMARK   3  LIGND   MG
+REMARK   3  LIGND 2 GDP
+REMARK   3  LIGND 3 AFB
+REMARK   3  ALN A TRG MGNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TRG KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TRG RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TRG NQLRNQK
+REMARK   3  ALN A TPL -----------------MRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEY
+REMARK   3  ALN A TPL KNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDEL
+REMARK   3  ALN A TPL RDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLS
+REMARK   3  ALN A TPL NQLRNQ-
+REMARK   3  ALN A OFF 0
+ATOM      1  N   MET A  18      29.469  17.312  38.049  1.00  0.43           N  
+ATOM      2  CA  MET A  18      28.793  17.988  36.893  1.00  0.43           C  
+ATOM      3  C   MET A  18      29.156  19.439  36.820  1.00  0.43           C  
+ATOM      4  O   MET A  18      29.494  19.908  35.742  1.00  0.43           O  
+ATOM      5  CB  MET A  18      27.241  17.800  36.839  1.00  0.43           C  
+ATOM      6  CG  MET A  18      26.728  16.402  36.415  1.00  0.43           C  
+ATOM      7  SD  MET A  18      27.586  15.644  34.990  1.00  0.43           S  
+ATOM      8  CE  MET A  18      27.122  16.776  33.653  1.00  0.43           C  
+ATOM      9  N   ARG A  19      29.206  20.193  37.941  1.00  0.61           N  
+ATOM     10  CA  ARG A  19      29.777  21.529  37.924  1.00  0.61           C  
+ATOM     11  C   ARG A  19      31.234  21.495  37.501  1.00  0.61           C  
+ATOM     12  O   ARG A  19      31.699  22.317  36.722  1.00  0.61           O  
+ATOM     13  CB  ARG A  19      29.643  22.201  39.301  1.00  0.61           C  
+ATOM     14  CG  ARG A  19      30.057  23.683  39.277  1.00  0.61           C  
+ATOM     15  CD  ARG A  19      29.476  24.432  40.470  1.00  0.61           C  
+ATOM     16  NE  ARG A  19      30.142  25.771  40.545  1.00  0.61           N  
+ATOM     17  CZ  ARG A  19      30.407  26.433  41.681  1.00  0.61           C  
+ATOM     18  NH1 ARG A  19      30.175  25.905  42.871  1.00  0.61           N  
+ATOM     19  NH2 ARG A  19      30.969  27.635  41.579  1.00  0.61           N  
+ATOM     20  N   ILE A  20      31.943  20.454  37.971  1.00  0.79           N  
+ATOM     21  CA  ILE A  20      33.220  20.068  37.429  1.00  0.79           C  
+ATOM     22  C   ILE A  20      33.029  18.779  36.665  1.00  0.79           C  
+ATOM     23  O   ILE A  20      32.361  17.843  37.123  1.00  0.79           O  
+ATOM     24  CB  ILE A  20      34.273  19.905  38.514  1.00  0.79           C  
+ATOM     25  CG1 ILE A  20      34.388  21.208  39.332  1.00  0.79           C  
+ATOM     26  CG2 ILE A  20      35.643  19.530  37.906  1.00  0.79           C  
+ATOM     27  CD1 ILE A  20      34.789  22.410  38.480  1.00  0.79           C  
+ATOM     28  N   LEU A  21      33.611  18.718  35.455  1.00  0.79           N  
+ATOM     29  CA  LEU A  21      33.740  17.493  34.703  1.00  0.79           C  
+ATOM     30  C   LEU A  21      35.178  17.061  34.722  1.00  0.79           C  
+ATOM     31  O   LEU A  21      36.092  17.877  34.698  1.00  0.79           O  
+ATOM     32  CB  LEU A  21      33.315  17.630  33.230  1.00  0.79           C  
+ATOM     33  CG  LEU A  21      31.838  18.001  33.053  1.00  0.79           C  
+ATOM     34  CD1 LEU A  21      31.587  18.303  31.573  1.00  0.79           C  
+ATOM     35  CD2 LEU A  21      30.886  16.904  33.560  1.00  0.79           C  
+ATOM     36  N   MET A  22      35.410  15.745  34.768  1.00  0.83           N  
+ATOM     37  CA  MET A  22      36.730  15.188  34.626  1.00  0.83           C  
+ATOM     38  C   MET A  22      36.771  14.320  33.394  1.00  0.83           C  
+ATOM     39  O   MET A  22      35.950  13.421  33.221  1.00  0.83           O  
+ATOM     40  CB  MET A  22      37.101  14.336  35.850  1.00  0.83           C  
+ATOM     41  CG  MET A  22      38.482  13.668  35.732  1.00  0.83           C  
+ATOM     42  SD  MET A  22      38.928  12.707  37.199  1.00  0.83           S  
+ATOM     43  CE  MET A  22      39.562  14.164  38.065  1.00  0.83           C  
+ATOM     44  N   VAL A  23      37.737  14.556  32.496  1.00  0.85           N  
+ATOM     45  CA  VAL A  23      37.842  13.800  31.269  1.00  0.85           C  
+ATOM     46  C   VAL A  23      39.278  13.364  31.100  1.00  0.85           C  
+ATOM     47  O   VAL A  23      40.193  13.830  31.780  1.00  0.85           O  
+ATOM     48  CB  VAL A  23      37.381  14.586  30.043  1.00  0.85           C  
+ATOM     49  CG1 VAL A  23      35.974  15.167  30.278  1.00  0.85           C  
+ATOM     50  CG2 VAL A  23      38.384  15.705  29.730  1.00  0.85           C  
+ATOM     51  N   GLY A  24      39.536  12.409  30.200  1.00  0.91           N  
+ATOM     52  CA  GLY A  24      40.886  11.931  29.993  1.00  0.91           C  
+ATOM     53  C   GLY A  24      40.768  10.587  29.385  1.00  0.91           C  
+ATOM     54  O   GLY A  24      39.793   9.886  29.657  1.00  0.91           O  
+ATOM     55  N   LEU A  25      41.744  10.163  28.570  1.00  0.86           N  
+ATOM     56  CA  LEU A  25      41.792   8.829  27.988  1.00  0.86           C  
+ATOM     57  C   LEU A  25      41.654   7.700  29.011  1.00  0.86           C  
+ATOM     58  O   LEU A  25      41.908   7.871  30.210  1.00  0.86           O  
+ATOM     59  CB  LEU A  25      43.097   8.591  27.178  1.00  0.86           C  
+ATOM     60  CG  LEU A  25      43.413   9.621  26.068  1.00  0.86           C  
+ATOM     61  CD1 LEU A  25      44.672   9.174  25.303  1.00  0.86           C  
+ATOM     62  CD2 LEU A  25      42.248   9.819  25.081  1.00  0.86           C  
+ATOM     63  N   ASP A  26      41.236   6.494  28.575  1.00  0.78           N  
+ATOM     64  CA  ASP A  26      41.407   5.265  29.332  1.00  0.78           C  
+ATOM     65  C   ASP A  26      42.793   5.100  29.902  1.00  0.78           C  
+ATOM     66  O   ASP A  26      43.784   5.315  29.201  1.00  0.78           O  
+ATOM     67  CB  ASP A  26      41.135   4.023  28.464  1.00  0.78           C  
+ATOM     68  CG  ASP A  26      39.664   3.992  28.126  1.00  0.78           C  
+ATOM     69  OD1 ASP A  26      38.901   4.714  28.816  1.00  0.78           O  
+ATOM     70  OD2 ASP A  26      39.320   3.268  27.167  1.00  0.78           O  
+ATOM     71  N   ALA A  27      42.851   4.765  31.205  1.00  0.85           N  
+ATOM     72  CA  ALA A  27      44.061   4.517  31.955  1.00  0.85           C  
+ATOM     73  C   ALA A  27      44.818   5.763  32.418  1.00  0.85           C  
+ATOM     74  O   ALA A  27      45.847   5.635  33.072  1.00  0.85           O  
+ATOM     75  CB  ALA A  27      44.995   3.517  31.237  1.00  0.85           C  
+ATOM     76  N   ALA A  28      44.292   6.996  32.197  1.00  0.91           N  
+ATOM     77  CA  ALA A  28      44.919   8.227  32.658  1.00  0.91           C  
+ATOM     78  C   ALA A  28      44.985   8.367  34.180  1.00  0.91           C  
+ATOM     79  O   ALA A  28      45.908   8.946  34.739  1.00  0.91           O  
+ATOM     80  CB  ALA A  28      44.218   9.450  32.036  1.00  0.91           C  
+ATOM     81  N   GLY A  29      43.987   7.781  34.879  1.00  0.90           N  
+ATOM     82  CA  GLY A  29      43.902   7.769  36.341  1.00  0.90           C  
+ATOM     83  C   GLY A  29      42.710   8.473  36.921  1.00  0.90           C  
+ATOM     84  O   GLY A  29      42.728   8.814  38.107  1.00  0.90           O  
+ATOM     85  N   LYS A  30      41.632   8.699  36.151  1.00  0.82           N  
+ATOM     86  CA  LYS A  30      40.434   9.406  36.588  1.00  0.82           C  
+ATOM     87  C   LYS A  30      39.706   8.752  37.754  1.00  0.82           C  
+ATOM     88  O   LYS A  30      39.407   9.392  38.760  1.00  0.82           O  
+ATOM     89  CB  LYS A  30      39.416   9.495  35.425  1.00  0.82           C  
+ATOM     90  CG  LYS A  30      39.989  10.100  34.140  1.00  0.82           C  
+ATOM     91  CD  LYS A  30      38.922  10.224  33.038  1.00  0.82           C  
+ATOM     92  CE  LYS A  30      38.365   8.923  32.428  1.00  0.82           C  
+ATOM     93  NZ  LYS A  30      39.432   8.144  31.770  1.00  0.82           N  
+ATOM     94  N   THR A  31      39.474   7.422  37.648  1.00  0.79           N  
+ATOM     95  CA  THR A  31      38.853   6.569  38.657  1.00  0.79           C  
+ATOM     96  C   THR A  31      39.646   6.598  39.954  1.00  0.79           C  
+ATOM     97  O   THR A  31      39.114   6.760  41.057  1.00  0.79           O  
+ATOM     98  CB  THR A  31      38.800   5.099  38.207  1.00  0.79           C  
+ATOM     99  OG1 THR A  31      38.170   4.899  36.952  1.00  0.79           O  
+ATOM    100  CG2 THR A  31      38.041   4.246  39.213  1.00  0.79           C  
+ATOM    101  N   THR A  32      40.984   6.499  39.841  1.00  0.82           N  
+ATOM    102  CA  THR A  32      41.945   6.576  40.935  1.00  0.82           C  
+ATOM    103  C   THR A  32      41.922   7.904  41.671  1.00  0.82           C  
+ATOM    104  O   THR A  32      41.969   7.942  42.903  1.00  0.82           O  
+ATOM    105  CB  THR A  32      43.372   6.359  40.454  1.00  0.82           C  
+ATOM    106  OG1 THR A  32      43.461   5.135  39.743  1.00  0.82           O  
+ATOM    107  CG2 THR A  32      44.359   6.279  41.630  1.00  0.82           C  
+ATOM    108  N   ILE A  33      41.834   9.041  40.939  1.00  0.84           N  
+ATOM    109  CA  ILE A  33      41.654  10.373  41.512  1.00  0.84           C  
+ATOM    110  C   ILE A  33      40.338  10.497  42.242  1.00  0.84           C  
+ATOM    111  O   ILE A  33      40.276  11.014  43.352  1.00  0.84           O  
+ATOM    112  CB  ILE A  33      41.710  11.478  40.461  1.00  0.84           C  
+ATOM    113  CG1 ILE A  33      43.139  11.554  39.895  1.00  0.84           C  
+ATOM    114  CG2 ILE A  33      41.297  12.849  41.058  1.00  0.84           C  
+ATOM    115  CD1 ILE A  33      43.253  12.389  38.617  1.00  0.84           C  
+ATOM    116  N   LEU A  34      39.239   9.987  41.661  1.00  0.75           N  
+ATOM    117  CA  LEU A  34      37.941   9.998  42.306  1.00  0.75           C  
+ATOM    118  C   LEU A  34      37.892   9.247  43.620  1.00  0.75           C  
+ATOM    119  O   LEU A  34      37.278   9.727  44.569  1.00  0.75           O  
+ATOM    120  CB  LEU A  34      36.843   9.454  41.358  1.00  0.75           C  
+ATOM    121  CG  LEU A  34      35.997  10.497  40.575  1.00  0.75           C  
+ATOM    122  CD1 LEU A  34      34.511  10.273  40.920  1.00  0.75           C  
+ATOM    123  CD2 LEU A  34      36.362  11.981  40.802  1.00  0.75           C  
+ATOM    124  N   TYR A  35      38.552   8.088  43.764  1.00  0.72           N  
+ATOM    125  CA  TYR A  35      38.666   7.405  45.049  1.00  0.72           C  
+ATOM    126  C   TYR A  35      39.383   8.189  46.125  1.00  0.72           C  
+ATOM    127  O   TYR A  35      39.067   8.059  47.307  1.00  0.72           O  
+ATOM    128  CB  TYR A  35      39.340   6.025  44.918  1.00  0.72           C  
+ATOM    129  CG  TYR A  35      38.349   5.050  44.362  1.00  0.72           C  
+ATOM    130  CD1 TYR A  35      37.142   4.790  45.038  1.00  0.72           C  
+ATOM    131  CD2 TYR A  35      38.618   4.371  43.168  1.00  0.72           C  
+ATOM    132  CE1 TYR A  35      36.213   3.886  44.510  1.00  0.72           C  
+ATOM    133  CE2 TYR A  35      37.694   3.453  42.649  1.00  0.72           C  
+ATOM    134  CZ  TYR A  35      36.484   3.229  43.311  1.00  0.72           C  
+ATOM    135  OH  TYR A  35      35.514   2.362  42.781  1.00  0.72           O  
+ATOM    136  N   LYS A  36      40.342   9.050  45.754  1.00  0.73           N  
+ATOM    137  CA  LYS A  36      40.904  10.027  46.664  1.00  0.73           C  
+ATOM    138  C   LYS A  36      39.872  11.047  47.126  1.00  0.73           C  
+ATOM    139  O   LYS A  36      39.861  11.426  48.296  1.00  0.73           O  
+ATOM    140  CB  LYS A  36      42.119  10.739  46.027  1.00  0.73           C  
+ATOM    141  CG  LYS A  36      43.302   9.789  45.800  1.00  0.73           C  
+ATOM    142  CD  LYS A  36      44.130   9.642  47.088  1.00  0.73           C  
+ATOM    143  CE  LYS A  36      45.330   8.702  46.980  1.00  0.73           C  
+ATOM    144  NZ  LYS A  36      44.896   7.354  46.575  1.00  0.73           N  
+ATOM    145  N   LEU A  37      38.963  11.502  46.243  1.00  0.67           N  
+ATOM    146  CA  LEU A  37      37.932  12.469  46.591  1.00  0.67           C  
+ATOM    147  C   LEU A  37      36.732  11.896  47.318  1.00  0.67           C  
+ATOM    148  O   LEU A  37      36.081  12.611  48.075  1.00  0.67           O  
+ATOM    149  CB  LEU A  37      37.421  13.209  45.339  1.00  0.67           C  
+ATOM    150  CG  LEU A  37      38.542  13.833  44.485  1.00  0.67           C  
+ATOM    151  CD1 LEU A  37      37.939  14.703  43.367  1.00  0.67           C  
+ATOM    152  CD2 LEU A  37      39.558  14.628  45.332  1.00  0.67           C  
+ATOM    153  N   LYS A  38      36.478  10.581  47.171  1.00  0.63           N  
+ATOM    154  CA  LYS A  38      35.460   9.820  47.881  1.00  0.63           C  
+ATOM    155  C   LYS A  38      35.945   9.417  49.273  1.00  0.63           C  
+ATOM    156  O   LYS A  38      35.384   8.540  49.927  1.00  0.63           O  
+ATOM    157  CB  LYS A  38      35.156   8.495  47.126  1.00  0.63           C  
+ATOM    158  CG  LYS A  38      34.443   8.685  45.782  1.00  0.63           C  
+ATOM    159  CD  LYS A  38      34.185   7.338  45.090  1.00  0.63           C  
+ATOM    160  CE  LYS A  38      33.495   7.494  43.733  1.00  0.63           C  
