From 627f06c73e66b2f5d937c2d055d23195bdd3493d Mon Sep 17 00:00:00 2001
From: Gabriel Studer <gabriel.studer@unibas.ch>
Date: Mon, 17 Feb 2025 18:13:01 +0100
Subject: [PATCH] scoring: add examples for compare-structures and
compare-ligand-structures actions
---
examples/scoring/README.md | 61 +
...compare-ligand-structures_example_out.json | 533 +++
.../compare-structures_example_out.json | 562 +++
examples/scoring/model.pdb | 3802 +++++++++++++++++
examples/scoring/model_ligand-1.sdf | 155 +
examples/scoring/model_ligand-2.sdf | 46 +
examples/scoring/model_ligand-3.sdf | 159 +
examples/scoring/reference.cif.gz | Bin 0 -> 210954 bytes
8 files changed, 5318 insertions(+)
create mode 100644 examples/scoring/README.md
create mode 100644 examples/scoring/compare-ligand-structures_example_out.json
create mode 100644 examples/scoring/compare-structures_example_out.json
create mode 100644 examples/scoring/model.pdb
create mode 100644 examples/scoring/model_ligand-1.sdf
create mode 100644 examples/scoring/model_ligand-2.sdf
create mode 100644 examples/scoring/model_ligand-3.sdf
create mode 100644 examples/scoring/reference.cif.gz
diff --git a/examples/scoring/README.md b/examples/scoring/README.md
new file mode 100644
index 000000000..3e79b4d0a
--- /dev/null
+++ b/examples/scoring/README.md
@@ -0,0 +1,61 @@
+Structure comparison examples
+=============================
+
+OpenStructure provides "actions" for general benchmarking use cases.
+
+* compare-structures: Focuses on comparisons involving polymer entities, i.e.
+ protein, DNA and RNA chains
+* compare-ligand-structures: Focuses on comparisons of interactions between
+ polymer entities and non-polymer entities, i.e. small molecule ligands
+
+The example commands here assume an OpenStructure installation
+(compile instructions: https://openstructure.org/docs/dev/install/). Detailed
+instructions for running equivalent computations are available for
+
+* Docker: https://git.scicore.unibas.ch/schwede/openstructure/tree/master/docker
+* Singularity https://git.scicore.unibas.ch/schwede/openstructure/tree/master/singularity
+
+The command
+
+```
+ost <ACTION> -h
+```
+
+will list all available options of the respective action. Both actions compute
+scores on an “opt-in†basis and produce output in JSON format. Example to compute
+global and per-residue LDDT scores, as well as as QS-scores which are written to
+default output (out.json):
+
+```
+ost compare-structures -m model.pdb -r reference.cif.gz --lddt --local-lddt --qs-score
+```
+
+By default, model-reference chains are aligned using Needleman-Wunsch.
+Many benchmarking efforts such as CASP and CAMEO assume residue numbers
+according to target sequence(s). Both "actions" allow to derive model-reference
+chain alignments according to these numbers which should be preferred in these
+cases. This can be enabled by adding a `-rna` (residue number alignment) flag:
+
+```
+ost compare-structures -m model.pdb -r reference.cif.gz --lddt --local-lddt --qs-score -rna
+```
+
+The same example also contains small molecule ligands which can be scored with:
+
+```
+ost compare-ligand-structures -m model.pdb -r reference.cif.gz -ml *.sdf --rmsd --lddt-pli
+```
+
+Again, it is advised to use the `-rna` flag if applicable. In this example,
+reference ligands are directly extracted from the provided mmCIF file based on
+"non-polymer" entity types.
+This only works in case of mmCIF input AND if the respective ligand is in the
+PDB component dictionary which defines connectivity (matching based on compound
+name).
+Container solutions come with such a dictionary which has been created at build
+time. Check the Docker/Singularity instructions linked above on how to set the
+latest dictionary, i.e. "Compound Library".
+You can override automatic extraction by providing SDF files with ligand
+coordinates and connectivity information. If the receptor is provided in
+PDB format, ligands must be provided in SDF format.
+
diff --git a/examples/scoring/compare-ligand-structures_example_out.json b/examples/scoring/compare-ligand-structures_example_out.json
new file mode 100644
index 000000000..0553ba5a9
--- /dev/null
+++ b/examples/scoring/compare-ligand-structures_example_out.json
@@ -0,0 +1,533 @@
+{
+ "model_ligands": [
+ "model_ligand-1.sdf",
+ "model_ligand-2.sdf",
+ "model_ligand-3.sdf"
+ ],
+ "reference_ligands": [
+ "C.1.",
+ "D.1.",
+ "E.1."
+ ],
+ "lddt_pli": {
+ "assigned_scores": [
+ {
+ "score": 0.791304349899292,
+ "coverage": 1.0,
+ "lddt_pli_n_contacts": 1035,
+ "model_ligand": "model_ligand-1.sdf",
+ "reference_ligand": "D.1.",
+ "bs_ref_res": [
+ "A.233.",
+ "A.95.",
+ "A.38.",
+ "A.113.",
+ "A.248.",
+ "A.229.",
+ "A.57.",
+ "A.126.",
+ "A.122.",
+ "A.244.",
+ "A.36.",
+ "A.137.",
+ "A.118.",
+ "A.98.",
+ "A.127.",
+ "A.94.",
+ "A.133.",
+ "A.226.",
+ "A.246.",
+ "A.54.",
+ "A.60.",
+ "A.52.",
+ "A.91.",
+ "A.111.",
+ "A.45.",
+ "A.33.",
+ "A.228.",
+ "A.132.",
+ "A.225.",
+ "A.96.",
+ "A.116.",
+ "A.100.",
+ "A.135.",
+ "A.124.",
+ "A.34.",
+ "A.58.",
+ "A.129.",
+ "A.93.",
+ "A.101.",
+ "A.110.",
+ "A.109.",
+ "A.245.",
+ "A.232.",
+ "A.235.",
+ "A.119.",
+ "A.251.",
+ "A.153.",
+ "A.50.",
+ "A.103.",
+ "A.134.",
+ "A.130.",
+ "A.66.",
+ "A.92.",
+ "A.61.",
+ "A.63.",
+ "A.55.",
+ "A.131.",
+ "A.230.",
+ "A.247.",
+ "A.56.",
+ "A.112.",
+ "A.222.",
+ "A.64.",
+ "A.236.",
+ "A.102.",
+ "A.99.",
+ "A.65.",
+ "A.97.",
+ "A.136.",
+ "A.35.",
+ "A.62.",
+ "A.123.",
+ "A.231.",
+ "A.37.",
+ "A.49.",
+ "A.32.",
+ "A.128.",
+ "A.234.",
+ "A.125.",
+ "A.59.",
+ "A.53.",
+ "A.224.",
+ "A.120.",
+ "A.51.",
+ "A.88.",
+ "A.114.",
+ "A.227.",
+ "A.157."
+ ],
+ "bs_mdl_res": [
+ "B.54.",
+ "B.136.",
+ "B.95.",
+ "B.236.",
+ "B.62.",
+ "B.243.",
+ "B.233.",
+ "B.232.",
+ "B.130.",
+ "B.91.",
+ "B.240.",
+ "B.57.",
+ "B.132.",
+ "B.128.",
+ "B.92.",
+ "B.247.",
+ "B.244.",
+ "B.61.",
+ "B.118.",
+ "B.96.",
+ "B.55.",
+ "B.229.",
+ "B.59.",
+ "B.98.",
+ "B.51.",
+ "B.241.",
+ "B.112.",
+ "B.133.",
+ "B.129.",
+ "B.58.",
+ "B.56.",
+ "B.99.",
+ "B.110.",
+ "B.242.",
+ "B.102."
+ ]
+ },
+ {
+ "score": 0.0,
+ "coverage": 1.0,
+ "lddt_pli_n_contacts": 1338,
+ "model_ligand": "model_ligand-3.sdf",
+ "reference_ligand": "E.1.",
+ "bs_ref_res": [
+ "B.250.",
+ "B.57.",
+ "B.98.",
+ "B.36.",
+ "B.230.",
+ "B.94.",
+ "B.157.",
+ "B.112.",
+ "B.222.",
+ "B.241.",
+ "B.128.",
+ "B.54.",
+ "B.60.",
+ "B.52.",
+ "B.123.",
+ "B.231.",
+ "B.242.",
+ "B.248.",
+ "B.91.",
+ "B.137.",
+ "B.33.",
+ "B.234.",
+ "B.243.",
+ "B.133.",
+ "B.96.",
+ "B.100.",
+ "B.34.",
+ "B.120.",
+ "B.224.",
+ "B.244.",
+ "B.110.",
+ "B.58.",
+ "B.93.",
+ "B.101.",
+ "B.114.",
+ "B.227.",
+ "B.130.",
+ "B.233.",
+ "B.50.",
+ "B.103.",
+ "B.113.",
+ "B.246.",
+ "B.229.",
+ "B.122.",
+ "B.131.",
+ "B.135.",
+ "B.66.",
+ "B.61.",
+ "B.92.",
+ "B.63.",
+ "B.118.",
+ "B.55.",
+ "B.56.",
+ "B.64.",
+ "B.153.",
+ "B.99.",
+ "B.102.",
+ "B.226.",
+ "B.65.",
+ "B.134.",
+ "B.109.",
+ "B.251.",
+ "B.97.",
+ "B.35.",
+ "B.126.",
+ "B.62.",
+ "B.37.",
+ "B.245.",
+ "B.49.",
+ "B.32.",
+ "B.111.",
+ "B.127.",
+ "B.129.",
+ "B.228.",
+ "B.116.",
+ "B.53.",
+ "B.225.",
+ "B.59.",
+ "B.124.",
+ "B.51.",
+ "B.247.",
+ "B.47.",
+ "B.136.",
+ "B.88.",
+ "B.119.",
+ "B.125.",
+ "B.232.",
+ "B.132.",
+ "B.95."
+ ],
+ "bs_mdl_res": [
+ "B.70.",
+ "B.80.",
+ "B.77.",
+ "B.78.",
+ "B.79.",
+ "B.179.",
+ "B.74.",
+ "B.249.",
+ "B.252.",
+ "B.76.",
+ "B.83.",
+ "B.75.",
+ "B.253.",
+ "B.178.",
+ "B.175.",
+ "B.182.",
+ "B.255.",
+ "B.254."
+ ]
+ }
+ ],
+ "model_ligand_unassigned_reason": {
+ "model_ligand-2.sdf": [
+ "no_iso",
+ "No full isomorphic match could be found - enabling substructure_match might allow a match"
+ ]
+ },
+ "reference_ligand_unassigned_reason": {
+ "C.1.": [
+ "no_iso",
+ "No full isomorphic match could be found - enabling substructure_match might allow a match"
+ ]
+ }
+ },
+ "rmsd": {
+ "assigned_scores": [
+ {
+ "score": 1.3892921209335327,
+ "coverage": 1.0,
+ "lddt_lp": 0.9220483938256153,
+ "bb_rmsd": 0.6037176251411438,
+ "model_ligand": "model_ligand-1.sdf",
+ "reference_ligand": "D.1.",
+ "chain_mapping": {
+ "A": "B"
+ },
+ "bs_ref_res": [
+ "A.51.",
+ "A.54.",
+ "A.55.",
+ "A.57.",
+ "A.58.",
+ "A.59.",
+ "A.61.",
+ "A.91.",
+ "A.92.",
+ "A.95.",
+ "A.96.",
+ "A.99.",
+ "A.102.",
+ "A.112.",
+ "A.129.",
+ "A.132.",
+ "A.133.",
+ "A.136.",
+ "A.232.",
+ "A.233.",
+ "A.244.",
+ "A.247."
+ ],
+ "bs_ref_res_mapped": [
+ "A.51.",
+ "A.54.",
+ "A.55.",
+ "A.57.",
+ "A.58.",
+ "A.59.",
+ "A.61.",
+ "A.91.",
+ "A.92.",
+ "A.95.",
+ "A.96.",
+ "A.99.",
+ "A.102.",
+ "A.112.",
+ "A.129.",
+ "A.132.",
+ "A.133.",
+ "A.136.",
+ "A.232.",
+ "A.233.",
+ "A.244.",
+ "A.247."
+ ],
+ "bs_mdl_res_mapped": [
+ "B.51.",
+ "B.54.",
+ "B.55.",
+ "B.57.",
+ "B.58.",
+ "B.59.",
+ "B.61.",
+ "B.91.",
+ "B.92.",
+ "B.95.",
+ "B.96.",
+ "B.99.",
+ "B.102.",
+ "B.112.",
+ "B.129.",
+ "B.132.",
+ "B.133.",
+ "B.136.",
+ "B.232.",
+ "B.233.",
+ "B.244.",
+ "B.247."
+ ],
+ "inconsistent_residues": [],
+ "transform": [
+ [
+ -0.3686985373497009,
+ 0.3980128765106201,
+ 0.8400280475616455,
+ 7.079176902770996
+ ],
+ [
+ -0.8913460969924927,
+ -0.40779373049736023,
+ -0.19800609350204468,
+ -3.9579238891601562
+ ],
+ [
+ 0.26374921202659607,
+ -0.8217602968215942,
+ 0.5051202774047852,
+ 6.306806564331055
+ ],
+ [
+ 0.0,
+ 0.0,
+ 0.0,
+ 1.0
+ ]
+ ]
+ },
+ {
+ "score": 29.482725143432617,
+ "coverage": 1.0,
+ "lddt_lp": 0.9362713153035733,
+ "bb_rmsd": 0.3739512264728546,
+ "model_ligand": "model_ligand-3.sdf",
+ "reference_ligand": "E.1.",
+ "chain_mapping": {
+ "B": "B"
+ },
+ "bs_ref_res": [
+ "B.54.",
+ "B.55.",
+ "B.58.",
+ "B.59.",
+ "B.61.",
+ "B.62.",
+ "B.91.",
+ "B.92.",
+ "B.95.",
+ "B.96.",
+ "B.99.",
+ "B.102.",
+ "B.112.",
+ "B.129.",
+ "B.132.",
+ "B.133.",
+ "B.136.",
+ "B.233.",
+ "B.247."
+ ],
+ "bs_ref_res_mapped": [
+ "B.54.",
+ "B.55.",
+ "B.58.",
+ "B.59.",
+ "B.61.",
+ "B.62.",
+ "B.91.",
+ "B.92.",
+ "B.95.",
+ "B.96.",
+ "B.99.",
+ "B.102.",
+ "B.112.",
+ "B.129.",
+ "B.132.",
+ "B.133.",
+ "B.136.",
+ "B.233.",
+ "B.247."
+ ],
+ "bs_mdl_res_mapped": [
+ "B.54.",
+ "B.55.",
+ "B.58.",
+ "B.59.",
+ "B.61.",
+ "B.62.",
+ "B.91.",
+ "B.92.",
+ "B.95.",
+ "B.96.",
+ "B.99.",
+ "B.102.",
+ "B.112.",
+ "B.129.",
+ "B.132.",
+ "B.133.",
+ "B.136.",
+ "B.233.",
+ "B.247."
+ ],
+ "inconsistent_residues": [],
+ "transform": [
+ [
+ -0.5568894743919373,
+ -0.6022372841835022,
+ -0.5720000267028809,
+ 41.09874725341797
+ ],
+ [
+ -0.7276356816291809,
+ 0.021647661924362183,
+ 0.6856220960617065,
+ -26.01633644104004
+ ],
+ [
+ -0.4005247950553894,
+ 0.7980234622955322,
+ -0.4502646327018738,
+ 42.01909637451172
+ ],
+ [
+ 0.0,
+ 0.0,
+ 0.0,
+ 1.0
+ ]
+ ]
+ }
+ ],
+ "model_ligand_unassigned_reason": {
+ "model_ligand-2.sdf": [
+ "no_iso",
+ "No full isomorphic match could be found - enabling substructure_match might allow a match"
+ ]
+ },
+ "reference_ligand_unassigned_reason": {
+ "C.1.": [
+ "no_iso",
+ "No full isomorphic match could be found - enabling substructure_match might allow a match"
+ ]
+ }
+ },
+ "model": "model.pdb",
+ "reference": "reference.cif.gz",
+ "model_cleanup_log": {
+ "cleaned_residues": {
+ "no_clib": [],
+ "not_linking": []
+ },
+ "cleaned_atoms": {
+ "unknown_atoms": []
+ }
+ },
+ "reference_cleanup_log": {
+ "cleaned_residues": {
+ "no_clib": [],
+ "not_linking": []
+ },
+ "cleaned_atoms": {
+ "unknown_atoms": []
+ }
+ },
+ "resnum_alignments": false,
+ "substructure_match": false,
+ "coverage_delta": 0.2,
+ "max_symmetries": 10000.0,
+ "ost_version": "2.9.2",
+ "status": "SUCCESS"
+}
\ No newline at end of file
diff --git a/examples/scoring/compare-structures_example_out.json b/examples/scoring/compare-structures_example_out.json
new file mode 100644
index 000000000..716f92295
--- /dev/null
+++ b/examples/scoring/compare-structures_example_out.json
@@ -0,0 +1,562 @@
+{
+ "reference_chains": [
+ "A",
+ "B",
+ "C"
+ ],
+ "model_chains": [
+ "A",
+ "B"
+ ],
+ "chem_groups": [
+ [
+ "A",
+ "B"
+ ]
+ ],
+ "chem_mapping": [
+ [
+ "A",
+ "B"
+ ]
+ ],
+ "chain_mapping": {
+ "A": "B",
+ "B": "A"
+ },
+ "aln": [
+ ">reference:A\nLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKSVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTF--STLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSM-------LSDLLLEMLDAHRL\n>model:B\n----LTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKSVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFLSSTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMKSKNVVPLSDLLLEMLDAHR-",
+ ">reference:B\nLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKSVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVY---------LEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYS-----VVPLSDLLLEMLDA-\n>model:A\n-----TADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKSVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFLSSTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMKSKNVVPLSDLLLEMLDAH"
+ ],
+ "inconsistent_residues": [],
+ "lddt": 0.874,
+ "local_lddt": {
+ "A.19.": 0.797,
+ "A.20.": 0.868,
+ "A.21.": 0.726,
+ "A.22.": 0.783,
+ "A.23.": 0.735,
+ "A.24.": 0.881,
+ "A.25.": 0.849,
+ "A.26.": 0.873,
+ "A.27.": 0.911,
+ "A.28.": 0.94,
+ "A.29.": 0.919,
+ "A.30.": 0.933,
+ "A.31.": 0.972,
+ "A.32.": 0.952,
+ "A.33.": 0.946,
+ "A.34.": 0.972,
+ "A.35.": 0.949,
+ "A.36.": 0.916,
+ "A.37.": 0.817,
+ "A.38.": 0.724,
+ "A.39.": 0.694,
+ "A.40.": 0.776,
+ "A.41.": 0.655,
+ "A.42.": 0.769,
+ "A.43.": 0.692,
+ "A.44.": 0.676,
+ "A.45.": 0.741,
+ "A.46.": 0.655,
+ "A.47.": 0.666,
+ "A.48.": 0.659,
+ "A.49.": 0.803,
+ "A.50.": 0.808,
+ "A.51.": 0.773,
+ "A.52.": 0.845,
+ "A.53.": 0.907,
+ "A.54.": 0.894,
+ "A.55.": 0.844,
+ "A.56.": 0.871,
+ "A.57.": 0.94,
+ "A.58.": 0.902,
+ "A.59.": 0.804,
+ "A.60.": 0.896,
+ "A.61.": 0.941,
+ "A.62.": 0.85,
+ "A.63.": 0.832,
+ "A.64.": 0.904,
+ "A.65.": 0.943,
+ "A.66.": 0.885,
+ "A.67.": 0.899,
+ "A.68.": 0.96,
+ "A.69.": 0.933,
+ "A.70.": 0.834,
+ "A.71.": 0.813,
+ "A.72.": 0.882,
+ "A.73.": 0.833,
+ "A.74.": 0.853,
+ "A.75.": 0.88,
+ "A.76.": 0.764,
+ "A.77.": 0.784,
+ "A.78.": 0.846,
+ "A.79.": 0.879,
+ "A.80.": 0.849,
+ "A.81.": 0.825,
+ "A.82.": 0.891,
+ "A.83.": 0.87,
+ "A.84.": 0.891,
+ "A.85.": 0.817,
+ "A.86.": 0.92,
+ "A.87.": 0.911,
+ "A.88.": 0.847,
+ "A.89.": 0.9,
+ "A.90.": 0.95,
+ "A.91.": 0.914,
+ "A.92.": 0.934,
+ "A.93.": 0.958,
+ "A.94.": 0.921,
+ "A.95.": 0.96,
+ "A.96.": 0.953,
+ "A.97.": 0.98,
+ "A.98.": 0.988,
+ "A.99.": 0.968,
+ "A.100.": 0.971,
+ "A.101.": 0.985,
+ "A.102.": 0.941,
+ "A.103.": 0.956,
+ "A.104.": 0.918,
+ "A.105.": 0.97,
+ "A.106.": 0.975,
+ "A.107.": 0.942,
+ "A.108.": 0.926,
+ "A.109.": 0.954,
+ "A.110.": 0.951,
+ "A.111.": 0.92,
+ "A.112.": 0.956,
+ "A.113.": 0.948,
+ "A.114.": 0.924,
+ "A.115.": 0.875,
+ "A.116.": 0.906,
+ "A.117.": 0.905,
+ "A.118.": 0.882,
+ "A.119.": 0.93,
+ "A.120.": 0.823,
+ "A.121.": 0.904,
+ "A.122.": 0.843,
+ "A.123.": 0.898,
+ "A.124.": 0.871,
+ "A.125.": 0.777,
+ "A.126.": 0.78,
+ "A.127.": 0.868,
+ "A.128.": 0.881,
+ "A.129.": 0.825,
+ "A.130.": 0.877,
+ "A.131.": 0.897,
+ "A.132.": 0.89,
+ "A.133.": 0.915,
+ "A.134.": 0.881,
+ "A.135.": 0.888,
+ "A.136.": 0.929,
+ "A.137.": 0.901,
+ "A.138.": 0.9,
+ "A.139.": 0.941,
+ "A.140.": 0.934,
+ "A.141.": 0.831,
+ "A.142.": 0.887,
+ "A.143.": 0.952,
+ "A.144.": 0.884,
+ "A.145.": 0.859,
+ "A.146.": 0.915,
+ "A.147.": 0.965,
+ "A.148.": 0.985,
+ "A.149.": 0.976,
+ "A.150.": 0.975,
+ "A.151.": 0.951,
+ "A.152.": 0.97,
+ "A.153.": 0.983,
+ "A.154.": 0.964,
+ "A.155.": 0.945,
+ "A.156.": 0.969,
+ "A.157.": 0.958,
+ "A.158.": 0.903,
+ "A.159.": 0.949,
+ "A.160.": 0.968,
+ "A.161.": 0.945,
+ "A.162.": 0.911,
+ "A.163.": 0.875,
+ "A.164.": 0.946,
+ "A.165.": 0.93,
+ "A.166.": 0.89,
+ "A.167.": 0.829,
+ "A.168.": null,
+ "A.169.": null,
+ "A.170.": null,
+ "A.171.": null,
+ "A.172.": null,
+ "A.173.": null,
+ "A.174.": null,
+ "A.175.": null,
+ "A.176.": null,
+ "A.177.": 0.757,
+ "A.178.": 0.757,
+ "A.179.": 0.798,
+ "A.180.": 0.798,
+ "A.181.": 0.745,
+ "A.182.": 0.738,
+ "A.183.": 0.849,
+ "A.184.": 0.859,
+ "A.185.": 0.675,
+ "A.186.": 0.794,
+ "A.187.": 0.882,
+ "A.188.": 0.855,
+ "A.189.": 0.716,
+ "A.190.": 0.863,
+ "A.191.": 0.895,
+ "A.192.": 0.89,
+ "A.193.": 0.882,
+ "A.194.": 0.883,
+ "A.195.": 0.928,
+ "A.196.": 0.849,
+ "A.197.": 0.917,
+ "A.198.": 0.953,
+ "A.199.": 0.965,
+ "A.200.": 0.824,
+ "A.201.": 0.961,
+ "A.202.": 0.97,
+ "A.203.": 0.936,
+ "A.204.": 0.96,
+ "A.205.": 0.959,
+ "A.206.": 0.914,
+ "A.207.": 0.947,
+ "A.208.": 0.962,
+ "A.209.": 0.768,
+ "A.210.": 0.905,
+ "A.211.": 0.952,
+ "A.212.": 0.96,
+ "A.213.": 0.946,
+ "A.214.": 0.921,
+ "A.215.": 0.938,
+ "A.216.": 0.943,
+ "A.217.": 0.936,
+ "A.218.": 0.938,
+ "A.219.": 0.945,
+ "A.220.": 0.903,
+ "A.221.": 0.687,
+ "A.222.": 0.943,
+ "A.223.": 0.938,
+ "A.224.": 0.909,