+ATOM    161  NZ  LYS A  38      33.273   6.170  43.103  1.00  0.63           N  
+ATOM    162  N   LEU A  39      37.032  10.048  49.766  1.00  0.61           N  
+ATOM    163  CA  LEU A  39      37.558   9.867  51.099  1.00  0.61           C  
+ATOM    164  C   LEU A  39      36.555  10.192  52.197  1.00  0.61           C  
+ATOM    165  O   LEU A  39      36.019  11.290  52.291  1.00  0.61           O  
+ATOM    166  CB  LEU A  39      38.813  10.744  51.321  1.00  0.61           C  
+ATOM    167  CG  LEU A  39      39.545  10.505  52.658  1.00  0.61           C  
+ATOM    168  CD1 LEU A  39      40.151   9.092  52.727  1.00  0.61           C  
+ATOM    169  CD2 LEU A  39      40.633  11.570  52.860  1.00  0.61           C  
+ATOM    170  N   GLY A  40      36.288   9.212  53.085  1.00  0.47           N  
+ATOM    171  CA  GLY A  40      35.340   9.365  54.182  1.00  0.47           C  
+ATOM    172  C   GLY A  40      33.888   9.197  53.806  1.00  0.47           C  
+ATOM    173  O   GLY A  40      33.024   9.254  54.678  1.00  0.47           O  
+ATOM    174  N   GLU A  41      33.578   8.947  52.522  1.00  0.46           N  
+ATOM    175  CA  GLU A  41      32.220   8.804  52.046  1.00  0.46           C  
+ATOM    176  C   GLU A  41      31.824   7.349  51.908  1.00  0.46           C  
+ATOM    177  O   GLU A  41      32.604   6.482  51.525  1.00  0.46           O  
+ATOM    178  CB  GLU A  41      32.020   9.509  50.700  1.00  0.46           C  
+ATOM    179  CG  GLU A  41      32.235  11.033  50.770  1.00  0.46           C  
+ATOM    180  CD  GLU A  41      31.956  11.629  49.401  1.00  0.46           C  
+ATOM    181  OE1 GLU A  41      31.708  10.838  48.449  1.00  0.46           O  
+ATOM    182  OE2 GLU A  41      31.948  12.878  49.306  1.00  0.46           O  
+ATOM    183  N   ILE A  42      30.566   7.036  52.273  1.00  0.42           N  
+ATOM    184  CA  ILE A  42      30.077   5.673  52.347  1.00  0.42           C  
+ATOM    185  C   ILE A  42      28.751   5.651  51.628  1.00  0.42           C  
+ATOM    186  O   ILE A  42      27.858   6.434  51.943  1.00  0.42           O  
+ATOM    187  CB  ILE A  42      29.902   5.207  53.793  1.00  0.42           C  
+ATOM    188  CG1 ILE A  42      31.270   5.225  54.519  1.00  0.42           C  
+ATOM    189  CG2 ILE A  42      29.249   3.803  53.824  1.00  0.42           C  
+ATOM    190  CD1 ILE A  42      31.163   4.941  56.021  1.00  0.42           C  
+ATOM    191  N   VAL A  43      28.592   4.766  50.623  1.00  0.42           N  
+ATOM    192  CA  VAL A  43      27.427   4.771  49.763  1.00  0.42           C  
+ATOM    193  C   VAL A  43      26.965   3.349  49.527  1.00  0.42           C  
+ATOM    194  O   VAL A  43      27.741   2.399  49.563  1.00  0.42           O  
+ATOM    195  CB  VAL A  43      27.684   5.456  48.408  1.00  0.42           C  
+ATOM    196  CG1 VAL A  43      28.002   6.950  48.638  1.00  0.42           C  
+ATOM    197  CG2 VAL A  43      28.830   4.775  47.624  1.00  0.42           C  
+ATOM    198  N   THR A  44      25.647   3.183  49.286  1.00  0.41           N  
+ATOM    199  CA  THR A  44      25.061   1.991  48.686  1.00  0.41           C  
+ATOM    200  C   THR A  44      25.259   2.030  47.186  1.00  0.41           C  
+ATOM    201  O   THR A  44      25.530   3.081  46.611  1.00  0.41           O  
+ATOM    202  CB  THR A  44      23.554   1.837  48.932  1.00  0.41           C  
+ATOM    203  OG1 THR A  44      22.815   2.953  48.457  1.00  0.41           O  
+ATOM    204  CG2 THR A  44      23.275   1.781  50.434  1.00  0.41           C  
+ATOM    205  N   THR A  45      25.115   0.879  46.507  1.00  0.43           N  
+ATOM    206  CA  THR A  45      25.294   0.813  45.062  1.00  0.43           C  
+ATOM    207  C   THR A  45      24.246  -0.161  44.583  1.00  0.43           C  
+ATOM    208  O   THR A  45      24.126  -1.239  45.141  1.00  0.43           O  
+ATOM    209  CB  THR A  45      26.684   0.317  44.653  1.00  0.43           C  
+ATOM    210  OG1 THR A  45      27.671   1.250  45.059  1.00  0.43           O  
+ATOM    211  CG2 THR A  45      26.843   0.205  43.132  1.00  0.43           C  
+ATOM    212  N   ILE A  46      23.426   0.196  43.560  1.00  0.41           N  
+ATOM    213  CA  ILE A  46      22.350  -0.665  43.086  1.00  0.41           C  
+ATOM    214  C   ILE A  46      22.582  -0.912  41.600  1.00  0.41           C  
+ATOM    215  O   ILE A  46      23.212  -0.062  40.972  1.00  0.41           O  
+ATOM    216  CB  ILE A  46      20.936  -0.128  43.379  1.00  0.41           C  
+ATOM    217  CG1 ILE A  46      20.457   1.075  42.525  1.00  0.41           C  
+ATOM    218  CG2 ILE A  46      20.838   0.197  44.889  1.00  0.41           C  
+ATOM    219  CD1 ILE A  46      18.932   1.057  42.325  1.00  0.41           C  
+ATOM    220  N   PRO A  47      22.186  -2.023  40.973  1.00  0.43           N  
+ATOM    221  CA  PRO A  47      22.452  -2.243  39.557  1.00  0.43           C  
+ATOM    222  C   PRO A  47      21.569  -1.397  38.664  1.00  0.43           C  
+ATOM    223  O   PRO A  47      20.354  -1.376  38.828  1.00  0.43           O  
+ATOM    224  CB  PRO A  47      22.166  -3.744  39.335  1.00  0.43           C  
+ATOM    225  CG  PRO A  47      21.253  -4.163  40.499  1.00  0.43           C  
+ATOM    226  CD  PRO A  47      21.605  -3.190  41.626  1.00  0.43           C  
+ATOM    227  N   THR A  48      22.183  -0.761  37.653  1.00  0.58           N  
+ATOM    228  CA  THR A  48      21.481   0.059  36.688  1.00  0.58           C  
+ATOM    229  C   THR A  48      22.094  -0.281  35.360  1.00  0.58           C  
+ATOM    230  O   THR A  48      23.311  -0.233  35.203  1.00  0.58           O  
+ATOM    231  CB  THR A  48      21.638   1.564  36.907  1.00  0.58           C  
+ATOM    232  OG1 THR A  48      21.188   1.927  38.201  1.00  0.58           O  
+ATOM    233  CG2 THR A  48      20.756   2.357  35.934  1.00  0.58           C  
+ATOM    234  N   ILE A  49      21.279  -0.660  34.356  1.00  0.42           N  
+ATOM    235  CA  ILE A  49      21.736  -0.789  32.978  1.00  0.42           C  
+ATOM    236  C   ILE A  49      22.113   0.566  32.408  1.00  0.42           C  
+ATOM    237  O   ILE A  49      21.330   1.514  32.460  1.00  0.42           O  
+ATOM    238  CB  ILE A  49      20.688  -1.455  32.082  1.00  0.42           C  
+ATOM    239  CG1 ILE A  49      20.366  -2.893  32.572  1.00  0.42           C  
+ATOM    240  CG2 ILE A  49      21.097  -1.454  30.586  1.00  0.42           C  
+ATOM    241  CD1 ILE A  49      21.591  -3.800  32.795  1.00  0.42           C  
+ATOM    242  N   GLY A  50      23.328   0.694  31.840  1.00  0.38           N  
+ATOM    243  CA  GLY A  50      23.772   1.940  31.251  1.00  0.38           C  
+ATOM    244  C   GLY A  50      25.200   2.226  31.584  1.00  0.38           C  
+ATOM    245  O   GLY A  50      25.997   1.329  31.841  1.00  0.38           O  
+ATOM    246  N   PHE A  51      25.552   3.519  31.525  1.00  0.34           N  
+ATOM    247  CA  PHE A  51      26.876   4.055  31.761  1.00  0.34           C  
+ATOM    248  C   PHE A  51      27.344   3.916  33.203  1.00  0.34           C  
+ATOM    249  O   PHE A  51      26.582   4.061  34.155  1.00  0.34           O  
+ATOM    250  CB  PHE A  51      26.969   5.543  31.309  1.00  0.34           C  
+ATOM    251  CG  PHE A  51      26.582   5.676  29.855  1.00  0.34           C  
+ATOM    252  CD1 PHE A  51      27.552   5.558  28.847  1.00  0.34           C  
+ATOM    253  CD2 PHE A  51      25.246   5.906  29.477  1.00  0.34           C  
+ATOM    254  CE1 PHE A  51      27.198   5.652  27.494  1.00  0.34           C  
+ATOM    255  CE2 PHE A  51      24.886   5.995  28.126  1.00  0.34           C  
+ATOM    256  CZ  PHE A  51      25.864   5.874  27.134  1.00  0.34           C  
+ATOM    257  N   ASN A  52      28.654   3.665  33.396  1.00  0.46           N  
+ATOM    258  CA  ASN A  52      29.264   3.589  34.705  1.00  0.46           C  
+ATOM    259  C   ASN A  52      29.475   5.014  35.225  1.00  0.46           C  
+ATOM    260  O   ASN A  52      30.536   5.609  35.055  1.00  0.46           O  
+ATOM    261  CB  ASN A  52      30.576   2.764  34.578  1.00  0.46           C  
+ATOM    262  CG  ASN A  52      31.309   2.653  35.908  1.00  0.46           C  
+ATOM    263  OD1 ASN A  52      30.716   2.302  36.932  1.00  0.46           O  
+ATOM    264  ND2 ASN A  52      32.617   2.979  35.912  1.00  0.46           N  
+ATOM    265  N   VAL A  53      28.436   5.623  35.825  1.00  0.50           N  
+ATOM    266  CA  VAL A  53      28.495   6.954  36.402  1.00  0.50           C  
+ATOM    267  C   VAL A  53      29.421   7.036  37.609  1.00  0.50           C  
+ATOM    268  O   VAL A  53      29.195   6.409  38.649  1.00  0.50           O  
+ATOM    269  CB  VAL A  53      27.101   7.470  36.769  1.00  0.50           C  
+ATOM    270  CG1 VAL A  53      27.173   8.856  37.451  1.00  0.50           C  
+ATOM    271  CG2 VAL A  53      26.248   7.552  35.481  1.00  0.50           C  
+ATOM    272  N   GLU A  54      30.478   7.862  37.526  1.00  0.63           N  
+ATOM    273  CA  GLU A  54      31.358   8.120  38.635  1.00  0.63           C  
+ATOM    274  C   GLU A  54      31.230   9.579  38.973  1.00  0.63           C  
+ATOM    275  O   GLU A  54      31.532  10.468  38.176  1.00  0.63           O  
+ATOM    276  CB  GLU A  54      32.821   7.802  38.294  1.00  0.63           C  
+ATOM    277  CG  GLU A  54      33.034   6.329  37.897  1.00  0.63           C  
+ATOM    278  CD  GLU A  54      34.481   6.114  37.488  1.00  0.63           C  
+ATOM    279  OE1 GLU A  54      34.906   6.689  36.456  1.00  0.63           O  
+ATOM    280  OE2 GLU A  54      35.193   5.386  38.229  1.00  0.63           O  
+ATOM    281  N   THR A  55      30.738   9.871  40.183  1.00  0.69           N  
+ATOM    282  CA  THR A  55      30.507  11.236  40.598  1.00  0.69           C  
+ATOM    283  C   THR A  55      30.711  11.299  42.084  1.00  0.69           C  
+ATOM    284  O   THR A  55      30.615  10.288  42.769  1.00  0.69           O  
+ATOM    285  CB  THR A  55      29.123  11.756  40.190  1.00  0.69           C  
+ATOM    286  OG1 THR A  55      28.981  13.149  40.411  1.00  0.69           O  
+ATOM    287  CG2 THR A  55      27.967  11.050  40.924  1.00  0.69           C  
+ATOM    288  N   VAL A  56      31.071  12.495  42.581  1.00  0.69           N  
+ATOM    289  CA  VAL A  56      31.308  12.743  43.984  1.00  0.69           C  
+ATOM    290  C   VAL A  56      31.038  14.214  44.250  1.00  0.69           C  
+ATOM    291  O   VAL A  56      31.193  15.053  43.375  1.00  0.69           O  
+ATOM    292  CB  VAL A  56      32.739  12.365  44.381  1.00  0.69           C  
+ATOM    293  CG1 VAL A  56      33.818  13.303  43.789  1.00  0.69           C  
+ATOM    294  CG2 VAL A  56      32.849  12.263  45.907  1.00  0.69           C  
+ATOM    295  N   GLU A  57      30.632  14.543  45.497  1.00  0.64           N  
+ATOM    296  CA  GLU A  57      30.592  15.901  45.985  1.00  0.64           C  
+ATOM    297  C   GLU A  57      31.896  16.141  46.698  1.00  0.64           C  
+ATOM    298  O   GLU A  57      32.227  15.482  47.668  1.00  0.64           O  
+ATOM    299  CB  GLU A  57      29.488  16.104  47.050  1.00  0.64           C  
+ATOM    300  CG  GLU A  57      28.056  15.887  46.515  1.00  0.64           C  
+ATOM    301  CD  GLU A  57      27.646  17.036  45.603  1.00  0.64           C  
+ATOM    302  OE1 GLU A  57      27.583  18.183  46.117  1.00  0.64           O  
+ATOM    303  OE2 GLU A  57      27.416  16.800  44.386  1.00  0.64           O  
+ATOM    304  N   TYR A  58      32.700  17.115  46.268  1.00  0.59           N  
+ATOM    305  CA  TYR A  58      33.915  17.399  46.987  1.00  0.59           C  
+ATOM    306  C   TYR A  58      33.854  18.871  47.277  1.00  0.59           C  
+ATOM    307  O   TYR A  58      33.812  19.688  46.369  1.00  0.59           O  
+ATOM    308  CB  TYR A  58      35.155  17.004  46.147  1.00  0.59           C  
+ATOM    309  CG  TYR A  58      36.441  17.335  46.834  1.00  0.59           C  
+ATOM    310  CD1 TYR A  58      36.905  16.521  47.874  1.00  0.59           C  
+ATOM    311  CD2 TYR A  58      37.177  18.473  46.465  1.00  0.59           C  
+ATOM    312  CE1 TYR A  58      38.089  16.845  48.546  1.00  0.59           C  
+ATOM    313  CE2 TYR A  58      38.368  18.793  47.128  1.00  0.59           C  
+ATOM    314  CZ  TYR A  58      38.806  17.986  48.181  1.00  0.59           C  
+ATOM    315  OH  TYR A  58      39.918  18.361  48.948  1.00  0.59           O  
+ATOM    316  N   LYS A  59      33.819  19.248  48.579  1.00  0.63           N  
+ATOM    317  CA  LYS A  59      33.836  20.645  48.992  1.00  0.63           C  
+ATOM    318  C   LYS A  59      32.589  21.416  48.587  1.00  0.63           C  
+ATOM    319  O   LYS A  59      32.665  22.605  48.310  1.00  0.63           O  
+ATOM    320  CB  LYS A  59      35.132  21.333  48.472  1.00  0.63           C  
+ATOM    321  CG  LYS A  59      35.916  22.217  49.456  1.00  0.63           C  
+ATOM    322  CD  LYS A  59      37.426  21.969  49.273  1.00  0.63           C  
+ATOM    323  CE  LYS A  59      38.059  20.846  50.116  1.00  0.63           C  
+ATOM    324  NZ  LYS A  59      37.105  19.745  50.398  1.00  0.63           N  
+ATOM    325  N   ASN A  60      31.420  20.722  48.569  1.00  0.61           N  
+ATOM    326  CA  ASN A  60      30.143  21.249  48.121  1.00  0.61           C  
+ATOM    327  C   ASN A  60      30.111  21.521  46.608  1.00  0.61           C  
+ATOM    328  O   ASN A  60      29.412  22.413  46.127  1.00  0.61           O  
+ATOM    329  CB  ASN A  60      29.806  22.518  48.941  1.00  0.61           C  
+ATOM    330  CG  ASN A  60      28.326  22.799  49.018  1.00  0.61           C  
+ATOM    331  OD1 ASN A  60      27.456  21.936  48.804  1.00  0.61           O  
+ATOM    332  ND2 ASN A  60      27.988  24.042  49.391  1.00  0.61           N  
+ATOM    333  N   ILE A  61      30.903  20.778  45.807  1.00  0.69           N  
+ATOM    334  CA  ILE A  61      30.941  20.950  44.367  1.00  0.69           C  
+ATOM    335  C   ILE A  61      30.872  19.573  43.743  1.00  0.69           C  
+ATOM    336  O   ILE A  61      31.637  18.684  44.100  1.00  0.69           O  
+ATOM    337  CB  ILE A  61      32.209  21.670  43.882  1.00  0.69           C  
+ATOM    338  CG1 ILE A  61      32.320  23.084  44.513  1.00  0.69           C  
+ATOM    339  CG2 ILE A  61      32.241  21.739  42.333  1.00  0.69           C  
+ATOM    340  CD1 ILE A  61      33.626  23.818  44.181  1.00  0.69           C  
+ATOM    341  N   SER A  62      29.941  19.373  42.777  1.00  0.74           N  
+ATOM    342  CA  SER A  62      29.813  18.110  42.056  1.00  0.74           C  
+ATOM    343  C   SER A  62      30.909  17.865  41.033  1.00  0.74           C  
+ATOM    344  O   SER A  62      31.069  18.613  40.065  1.00  0.74           O  
+ATOM    345  CB  SER A  62      28.417  17.832  41.402  1.00  0.74           C  
+ATOM    346  OG  SER A  62      28.065  18.626  40.258  1.00  0.74           O  
+ATOM    347  N   PHE A  63      31.653  16.756  41.178  1.00  0.72           N  
+ATOM    348  CA  PHE A  63      32.690  16.345  40.248  1.00  0.72           C  
+ATOM    349  C   PHE A  63      32.208  15.094  39.581  1.00  0.72           C  
+ATOM    350  O   PHE A  63      31.898  14.118  40.247  1.00  0.72           O  
+ATOM    351  CB  PHE A  63      34.019  15.934  40.922  1.00  0.72           C  
+ATOM    352  CG  PHE A  63      34.760  17.121  41.429  1.00  0.72           C  
+ATOM    353  CD1 PHE A  63      35.891  17.587  40.748  1.00  0.72           C  
+ATOM    354  CD2 PHE A  63      34.360  17.763  42.606  1.00  0.72           C  
+ATOM    355  CE1 PHE A  63      36.620  18.666  41.257  1.00  0.72           C  
+ATOM    356  CE2 PHE A  63      35.059  18.877  43.084  1.00  0.72           C  
+ATOM    357  CZ  PHE A  63      36.209  19.313  42.424  1.00  0.72           C  
+ATOM    358  N   THR A  64      32.141  15.090  38.241  1.00  0.76           N  
+ATOM    359  CA  THR A  64      31.621  13.935  37.510  1.00  0.76           C  
+ATOM    360  C   THR A  64      32.643  13.545  36.472  1.00  0.76           C  
+ATOM    361  O   THR A  64      33.083  14.385  35.695  1.00  0.76           O  
+ATOM    362  CB  THR A  64      30.316  14.193  36.749  1.00  0.76           C  
+ATOM    363  OG1 THR A  64      29.254  14.601  37.594  1.00  0.76           O  
+ATOM    364  CG2 THR A  64      29.767  12.931  36.082  1.00  0.76           C  
+ATOM    365  N   VAL A  65      33.048  12.257  36.400  1.00  0.74           N  
+ATOM    366  CA  VAL A  65      33.789  11.744  35.248  1.00  0.74           C  
+ATOM    367  C   VAL A  65      32.905  11.738  34.010  1.00  0.74           C  
+ATOM    368  O   VAL A  65      31.807  11.180  34.014  1.00  0.74           O  
+ATOM    369  CB  VAL A  65      34.374  10.347  35.476  1.00  0.74           C  
+ATOM    370  CG1 VAL A  65      35.027   9.760  34.198  1.00  0.74           C  
+ATOM    371  CG2 VAL A  65      35.419  10.421  36.608  1.00  0.74           C  
+ATOM    372  N   TRP A  66      33.350  12.370  32.909  1.00  0.50           N  
+ATOM    373  CA  TRP A  66      32.618  12.337  31.665  1.00  0.50           C  
+ATOM    374  C   TRP A  66      33.373  11.424  30.719  1.00  0.50           C  
+ATOM    375  O   TRP A  66      34.503  11.679  30.328  1.00  0.50           O  
+ATOM    376  CB  TRP A  66      32.399  13.756  31.080  1.00  0.50           C  
+ATOM    377  CG  TRP A  66      31.359  13.806  29.973  1.00  0.50           C  
+ATOM    378  CD1 TRP A  66      31.550  13.644  28.630  1.00  0.50           C  
+ATOM    379  CD2 TRP A  66      29.946  13.925  30.185  1.00  0.50           C  
+ATOM    380  NE1 TRP A  66      30.341  13.669  27.982  1.00  0.50           N  
+ATOM    381  CE2 TRP A  66      29.335  13.839  28.902  1.00  0.50           C  
+ATOM    382  CE3 TRP A  66      29.174  14.072  31.333  1.00  0.50           C  
+ATOM    383  CZ2 TRP A  66      27.958  13.914  28.779  1.00  0.50           C  
+ATOM    384  CZ3 TRP A  66      27.783  14.141  31.196  1.00  0.50           C  
+ATOM    385  CH2 TRP A  66      27.181  14.067  29.933  1.00  0.50           C  
+ATOM    386  N   ASP A  67      32.735  10.283  30.379  1.00  0.47           N  
+ATOM    387  CA  ASP A  67      33.302   9.294  29.507  1.00  0.47           C  
+ATOM    388  C   ASP A  67      33.157   9.760  28.053  1.00  0.47           C  
+ATOM    389  O   ASP A  67      32.068   9.937  27.518  1.00  0.47           O  
+ATOM    390  CB  ASP A  67      32.607   7.944  29.819  1.00  0.47           C  
+ATOM    391  CG  ASP A  67      33.246   6.775  29.092  1.00  0.47           C  
+ATOM    392  OD1 ASP A  67      34.081   7.023  28.184  1.00  0.47           O  
+ATOM    393  OD2 ASP A  67      32.878   5.627  29.441  1.00  0.47           O  
+ATOM    394  N   VAL A  68      34.300   9.998  27.387  1.00  0.55           N  
+ATOM    395  CA  VAL A  68      34.346  10.521  26.042  1.00  0.55           C  
+ATOM    396  C   VAL A  68      34.529   9.407  25.016  1.00  0.55           C  
+ATOM    397  O   VAL A  68      34.822   9.680  23.853  1.00  0.55           O  
+ATOM    398  CB  VAL A  68      35.450  11.560  25.904  1.00  0.55           C  
+ATOM    399  CG1 VAL A  68      35.114  12.783  26.783  1.00  0.55           C  
+ATOM    400  CG2 VAL A  68      36.832  10.976  26.263  1.00  0.55           C  
+ATOM    401  N   GLY A  69      34.346   8.118  25.403  1.00  0.40           N  
+ATOM    402  CA  GLY A  69      34.757   6.969  24.591  1.00  0.40           C  
+ATOM    403  C   GLY A  69      33.939   6.600  23.368  1.00  0.40           C  
+ATOM    404  O   GLY A  69      34.340   5.737  22.587  1.00  0.40           O  
+ATOM    405  N   GLY A  70      32.766   7.222  23.140  1.00  0.49           N  
+ATOM    406  CA  GLY A  70      31.971   7.001  21.929  1.00  0.49           C  
+ATOM    407  C   GLY A  70      32.469   7.705  20.682  1.00  0.49           C  
+ATOM    408  O   GLY A  70      33.405   8.497  20.695  1.00  0.49           O  
+ATOM    409  N   GLN A  71      31.778   7.468  19.547  1.00  0.51           N  
+ATOM    410  CA  GLN A  71      31.950   8.208  18.303  1.00  0.51           C  
+ATOM    411  C   GLN A  71      31.585   9.692  18.423  1.00  0.51           C  
+ATOM    412  O   GLN A  71      30.842  10.102  19.306  1.00  0.51           O  
+ATOM    413  CB  GLN A  71      31.052   7.617  17.180  1.00  0.51           C  
+ATOM    414  CG  GLN A  71      31.520   6.266  16.597  1.00  0.51           C  
+ATOM    415  CD  GLN A  71      30.476   5.758  15.609  1.00  0.51           C  
+ATOM    416  OE1 GLN A  71      29.725   4.819  15.862  1.00  0.51           O  
+ATOM    417  NE2 GLN A  71      30.382   6.410  14.429  1.00  0.51           N  
+ATOM    418  N   ASP A  72      32.039  10.529  17.460  1.00  0.60           N  
+ATOM    419  CA  ASP A  72      31.642  11.926  17.327  1.00  0.60           C  
+ATOM    420  C   ASP A  72      30.135  12.149  17.221  1.00  0.60           C  
+ATOM    421  O   ASP A  72      29.584  13.115  17.757  1.00  0.60           O  
+ATOM    422  CB  ASP A  72      32.308  12.523  16.060  1.00  0.60           C  
+ATOM    423  CG  ASP A  72      33.761  12.893  16.312  1.00  0.60           C  
+ATOM    424  OD1 ASP A  72      34.243  12.731  17.462  1.00  0.60           O  
+ATOM    425  OD2 ASP A  72      34.401  13.368  15.344  1.00  0.60           O  
+ATOM    426  N   LYS A  73      29.416  11.228  16.551  1.00  0.62           N  
+ATOM    427  CA  LYS A  73      28.006  11.320  16.221  1.00  0.62           C  
+ATOM    428  C   LYS A  73      27.056  11.472  17.404  1.00  0.62           C  
+ATOM    429  O   LYS A  73      25.976  12.021  17.262  1.00  0.62           O  
+ATOM    430  CB  LYS A  73      27.563  10.099  15.383  1.00  0.62           C  
+ATOM    431  CG  LYS A  73      28.254  10.054  14.012  1.00  0.62           C  
+ATOM    432  CD  LYS A  73      27.697   8.938  13.115  1.00  0.62           C  
+ATOM    433  CE  LYS A  73      28.469   8.810  11.797  1.00  0.62           C  
+ATOM    434  NZ  LYS A  73      27.869   7.763  10.937  1.00  0.62           N  
+ATOM    435  N   ILE A  74      27.446  10.981  18.602  1.00  0.59           N  
+ATOM    436  CA  ILE A  74      26.599  11.042  19.779  1.00  0.59           C  
+ATOM    437  C   ILE A  74      26.935  12.218  20.688  1.00  0.59           C  
+ATOM    438  O   ILE A  74      26.206  12.493  21.640  1.00  0.59           O  
+ATOM    439  CB  ILE A  74      26.618   9.719  20.546  1.00  0.59           C  
+ATOM    440  CG1 ILE A  74      28.026   9.178  20.922  1.00  0.59           C  
+ATOM    441  CG2 ILE A  74      25.853   8.689  19.678  1.00  0.59           C  
+ATOM    442  CD1 ILE A  74      28.730   9.891  22.088  1.00  0.59           C  
+ATOM    443  N   ARG A  75      27.989  13.014  20.392  1.00  0.52           N  
+ATOM    444  CA  ARG A  75      28.300  14.230  21.137  1.00  0.52           C  
+ATOM    445  C   ARG A  75      27.197  15.302  21.134  1.00  0.52           C  
+ATOM    446  O   ARG A  75      27.000  15.916  22.181  1.00  0.52           O  
+ATOM    447  CB  ARG A  75      29.674  14.833  20.745  1.00  0.52           C  
+ATOM    448  CG  ARG A  75      30.851  13.892  21.087  1.00  0.52           C  
+ATOM    449  CD  ARG A  75      32.240  14.536  20.959  1.00  0.52           C  
+ATOM    450  NE  ARG A  75      33.234  13.443  21.286  1.00  0.52           N  
+ATOM    451  CZ  ARG A  75      34.324  13.545  22.058  1.00  0.52           C  
+ATOM    452  NH1 ARG A  75      34.680  14.657  22.688  1.00  0.52           N  
+ATOM    453  NH2 ARG A  75      35.137  12.499  22.212  1.00  0.52           N  
+ATOM    454  N   PRO A  76      26.391  15.581  20.099  1.00  0.63           N  
+ATOM    455  CA  PRO A  76      25.263  16.505  20.197  1.00  0.63           C  
+ATOM    456  C   PRO A  76      24.224  16.192  21.275  1.00  0.63           C  
+ATOM    457  O   PRO A  76      23.452  17.076  21.639  1.00  0.63           O  
+ATOM    458  CB  PRO A  76      24.614  16.438  18.810  1.00  0.63           C  
+ATOM    459  CG  PRO A  76      25.780  16.108  17.874  1.00  0.63           C  
+ATOM    460  CD  PRO A  76      26.592  15.133  18.720  1.00  0.63           C  
+ATOM    461  N   LEU A  77      24.148  14.942  21.778  1.00  0.58           N  
+ATOM    462  CA  LEU A  77      23.276  14.538  22.871  1.00  0.58           C  
+ATOM    463  C   LEU A  77      23.738  15.088  24.208  1.00  0.58           C  
+ATOM    464  O   LEU A  77      22.942  15.208  25.153  1.00  0.58           O  
+ATOM    465  CB  LEU A  77      23.241  12.993  22.974  1.00  0.58           C  
+ATOM    466  CG  LEU A  77      22.777  12.273  21.691  1.00  0.58           C  
+ATOM    467  CD1 LEU A  77      22.850  10.751  21.882  1.00  0.58           C  
+ATOM    468  CD2 LEU A  77      21.359  12.698  21.282  1.00  0.58           C  
+ATOM    469  N   TRP A  78      25.018  15.462  24.338  1.00  0.52           N  
+ATOM    470  CA  TRP A  78      25.641  15.881  25.576  1.00  0.52           C  
+ATOM    471  C   TRP A  78      25.279  17.285  25.997  1.00  0.52           C  
+ATOM    472  O   TRP A  78      25.373  17.626  27.178  1.00  0.52           O  
+ATOM    473  CB  TRP A  78      27.179  15.851  25.413  1.00  0.52           C  
+ATOM    474  CG  TRP A  78      27.777  14.473  25.135  1.00  0.52           C  
+ATOM    475  CD1 TRP A  78      27.164  13.248  25.088  1.00  0.52           C  
+ATOM    476  CD2 TRP A  78      29.176  14.247  24.950  1.00  0.52           C  
+ATOM    477  NE1 TRP A  78      28.103  12.271  24.893  1.00  0.52           N  
+ATOM    478  CE2 TRP A  78      29.348  12.831  24.816  1.00  0.52           C  
+ATOM    479  CE3 TRP A  78      30.269  15.095  24.899  1.00  0.52           C  
+ATOM    480  CZ2 TRP A  78      30.609  12.297  24.650  1.00  0.52           C  
+ATOM    481  CZ3 TRP A  78      31.544  14.544  24.756  1.00  0.52           C  
+ATOM    482  CH2 TRP A  78      31.715  13.155  24.634  1.00  0.52           C  
+ATOM    483  N   ARG A  79      24.859  18.145  25.053  1.00  0.58           N  
+ATOM    484  CA  ARG A  79      24.979  19.586  25.204  1.00  0.58           C  
+ATOM    485  C   ARG A  79      24.321  20.195  26.432  1.00  0.58           C  
+ATOM    486  O   ARG A  79      24.924  21.001  27.122  1.00  0.58           O  
+ATOM    487  CB  ARG A  79      24.525  20.356  23.936  1.00  0.58           C  
+ATOM    488  CG  ARG A  79      23.141  19.979  23.372  1.00  0.58           C  
+ATOM    489  CD  ARG A  79      23.072  20.296  21.873  1.00  0.58           C  
+ATOM    490  NE  ARG A  79      21.643  20.491  21.451  1.00  0.58           N  
+ATOM    491  CZ  ARG A  79      20.714  19.528  21.364  1.00  0.58           C  
+ATOM    492  NH1 ARG A  79      20.973  18.254  21.629  1.00  0.58           N  
+ATOM    493  NH2 ARG A  79      19.480  19.859  20.985  1.00  0.58           N  
+ATOM    494  N   HIS A  80      23.084  19.782  26.789  1.00  0.56           N  
+ATOM    495  CA  HIS A  80      22.396  20.395  27.916  1.00  0.56           C  
+ATOM    496  C   HIS A  80      23.028  20.067  29.267  1.00  0.56           C  