+ "A.225.": 0.924,
+ "A.226.": 0.927,
+ "A.227.": 0.854,
+ "A.228.": 0.864,
+ "A.229.": 0.916,
+ "A.230.": 0.859,
+ "A.231.": 0.831,
+ "A.232.": 0.905,
+ "A.233.": 0.785,
+ "A.234.": 0.581,
+ "A.235.": 0.815,
+ "A.236.": null,
+ "A.237.": null,
+ "A.238.": null,
+ "A.239.": null,
+ "A.240.": null,
+ "A.241.": 0.413,
+ "A.242.": 0.403,
+ "A.243.": 0.447,
+ "A.244.": 0.484,
+ "A.245.": 0.799,
+ "A.246.": 0.778,
+ "A.247.": 0.799,
+ "A.248.": 0.841,
+ "A.249.": 0.788,
+ "A.250.": 0.693,
+ "A.251.": 0.772,
+ "A.252.": 0.759,
+ "A.253.": 0.778,
+ "A.254.": 0.775,
+ "A.255.": null,
+ "B.18.": 0.826,
+ "B.19.": 0.851,
+ "B.20.": 0.903,
+ "B.21.": 0.775,
+ "B.22.": 0.83,
+ "B.23.": 0.767,
+ "B.24.": 0.822,
+ "B.25.": 0.882,
+ "B.26.": 0.9,
+ "B.27.": 0.921,
+ "B.28.": 0.961,
+ "B.29.": 0.821,
+ "B.30.": 0.93,
+ "B.31.": 0.907,
+ "B.32.": 0.938,
+ "B.33.": 0.946,
+ "B.34.": 0.947,
+ "B.35.": 0.948,
+ "B.36.": 0.889,
+ "B.37.": 0.767,
+ "B.38.": 0.614,
+ "B.39.": 0.394,
+ "B.40.": 0.633,
+ "B.41.": 0.608,
+ "B.42.": 0.66,
+ "B.43.": 0.58,
+ "B.44.": 0.565,
+ "B.45.": 0.626,
+ "B.46.": 0.689,
+ "B.47.": 0.675,
+ "B.48.": 0.7,
+ "B.49.": 0.856,
+ "B.50.": 0.911,
+ "B.51.": 0.916,
+ "B.52.": 0.882,
+ "B.53.": 0.848,
+ "B.54.": 0.921,
+ "B.55.": 0.9,
+ "B.56.": 0.871,
+ "B.57.": 0.93,
+ "B.58.": 0.951,
+ "B.59.": 0.922,
+ "B.60.": 0.928,
+ "B.61.": 0.968,
+ "B.62.": 0.936,
+ "B.63.": 0.905,
+ "B.64.": 0.945,
+ "B.65.": 0.961,
+ "B.66.": 0.908,
+ "B.67.": 0.895,
+ "B.68.": 0.964,
+ "B.69.": 0.942,
+ "B.70.": 0.875,
+ "B.71.": 0.773,
+ "B.72.": 0.909,
+ "B.73.": 0.884,
+ "B.74.": 0.854,
+ "B.75.": 0.891,
+ "B.76.": 0.875,
+ "B.77.": 0.8,
+ "B.78.": 0.812,
+ "B.79.": 0.81,
+ "B.80.": 0.809,
+ "B.81.": 0.755,
+ "B.82.": 0.822,
+ "B.83.": 0.895,
+ "B.84.": 0.89,
+ "B.85.": 0.85,
+ "B.86.": 0.892,
+ "B.87.": 0.886,
+ "B.88.": 0.827,
+ "B.89.": 0.832,
+ "B.90.": 0.919,
+ "B.91.": 0.926,
+ "B.92.": 0.925,
+ "B.93.": 0.935,
+ "B.94.": 0.926,
+ "B.95.": 0.966,
+ "B.96.": 0.965,
+ "B.97.": 0.981,
+ "B.98.": 0.982,
+ "B.99.": 0.98,
+ "B.100.": 0.982,
+ "B.101.": 0.982,
+ "B.102.": 0.969,
+ "B.103.": 0.976,
+ "B.104.": 0.977,
+ "B.105.": 0.801,
+ "B.106.": 0.955,
+ "B.107.": 0.958,
+ "B.108.": 0.961,
+ "B.109.": 0.908,
+ "B.110.": 0.969,
+ "B.111.": 0.913,
+ "B.112.": 0.955,
+ "B.113.": 0.924,
+ "B.114.": 0.918,
+ "B.115.": 0.855,
+ "B.116.": 0.893,
+ "B.117.": 0.916,
+ "B.118.": 0.932,
+ "B.119.": 0.859,
+ "B.120.": 0.893,
+ "B.121.": 0.934,
+ "B.122.": 0.931,
+ "B.123.": 0.936,
+ "B.124.": 0.924,
+ "B.125.": 0.903,
+ "B.126.": 0.919,
+ "B.127.": 0.818,
+ "B.128.": 0.894,
+ "B.129.": 0.912,
+ "B.130.": 0.958,
+ "B.131.": 0.919,
+ "B.132.": 0.927,
+ "B.133.": 0.815,
+ "B.134.": 0.953,
+ "B.135.": 0.956,
+ "B.136.": 0.975,
+ "B.137.": 0.959,
+ "B.138.": 0.939,
+ "B.139.": 0.969,
+ "B.140.": 0.958,
+ "B.141.": 0.94,
+ "B.142.": 0.91,
+ "B.143.": 0.977,
+ "B.144.": 0.923,
+ "B.145.": 0.947,
+ "B.146.": 0.964,
+ "B.147.": 0.97,
+ "B.148.": 0.978,
+ "B.149.": 0.974,
+ "B.150.": 0.968,
+ "B.151.": 0.957,
+ "B.152.": 0.973,
+ "B.153.": 0.98,
+ "B.154.": 0.971,
+ "B.155.": 0.96,
+ "B.156.": 0.972,
+ "B.157.": 0.972,
+ "B.158.": 0.892,
+ "B.159.": 0.933,
+ "B.160.": 0.933,
+ "B.161.": 0.903,
+ "B.162.": 0.894,
+ "B.163.": 0.882,
+ "B.164.": 0.74,
+ "B.165.": 0.734,
+ "B.166.": 0.337,
+ "B.167.": 0.55,
+ "B.168.": 0.413,
+ "B.169.": 0.147,
+ "B.170.": null,
+ "B.171.": null,
+ "B.172.": 0.627,
+ "B.173.": 0.785,
+ "B.174.": 0.788,
+ "B.175.": 0.68,
+ "B.176.": 0.77,
+ "B.177.": 0.771,
+ "B.178.": 0.716,
+ "B.179.": 0.755,
+ "B.180.": 0.738,
+ "B.181.": 0.698,
+ "B.182.": 0.793,
+ "B.183.": 0.851,
+ "B.184.": 0.747,
+ "B.185.": 0.733,
+ "B.186.": 0.863,
+ "B.187.": 0.891,
+ "B.188.": 0.884,
+ "B.189.": 0.8,
+ "B.190.": 0.901,
+ "B.191.": 0.925,
+ "B.192.": 0.91,
+ "B.193.": 0.935,
+ "B.194.": 0.925,
+ "B.195.": 0.965,
+ "B.196.": 0.922,
+ "B.197.": 0.962,
+ "B.198.": 0.967,
+ "B.199.": 0.97,
+ "B.200.": 0.902,
+ "B.201.": 0.947,
+ "B.202.": 0.953,
+ "B.203.": 0.939,
+ "B.204.": 0.95,
+ "B.205.": 0.856,
+ "B.206.": 0.901,
+ "B.207.": 0.929,
+ "B.208.": 0.967,
+ "B.209.": 0.935,
+ "B.210.": 0.925,
+ "B.211.": 0.974,
+ "B.212.": 0.978,
+ "B.213.": 0.977,
+ "B.214.": 0.824,
+ "B.215.": 0.98,
+ "B.216.": 0.962,
+ "B.217.": 0.964,
+ "B.218.": 0.971,
+ "B.219.": 0.954,
+ "B.220.": 0.957,
+ "B.221.": 0.865,
+ "B.222.": 0.969,
+ "B.223.": 0.893,
+ "B.224.": 0.948,
+ "B.225.": 0.965,
+ "B.226.": 0.926,
+ "B.227.": 0.848,
+ "B.228.": 0.938,
+ "B.229.": 0.926,
+ "B.230.": 0.804,
+ "B.231.": 0.838,
+ "B.232.": 0.933,
+ "B.233.": 0.897,
+ "B.234.": 0.751,
+ "B.235.": 0.899,
+ "B.236.": 0.723,
+ "B.237.": null,
+ "B.238.": null,
+ "B.239.": null,
+ "B.240.": null,
+ "B.241.": null,
+ "B.242.": null,
+ "B.243.": null,
+ "B.244.": 0.429,
+ "B.245.": 0.76,
+ "B.246.": 0.881,
+ "B.247.": 0.885,
+ "B.248.": 0.889,
+ "B.249.": 0.874,
+ "B.250.": 0.792,
+ "B.251.": 0.84,
+ "B.252.": 0.819,
+ "B.253.": 0.649,
+ "B.254.": 0.581,
+ "B.255.": 0.517,
+ "B.256.": 0.34
+ },
+ "model_clashes": [],
+ "model_bad_bonds": [],
+ "model_bad_angles": [],
+ "reference_clashes": [],
+ "reference_bad_bonds": [],
+ "reference_bad_angles": [],
+ "qs_global": 0.855,
+ "qs_best": 0.907,
+ "qs_reference_interfaces": [
+ [
+ "A",
+ "B"
+ ]
+ ],
+ "qs_model_interfaces": [
+ [
+ "A",
+ "B"
+ ]
+ ],
+ "qs_interfaces": [
+ [
+ "A",
+ "B",
+ "B",
+ "A"
+ ]
+ ],
+ "per_interface_qs_global": [
+ 0.855
+ ],
+ "per_interface_qs_best": [
+ 0.907
+ ],
+ "model": "model.pdb",
+ "reference": "reference.cif.gz",
+ "fault_tolerant": false,
+ "model_biounit": null,
+ "reference_biounit": null,
+ "residue_number_alignment": true,
+ "enforce_consistency": false,
+ "cad_exec": null,
+ "usalign_exec": null,
+ "lddt_no_stereochecks": false,
+ "min_pep_length": 6,
+ "min_nuc_length": 4,
+ "lddt_add_mdl_contacts": false,
+ "lddt_inclusion_radius": 15.0,
+ "dockq_capri_peptide": false,
+ "ost_version": "2.9.2",
+ "status": "SUCCESS"
+}
\ No newline at end of file
diff --git a/examples/scoring/model.pdb b/examples/scoring/model.pdb
new file mode 100644
index 000000000..88a227466
--- /dev/null
+++ b/examples/scoring/model.pdb
@@ -0,0 +1,3802 @@
+ATOM 1 N THR A 19 9.716 -6.101 45.474 1.00 0.86 N
+ATOM 2 CA THR A 19 8.594 -5.633 44.585 1.00 0.86 C
+ATOM 3 C THR A 19 9.089 -4.564 43.654 1.00 0.86 C
+ATOM 4 O THR A 19 10.202 -4.084 43.829 1.00 0.86 O
+ATOM 5 CB THR A 19 7.401 -5.076 45.379 1.00 0.86 C
+ATOM 6 OG1 THR A 19 7.764 -3.904 46.100 1.00 0.86 O
+ATOM 7 CG2 THR A 19 6.923 -6.110 46.404 1.00 0.86 C
+ATOM 8 N ALA A 20 8.296 -4.162 42.643 1.00 0.89 N
+ATOM 9 CA ALA A 20 8.693 -3.123 41.718 1.00 0.89 C
+ATOM 10 C ALA A 20 8.920 -1.763 42.370 1.00 0.89 C
+ATOM 11 O ALA A 20 9.924 -1.104 42.134 1.00 0.89 O
+ATOM 12 CB ALA A 20 7.623 -3.015 40.624 1.00 0.89 C
+ATOM 13 N ASP A 21 8.016 -1.357 43.279 1.00 0.87 N
+ATOM 14 CA ASP A 21 8.089 -0.131 44.047 1.00 0.87 C
+ATOM 15 C ASP A 21 9.391 -0.001 44.850 1.00 0.87 C
+ATOM 16 O ASP A 21 10.077 1.021 44.802 1.00 0.87 O
+ATOM 17 CB ASP A 21 6.786 -0.126 44.902 1.00 0.87 C
+ATOM 18 CG ASP A 21 6.976 0.424 46.307 1.00 0.87 C
+ATOM 19 OD1 ASP A 21 7.082 1.665 46.443 1.00 0.87 O
+ATOM 20 OD2 ASP A 21 7.108 -0.437 47.216 1.00 0.87 O
+ATOM 21 N GLN A 22 9.794 -1.077 45.543 1.00 0.83 N
+ATOM 22 CA GLN A 22 11.038 -1.168 46.274 1.00 0.83 C
+ATOM 23 C GLN A 22 12.256 -0.990 45.386 1.00 0.83 C
+ATOM 24 O GLN A 22 13.223 -0.340 45.771 1.00 0.83 O
+ATOM 25 CB GLN A 22 11.109 -2.539 46.976 1.00 0.83 C
+ATOM 26 CG GLN A 22 10.101 -2.667 48.141 1.00 0.83 C
+ATOM 27 CD GLN A 22 9.823 -4.124 48.500 1.00 0.83 C
+ATOM 28 OE1 GLN A 22 10.376 -5.069 47.923 1.00 0.83 O
+ATOM 29 NE2 GLN A 22 8.868 -4.329 49.433 1.00 0.83 N
+ATOM 30 N MET A 23 12.240 -1.542 44.152 1.00 0.86 N
+ATOM 31 CA MET A 23 13.316 -1.312 43.207 1.00 0.86 C
+ATOM 32 C MET A 23 13.444 0.151 42.796 1.00 0.86 C
+ATOM 33 O MET A 23 14.548 0.685 42.750 1.00 0.86 O
+ATOM 34 CB MET A 23 13.185 -2.175 41.930 1.00 0.86 C
+ATOM 35 CG MET A 23 13.078 -3.702 42.131 1.00 0.86 C
+ATOM 36 SD MET A 23 14.523 -4.532 42.839 1.00 0.86 S
+ATOM 37 CE MET A 23 14.078 -4.476 44.598 1.00 0.86 C
+ATOM 38 N VAL A 24 12.323 0.855 42.519 1.00 0.89 N
+ATOM 39 CA VAL A 24 12.351 2.270 42.154 1.00 0.89 C
+ATOM 40 C VAL A 24 12.860 3.145 43.278 1.00 0.89 C
+ATOM 41 O VAL A 24 13.757 3.962 43.095 1.00 0.89 O
+ATOM 42 CB VAL A 24 10.970 2.807 41.781 1.00 0.89 C
+ATOM 43 CG1 VAL A 24 11.064 4.258 41.271 1.00 0.89 C
+ATOM 44 CG2 VAL A 24 10.315 1.933 40.714 1.00 0.89 C
+ATOM 45 N SER A 25 12.324 2.950 44.494 1.00 0.88 N
+ATOM 46 CA SER A 25 12.685 3.709 45.679 1.00 0.88 C
+ATOM 47 C SER A 25 14.138 3.516 46.047 1.00 0.88 C
+ATOM 48 O SER A 25 14.867 4.470 46.285 1.00 0.88 O
+ATOM 49 CB SER A 25 11.745 3.329 46.842 1.00 0.88 C
+ATOM 50 OG SER A 25 10.405 3.664 46.468 1.00 0.88 O
+ATOM 51 N ALA A 26 14.638 2.267 45.975 1.00 0.91 N
+ATOM 52 CA ALA A 26 16.043 1.977 46.144 1.00 0.91 C
+ATOM 53 C ALA A 26 16.947 2.644 45.116 1.00 0.91 C
+ATOM 54 O ALA A 26 17.993 3.185 45.459 1.00 0.91 O
+ATOM 55 CB ALA A 26 16.247 0.454 46.092 1.00 0.91 C
+ATOM 56 N LEU A 27 16.564 2.648 43.823 1.00 0.90 N
+ATOM 57 CA LEU A 27 17.313 3.355 42.803 1.00 0.90 C
+ATOM 58 C LEU A 27 17.286 4.875 42.967 1.00 0.90 C
+ATOM 59 O LEU A 27 18.309 5.533 42.799 1.00 0.90 O
+ATOM 60 CB LEU A 27 16.869 2.946 41.380 1.00 0.90 C
+ATOM 61 CG LEU A 27 17.185 1.487 40.973 1.00 0.90 C
+ATOM 62 CD1 LEU A 27 16.566 1.175 39.602 1.00 0.90 C
+ATOM 63 CD2 LEU A 27 18.693 1.194 40.934 1.00 0.90 C
+ATOM 64 N LEU A 28 16.134 5.476 43.338 1.00 0.89 N
+ATOM 65 CA LEU A 28 16.038 6.900 43.634 1.00 0.89 C
+ATOM 66 C LEU A 28 16.897 7.318 44.829 1.00 0.89 C
+ATOM 67 O LEU A 28 17.639 8.297 44.760 1.00 0.89 O
+ATOM 68 CB LEU A 28 14.572 7.336 43.882 1.00 0.89 C
+ATOM 69 CG LEU A 28 13.625 7.278 42.661 1.00 0.89 C
+ATOM 70 CD1 LEU A 28 12.194 7.610 43.109 1.00 0.89 C
+ATOM 71 CD2 LEU A 28 14.038 8.225 41.524 1.00 0.89 C
+ATOM 72 N ASP A 29 16.887 6.523 45.922 1.00 0.89 N
+ATOM 73 CA ASP A 29 17.684 6.747 47.118 1.00 0.89 C
+ATOM 74 C ASP A 29 19.171 6.494 46.877 1.00 0.89 C
+ATOM 75 O ASP A 29 20.050 6.853 47.669 1.00 0.89 O
+ATOM 76 CB ASP A 29 17.219 5.797 48.251 1.00 0.89 C
+ATOM 77 CG ASP A 29 15.841 6.151 48.798 1.00 0.89 C
+ATOM 78 OD1 ASP A 29 15.309 7.241 48.470 1.00 0.89 O
+ATOM 79 OD2 ASP A 29 15.327 5.323 49.595 1.00 0.89 O
+ATOM 80 N ALA A 30 19.509 5.849 45.749 1.00 0.91 N
+ATOM 81 CA ALA A 30 20.866 5.551 45.395 1.00 0.91 C
+ATOM 82 C ALA A 30 21.499 6.588 44.495 1.00 0.91 C
+ATOM 83 O ALA A 30 22.693 6.483 44.215 1.00 0.91 O
+ATOM 84 CB ALA A 30 20.917 4.184 44.695 1.00 0.91 C
+ATOM 85 N GLU A 31 20.752 7.620 44.049 1.00 0.88 N
+ATOM 86 CA GLU A 31 21.281 8.597 43.116 1.00 0.88 C
+ATOM 87 C GLU A 31 22.529 9.338 43.615 1.00 0.88 C
+ATOM 88 O GLU A 31 22.587 9.754 44.775 1.00 0.88 O
+ATOM 89 CB GLU A 31 20.209 9.620 42.663 1.00 0.88 C
+ATOM 90 CG GLU A 31 19.387 9.141 41.437 1.00 0.88 C
+ATOM 91 CD GLU A 31 20.250 8.779 40.239 1.00 0.88 C
+ATOM 92 OE1 GLU A 31 20.428 7.566 39.947 1.00 0.88 O
+ATOM 93 OE2 GLU A 31 20.826 9.668 39.559 1.00 0.88 O
+ATOM 94 N PRO A 32 23.571 9.506 42.800 1.00 0.93 N
+ATOM 95 CA PRO A 32 24.808 10.122 43.243 1.00 0.93 C
+ATOM 96 C PRO A 32 24.672 11.637 43.332 1.00 0.93 C
+ATOM 97 O PRO A 32 23.857 12.202 42.597 1.00 0.93 O
+ATOM 98 CB PRO A 32 25.815 9.707 42.158 1.00 0.93 C
+ATOM 99 CG PRO A 32 24.972 9.575 40.889 1.00 0.93 C
+ATOM 100 CD PRO A 32 23.659 9.016 41.423 1.00 0.93 C
+ATOM 101 N PRO A 33 25.396 12.334 44.205 1.00 0.92 N
+ATOM 102 CA PRO A 33 25.366 13.788 44.252 1.00 0.92 C
+ATOM 103 C PRO A 33 25.842 14.441 42.965 1.00 0.92 C
+ATOM 104 O PRO A 33 26.705 13.911 42.264 1.00 0.92 O
+ATOM 105 CB PRO A 33 26.295 14.130 45.426 1.00 0.92 C
+ATOM 106 CG PRO A 33 27.323 12.997 45.418 1.00 0.92 C
+ATOM 107 CD PRO A 33 26.484 11.782 45.020 1.00 0.92 C
+ATOM 108 N ILE A 34 25.292 15.622 42.635 1.00 0.89 N
+ATOM 109 CA ILE A 34 25.728 16.380 41.478 1.00 0.89 C
+ATOM 110 C ILE A 34 26.992 17.139 41.829 1.00 0.89 C
+ATOM 111 O ILE A 34 27.003 18.023 42.686 1.00 0.89 O
+ATOM 112 CB ILE A 34 24.653 17.333 40.966 1.00 0.89 C
+ATOM 113 CG1 ILE A 34 23.437 16.527 40.454 1.00 0.89 C
+ATOM 114 CG2 ILE A 34 25.225 18.232 39.846 1.00 0.89 C
+ATOM 115 CD1 ILE A 34 22.224 17.398 40.112 1.00 0.89 C
+ATOM 116 N LEU A 35 28.113 16.797 41.175 1.00 0.89 N
+ATOM 117 CA LEU A 35 29.389 17.392 41.491 1.00 0.89 C
+ATOM 118 C LEU A 35 29.657 18.663 40.706 1.00 0.89 C
+ATOM 119 O LEU A 35 29.153 18.885 39.607 1.00 0.89 O
+ATOM 120 CB LEU A 35 30.553 16.407 41.258 1.00 0.89 C
+ATOM 121 CG LEU A 35 30.452 15.080 42.034 1.00 0.89 C
+ATOM 122 CD1 LEU A 35 31.728 14.272 41.787 1.00 0.89 C
+ATOM 123 CD2 LEU A 35 30.234 15.272 43.542 1.00 0.89 C
+ATOM 124 N TYR A 36 30.491 19.549 41.280 1.00 0.86 N
+ATOM 125 CA TYR A 36 30.926 20.772 40.640 1.00 0.86 C
+ATOM 126 C TYR A 36 32.275 20.549 39.973 1.00 0.86 C
+ATOM 127 O TYR A 36 33.094 19.743 40.415 1.00 0.86 O
+ATOM 128 CB TYR A 36 31.016 21.942 41.654 1.00 0.86 C
+ATOM 129 CG TYR A 36 29.653 22.537 41.912 1.00 0.86 C
+ATOM 130 CD1 TYR A 36 28.649 21.815 42.581 1.00 0.86 C
+ATOM 131 CD2 TYR A 36 29.362 23.840 41.474 1.00 0.86 C
+ATOM 132 CE1 TYR A 36 27.372 22.363 42.761 1.00 0.86 C
+ATOM 133 CE2 TYR A 36 28.090 24.396 41.661 1.00 0.86 C
+ATOM 134 CZ TYR A 36 27.092 23.649 42.293 1.00 0.86 C
+ATOM 135 OH TYR A 36 25.803 24.189 42.452 1.00 0.86 O
+ATOM 136 N SER A 37 32.549 21.259 38.863 1.00 0.84 N
+ATOM 137 CA SER A 37 33.754 21.045 38.071 1.00 0.84 C
+ATOM 138 C SER A 37 34.970 21.772 38.590 1.00 0.84 C
+ATOM 139 O SER A 37 36.079 21.488 38.163 1.00 0.84 O
+ATOM 140 CB SER A 37 33.570 21.540 36.615 1.00 0.84 C
+ATOM 141 OG SER A 37 33.238 22.931 36.582 1.00 0.84 O
+ATOM 142 N GLU A 38 34.745 22.749 39.490 1.00 0.76 N
+ATOM 143 CA GLU A 38 35.743 23.675 40.001 1.00 0.76 C
+ATOM 144 C GLU A 38 36.147 24.731 38.971 1.00 0.76 C
+ATOM 145 O GLU A 38 37.179 25.384 39.082 1.00 0.76 O
+ATOM 146 CB GLU A 38 36.953 22.981 40.675 1.00 0.76 C
+ATOM 147 CG GLU A 38 36.527 21.880 41.681 1.00 0.76 C
+ATOM 148 CD GLU A 38 37.677 20.969 42.110 1.00 0.76 C
+ATOM 149 OE1 GLU A 38 38.611 21.450 42.791 1.00 0.76 O
+ATOM 150 OE2 GLU A 38 37.588 19.758 41.770 1.00 0.76 O
+ATOM 151 N TYR A 39 35.291 24.965 37.944 1.00 0.71 N
+ATOM 152 CA TYR A 39 35.403 26.074 37.005 1.00 0.71 C
+ATOM 153 C TYR A 39 35.599 27.443 37.665 1.00 0.71 C
+ATOM 154 O TYR A 39 34.786 27.884 38.478 1.00 0.71 O
+ATOM 155 CB TYR A 39 34.165 26.094 36.052 1.00 0.71 C
+ATOM 156 CG TYR A 39 34.134 27.233 35.061 1.00 0.71 C
+ATOM 157 CD1 TYR A 39 35.030 27.277 33.982 1.00 0.71 C
+ATOM 158 CD2 TYR A 39 33.187 28.264 35.197 1.00 0.71 C
+ATOM 159 CE1 TYR A 39 34.976 28.330 33.057 1.00 0.71 C
+ATOM 160 CE2 TYR A 39 33.135 29.317 34.273 1.00 0.71 C
+ATOM 161 CZ TYR A 39 34.035 29.351 33.207 1.00 0.71 C
+ATOM 162 OH TYR A 39 33.992 30.409 32.281 1.00 0.71 O
+ATOM 163 N ASP A 40 36.683 28.134 37.266 1.00 0.73 N
+ATOM 164 CA ASP A 40 37.032 29.472 37.682 1.00 0.73 C
+ATOM 165 C ASP A 40 36.925 30.383 36.465 1.00 0.73 C
+ATOM 166 O ASP A 40 37.706 30.214 35.522 1.00 0.73 O
+ATOM 167 CB ASP A 40 38.491 29.474 38.202 1.00 0.73 C
+ATOM 168 CG ASP A 40 39.027 30.812 38.682 1.00 0.73 C
+ATOM 169 OD1 ASP A 40 38.406 31.862 38.386 1.00 0.73 O
+ATOM 170 OD2 ASP A 40 40.134 30.794 39.259 1.00 0.73 O
+ATOM 171 N PRO A 41 36.030 31.366 36.430 1.00 0.69 N
+ATOM 172 CA PRO A 41 35.946 32.291 35.313 1.00 0.69 C
+ATOM 173 C PRO A 41 37.119 33.234 35.208 1.00 0.69 C
+ATOM 174 O PRO A 41 37.201 33.956 34.221 1.00 0.69 O
+ATOM 175 CB PRO A 41 34.662 33.097 35.575 1.00 0.69 C
+ATOM 176 CG PRO A 41 33.831 32.225 36.517 1.00 0.69 C
+ATOM 177 CD PRO A 41 34.880 31.471 37.329 1.00 0.69 C
+ATOM 178 N THR A 42 38.011 33.301 36.208 1.00 0.67 N
+ATOM 179 CA THR A 42 39.128 34.222 36.156 1.00 0.67 C
+ATOM 180 C THR A 42 40.316 33.648 35.408 1.00 0.67 C
+ATOM 181 O THR A 42 41.200 34.374 34.952 1.00 0.67 O
+ATOM 182 CB THR A 42 39.575 34.681 37.532 1.00 0.67 C
+ATOM 183 OG1 THR A 42 40.198 33.660 38.249 1.00 0.67 O
+ATOM 184 CG2 THR A 42 38.419 35.264 38.360 1.00 0.67 C
+ATOM 185 N ARG A 43 40.355 32.318 35.213 1.00 0.62 N
+ATOM 186 CA ARG A 43 41.411 31.682 34.463 1.00 0.62 C
+ATOM 187 C ARG A 43 41.168 31.722 32.956 1.00 0.62 C
+ATOM 188 O ARG A 43 40.024 31.619 32.513 1.00 0.62 O
+ATOM 189 CB ARG A 43 41.580 30.209 34.898 1.00 0.62 C
+ATOM 190 CG ARG A 43 42.209 30.081 36.299 1.00 0.62 C
+ATOM 191 CD ARG A 43 42.549 28.648 36.719 1.00 0.62 C
+ATOM 192 NE ARG A 43 43.581 28.150 35.748 1.00 0.62 N
+ATOM 193 CZ ARG A 43 44.152 26.940 35.786 1.00 0.62 C
+ATOM 194 NH1 ARG A 43 43.861 26.058 36.737 1.00 0.62 N
+ATOM 195 NH2 ARG A 43 45.037 26.613 34.845 1.00 0.62 N
+ATOM 196 N PRO A 44 42.183 31.844 32.093 1.00 0.67 N
+ATOM 197 CA PRO A 44 42.018 31.596 30.667 1.00 0.67 C