+ATOM    497  O   HIS A  80      22.918  20.842  30.223  1.00  0.56           O  
+ATOM    498  CB  HIS A  80      20.883  20.045  27.943  1.00  0.56           C  
+ATOM    499  CG  HIS A  80      20.528  18.811  28.716  1.00  0.56           C  
+ATOM    500  ND1 HIS A  80      20.299  17.621  28.070  1.00  0.56           N  
+ATOM    501  CD2 HIS A  80      20.391  18.660  30.064  1.00  0.56           C  
+ATOM    502  CE1 HIS A  80      20.017  16.758  29.035  1.00  0.56           C  
+ATOM    503  NE2 HIS A  80      20.064  17.341  30.254  1.00  0.56           N  
+ATOM    504  N   TYR A  81      23.751  18.932  29.386  1.00  0.56           N  
+ATOM    505  CA  TYR A  81      24.435  18.505  30.593  1.00  0.56           C  
+ATOM    506  C   TYR A  81      25.578  19.434  30.953  1.00  0.56           C  
+ATOM    507  O   TYR A  81      25.992  19.494  32.109  1.00  0.56           O  
+ATOM    508  CB  TYR A  81      25.026  17.078  30.436  1.00  0.56           C  
+ATOM    509  CG  TYR A  81      23.945  16.041  30.415  1.00  0.56           C  
+ATOM    510  CD1 TYR A  81      23.258  15.735  31.599  1.00  0.56           C  
+ATOM    511  CD2 TYR A  81      23.656  15.307  29.254  1.00  0.56           C  
+ATOM    512  CE1 TYR A  81      22.308  14.707  31.626  1.00  0.56           C  
+ATOM    513  CE2 TYR A  81      22.707  14.276  29.280  1.00  0.56           C  
+ATOM    514  CZ  TYR A  81      22.027  13.984  30.467  1.00  0.56           C  
+ATOM    515  OH  TYR A  81      21.079  12.947  30.507  1.00  0.56           O  
+ATOM    516  N   PHE A  82      26.104  20.194  29.973  1.00  0.70           N  
+ATOM    517  CA  PHE A  82      27.257  21.043  30.178  1.00  0.70           C  
+ATOM    518  C   PHE A  82      26.901  22.483  30.491  1.00  0.70           C  
+ATOM    519  O   PHE A  82      27.788  23.279  30.781  1.00  0.70           O  
+ATOM    520  CB  PHE A  82      28.157  21.035  28.920  1.00  0.70           C  
+ATOM    521  CG  PHE A  82      28.734  19.687  28.585  1.00  0.70           C  
+ATOM    522  CD1 PHE A  82      28.813  18.613  29.491  1.00  0.70           C  
+ATOM    523  CD2 PHE A  82      29.236  19.506  27.289  1.00  0.70           C  
+ATOM    524  CE1 PHE A  82      29.377  17.394  29.108  1.00  0.70           C  
+ATOM    525  CE2 PHE A  82      29.810  18.292  26.904  1.00  0.70           C  
+ATOM    526  CZ  PHE A  82      29.873  17.232  27.814  1.00  0.70           C  
+ATOM    527  N   GLN A  83      25.599  22.840  30.520  1.00  0.68           N  
+ATOM    528  CA  GLN A  83      25.111  24.188  30.798  1.00  0.68           C  
+ATOM    529  C   GLN A  83      25.518  24.729  32.167  1.00  0.68           C  
+ATOM    530  O   GLN A  83      25.810  25.909  32.336  1.00  0.68           O  
+ATOM    531  CB  GLN A  83      23.567  24.219  30.690  1.00  0.68           C  
+ATOM    532  CG  GLN A  83      23.085  24.150  29.225  1.00  0.68           C  
+ATOM    533  CD  GLN A  83      21.576  23.980  29.131  1.00  0.68           C  
+ATOM    534  OE1 GLN A  83      20.834  23.792  30.103  1.00  0.68           O  
+ATOM    535  NE2 GLN A  83      21.068  24.034  27.882  1.00  0.68           N  
+ATOM    536  N   ASN A  84      25.565  23.849  33.189  1.00  0.69           N  
+ATOM    537  CA  ASN A  84      25.944  24.217  34.547  1.00  0.69           C  
+ATOM    538  C   ASN A  84      27.417  23.946  34.821  1.00  0.69           C  
+ATOM    539  O   ASN A  84      27.884  24.076  35.959  1.00  0.69           O  
+ATOM    540  CB  ASN A  84      25.153  23.381  35.586  1.00  0.69           C  
+ATOM    541  CG  ASN A  84      23.685  23.755  35.541  1.00  0.69           C  
+ATOM    542  OD1 ASN A  84      23.308  24.922  35.363  1.00  0.69           O  
+ATOM    543  ND2 ASN A  84      22.797  22.768  35.757  1.00  0.69           N  
+ATOM    544  N   THR A  85      28.192  23.538  33.800  1.00  0.79           N  
+ATOM    545  CA  THR A  85      29.575  23.117  33.976  1.00  0.79           C  
+ATOM    546  C   THR A  85      30.506  24.307  33.951  1.00  0.79           C  
+ATOM    547  O   THR A  85      30.625  25.022  32.966  1.00  0.79           O  
+ATOM    548  CB  THR A  85      30.048  22.109  32.943  1.00  0.79           C  
+ATOM    549  OG1 THR A  85      29.251  20.940  33.033  1.00  0.79           O  
+ATOM    550  CG2 THR A  85      31.503  21.678  33.196  1.00  0.79           C  
+ATOM    551  N   GLN A  86      31.225  24.544  35.064  1.00  0.77           N  
+ATOM    552  CA  GLN A  86      32.091  25.698  35.198  1.00  0.77           C  
+ATOM    553  C   GLN A  86      33.557  25.338  35.104  1.00  0.77           C  
+ATOM    554  O   GLN A  86      34.412  26.195  34.867  1.00  0.77           O  
+ATOM    555  CB  GLN A  86      31.897  26.354  36.577  1.00  0.77           C  
+ATOM    556  CG  GLN A  86      30.496  26.956  36.801  1.00  0.77           C  
+ATOM    557  CD  GLN A  86      30.566  27.917  37.971  1.00  0.77           C  
+ATOM    558  OE1 GLN A  86      31.415  27.755  38.880  1.00  0.77           O  
+ATOM    559  NE2 GLN A  86      29.684  28.914  38.061  1.00  0.77           N  
+ATOM    560  N   GLY A  87      33.909  24.056  35.280  1.00  0.87           N  
+ATOM    561  CA  GLY A  87      35.301  23.667  35.248  1.00  0.87           C  
+ATOM    562  C   GLY A  87      35.473  22.336  34.617  1.00  0.87           C  
+ATOM    563  O   GLY A  87      34.621  21.454  34.695  1.00  0.87           O  
+ATOM    564  N   LEU A  88      36.626  22.167  33.975  1.00  0.87           N  
+ATOM    565  CA  LEU A  88      37.002  20.945  33.327  1.00  0.87           C  
+ATOM    566  C   LEU A  88      38.353  20.514  33.843  1.00  0.87           C  
+ATOM    567  O   LEU A  88      39.339  21.244  33.774  1.00  0.87           O  
+ATOM    568  CB  LEU A  88      37.058  21.180  31.799  1.00  0.87           C  
+ATOM    569  CG  LEU A  88      37.549  19.992  30.946  1.00  0.87           C  
+ATOM    570  CD1 LEU A  88      36.573  18.807  31.005  1.00  0.87           C  
+ATOM    571  CD2 LEU A  88      37.775  20.432  29.490  1.00  0.87           C  
+ATOM    572  N   ILE A  89      38.431  19.290  34.380  1.00  0.89           N  
+ATOM    573  CA  ILE A  89      39.680  18.662  34.740  1.00  0.89           C  
+ATOM    574  C   ILE A  89      40.041  17.724  33.613  1.00  0.89           C  
+ATOM    575  O   ILE A  89      39.264  16.841  33.247  1.00  0.89           O  
+ATOM    576  CB  ILE A  89      39.627  17.894  36.053  1.00  0.89           C  
+ATOM    577  CG1 ILE A  89      39.273  18.869  37.194  1.00  0.89           C  
+ATOM    578  CG2 ILE A  89      40.995  17.217  36.315  1.00  0.89           C  
+ATOM    579  CD1 ILE A  89      39.066  18.182  38.544  1.00  0.89           C  
+ATOM    580  N   PHE A  90      41.237  17.875  33.029  1.00  0.89           N  
+ATOM    581  CA  PHE A  90      41.736  16.962  32.022  1.00  0.89           C  
+ATOM    582  C   PHE A  90      42.872  16.166  32.650  1.00  0.89           C  
+ATOM    583  O   PHE A  90      43.842  16.722  33.150  1.00  0.89           O  
+ATOM    584  CB  PHE A  90      42.187  17.720  30.738  1.00  0.89           C  
+ATOM    585  CG  PHE A  90      42.539  16.758  29.624  1.00  0.89           C  
+ATOM    586  CD1 PHE A  90      41.547  16.358  28.721  1.00  0.89           C  
+ATOM    587  CD2 PHE A  90      43.822  16.200  29.490  1.00  0.89           C  
+ATOM    588  CE1 PHE A  90      41.769  15.322  27.810  1.00  0.89           C  
+ATOM    589  CE2 PHE A  90      44.080  15.225  28.514  1.00  0.89           C  
+ATOM    590  CZ  PHE A  90      43.038  14.751  27.711  1.00  0.89           C  
+ATOM    591  N   VAL A  91      42.761  14.824  32.657  1.00  0.91           N  
+ATOM    592  CA  VAL A  91      43.753  13.940  33.255  1.00  0.91           C  
+ATOM    593  C   VAL A  91      44.524  13.250  32.150  1.00  0.91           C  
+ATOM    594  O   VAL A  91      43.933  12.642  31.259  1.00  0.91           O  
+ATOM    595  CB  VAL A  91      43.119  12.846  34.120  1.00  0.91           C  
+ATOM    596  CG1 VAL A  91      44.207  12.053  34.880  1.00  0.91           C  
+ATOM    597  CG2 VAL A  91      42.143  13.492  35.120  1.00  0.91           C  
+ATOM    598  N   VAL A  92      45.871  13.307  32.186  1.00  0.92           N  
+ATOM    599  CA  VAL A  92      46.715  12.660  31.195  1.00  0.92           C  
+ATOM    600  C   VAL A  92      47.703  11.731  31.883  1.00  0.92           C  
+ATOM    601  O   VAL A  92      48.250  12.059  32.938  1.00  0.92           O  
+ATOM    602  CB  VAL A  92      47.400  13.683  30.278  1.00  0.92           C  
+ATOM    603  CG1 VAL A  92      48.336  14.643  31.048  1.00  0.92           C  
+ATOM    604  CG2 VAL A  92      48.121  12.990  29.097  1.00  0.92           C  
+ATOM    605  N   ASP A  93      47.942  10.520  31.320  1.00  0.91           N  
+ATOM    606  CA  ASP A  93      49.060   9.674  31.685  1.00  0.91           C  
+ATOM    607  C   ASP A  93      50.334  10.312  31.123  1.00  0.91           C  
+ATOM    608  O   ASP A  93      50.566  10.345  29.919  1.00  0.91           O  
+ATOM    609  CB  ASP A  93      48.822   8.223  31.182  1.00  0.91           C  
+ATOM    610  CG  ASP A  93      49.833   7.251  31.742  1.00  0.91           C  
+ATOM    611  OD1 ASP A  93      50.976   7.626  32.104  1.00  0.91           O  
+ATOM    612  OD2 ASP A  93      49.454   6.063  31.842  1.00  0.91           O  
+ATOM    613  N   SER A  94      51.195  10.866  31.998  1.00  0.89           N  
+ATOM    614  CA  SER A  94      52.413  11.532  31.575  1.00  0.89           C  
+ATOM    615  C   SER A  94      53.507  10.565  31.181  1.00  0.89           C  
+ATOM    616  O   SER A  94      54.519  10.949  30.603  1.00  0.89           O  
+ATOM    617  CB  SER A  94      52.975  12.474  32.651  1.00  0.89           C  
+ATOM    618  OG  SER A  94      52.029  13.500  32.948  1.00  0.89           O  
+ATOM    619  N   ASN A  95      53.343   9.259  31.461  1.00  0.86           N  
+ATOM    620  CA  ASN A  95      54.292   8.259  31.048  1.00  0.86           C  
+ATOM    621  C   ASN A  95      53.918   7.721  29.661  1.00  0.86           C  
+ATOM    622  O   ASN A  95      54.725   7.054  29.016  1.00  0.86           O  
+ATOM    623  CB  ASN A  95      54.318   7.152  32.132  1.00  0.86           C  
+ATOM    624  CG  ASN A  95      55.467   6.180  31.923  1.00  0.86           C  
+ATOM    625  OD1 ASN A  95      56.647   6.560  31.857  1.00  0.86           O  
+ATOM    626  ND2 ASN A  95      55.147   4.877  31.809  1.00  0.86           N  
+ATOM    627  N   ASP A  96      52.715   8.054  29.130  1.00  0.87           N  
+ATOM    628  CA  ASP A  96      52.253   7.548  27.856  1.00  0.87           C  
+ATOM    629  C   ASP A  96      52.619   8.510  26.724  1.00  0.87           C  
+ATOM    630  O   ASP A  96      51.874   9.397  26.308  1.00  0.87           O  
+ATOM    631  CB  ASP A  96      50.738   7.222  27.923  1.00  0.87           C  
+ATOM    632  CG  ASP A  96      50.320   6.281  26.807  1.00  0.87           C  
+ATOM    633  OD1 ASP A  96      51.009   6.251  25.751  1.00  0.87           O  
+ATOM    634  OD2 ASP A  96      49.288   5.586  26.993  1.00  0.87           O  
+ATOM    635  N   ARG A  97      53.838   8.338  26.178  1.00  0.80           N  
+ATOM    636  CA  ARG A  97      54.300   9.061  25.009  1.00  0.80           C  
+ATOM    637  C   ARG A  97      53.543   8.757  23.721  1.00  0.80           C  
+ATOM    638  O   ARG A  97      53.335   9.666  22.918  1.00  0.80           O  
+ATOM    639  CB  ARG A  97      55.814   8.842  24.796  1.00  0.80           C  
+ATOM    640  CG  ARG A  97      56.668   9.655  25.788  1.00  0.80           C  
+ATOM    641  CD  ARG A  97      58.129   9.210  25.808  1.00  0.80           C  
+ATOM    642  NE  ARG A  97      58.879  10.161  26.709  1.00  0.80           N  
+ATOM    643  CZ  ARG A  97      59.032  10.002  28.029  1.00  0.80           C  
+ATOM    644  NH1 ARG A  97      58.519   8.966  28.680  1.00  0.80           N  
+ATOM    645  NH2 ARG A  97      59.701  10.901  28.750  1.00  0.80           N  
+ATOM    646  N   GLU A  98      53.118   7.499  23.483  1.00  0.84           N  
+ATOM    647  CA  GLU A  98      52.479   7.088  22.242  1.00  0.84           C  
+ATOM    648  C   GLU A  98      51.059   7.649  22.098  1.00  0.84           C  
+ATOM    649  O   GLU A  98      50.588   7.920  20.994  1.00  0.84           O  
+ATOM    650  CB  GLU A  98      52.471   5.542  22.121  1.00  0.84           C  
+ATOM    651  CG  GLU A  98      53.858   4.914  21.806  1.00  0.84           C  
+ATOM    652  CD  GLU A  98      54.284   5.143  20.356  1.00  0.84           C  
+ATOM    653  OE1 GLU A  98      53.473   4.835  19.446  1.00  0.84           O  
+ATOM    654  OE2 GLU A  98      55.436   5.608  20.156  1.00  0.84           O  
+ATOM    655  N   ARG A  99      50.334   7.890  23.216  1.00  0.83           N  
+ATOM    656  CA  ARG A  99      48.962   8.382  23.162  1.00  0.83           C  
+ATOM    657  C   ARG A  99      48.822   9.840  23.571  1.00  0.83           C  
+ATOM    658  O   ARG A  99      47.714  10.358  23.715  1.00  0.83           O  
+ATOM    659  CB  ARG A  99      48.030   7.544  24.057  1.00  0.83           C  
+ATOM    660  CG  ARG A  99      48.049   6.050  23.694  1.00  0.83           C  
+ATOM    661  CD  ARG A  99      47.210   5.221  24.657  1.00  0.83           C  
+ATOM    662  NE  ARG A  99      45.770   5.440  24.290  1.00  0.83           N  
+ATOM    663  CZ  ARG A  99      44.753   5.234  25.138  1.00  0.83           C  
+ATOM    664  NH1 ARG A  99      44.981   4.825  26.386  1.00  0.83           N  
+ATOM    665  NH2 ARG A  99      43.516   5.496  24.725  1.00  0.83           N  
+ATOM    666  N   VAL A 100      49.934  10.588  23.746  1.00  0.89           N  
+ATOM    667  CA  VAL A 100      49.870  11.986  24.172  1.00  0.89           C  
+ATOM    668  C   VAL A 100      49.164  12.901  23.175  1.00  0.89           C  
+ATOM    669  O   VAL A 100      48.394  13.784  23.546  1.00  0.89           O  
+ATOM    670  CB  VAL A 100      51.223  12.561  24.593  1.00  0.89           C  
+ATOM    671  CG1 VAL A 100      52.174  12.792  23.395  1.00  0.89           C  
+ATOM    672  CG2 VAL A 100      51.002  13.852  25.421  1.00  0.89           C  
+ATOM    673  N   ASN A 101      49.373  12.679  21.855  1.00  0.90           N  
+ATOM    674  CA  ASN A 101      48.687  13.425  20.810  1.00  0.90           C  
+ATOM    675  C   ASN A 101      47.194  13.138  20.826  1.00  0.90           C  
+ATOM    676  O   ASN A 101      46.387  14.062  20.796  1.00  0.90           O  
+ATOM    677  CB  ASN A 101      49.283  13.151  19.406  1.00  0.90           C  
+ATOM    678  CG  ASN A 101      50.708  13.673  19.374  1.00  0.90           C  
+ATOM    679  OD1 ASN A 101      51.034  14.711  19.982  1.00  0.90           O  
+ATOM    680  ND2 ASN A 101      51.620  12.984  18.671  1.00  0.90           N  
+ATOM    681  N   GLU A 102      46.780  11.863  20.982  1.00  0.82           N  
+ATOM    682  CA  GLU A 102      45.386  11.450  21.098  1.00  0.82           C  
+ATOM    683  C   GLU A 102      44.704  12.124  22.299  1.00  0.82           C  
+ATOM    684  O   GLU A 102      43.566  12.585  22.219  1.00  0.82           O  
+ATOM    685  CB  GLU A 102      45.309   9.893  21.188  1.00  0.82           C  
+ATOM    686  CG  GLU A 102      43.909   9.261  21.468  1.00  0.82           C  
+ATOM    687  CD  GLU A 102      43.967   7.786  21.920  1.00  0.82           C  
+ATOM    688  OE1 GLU A 102      45.061   7.164  21.913  1.00  0.82           O  
+ATOM    689  OE2 GLU A 102      42.923   7.262  22.394  1.00  0.82           O  
+ATOM    690  N   ALA A 103      45.433  12.267  23.437  1.00  0.90           N  
+ATOM    691  CA  ALA A 103      45.003  13.043  24.590  1.00  0.90           C  
+ATOM    692  C   ALA A 103      44.814  14.534  24.306  1.00  0.90           C  
+ATOM    693  O   ALA A 103      43.814  15.129  24.713  1.00  0.90           O  
+ATOM    694  CB  ALA A 103      46.003  12.884  25.761  1.00  0.90           C  
+ATOM    695  N   ARG A 104      45.739  15.170  23.554  1.00  0.84           N  
+ATOM    696  CA  ARG A 104      45.619  16.543  23.087  1.00  0.84           C  
+ATOM    697  C   ARG A 104      44.373  16.755  22.235  1.00  0.84           C  
+ATOM    698  O   ARG A 104      43.639  17.725  22.415  1.00  0.84           O  
+ATOM    699  CB  ARG A 104      46.854  16.951  22.232  1.00  0.84           C  
+ATOM    700  CG  ARG A 104      46.756  18.363  21.616  1.00  0.84           C  
+ATOM    701  CD  ARG A 104      47.843  18.683  20.584  1.00  0.84           C  
+ATOM    702  NE  ARG A 104      47.515  20.040  20.013  1.00  0.84           N  
+ATOM    703  CZ  ARG A 104      46.516  20.289  19.153  1.00  0.84           C  
+ATOM    704  NH1 ARG A 104      45.802  19.311  18.603  1.00  0.84           N  
+ATOM    705  NH2 ARG A 104      46.213  21.548  18.844  1.00  0.84           N  
+ATOM    706  N   GLU A 105      44.083  15.847  21.286  1.00  0.84           N  
+ATOM    707  CA  GLU A 105      42.909  15.925  20.438  1.00  0.84           C  
+ATOM    708  C   GLU A 105      41.604  15.840  21.197  1.00  0.84           C  
+ATOM    709  O   GLU A 105      40.677  16.611  20.945  1.00  0.84           O  
+ATOM    710  CB  GLU A 105      42.976  14.849  19.343  1.00  0.84           C  
+ATOM    711  CG  GLU A 105      44.225  15.065  18.462  1.00  0.84           C  
+ATOM    712  CD  GLU A 105      44.320  14.112  17.282  1.00  0.84           C  
+ATOM    713  OE1 GLU A 105      43.403  13.269  17.111  1.00  0.84           O  
+ATOM    714  OE2 GLU A 105      45.323  14.258  16.539  1.00  0.84           O  
+ATOM    715  N   GLU A 106      41.510  14.938  22.192  1.00  0.83           N  
+ATOM    716  CA  GLU A 106      40.359  14.879  23.064  1.00  0.83           C  
+ATOM    717  C   GLU A 106      40.177  16.105  23.943  1.00  0.83           C  
+ATOM    718  O   GLU A 106      39.080  16.641  24.065  1.00  0.83           O  
+ATOM    719  CB  GLU A 106      40.372  13.635  23.959  1.00  0.83           C  
+ATOM    720  CG  GLU A 106      39.056  13.500  24.763  1.00  0.83           C  
+ATOM    721  CD  GLU A 106      37.815  13.537  23.865  1.00  0.83           C  
+ATOM    722  OE1 GLU A 106      36.844  14.270  24.179  1.00  0.83           O  
+ATOM    723  OE2 GLU A 106      37.794  12.860  22.802  1.00  0.83           O  
+ATOM    724  N   LEU A 107      41.269  16.637  24.541  1.00  0.87           N  
+ATOM    725  CA  LEU A 107      41.190  17.886  25.286  1.00  0.87           C  
+ATOM    726  C   LEU A 107      40.651  19.025  24.436  1.00  0.87           C  
+ATOM    727  O   LEU A 107      39.736  19.742  24.843  1.00  0.87           O  
+ATOM    728  CB  LEU A 107      42.592  18.314  25.803  1.00  0.87           C  
+ATOM    729  CG  LEU A 107      42.686  19.759  26.363  1.00  0.87           C  
+ATOM    730  CD1 LEU A 107      41.795  19.957  27.603  1.00  0.87           C  
+ATOM    731  CD2 LEU A 107      44.145  20.157  26.638  1.00  0.87           C  
+ATOM    732  N   MET A 108      41.166  19.185  23.204  1.00  0.86           N  
+ATOM    733  CA  MET A 108      40.701  20.195  22.272  1.00  0.86           C  
+ATOM    734  C   MET A 108      39.260  20.000  21.814  1.00  0.86           C  
+ATOM    735  O   MET A 108      38.537  20.985  21.647  1.00  0.86           O  
+ATOM    736  CB  MET A 108      41.664  20.352  21.066  1.00  0.86           C  
+ATOM    737  CG  MET A 108      43.078  20.840  21.456  1.00  0.86           C  
+ATOM    738  SD  MET A 108      43.075  22.440  22.322  1.00  0.86           S  
+ATOM    739  CE  MET A 108      44.850  22.505  22.684  1.00  0.86           C  
+ATOM    740  N   ARG A 109      38.772  18.751  21.645  1.00  0.73           N  
+ATOM    741  CA  ARG A 109      37.355  18.473  21.430  1.00  0.73           C  
+ATOM    742  C   ARG A 109      36.464  18.953  22.562  1.00  0.73           C  
+ATOM    743  O   ARG A 109      35.451  19.599  22.322  1.00  0.73           O  
+ATOM    744  CB  ARG A 109      37.066  16.961  21.274  1.00  0.73           C  
+ATOM    745  CG  ARG A 109      37.391  16.404  19.882  1.00  0.73           C  
+ATOM    746  CD  ARG A 109      36.775  15.016  19.664  1.00  0.73           C  
+ATOM    747  NE  ARG A 109      37.523  14.369  18.543  1.00  0.73           N  
+ATOM    748  CZ  ARG A 109      38.670  13.697  18.716  1.00  0.73           C  
+ATOM    749  NH1 ARG A 109      39.130  13.387  19.925  1.00  0.73           N  
+ATOM    750  NH2 ARG A 109      39.367  13.321  17.645  1.00  0.73           N  
+ATOM    751  N   MET A 110      36.845  18.687  23.827  1.00  0.77           N  
+ATOM    752  CA  MET A 110      36.132  19.190  24.990  1.00  0.77           C  
+ATOM    753  C   MET A 110      36.131  20.701  25.094  1.00  0.77           C  
+ATOM    754  O   MET A 110      35.119  21.318  25.436  1.00  0.77           O  
+ATOM    755  CB  MET A 110      36.717  18.618  26.304  1.00  0.77           C  
+ATOM    756  CG  MET A 110      36.475  17.111  26.513  1.00  0.77           C  
+ATOM    757  SD  MET A 110      34.778  16.530  26.169  1.00  0.77           S  
+ATOM    758  CE  MET A 110      33.865  17.638  27.289  1.00  0.77           C  
+ATOM    759  N   LEU A 111      37.253  21.364  24.779  1.00  0.81           N  
+ATOM    760  CA  LEU A 111      37.345  22.810  24.814  1.00  0.81           C  
+ATOM    761  C   LEU A 111      36.618  23.508  23.668  1.00  0.81           C  
+ATOM    762  O   LEU A 111      36.376  24.714  23.745  1.00  0.81           O  
+ATOM    763  CB  LEU A 111      38.820  23.278  24.800  1.00  0.81           C  
+ATOM    764  CG  LEU A 111      39.680  22.824  26.001  1.00  0.81           C  
+ATOM    765  CD1 LEU A 111      41.119  23.330  25.817  1.00  0.81           C  
+ATOM    766  CD2 LEU A 111      39.108  23.251  27.362  1.00  0.81           C  
+ATOM    767  N   ALA A 112      36.238  22.761  22.610  1.00  0.79           N  
+ATOM    768  CA  ALA A 112      35.480  23.244  21.477  1.00  0.79           C  
+ATOM    769  C   ALA A 112      33.985  23.097  21.694  1.00  0.79           C  
+ATOM    770  O   ALA A 112      33.196  23.565  20.873  1.00  0.79           O  
+ATOM    771  CB  ALA A 112      35.843  22.412  20.224  1.00  0.79           C  
+ATOM    772  N   GLU A 113      33.534  22.479  22.803  1.00  0.71           N  
+ATOM    773  CA  GLU A 113      32.130  22.466  23.162  1.00  0.71           C  
+ATOM    774  C   GLU A 113      31.646  23.867  23.534  1.00  0.71           C  
+ATOM    775  O   GLU A 113      32.198  24.502  24.433  1.00  0.71           O  
+ATOM    776  CB  GLU A 113      31.876  21.508  24.357  1.00  0.71           C  
+ATOM    777  CG  GLU A 113      32.103  20.009  24.019  1.00  0.71           C  
+ATOM    778  CD  GLU A 113      30.979  19.387  23.192  1.00  0.71           C  
+ATOM    779  OE1 GLU A 113      29.819  19.859  23.312  1.00  0.71           O  
+ATOM    780  OE2 GLU A 113      31.268  18.387  22.481  1.00  0.71           O  
+ATOM    781  N   ASP A 114      30.569  24.365  22.874  1.00  0.69           N  
+ATOM    782  CA  ASP A 114      30.010  25.705  23.032  1.00  0.69           C  
+ATOM    783  C   ASP A 114      29.670  26.039  24.477  1.00  0.69           C  
+ATOM    784  O   ASP A 114      29.975  27.118  25.000  1.00  0.69           O  
+ATOM    785  CB  ASP A 114      28.700  25.814  22.183  1.00  0.69           C  
+ATOM    786  CG  ASP A 114      28.894  26.586  20.887  1.00  0.69           C  
+ATOM    787  OD1 ASP A 114      30.052  26.928  20.551  1.00  0.69           O  
+ATOM    788  OD2 ASP A 114      27.854  26.862  20.235  1.00  0.69           O  
+ATOM    789  N   GLU A 115      29.087  25.060  25.183  1.00  0.69           N  
+ATOM    790  CA  GLU A 115      28.654  25.183  26.557  1.00  0.69           C  
+ATOM    791  C   GLU A 115      29.830  25.225  27.534  1.00  0.69           C  
+ATOM    792  O   GLU A 115      29.698  25.653  28.684  1.00  0.69           O  
+ATOM    793  CB  GLU A 115      27.694  24.016  26.895  1.00  0.69           C  
+ATOM    794  CG  GLU A 115      26.394  23.988  26.042  1.00  0.69           C  
+ATOM    795  CD  GLU A 115      25.444  25.161  26.288  1.00  0.69           C  
+ATOM    796  OE1 GLU A 115      25.575  25.849  27.329  1.00  0.69           O  
+ATOM    797  OE2 GLU A 115      24.528  25.330  25.442  1.00  0.69           O  
+ATOM    798  N   LEU A 116      31.052  24.843  27.107  1.00  0.80           N  
+ATOM    799  CA  LEU A 116      32.245  24.887  27.930  1.00  0.80           C  
+ATOM    800  C   LEU A 116      33.187  25.994  27.493  1.00  0.80           C  
+ATOM    801  O   LEU A 116      34.365  25.996  27.830  1.00  0.80           O  
+ATOM    802  CB  LEU A 116      33.027  23.552  27.900  1.00  0.80           C  
+ATOM    803  CG  LEU A 116      32.199  22.329  28.334  1.00  0.80           C  
+ATOM    804  CD1 LEU A 116      33.042  21.055  28.197  1.00  0.80           C  
+ATOM    805  CD2 LEU A 116      31.665  22.464  29.768  1.00  0.80           C  
+ATOM    806  N   ARG A 117      32.676  27.009  26.759  1.00  0.71           N  
+ATOM    807  CA  ARG A 117      33.440  28.156  26.287  1.00  0.71           C  
+ATOM    808  C   ARG A 117      34.191  28.872  27.409  1.00  0.71           C  
+ATOM    809  O   ARG A 117      35.391  29.115  27.292  1.00  0.71           O  
+ATOM    810  CB  ARG A 117      32.451  29.154  25.624  1.00  0.71           C  
+ATOM    811  CG  ARG A 117      33.076  30.470  25.092  1.00  0.71           C  
+ATOM    812  CD  ARG A 117      32.168  31.711  24.956  1.00  0.71           C  
+ATOM    813  NE  ARG A 117      30.734  31.297  25.083  1.00  0.71           N  
+ATOM    814  CZ  ARG A 117      29.762  32.085  25.564  1.00  0.71           C  
+ATOM    815  NH1 ARG A 117      29.991  33.356  25.864  1.00  0.71           N  
+ATOM    816  NH2 ARG A 117      28.562  31.565  25.803  1.00  0.71           N  
+ATOM    817  N   ASP A 118      33.515  29.129  28.546  1.00  0.79           N  
+ATOM    818  CA  ASP A 118      34.043  29.913  29.643  1.00  0.79           C  
+ATOM    819  C   ASP A 118      34.576  29.010  30.755  1.00  0.79           C  
+ATOM    820  O   ASP A 118      35.045  29.482  31.792  1.00  0.79           O  
+ATOM    821  CB  ASP A 118      32.933  30.855  30.191  1.00  0.79           C  
+ATOM    822  CG  ASP A 118      32.351  31.693  29.057  1.00  0.79           C  
+ATOM    823  OD1 ASP A 118      33.140  32.279  28.271  1.00  0.79           O  
+ATOM    824  OD2 ASP A 118      31.101  31.732  28.919  1.00  0.79           O  
+ATOM    825  N   ALA A 119      34.549  27.666  30.575  1.00  0.88           N  
+ATOM    826  CA  ALA A 119      35.040  26.732  31.572  1.00  0.88           C  
+ATOM    827  C   ALA A 119      36.515  26.892  31.918  1.00  0.88           C  
+ATOM    828  O   ALA A 119      37.388  26.969  31.052  1.00  0.88           O  
+ATOM    829  CB  ALA A 119      34.812  25.256  31.166  1.00  0.88           C  
+ATOM    830  N   VAL A 120      36.812  26.914  33.230  1.00  0.88           N  
+ATOM    831  CA  VAL A 120      38.154  26.890  33.774  1.00  0.88           C  