+ATOM 198 C PRO A 44 41.528 30.190 30.366 1.00 0.67 C
+ATOM 199 O PRO A 44 42.169 29.207 30.750 1.00 0.67 O
+ATOM 200 CB PRO A 44 43.397 31.896 30.062 1.00 0.67 C
+ATOM 201 CG PRO A 44 44.377 31.661 31.215 1.00 0.67 C
+ATOM 202 CD PRO A 44 43.581 32.107 32.442 1.00 0.67 C
+ATOM 203 N PHE A 45 40.393 30.073 29.655 1.00 0.68 N
+ATOM 204 CA PHE A 45 39.770 28.810 29.313 1.00 0.68 C
+ATOM 205 C PHE A 45 40.449 28.144 28.124 1.00 0.68 C
+ATOM 206 O PHE A 45 39.895 27.965 27.040 1.00 0.68 O
+ATOM 207 CB PHE A 45 38.258 29.035 29.087 1.00 0.68 C
+ATOM 208 CG PHE A 45 37.447 27.778 29.237 1.00 0.68 C
+ATOM 209 CD1 PHE A 45 37.272 27.198 30.504 1.00 0.68 C
+ATOM 210 CD2 PHE A 45 36.795 27.208 28.133 1.00 0.68 C
+ATOM 211 CE1 PHE A 45 36.449 26.077 30.668 1.00 0.68 C
+ATOM 212 CE2 PHE A 45 35.971 26.089 28.293 1.00 0.68 C
+ATOM 213 CZ PHE A 45 35.796 25.526 29.562 1.00 0.68 C
+ATOM 214 N SER A 46 41.720 27.768 28.320 1.00 0.71 N
+ATOM 215 CA SER A 46 42.469 26.915 27.433 1.00 0.71 C
+ATOM 216 C SER A 46 41.899 25.514 27.368 1.00 0.71 C
+ATOM 217 O SER A 46 41.233 25.033 28.281 1.00 0.71 O
+ATOM 218 CB SER A 46 43.976 26.859 27.805 1.00 0.71 C
+ATOM 219 OG SER A 46 44.206 26.242 29.077 1.00 0.71 O
+ATOM 220 N GLU A 47 42.151 24.792 26.262 1.00 0.64 N
+ATOM 221 CA GLU A 47 41.685 23.424 26.097 1.00 0.64 C
+ATOM 222 C GLU A 47 42.207 22.510 27.193 1.00 0.64 C
+ATOM 223 O GLU A 47 41.476 21.710 27.771 1.00 0.64 O
+ATOM 224 CB GLU A 47 42.140 22.883 24.727 1.00 0.64 C
+ATOM 225 CG GLU A 47 41.571 21.488 24.367 1.00 0.64 C
+ATOM 226 CD GLU A 47 42.267 20.839 23.168 1.00 0.64 C
+ATOM 227 OE1 GLU A 47 41.852 19.695 22.837 1.00 0.64 O
+ATOM 228 OE2 GLU A 47 43.224 21.450 22.627 1.00 0.64 O
+ATOM 229 N ALA A 48 43.488 22.688 27.570 1.00 0.69 N
+ATOM 230 CA ALA A 48 44.090 22.010 28.690 1.00 0.69 C
+ATOM 231 C ALA A 48 43.411 22.276 30.028 1.00 0.69 C
+ATOM 232 O ALA A 48 43.228 21.358 30.826 1.00 0.69 O
+ATOM 233 CB ALA A 48 45.578 22.391 28.767 1.00 0.69 C
+ATOM 234 N SER A 49 42.992 23.529 30.318 1.00 0.74 N
+ATOM 235 CA SER A 49 42.227 23.790 31.524 1.00 0.74 C
+ATOM 236 C SER A 49 40.848 23.165 31.502 1.00 0.74 C
+ATOM 237 O SER A 49 40.458 22.511 32.465 1.00 0.74 O
+ATOM 238 CB SER A 49 42.170 25.291 31.914 1.00 0.74 C
+ATOM 239 OG SER A 49 41.365 26.066 31.033 1.00 0.74 O
+ATOM 240 N MET A 50 40.104 23.265 30.383 1.00 0.71 N
+ATOM 241 CA MET A 50 38.814 22.611 30.251 1.00 0.71 C
+ATOM 242 C MET A 50 38.880 21.100 30.352 1.00 0.71 C
+ATOM 243 O MET A 50 38.141 20.489 31.124 1.00 0.71 O
+ATOM 244 CB MET A 50 38.158 22.961 28.899 1.00 0.71 C
+ATOM 245 CG MET A 50 36.778 22.298 28.689 1.00 0.71 C
+ATOM 246 SD MET A 50 35.902 22.812 27.189 1.00 0.71 S
+ATOM 247 CE MET A 50 37.154 22.176 26.054 1.00 0.71 C
+ATOM 248 N MET A 51 39.804 20.449 29.621 1.00 0.71 N
+ATOM 249 CA MET A 51 39.986 19.013 29.691 1.00 0.71 C
+ATOM 250 C MET A 51 40.407 18.557 31.074 1.00 0.71 C
+ATOM 251 O MET A 51 39.934 17.539 31.567 1.00 0.71 O
+ATOM 252 CB MET A 51 40.977 18.497 28.625 1.00 0.71 C
+ATOM 253 CG MET A 51 40.371 18.374 27.208 1.00 0.71 C
+ATOM 254 SD MET A 51 38.896 17.305 27.050 1.00 0.71 S
+ATOM 255 CE MET A 51 39.573 15.793 27.793 1.00 0.71 C
+ATOM 256 N GLY A 52 41.260 19.334 31.774 1.00 0.77 N
+ATOM 257 CA GLY A 52 41.588 19.056 33.167 1.00 0.77 C
+ATOM 258 C GLY A 52 40.418 19.132 34.116 1.00 0.77 C
+ATOM 259 O GLY A 52 40.282 18.285 34.996 1.00 0.77 O
+ATOM 260 N LEU A 53 39.505 20.109 33.935 1.00 0.79 N
+ATOM 261 CA LEU A 53 38.278 20.167 34.712 1.00 0.79 C
+ATOM 262 C LEU A 53 37.365 18.975 34.441 1.00 0.79 C
+ATOM 263 O LEU A 53 36.842 18.350 35.362 1.00 0.79 O
+ATOM 264 CB LEU A 53 37.469 21.463 34.439 1.00 0.79 C
+ATOM 265 CG LEU A 53 38.146 22.798 34.817 1.00 0.79 C
+ATOM 266 CD1 LEU A 53 37.220 23.961 34.433 1.00 0.79 C
+ATOM 267 CD2 LEU A 53 38.526 22.906 36.298 1.00 0.79 C
+ATOM 268 N LEU A 54 37.173 18.607 33.158 1.00 0.79 N
+ATOM 269 CA LEU A 54 36.339 17.484 32.767 1.00 0.79 C
+ATOM 270 C LEU A 54 36.879 16.136 33.223 1.00 0.79 C
+ATOM 271 O LEU A 54 36.136 15.300 33.732 1.00 0.79 O
+ATOM 272 CB LEU A 54 36.107 17.466 31.237 1.00 0.79 C
+ATOM 273 CG LEU A 54 35.311 18.668 30.686 1.00 0.79 C
+ATOM 274 CD1 LEU A 54 35.311 18.652 29.151 1.00 0.79 C
+ATOM 275 CD2 LEU A 54 33.863 18.683 31.193 1.00 0.79 C
+ATOM 276 N THR A 55 38.199 15.904 33.088 1.00 0.76 N
+ATOM 277 CA THR A 55 38.861 14.693 33.567 1.00 0.76 C
+ATOM 278 C THR A 55 38.743 14.527 35.067 1.00 0.76 C
+ATOM 279 O THR A 55 38.284 13.498 35.551 1.00 0.76 O
+ATOM 280 CB THR A 55 40.336 14.687 33.183 1.00 0.76 C
+ATOM 281 OG1 THR A 55 40.462 14.584 31.770 1.00 0.76 O
+ATOM 282 CG2 THR A 55 41.096 13.495 33.777 1.00 0.76 C
+ATOM 283 N ASN A 56 39.055 15.582 35.854 1.00 0.79 N
+ATOM 284 CA ASN A 56 38.948 15.524 37.301 1.00 0.79 C
+ATOM 285 C ASN A 56 37.510 15.336 37.781 1.00 0.79 C
+ATOM 286 O ASN A 56 37.252 14.611 38.741 1.00 0.79 O
+ATOM 287 CB ASN A 56 39.605 16.779 37.929 1.00 0.79 C
+ATOM 288 CG ASN A 56 39.609 16.713 39.448 1.00 0.79 C
+ATOM 289 OD1 ASN A 56 38.734 17.280 40.106 1.00 0.79 O
+ATOM 290 ND2 ASN A 56 40.574 15.982 40.037 1.00 0.79 N
+ATOM 291 N LEU A 57 36.531 15.970 37.106 1.00 0.86 N
+ATOM 292 CA LEU A 57 35.124 15.758 37.386 1.00 0.86 C
+ATOM 293 C LEU A 57 34.701 14.310 37.193 1.00 0.86 C
+ATOM 294 O LEU A 57 34.068 13.720 38.067 1.00 0.86 O
+ATOM 295 CB LEU A 57 34.289 16.684 36.473 1.00 0.86 C
+ATOM 296 CG LEU A 57 32.759 16.587 36.602 1.00 0.86 C
+ATOM 297 CD1 LEU A 57 32.266 17.018 37.987 1.00 0.86 C
+ATOM 298 CD2 LEU A 57 32.098 17.450 35.520 1.00 0.86 C
+ATOM 299 N ALA A 58 35.117 13.681 36.078 1.00 0.84 N
+ATOM 300 CA ALA A 58 34.864 12.286 35.803 1.00 0.84 C
+ATOM 301 C ALA A 58 35.522 11.334 36.796 1.00 0.84 C
+ATOM 302 O ALA A 58 34.894 10.383 37.266 1.00 0.84 O
+ATOM 303 CB ALA A 58 35.313 11.984 34.366 1.00 0.84 C
+ATOM 304 N ASP A 59 36.784 11.608 37.194 1.00 0.79 N
+ATOM 305 CA ASP A 59 37.478 10.866 38.230 1.00 0.79 C
+ATOM 306 C ASP A 59 36.729 10.906 39.562 1.00 0.79 C
+ATOM 307 O ASP A 59 36.513 9.890 40.225 1.00 0.79 O
+ATOM 308 CB ASP A 59 38.886 11.472 38.469 1.00 0.79 C
+ATOM 309 CG ASP A 59 39.845 11.235 37.311 1.00 0.79 C
+ATOM 310 OD1 ASP A 59 39.788 10.141 36.697 1.00 0.79 O
+ATOM 311 OD2 ASP A 59 40.695 12.138 37.091 1.00 0.79 O
+ATOM 312 N ARG A 60 36.255 12.102 39.969 1.00 0.80 N
+ATOM 313 CA ARG A 60 35.433 12.258 41.149 1.00 0.80 C
+ATOM 314 C ARG A 60 34.059 11.595 41.032 1.00 0.80 C
+ATOM 315 O ARG A 60 33.603 10.954 41.980 1.00 0.80 O
+ATOM 316 CB ARG A 60 35.310 13.745 41.570 1.00 0.80 C
+ATOM 317 CG ARG A 60 36.611 14.344 42.152 1.00 0.80 C
+ATOM 318 CD ARG A 60 36.484 15.788 42.674 1.00 0.80 C
+ATOM 319 NE ARG A 60 36.500 16.721 41.510 1.00 0.80 N
+ATOM 320 CZ ARG A 60 35.538 17.566 41.127 1.00 0.80 C
+ATOM 321 NH1 ARG A 60 34.333 17.573 41.673 1.00 0.80 N
+ATOM 322 NH2 ARG A 60 35.812 18.449 40.172 1.00 0.80 N
+ATOM 323 N GLU A 61 33.370 11.689 39.868 1.00 0.87 N
+ATOM 324 CA GLU A 61 32.099 11.012 39.620 1.00 0.87 C
+ATOM 325 C GLU A 61 32.218 9.487 39.737 1.00 0.87 C
+ATOM 326 O GLU A 61 31.315 8.822 40.248 1.00 0.87 O
+ATOM 327 CB GLU A 61 31.422 11.389 38.257 1.00 0.87 C
+ATOM 328 CG GLU A 61 30.716 12.784 38.191 1.00 0.87 C
+ATOM 329 CD GLU A 61 29.897 13.055 36.907 1.00 0.87 C
+ATOM 330 OE1 GLU A 61 30.525 13.317 35.852 1.00 0.87 O
+ATOM 331 OE2 GLU A 61 28.629 13.060 36.952 1.00 0.87 O
+ATOM 332 N LEU A 62 33.353 8.884 39.316 1.00 0.84 N
+ATOM 333 CA LEU A 62 33.580 7.446 39.372 1.00 0.84 C
+ATOM 334 C LEU A 62 33.476 6.845 40.772 1.00 0.84 C
+ATOM 335 O LEU A 62 32.893 5.780 40.957 1.00 0.84 O
+ATOM 336 CB LEU A 62 34.951 7.080 38.752 1.00 0.84 C
+ATOM 337 CG LEU A 62 35.199 5.571 38.522 1.00 0.84 C
+ATOM 338 CD1 LEU A 62 34.284 4.988 37.435 1.00 0.84 C
+ATOM 339 CD2 LEU A 62 36.662 5.317 38.135 1.00 0.84 C
+ATOM 340 N VAL A 63 33.984 7.532 41.817 1.00 0.79 N
+ATOM 341 CA VAL A 63 33.870 7.073 43.201 1.00 0.79 C
+ATOM 342 C VAL A 63 32.417 6.936 43.645 1.00 0.79 C
+ATOM 343 O VAL A 63 31.991 5.933 44.218 1.00 0.79 O
+ATOM 344 CB VAL A 63 34.601 8.015 44.154 1.00 0.79 C
+ATOM 345 CG1 VAL A 63 34.570 7.472 45.598 1.00 0.79 C
+ATOM 346 CG2 VAL A 63 36.064 8.180 43.701 1.00 0.79 C
+ATOM 347 N HIS A 64 31.587 7.941 43.313 1.00 0.84 N
+ATOM 348 CA HIS A 64 30.159 7.905 43.559 1.00 0.84 C
+ATOM 349 C HIS A 64 29.429 6.861 42.732 1.00 0.84 C
+ATOM 350 O HIS A 64 28.477 6.237 43.195 1.00 0.84 O
+ATOM 351 CB HIS A 64 29.531 9.291 43.352 1.00 0.84 C
+ATOM 352 CG HIS A 64 30.097 10.287 44.314 1.00 0.84 C
+ATOM 353 ND1 HIS A 64 29.701 10.258 45.638 1.00 0.84 N
+ATOM 354 CD2 HIS A 64 31.047 11.237 44.128 1.00 0.84 C
+ATOM 355 CE1 HIS A 64 30.416 11.195 46.229 1.00 0.84 C
+ATOM 356 NE2 HIS A 64 31.250 11.819 45.360 1.00 0.84 N
+ATOM 357 N MET A 65 29.876 6.610 41.488 1.00 0.87 N
+ATOM 358 CA MET A 65 29.358 5.545 40.651 1.00 0.87 C
+ATOM 359 C MET A 65 29.540 4.157 41.249 1.00 0.87 C
+ATOM 360 O MET A 65 28.637 3.329 41.181 1.00 0.87 O
+ATOM 361 CB MET A 65 30.001 5.592 39.250 1.00 0.87 C
+ATOM 362 CG MET A 65 29.319 4.676 38.214 1.00 0.87 C
+ATOM 363 SD MET A 65 30.272 4.433 36.686 1.00 0.87 S
+ATOM 364 CE MET A 65 30.342 6.166 36.156 1.00 0.87 C
+ATOM 365 N ILE A 66 30.688 3.871 41.894 1.00 0.84 N
+ATOM 366 CA ILE A 66 30.890 2.628 42.631 1.00 0.84 C
+ATOM 367 C ILE A 66 29.903 2.480 43.786 1.00 0.84 C
+ATOM 368 O ILE A 66 29.276 1.434 43.960 1.00 0.84 O
+ATOM 369 CB ILE A 66 32.323 2.516 43.144 1.00 0.84 C
+ATOM 370 CG1 ILE A 66 33.362 2.521 41.996 1.00 0.84 C
+ATOM 371 CG2 ILE A 66 32.500 1.261 44.025 1.00 0.84 C
+ATOM 372 CD1 ILE A 66 33.331 1.302 41.073 1.00 0.84 C
+ATOM 373 N ASN A 67 29.680 3.561 44.563 1.00 0.82 N
+ATOM 374 CA ASN A 67 28.679 3.585 45.619 1.00 0.82 C
+ATOM 375 C ASN A 67 27.258 3.355 45.107 1.00 0.82 C
+ATOM 376 O ASN A 67 26.486 2.606 45.701 1.00 0.82 O
+ATOM 377 CB ASN A 67 28.710 4.929 46.388 1.00 0.82 C
+ATOM 378 CG ASN A 67 30.018 5.089 47.154 1.00 0.82 C
+ATOM 379 OD1 ASN A 67 30.708 4.131 47.498 1.00 0.82 O
+ATOM 380 ND2 ASN A 67 30.357 6.359 47.479 1.00 0.82 N
+ATOM 381 N TRP A 68 26.885 3.981 43.974 1.00 0.87 N
+ATOM 382 CA TRP A 68 25.617 3.755 43.307 1.00 0.87 C
+ATOM 383 C TRP A 68 25.471 2.332 42.790 1.00 0.87 C
+ATOM 384 O TRP A 68 24.434 1.701 42.979 1.00 0.87 O
+ATOM 385 CB TRP A 68 25.447 4.786 42.157 1.00 0.87 C
+ATOM 386 CG TRP A 68 24.302 4.522 41.184 1.00 0.87 C
+ATOM 387 CD1 TRP A 68 22.970 4.786 41.319 1.00 0.87 C
+ATOM 388 CD2 TRP A 68 24.458 3.787 39.967 1.00 0.87 C
+ATOM 389 NE1 TRP A 68 22.281 4.272 40.252 1.00 0.87 N
+ATOM 390 CE2 TRP A 68 23.151 3.625 39.419 1.00 0.87 C
+ATOM 391 CE3 TRP A 68 25.569 3.254 39.326 1.00 0.87 C
+ATOM 392 CZ2 TRP A 68 22.965 2.927 38.245 1.00 0.87 C
+ATOM 393 CZ3 TRP A 68 25.367 2.529 38.151 1.00 0.87 C
+ATOM 394 CH2 TRP A 68 24.080 2.362 37.616 1.00 0.87 C
+ATOM 395 N ALA A 69 26.521 1.771 42.159 1.00 0.92 N
+ATOM 396 CA ALA A 69 26.482 0.448 41.578 1.00 0.92 C
+ATOM 397 C ALA A 69 26.191 -0.626 42.608 1.00 0.92 C
+ATOM 398 O ALA A 69 25.360 -1.502 42.395 1.00 0.92 O
+ATOM 399 CB ALA A 69 27.806 0.160 40.850 1.00 0.92 C
+ATOM 400 N LYS A 70 26.792 -0.526 43.807 1.00 0.84 N
+ATOM 401 CA LYS A 70 26.508 -1.440 44.896 1.00 0.84 C
+ATOM 402 C LYS A 70 25.104 -1.295 45.491 1.00 0.84 C
+ATOM 403 O LYS A 70 24.668 -2.126 46.279 1.00 0.84 O
+ATOM 404 CB LYS A 70 27.547 -1.312 46.031 1.00 0.84 C
+ATOM 405 CG LYS A 70 28.995 -1.634 45.632 1.00 0.84 C
+ATOM 406 CD LYS A 70 29.788 -2.122 46.854 1.00 0.84 C
+ATOM 407 CE LYS A 70 31.297 -2.207 46.633 1.00 0.84 C
+ATOM 408 NZ LYS A 70 31.897 -2.894 47.770 1.00 0.84 N
+ATOM 409 N ARG A 71 24.345 -0.247 45.125 1.00 0.81 N
+ATOM 410 CA ARG A 71 22.961 -0.105 45.530 1.00 0.81 C
+ATOM 411 C ARG A 71 21.998 -0.489 44.420 1.00 0.81 C
+ATOM 412 O ARG A 71 20.783 -0.490 44.615 1.00 0.81 O
+ATOM 413 CB ARG A 71 22.656 1.352 45.929 1.00 0.81 C
+ATOM 414 CG ARG A 71 23.450 1.857 47.147 1.00 0.81 C
+ATOM 415 CD ARG A 71 23.161 3.335 47.417 1.00 0.81 C
+ATOM 416 NE ARG A 71 23.959 3.769 48.604 1.00 0.81 N
+ATOM 417 CZ ARG A 71 23.852 4.987 49.154 1.00 0.81 C
+ATOM 418 NH1 ARG A 71 22.978 5.889 48.716 1.00 0.81 N
+ATOM 419 NH2 ARG A 71 24.644 5.305 50.178 1.00 0.81 N
+ATOM 420 N VAL A 72 22.501 -0.870 43.229 1.00 0.88 N
+ATOM 421 CA VAL A 72 21.679 -1.473 42.199 1.00 0.88 C
+ATOM 422 C VAL A 72 21.275 -2.874 42.659 1.00 0.88 C
+ATOM 423 O VAL A 72 22.166 -3.674 42.963 1.00 0.88 O
+ATOM 424 CB VAL A 72 22.371 -1.514 40.842 1.00 0.88 C
+ATOM 425 CG1 VAL A 72 21.505 -2.261 39.809 1.00 0.88 C
+ATOM 426 CG2 VAL A 72 22.612 -0.067 40.369 1.00 0.88 C
+ATOM 427 N PRO A 73 19.989 -3.234 42.766 1.00 0.88 N
+ATOM 428 CA PRO A 73 19.556 -4.513 43.319 1.00 0.88 C
+ATOM 429 C PRO A 73 20.224 -5.708 42.675 1.00 0.88 C
+ATOM 430 O PRO A 73 20.169 -5.827 41.460 1.00 0.88 O
+ATOM 431 CB PRO A 73 18.040 -4.508 43.083 1.00 0.88 C
+ATOM 432 CG PRO A 73 17.667 -3.029 43.198 1.00 0.88 C
+ATOM 433 CD PRO A 73 18.853 -2.335 42.543 1.00 0.88 C
+ATOM 434 N GLY A 74 20.871 -6.586 43.461 1.00 0.89 N
+ATOM 435 CA GLY A 74 21.542 -7.783 42.964 1.00 0.89 C
+ATOM 436 C GLY A 74 22.946 -7.608 42.444 1.00 0.89 C
+ATOM 437 O GLY A 74 23.603 -8.581 42.079 1.00 0.89 O
+ATOM 438 N PHE A 75 23.489 -6.378 42.408 1.00 0.87 N
+ATOM 439 CA PHE A 75 24.867 -6.152 42.011 1.00 0.87 C
+ATOM 440 C PHE A 75 25.857 -6.634 43.061 1.00 0.87 C
+ATOM 441 O PHE A 75 26.909 -7.181 42.744 1.00 0.87 O
+ATOM 442 CB PHE A 75 25.061 -4.658 41.665 1.00 0.87 C
+ATOM 443 CG PHE A 75 26.381 -4.371 41.004 1.00 0.87 C
+ATOM 444 CD1 PHE A 75 26.549 -4.563 39.623 1.00 0.87 C
+ATOM 445 CD2 PHE A 75 27.458 -3.879 41.759 1.00 0.87 C
+ATOM 446 CE1 PHE A 75 27.773 -4.269 39.008 1.00 0.87 C
+ATOM 447 CE2 PHE A 75 28.680 -3.577 41.148 1.00 0.87 C
+ATOM 448 CZ PHE A 75 28.837 -3.774 39.771 1.00 0.87 C
+ATOM 449 N VAL A 76 25.531 -6.470 44.357 1.00 0.81 N
+ATOM 450 CA VAL A 76 26.366 -6.892 45.475 1.00 0.81 C
+ATOM 451 C VAL A 76 26.599 -8.395 45.504 1.00 0.81 C
+ATOM 452 O VAL A 76 27.662 -8.866 45.899 1.00 0.81 O
+ATOM 453 CB VAL A 76 25.789 -6.402 46.794 1.00 0.81 C
+ATOM 454 CG1 VAL A 76 26.570 -6.949 48.002 1.00 0.81 C
+ATOM 455 CG2 VAL A 76 25.848 -4.869 46.815 1.00 0.81 C
+ATOM 456 N ASP A 77 25.613 -9.171 45.025 1.00 0.80 N
+ATOM 457 CA ASP A 77 25.650 -10.616 44.995 1.00 0.80 C
+ATOM 458 C ASP A 77 26.566 -11.187 43.907 1.00 0.80 C
+ATOM 459 O ASP A 77 26.834 -12.386 43.856 1.00 0.80 O
+ATOM 460 CB ASP A 77 24.212 -11.162 44.820 1.00 0.80 C
+ATOM 461 CG ASP A 77 23.279 -10.497 45.820 1.00 0.80 C
+ATOM 462 OD1 ASP A 77 23.575 -10.538 47.037 1.00 0.80 O
+ATOM 463 OD2 ASP A 77 22.269 -9.901 45.358 1.00 0.80 O
+ATOM 464 N LEU A 78 27.060 -10.336 42.986 1.00 0.78 N
+ATOM 465 CA LEU A 78 27.989 -10.725 41.946 1.00 0.78 C
+ATOM 466 C LEU A 78 29.423 -10.810 42.439 1.00 0.78 C
+ATOM 467 O LEU A 78 29.840 -10.134 43.378 1.00 0.78 O
+ATOM 468 CB LEU A 78 27.949 -9.721 40.773 1.00 0.78 C
+ATOM 469 CG LEU A 78 26.586 -9.623 40.070 1.00 0.78 C
+ATOM 470 CD1 LEU A 78 26.598 -8.482 39.046 1.00 0.78 C
+ATOM 471 CD2 LEU A 78 26.225 -10.942 39.383 1.00 0.78 C
+ATOM 472 N THR A 79 30.249 -11.655 41.790 1.00 0.78 N
+ATOM 473 CA THR A 79 31.674 -11.733 42.075 1.00 0.78 C
+ATOM 474 C THR A 79 32.411 -10.444 41.744 1.00 0.78 C
+ATOM 475 O THR A 79 31.978 -9.659 40.904 1.00 0.78 O
+ATOM 476 CB THR A 79 32.401 -12.910 41.415 1.00 0.78 C
+ATOM 477 OG1 THR A 79 32.584 -12.746 40.014 1.00 0.78 O
+ATOM 478 CG2 THR A 79 31.665 -14.233 41.667 1.00 0.78 C
+ATOM 479 N LEU A 80 33.575 -10.181 42.386 1.00 0.78 N
+ATOM 480 CA LEU A 80 34.392 -9.006 42.096 1.00 0.78 C
+ATOM 481 C LEU A 80 34.796 -8.917 40.628 1.00 0.78 C
+ATOM 482 O LEU A 80 34.801 -7.843 40.036 1.00 0.78 O
+ATOM 483 CB LEU A 80 35.694 -8.982 42.942 1.00 0.78 C
+ATOM 484 CG LEU A 80 35.521 -8.695 44.447 1.00 0.78 C
+ATOM 485 CD1 LEU A 80 36.857 -8.890 45.182 1.00 0.78 C
+ATOM 486 CD2 LEU A 80 35.020 -7.267 44.706 1.00 0.78 C
+ATOM 487 N HIS A 81 35.113 -10.061 39.984 1.00 0.76 N
+ATOM 488 CA HIS A 81 35.410 -10.103 38.560 1.00 0.76 C
+ATOM 489 C HIS A 81 34.236 -9.654 37.692 1.00 0.76 C
+ATOM 490 O HIS A 81 34.397 -8.767 36.853 1.00 0.76 O
+ATOM 491 CB HIS A 81 35.894 -11.517 38.161 1.00 0.76 C
+ATOM 492 CG HIS A 81 36.177 -11.709 36.702 1.00 0.76 C
+ATOM 493 ND1 HIS A 81 35.139 -12.044 35.866 1.00 0.76 N
+ATOM 494 CD2 HIS A 81 37.322 -11.572 35.992 1.00 0.76 C
+ATOM 495 CE1 HIS A 81 35.657 -12.103 34.664 1.00 0.76 C
+ATOM 496 NE2 HIS A 81 36.983 -11.826 34.678 1.00 0.76 N
+ATOM 497 N ASP A 82 33.013 -10.169 37.952 1.00 0.83 N
+ATOM 498 CA ASP A 82 31.813 -9.731 37.264 1.00 0.83 C
+ATOM 499 C ASP A 82 31.504 -8.263 37.469 1.00 0.83 C
+ATOM 500 O ASP A 82 31.213 -7.527 36.524 1.00 0.83 O
+ATOM 501 CB ASP A 82 30.569 -10.510 37.752 1.00 0.83 C
+ATOM 502 CG ASP A 82 30.465 -11.916 37.188 1.00 0.83 C
+ATOM 503 OD1 ASP A 82 31.347 -12.333 36.406 1.00 0.83 O
+ATOM 504 OD2 ASP A 82 29.447 -12.565 37.541 1.00 0.83 O