+ATOM    832  C   VAL A 120      38.793  25.527  33.533  1.00  0.88           C  
+ATOM    833  O   VAL A 120      38.139  24.498  33.689  1.00  0.88           O  
+ATOM    834  CB  VAL A 120      38.112  27.230  35.262  1.00  0.88           C  
+ATOM    835  CG1 VAL A 120      39.521  27.180  35.882  1.00  0.88           C  
+ATOM    836  CG2 VAL A 120      37.503  28.638  35.435  1.00  0.88           C  
+ATOM    837  N   LEU A 121      40.081  25.460  33.139  1.00  0.89           N  
+ATOM    838  CA  LEU A 121      40.721  24.202  32.799  1.00  0.89           C  
+ATOM    839  C   LEU A 121      41.814  23.866  33.793  1.00  0.89           C  
+ATOM    840  O   LEU A 121      42.782  24.605  33.976  1.00  0.89           O  
+ATOM    841  CB  LEU A 121      41.311  24.251  31.366  1.00  0.89           C  
+ATOM    842  CG  LEU A 121      42.180  23.038  30.946  1.00  0.89           C  
+ATOM    843  CD1 LEU A 121      41.402  21.707  30.924  1.00  0.89           C  
+ATOM    844  CD2 LEU A 121      42.832  23.310  29.582  1.00  0.89           C  
+ATOM    845  N   LEU A 122      41.735  22.706  34.447  1.00  0.90           N  
+ATOM    846  CA  LEU A 122      42.836  22.192  35.230  1.00  0.90           C  
+ATOM    847  C   LEU A 122      43.343  20.948  34.538  1.00  0.90           C  
+ATOM    848  O   LEU A 122      42.590  20.019  34.254  1.00  0.90           O  
+ATOM    849  CB  LEU A 122      42.373  21.881  36.672  1.00  0.90           C  
+ATOM    850  CG  LEU A 122      43.350  21.081  37.566  1.00  0.90           C  
+ATOM    851  CD1 LEU A 122      44.643  21.853  37.894  1.00  0.90           C  
+ATOM    852  CD2 LEU A 122      42.623  20.658  38.851  1.00  0.90           C  
+ATOM    853  N   VAL A 123      44.645  20.887  34.228  1.00  0.93           N  
+ATOM    854  CA  VAL A 123      45.252  19.684  33.692  1.00  0.93           C  
+ATOM    855  C   VAL A 123      46.005  18.983  34.801  1.00  0.93           C  
+ATOM    856  O   VAL A 123      46.880  19.544  35.447  1.00  0.93           O  
+ATOM    857  CB  VAL A 123      46.197  19.954  32.528  1.00  0.93           C  
+ATOM    858  CG1 VAL A 123      46.875  18.650  32.044  1.00  0.93           C  
+ATOM    859  CG2 VAL A 123      45.390  20.588  31.379  1.00  0.93           C  
+ATOM    860  N   PHE A 124      45.684  17.695  35.025  1.00  0.91           N  
+ATOM    861  CA  PHE A 124      46.484  16.836  35.868  1.00  0.91           C  
+ATOM    862  C   PHE A 124      47.454  16.065  35.003  1.00  0.91           C  
+ATOM    863  O   PHE A 124      47.082  15.175  34.239  1.00  0.91           O  
+ATOM    864  CB  PHE A 124      45.629  15.832  36.688  1.00  0.91           C  
+ATOM    865  CG  PHE A 124      44.938  16.470  37.869  1.00  0.91           C  
+ATOM    866  CD1 PHE A 124      45.586  17.392  38.709  1.00  0.91           C  
+ATOM    867  CD2 PHE A 124      43.651  16.045  38.226  1.00  0.91           C  
+ATOM    868  CE1 PHE A 124      44.977  17.857  39.879  1.00  0.91           C  
+ATOM    869  CE2 PHE A 124      43.027  16.515  39.389  1.00  0.91           C  
+ATOM    870  CZ  PHE A 124      43.694  17.423  40.218  1.00  0.91           C  
+ATOM    871  N   ALA A 125      48.753  16.396  35.139  1.00  0.92           N  
+ATOM    872  CA  ALA A 125      49.837  15.671  34.533  1.00  0.92           C  
+ATOM    873  C   ALA A 125      50.176  14.523  35.474  1.00  0.92           C  
+ATOM    874  O   ALA A 125      50.987  14.666  36.376  1.00  0.92           O  
+ATOM    875  CB  ALA A 125      51.052  16.614  34.360  1.00  0.92           C  
+ATOM    876  N   ASN A 126      49.508  13.363  35.279  1.00  0.89           N  
+ATOM    877  CA  ASN A 126      49.458  12.279  36.236  1.00  0.89           C  
+ATOM    878  C   ASN A 126      50.531  11.245  35.968  1.00  0.89           C  
+ATOM    879  O   ASN A 126      51.120  11.182  34.889  1.00  0.89           O  
+ATOM    880  CB  ASN A 126      48.034  11.633  36.230  1.00  0.89           C  
+ATOM    881  CG  ASN A 126      47.806  10.694  37.403  1.00  0.89           C  
+ATOM    882  OD1 ASN A 126      48.295  10.898  38.542  1.00  0.89           O  
+ATOM    883  ND2 ASN A 126      47.107   9.576  37.190  1.00  0.89           N  
+ATOM    884  N   LYS A 127      50.805  10.415  36.989  1.00  0.85           N  
+ATOM    885  CA  LYS A 127      51.787   9.351  36.994  1.00  0.85           C  
+ATOM    886  C   LYS A 127      53.198   9.902  36.968  1.00  0.85           C  
+ATOM    887  O   LYS A 127      54.095   9.379  36.311  1.00  0.85           O  
+ATOM    888  CB  LYS A 127      51.568   8.268  35.906  1.00  0.85           C  
+ATOM    889  CG  LYS A 127      50.096   7.903  35.686  1.00  0.85           C  
+ATOM    890  CD  LYS A 127      49.941   6.493  35.106  1.00  0.85           C  
+ATOM    891  CE  LYS A 127      48.488   6.175  34.755  1.00  0.85           C  
+ATOM    892  NZ  LYS A 127      48.409   4.970  33.920  1.00  0.85           N  
+ATOM    893  N   GLN A 128      53.424  10.997  37.726  1.00  0.81           N  
+ATOM    894  CA  GLN A 128      54.721  11.633  37.857  1.00  0.81           C  
+ATOM    895  C   GLN A 128      55.665  10.880  38.776  1.00  0.81           C  
+ATOM    896  O   GLN A 128      56.848  11.188  38.840  1.00  0.81           O  
+ATOM    897  CB  GLN A 128      54.584  13.079  38.403  1.00  0.81           C  
+ATOM    898  CG  GLN A 128      54.021  14.082  37.381  1.00  0.81           C  
+ATOM    899  CD  GLN A 128      54.969  14.333  36.208  1.00  0.81           C  
+ATOM    900  OE1 GLN A 128      56.159  14.613  36.328  1.00  0.81           O  
+ATOM    901  NE2 GLN A 128      54.372  14.284  35.000  1.00  0.81           N  
+ATOM    902  N   ASP A 129      55.159   9.864  39.504  1.00  0.82           N  
+ATOM    903  CA  ASP A 129      55.935   8.908  40.255  1.00  0.82           C  
+ATOM    904  C   ASP A 129      56.789   8.046  39.336  1.00  0.82           C  
+ATOM    905  O   ASP A 129      57.879   7.597  39.708  1.00  0.82           O  
+ATOM    906  CB  ASP A 129      54.983   8.032  41.124  1.00  0.82           C  
+ATOM    907  CG  ASP A 129      53.947   7.266  40.307  1.00  0.82           C  
+ATOM    908  OD1 ASP A 129      53.170   7.928  39.568  1.00  0.82           O  
+ATOM    909  OD2 ASP A 129      53.925   6.016  40.419  1.00  0.82           O  
+ATOM    910  N   LEU A 130      56.303   7.758  38.111  1.00  0.81           N  
+ATOM    911  CA  LEU A 130      56.984   6.859  37.214  1.00  0.81           C  
+ATOM    912  C   LEU A 130      58.311   7.400  36.685  1.00  0.81           C  
+ATOM    913  O   LEU A 130      58.364   8.552  36.255  1.00  0.81           O  
+ATOM    914  CB  LEU A 130      56.091   6.398  36.038  1.00  0.81           C  
+ATOM    915  CG  LEU A 130      54.837   5.627  36.503  1.00  0.81           C  
+ATOM    916  CD1 LEU A 130      53.954   5.249  35.305  1.00  0.81           C  
+ATOM    917  CD2 LEU A 130      55.181   4.368  37.321  1.00  0.81           C  
+ATOM    918  N   PRO A 131      59.399   6.611  36.649  1.00  0.77           N  
+ATOM    919  CA  PRO A 131      60.771   7.117  36.555  1.00  0.77           C  
+ATOM    920  C   PRO A 131      61.031   7.926  35.307  1.00  0.77           C  
+ATOM    921  O   PRO A 131      61.883   8.816  35.318  1.00  0.77           O  
+ATOM    922  CB  PRO A 131      61.659   5.847  36.579  1.00  0.77           C  
+ATOM    923  CG  PRO A 131      60.696   4.653  36.485  1.00  0.77           C  
+ATOM    924  CD  PRO A 131      59.383   5.201  37.023  1.00  0.77           C  
+ATOM    925  N   ASN A 132      60.339   7.582  34.213  1.00  0.77           N  
+ATOM    926  CA  ASN A 132      60.561   8.112  32.900  1.00  0.77           C  
+ATOM    927  C   ASN A 132      59.367   8.935  32.419  1.00  0.77           C  
+ATOM    928  O   ASN A 132      59.246   9.207  31.227  1.00  0.77           O  
+ATOM    929  CB  ASN A 132      60.809   6.912  31.948  1.00  0.77           C  
+ATOM    930  CG  ASN A 132      61.476   7.380  30.670  1.00  0.77           C  
+ATOM    931  OD1 ASN A 132      62.459   8.146  30.696  1.00  0.77           O  
+ATOM    932  ND2 ASN A 132      60.966   6.963  29.502  1.00  0.77           N  
+ATOM    933  N   ALA A 133      58.429   9.353  33.299  1.00  0.85           N  
+ATOM    934  CA  ALA A 133      57.314  10.187  32.885  1.00  0.85           C  
+ATOM    935  C   ALA A 133      57.753  11.520  32.271  1.00  0.85           C  
+ATOM    936  O   ALA A 133      58.758  12.109  32.651  1.00  0.85           O  
+ATOM    937  CB  ALA A 133      56.350  10.434  34.066  1.00  0.85           C  
+ATOM    938  N   MET A 134      57.016  12.021  31.256  1.00  0.83           N  
+ATOM    939  CA  MET A 134      57.196  13.372  30.762  1.00  0.83           C  
+ATOM    940  C   MET A 134      56.873  14.369  31.860  1.00  0.83           C  
+ATOM    941  O   MET A 134      55.905  14.210  32.595  1.00  0.83           O  
+ATOM    942  CB  MET A 134      56.257  13.663  29.569  1.00  0.83           C  
+ATOM    943  CG  MET A 134      56.463  12.723  28.366  1.00  0.83           C  
+ATOM    944  SD  MET A 134      55.388  13.088  26.941  1.00  0.83           S  
+ATOM    945  CE  MET A 134      54.010  12.041  27.476  1.00  0.83           C  
+ATOM    946  N   ASN A 135      57.680  15.433  32.014  1.00  0.84           N  
+ATOM    947  CA  ASN A 135      57.418  16.397  33.064  1.00  0.84           C  
+ATOM    948  C   ASN A 135      56.281  17.339  32.670  1.00  0.84           C  
+ATOM    949  O   ASN A 135      55.794  17.331  31.547  1.00  0.84           O  
+ATOM    950  CB  ASN A 135      58.709  17.124  33.548  1.00  0.84           C  
+ATOM    951  CG  ASN A 135      59.336  18.072  32.528  1.00  0.84           C  
+ATOM    952  OD1 ASN A 135      58.722  18.536  31.567  1.00  0.84           O  
+ATOM    953  ND2 ASN A 135      60.611  18.443  32.779  1.00  0.84           N  
+ATOM    954  N   ALA A 136      55.831  18.200  33.607  1.00  0.87           N  
+ATOM    955  CA  ALA A 136      54.762  19.146  33.345  1.00  0.87           C  
+ATOM    956  C   ALA A 136      55.030  20.101  32.180  1.00  0.87           C  
+ATOM    957  O   ALA A 136      54.129  20.352  31.386  1.00  0.87           O  
+ATOM    958  CB  ALA A 136      54.453  19.951  34.626  1.00  0.87           C  
+ATOM    959  N   ALA A 137      56.270  20.617  32.006  1.00  0.86           N  
+ATOM    960  CA  ALA A 137      56.631  21.482  30.894  1.00  0.86           C  
+ATOM    961  C   ALA A 137      56.445  20.797  29.539  1.00  0.86           C  
+ATOM    962  O   ALA A 137      55.780  21.322  28.655  1.00  0.86           O  
+ATOM    963  CB  ALA A 137      58.100  21.944  31.048  1.00  0.86           C  
+ATOM    964  N   GLU A 138      56.939  19.549  29.397  1.00  0.84           N  
+ATOM    965  CA  GLU A 138      56.765  18.745  28.203  1.00  0.84           C  
+ATOM    966  C   GLU A 138      55.303  18.411  27.902  1.00  0.84           C  
+ATOM    967  O   GLU A 138      54.836  18.494  26.773  1.00  0.84           O  
+ATOM    968  CB  GLU A 138      57.582  17.438  28.348  1.00  0.84           C  
+ATOM    969  CG  GLU A 138      57.384  16.455  27.167  1.00  0.84           C  
+ATOM    970  CD  GLU A 138      58.353  15.275  27.148  1.00  0.84           C  
+ATOM    971  OE1 GLU A 138      59.080  15.013  28.133  1.00  0.84           O  
+ATOM    972  OE2 GLU A 138      58.315  14.548  26.117  1.00  0.84           O  
+ATOM    973  N   ILE A 139      54.512  18.048  28.938  1.00  0.89           N  
+ATOM    974  CA  ILE A 139      53.070  17.832  28.811  1.00  0.89           C  
+ATOM    975  C   ILE A 139      52.329  19.089  28.371  1.00  0.89           C  
+ATOM    976  O   ILE A 139      51.429  19.030  27.532  1.00  0.89           O  
+ATOM    977  CB  ILE A 139      52.466  17.313  30.115  1.00  0.89           C  
+ATOM    978  CG1 ILE A 139      53.039  15.918  30.468  1.00  0.89           C  
+ATOM    979  CG2 ILE A 139      50.916  17.273  30.079  1.00  0.89           C  
+ATOM    980  CD1 ILE A 139      52.567  14.782  29.547  1.00  0.89           C  
+ATOM    981  N   THR A 140      52.714  20.269  28.898  1.00  0.90           N  
+ATOM    982  CA  THR A 140      52.188  21.575  28.498  1.00  0.90           C  
+ATOM    983  C   THR A 140      52.391  21.866  27.029  1.00  0.90           C  
+ATOM    984  O   THR A 140      51.435  22.272  26.350  1.00  0.90           O  
+ATOM    985  CB  THR A 140      52.824  22.722  29.276  1.00  0.90           C  
+ATOM    986  OG1 THR A 140      52.491  22.631  30.646  1.00  0.90           O  
+ATOM    987  CG2 THR A 140      52.296  24.098  28.878  1.00  0.90           C  
+ATOM    988  N   ASP A 141      53.597  21.614  26.478  1.00  0.87           N  
+ATOM    989  CA  ASP A 141      53.877  21.755  25.059  1.00  0.87           C  
+ATOM    990  C   ASP A 141      53.023  20.814  24.210  1.00  0.87           C  
+ATOM    991  O   ASP A 141      52.389  21.205  23.221  1.00  0.87           O  
+ATOM    992  CB  ASP A 141      55.358  21.391  24.760  1.00  0.87           C  
+ATOM    993  CG  ASP A 141      56.382  22.298  25.422  1.00  0.87           C  
+ATOM    994  OD1 ASP A 141      56.020  23.389  25.921  1.00  0.87           O  
+ATOM    995  OD2 ASP A 141      57.569  21.882  25.409  1.00  0.87           O  
+ATOM    996  N   LYS A 142      52.944  19.528  24.603  1.00  0.87           N  
+ATOM    997  CA  LYS A 142      52.302  18.488  23.823  1.00  0.87           C  
+ATOM    998  C   LYS A 142      50.793  18.473  23.863  1.00  0.87           C  
+ATOM    999  O   LYS A 142      50.145  18.034  22.921  1.00  0.87           O  
+ATOM   1000  CB  LYS A 142      52.827  17.112  24.249  1.00  0.87           C  
+ATOM   1001  CG  LYS A 142      54.314  17.020  23.914  1.00  0.87           C  
+ATOM   1002  CD  LYS A 142      54.861  15.601  24.024  1.00  0.87           C  
+ATOM   1003  CE  LYS A 142      56.228  15.511  23.350  1.00  0.87           C  
+ATOM   1004  NZ  LYS A 142      57.044  14.445  23.931  1.00  0.87           N  
+ATOM   1005  N   LEU A 143      50.182  19.019  24.926  1.00  0.89           N  
+ATOM   1006  CA  LEU A 143      48.748  19.194  24.959  1.00  0.89           C  
+ATOM   1007  C   LEU A 143      48.386  20.541  24.377  1.00  0.89           C  
+ATOM   1008  O   LEU A 143      47.212  20.853  24.198  1.00  0.89           O  
+ATOM   1009  CB  LEU A 143      48.200  19.113  26.398  1.00  0.89           C  
+ATOM   1010  CG  LEU A 143      48.317  17.731  27.077  1.00  0.89           C  
+ATOM   1011  CD1 LEU A 143      47.713  17.859  28.484  1.00  0.89           C  
+ATOM   1012  CD2 LEU A 143      47.630  16.598  26.290  1.00  0.89           C  
+ATOM   1013  N   GLY A 144      49.381  21.369  23.999  1.00  0.89           N  
+ATOM   1014  CA  GLY A 144      49.116  22.634  23.345  1.00  0.89           C  
+ATOM   1015  C   GLY A 144      48.589  23.712  24.242  1.00  0.89           C  
+ATOM   1016  O   GLY A 144      47.918  24.620  23.771  1.00  0.89           O  
+ATOM   1017  N   LEU A 145      48.860  23.674  25.557  1.00  0.87           N  
+ATOM   1018  CA  LEU A 145      48.245  24.602  26.499  1.00  0.87           C  
+ATOM   1019  C   LEU A 145      48.676  26.049  26.304  1.00  0.87           C  
+ATOM   1020  O   LEU A 145      47.906  26.986  26.515  1.00  0.87           O  
+ATOM   1021  CB  LEU A 145      48.485  24.193  27.964  1.00  0.87           C  
+ATOM   1022  CG  LEU A 145      48.158  22.723  28.293  1.00  0.87           C  
+ATOM   1023  CD1 LEU A 145      48.409  22.446  29.781  1.00  0.87           C  
+ATOM   1024  CD2 LEU A 145      46.714  22.354  27.915  1.00  0.87           C  
+ATOM   1025  N   HIS A 146      49.906  26.280  25.807  1.00  0.80           N  
+ATOM   1026  CA  HIS A 146      50.402  27.600  25.444  1.00  0.80           C  
+ATOM   1027  C   HIS A 146      49.623  28.266  24.315  1.00  0.80           C  
+ATOM   1028  O   HIS A 146      49.695  29.483  24.126  1.00  0.80           O  
+ATOM   1029  CB  HIS A 146      51.864  27.530  24.989  1.00  0.80           C  
+ATOM   1030  CG  HIS A 146      52.765  27.005  26.047  1.00  0.80           C  
+ATOM   1031  ND1 HIS A 146      53.571  25.969  25.682  1.00  0.80           N  
+ATOM   1032  CD2 HIS A 146      53.075  27.442  27.301  1.00  0.80           C  
+ATOM   1033  CE1 HIS A 146      54.381  25.774  26.705  1.00  0.80           C  
+ATOM   1034  NE2 HIS A 146      54.119  26.642  27.710  1.00  0.80           N  
+ATOM   1035  N   SER A 147      48.860  27.498  23.507  1.00  0.79           N  
+ATOM   1036  CA  SER A 147      48.021  28.067  22.466  1.00  0.79           C  
+ATOM   1037  C   SER A 147      46.709  28.627  22.998  1.00  0.79           C  
+ATOM   1038  O   SER A 147      46.105  29.495  22.362  1.00  0.79           O  
+ATOM   1039  CB  SER A 147      47.751  27.071  21.296  1.00  0.79           C  
+ATOM   1040  OG  SER A 147      46.767  26.090  21.620  1.00  0.79           O  
+ATOM   1041  N   LEU A 148      46.265  28.186  24.197  1.00  0.77           N  
+ATOM   1042  CA  LEU A 148      45.003  28.544  24.813  1.00  0.77           C  
+ATOM   1043  C   LEU A 148      45.046  29.926  25.451  1.00  0.77           C  
+ATOM   1044  O   LEU A 148      44.986  30.086  26.669  1.00  0.77           O  
+ATOM   1045  CB  LEU A 148      44.585  27.502  25.878  1.00  0.77           C  
+ATOM   1046  CG  LEU A 148      44.546  26.042  25.393  1.00  0.77           C  
+ATOM   1047  CD1 LEU A 148      44.265  25.133  26.601  1.00  0.77           C  
+ATOM   1048  CD2 LEU A 148      43.517  25.823  24.268  1.00  0.77           C  
+ATOM   1049  N   ARG A 149      45.155  30.980  24.630  1.00  0.62           N  
+ATOM   1050  CA  ARG A 149      45.345  32.351  25.066  1.00  0.62           C  
+ATOM   1051  C   ARG A 149      44.150  32.989  25.782  1.00  0.62           C  
+ATOM   1052  O   ARG A 149      44.333  33.835  26.658  1.00  0.62           O  
+ATOM   1053  CB  ARG A 149      45.835  33.174  23.849  1.00  0.62           C  
+ATOM   1054  CG  ARG A 149      47.313  32.863  23.511  1.00  0.62           C  
+ATOM   1055  CD  ARG A 149      47.820  33.498  22.204  1.00  0.62           C  
+ATOM   1056  NE  ARG A 149      48.032  32.429  21.161  1.00  0.62           N  
+ATOM   1057  CZ  ARG A 149      49.067  31.577  21.136  1.00  0.62           C  
+ATOM   1058  NH1 ARG A 149      50.019  31.608  22.061  1.00  0.62           N  
+ATOM   1059  NH2 ARG A 149      49.128  30.644  20.189  1.00  0.62           N  
+ATOM   1060  N   HIS A 150      42.903  32.583  25.470  1.00  0.67           N  
+ATOM   1061  CA  HIS A 150      41.697  33.166  26.057  1.00  0.67           C  
+ATOM   1062  C   HIS A 150      41.031  32.221  27.029  1.00  0.67           C  
+ATOM   1063  O   HIS A 150      39.806  32.190  27.145  1.00  0.67           O  
+ATOM   1064  CB  HIS A 150      40.625  33.551  25.010  1.00  0.67           C  
+ATOM   1065  CG  HIS A 150      41.086  34.548  24.010  1.00  0.67           C  
+ATOM   1066  ND1 HIS A 150      41.916  35.569  24.402  1.00  0.67           N  
+ATOM   1067  CD2 HIS A 150      40.750  34.683  22.698  1.00  0.67           C  
+ATOM   1068  CE1 HIS A 150      42.083  36.313  23.329  1.00  0.67           C  
+ATOM   1069  NE2 HIS A 150      41.398  35.819  22.274  1.00  0.67           N  
+ATOM   1070  N   ARG A 151      41.796  31.371  27.723  1.00  0.72           N  
+ATOM   1071  CA  ARG A 151      41.244  30.341  28.569  1.00  0.72           C  
+ATOM   1072  C   ARG A 151      41.997  30.386  29.875  1.00  0.72           C  
+ATOM   1073  O   ARG A 151      43.212  30.511  29.899  1.00  0.72           O  
+ATOM   1074  CB  ARG A 151      41.447  28.977  27.857  1.00  0.72           C  
+ATOM   1075  CG  ARG A 151      41.176  27.672  28.649  1.00  0.72           C  
+ATOM   1076  CD  ARG A 151      39.705  27.267  28.835  1.00  0.72           C  
+ATOM   1077  NE  ARG A 151      39.097  27.068  27.473  1.00  0.72           N  
+ATOM   1078  CZ  ARG A 151      37.800  26.793  27.282  1.00  0.72           C  
+ATOM   1079  NH1 ARG A 151      36.972  26.623  28.304  1.00  0.72           N  
+ATOM   1080  NH2 ARG A 151      37.295  26.648  26.057  1.00  0.72           N  
+ATOM   1081  N   ASN A 152      41.292  30.286  31.018  1.00  0.85           N  
+ATOM   1082  CA  ASN A 152      41.951  30.234  32.304  1.00  0.85           C  
+ATOM   1083  C   ASN A 152      42.366  28.791  32.565  1.00  0.85           C  
+ATOM   1084  O   ASN A 152      41.513  27.911  32.695  1.00  0.85           O  
+ATOM   1085  CB  ASN A 152      40.967  30.767  33.377  1.00  0.85           C  
+ATOM   1086  CG  ASN A 152      41.643  30.894  34.736  1.00  0.85           C  
+ATOM   1087  OD1 ASN A 152      42.846  30.781  34.887  1.00  0.85           O  
+ATOM   1088  ND2 ASN A 152      40.797  31.155  35.763  1.00  0.85           N  
+ATOM   1089  N   TRP A 153      43.686  28.516  32.612  1.00  0.85           N  
+ATOM   1090  CA  TRP A 153      44.176  27.170  32.779  1.00  0.85           C  
+ATOM   1091  C   TRP A 153      45.352  27.060  33.721  1.00  0.85           C  
+ATOM   1092  O   TRP A 153      46.073  28.014  34.002  1.00  0.85           O  
+ATOM   1093  CB  TRP A 153      44.507  26.476  31.423  1.00  0.85           C  
+ATOM   1094  CG  TRP A 153      45.626  27.103  30.599  1.00  0.85           C  
+ATOM   1095  CD1 TRP A 153      45.521  28.088  29.658  1.00  0.85           C  
+ATOM   1096  CD2 TRP A 153      47.020  26.766  30.689  1.00  0.85           C  
+ATOM   1097  NE1 TRP A 153      46.760  28.394  29.159  1.00  0.85           N  
+ATOM   1098  CE2 TRP A 153      47.704  27.610  29.773  1.00  0.85           C  
+ATOM   1099  CE3 TRP A 153      47.719  25.843  31.460  1.00  0.85           C  
+ATOM   1100  CZ2 TRP A 153      49.080  27.533  29.635  1.00  0.85           C  
+ATOM   1101  CZ3 TRP A 153      49.113  25.784  31.333  1.00  0.85           C  
+ATOM   1102  CH2 TRP A 153      49.788  26.617  30.426  1.00  0.85           C  
+ATOM   1103  N   TYR A 154      45.550  25.838  34.236  1.00  0.88           N  
+ATOM   1104  CA  TYR A 154      46.633  25.517  35.127  1.00  0.88           C  
+ATOM   1105  C   TYR A 154      47.017  24.078  34.887  1.00  0.88           C  
+ATOM   1106  O   TYR A 154      46.158  23.242  34.591  1.00  0.88           O  
+ATOM   1107  CB  TYR A 154      46.139  25.709  36.576  1.00  0.88           C  
+ATOM   1108  CG  TYR A 154      47.200  25.673  37.630  1.00  0.88           C  
+ATOM   1109  CD1 TYR A 154      47.878  26.853  37.971  1.00  0.88           C  
+ATOM   1110  CD2 TYR A 154      47.453  24.503  38.360  1.00  0.88           C  
+ATOM   1111  CE1 TYR A 154      48.784  26.868  39.040  1.00  0.88           C  
+ATOM   1112  CE2 TYR A 154      48.361  24.515  39.426  1.00  0.88           C  
+ATOM   1113  CZ  TYR A 154      49.021  25.698  39.766  1.00  0.88           C  
+ATOM   1114  OH  TYR A 154      49.908  25.702  40.857  1.00  0.88           O  
+ATOM   1115  N   ILE A 155      48.309  23.731  35.002  1.00  0.90           N  
+ATOM   1116  CA  ILE A 155      48.749  22.354  34.918  1.00  0.90           C  
+ATOM   1117  C   ILE A 155      49.389  21.980  36.232  1.00  0.90           C  
+ATOM   1118  O   ILE A 155      50.201  22.716  36.792  1.00  0.90           O  
+ATOM   1119  CB  ILE A 155      49.662  22.050  33.732  1.00  0.90           C  
+ATOM   1120  CG1 ILE A 155      49.913  20.525  33.606  1.00  0.90           C  
+ATOM   1121  CG2 ILE A 155      50.971  22.875  33.800  1.00  0.90           C  
+ATOM   1122  CD1 ILE A 155      50.515  20.120  32.258  1.00  0.90           C  
+ATOM   1123  N   GLN A 156      49.004  20.823  36.784  1.00  0.87           N  
+ATOM   1124  CA  GLN A 156      49.495  20.341  38.048  1.00  0.87           C  
+ATOM   1125  C   GLN A 156      50.117  18.971  37.850  1.00  0.87           C  
+ATOM   1126  O   GLN A 156      49.488  18.051  37.328  1.00  0.87           O  
+ATOM   1127  CB  GLN A 156      48.317  20.254  39.045  1.00  0.87           C  
+ATOM   1128  CG  GLN A 156      48.662  19.644  40.419  1.00  0.87           C  
+ATOM   1129  CD  GLN A 156      49.626  20.518  41.219  1.00  0.87           C  
+ATOM   1130  OE1 GLN A 156      49.366  21.695  41.480  1.00  0.87           O  
+ATOM   1131  NE2 GLN A 156      50.785  19.951  41.623  1.00  0.87           N  
+ATOM   1132  N   ALA A 157      51.386  18.789  38.266  1.00  0.90           N  
+ATOM   1133  CA  ALA A 157      52.015  17.491  38.395  1.00  0.90           C  
+ATOM   1134  C   ALA A 157      51.362  16.658  39.494  1.00  0.90           C  
+ATOM   1135  O   ALA A 157      51.187  17.157  40.608  1.00  0.90           O  
+ATOM   1136  CB  ALA A 157      53.494  17.727  38.757  1.00  0.90           C  
+ATOM   1137  N   THR A 158      50.976  15.394  39.222  1.00  0.89           N  
+ATOM   1138  CA  THR A 158      50.285  14.571  40.207  1.00  0.89           C  
+ATOM   1139  C   THR A 158      50.770  13.137  40.219  1.00  0.89           C  
+ATOM   1140  O   THR A 158      51.263  12.585  39.244  1.00  0.89           O  
+ATOM   1141  CB  THR A 158      48.762  14.520  40.060  1.00  0.89           C  
+ATOM   1142  OG1 THR A 158      48.322  14.032  38.806  1.00  0.89           O  
+ATOM   1143  CG2 THR A 158      48.177  15.925  40.156  1.00  0.89           C  
+ATOM   1144  N   CYS A 159      50.591  12.488  41.385  1.00  0.89           N  
+ATOM   1145  CA  CYS A 159      50.539  11.048  41.476  1.00  0.89           C  
+ATOM   1146  C   CYS A 159      49.208  10.730  42.146  1.00  0.89           C  
+ATOM   1147  O   CYS A 159      48.988  10.955  43.321  1.00  0.89           O  
+ATOM   1148  CB  CYS A 159      51.747  10.463  42.265  1.00  0.89           C  
+ATOM   1149  SG  CYS A 159      51.692   8.654  42.470  1.00  0.89           S  
+ATOM   1150  N   ALA A 160      48.241  10.199  41.369  1.00  0.92           N  
+ATOM   1151  CA  ALA A 160      46.922   9.877  41.876  1.00  0.92           C  
+ATOM   1152  C   ALA A 160      46.856   8.719  42.874  1.00  0.92           C  
+ATOM   1153  O   ALA A 160      45.972   8.669  43.736  1.00  0.92           O  
+ATOM   1154  CB  ALA A 160      46.005   9.564  40.682  1.00  0.92           C  
+ATOM   1155  N   THR A 161      47.777   7.737  42.786  1.00  0.87           N  
+ATOM   1156  CA  THR A 161      47.872   6.611  43.713  1.00  0.87           C  
+ATOM   1157  C   THR A 161      48.263   7.063  45.109  1.00  0.87           C  
+ATOM   1158  O   THR A 161      47.593   6.672  46.073  1.00  0.87           O  
+ATOM   1159  CB  THR A 161      48.805   5.503  43.225  1.00  0.87           C  
+ATOM   1160  OG1 THR A 161      49.973   6.075  42.674  1.00  0.87           O  
+ATOM   1161  CG2 THR A 161      48.114   4.734  42.091  1.00  0.87           C  
+ATOM   1162  N   SER A 162      49.277   7.948  45.259  1.00  0.87           N  
+ATOM   1163  CA  SER A 162      49.712   8.527  46.531  1.00  0.87           C  
+ATOM   1164  C   SER A 162      48.832   9.677  46.983  1.00  0.87           C  
+ATOM   1165  O   SER A 162      48.581   9.856  48.172  1.00  0.87           O  
+ATOM   1166  CB  SER A 162      51.198   8.995  46.503  1.00  0.87           C  
+ATOM   1167  OG  SER A 162      51.447   9.976  45.499  1.00  0.87           O  