+ATOM 505 N GLN A 83 31.603 -7.779 38.721 1.00 0.84 N
+ATOM 506 CA GLN A 83 31.370 -6.388 39.036 1.00 0.84 C
+ATOM 507 C GLN A 83 32.323 -5.453 38.307 1.00 0.84 C
+ATOM 508 O GLN A 83 31.892 -4.465 37.712 1.00 0.84 O
+ATOM 509 CB GLN A 83 31.481 -6.136 40.556 1.00 0.84 C
+ATOM 510 CG GLN A 83 30.352 -6.775 41.395 1.00 0.84 C
+ATOM 511 CD GLN A 83 30.534 -6.456 42.878 1.00 0.84 C
+ATOM 512 OE1 GLN A 83 31.610 -6.083 43.348 1.00 0.84 O
+ATOM 513 NE2 GLN A 83 29.446 -6.588 43.664 1.00 0.84 N
+ATOM 514 N VAL A 84 33.636 -5.773 38.271 1.00 0.82 N
+ATOM 515 CA VAL A 84 34.609 -4.999 37.512 1.00 0.82 C
+ATOM 516 C VAL A 84 34.308 -5.015 36.028 1.00 0.82 C
+ATOM 517 O VAL A 84 34.243 -3.963 35.405 1.00 0.82 O
+ATOM 518 CB VAL A 84 36.037 -5.479 37.753 1.00 0.82 C
+ATOM 519 CG1 VAL A 84 37.050 -4.782 36.821 1.00 0.82 C
+ATOM 520 CG2 VAL A 84 36.423 -5.197 39.212 1.00 0.82 C
+ATOM 521 N HIS A 85 34.023 -6.194 35.443 1.00 0.82 N
+ATOM 522 CA HIS A 85 33.750 -6.345 34.022 1.00 0.82 C
+ATOM 523 C HIS A 85 32.538 -5.548 33.554 1.00 0.82 C
+ATOM 524 O HIS A 85 32.549 -4.884 32.516 1.00 0.82 O
+ATOM 525 CB HIS A 85 33.543 -7.844 33.706 1.00 0.82 C
+ATOM 526 CG HIS A 85 33.253 -8.143 32.270 1.00 0.82 C
+ATOM 527 ND1 HIS A 85 34.290 -8.389 31.392 1.00 0.82 N
+ATOM 528 CD2 HIS A 85 32.068 -8.138 31.610 1.00 0.82 C
+ATOM 529 CE1 HIS A 85 33.719 -8.525 30.216 1.00 0.82 C
+ATOM 530 NE2 HIS A 85 32.375 -8.380 30.291 1.00 0.82 N
+ATOM 531 N LEU A 86 31.444 -5.556 34.341 1.00 0.88 N
+ATOM 532 CA LEU A 86 30.279 -4.740 34.060 1.00 0.88 C
+ATOM 533 C LEU A 86 30.556 -3.242 34.139 1.00 0.88 C
+ATOM 534 O LEU A 86 30.174 -2.478 33.254 1.00 0.88 O
+ATOM 535 CB LEU A 86 29.125 -5.117 35.012 1.00 0.88 C
+ATOM 536 CG LEU A 86 28.547 -6.535 34.803 1.00 0.88 C
+ATOM 537 CD1 LEU A 86 27.469 -6.815 35.858 1.00 0.88 C
+ATOM 538 CD2 LEU A 86 27.956 -6.748 33.402 1.00 0.88 C
+ATOM 539 N LEU A 87 31.284 -2.786 35.178 1.00 0.88 N
+ATOM 540 CA LEU A 87 31.709 -1.403 35.312 1.00 0.88 C
+ATOM 541 C LEU A 87 32.663 -0.952 34.214 1.00 0.88 C
+ATOM 542 O LEU A 87 32.532 0.150 33.685 1.00 0.88 O
+ATOM 543 CB LEU A 87 32.360 -1.168 36.694 1.00 0.88 C
+ATOM 544 CG LEU A 87 31.353 -1.159 37.861 1.00 0.88 C
+ATOM 545 CD1 LEU A 87 32.067 -1.415 39.193 1.00 0.88 C
+ATOM 546 CD2 LEU A 87 30.574 0.162 37.939 1.00 0.88 C
+ATOM 547 N GLU A 88 33.623 -1.811 33.817 1.00 0.82 N
+ATOM 548 CA GLU A 88 34.591 -1.550 32.763 1.00 0.82 C
+ATOM 549 C GLU A 88 33.922 -1.284 31.424 1.00 0.82 C
+ATOM 550 O GLU A 88 34.267 -0.356 30.698 1.00 0.82 O
+ATOM 551 CB GLU A 88 35.588 -2.736 32.639 1.00 0.82 C
+ATOM 552 CG GLU A 88 37.079 -2.335 32.457 1.00 0.82 C
+ATOM 553 CD GLU A 88 38.040 -3.536 32.428 1.00 0.82 C
+ATOM 554 OE1 GLU A 88 37.611 -4.663 32.781 1.00 0.82 O
+ATOM 555 OE2 GLU A 88 39.242 -3.329 32.114 1.00 0.82 O
+ATOM 556 N SER A 89 32.891 -2.079 31.082 1.00 0.87 N
+ATOM 557 CA SER A 89 32.087 -1.845 29.892 1.00 0.87 C
+ATOM 558 C SER A 89 31.193 -0.615 29.986 1.00 0.87 C
+ATOM 559 O SER A 89 31.094 0.181 29.057 1.00 0.87 O
+ATOM 560 CB SER A 89 31.217 -3.087 29.582 1.00 0.87 C
+ATOM 561 OG SER A 89 30.762 -3.090 28.225 1.00 0.87 O
+ATOM 562 N ALA A 90 30.521 -0.417 31.140 1.00 0.93 N
+ATOM 563 CA ALA A 90 29.429 0.531 31.223 1.00 0.93 C
+ATOM 564 C ALA A 90 29.755 1.940 31.709 1.00 0.93 C
+ATOM 565 O ALA A 90 28.918 2.834 31.584 1.00 0.93 O
+ATOM 566 CB ALA A 90 28.379 -0.044 32.192 1.00 0.93 C
+ATOM 567 N TRP A 91 30.951 2.227 32.269 1.00 0.88 N
+ATOM 568 CA TRP A 91 31.180 3.484 32.981 1.00 0.88 C
+ATOM 569 C TRP A 91 30.953 4.761 32.170 1.00 0.88 C
+ATOM 570 O TRP A 91 30.303 5.697 32.631 1.00 0.88 O
+ATOM 571 CB TRP A 91 32.592 3.523 33.637 1.00 0.88 C
+ATOM 572 CG TRP A 91 33.755 3.632 32.661 1.00 0.88 C
+ATOM 573 CD1 TRP A 91 34.322 2.644 31.915 1.00 0.88 C
+ATOM 574 CD2 TRP A 91 34.381 4.860 32.272 1.00 0.88 C
+ATOM 575 NE1 TRP A 91 35.241 3.180 31.050 1.00 0.88 N
+ATOM 576 CE2 TRP A 91 35.311 4.532 31.240 1.00 0.88 C
+ATOM 577 CE3 TRP A 91 34.226 6.171 32.698 1.00 0.88 C
+ATOM 578 CZ2 TRP A 91 36.072 5.514 30.640 1.00 0.88 C
+ATOM 579 CZ3 TRP A 91 35.016 7.156 32.098 1.00 0.88 C
+ATOM 580 CH2 TRP A 91 35.926 6.834 31.078 1.00 0.88 C
+ATOM 581 N LEU A 92 31.449 4.821 30.918 1.00 0.90 N
+ATOM 582 CA LEU A 92 31.259 5.971 30.058 1.00 0.90 C
+ATOM 583 C LEU A 92 29.811 6.156 29.629 1.00 0.90 C
+ATOM 584 O LEU A 92 29.300 7.273 29.611 1.00 0.90 O
+ATOM 585 CB LEU A 92 32.231 5.931 28.861 1.00 0.90 C
+ATOM 586 CG LEU A 92 32.219 7.185 27.960 1.00 0.90 C
+ATOM 587 CD1 LEU A 92 32.544 8.472 28.731 1.00 0.90 C
+ATOM 588 CD2 LEU A 92 33.221 7.024 26.812 1.00 0.90 C
+ATOM 589 N GLU A 93 29.075 5.057 29.350 1.00 0.91 N
+ATOM 590 CA GLU A 93 27.644 5.121 29.084 1.00 0.91 C
+ATOM 591 C GLU A 93 26.862 5.693 30.262 1.00 0.91 C
+ATOM 592 O GLU A 93 25.974 6.528 30.097 1.00 0.91 O
+ATOM 593 CB GLU A 93 27.050 3.735 28.749 1.00 0.91 C
+ATOM 594 CG GLU A 93 27.568 3.116 27.438 1.00 0.91 C
+ATOM 595 CD GLU A 93 27.022 1.720 27.221 1.00 0.91 C
+ATOM 596 OE1 GLU A 93 25.959 1.513 26.583 1.00 0.91 O
+ATOM 597 OE2 GLU A 93 27.744 0.792 27.653 1.00 0.91 O
+ATOM 598 N ILE A 94 27.217 5.285 31.496 1.00 0.95 N
+ATOM 599 CA ILE A 94 26.643 5.793 32.732 1.00 0.95 C
+ATOM 600 C ILE A 94 26.923 7.278 32.954 1.00 0.95 C
+ATOM 601 O ILE A 94 26.022 8.042 33.309 1.00 0.95 O
+ATOM 602 CB ILE A 94 27.084 4.933 33.912 1.00 0.95 C
+ATOM 603 CG1 ILE A 94 26.486 3.510 33.777 1.00 0.95 C
+ATOM 604 CG2 ILE A 94 26.665 5.570 35.256 1.00 0.95 C
+ATOM 605 CD1 ILE A 94 27.110 2.492 34.736 1.00 0.95 C
+ATOM 606 N LEU A 95 28.165 7.752 32.703 1.00 0.94 N
+ATOM 607 CA LEU A 95 28.463 9.180 32.729 1.00 0.94 C
+ATOM 608 C LEU A 95 27.694 9.958 31.666 1.00 0.94 C
+ATOM 609 O LEU A 95 27.105 11.004 31.939 1.00 0.94 O
+ATOM 610 CB LEU A 95 29.972 9.482 32.544 1.00 0.94 C
+ATOM 611 CG LEU A 95 30.904 9.031 33.688 1.00 0.94 C
+ATOM 612 CD1 LEU A 95 32.356 9.390 33.342 1.00 0.94 C
+ATOM 613 CD2 LEU A 95 30.538 9.665 35.037 1.00 0.94 C
+ATOM 614 N MET A 96 27.634 9.442 30.422 1.00 0.93 N
+ATOM 615 CA MET A 96 26.909 10.072 29.337 1.00 0.93 C
+ATOM 616 C MET A 96 25.413 10.158 29.562 1.00 0.93 C
+ATOM 617 O MET A 96 24.817 11.209 29.358 1.00 0.93 O
+ATOM 618 CB MET A 96 27.178 9.357 27.997 1.00 0.93 C
+ATOM 619 CG MET A 96 28.576 9.639 27.424 1.00 0.93 C
+ATOM 620 SD MET A 96 28.825 8.826 25.824 1.00 0.93 S
+ATOM 621 CE MET A 96 30.337 9.733 25.403 1.00 0.93 C
+ATOM 622 N ILE A 97 24.745 9.090 30.039 1.00 0.94 N
+ATOM 623 CA ILE A 97 23.322 9.164 30.345 1.00 0.94 C
+ATOM 624 C ILE A 97 23.031 10.134 31.484 1.00 0.94 C
+ATOM 625 O ILE A 97 22.041 10.864 31.461 1.00 0.94 O
+ATOM 626 CB ILE A 97 22.659 7.800 30.529 1.00 0.94 C
+ATOM 627 CG1 ILE A 97 21.125 7.912 30.363 1.00 0.94 C
+ATOM 628 CG2 ILE A 97 23.041 7.175 31.880 1.00 0.94 C
+ATOM 629 CD1 ILE A 97 20.379 6.575 30.382 1.00 0.94 C
+ATOM 630 N GLY A 98 23.933 10.226 32.491 1.00 0.97 N
+ATOM 631 CA GLY A 98 23.818 11.236 33.538 1.00 0.97 C
+ATOM 632 C GLY A 98 24.007 12.649 33.048 1.00 0.97 C
+ATOM 633 O GLY A 98 23.273 13.549 33.445 1.00 0.97 O
+ATOM 634 N LEU A 99 24.956 12.882 32.127 1.00 0.95 N
+ATOM 635 CA LEU A 99 25.128 14.156 31.455 1.00 0.95 C
+ATOM 636 C LEU A 99 23.922 14.559 30.624 1.00 0.95 C
+ATOM 637 O LEU A 99 23.477 15.706 30.639 1.00 0.95 O
+ATOM 638 CB LEU A 99 26.361 14.083 30.528 1.00 0.95 C
+ATOM 639 CG LEU A 99 26.615 15.326 29.654 1.00 0.95 C
+ATOM 640 CD1 LEU A 99 26.884 16.566 30.505 1.00 0.95 C
+ATOM 641 CD2 LEU A 99 27.797 15.077 28.716 1.00 0.95 C
+ATOM 642 N VAL A 100 23.338 13.610 29.872 1.00 0.94 N
+ATOM 643 CA VAL A 100 22.154 13.843 29.067 1.00 0.94 C
+ATOM 644 C VAL A 100 20.957 14.211 29.933 1.00 0.94 C
+ATOM 645 O VAL A 100 20.248 15.173 29.647 1.00 0.94 O
+ATOM 646 CB VAL A 100 21.866 12.641 28.178 1.00 0.94 C
+ATOM 647 CG1 VAL A 100 20.550 12.807 27.417 1.00 0.94 C
+ATOM 648 CG2 VAL A 100 22.986 12.491 27.129 1.00 0.94 C
+ATOM 649 N TRP A 101 20.755 13.497 31.061 1.00 0.91 N
+ATOM 650 CA TRP A 101 19.727 13.808 32.038 1.00 0.91 C
+ATOM 651 C TRP A 101 19.882 15.191 32.658 1.00 0.91 C
+ATOM 652 O TRP A 101 18.925 15.949 32.758 1.00 0.91 O
+ATOM 653 CB TRP A 101 19.711 12.701 33.124 1.00 0.91 C
+ATOM 654 CG TRP A 101 18.817 12.948 34.335 1.00 0.91 C
+ATOM 655 CD1 TRP A 101 19.188 13.366 35.582 1.00 0.91 C
+ATOM 656 CD2 TRP A 101 17.392 12.866 34.329 1.00 0.91 C
+ATOM 657 NE1 TRP A 101 18.074 13.571 36.354 1.00 0.91 N
+ATOM 658 CE2 TRP A 101 16.955 13.299 35.617 1.00 0.91 C
+ATOM 659 CE3 TRP A 101 16.476 12.488 33.360 1.00 0.91 C
+ATOM 660 CZ2 TRP A 101 15.610 13.377 35.914 1.00 0.91 C
+ATOM 661 CZ3 TRP A 101 15.116 12.582 33.665 1.00 0.91 C
+ATOM 662 CH2 TRP A 101 14.685 13.039 34.920 1.00 0.91 C
+ATOM 663 N ARG A 102 21.105 15.611 33.035 1.00 0.88 N
+ATOM 664 CA ARG A 102 21.289 16.934 33.604 1.00 0.88 C
+ATOM 665 C ARG A 102 21.087 18.053 32.589 1.00 0.88 C
+ATOM 666 O ARG A 102 20.815 19.199 32.934 1.00 0.88 O
+ATOM 667 CB ARG A 102 22.709 17.080 34.193 1.00 0.88 C
+ATOM 668 CG ARG A 102 22.989 16.202 35.426 1.00 0.88 C
+ATOM 669 CD ARG A 102 24.344 16.484 36.097 1.00 0.88 C
+ATOM 670 NE ARG A 102 25.476 16.291 35.115 1.00 0.88 N
+ATOM 671 CZ ARG A 102 26.362 15.273 35.153 1.00 0.88 C
+ATOM 672 NH1 ARG A 102 26.118 14.147 35.806 1.00 0.88 N
+ATOM 673 NH2 ARG A 102 27.549 15.388 34.570 1.00 0.88 N
+ATOM 674 N SER A 103 21.196 17.735 31.290 1.00 0.93 N
+ATOM 675 CA SER A 103 21.157 18.734 30.244 1.00 0.93 C
+ATOM 676 C SER A 103 19.780 18.921 29.650 1.00 0.93 C
+ATOM 677 O SER A 103 19.574 19.798 28.814 1.00 0.93 O
+ATOM 678 CB SER A 103 22.081 18.333 29.068 1.00 0.93 C
+ATOM 679 OG SER A 103 23.437 18.187 29.484 1.00 0.93 O
+ATOM 680 N MET A 104 18.758 18.136 30.043 1.00 0.89 N
+ATOM 681 CA MET A 104 17.488 18.186 29.333 1.00 0.89 C
+ATOM 682 C MET A 104 16.644 19.406 29.637 1.00 0.89 C
+ATOM 683 O MET A 104 15.789 19.779 28.835 1.00 0.89 O
+ATOM 684 CB MET A 104 16.690 16.871 29.424 1.00 0.89 C
+ATOM 685 CG MET A 104 16.230 16.447 30.822 1.00 0.89 C
+ATOM 686 SD MET A 104 15.673 14.718 30.831 1.00 0.89 S
+ATOM 687 CE MET A 104 13.968 15.048 30.316 1.00 0.89 C
+ATOM 688 N GLU A 105 16.949 20.122 30.732 1.00 0.88 N
+ATOM 689 CA GLU A 105 16.349 21.401 31.052 1.00 0.88 C
+ATOM 690 C GLU A 105 17.079 22.567 30.391 1.00 0.88 C
+ATOM 691 O GLU A 105 16.617 23.703 30.430 1.00 0.88 O
+ATOM 692 CB GLU A 105 16.374 21.620 32.579 1.00 0.88 C
+ATOM 693 CG GLU A 105 15.517 20.599 33.364 1.00 0.88 C
+ATOM 694 CD GLU A 105 15.577 20.819 34.878 1.00 0.88 C
+ATOM 695 OE1 GLU A 105 16.404 21.647 35.338 1.00 0.88 O
+ATOM 696 OE2 GLU A 105 14.788 20.136 35.580 1.00 0.88 O
+ATOM 697 N HIS A 106 18.218 22.303 29.708 1.00 0.91 N
+ATOM 698 CA HIS A 106 19.061 23.320 29.096 1.00 0.91 C
+ATOM 699 C HIS A 106 19.221 23.102 27.589 1.00 0.91 C
+ATOM 700 O HIS A 106 20.261 22.600 27.155 1.00 0.91 O
+ATOM 701 CB HIS A 106 20.459 23.312 29.754 1.00 0.91 C
+ATOM 702 CG HIS A 106 20.371 23.544 31.228 1.00 0.91 C
+ATOM 703 ND1 HIS A 106 20.456 24.832 31.718 1.00 0.91 N
+ATOM 704 CD2 HIS A 106 20.043 22.680 32.223 1.00 0.91 C
+ATOM 705 CE1 HIS A 106 20.172 24.727 33.001 1.00 0.91 C
+ATOM 706 NE2 HIS A 106 19.908 23.446 33.360 1.00 0.91 N
+ATOM 707 N PRO A 107 18.248 23.423 26.730 1.00 0.93 N
+ATOM 708 CA PRO A 107 18.355 23.255 25.283 1.00 0.93 C
+ATOM 709 C PRO A 107 19.584 23.880 24.649 1.00 0.93 C
+ATOM 710 O PRO A 107 19.845 25.063 24.849 1.00 0.93 O
+ATOM 711 CB PRO A 107 17.061 23.867 24.722 1.00 0.93 C
+ATOM 712 CG PRO A 107 16.068 23.773 25.880 1.00 0.93 C
+ATOM 713 CD PRO A 107 16.951 23.983 27.109 1.00 0.93 C
+ATOM 714 N GLY A 108 20.353 23.100 23.863 1.00 0.93 N
+ATOM 715 CA GLY A 108 21.532 23.615 23.175 1.00 0.93 C
+ATOM 716 C GLY A 108 22.789 23.655 23.999 1.00 0.93 C
+ATOM 717 O GLY A 108 23.819 24.144 23.541 1.00 0.93 O
+ATOM 718 N LYS A 109 22.739 23.128 25.234 1.00 0.91 N
+ATOM 719 CA LYS A 109 23.853 23.145 26.153 1.00 0.91 C
+ATOM 720 C LYS A 109 24.047 21.764 26.767 1.00 0.91 C
+ATOM 721 O LYS A 109 23.109 20.976 26.877 1.00 0.91 O
+ATOM 722 CB LYS A 109 23.588 24.138 27.310 1.00 0.91 C
+ATOM 723 CG LYS A 109 23.398 25.613 26.905 1.00 0.91 C
+ATOM 724 CD LYS A 109 24.724 26.291 26.518 1.00 0.91 C
+ATOM 725 CE LYS A 109 24.576 27.766 26.111 1.00 0.91 C
+ATOM 726 NZ LYS A 109 25.888 28.427 25.891 1.00 0.91 N
+ATOM 727 N LEU A 110 25.283 21.440 27.195 1.00 0.93 N
+ATOM 728 CA LEU A 110 25.582 20.239 27.953 1.00 0.93 C
+ATOM 729 C LEU A 110 26.021 20.627 29.354 1.00 0.93 C
+ATOM 730 O LEU A 110 27.019 21.324 29.554 1.00 0.93 O
+ATOM 731 CB LEU A 110 26.669 19.344 27.300 1.00 0.93 C
+ATOM 732 CG LEU A 110 26.240 18.630 26.002 1.00 0.93 C
+ATOM 733 CD1 LEU A 110 27.386 17.778 25.439 1.00 0.93 C
+ATOM 734 CD2 LEU A 110 25.006 17.741 26.208 1.00 0.93 C
+ATOM 735 N LEU A 111 25.254 20.196 30.377 1.00 0.94 N
+ATOM 736 CA LEU A 111 25.493 20.521 31.769 1.00 0.94 C
+ATOM 737 C LEU A 111 26.385 19.470 32.390 1.00 0.94 C
+ATOM 738 O LEU A 111 25.955 18.521 33.057 1.00 0.94 O
+ATOM 739 CB LEU A 111 24.159 20.663 32.542 1.00 0.94 C
+ATOM 740 CG LEU A 111 24.234 21.415 33.891 1.00 0.94 C
+ATOM 741 CD1 LEU A 111 22.874 22.055 34.192 1.00 0.94 C
+ATOM 742 CD2 LEU A 111 24.627 20.511 35.067 1.00 0.94 C
+ATOM 743 N PHE A 112 27.704 19.623 32.183 1.00 0.93 N
+ATOM 744 CA PHE A 112 28.708 18.755 32.761 1.00 0.93 C
+ATOM 745 C PHE A 112 28.694 18.860 34.270 1.00 0.93 C
+ATOM 746 O PHE A 112 28.700 17.855 34.974 1.00 0.93 O
+ATOM 747 CB PHE A 112 30.111 19.092 32.210 1.00 0.93 C
+ATOM 748 CG PHE A 112 30.235 18.646 30.778 1.00 0.93 C
+ATOM 749 CD1 PHE A 112 30.674 17.345 30.479 1.00 0.93 C
+ATOM 750 CD2 PHE A 112 29.939 19.520 29.718 1.00 0.93 C
+ATOM 751 CE1 PHE A 112 30.813 16.925 29.149 1.00 0.93 C
+ATOM 752 CE2 PHE A 112 30.067 19.097 28.388 1.00 0.93 C
+ATOM 753 CZ PHE A 112 30.501 17.799 28.103 1.00 0.93 C
+ATOM 754 N ALA A 113 28.572 20.093 34.774 1.00 0.94 N
+ATOM 755 CA ALA A 113 28.405 20.377 36.173 1.00 0.94 C
+ATOM 756 C ALA A 113 27.628 21.683 36.266 1.00 0.94 C
+ATOM 757 O ALA A 113 27.559 22.382 35.253 1.00 0.94 O
+ATOM 758 CB ALA A 113 29.783 20.519 36.837 1.00 0.94 C
+ATOM 759 N PRO A 114 27.019 22.094 37.384 1.00 0.94 N
+ATOM 760 CA PRO A 114 26.190 23.303 37.443 1.00 0.94 C
+ATOM 761 C PRO A 114 26.955 24.568 37.131 1.00 0.94 C
+ATOM 762 O PRO A 114 26.359 25.568 36.748 1.00 0.94 O
+ATOM 763 CB PRO A 114 25.633 23.314 38.872 1.00 0.94 C
+ATOM 764 CG PRO A 114 25.622 21.839 39.275 1.00 0.94 C
+ATOM 765 CD PRO A 114 26.875 21.283 38.597 1.00 0.94 C
+ATOM 766 N ASN A 115 28.284 24.538 37.316 1.00 0.88 N
+ATOM 767 CA ASN A 115 29.184 25.621 37.005 1.00 0.88 C
+ATOM 768 C ASN A 115 29.936 25.404 35.696 1.00 0.88 C
+ATOM 769 O ASN A 115 30.889 26.116 35.402 1.00 0.88 O
+ATOM 770 CB ASN A 115 30.175 25.840 38.177 1.00 0.88 C
+ATOM 771 CG ASN A 115 31.059 24.625 38.447 1.00 0.88 C
+ATOM 772 OD1 ASN A 115 30.691 23.456 38.296 1.00 0.88 O
+ATOM 773 ND2 ASN A 115 32.301 24.902 38.900 1.00 0.88 N
+ATOM 774 N LEU A 116 29.534 24.416 34.879 1.00 0.88 N
+ATOM 775 CA LEU A 116 30.178 24.135 33.613 1.00 0.88 C
+ATOM 776 C LEU A 116 29.131 23.691 32.612 1.00 0.88 C
+ATOM 777 O LEU A 116 28.907 22.504 32.362 1.00 0.88 O
+ATOM 778 CB LEU A 116 31.302 23.086 33.759 1.00 0.88 C
+ATOM 779 CG LEU A 116 32.261 22.976 32.557 1.00 0.88 C
+ATOM 780 CD1 LEU A 116 33.067 24.266 32.350 1.00 0.88 C
+ATOM 781 CD2 LEU A 116 33.226 21.797 32.733 1.00 0.88 C
+ATOM 782 N LEU A 117 28.448 24.688 32.027 1.00 0.92 N
+ATOM 783 CA LEU A 117 27.394 24.509 31.057 1.00 0.92 C
+ATOM 784 C LEU A 117 27.923 24.936 29.700 1.00 0.92 C
+ATOM 785 O LEU A 117 28.137 26.119 29.439 1.00 0.92 O
+ATOM 786 CB LEU A 117 26.184 25.384 31.465 1.00 0.92 C
+ATOM 787 CG LEU A 117 24.919 25.233 30.602 1.00 0.92 C
+ATOM 788 CD1 LEU A 117 24.334 23.825 30.731 1.00 0.92 C
+ATOM 789 CD2 LEU A 117 23.857 26.271 30.993 1.00 0.92 C
+ATOM 790 N LEU A 118 28.167 23.967 28.801 1.00 0.90 N
+ATOM 791 CA LEU A 118 28.922 24.211 27.588 1.00 0.90 C
+ATOM 792 C LEU A 118 28.038 24.110 26.367 1.00 0.90 C
+ATOM 793 O LEU A 118 27.179 23.234 26.283 1.00 0.90 O
+ATOM 794 CB LEU A 118 30.070 23.186 27.416 1.00 0.90 C
+ATOM 795 CG LEU A 118 31.124 23.184 28.538 1.00 0.90 C
+ATOM 796 CD1 LEU A 118 32.216 22.148 28.238 1.00 0.90 C
+ATOM 797 CD2 LEU A 118 31.769 24.561 28.725 1.00 0.90 C
+ATOM 798 N ASP A 119 28.206 25.005 25.377 1.00 0.90 N
+ATOM 799 CA ASP A 119 27.555 24.848 24.092 1.00 0.90 C
+ATOM 800 C ASP A 119 28.425 24.156 23.070 1.00 0.90 C
+ATOM 801 O ASP A 119 29.577 23.786 23.294 1.00 0.90 O
+ATOM 802 CB ASP A 119 26.968 26.159 23.514 1.00 0.90 C
+ATOM 803 CG ASP A 119 27.997 27.264 23.449 1.00 0.90 C
+ATOM 804 OD1 ASP A 119 29.068 27.051 22.830 1.00 0.90 O
+ATOM 805 OD2 ASP A 119 27.661 28.336 24.042 1.00 0.90 O
+ATOM 806 N ARG A 120 27.841 23.973 21.880 1.00 0.80 N
+ATOM 807 CA ARG A 120 28.461 23.364 20.735 1.00 0.80 C
+ATOM 808 C ARG A 120 29.723 24.071 20.262 1.00 0.80 C
+ATOM 809 O ARG A 120 30.665 23.439 19.786 1.00 0.80 O
+ATOM 810 CB ARG A 120 27.433 23.316 19.590 1.00 0.80 C
+ATOM 811 CG ARG A 120 27.890 22.426 18.429 1.00 0.80 C
+ATOM 812 CD ARG A 120 26.943 22.454 17.239 1.00 0.80 C
+ATOM 813 NE ARG A 120 27.472 21.430 16.299 1.00 0.80 N
+ATOM 814 CZ ARG A 120 28.357 21.562 15.308 1.00 0.80 C
+ATOM 815 NH1 ARG A 120 28.787 22.762 14.927 1.00 0.80 N
+ATOM 816 NH2 ARG A 120 28.691 20.486 14.611 1.00 0.80 N
+ATOM 817 N ASN A 121 29.783 25.412 20.388 1.00 0.81 N
+ATOM 818 CA ASN A 121 30.968 26.176 20.057 1.00 0.81 C
+ATOM 819 C ASN A 121 32.102 25.861 21.016 1.00 0.81 C
+ATOM 820 O ASN A 121 33.245 25.673 20.614 1.00 0.81 O
+ATOM 821 CB ASN A 121 30.683 27.691 20.053 1.00 0.81 C
+ATOM 822 CG ASN A 121 29.776 28.057 18.884 1.00 0.81 C
+ATOM 823 OD1 ASN A 121 29.725 27.390 17.845 1.00 0.81 O
+ATOM 824 ND2 ASN A 121 29.054 29.190 19.044 1.00 0.81 N
+ATOM 825 N GLN A 122 31.797 25.716 22.316 1.00 0.80 N
+ATOM 826 CA GLN A 122 32.782 25.350 23.317 1.00 0.80 C
+ATOM 827 C GLN A 122 33.261 23.907 23.201 1.00 0.80 C
+ATOM 828 O GLN A 122 34.318 23.552 23.712 1.00 0.80 O
+ATOM 829 CB GLN A 122 32.223 25.620 24.729 1.00 0.80 C
+ATOM 830 CG GLN A 122 32.027 27.127 25.001 1.00 0.80 C
+ATOM 831 CD GLN A 122 31.285 27.344 26.315 1.00 0.80 C
+ATOM 832 OE1 GLN A 122 30.083 27.103 26.425 1.00 0.80 O
+ATOM 833 NE2 GLN A 122 32.024 27.795 27.356 1.00 0.80 N
+ATOM 834 N GLY A 123 32.524 23.048 22.467 1.00 0.84 N
+ATOM 835 CA GLY A 123 33.007 21.735 22.062 1.00 0.84 C
+ATOM 836 C GLY A 123 33.931 21.740 20.872 1.00 0.84 C
+ATOM 837 O GLY A 123 34.516 20.712 20.549 1.00 0.84 O
+ATOM 838 N LYS A 124 34.114 22.883 20.179 1.00 0.76 N
+ATOM 839 CA LYS A 124 34.996 22.959 19.027 1.00 0.76 C
+ATOM 840 C LYS A 124 36.454 23.119 19.382 1.00 0.76 C
+ATOM 841 O LYS A 124 37.321 22.920 18.539 1.00 0.76 O
+ATOM 842 CB LYS A 124 34.629 24.149 18.113 1.00 0.76 C
+ATOM 843 CG LYS A 124 33.316 23.958 17.356 1.00 0.76 C
+ATOM 844 CD LYS A 124 32.969 25.208 16.544 1.00 0.76 C
+ATOM 845 CE LYS A 124 31.792 25.010 15.594 1.00 0.76 C
+ATOM 846 NZ LYS A 124 32.125 23.952 14.614 1.00 0.76 N
+ATOM 847 N SER A 125 36.766 23.497 20.632 1.00 0.75 N
+ATOM 848 CA SER A 125 38.137 23.616 21.092 1.00 0.75 C
+ATOM 849 C SER A 125 38.855 22.288 21.179 1.00 0.75 C
+ATOM 850 O SER A 125 40.032 22.200 20.860 1.00 0.75 O
+ATOM 851 CB SER A 125 38.221 24.367 22.438 1.00 0.75 C
+ATOM 852 OG SER A 125 37.302 23.809 23.370 1.00 0.75 O
+ATOM 853 N VAL A 126 38.142 21.223 21.586 1.00 0.78 N
+ATOM 854 CA VAL A 126 38.675 19.877 21.609 1.00 0.78 C
+ATOM 855 C VAL A 126 38.554 19.236 20.243 1.00 0.78 C
+ATOM 856 O VAL A 126 37.461 19.073 19.689 1.00 0.78 O
+ATOM 857 CB VAL A 126 37.958 18.990 22.617 1.00 0.78 C
+ATOM 858 CG1 VAL A 126 38.605 17.594 22.665 1.00 0.78 C
+ATOM 859 CG2 VAL A 126 38.031 19.629 24.007 1.00 0.78 C
+ATOM 860 N GLU A 127 39.693 18.812 19.671 1.00 0.75 N
+ATOM 861 CA GLU A 127 39.762 18.100 18.413 1.00 0.75 C
+ATOM 862 C GLU A 127 38.916 16.828 18.394 1.00 0.75 C
+ATOM 863 O GLU A 127 39.088 15.926 19.211 1.00 0.75 O
+ATOM 864 CB GLU A 127 41.226 17.734 18.091 1.00 0.75 C
+ATOM 865 CG GLU A 127 42.195 18.943 18.070 1.00 0.75 C
+ATOM 866 CD GLU A 127 43.590 18.565 17.561 1.00 0.75 C
+ATOM 867 OE1 GLU A 127 43.843 17.349 17.353 1.00 0.75 O
+ATOM 868 OE2 GLU A 127 44.399 19.500 17.332 1.00 0.75 O
+ATOM 869 N GLY A 128 37.941 16.731 17.461 1.00 0.82 N
+ATOM 870 CA GLY A 128 37.107 15.538 17.298 1.00 0.82 C
+ATOM 871 C GLY A 128 35.979 15.368 18.286 1.00 0.82 C
+ATOM 872 O GLY A 128 35.366 14.306 18.354 1.00 0.82 O
+ATOM 873 N MET A 129 35.684 16.389 19.114 1.00 0.78 N
+ATOM 874 CA MET A 129 34.655 16.256 20.130 1.00 0.78 C
+ATOM 875 C MET A 129 33.292 16.762 19.689 1.00 0.78 C
+ATOM 876 O MET A 129 32.275 16.406 20.283 1.00 0.78 O
+ATOM 877 CB MET A 129 35.110 17.023 21.391 1.00 0.78 C
+ATOM 878 CG MET A 129 34.172 16.959 22.612 1.00 0.78 C
+ATOM 879 SD MET A 129 34.991 17.484 24.148 1.00 0.78 S
+ATOM 880 CE MET A 129 33.533 18.199 24.947 1.00 0.78 C
+ATOM 881 N VAL A 130 33.203 17.565 18.608 1.00 0.81 N
+ATOM 882 CA VAL A 130 31.954 18.176 18.160 1.00 0.81 C
+ATOM 883 C VAL A 130 30.903 17.173 17.735 1.00 0.81 C
+ATOM 884 O VAL A 130 29.728 17.323 18.054 1.00 0.81 O
+ATOM 885 CB VAL A 130 32.120 19.262 17.105 1.00 0.81 C
+ATOM 886 CG1 VAL A 130 32.864 20.437 17.741 1.00 0.81 C
+ATOM 887 CG2 VAL A 130 32.857 18.758 15.858 1.00 0.81 C
+ATOM 888 N GLU A 131 31.311 16.086 17.066 1.00 0.81 N
+ATOM 889 CA GLU A 131 30.472 14.980 16.677 1.00 0.81 C
+ATOM 890 C GLU A 131 29.844 14.299 17.880 1.00 0.81 C
+ATOM 891 O GLU A 131 28.649 14.020 17.914 1.00 0.81 O
+ATOM 892 CB GLU A 131 31.322 13.939 15.899 1.00 0.81 C
+ATOM 893 CG GLU A 131 31.880 14.427 14.532 1.00 0.81 C
+ATOM 894 CD GLU A 131 32.918 15.551 14.603 1.00 0.81 C
+ATOM 895 OE1 GLU A 131 33.017 16.304 13.603 1.00 0.81 O
+ATOM 896 OE2 GLU A 131 33.590 15.702 15.660 1.00 0.81 O
+ATOM 897 N ILE A 132 30.633 14.056 18.945 1.00 0.86 N
+ATOM 898 CA ILE A 132 30.126 13.501 20.191 1.00 0.86 C
+ATOM 899 C ILE A 132 29.180 14.464 20.883 1.00 0.86 C
+ATOM 900 O ILE A 132 28.122 14.090 21.388 1.00 0.86 O
+ATOM 901 CB ILE A 132 31.240 13.100 21.151 1.00 0.86 C
+ATOM 902 CG1 ILE A 132 32.381 12.327 20.451 1.00 0.86 C
+ATOM 903 CG2 ILE A 132 30.653 12.259 22.307 1.00 0.86 C
+ATOM 904 CD1 ILE A 132 31.937 11.076 19.691 1.00 0.86 C
+ATOM 905 N PHE A 133 29.544 15.760 20.876 1.00 0.88 N
+ATOM 906 CA PHE A 133 28.787 16.839 21.471 1.00 0.88 C
+ATOM 907 C PHE A 133 27.388 16.959 20.876 1.00 0.88 C
+ATOM 908 O PHE A 133 26.392 16.989 21.599 1.00 0.88 O
+ATOM 909 CB PHE A 133 29.603 18.150 21.283 1.00 0.88 C
+ATOM 910 CG PHE A 133 29.421 19.116 22.409 1.00 0.88 C
+ATOM 911 CD1 PHE A 133 28.253 19.877 22.514 1.00 0.88 C
+ATOM 912 CD2 PHE A 133 30.432 19.282 23.368 1.00 0.88 C
+ATOM 913 CE1 PHE A 133 28.070 20.755 23.588 1.00 0.88 C
+ATOM 914 CE2 PHE A 133 30.262 20.165 24.440 1.00 0.88 C
+ATOM 915 CZ PHE A 133 29.071 20.888 24.555 1.00 0.88 C
+ATOM 916 N ASP A 134 27.278 16.934 19.534 1.00 0.87 N
+ATOM 917 CA ASP A 134 26.017 16.943 18.825 1.00 0.87 C
+ATOM 918 C ASP A 134 25.148 15.731 19.105 1.00 0.87 C
+ATOM 919 O ASP A 134 23.944 15.848 19.324 1.00 0.87 O
+ATOM 920 CB ASP A 134 26.277 17.024 17.307 1.00 0.87 C
+ATOM 921 CG ASP A 134 26.732 18.409 16.929 1.00 0.87 C
+ATOM 922 OD1 ASP A 134 26.266 19.395 17.555 1.00 0.87 O
+ATOM 923 OD2 ASP A 134 27.503 18.557 15.945 1.00 0.87 O
+ATOM 924 N MET A 135 25.731 14.520 19.155 1.00 0.86 N
+ATOM 925 CA MET A 135 24.975 13.338 19.518 1.00 0.86 C
+ATOM 926 C MET A 135 24.408 13.412 20.935 1.00 0.86 C
+ATOM 927 O MET A 135 23.246 13.087 21.174 1.00 0.86 O
+ATOM 928 CB MET A 135 25.820 12.053 19.393 1.00 0.86 C
+ATOM 929 CG MET A 135 26.258 11.683 17.967 1.00 0.86 C
+ATOM 930 SD MET A 135 27.039 10.040 17.853 1.00 0.86 S
+ATOM 931 CE MET A 135 28.570 10.351 18.771 1.00 0.86 C
+ATOM 932 N LEU A 136 25.206 13.881 21.919 1.00 0.91 N
+ATOM 933 CA LEU A 136 24.753 14.048 23.291 1.00 0.91 C
+ATOM 934 C LEU A 136 23.628 15.065 23.436 1.00 0.91 C
+ATOM 935 O LEU A 136 22.624 14.819 24.109 1.00 0.91 O
+ATOM 936 CB LEU A 136 25.930 14.451 24.209 1.00 0.91 C
+ATOM 937 CG LEU A 136 26.963 13.335 24.466 1.00 0.91 C
+ATOM 938 CD1 LEU A 136 28.263 13.932 25.021 1.00 0.91 C
+ATOM 939 CD2 LEU A 136 26.439 12.271 25.438 1.00 0.91 C
+ATOM 940 N LEU A 137 23.739 16.220 22.756 1.00 0.90 N
+ATOM 941 CA LEU A 137 22.698 17.229 22.701 1.00 0.90 C
+ATOM 942 C LEU A 137 21.414 16.729 22.059 1.00 0.90 C
+ATOM 943 O LEU A 137 20.304 17.006 22.517 1.00 0.90 O
+ATOM 944 CB LEU A 137 23.196 18.438 21.901 1.00 0.90 C
+ATOM 945 CG LEU A 137 24.228 19.324 22.614 1.00 0.90 C
+ATOM 946 CD1 LEU A 137 24.852 20.276 21.593 1.00 0.90 C
+ATOM 947 CD2 LEU A 137 23.606 20.133 23.755 1.00 0.90 C
+ATOM 948 N ALA A 138 21.526 15.939 20.979 1.00 0.90 N
+ATOM 949 CA ALA A 138 20.390 15.300 20.361 1.00 0.90 C
+ATOM 950 C ALA A 138 19.691 14.272 21.243 1.00 0.90 C
+ATOM 951 O ALA A 138 18.461 14.233 21.308 1.00 0.90 O
+ATOM 952 CB ALA A 138 20.826 14.697 19.028 1.00 0.90 C
+ATOM 953 N THR A 139 20.443 13.451 21.999 1.00 0.91 N
+ATOM 954 CA THR A 139 19.890 12.549 23.010 1.00 0.91 C
+ATOM 955 C THR A 139 19.161 13.306 24.110 1.00 0.91 C
+ATOM 956 O THR A 139 18.092 12.910 24.570 1.00 0.91 O
+ATOM 957 CB THR A 139 20.955 11.662 23.639 1.00 0.91 C
+ATOM 958 OG1 THR A 139 21.702 11.005 22.629 1.00 0.91 O
+ATOM 959 CG2 THR A 139 20.328 10.524 24.450 1.00 0.91 C
+ATOM 960 N SER A 140 19.700 14.471 24.527 1.00 0.92 N
+ATOM 961 CA SER A 140 19.052 15.365 25.490 1.00 0.92 C
+ATOM 962 C SER A 140 17.712 15.883 25.005 1.00 0.92 C
+ATOM 963 O SER A 140 16.705 15.857 25.712 1.00 0.92 O
+ATOM 964 CB SER A 140 20.000 16.541 25.865 1.00 0.92 C
+ATOM 965 OG SER A 140 19.374 17.528 26.690 1.00 0.92 O
+ATOM 966 N SER A 141 17.642 16.303 23.732 1.00 0.89 N
+ATOM 967 CA SER A 141 16.387 16.658 23.091 1.00 0.89 C
+ATOM 968 C SER A 141 15.407 15.516 23.005 1.00 0.89 C
+ATOM 969 O SER A 141 14.219 15.699 23.245 1.00 0.89 O
+ATOM 970 CB SER A 141 16.618 17.211 21.676 1.00 0.89 C
+ATOM 971 OG SER A 141 17.246 18.486 21.771 1.00 0.89 O
+ATOM 972 N ARG A 142 15.877 14.295 22.695 1.00 0.82 N
+ATOM 973 CA ARG A 142 15.048 13.107 22.643 1.00 0.82 C
+ATOM 974 C ARG A 142 14.386 12.791 23.978 1.00 0.82 C
+ATOM 975 O ARG A 142 13.181 12.552 24.036 1.00 0.82 O
+ATOM 976 CB ARG A 142 15.905 11.901 22.184 1.00 0.82 C
+ATOM 977 CG ARG A 142 15.128 10.617 21.831 1.00 0.82 C
+ATOM 978 CD ARG A 142 14.537 10.609 20.421 1.00 0.82 C
+ATOM 979 NE ARG A 142 13.890 9.273 20.209 1.00 0.82 N
+ATOM 980 CZ ARG A 142 12.575 9.032 20.324 1.00 0.82 C
+ATOM 981 NH1 ARG A 142 11.722 9.979 20.702 1.00 0.82 N
+ATOM 982 NH2 ARG A 142 12.106 7.818 20.046 1.00 0.82 N
+ATOM 983 N PHE A 143 15.147 12.853 25.090 1.00 0.89 N
+ATOM 984 CA PHE A 143 14.609 12.711 26.432 1.00 0.89 C
+ATOM 985 C PHE A 143 13.623 13.811 26.810 1.00 0.89 C
+ATOM 986 O PHE A 143 12.576 13.537 27.399 1.00 0.89 O
+ATOM 987 CB PHE A 143 15.751 12.645 27.481 1.00 0.89 C
+ATOM 988 CG PHE A 143 16.514 11.336 27.525 1.00 0.89 C
+ATOM 989 CD1 PHE A 143 16.129 10.156 26.855 1.00 0.89 C
+ATOM 990 CD2 PHE A 143 17.644 11.281 28.358 1.00 0.89 C
+ATOM 991 CE1 PHE A 143 16.852 8.965 27.023 1.00 0.89 C
+ATOM 992 CE2 PHE A 143 18.376 10.098 28.518 1.00 0.89 C
+ATOM 993 CZ PHE A 143 17.976 8.936 27.853 1.00 0.89 C
+ATOM 994 N ARG A 144 13.906 15.083 26.451 1.00 0.84 N
+ATOM 995 CA ARG A 144 12.980 16.188 26.660 1.00 0.84 C
+ATOM 996 C ARG A 144 11.674 16.031 25.894 1.00 0.84 C
+ATOM 997 O ARG A 144 10.595 16.198 26.453 1.00 0.84 O
+ATOM 998 CB ARG A 144 13.656 17.541 26.325 1.00 0.84 C
+ATOM 999 CG ARG A 144 12.762 18.791 26.501 1.00 0.84 C
+ATOM 1000 CD ARG A 144 13.484 20.153 26.476 1.00 0.84 C
+ATOM 1001 NE ARG A 144 14.260 20.321 25.202 1.00 0.84 N
+ATOM 1002 CZ ARG A 144 15.558 20.019 25.047 1.00 0.84 C
+ATOM 1003 NH1 ARG A 144 16.320 19.607 26.049 1.00 0.84 N
+ATOM 1004 NH2 ARG A 144 16.085 20.132 23.830 1.00 0.84 N
+ATOM 1005 N MET A 145 11.735 15.629 24.609 1.00 0.89 N
+ATOM 1006 CA MET A 145 10.562 15.355 23.793 1.00 0.89 C
+ATOM 1007 C MET A 145 9.697 14.231 24.338 1.00 0.89 C
+ATOM 1008 O MET A 145 8.473 14.279 24.283 1.00 0.89 O
+ATOM 1009 CB MET A 145 10.961 14.990 22.344 1.00 0.89 C
+ATOM 1010 CG MET A 145 11.520 16.166 21.523 1.00 0.89 C
+ATOM 1011 SD MET A 145 12.204 15.661 19.911 1.00 0.89 S
+ATOM 1012 CE MET A 145 10.603 15.328 19.118 1.00 0.89 C
+ATOM 1013 N MET A 146 10.322 13.179 24.897 1.00 0.89 N
+ATOM 1014 CA MET A 146 9.597 12.062 25.457 1.00 0.89 C
+ATOM 1015 C MET A 146 9.074 12.321 26.857 1.00 0.89 C
+ATOM 1016 O MET A 146 8.320 11.504 27.387 1.00 0.89 O
+ATOM 1017 CB MET A 146 10.496 10.807 25.514 1.00 0.89 C
+ATOM 1018 CG MET A 146 10.758 10.203 24.126 1.00 0.89 C
+ATOM 1019 SD MET A 146 11.728 8.668 24.159 1.00 0.89 S
+ATOM 1020 CE MET A 146 10.486 7.602 24.943 1.00 0.89 C
+ATOM 1021 N ASN A 147 9.480 13.437 27.501 1.00 0.88 N
+ATOM 1022 CA ASN A 147 9.172 13.741 28.886 1.00 0.88 C
+ATOM 1023 C ASN A 147 9.667 12.642 29.826 1.00 0.88 C
+ATOM 1024 O ASN A 147 8.903 12.052 30.591 1.00 0.88 O
+ATOM 1025 CB ASN A 147 7.663 14.078 29.053 1.00 0.88 C
+ATOM 1026 CG ASN A 147 7.365 14.740 30.392 1.00 0.88 C
+ATOM 1027 OD1 ASN A 147 8.170 15.488 30.945 1.00 0.88 O
+ATOM 1028 ND2 ASN A 147 6.160 14.466 30.941 1.00 0.88 N
+ATOM 1029 N LEU A 148 10.968 12.292 29.732 1.00 0.90 N
+ATOM 1030 CA LEU A 148 11.572 11.256 30.558 1.00 0.90 C
+ATOM 1031 C LEU A 148 11.487 11.565 32.048 1.00 0.90 C
+ATOM 1032 O LEU A 148 11.887 12.635 32.502 1.00 0.90 O
+ATOM 1033 CB LEU A 148 13.054 11.018 30.166 1.00 0.90 C
+ATOM 1034 CG LEU A 148 13.719 9.790 30.827 1.00 0.90 C
+ATOM 1035 CD1 LEU A 148 13.186 8.479 30.243 1.00 0.90 C
+ATOM 1036 CD2 LEU A 148 15.242 9.822 30.658 1.00 0.90 C
+ATOM 1037 N GLN A 149 10.947 10.628 32.848 1.00 0.88 N
+ATOM 1038 CA GLN A 149 10.814 10.816 34.279 1.00 0.88 C
+ATOM 1039 C GLN A 149 12.024 10.289 35.023 1.00 0.88 C
+ATOM 1040 O GLN A 149 12.817 9.498 34.506 1.00 0.88 O
+ATOM 1041 CB GLN A 149 9.520 10.167 34.817 1.00 0.88 C
+ATOM 1042 CG GLN A 149 8.237 10.721 34.151 1.00 0.88 C
+ATOM 1043 CD GLN A 149 8.066 12.223 34.388 1.00 0.88 C
+ATOM 1044 OE1 GLN A 149 7.748 12.687 35.483 1.00 0.88 O
+ATOM 1045 NE2 GLN A 149 8.275 13.027 33.321 1.00 0.88 N
+ATOM 1046 N GLY A 150 12.223 10.727 36.286 1.00 0.91 N
+ATOM 1047 CA GLY A 150 13.420 10.372 37.048 1.00 0.91 C
+ATOM 1048 C GLY A 150 13.482 8.912 37.380 1.00 0.91 C
+ATOM 1049 O GLY A 150 14.531 8.278 37.329 1.00 0.91 O
+ATOM 1050 N GLU A 151 12.315 8.326 37.649 1.00 0.88 N
+ATOM 1051 CA GLU A 151 12.099 6.922 37.860 1.00 0.88 C
+ATOM 1052 C GLU A 151 12.479 6.094 36.644 1.00 0.88 C
+ATOM 1053 O GLU A 151 13.097 5.036 36.742 1.00 0.88 O
+ATOM 1054 CB GLU A 151 10.608 6.689 38.188 1.00 0.88 C
+ATOM 1055 CG GLU A 151 10.107 7.347 39.495 1.00 0.88 C
+ATOM 1056 CD GLU A 151 9.661 8.803 39.364 1.00 0.88 C
+ATOM 1057 OE1 GLU A 151 10.045 9.490 38.382 1.00 0.88 O
+ATOM 1058 OE2 GLU A 151 8.905 9.222 40.275 1.00 0.88 O
+ATOM 1059 N GLU A 152 12.142 6.582 35.437 1.00 0.90 N
+ATOM 1060 CA GLU A 152 12.550 5.951 34.202 1.00 0.90 C
+ATOM 1061 C GLU A 152 14.045 6.023 33.957 1.00 0.90 C
+ATOM 1062 O GLU A 152 14.681 5.036 33.592 1.00 0.90 O
+ATOM 1063 CB GLU A 152 11.805 6.560 33.003 1.00 0.90 C
+ATOM 1064 CG GLU A 152 10.273 6.461 33.143 1.00 0.90 C
+ATOM 1065 CD GLU A 152 9.583 7.110 31.960 1.00 0.90 C
+ATOM 1066 OE1 GLU A 152 9.813 8.321 31.690 1.00 0.90 O
+ATOM 1067 OE2 GLU A 152 8.806 6.408 31.267 1.00 0.90 O
+ATOM 1068 N PHE A 153 14.657 7.195 34.207 1.00 0.93 N
+ATOM 1069 CA PHE A 153 16.083 7.412 34.078 1.00 0.93 C
+ATOM 1070 C PHE A 153 16.915 6.495 34.967 1.00 0.93 C
+ATOM 1071 O PHE A 153 17.882 5.886 34.504 1.00 0.93 O
+ATOM 1072 CB PHE A 153 16.352 8.912 34.390 1.00 0.93 C
+ATOM 1073 CG PHE A 153 17.796 9.238 34.657 1.00 0.93 C
+ATOM 1074 CD1 PHE A 153 18.757 9.136 33.642 1.00 0.93 C
+ATOM 1075 CD2 PHE A 153 18.203 9.571 35.959 1.00 0.93 C
+ATOM 1076 CE1 PHE A 153 20.109 9.356 33.932 1.00 0.93 C
+ATOM 1077 CE2 PHE A 153 19.551 9.805 36.247 1.00 0.93 C
+ATOM 1078 CZ PHE A 153 20.508 9.691 35.232 1.00 0.93 C
+ATOM 1079 N VAL A 154 16.552 6.340 36.255 1.00 0.93 N
+ATOM 1080 CA VAL A 154 17.312 5.486 37.152 1.00 0.93 C
+ATOM 1081 C VAL A 154 17.272 4.024 36.740 1.00 0.93 C
+ATOM 1082 O VAL A 154 18.287 3.329 36.782 1.00 0.93 O
+ATOM 1083 CB VAL A 154 16.979 5.668 38.624 1.00 0.93 C
+ATOM 1084 CG1 VAL A 154 17.269 7.121 39.033 1.00 0.93 C
+ATOM 1085 CG2 VAL A 154 15.520 5.309 38.939 1.00 0.93 C
+ATOM 1086 N CYS A 155 16.109 3.539 36.253 1.00 0.92 N
+ATOM 1087 CA CYS A 155 15.998 2.219 35.664 1.00 0.92 C
+ATOM 1088 C CYS A 155 16.863 2.027 34.432 1.00 0.92 C
+ATOM 1089 O CYS A 155 17.539 1.015 34.287 1.00 0.92 O
+ATOM 1090 CB CYS A 155 14.534 1.891 35.303 1.00 0.92 C
+ATOM 1091 SG CYS A 155 13.537 1.638 36.813 1.00 0.92 S
+ATOM 1092 N LEU A 156 16.913 3.005 33.510 1.00 0.93 N
+ATOM 1093 CA LEU A 156 17.770 2.921 32.338 1.00 0.93 C
+ATOM 1094 C LEU A 156 19.250 2.857 32.679 1.00 0.93 C
+ATOM 1095 O LEU A 156 20.004 2.073 32.110 1.00 0.93 O
+ATOM 1096 CB LEU A 156 17.545 4.116 31.380 1.00 0.93 C
+ATOM 1097 CG LEU A 156 16.167 4.157 30.690 1.00 0.93 C
+ATOM 1098 CD1 LEU A 156 16.030 5.426 29.834 1.00 0.93 C
+ATOM 1099 CD2 LEU A 156 15.911 2.915 29.825 1.00 0.93 C
+ATOM 1100 N LYS A 157 19.698 3.667 33.654 1.00 0.93 N
+ATOM 1101 CA LYS A 157 21.072 3.674 34.118 1.00 0.93 C
+ATOM 1102 C LYS A 157 21.497 2.348 34.746 1.00 0.93 C
+ATOM 1103 O LYS A 157 22.580 1.826 34.478 1.00 0.93 O
+ATOM 1104 CB LYS A 157 21.261 4.870 35.080 1.00 0.93 C
+ATOM 1105 CG LYS A 157 22.719 5.262 35.368 1.00 0.93 C
+ATOM 1106 CD LYS A 157 22.851 6.621 36.088 1.00 0.93 C
+ATOM 1107 CE LYS A 157 22.005 6.731 37.361 1.00 0.93 C
+ATOM 1108 NZ LYS A 157 22.259 7.996 38.064 1.00 0.93 N
+ATOM 1109 N SER A 158 20.625 1.727 35.567 1.00 0.94 N