+ATOM   1168  N   GLY A 163      48.284  10.452  46.030  1.00  0.89           N  
+ATOM   1169  CA  GLY A 163      47.488  11.644  46.280  1.00  0.89           C  
+ATOM   1170  C   GLY A 163      48.264  12.916  46.083  1.00  0.89           C  
+ATOM   1171  O   GLY A 163      47.657  13.989  46.111  1.00  0.89           O  
+ATOM   1172  N   ASP A 164      49.596  12.849  45.850  1.00  0.88           N  
+ATOM   1173  CA  ASP A 164      50.462  14.004  45.671  1.00  0.88           C  
+ATOM   1174  C   ASP A 164      50.028  14.894  44.512  1.00  0.88           C  
+ATOM   1175  O   ASP A 164      49.793  14.438  43.394  1.00  0.88           O  
+ATOM   1176  CB  ASP A 164      51.959  13.624  45.446  1.00  0.88           C  
+ATOM   1177  CG  ASP A 164      52.631  13.037  46.676  1.00  0.88           C  
+ATOM   1178  OD1 ASP A 164      51.924  12.619  47.621  1.00  0.88           O  
+ATOM   1179  OD2 ASP A 164      53.884  12.942  46.634  1.00  0.88           O  
+ATOM   1180  N   GLY A 165      49.885  16.210  44.774  1.00  0.90           N  
+ATOM   1181  CA  GLY A 165      49.548  17.206  43.771  1.00  0.90           C  
+ATOM   1182  C   GLY A 165      48.066  17.371  43.556  1.00  0.90           C  
+ATOM   1183  O   GLY A 165      47.631  18.380  42.990  1.00  0.90           O  
+ATOM   1184  N   LEU A 166      47.207  16.417  43.968  1.00  0.89           N  
+ATOM   1185  CA  LEU A 166      45.779  16.491  43.690  1.00  0.89           C  
+ATOM   1186  C   LEU A 166      45.088  17.655  44.349  1.00  0.89           C  
+ATOM   1187  O   LEU A 166      44.381  18.421  43.699  1.00  0.89           O  
+ATOM   1188  CB  LEU A 166      45.013  15.226  44.150  1.00  0.89           C  
+ATOM   1189  CG  LEU A 166      45.394  13.936  43.406  1.00  0.89           C  
+ATOM   1190  CD1 LEU A 166      44.555  12.774  43.958  1.00  0.89           C  
+ATOM   1191  CD2 LEU A 166      45.198  14.061  41.886  1.00  0.89           C  
+ATOM   1192  N   TYR A 167      45.309  17.829  45.660  1.00  0.81           N  
+ATOM   1193  CA  TYR A 167      44.640  18.843  46.439  1.00  0.81           C  
+ATOM   1194  C   TYR A 167      45.108  20.228  46.052  1.00  0.81           C  
+ATOM   1195  O   TYR A 167      44.284  21.119  45.882  1.00  0.81           O  
+ATOM   1196  CB  TYR A 167      44.703  18.544  47.955  1.00  0.81           C  
+ATOM   1197  CG  TYR A 167      44.033  17.218  48.223  1.00  0.81           C  
+ATOM   1198  CD1 TYR A 167      42.658  17.076  47.980  1.00  0.81           C  
+ATOM   1199  CD2 TYR A 167      44.749  16.106  48.700  1.00  0.81           C  
+ATOM   1200  CE1 TYR A 167      42.001  15.868  48.242  1.00  0.81           C  
+ATOM   1201  CE2 TYR A 167      44.097  14.888  48.948  1.00  0.81           C  
+ATOM   1202  CZ  TYR A 167      42.722  14.775  48.719  1.00  0.81           C  
+ATOM   1203  OH  TYR A 167      42.044  13.567  48.948  1.00  0.81           O  
+ATOM   1204  N   GLU A 168      46.412  20.413  45.761  1.00  0.84           N  
+ATOM   1205  CA  GLU A 168      46.972  21.651  45.256  1.00  0.84           C  
+ATOM   1206  C   GLU A 168      46.322  22.116  43.955  1.00  0.84           C  
+ATOM   1207  O   GLU A 168      45.978  23.293  43.783  1.00  0.84           O  
+ATOM   1208  CB  GLU A 168      48.500  21.493  45.003  1.00  0.84           C  
+ATOM   1209  CG  GLU A 168      49.357  21.176  46.261  1.00  0.84           C  
+ATOM   1210  CD  GLU A 168      49.336  19.729  46.763  1.00  0.84           C  
+ATOM   1211  OE1 GLU A 168      48.591  18.880  46.207  1.00  0.84           O  
+ATOM   1212  OE2 GLU A 168      50.099  19.459  47.722  1.00  0.84           O  
+ATOM   1213  N   GLY A 169      46.073  21.187  43.010  1.00  0.89           N  
+ATOM   1214  CA  GLY A 169      45.367  21.498  41.770  1.00  0.89           C  
+ATOM   1215  C   GLY A 169      43.898  21.803  41.949  1.00  0.89           C  
+ATOM   1216  O   GLY A 169      43.355  22.711  41.317  1.00  0.89           O  
+ATOM   1217  N   LEU A 170      43.204  21.060  42.833  1.00  0.79           N  
+ATOM   1218  CA  LEU A 170      41.816  21.314  43.184  1.00  0.79           C  
+ATOM   1219  C   LEU A 170      41.611  22.623  43.914  1.00  0.79           C  
+ATOM   1220  O   LEU A 170      40.645  23.328  43.623  1.00  0.79           O  
+ATOM   1221  CB  LEU A 170      41.186  20.166  44.002  1.00  0.79           C  
+ATOM   1222  CG  LEU A 170      41.178  18.820  43.251  1.00  0.79           C  
+ATOM   1223  CD1 LEU A 170      40.770  17.680  44.190  1.00  0.79           C  
+ATOM   1224  CD2 LEU A 170      40.305  18.846  41.983  1.00  0.79           C  
+ATOM   1225  N   ASP A 171      42.510  23.008  44.836  1.00  0.80           N  
+ATOM   1226  CA  ASP A 171      42.508  24.278  45.530  1.00  0.80           C  
+ATOM   1227  C   ASP A 171      42.657  25.460  44.585  1.00  0.80           C  
+ATOM   1228  O   ASP A 171      41.938  26.455  44.701  1.00  0.80           O  
+ATOM   1229  CB  ASP A 171      43.614  24.285  46.612  1.00  0.80           C  
+ATOM   1230  CG  ASP A 171      43.189  23.479  47.834  1.00  0.80           C  
+ATOM   1231  OD1 ASP A 171      42.034  22.971  47.873  1.00  0.80           O  
+ATOM   1232  OD2 ASP A 171      44.021  23.406  48.771  1.00  0.80           O  
+ATOM   1233  N   TRP A 172      43.538  25.354  43.559  1.00  0.80           N  
+ATOM   1234  CA  TRP A 172      43.582  26.338  42.487  1.00  0.80           C  
+ATOM   1235  C   TRP A 172      42.248  26.446  41.765  1.00  0.80           C  
+ATOM   1236  O   TRP A 172      41.708  27.549  41.627  1.00  0.80           O  
+ATOM   1237  CB  TRP A 172      44.693  26.007  41.440  1.00  0.80           C  
+ATOM   1238  CG  TRP A 172      44.796  27.003  40.272  1.00  0.80           C  
+ATOM   1239  CD1 TRP A 172      45.483  28.184  40.229  1.00  0.80           C  
+ATOM   1240  CD2 TRP A 172      44.070  26.904  39.032  1.00  0.80           C  
+ATOM   1241  NE1 TRP A 172      45.214  28.842  39.049  1.00  0.80           N  
+ATOM   1242  CE2 TRP A 172      44.352  28.088  38.293  1.00  0.80           C  
+ATOM   1243  CE3 TRP A 172      43.220  25.934  38.507  1.00  0.80           C  
+ATOM   1244  CZ2 TRP A 172      43.792  28.289  37.040  1.00  0.80           C  
+ATOM   1245  CZ3 TRP A 172      42.641  26.152  37.251  1.00  0.80           C  
+ATOM   1246  CH2 TRP A 172      42.934  27.311  36.517  1.00  0.80           C  
+ATOM   1247  N   LEU A 173      41.652  25.309  41.352  1.00  0.84           N  
+ATOM   1248  CA  LEU A 173      40.399  25.263  40.626  1.00  0.84           C  
+ATOM   1249  C   LEU A 173      39.252  25.852  41.418  1.00  0.84           C  
+ATOM   1250  O   LEU A 173      38.515  26.688  40.913  1.00  0.84           O  
+ATOM   1251  CB  LEU A 173      40.079  23.806  40.227  1.00  0.84           C  
+ATOM   1252  CG  LEU A 173      38.804  23.612  39.379  1.00  0.84           C  
+ATOM   1253  CD1 LEU A 173      38.826  24.402  38.056  1.00  0.84           C  
+ATOM   1254  CD2 LEU A 173      38.612  22.113  39.113  1.00  0.84           C  
+ATOM   1255  N   SER A 174      39.159  25.490  42.715  1.00  0.76           N  
+ATOM   1256  CA  SER A 174      38.220  26.022  43.697  1.00  0.76           C  
+ATOM   1257  C   SER A 174      38.188  27.534  43.715  1.00  0.76           C  
+ATOM   1258  O   SER A 174      37.135  28.142  43.525  1.00  0.76           O  
+ATOM   1259  CB  SER A 174      38.630  25.553  45.128  1.00  0.76           C  
+ATOM   1260  OG  SER A 174      37.597  24.813  45.775  1.00  0.76           O  
+ATOM   1261  N   ASN A 175      39.371  28.165  43.858  1.00  0.77           N  
+ATOM   1262  CA  ASN A 175      39.558  29.604  43.903  1.00  0.77           C  
+ATOM   1263  C   ASN A 175      39.235  30.302  42.578  1.00  0.77           C  
+ATOM   1264  O   ASN A 175      38.771  31.439  42.544  1.00  0.77           O  
+ATOM   1265  CB  ASN A 175      41.010  29.891  44.378  1.00  0.77           C  
+ATOM   1266  CG  ASN A 175      41.291  31.377  44.531  1.00  0.77           C  
+ATOM   1267  OD1 ASN A 175      40.693  32.073  45.369  1.00  0.77           O  
+ATOM   1268  ND2 ASN A 175      42.226  31.927  43.738  1.00  0.77           N  
+ATOM   1269  N   GLN A 176      39.471  29.663  41.417  1.00  0.78           N  
+ATOM   1270  CA  GLN A 176      39.061  30.242  40.143  1.00  0.78           C  
+ATOM   1271  C   GLN A 176      37.559  30.375  39.986  1.00  0.78           C  
+ATOM   1272  O   GLN A 176      37.055  31.292  39.327  1.00  0.78           O  
+ATOM   1273  CB  GLN A 176      39.595  29.438  38.941  1.00  0.78           C  
+ATOM   1274  CG  GLN A 176      41.134  29.365  38.885  1.00  0.78           C  
+ATOM   1275  CD  GLN A 176      41.791  30.731  39.042  1.00  0.78           C  
+ATOM   1276  OE1 GLN A 176      41.364  31.731  38.431  1.00  0.78           O  
+ATOM   1277  NE2 GLN A 176      42.852  30.838  39.854  1.00  0.78           N  
+ATOM   1278  N   LEU A 177      36.810  29.442  40.596  1.00  0.73           N  
+ATOM   1279  CA  LEU A 177      35.371  29.423  40.526  1.00  0.73           C  
+ATOM   1280  C   LEU A 177      34.664  30.439  41.382  1.00  0.73           C  
+ATOM   1281  O   LEU A 177      33.499  30.696  41.095  1.00  0.73           O  
+ATOM   1282  CB  LEU A 177      34.798  28.058  40.900  1.00  0.73           C  
+ATOM   1283  CG  LEU A 177      35.288  26.935  39.991  1.00  0.73           C  
+ATOM   1284  CD1 LEU A 177      34.703  25.642  40.538  1.00  0.73           C  
+ATOM   1285  CD2 LEU A 177      34.950  27.143  38.502  1.00  0.73           C  
+ATOM   1286  N   ARG A 178      35.355  31.014  42.389  1.00  0.65           N  
+ATOM   1287  CA  ARG A 178      35.180  32.339  42.946  1.00  0.65           C  
+ATOM   1288  C   ARG A 178      35.673  32.416  44.405  1.00  0.65           C  
+ATOM   1289  O   ARG A 178      36.036  31.365  44.994  1.00  0.65           O  
+ATOM   1290  CB  ARG A 178      33.785  33.023  42.841  1.00  0.65           C  
+ATOM   1291  CG  ARG A 178      33.762  34.205  41.851  1.00  0.65           C  
+ATOM   1292  CD  ARG A 178      33.770  33.863  40.346  1.00  0.65           C  
+ATOM   1293  NE  ARG A 178      35.069  34.273  39.698  1.00  0.65           N  
+ATOM   1294  CZ  ARG A 178      35.459  35.542  39.510  1.00  0.65           C  
+ATOM   1295  NH1 ARG A 178      34.724  36.555  39.952  1.00  0.65           N  
+ATOM   1296  NH2 ARG A 178      36.626  35.798  38.927  1.00  0.65           N  
+ATOM   1297  OXT ARG A 178      35.689  33.566  44.928  1.00  0.65           O  
+TER    1298      ARG A 178                                                      
+HETATM 1299  PB  GDP _   2      40.959   5.647  34.203  1.00 26.65           P  
+HETATM 1300  O1B GDP _   2      39.812   5.745  35.229  1.00 23.14           O  
+HETATM 1301  O2B GDP _   2      41.324   7.075  33.770  1.00 24.54           O  
+HETATM 1302  O3B GDP _   2      40.671   4.776  33.025  1.00 26.86           O  
+HETATM 1303  O3A GDP _   2      42.273   5.141  34.991  1.00 26.93           O  
+HETATM 1304  PA  GDP _   2      42.449   4.434  36.420  1.00 25.42           P  
+HETATM 1305  O1A GDP _   2      42.195   5.368  37.531  1.00 25.37           O  
+HETATM 1306  O2A GDP _   2      41.641   3.167  36.312  1.00 22.26           O  
+HETATM 1307  O5' GDP _   2      44.032   4.128  36.422  1.00 25.12           O  
+HETATM 1308  C5' GDP _   2      44.568   3.244  35.449  1.00 26.46           C  
+HETATM 1309  C4' GDP _   2      45.797   2.571  36.095  1.00 25.28           C  
+HETATM 1310  O4' GDP _   2      46.833   3.501  36.406  1.00 24.66           O  
+HETATM 1311  C3' GDP _   2      45.478   1.842  37.383  1.00 29.90           C  
+HETATM 1312  O3' GDP _   2      46.167   0.614  37.363  1.00 31.03           O  
+HETATM 1313  C2' GDP _   2      45.941   2.788  38.438  1.00 25.67           C  
+HETATM 1314  O2' GDP _   2      46.296   2.280  39.725  1.00 30.62           O  
+HETATM 1315  C1' GDP _   2      47.149   3.428  37.802  1.00 27.70           C  
+HETATM 1316  N9  GDP _   2      47.429   4.754  38.220  1.00 25.45           N  
+HETATM 1317  C8  GDP _   2      46.534   5.839  38.361  1.00 27.14           C  
+HETATM 1318  N7  GDP _   2      47.232   6.903  38.706  1.00 26.56           N  
+HETATM 1319  C5  GDP _   2      48.547   6.528  38.768  1.00 27.14           C  
+HETATM 1320  C6  GDP _   2      49.747   7.199  39.074  1.00 28.10           C  
+HETATM 1321  O6  GDP _   2      49.825   8.375  39.365  1.00 27.75           O  
+HETATM 1322  N1  GDP _   2      50.924   6.499  39.079  1.00 29.09           N  
+HETATM 1323  C2  GDP _   2      50.949   5.171  38.751  1.00 30.40           C  
+HETATM 1324  N2  GDP _   2      52.149   4.551  38.574  1.00 33.37           N  
+HETATM 1325  N3  GDP _   2      49.797   4.522  38.450  1.00 29.29           N  
+HETATM 1326  C4  GDP _   2      48.633   5.195  38.478  1.00 27.14           C  
+CONECT 1299 1300 1301 1302 1303
+CONECT 1300 1299
+CONECT 1301 1299
+CONECT 1302 1299
+CONECT 1303 1299 1304
+CONECT 1304 1303 1305 1306 1307
+CONECT 1305 1304
+CONECT 1306 1304
+CONECT 1307 1304 1308
+CONECT 1308 1307 1309
+CONECT 1309 1308 1310 1311
+CONECT 1310 1309 1315
+CONECT 1311 1309 1312 1313
+CONECT 1312 1311
+CONECT 1313 1311 1314 1315
+CONECT 1314 1313
+CONECT 1315 1310 1313 1316
+CONECT 1316 1315 1317 1326
+CONECT 1317 1316 1318
+CONECT 1318 1317 1319
+CONECT 1319 1318 1320 1326
+CONECT 1320 1319 1321 1322
+CONECT 1321 1320
+CONECT 1322 1320 1323
+CONECT 1323 1322 1324 1325
+CONECT 1324 1323
+CONECT 1325 1323 1326
+CONECT 1326 1316 1319 1325
+END   
-- 
GitLab