+ATOM 1110 CA SER A 158 20.844 0.382 36.073 1.00 0.94 C
+ATOM 1111 C SER A 158 20.816 -0.709 35.018 1.00 0.94 C
+ATOM 1112 O SER A 158 21.609 -1.648 35.069 1.00 0.94 O
+ATOM 1113 CB SER A 158 19.912 0.027 37.250 1.00 0.94 C
+ATOM 1114 OG SER A 158 18.546 0.080 36.879 1.00 0.94 O
+ATOM 1115 N ILE A 159 19.943 -0.596 33.998 1.00 0.91 N
+ATOM 1116 CA ILE A 159 19.951 -1.480 32.840 1.00 0.91 C
+ATOM 1117 C ILE A 159 21.276 -1.416 32.084 1.00 0.91 C
+ATOM 1118 O ILE A 159 21.837 -2.450 31.724 1.00 0.91 O
+ATOM 1119 CB ILE A 159 18.762 -1.206 31.917 1.00 0.91 C
+ATOM 1120 CG1 ILE A 159 17.449 -1.735 32.540 1.00 0.91 C
+ATOM 1121 CG2 ILE A 159 18.971 -1.849 30.532 1.00 0.91 C
+ATOM 1122 CD1 ILE A 159 16.190 -1.169 31.869 1.00 0.91 C
+ATOM 1123 N ILE A 160 21.855 -0.212 31.873 1.00 0.93 N
+ATOM 1124 CA ILE A 160 23.158 -0.054 31.227 1.00 0.93 C
+ATOM 1125 C ILE A 160 24.261 -0.799 31.973 1.00 0.93 C
+ATOM 1126 O ILE A 160 25.040 -1.546 31.382 1.00 0.93 O
+ATOM 1127 CB ILE A 160 23.536 1.423 31.090 1.00 0.93 C
+ATOM 1128 CG1 ILE A 160 22.622 2.144 30.074 1.00 0.93 C
+ATOM 1129 CG2 ILE A 160 25.009 1.587 30.656 1.00 0.93 C
+ATOM 1130 CD1 ILE A 160 22.764 3.670 30.130 1.00 0.93 C
+ATOM 1131 N LEU A 161 24.305 -0.678 33.317 1.00 0.93 N
+ATOM 1132 CA LEU A 161 25.293 -1.345 34.150 1.00 0.93 C
+ATOM 1133 C LEU A 161 25.275 -2.857 34.010 1.00 0.93 C
+ATOM 1134 O LEU A 161 26.312 -3.504 33.890 1.00 0.93 O
+ATOM 1135 CB LEU A 161 25.050 -0.979 35.636 1.00 0.93 C
+ATOM 1136 CG LEU A 161 25.997 -1.639 36.664 1.00 0.93 C
+ATOM 1137 CD1 LEU A 161 27.456 -1.207 36.470 1.00 0.93 C
+ATOM 1138 CD2 LEU A 161 25.547 -1.317 38.094 1.00 0.93 C
+ATOM 1139 N LEU A 162 24.077 -3.461 33.993 1.00 0.91 N
+ATOM 1140 CA LEU A 162 23.953 -4.900 33.963 1.00 0.91 C
+ATOM 1141 C LEU A 162 23.962 -5.475 32.559 1.00 0.91 C
+ATOM 1142 O LEU A 162 24.206 -6.665 32.375 1.00 0.91 O
+ATOM 1143 CB LEU A 162 22.641 -5.323 34.649 1.00 0.91 C
+ATOM 1144 CG LEU A 162 22.515 -4.891 36.120 1.00 0.91 C
+ATOM 1145 CD1 LEU A 162 21.112 -5.218 36.615 1.00 0.91 C
+ATOM 1146 CD2 LEU A 162 23.563 -5.546 37.025 1.00 0.91 C
+ATOM 1147 N ASN A 163 23.730 -4.653 31.514 1.00 0.89 N
+ATOM 1148 CA ASN A 163 23.671 -5.163 30.160 1.00 0.89 C
+ATOM 1149 C ASN A 163 24.938 -4.920 29.366 1.00 0.89 C
+ATOM 1150 O ASN A 163 25.292 -5.735 28.515 1.00 0.89 O
+ATOM 1151 CB ASN A 163 22.460 -4.553 29.405 1.00 0.89 C
+ATOM 1152 CG ASN A 163 22.283 -5.179 28.027 1.00 0.89 C
+ATOM 1153 OD1 ASN A 163 22.553 -4.557 26.998 1.00 0.89 O
+ATOM 1154 ND2 ASN A 163 21.846 -6.459 28.003 1.00 0.89 N
+ATOM 1155 N SER A 164 25.686 -3.829 29.593 1.00 0.92 N
+ATOM 1156 CA SER A 164 26.783 -3.505 28.690 1.00 0.92 C
+ATOM 1157 C SER A 164 27.900 -4.507 28.626 1.00 0.92 C
+ATOM 1158 O SER A 164 28.476 -4.743 27.566 1.00 0.92 O
+ATOM 1159 CB SER A 164 27.340 -2.091 28.874 1.00 0.92 C
+ATOM 1160 OG SER A 164 26.342 -1.185 28.424 1.00 0.92 O
+ATOM 1161 N GLY A 165 28.235 -5.159 29.752 1.00 0.89 N
+ATOM 1162 CA GLY A 165 29.241 -6.214 29.729 1.00 0.89 C
+ATOM 1163 C GLY A 165 28.736 -7.624 29.542 1.00 0.89 C
+ATOM 1164 O GLY A 165 29.535 -8.548 29.420 1.00 0.89 O
+ATOM 1165 N VAL A 166 27.410 -7.879 29.496 1.00 0.84 N
+ATOM 1166 CA VAL A 166 26.894 -9.239 29.666 1.00 0.84 C
+ATOM 1167 C VAL A 166 27.189 -10.181 28.502 1.00 0.84 C
+ATOM 1168 O VAL A 166 27.261 -11.406 28.634 1.00 0.84 O
+ATOM 1169 CB VAL A 166 25.415 -9.236 30.045 1.00 0.84 C
+ATOM 1170 CG1 VAL A 166 24.492 -9.000 28.837 1.00 0.84 C
+ATOM 1171 CG2 VAL A 166 25.042 -10.553 30.753 1.00 0.84 C
+ATOM 1172 N TYR A 167 27.449 -9.603 27.317 1.00 0.81 N
+ATOM 1173 CA TYR A 167 27.778 -10.351 26.123 1.00 0.81 C
+ATOM 1174 C TYR A 167 29.260 -10.272 25.779 1.00 0.81 C
+ATOM 1175 O TYR A 167 29.684 -10.757 24.734 1.00 0.81 O
+ATOM 1176 CB TYR A 167 26.897 -9.886 24.937 1.00 0.81 C
+ATOM 1177 CG TYR A 167 25.427 -10.075 25.244 1.00 0.81 C
+ATOM 1178 CD1 TYR A 167 24.938 -11.322 25.671 1.00 0.81 C
+ATOM 1179 CD2 TYR A 167 24.520 -9.009 25.122 1.00 0.81 C
+ATOM 1180 CE1 TYR A 167 23.585 -11.491 25.987 1.00 0.81 C
+ATOM 1181 CE2 TYR A 167 23.158 -9.180 25.420 1.00 0.81 C
+ATOM 1182 CZ TYR A 167 22.689 -10.426 25.854 1.00 0.81 C
+ATOM 1183 OH TYR A 167 21.322 -10.629 26.149 1.00 0.81 O
+ATOM 1184 N THR A 168 30.103 -9.701 26.670 1.00 0.80 N
+ATOM 1185 CA THR A 168 31.553 -9.662 26.474 1.00 0.80 C
+ATOM 1186 C THR A 168 32.327 -10.430 27.536 1.00 0.80 C
+ATOM 1187 O THR A 168 33.554 -10.420 27.549 1.00 0.80 O
+ATOM 1188 CB THR A 168 32.115 -8.242 26.409 1.00 0.80 C
+ATOM 1189 OG1 THR A 168 31.713 -7.456 27.524 1.00 0.80 O
+ATOM 1190 CG2 THR A 168 31.577 -7.545 25.150 1.00 0.80 C
+ATOM 1191 N PHE A 169 31.646 -11.144 28.455 1.00 0.72 N
+ATOM 1192 CA PHE A 169 32.287 -12.006 29.439 1.00 0.72 C
+ATOM 1193 C PHE A 169 33.114 -13.148 28.852 1.00 0.72 C
+ATOM 1194 O PHE A 169 32.644 -13.902 27.993 1.00 0.72 O
+ATOM 1195 CB PHE A 169 31.222 -12.674 30.336 1.00 0.72 C
+ATOM 1196 CG PHE A 169 30.711 -11.779 31.415 1.00 0.72 C
+ATOM 1197 CD1 PHE A 169 31.549 -11.482 32.495 1.00 0.72 C
+ATOM 1198 CD2 PHE A 169 29.380 -11.336 31.445 1.00 0.72 C
+ATOM 1199 CE1 PHE A 169 31.062 -10.780 33.597 1.00 0.72 C
+ATOM 1200 CE2 PHE A 169 28.896 -10.608 32.542 1.00 0.72 C
+ATOM 1201 CZ PHE A 169 29.735 -10.344 33.629 1.00 0.72 C
+ATOM 1202 N LEU A 170 34.342 -13.341 29.374 1.00 0.64 N
+ATOM 1203 CA LEU A 170 35.183 -14.486 29.085 1.00 0.64 C
+ATOM 1204 C LEU A 170 34.767 -15.672 29.946 1.00 0.64 C
+ATOM 1205 O LEU A 170 35.264 -15.891 31.048 1.00 0.64 O
+ATOM 1206 CB LEU A 170 36.674 -14.161 29.334 1.00 0.64 C
+ATOM 1207 CG LEU A 170 37.235 -13.015 28.470 1.00 0.64 C
+ATOM 1208 CD1 LEU A 170 38.689 -12.725 28.864 1.00 0.64 C
+ATOM 1209 CD2 LEU A 170 37.162 -13.330 26.969 1.00 0.64 C
+ATOM 1210 N SER A 171 33.804 -16.459 29.440 1.00 0.63 N
+ATOM 1211 CA SER A 171 33.099 -17.461 30.217 1.00 0.63 C
+ATOM 1212 C SER A 171 33.052 -18.775 29.475 1.00 0.63 C
+ATOM 1213 O SER A 171 32.551 -18.856 28.354 1.00 0.63 O
+ATOM 1214 CB SER A 171 31.617 -17.074 30.431 1.00 0.63 C
+ATOM 1215 OG SER A 171 31.461 -15.901 31.223 1.00 0.63 O
+ATOM 1216 N SER A 172 33.532 -19.854 30.112 1.00 0.60 N
+ATOM 1217 CA SER A 172 33.743 -21.139 29.474 1.00 0.60 C
+ATOM 1218 C SER A 172 33.489 -22.272 30.450 1.00 0.60 C
+ATOM 1219 O SER A 172 33.851 -23.417 30.211 1.00 0.60 O
+ATOM 1220 CB SER A 172 35.213 -21.256 28.989 1.00 0.60 C
+ATOM 1221 OG SER A 172 36.124 -21.028 30.070 1.00 0.60 O
+ATOM 1222 N THR A 173 32.811 -22.003 31.580 1.00 0.66 N
+ATOM 1223 CA THR A 173 32.485 -23.080 32.521 1.00 0.66 C
+ATOM 1224 C THR A 173 31.067 -22.970 33.016 1.00 0.66 C
+ATOM 1225 O THR A 173 30.499 -21.884 32.936 1.00 0.66 O
+ATOM 1226 CB THR A 173 33.356 -23.155 33.704 1.00 0.66 C
+ATOM 1227 OG1 THR A 173 33.268 -22.022 34.401 1.00 0.66 O
+ATOM 1228 CG2 THR A 173 34.875 -23.236 33.365 1.00 0.66 C
+ATOM 1229 N LEU A 174 30.510 -24.062 33.593 1.00 0.82 N
+ATOM 1230 CA LEU A 174 29.107 -24.132 33.996 1.00 0.82 C
+ATOM 1231 C LEU A 174 28.741 -23.036 34.967 1.00 0.82 C
+ATOM 1232 O LEU A 174 27.774 -22.315 34.745 1.00 0.82 O
+ATOM 1233 CB LEU A 174 28.730 -25.502 34.632 1.00 0.82 C
+ATOM 1234 CG LEU A 174 27.282 -25.628 35.183 1.00 0.82 C
+ATOM 1235 CD1 LEU A 174 26.213 -25.493 34.089 1.00 0.82 C
+ATOM 1236 CD2 LEU A 174 27.074 -26.962 35.917 1.00 0.82 C
+ATOM 1237 N LYS A 175 29.593 -22.797 35.985 1.00 0.68 N
+ATOM 1238 CA LYS A 175 29.414 -21.720 36.946 1.00 0.68 C
+ATOM 1239 C LYS A 175 29.215 -20.352 36.294 1.00 0.68 C
+ATOM 1240 O LYS A 175 28.328 -19.593 36.667 1.00 0.68 O
+ATOM 1241 CB LYS A 175 30.604 -21.674 37.949 1.00 0.68 C
+ATOM 1242 CG LYS A 175 31.973 -21.385 37.325 1.00 0.68 C
+ATOM 1243 CD LYS A 175 33.148 -21.362 38.305 1.00 0.68 C
+ATOM 1244 CE LYS A 175 34.433 -20.765 37.709 1.00 0.68 C
+ATOM 1245 NZ LYS A 175 35.030 -21.660 36.687 1.00 0.68 N
+ATOM 1246 N SER A 176 29.979 -20.071 35.221 1.00 0.71 N
+ATOM 1247 CA SER A 176 29.904 -18.848 34.456 1.00 0.71 C
+ATOM 1248 C SER A 176 28.607 -18.695 33.687 1.00 0.71 C
+ATOM 1249 O SER A 176 28.140 -17.586 33.441 1.00 0.71 O
+ATOM 1250 CB SER A 176 31.050 -18.724 33.408 1.00 0.71 C
+ATOM 1251 OG SER A 176 32.359 -19.039 33.867 1.00 0.71 O
+ATOM 1252 N LEU A 177 27.986 -19.806 33.241 1.00 0.70 N
+ATOM 1253 CA LEU A 177 26.660 -19.772 32.647 1.00 0.70 C
+ATOM 1254 C LEU A 177 25.612 -19.373 33.674 1.00 0.70 C
+ATOM 1255 O LEU A 177 24.773 -18.513 33.419 1.00 0.70 O
+ATOM 1256 CB LEU A 177 26.275 -21.122 31.998 1.00 0.70 C
+ATOM 1257 CG LEU A 177 27.114 -21.528 30.767 1.00 0.70 C
+ATOM 1258 CD1 LEU A 177 26.710 -22.937 30.307 1.00 0.70 C
+ATOM 1259 CD2 LEU A 177 26.950 -20.547 29.597 1.00 0.70 C
+ATOM 1260 N GLU A 178 25.697 -19.934 34.897 1.00 0.68 N
+ATOM 1261 CA GLU A 178 24.831 -19.570 36.002 1.00 0.68 C
+ATOM 1262 C GLU A 178 24.999 -18.118 36.436 1.00 0.68 C
+ATOM 1263 O GLU A 178 24.025 -17.408 36.688 1.00 0.68 O
+ATOM 1264 CB GLU A 178 25.017 -20.519 37.208 1.00 0.68 C
+ATOM 1265 CG GLU A 178 24.878 -22.019 36.846 1.00 0.68 C
+ATOM 1266 CD GLU A 178 24.850 -22.910 38.087 1.00 0.68 C
+ATOM 1267 OE1 GLU A 178 23.860 -22.813 38.857 1.00 0.68 O
+ATOM 1268 OE2 GLU A 178 25.813 -23.702 38.263 1.00 0.68 O
+ATOM 1269 N GLU A 179 26.247 -17.608 36.475 1.00 0.72 N
+ATOM 1270 CA GLU A 179 26.542 -16.203 36.706 1.00 0.72 C
+ATOM 1271 C GLU A 179 25.939 -15.287 35.636 1.00 0.72 C
+ATOM 1272 O GLU A 179 25.305 -14.281 35.954 1.00 0.72 O
+ATOM 1273 CB GLU A 179 28.071 -16.000 36.872 1.00 0.72 C
+ATOM 1274 CG GLU A 179 28.620 -16.691 38.155 1.00 0.72 C
+ATOM 1275 CD GLU A 179 30.139 -16.919 38.203 1.00 0.72 C
+ATOM 1276 OE1 GLU A 179 30.713 -17.482 37.228 1.00 0.72 O
+ATOM 1277 OE2 GLU A 179 30.738 -16.611 39.268 1.00 0.72 O
+ATOM 1278 N LYS A 180 26.019 -15.653 34.332 1.00 0.71 N
+ATOM 1279 CA LYS A 180 25.328 -14.926 33.272 1.00 0.71 C
+ATOM 1280 C LYS A 180 23.814 -14.906 33.416 1.00 0.71 C
+ATOM 1281 O LYS A 180 23.187 -13.849 33.335 1.00 0.71 O
+ATOM 1282 CB LYS A 180 25.631 -15.518 31.870 1.00 0.71 C
+ATOM 1283 CG LYS A 180 27.022 -15.174 31.333 1.00 0.71 C
+ATOM 1284 CD LYS A 180 27.204 -15.599 29.865 1.00 0.71 C
+ATOM 1285 CE LYS A 180 28.581 -15.187 29.353 1.00 0.71 C
+ATOM 1286 NZ LYS A 180 28.670 -15.219 27.877 1.00 0.71 N
+ATOM 1287 N ASP A 181 23.190 -16.067 33.671 1.00 0.71 N
+ATOM 1288 CA ASP A 181 21.757 -16.178 33.841 1.00 0.71 C
+ATOM 1289 C ASP A 181 21.263 -15.423 35.069 1.00 0.71 C
+ATOM 1290 O ASP A 181 20.216 -14.779 35.040 1.00 0.71 O
+ATOM 1291 CB ASP A 181 21.327 -17.662 33.807 1.00 0.71 C
+ATOM 1292 CG ASP A 181 21.308 -18.218 32.382 1.00 0.71 C
+ATOM 1293 OD1 ASP A 181 21.454 -17.434 31.406 1.00 0.71 O
+ATOM 1294 OD2 ASP A 181 21.089 -19.448 32.260 1.00 0.71 O
+ATOM 1295 N HIS A 182 22.047 -15.403 36.166 1.00 0.78 N
+ATOM 1296 CA HIS A 182 21.786 -14.556 37.316 1.00 0.78 C
+ATOM 1297 C HIS A 182 21.770 -13.078 36.974 1.00 0.78 C
+ATOM 1298 O HIS A 182 20.837 -12.375 37.348 1.00 0.78 O
+ATOM 1299 CB HIS A 182 22.824 -14.805 38.429 1.00 0.78 C
+ATOM 1300 CG HIS A 182 22.572 -14.053 39.703 1.00 0.78 C
+ATOM 1301 ND1 HIS A 182 21.494 -14.382 40.503 1.00 0.78 N
+ATOM 1302 CD2 HIS A 182 23.287 -13.048 40.268 1.00 0.78 C
+ATOM 1303 CE1 HIS A 182 21.585 -13.574 41.543 1.00 0.78 C
+ATOM 1304 NE2 HIS A 182 22.650 -12.742 41.450 1.00 0.78 N
+ATOM 1305 N ILE A 183 22.738 -12.567 36.189 1.00 0.80 N
+ATOM 1306 CA ILE A 183 22.740 -11.181 35.728 1.00 0.80 C
+ATOM 1307 C ILE A 183 21.532 -10.867 34.857 1.00 0.80 C
+ATOM 1308 O ILE A 183 20.896 -9.823 35.010 1.00 0.80 O
+ATOM 1309 CB ILE A 183 24.037 -10.812 35.018 1.00 0.80 C
+ATOM 1310 CG1 ILE A 183 25.230 -10.945 35.989 1.00 0.80 C
+ATOM 1311 CG2 ILE A 183 23.970 -9.363 34.485 1.00 0.80 C
+ATOM 1312 CD1 ILE A 183 26.592 -10.913 35.292 1.00 0.80 C
+ATOM 1313 N HIS A 184 21.119 -11.801 33.970 1.00 0.80 N
+ATOM 1314 CA HIS A 184 19.880 -11.647 33.221 1.00 0.80 C
+ATOM 1315 C HIS A 184 18.665 -11.520 34.136 1.00 0.80 C
+ATOM 1316 O HIS A 184 17.854 -10.613 33.985 1.00 0.80 O
+ATOM 1317 CB HIS A 184 19.637 -12.802 32.218 1.00 0.80 C
+ATOM 1318 CG HIS A 184 20.670 -12.917 31.133 1.00 0.80 C
+ATOM 1319 ND1 HIS A 184 21.021 -11.810 30.380 1.00 0.80 N
+ATOM 1320 CD2 HIS A 184 21.377 -14.000 30.722 1.00 0.80 C
+ATOM 1321 CE1 HIS A 184 21.944 -12.240 29.543 1.00 0.80 C
+ATOM 1322 NE2 HIS A 184 22.197 -13.562 29.705 1.00 0.80 N
+ATOM 1323 N ARG A 185 18.561 -12.351 35.194 1.00 0.77 N
+ATOM 1324 CA ARG A 185 17.450 -12.269 36.127 1.00 0.77 C
+ATOM 1325 C ARG A 185 17.486 -11.061 37.049 1.00 0.77 C
+ATOM 1326 O ARG A 185 16.495 -10.751 37.719 1.00 0.77 O
+ATOM 1327 CB ARG A 185 17.395 -13.491 37.076 1.00 0.77 C
+ATOM 1328 CG ARG A 185 17.183 -14.860 36.402 1.00 0.77 C
+ATOM 1329 CD ARG A 185 15.931 -15.004 35.523 1.00 0.77 C
+ATOM 1330 NE ARG A 185 14.702 -14.746 36.351 1.00 0.77 N
+ATOM 1331 CZ ARG A 185 14.142 -15.630 37.191 1.00 0.77 C
+ATOM 1332 NH1 ARG A 185 13.026 -15.299 37.837 1.00 0.77 N
+ATOM 1333 NH2 ARG A 185 14.682 -16.823 37.413 1.00 0.77 N
+ATOM 1334 N VAL A 186 18.634 -10.378 37.177 1.00 0.80 N
+ATOM 1335 CA VAL A 186 18.703 -9.058 37.774 1.00 0.80 C
+ATOM 1336 C VAL A 186 18.166 -7.996 36.817 1.00 0.80 C
+ATOM 1337 O VAL A 186 17.375 -7.139 37.208 1.00 0.80 O
+ATOM 1338 CB VAL A 186 20.106 -8.728 38.255 1.00 0.80 C
+ATOM 1339 CG1 VAL A 186 20.105 -7.378 38.973 1.00 0.80 C
+ATOM 1340 CG2 VAL A 186 20.574 -9.775 39.282 1.00 0.80 C
+ATOM 1341 N LEU A 187 18.524 -8.074 35.516 1.00 0.85 N
+ATOM 1342 CA LEU A 187 18.019 -7.193 34.470 1.00 0.85 C
+ATOM 1343 C LEU A 187 16.507 -7.241 34.326 1.00 0.85 C
+ATOM 1344 O LEU A 187 15.842 -6.206 34.285 1.00 0.85 O
+ATOM 1345 CB LEU A 187 18.640 -7.575 33.099 1.00 0.85 C
+ATOM 1346 CG LEU A 187 19.832 -6.723 32.640 1.00 0.85 C
+ATOM 1347 CD1 LEU A 187 20.508 -7.388 31.431 1.00 0.85 C
+ATOM 1348 CD2 LEU A 187 19.393 -5.300 32.273 1.00 0.85 C
+ATOM 1349 N ASP A 188 15.923 -8.455 34.309 1.00 0.84 N
+ATOM 1350 CA ASP A 188 14.497 -8.669 34.155 1.00 0.84 C
+ATOM 1351 C ASP A 188 13.674 -7.989 35.244 1.00 0.84 C
+ATOM 1352 O ASP A 188 12.635 -7.391 34.985 1.00 0.84 O
+ATOM 1353 CB ASP A 188 14.178 -10.181 34.155 1.00 0.84 C
+ATOM 1354 CG ASP A 188 14.890 -10.914 33.030 1.00 0.84 C
+ATOM 1355 OD1 ASP A 188 15.036 -10.342 31.917 1.00 0.84 O
+ATOM 1356 OD2 ASP A 188 15.311 -12.074 33.292 1.00 0.84 O
+ATOM 1357 N LYS A 189 14.169 -8.006 36.498 1.00 0.80 N
+ATOM 1358 CA LYS A 189 13.544 -7.313 37.609 1.00 0.80 C
+ATOM 1359 C LYS A 189 13.469 -5.800 37.422 1.00 0.80 C
+ATOM 1360 O LYS A 189 12.476 -5.159 37.756 1.00 0.80 O
+ATOM 1361 CB LYS A 189 14.292 -7.624 38.926 1.00 0.80 C
+ATOM 1362 CG LYS A 189 14.122 -9.075 39.395 1.00 0.80 C
+ATOM 1363 CD LYS A 189 14.979 -9.387 40.631 1.00 0.80 C
+ATOM 1364 CE LYS A 189 14.968 -10.874 40.994 1.00 0.80 C
+ATOM 1365 NZ LYS A 189 16.163 -11.553 40.441 1.00 0.80 N
+ATOM 1366 N ILE A 190 14.525 -5.175 36.869 1.00 0.84 N
+ATOM 1367 CA ILE A 190 14.525 -3.764 36.508 1.00 0.84 C
+ATOM 1368 C ILE A 190 13.560 -3.457 35.365 1.00 0.84 C
+ATOM 1369 O ILE A 190 12.849 -2.453 35.386 1.00 0.84 O
+ATOM 1370 CB ILE A 190 15.931 -3.261 36.213 1.00 0.84 C
+ATOM 1371 CG1 ILE A 190 16.877 -3.576 37.395 1.00 0.84 C
+ATOM 1372 CG2 ILE A 190 15.913 -1.737 35.969 1.00 0.84 C
+ATOM 1373 CD1 ILE A 190 18.344 -3.329 37.063 1.00 0.84 C
+ATOM 1374 N THR A 191 13.465 -4.338 34.351 1.00 0.86 N
+ATOM 1375 CA THR A 191 12.475 -4.233 33.275 1.00 0.86 C
+ATOM 1376 C THR A 191 11.048 -4.291 33.776 1.00 0.86 C
+ATOM 1377 O THR A 191 10.227 -3.441 33.424 1.00 0.86 O
+ATOM 1378 CB THR A 191 12.646 -5.318 32.228 1.00 0.86 C
+ATOM 1379 OG1 THR A 191 13.919 -5.174 31.610 1.00 0.86 O
+ATOM 1380 CG2 THR A 191 11.596 -5.200 31.112 1.00 0.86 C
+ATOM 1381 N ASP A 192 10.734 -5.242 34.681 1.00 0.82 N
+ATOM 1382 CA ASP A 192 9.443 -5.331 35.338 1.00 0.82 C
+ATOM 1383 C ASP A 192 9.100 -4.043 36.087 1.00 0.82 C
+ATOM 1384 O ASP A 192 8.010 -3.485 35.973 1.00 0.82 O
+ATOM 1385 CB ASP A 192 9.460 -6.490 36.370 1.00 0.82 C
+ATOM 1386 CG ASP A 192 9.389 -7.865 35.734 1.00 0.82 C
+ATOM 1387 OD1 ASP A 192 9.295 -7.991 34.490 1.00 0.82 O
+ATOM 1388 OD2 ASP A 192 9.403 -8.853 36.515 1.00 0.82 O
+ATOM 1389 N THR A 193 10.074 -3.496 36.835 1.00 0.83 N
+ATOM 1390 CA THR A 193 9.964 -2.232 37.553 1.00 0.83 C
+ATOM 1391 C THR A 193 9.731 -1.033 36.656 1.00 0.83 C
+ATOM 1392 O THR A 193 8.892 -0.179 36.943 1.00 0.83 O
+ATOM 1393 CB THR A 193 11.206 -1.987 38.392 1.00 0.83 C
+ATOM 1394 OG1 THR A 193 11.272 -2.955 39.422 1.00 0.83 O
+ATOM 1395 CG2 THR A 193 11.210 -0.620 39.068 1.00 0.83 C
+ATOM 1396 N LEU A 194 10.449 -0.938 35.519 1.00 0.81 N
+ATOM 1397 CA LEU A 194 10.281 0.134 34.551 1.00 0.81 C
+ATOM 1398 C LEU A 194 8.892 0.142 33.928 1.00 0.81 C
+ATOM 1399 O LEU A 194 8.229 1.175 33.853 1.00 0.81 O
+ATOM 1400 CB LEU A 194 11.395 0.065 33.473 1.00 0.81 C
+ATOM 1401 CG LEU A 194 11.360 1.141 32.364 1.00 0.81 C
+ATOM 1402 CD1 LEU A 194 11.319 2.573 32.917 1.00 0.81 C
+ATOM 1403 CD2 LEU A 194 12.578 0.992 31.438 1.00 0.81 C
+ATOM 1404 N ILE A 195 8.378 -1.037 33.540 1.00 0.82 N
+ATOM 1405 CA ILE A 195 7.011 -1.200 33.072 1.00 0.82 C
+ATOM 1406 C ILE A 195 5.972 -0.898 34.141 1.00 0.82 C
+ATOM 1407 O ILE A 195 4.971 -0.230 33.885 1.00 0.82 O
+ATOM 1408 CB ILE A 195 6.830 -2.593 32.500 1.00 0.82 C
+ATOM 1409 CG1 ILE A 195 7.536 -2.716 31.128 1.00 0.82 C
+ATOM 1410 CG2 ILE A 195 5.341 -2.981 32.398 1.00 0.82 C
+ATOM 1411 CD1 ILE A 195 6.841 -1.963 29.985 1.00 0.82 C
+ATOM 1412 N HIS A 196 6.202 -1.336 35.394 1.00 0.79 N
+ATOM 1413 CA HIS A 196 5.322 -1.059 36.517 1.00 0.79 C
+ATOM 1414 C HIS A 196 5.138 0.432 36.759 1.00 0.79 C
+ATOM 1415 O HIS A 196 4.037 0.912 37.016 1.00 0.79 O
+ATOM 1416 CB HIS A 196 5.877 -1.718 37.796 1.00 0.79 C
+ATOM 1417 CG HIS A 196 5.046 -1.502 39.021 1.00 0.79 C
+ATOM 1418 ND1 HIS A 196 3.861 -2.189 39.162 1.00 0.79 N
+ATOM 1419 CD2 HIS A 196 5.227 -0.654 40.067 1.00 0.79 C
+ATOM 1420 CE1 HIS A 196 3.337 -1.750 40.284 1.00 0.79 C
+ATOM 1421 NE2 HIS A 196 4.123 -0.817 40.877 1.00 0.79 N
+ATOM 1422 N LEU A 197 6.216 1.227 36.636 1.00 0.84 N
+ATOM 1423 CA LEU A 197 6.132 2.674 36.692 1.00 0.84 C
+ATOM 1424 C LEU A 197 5.287 3.283 35.594 1.00 0.84 C
+ATOM 1425 O LEU A 197 4.434 4.126 35.859 1.00 0.84 O
+ATOM 1426 CB LEU A 197 7.538 3.282 36.589 1.00 0.84 C
+ATOM 1427 CG LEU A 197 8.370 3.103 37.861 1.00 0.84 C
+ATOM 1428 CD1 LEU A 197 9.854 3.273 37.532 1.00 0.84 C
+ATOM 1429 CD2 LEU A 197 7.917 4.112 38.924 1.00 0.84 C
+ATOM 1430 N MET A 198 5.467 2.831 34.340 1.00 0.82 N
+ATOM 1431 CA MET A 198 4.672 3.278 33.215 1.00 0.82 C
+ATOM 1432 C MET A 198 3.198 2.953 33.376 1.00 0.82 C
+ATOM 1433 O MET A 198 2.324 3.775 33.107 1.00 0.82 O
+ATOM 1434 CB MET A 198 5.190 2.629 31.918 1.00 0.82 C
+ATOM 1435 CG MET A 198 6.594 3.096 31.512 1.00 0.82 C
+ATOM 1436 SD MET A 198 7.130 2.316 29.965 1.00 0.82 S
+ATOM 1437 CE MET A 198 8.783 3.049 29.993 1.00 0.82 C
+ATOM 1438 N ALA A 199 2.898 1.741 33.872 1.00 0.87 N
+ATOM 1439 CA ALA A 199 1.562 1.324 34.214 1.00 0.87 C
+ATOM 1440 C ALA A 199 0.934 2.145 35.335 1.00 0.87 C
+ATOM 1441 O ALA A 199 -0.205 2.594 35.232 1.00 0.87 O
+ATOM 1442 CB ALA A 199 1.617 -0.163 34.596 1.00 0.87 C
+ATOM 1443 N LYS A 200 1.694 2.426 36.413 1.00 0.78 N
+ATOM 1444 CA LYS A 200 1.265 3.282 37.507 1.00 0.78 C
+ATOM 1445 C LYS A 200 1.021 4.723 37.077 1.00 0.78 C
+ATOM 1446 O LYS A 200 0.154 5.412 37.606 1.00 0.78 O
+ATOM 1447 CB LYS A 200 2.288 3.249 38.672 1.00 0.78 C
+ATOM 1448 CG LYS A 200 1.731 3.800 39.998 1.00 0.78 C
+ATOM 1449 CD LYS A 200 2.787 3.962 41.110 1.00 0.78 C
+ATOM 1450 CE LYS A 200 3.709 5.172 40.900 1.00 0.78 C
+ATOM 1451 NZ LYS A 200 4.633 5.343 42.050 1.00 0.78 N
+ATOM 1452 N ALA A 201 1.784 5.209 36.082 1.00 0.86 N
+ATOM 1453 CA ALA A 201 1.628 6.529 35.514 1.00 0.86 C
+ATOM 1454 C ALA A 201 0.422 6.657 34.589 1.00 0.86 C
+ATOM 1455 O ALA A 201 0.056 7.757 34.182 1.00 0.86 O
+ATOM 1456 CB ALA A 201 2.904 6.893 34.736 1.00 0.86 C
+ATOM 1457 N GLY A 202 -0.232 5.527 34.246 1.00 0.89 N
+ATOM 1458 CA GLY A 202 -1.486 5.528 33.508 1.00 0.89 C
+ATOM 1459 C GLY A 202 -1.372 5.193 32.054 1.00 0.89 C
+ATOM 1460 O GLY A 202 -2.355 5.271 31.322 1.00 0.89 O
+ATOM 1461 N LEU A 203 -0.179 4.806 31.567 1.00 0.85 N
+ATOM 1462 CA LEU A 203 -0.032 4.375 30.191 1.00 0.85 C
+ATOM 1463 C LEU A 203 -0.792 3.090 29.894 1.00 0.85 C
+ATOM 1464 O LEU A 203 -0.799 2.139 30.677 1.00 0.85 O
+ATOM 1465 CB LEU A 203 1.448 4.170 29.791 1.00 0.85 C
+ATOM 1466 CG LEU A 203 2.328 5.436 29.795 1.00 0.85 C
+ATOM 1467 CD1 LEU A 203 3.685 5.128 29.147 1.00 0.85 C
+ATOM 1468 CD2 LEU A 203 1.679 6.616 29.060 1.00 0.85 C
+ATOM 1469 N THR A 204 -1.432 3.008 28.713 1.00 0.85 N
+ATOM 1470 CA THR A 204 -2.041 1.777 28.225 1.00 0.85 C
+ATOM 1471 C THR A 204 -0.996 0.707 27.959 1.00 0.85 C
+ATOM 1472 O THR A 204 0.187 1.005 27.823 1.00 0.85 O
+ATOM 1473 CB THR A 204 -2.912 1.945 26.978 1.00 0.85 C
+ATOM 1474 OG1 THR A 204 -2.150 2.259 25.816 1.00 0.85 O
+ATOM 1475 CG2 THR A 204 -3.923 3.080 27.189 1.00 0.85 C
+ATOM 1476 N LEU A 205 -1.384 -0.585 27.863 1.00 0.81 N
+ATOM 1477 CA LEU A 205 -0.440 -1.665 27.582 1.00 0.81 C
+ATOM 1478 C LEU A 205 0.368 -1.436 26.306 1.00 0.81 C
+ATOM 1479 O LEU A 205 1.586 -1.568 26.311 1.00 0.81 O
+ATOM 1480 CB LEU A 205 -1.157 -3.043 27.511 1.00 0.81 C
+ATOM 1481 CG LEU A 205 -1.345 -3.756 28.870 1.00 0.81 C
+ATOM 1482 CD1 LEU A 205 -2.291 -4.960 28.734 1.00 0.81 C
+ATOM 1483 CD2 LEU A 205 -0.007 -4.238 29.453 1.00 0.81 C
+ATOM 1484 N GLN A 206 -0.274 -0.987 25.208 1.00 0.78 N
+ATOM 1485 CA GLN A 206 0.433 -0.640 23.987 1.00 0.78 C
+ATOM 1486 C GLN A 206 1.440 0.492 24.173 1.00 0.78 C
+ATOM 1487 O GLN A 206 2.593 0.401 23.759 1.00 0.78 O
+ATOM 1488 CB GLN A 206 -0.587 -0.243 22.897 1.00 0.78 C
+ATOM 1489 CG GLN A 206 0.052 0.042 21.521 1.00 0.78 C
+ATOM 1490 CD GLN A 206 -1.004 0.395 20.478 1.00 0.78 C
+ATOM 1491 OE1 GLN A 206 -2.128 0.799 20.783 1.00 0.78 O
+ATOM 1492 NE2 GLN A 206 -0.635 0.242 19.187 1.00 0.78 N
+ATOM 1493 N GLN A 207 1.044 1.568 24.884 1.00 0.77 N
+ATOM 1494 CA GLN A 207 1.920 2.678 25.207 1.00 0.77 C
+ATOM 1495 C GLN A 207 3.099 2.278 26.079 1.00 0.77 C
+ATOM 1496 O GLN A 207 4.216 2.745 25.876 1.00 0.77 O
+ATOM 1497 CB GLN A 207 1.133 3.807 25.903 1.00 0.77 C
+ATOM 1498 CG GLN A 207 0.154 4.544 24.964 1.00 0.77 C
+ATOM 1499 CD GLN A 207 -0.778 5.459 25.756 1.00 0.77 C
+ATOM 1500 OE1 GLN A 207 -1.039 5.265 26.945 1.00 0.77 O
+ATOM 1501 NE2 GLN A 207 -1.324 6.491 25.073 1.00 0.77 N
+ATOM 1502 N GLN A 208 2.893 1.372 27.057 1.00 0.74 N
+ATOM 1503 CA GLN A 208 3.967 0.813 27.860 1.00 0.74 C
+ATOM 1504 C GLN A 208 5.007 0.079 27.022 1.00 0.74 C
+ATOM 1505 O GLN A 208 6.208 0.300 27.162 1.00 0.74 O
+ATOM 1506 CB GLN A 208 3.403 -0.194 28.894 1.00 0.74 C
+ATOM 1507 CG GLN A 208 2.538 0.434 30.008 1.00 0.74 C
+ATOM 1508 CD GLN A 208 1.774 -0.655 30.758 1.00 0.74 C
+ATOM 1509 OE1 GLN A 208 2.244 -1.779 30.936 1.00 0.74 O
+ATOM 1510 NE2 GLN A 208 0.537 -0.334 31.199 1.00 0.74 N
+ATOM 1511 N HIS A 209 4.569 -0.789 26.087 1.00 0.78 N
+ATOM 1512 CA HIS A 209 5.474 -1.540 25.233 1.00 0.78 C
+ATOM 1513 C HIS A 209 6.222 -0.669 24.241 1.00 0.78 C
+ATOM 1514 O HIS A 209 7.429 -0.816 24.051 1.00 0.78 O
+ATOM 1515 CB HIS A 209 4.735 -2.640 24.445 1.00 0.78 C
+ATOM 1516 CG HIS A 209 3.783 -3.453 25.271 1.00 0.78 C
+ATOM 1517 ND1 HIS A 209 2.758 -4.106 24.618 1.00 0.78 N
+ATOM 1518 CD2 HIS A 209 3.672 -3.634 26.613 1.00 0.78 C
+ATOM 1519 CE1 HIS A 209 2.039 -4.664 25.566 1.00 0.78 C
+ATOM 1520 NE2 HIS A 209 2.544 -4.407 26.795 1.00 0.78 N
+ATOM 1521 N GLN A 210 5.517 0.290 23.607 1.00 0.78 N
+ATOM 1522 CA GLN A 210 6.111 1.249 22.697 1.00 0.78 C
+ATOM 1523 C GLN A 210 7.119 2.145 23.389 1.00 0.78 C
+ATOM 1524 O GLN A 210 8.251 2.293 22.938 1.00 0.78 O
+ATOM 1525 CB GLN A 210 5.015 2.119 22.040 1.00 0.78 C
+ATOM 1526 CG GLN A 210 4.145 1.330 21.035 1.00 0.78 C
+ATOM 1527 CD GLN A 210 2.989 2.171 20.498 1.00 0.78 C
+ATOM 1528 OE1 GLN A 210 2.620 3.227 21.022 1.00 0.78 O
+ATOM 1529 NE2 GLN A 210 2.352 1.666 19.418 1.00 0.78 N
+ATOM 1530 N ARG A 211 6.770 2.704 24.564 1.00 0.80 N
+ATOM 1531 CA ARG A 211 7.678 3.536 25.327 1.00 0.80 C
+ATOM 1532 C ARG A 211 8.900 2.790 25.836 1.00 0.80 C
+ATOM 1533 O ARG A 211 10.016 3.297 25.762 1.00 0.80 O
+ATOM 1534 CB ARG A 211 6.950 4.245 26.486 1.00 0.80 C
+ATOM 1535 CG ARG A 211 7.798 5.340 27.159 1.00 0.80 C
+ATOM 1536 CD ARG A 211 7.027 6.107 28.232 1.00 0.80 C
+ATOM 1537 NE ARG A 211 7.954 7.073 28.882 1.00 0.80 N
+ATOM 1538 CZ ARG A 211 8.086 8.362 28.558 1.00 0.80 C
+ATOM 1539 NH1 ARG A 211 7.568 8.858 27.441 1.00 0.80 N
+ATOM 1540 NH2 ARG A 211 8.763 9.174 29.363 1.00 0.80 N
+ATOM 1541 N LEU A 212 8.740 1.533 26.310 1.00 0.85 N
+ATOM 1542 CA LEU A 212 9.867 0.688 26.674 1.00 0.85 C
+ATOM 1543 C LEU A 212 10.812 0.464 25.506 1.00 0.85 C
+ATOM 1544 O LEU A 212 12.022 0.637 25.623 1.00 0.85 O
+ATOM 1545 CB LEU A 212 9.365 -0.687 27.185 1.00 0.85 C
+ATOM 1546 CG LEU A 212 10.458 -1.724 27.532 1.00 0.85 C
+ATOM 1547 CD1 LEU A 212 11.302 -1.277 28.730 1.00 0.85 C
+ATOM 1548 CD2 LEU A 212 9.846 -3.103 27.816 1.00 0.85 C
+ATOM 1549 N ALA A 213 10.272 0.142 24.317 1.00 0.90 N
+ATOM 1550 CA ALA A 213 11.072 -0.034 23.131 1.00 0.90 C
+ATOM 1551 C ALA A 213 11.798 1.221 22.690 1.00 0.90 C
+ATOM 1552 O ALA A 213 12.989 1.191 22.394 1.00 0.90 O
+ATOM 1553 CB ALA A 213 10.185 -0.547 21.995 1.00 0.90 C
+ATOM 1554 N GLN A 214 11.110 2.376 22.711 1.00 0.84 N
+ATOM 1555 CA GLN A 214 11.699 3.654 22.377 1.00 0.84 C
+ATOM 1556 C GLN A 214 12.874 4.009 23.278 1.00 0.84 C
+ATOM 1557 O GLN A 214 13.923 4.430 22.797 1.00 0.84 O
+ATOM 1558 CB GLN A 214 10.626 4.764 22.457 1.00 0.84 C
+ATOM 1559 CG GLN A 214 9.558 4.690 21.340 1.00 0.84 C
+ATOM 1560 CD GLN A 214 8.366 5.595 21.665 1.00 0.84 C
+ATOM 1561 OE1 GLN A 214 8.419 6.434 22.570 1.00 0.84 O
+ATOM 1562 NE2 GLN A 214 7.270 5.442 20.898 1.00 0.84 N
+ATOM 1563 N LEU A 215 12.753 3.799 24.605 1.00 0.88 N
+ATOM 1564 CA LEU A 215 13.841 4.018 25.540 1.00 0.88 C
+ATOM 1565 C LEU A 215 15.025 3.076 25.363 1.00 0.88 C
+ATOM 1566 O LEU A 215 16.181 3.497 25.373 1.00 0.88 O
+ATOM 1567 CB LEU A 215 13.348 3.921 27.000 1.00 0.88 C
+ATOM 1568 CG LEU A 215 12.315 4.986 27.417 1.00 0.88 C
+ATOM 1569 CD1 LEU A 215 11.808 4.700 28.837 1.00 0.88 C
+ATOM 1570 CD2 LEU A 215 12.877 6.410 27.346 1.00 0.88 C
+ATOM 1571 N LEU A 216 14.780 1.767 25.163 1.00 0.93 N
+ATOM 1572 CA LEU A 216 15.845 0.803 24.935 1.00 0.93 C
+ATOM 1573 C LEU A 216 16.590 1.020 23.621 1.00 0.93 C
+ATOM 1574 O LEU A 216 17.805 0.861 23.535 1.00 0.93 O
+ATOM 1575 CB LEU A 216 15.331 -0.644 25.062 1.00 0.93 C
+ATOM 1576 CG LEU A 216 14.730 -0.979 26.445 1.00 0.93 C
+ATOM 1577 CD1 LEU A 216 14.197 -2.409 26.443 1.00 0.93 C
+ATOM 1578 CD2 LEU A 216 15.717 -0.809 27.607 1.00 0.93 C
+ATOM 1579 N LEU A 217 15.890 1.450 22.554 1.00 0.92 N
+ATOM 1580 CA LEU A 217 16.516 1.876 21.313 1.00 0.92 C
+ATOM 1581 C LEU A 217 17.403 3.112 21.457 1.00 0.92 C
+ATOM 1582 O LEU A 217 18.449 3.212 20.810 1.00 0.92 O
+ATOM 1583 CB LEU A 217 15.471 2.085 20.195 1.00 0.92 C
+ATOM 1584 CG LEU A 217 14.764 0.798 19.712 1.00 0.92 C
+ATOM 1585 CD1 LEU A 217 13.751 1.121 18.603 1.00 0.92 C
+ATOM 1586 CD2 LEU A 217 15.737 -0.282 19.221 1.00 0.92 C
+ATOM 1587 N ILE A 218 17.053 4.069 22.346 1.00 0.90 N
+ATOM 1588 CA ILE A 218 17.932 5.173 22.730 1.00 0.90 C
+ATOM 1589 C ILE A 218 19.221 4.681 23.382 1.00 0.90 C
+ATOM 1590 O ILE A 218 20.300 5.208 23.111 1.00 0.90 O
+ATOM 1591 CB ILE A 218 17.242 6.217 23.610 1.00 0.90 C
+ATOM 1592 CG1 ILE A 218 16.067 6.875 22.859 1.00 0.90 C
+ATOM 1593 CG2 ILE A 218 18.242 7.312 24.050 1.00 0.90 C
+ATOM 1594 CD1 ILE A 218 15.108 7.635 23.777 1.00 0.90 C
+ATOM 1595 N LEU A 219 19.170 3.615 24.210 1.00 0.90 N
+ATOM 1596 CA LEU A 219 20.357 3.010 24.798 1.00 0.90 C
+ATOM 1597 C LEU A 219 21.358 2.493 23.771 1.00 0.90 C
+ATOM 1598 O LEU A 219 22.566 2.600 23.956 1.00 0.90 O
+ATOM 1599 CB LEU A 219 20.025 1.870 25.789 1.00 0.90 C
+ATOM 1600 CG LEU A 219 19.177 2.281 27.010 1.00 0.90 C
+ATOM 1601 CD1 LEU A 219 19.003 1.093 27.967 1.00 0.90 C
+ATOM 1602 CD2 LEU A 219 19.777 3.469 27.769 1.00 0.90 C
+ATOM 1603 N SER A 220 20.887 1.961 22.625 1.00 0.91 N
+ATOM 1604 CA SER A 220 21.764 1.587 21.513 1.00 0.91 C
+ATOM 1605 C SER A 220 22.543 2.768 20.941 1.00 0.91 C
+ATOM 1606 O SER A 220 23.735 2.684 20.647 1.00 0.91 O
+ATOM 1607 CB SER A 220 20.982 0.843 20.395 1.00 0.91 C
+ATOM 1608 OG SER A 220 21.812 0.457 19.292 1.00 0.91 O
+ATOM 1609 N HIS A 221 21.897 3.942 20.819 1.00 0.87 N
+ATOM 1610 CA HIS A 221 22.589 5.180 20.501 1.00 0.87 C
+ATOM 1611 C HIS A 221 23.536 5.670 21.597 1.00 0.87 C
+ATOM 1612 O HIS A 221 24.625 6.146 21.298 1.00 0.87 O
+ATOM 1613 CB HIS A 221 21.610 6.292 20.094 1.00 0.87 C
+ATOM 1614 CG HIS A 221 20.834 5.950 18.854 1.00 0.87 C
+ATOM 1615 ND1 HIS A 221 21.408 6.130 17.603 1.00 0.87 N
+ATOM 1616 CD2 HIS A 221 19.565 5.490 18.724 1.00 0.87 C
+ATOM 1617 CE1 HIS A 221 20.460 5.796 16.743 1.00 0.87 C
+ATOM 1618 NE2 HIS A 221 19.331 5.389 17.372 1.00 0.87 N
+ATOM 1619 N ILE A 222 23.195 5.543 22.897 1.00 0.91 N
+ATOM 1620 CA ILE A 222 24.116 5.843 23.998 1.00 0.91 C
+ATOM 1621 C ILE A 222 25.354 4.952 23.981 1.00 0.91 C
+ATOM 1622 O ILE A 222 26.479 5.421 24.165 1.00 0.91 O
+ATOM 1623 CB ILE A 222 23.427 5.857 25.365 1.00 0.91 C
+ATOM 1624 CG1 ILE A 222 22.347 6.968 25.386 1.00 0.91 C
+ATOM 1625 CG2 ILE A 222 24.464 6.082 26.492 1.00 0.91 C
+ATOM 1626 CD1 ILE A 222 21.510 7.017 26.666 1.00 0.91 C
+ATOM 1627 N ARG A 223 25.192 3.651 23.667 1.00 0.86 N
+ATOM 1628 CA ARG A 223 26.303 2.746 23.432 1.00 0.86 C
+ATOM 1629 C ARG A 223 27.188 3.206 22.284 1.00 0.86 C
+ATOM 1630 O ARG A 223 28.412 3.249 22.394 1.00 0.86 O
+ATOM 1631 CB ARG A 223 25.782 1.324 23.119 1.00 0.86 C
+ATOM 1632 CG ARG A 223 26.880 0.247 22.967 1.00 0.86 C
+ATOM 1633 CD ARG A 223 27.584 -0.152 24.271 1.00 0.86 C
+ATOM 1634 NE ARG A 223 26.593 -0.914 25.091 1.00 0.86 N
+ATOM 1635 CZ ARG A 223 26.345 -2.222 24.965 1.00 0.86 C
+ATOM 1636 NH1 ARG A 223 27.104 -2.995 24.190 1.00 0.86 N
+ATOM 1637 NH2 ARG A 223 25.320 -2.767 25.615 1.00 0.86 N
+ATOM 1638 N HIS A 224 26.572 3.640 21.167 1.00 0.88 N
+ATOM 1639 CA HIS A 224 27.279 4.212 20.039 1.00 0.88 C
+ATOM 1640 C HIS A 224 28.069 5.462 20.398 1.00 0.88 C
+ATOM 1641 O HIS A 224 29.241 5.589 20.057 1.00 0.88 O
+ATOM 1642 CB HIS A 224 26.271 4.545 18.919 1.00 0.88 C
+ATOM 1643 CG HIS A 224 26.891 5.005 17.646 1.00 0.88 C
+ATOM 1644 ND1 HIS A 224 27.468 4.075 16.814 1.00 0.88 N
+ATOM 1645 CD2 HIS A 224 27.089 6.258 17.170 1.00 0.88 C
+ATOM 1646 CE1 HIS A 224 28.026 4.777 15.846 1.00 0.88 C
+ATOM 1647 NE2 HIS A 224 27.821 6.109 16.012 1.00 0.88 N
+ATOM 1648 N MET A 225 27.477 6.398 21.168 1.00 0.89 N
+ATOM 1649 CA MET A 225 28.178 7.572 21.655 1.00 0.89 C
+ATOM 1650 C MET A 225 29.359 7.231 22.541 1.00 0.89 C
+ATOM 1651 O MET A 225 30.436 7.807 22.407 1.00 0.89 O
+ATOM 1652 CB MET A 225 27.247 8.500 22.461 1.00 0.89 C
+ATOM 1653 CG MET A 225 26.101 9.102 21.641 1.00 0.89 C
+ATOM 1654 SD MET A 225 25.244 10.450 22.496 1.00 0.89 S
+ATOM 1655 CE MET A 225 24.443 9.521 23.821 1.00 0.89 C
+ATOM 1656 N SER A 226 29.191 6.243 23.441 1.00 0.91 N
+ATOM 1657 CA SER A 226 30.265 5.742 24.286 1.00 0.91 C
+ATOM 1658 C SER A 226 31.403 5.155 23.481 1.00 0.91 C
+ATOM 1659 O SER A 226 32.567 5.464 23.710 1.00 0.91 O
+ATOM 1660 CB SER A 226 29.746 4.667 25.271 1.00 0.91 C
+ATOM 1661 OG SER A 226 30.773 4.143 26.119 1.00 0.91 O
+ATOM 1662 N ASN A 227 31.100 4.337 22.454 1.00 0.90 N
+ATOM 1663 CA ASN A 227 32.124 3.763 21.599 1.00 0.90 C
+ATOM 1664 C ASN A 227 32.932 4.818 20.862 1.00 0.90 C
+ATOM 1665 O ASN A 227 34.159 4.813 20.903 1.00 0.90 O
+ATOM 1666 CB ASN A 227 31.507 2.824 20.534 1.00 0.90 C
+ATOM 1667 CG ASN A 227 30.756 1.618 21.094 1.00 0.90 C
+ATOM 1668 OD1 ASN A 227 29.955 1.020 20.371 1.00 0.90 O
+ATOM 1669 ND2 ASN A 227 31.031 1.208 22.348 1.00 0.90 N
+ATOM 1670 N LYS A 228 32.246 5.801 20.251 1.00 0.85 N
+ATOM 1671 CA LYS A 228 32.884 6.910 19.573 1.00 0.85 C
+ATOM 1672 C LYS A 228 33.676 7.805 20.522 1.00 0.85 C
+ATOM 1673 O LYS A 228 34.762 8.282 20.199 1.00 0.85 O
+ATOM 1674 CB LYS A 228 31.846 7.736 18.774 1.00 0.85 C
+ATOM 1675 CG LYS A 228 31.059 6.957 17.699 1.00 0.85 C
+ATOM 1676 CD LYS A 228 31.912 6.180 16.686 1.00 0.85 C
+ATOM 1677 CE LYS A 228 32.820 7.039 15.808 1.00 0.85 C
+ATOM 1678 NZ LYS A 228 33.721 6.158 15.050 1.00 0.85 N
+ATOM 1679 N GLY A 229 33.166 8.029 21.752 1.00 0.84 N
+ATOM 1680 CA GLY A 229 33.906 8.721 22.802 1.00 0.84 C
+ATOM 1681 C GLY A 229 35.142 7.992 23.259 1.00 0.84 C
+ATOM 1682 O GLY A 229 36.179 8.600 23.498 1.00 0.84 O
+ATOM 1683 N MET A 230 35.103 6.652 23.341 1.00 0.76 N
+ATOM 1684 CA MET A 230 36.274 5.846 23.622 1.00 0.76 C
+ATOM 1685 C MET A 230 37.339 5.944 22.550 1.00 0.76 C
+ATOM 1686 O MET A 230 38.524 6.099 22.848 1.00 0.76 O
+ATOM 1687 CB MET A 230 35.910 4.354 23.825 1.00 0.76 C
+ATOM 1688 CG MET A 230 35.218 4.025 25.166 1.00 0.76 C
+ATOM 1689 SD MET A 230 36.029 4.646 26.672 1.00 0.76 S
+ATOM 1690 CE MET A 230 37.710 4.108 26.283 1.00 0.76 C
+ATOM 1691 N GLU A 231 36.945 5.906 21.267 1.00 0.81 N
+ATOM 1692 CA GLU A 231 37.871 6.125 20.176 1.00 0.81 C
+ATOM 1693 C GLU A 231 38.512 7.509 20.212 1.00 0.81 C
+ATOM 1694 O GLU A 231 39.713 7.677 20.001 1.00 0.81 O
+ATOM 1695 CB GLU A 231 37.128 6.029 18.846 1.00 0.81 C
+ATOM 1696 CG GLU A 231 36.477 4.673 18.506 1.00 0.81 C
+ATOM 1697 CD GLU A 231 35.533 4.930 17.349 1.00 0.81 C
+ATOM 1698 OE1 GLU A 231 35.812 5.867 16.550 1.00 0.81 O
+ATOM 1699 OE2 GLU A 231 34.451 4.303 17.233 1.00 0.81 O
+ATOM 1700 N HIS A 232 37.706 8.547 20.519 1.00 0.74 N
+ATOM 1701 CA HIS A 232 38.174 9.903 20.716 1.00 0.74 C
+ATOM 1702 C HIS A 232 39.153 10.055 21.870 1.00 0.74 C
+ATOM 1703 O HIS A 232 40.241 10.597 21.692 1.00 0.74 O
+ATOM 1704 CB HIS A 232 36.949 10.813 20.959 1.00 0.74 C
+ATOM 1705 CG HIS A 232 37.255 12.250 21.237 1.00 0.74 C
+ATOM 1706 ND1 HIS A 232 36.719 12.869 22.352 1.00 0.74 N
+ATOM 1707 CD2 HIS A 232 37.975 13.131 20.507 1.00 0.74 C
+ATOM 1708 CE1 HIS A 232 37.127 14.118 22.275 1.00 0.74 C
+ATOM 1709 NE2 HIS A 232 37.892 14.329 21.178 1.00 0.74 N
+ATOM 1710 N LEU A 233 38.834 9.524 23.067 1.00 0.70 N
+ATOM 1711 CA LEU A 233 39.730 9.584 24.208 1.00 0.70 C
+ATOM 1712 C LEU A 233 41.052 8.842 24.017 1.00 0.70 C
+ATOM 1713 O LEU A 233 42.111 9.364 24.367 1.00 0.70 O
+ATOM 1714 CB LEU A 233 39.049 9.054 25.489 1.00 0.70 C
+ATOM 1715 CG LEU A 233 37.846 9.873 25.999 1.00 0.70 C
+ATOM 1716 CD1 LEU A 233 37.096 9.080 27.080 1.00 0.70 C
+ATOM 1717 CD2 LEU A 233 38.253 11.252 26.538 1.00 0.70 C
+ATOM 1718 N TYR A 234 41.052 7.615 23.439 1.00 0.71 N
+ATOM 1719 CA TYR A 234 42.293 6.896 23.171 1.00 0.71 C
+ATOM 1720 C TYR A 234 43.179 7.612 22.158 1.00 0.71 C
+ATOM 1721 O TYR A 234 44.378 7.789 22.376 1.00 0.71 O
+ATOM 1722 CB TYR A 234 42.045 5.437 22.681 1.00 0.71 C
+ATOM 1723 CG TYR A 234 41.796 4.443 23.795 1.00 0.71 C
+ATOM 1724 CD1 TYR A 234 42.737 4.268 24.827 1.00 0.71 C
+ATOM 1725 CD2 TYR A 234 40.680 3.585 23.757 1.00 0.71 C
+ATOM 1726 CE1 TYR A 234 42.557 3.279 25.805 1.00 0.71 C
+ATOM 1727 CE2 TYR A 234 40.501 2.591 24.732 1.00 0.71 C
+ATOM 1728 CZ TYR A 234 41.441 2.441 25.754 1.00 0.71 C
+ATOM 1729 OH TYR A 234 41.289 1.428 26.716 1.00 0.71 O
+ATOM 1730 N SER A 235 42.600 8.101 21.046 1.00 0.71 N
+ATOM 1731 CA SER A 235 43.324 8.844 20.021 1.00 0.71 C
+ATOM 1732 C SER A 235 43.897 10.154 20.510 1.00 0.71 C
+ATOM 1733 O SER A 235 44.976 10.565 20.089 1.00 0.71 O
+ATOM 1734 CB SER A 235 42.453 9.095 18.775 1.00 0.71 C
+ATOM 1735 OG SER A 235 42.244 7.859 18.093 1.00 0.71 O
+ATOM 1736 N MET A 236 43.212 10.815 21.463 1.00 0.62 N
+ATOM 1737 CA MET A 236 43.656 12.044 22.092 1.00 0.62 C
+ATOM 1738 C MET A 236 44.937 11.885 22.910 1.00 0.62 C
+ATOM 1739 O MET A 236 45.655 12.851 23.153 1.00 0.62 O
+ATOM 1740 CB MET A 236 42.522 12.564 23.008 1.00 0.62 C
+ATOM 1741 CG MET A 236 42.720 13.989 23.559 1.00 0.62 C
+ATOM 1742 SD MET A 236 41.505 14.481 24.821 1.00 0.62 S
+ATOM 1743 CE MET A 236 39.976 14.252 23.883 1.00 0.62 C
+ATOM 1744 N LYS A 237 45.238 10.639 23.349 1.00 0.60 N
+ATOM 1745 CA LYS A 237 46.413 10.264 24.123 1.00 0.60 C
+ATOM 1746 C LYS A 237 46.217 10.577 25.595 1.00 0.60 C
+ATOM 1747 O LYS A 237 47.171 10.769 26.347 1.00 0.60 O
+ATOM 1748 CB LYS A 237 47.775 10.844 23.634 1.00 0.60 C
+ATOM 1749 CG LYS A 237 48.099 10.639 22.146 1.00 0.60 C
+ATOM 1750 CD LYS A 237 48.573 9.217 21.812 1.00 0.60 C
+ATOM 1751 CE LYS A 237 48.966 9.073 20.340 1.00 0.60 C
+ATOM 1752 NZ LYS A 237 49.634 7.772 20.106 1.00 0.60 N
+ATOM 1753 N SER A 238 44.950 10.640 26.046 1.00 0.57 N
+ATOM 1754 CA SER A 238 44.599 11.032 27.399 1.00 0.57 C
+ATOM 1755 C SER A 238 45.177 10.148 28.484 1.00 0.57 C
+ATOM 1756 O SER A 238 45.319 8.935 28.359 1.00 0.57 O
+ATOM 1757 CB SER A 238 43.071 11.120 27.621 1.00 0.57 C
+ATOM 1758 OG SER A 238 42.520 12.146 26.804 1.00 0.57 O
+ATOM 1759 N LYS A 239 45.541 10.757 29.621 1.00 0.53 N
+ATOM 1760 CA LYS A 239 46.073 10.040 30.757 1.00 0.53 C
+ATOM 1761 C LYS A 239 44.972 9.269 31.466 1.00 0.53 C
+ATOM 1762 O LYS A 239 43.972 9.856 31.863 1.00 0.53 O
+ATOM 1763 CB LYS A 239 46.748 11.020 31.747 1.00 0.53 C
+ATOM 1764 CG LYS A 239 47.798 11.944 31.105 1.00 0.53 C
+ATOM 1765 CD LYS A 239 48.351 12.961 32.118 1.00 0.53 C
+ATOM 1766 CE LYS A 239 49.290 13.995 31.489 1.00 0.53 C
+ATOM 1767 NZ LYS A 239 49.744 14.964 32.514 1.00 0.53 N
+ATOM 1768 N ASN A 240 45.137 7.934 31.620 1.00 0.59 N
+ATOM 1769 CA ASN A 240 44.164 7.073 32.275 1.00 0.59 C
+ATOM 1770 C ASN A 240 42.805 7.037 31.567 1.00 0.59 C
+ATOM 1771 O ASN A 240 41.759 7.266 32.164 1.00 0.59 O
+ATOM 1772 CB ASN A 240 44.068 7.443 33.780 1.00 0.59 C
+ATOM 1773 CG ASN A 240 43.608 6.292 34.661 1.00 0.59 C
+ATOM 1774 OD1 ASN A 240 43.797 5.108 34.357 1.00 0.59 O
+ATOM 1775 ND2 ASN A 240 43.047 6.640 35.840 1.00 0.59 N
+ATOM 1776 N VAL A 241 42.811 6.734 30.244 1.00 0.64 N
+ATOM 1777 CA VAL A 241 41.637 6.756 29.372 1.00 0.64 C
+ATOM 1778 C VAL A 241 40.492 5.900 29.873 1.00 0.64 C
+ATOM 1779 O VAL A 241 39.328 6.297 29.846 1.00 0.64 O
+ATOM 1780 CB VAL A 241 41.977 6.251 27.963 1.00 0.64 C
+ATOM 1781 CG1 VAL A 241 40.741 6.296 27.047 1.00 0.64 C
+ATOM 1782 CG2 VAL A 241 43.100 7.084 27.337 1.00 0.64 C
+ATOM 1783 N VAL A 242 40.812 4.696 30.361 1.00 0.70 N
+ATOM 1784 CA VAL A 242 39.845 3.800 30.936 1.00 0.70 C
+ATOM 1785 C VAL A 242 40.251 3.648 32.382 1.00 0.70 C
+ATOM 1786 O VAL A 242 41.452 3.540 32.648 1.00 0.70 O
+ATOM 1787 CB VAL A 242 39.795 2.426 30.264 1.00 0.70 C
+ATOM 1788 CG1 VAL A 242 39.153 2.569 28.879 1.00 0.70 C
+ATOM 1789 CG2 VAL A 242 41.195 1.796 30.128 1.00 0.70 C
+ATOM 1790 N PRO A 243 39.369 3.635 33.377 1.00 0.75 N
+ATOM 1791 CA PRO A 243 39.721 2.996 34.635 1.00 0.75 C
+ATOM 1792 C PRO A 243 40.154 1.542 34.427 1.00 0.75 C
+ATOM 1793 O PRO A 243 39.347 0.704 34.033 1.00 0.75 O
+ATOM 1794 CB PRO A 243 38.442 3.172 35.464 1.00 0.75 C
+ATOM 1795 CG PRO A 243 37.310 3.076 34.438 1.00 0.75 C
+ATOM 1796 CD PRO A 243 37.916 3.728 33.197 1.00 0.75 C
+ATOM 1797 N LEU A 244 41.434 1.228 34.700 1.00 0.71 N
+ATOM 1798 CA LEU A 244 42.013 -0.095 34.552 1.00 0.71 C
+ATOM 1799 C LEU A 244 41.335 -1.148 35.424 1.00 0.71 C
+ATOM 1800 O LEU A 244 40.768 -0.808 36.466 1.00 0.71 O
+ATOM 1801 CB LEU A 244 43.529 -0.061 34.874 1.00 0.71 C
+ATOM 1802 CG LEU A 244 44.390 0.808 33.930 1.00 0.71 C
+ATOM 1803 CD1 LEU A 244 45.829 0.893 34.463 1.00 0.71 C
+ATOM 1804 CD2 LEU A 244 44.402 0.261 32.495 1.00 0.71 C
+ATOM 1805 N SER A 245 41.400 -2.454 35.047 1.00 0.78 N
+ATOM 1806 CA SER A 245 40.848 -3.577 35.810 1.00 0.78 C
+ATOM 1807 C SER A 245 41.150 -3.493 37.297 1.00 0.78 C
+ATOM 1808 O SER A 245 40.252 -3.457 38.136 1.00 0.78 O
+ATOM 1809 CB SER A 245 41.377 -4.961 35.311 1.00 0.78 C
+ATOM 1810 OG SER A 245 41.324 -5.085 33.906 1.00 0.78 O
+ATOM 1811 N ASP A 246 42.441 -3.351 37.645 1.00 0.75 N
+ATOM 1812 CA ASP A 246 42.948 -3.232 38.995 1.00 0.75 C
+ATOM 1813 C ASP A 246 42.446 -2.000 39.747 1.00 0.75 C
+ATOM 1814 O ASP A 246 42.142 -2.056 40.935 1.00 0.75 O
+ATOM 1815 CB ASP A 246 44.493 -3.234 38.959 1.00 0.75 C
+ATOM 1816 CG ASP A 246 45.011 -4.482 38.257 1.00 0.75 C
+ATOM 1817 OD1 ASP A 246 44.430 -5.574 38.469 1.00 0.75 O
+ATOM 1818 OD2 ASP A 246 45.969 -4.325 37.459 1.00 0.75 O
+ATOM 1819 N LEU A 247 42.314 -0.842 39.059 1.00 0.69 N
+ATOM 1820 CA LEU A 247 41.765 0.368 39.654 1.00 0.69 C
+ATOM 1821 C LEU A 247 40.317 0.195 40.066 1.00 0.69 C
+ATOM 1822 O LEU A 247 39.939 0.489 41.196 1.00 0.69 O
+ATOM 1823 CB LEU A 247 41.873 1.569 38.677 1.00 0.69 C
+ATOM 1824 CG LEU A 247 41.267 2.902 39.176 1.00 0.69 C
+ATOM 1825 CD1 LEU A 247 41.928 3.396 40.469 1.00 0.69 C
+ATOM 1826 CD2 LEU A 247 41.371 3.992 38.102 1.00 0.69 C
+ATOM 1827 N LEU A 248 39.473 -0.360 39.176 1.00 0.74 N
+ATOM 1828 CA LEU A 248 38.100 -0.674 39.518 1.00 0.74 C
+ATOM 1829 C LEU A 248 37.993 -1.728 40.606 1.00 0.74 C
+ATOM 1830 O LEU A 248 37.177 -1.606 41.516 1.00 0.74 O
+ATOM 1831 CB LEU A 248 37.302 -1.129 38.280 1.00 0.74 C
+ATOM 1832 CG LEU A 248 37.104 -0.049 37.200 1.00 0.74 C
+ATOM 1833 CD1 LEU A 248 36.452 -0.675 35.963 1.00 0.74 C
+ATOM 1834 CD2 LEU A 248 36.241 1.119 37.703 1.00 0.74 C
+ATOM 1835 N LEU A 249 38.848 -2.769 40.562 1.00 0.76 N
+ATOM 1836 CA LEU A 249 38.894 -3.822 41.559 1.00 0.76 C
+ATOM 1837 C LEU A 249 39.189 -3.306 42.962 1.00 0.76 C
+ATOM 1838 O LEU A 249 38.461 -3.607 43.901 1.00 0.76 O
+ATOM 1839 CB LEU A 249 39.954 -4.854 41.107 1.00 0.76 C
+ATOM 1840 CG LEU A 249 39.982 -6.203 41.843 1.00 0.76 C
+ATOM 1841 CD1 LEU A 249 38.735 -7.043 41.538 1.00 0.76 C
+ATOM 1842 CD2 LEU A 249 41.240 -6.973 41.418 1.00 0.76 C
+ATOM 1843 N GLU A 250 40.197 -2.425 43.112 1.00 0.70 N
+ATOM 1844 CA GLU A 250 40.517 -1.775 44.372 1.00 0.70 C
+ATOM 1845 C GLU A 250 39.408 -0.864 44.883 1.00 0.70 C
+ATOM 1846 O GLU A 250 39.064 -0.838 46.062 1.00 0.70 O
+ATOM 1847 CB GLU A 250 41.810 -0.955 44.194 1.00 0.70 C
+ATOM 1848 CG GLU A 250 42.415 -0.400 45.509 1.00 0.70 C
+ATOM 1849 CD GLU A 250 43.080 -1.460 46.393 1.00 0.70 C
+ATOM 1850 OE1 GLU A 250 43.372 -2.574 45.892 1.00 0.70 O
+ATOM 1851 OE2 GLU A 250 43.353 -1.118 47.573 1.00 0.70 O
+ATOM 1852 N MET A 251 38.754 -0.098 43.981 1.00 0.70 N
+ATOM 1853 CA MET A 251 37.629 0.741 44.356 1.00 0.70 C
+ATOM 1854 C MET A 251 36.422 -0.041 44.868 1.00 0.70 C
+ATOM 1855 O MET A 251 35.645 0.463 45.675 1.00 0.70 O
+ATOM 1856 CB MET A 251 37.181 1.664 43.200 1.00 0.70 C
+ATOM 1857 CG MET A 251 38.230 2.713 42.790 1.00 0.70 C
+ATOM 1858 SD MET A 251 37.785 3.629 41.285 1.00 0.70 S
+ATOM 1859 CE MET A 251 36.651 4.769 42.121 1.00 0.70 C
+ATOM 1860 N LEU A 252 36.249 -1.312 44.450 1.00 0.77 N
+ATOM 1861 CA LEU A 252 35.189 -2.160 44.955 1.00 0.77 C
+ATOM 1862 C LEU A 252 35.401 -2.632 46.388 1.00 0.77 C
+ATOM 1863 O LEU A 252 34.433 -3.052 47.014 1.00 0.77 O
+ATOM 1864 CB LEU A 252 34.971 -3.398 44.057 1.00 0.77 C
+ATOM 1865 CG LEU A 252 34.300 -3.120 42.699 1.00 0.77 C
+ATOM 1866 CD1 LEU A 252 34.319 -4.406 41.870 1.00 0.77 C
+ATOM 1867 CD2 LEU A 252 32.854 -2.627 42.851 1.00 0.77 C
+ATOM 1868 N ASP A 253 36.621 -2.527 46.948 1.00 0.67 N
+ATOM 1869 CA ASP A 253 36.923 -2.949 48.308 1.00 0.67 C
+ATOM 1870 C ASP A 253 37.021 -1.758 49.282 1.00 0.67 C
+ATOM 1871 O ASP A 253 37.370 -1.904 50.453 1.00 0.67 O
+ATOM 1872 CB ASP A 253 38.238 -3.783 48.320 1.00 0.67 C
+ATOM 1873 CG ASP A 253 38.031 -5.219 47.840 1.00 0.67 C
+ATOM 1874 OD1 ASP A 253 36.866 -5.629 47.595 1.00 0.67 O
+ATOM 1875 OD2 ASP A 253 39.053 -5.950 47.759 1.00 0.67 O
+ATOM 1876 N ALA A 254 36.681 -0.526 48.836 1.00 0.55 N
+ATOM 1877 CA ALA A 254 36.648 0.677 49.658 1.00 0.55 C
+ATOM 1878 C ALA A 254 35.503 0.708 50.682 1.00 0.55 C
+ATOM 1879 O ALA A 254 35.603 1.315 51.746 1.00 0.55 O
+ATOM 1880 CB ALA A 254 36.492 1.891 48.719 1.00 0.55 C
+ATOM 1881 N HIS A 255 34.389 0.058 50.312 1.00 0.44 N
+ATOM 1882 CA HIS A 255 33.166 -0.214 51.048 1.00 0.44 C
+ATOM 1883 C HIS A 255 32.545 -1.337 50.197 1.00 0.44 C
+ATOM 1884 O HIS A 255 33.309 -2.292 49.882 1.00 0.44 O
+ATOM 1885 CB HIS A 255 32.182 0.981 51.120 1.00 0.44 C
+ATOM 1886 CG HIS A 255 31.231 1.045 52.287 1.00 0.44 C
+ATOM 1887 ND1 HIS A 255 30.814 -0.043 53.043 1.00 0.44 N
+ATOM 1888 CD2 HIS A 255 30.620 2.169 52.730 1.00 0.44 C
+ATOM 1889 CE1 HIS A 255 29.967 0.450 53.921 1.00 0.44 C
+ATOM 1890 NE2 HIS A 255 29.811 1.789 53.778 1.00 0.44 N
+TER 1891 HIS A 255
+ATOM 1892 N LEU B 18 -0.815 -1.268 7.888 1.00 0.85 N
+ATOM 1893 CA LEU B 18 -0.774 -2.759 7.965 1.00 0.85 C
+ATOM 1894 C LEU B 18 -1.021 -3.254 9.370 1.00 0.85 C
+ATOM 1895 O LEU B 18 -0.710 -2.547 10.330 1.00 0.85 O
+ATOM 1896 CB LEU B 18 0.616 -3.239 7.476 1.00 0.85 C
+ATOM 1897 CG LEU B 18 0.946 -2.918 6.003 1.00 0.85 C
+ATOM 1898 CD1 LEU B 18 2.325 -3.475 5.627 1.00 0.85 C
+ATOM 1899 CD2 LEU B 18 -0.101 -3.482 5.035 1.00 0.85 C
+ATOM 1900 N THR B 19 -1.600 -4.455 9.532 1.00 0.86 N
+ATOM 1901 CA THR B 19 -1.693 -5.120 10.818 1.00 0.86 C
+ATOM 1902 C THR B 19 -0.377 -5.796 11.137 1.00 0.86 C
+ATOM 1903 O THR B 19 0.551 -5.807 10.327 1.00 0.86 O
+ATOM 1904 CB THR B 19 -2.804 -6.151 10.907 1.00 0.86 C
+ATOM 1905 OG1 THR B 19 -2.747 -7.026 9.796 1.00 0.86 O
+ATOM 1906 CG2 THR B 19 -4.174 -5.477 10.823 1.00 0.86 C
+ATOM 1907 N ALA B 20 -0.237 -6.343 12.360 1.00 0.87 N
+ATOM 1908 CA ALA B 20 0.990 -6.962 12.817 1.00 0.87 C
+ATOM 1909 C ALA B 20 1.415 -8.176 11.999 1.00 0.87 C
+ATOM 1910 O ALA B 20 2.584 -8.359 11.657 1.00 0.87 O
+ATOM 1911 CB ALA B 20 0.830 -7.360 14.295 1.00 0.87 C
+ATOM 1912 N ASP B 21 0.442 -9.019 11.628 1.00 0.88 N
+ATOM 1913 CA ASP B 21 0.595 -10.165 10.771 1.00 0.88 C
+ATOM 1914 C ASP B 21 1.084 -9.796 9.370 1.00 0.88 C
+ATOM 1915 O ASP B 21 2.001 -10.402 8.823 1.00 0.88 O
+ATOM 1916 CB ASP B 21 -0.749 -10.933 10.742 1.00 0.88 C
+ATOM 1917 CG ASP B 21 -1.909 -10.032 10.369 1.00 0.88 C
+ATOM 1918 OD1 ASP B 21 -2.241 -9.147 11.202 1.00 0.88 O
+ATOM 1919 OD2 ASP B 21 -2.442 -10.170 9.247 1.00 0.88 O
+ATOM 1920 N GLN B 22 0.525 -8.730 8.779 1.00 0.84 N
+ATOM 1921 CA GLN B 22 0.941 -8.221 7.492 1.00 0.84 C
+ATOM 1922 C GLN B 22 2.380 -7.734 7.476 1.00 0.84 C
+ATOM 1923 O GLN B 22 3.122 -7.973 6.524 1.00 0.84 O
+ATOM 1924 CB GLN B 22 0.000 -7.083 7.047 1.00 0.84 C
+ATOM 1925 CG GLN B 22 -1.433 -7.576 6.754 1.00 0.84 C
+ATOM 1926 CD GLN B 22 -2.360 -6.436 6.338 1.00 0.84 C
+ATOM 1927 OE1 GLN B 22 -2.272 -5.298 6.810 1.00 0.84 O
+ATOM 1928 NE2 GLN B 22 -3.283 -6.741 5.396 1.00 0.84 N
+ATOM 1929 N MET B 23 2.825 -7.048 8.547 1.00 0.88 N
+ATOM 1930 CA MET B 23 4.210 -6.640 8.678 1.00 0.88 C
+ATOM 1931 C MET B 23 5.187 -7.793 8.798 1.00 0.88 C
+ATOM 1932 O MET B 23 6.203 -7.818 8.106 1.00 0.88 O
+ATOM 1933 CB MET B 23 4.396 -5.692 9.879 1.00 0.88 C
+ATOM 1934 CG MET B 23 3.659 -4.356 9.693 1.00 0.88 C
+ATOM 1935 SD MET B 23 3.790 -3.254 11.119 1.00 0.88 S
+ATOM 1936 CE MET B 23 5.497 -2.719 10.815 1.00 0.88 C
+ATOM 1937 N VAL B 24 4.900 -8.803 9.643 1.00 0.90 N
+ATOM 1938 CA VAL B 24 5.755 -9.973 9.743 1.00 0.90 C
+ATOM 1939 C VAL B 24 5.788 -10.788 8.462 1.00 0.90 C
+ATOM 1940 O VAL B 24 6.857 -11.193 8.018 1.00 0.90 O
+ATOM 1941 CB VAL B 24 5.457 -10.814 10.974 1.00 0.90 C
+ATOM 1942 CG1 VAL B 24 4.062 -11.441 10.906 1.00 0.90 C
+ATOM 1943 CG2 VAL B 24 6.531 -11.895 11.156 1.00 0.90 C
+ATOM 1944 N SER B 25 4.640 -10.986 7.784 1.00 0.88 N
+ATOM 1945 CA SER B 25 4.595 -11.679 6.503 1.00 0.88 C
+ATOM 1946 C SER B 25 5.421 -10.998 5.434 1.00 0.88 C
+ATOM 1947 O SER B 25 6.237 -11.632 4.776 1.00 0.88 O
+ATOM 1948 CB SER B 25 3.151 -11.802 5.974 1.00 0.88 C
+ATOM 1949 OG SER B 25 2.384 -12.645 6.836 1.00 0.88 O
+ATOM 1950 N ALA B 26 5.313 -9.658 5.299 1.00 0.92 N
+ATOM 1951 CA ALA B 26 6.112 -8.908 4.353 1.00 0.92 C
+ATOM 1952 C ALA B 26 7.606 -9.014 4.606 1.00 0.92 C
+ATOM 1953 O ALA B 26 8.401 -9.162 3.684 1.00 0.92 O
+ATOM 1954 CB ALA B 26 5.690 -7.427 4.383 1.00 0.92 C
+ATOM 1955 N LEU B 27 8.023 -8.970 5.884 1.00 0.91 N
+ATOM 1956 CA LEU B 27 9.400 -9.196 6.259 1.00 0.91 C
+ATOM 1957 C LEU B 27 9.891 -10.620 5.996 1.00 0.91 C
+ATOM 1958 O LEU B 27 10.993 -10.803 5.486 1.00 0.91 O
+ATOM 1959 CB LEU B 27 9.622 -8.798 7.732 1.00 0.91 C
+ATOM 1960 CG LEU B 27 9.456 -7.293 8.031 1.00 0.91 C
+ATOM 1961 CD1 LEU B 27 9.479 -7.055 9.547 1.00 0.91 C
+ATOM 1962 CD2 LEU B 27 10.547 -6.445 7.363 1.00 0.91 C
+ATOM 1963 N LEU B 28 9.088 -11.666 6.292 1.00 0.90 N
+ATOM 1964 CA LEU B 28 9.444 -13.048 5.994 1.00 0.90 C
+ATOM 1965 C LEU B 28 9.599 -13.319 4.503 1.00 0.90 C
+ATOM 1966 O LEU B 28 10.587 -13.910 4.069 1.00 0.90 O
+ATOM 1967 CB LEU B 28 8.403 -14.045 6.555 1.00 0.90 C
+ATOM 1968 CG LEU B 28 8.324 -14.149 8.092 1.00 0.90 C
+ATOM 1969 CD1 LEU B 28 7.131 -15.037 8.472 1.00 0.90 C
+ATOM 1970 CD2 LEU B 28 9.611 -14.694 8.729 1.00 0.90 C
+ATOM 1971 N ASP B 29 8.664 -12.810 3.674 1.00 0.90 N
+ATOM 1972 CA ASP B 29 8.693 -12.950 2.230 1.00 0.90 C
+ATOM 1973 C ASP B 29 9.831 -12.148 1.615 1.00 0.90 C
+ATOM 1974 O ASP B 29 10.256 -12.368 0.482 1.00 0.90 O
+ATOM 1975 CB ASP B 29 7.370 -12.424 1.620 1.00 0.90 C
+ATOM 1976 CG ASP B 29 6.178 -13.325 1.915 1.00 0.90 C
+ATOM 1977 OD1 ASP B 29 6.372 -14.467 2.400 1.00 0.90 O
+ATOM 1978 OD2 ASP B 29 5.044 -12.866 1.617 1.00 0.90 O
+ATOM 1979 N ALA B 30 10.381 -11.184 2.375 1.00 0.93 N
+ATOM 1980 CA ALA B 30 11.434 -10.334 1.905 1.00 0.93 C
+ATOM 1981 C ALA B 30 12.823 -10.841 2.211 1.00 0.93 C
+ATOM 1982 O ALA B 30 13.789 -10.212 1.765 1.00 0.93 O
+ATOM 1983 CB ALA B 30 11.292 -8.937 2.540 1.00 0.93 C
+ATOM 1984 N GLU B 31 12.965 -11.973 2.926 1.00 0.89 N
+ATOM 1985 CA GLU B 31 14.253 -12.480 3.354 1.00 0.89 C
+ATOM 1986 C GLU B 31 15.259 -12.724 2.221 1.00 0.89 C
+ATOM 1987 O GLU B 31 14.889 -13.206 1.148 1.00 0.89 O
+ATOM 1988 CB GLU B 31 14.097 -13.760 4.210 1.00 0.89 C
+ATOM 1989 CG GLU B 31 13.859 -13.455 5.712 1.00 0.89 C
+ATOM 1990 CD GLU B 31 14.969 -12.608 6.318 1.00 0.89 C
+ATOM 1991 OE1 GLU B 31 16.107 -13.092 6.552 1.00 0.89 O
+ATOM 1992 OE2 GLU B 31 14.765 -11.382 6.533 1.00 0.89 O
+ATOM 1993 N PRO B 32 16.535 -12.366 2.374 1.00 0.92 N
+ATOM 1994 CA PRO B 32 17.506 -12.489 1.302 1.00 0.92 C
+ATOM 1995 C PRO B 32 17.976 -13.929 1.135 1.00 0.92 C
+ATOM 1996 O PRO B 32 17.952 -14.678 2.116 1.00 0.92 O
+ATOM 1997 CB PRO B 32 18.649 -11.572 1.765 1.00 0.92 C
+ATOM 1998 CG PRO B 32 18.613 -11.669 3.291 1.00 0.92 C
+ATOM 1999 CD PRO B 32 17.118 -11.778 3.583 1.00 0.92 C
+ATOM 2000 N PRO B 33 18.377 -14.377 -0.053 1.00 0.93 N
+ATOM 2001 CA PRO B 33 18.942 -15.706 -0.225 1.00 0.93 C
+ATOM 2002 C PRO B 33 20.245 -15.896 0.536 1.00 0.93 C
+ATOM 2003 O PRO B 33 20.984 -14.943 0.781 1.00 0.93 O
+ATOM 2004 CB PRO B 33 19.167 -15.802 -1.741 1.00 0.93 C
+ATOM 2005 CG PRO B 33 19.497 -14.365 -2.146 1.00 0.93 C
+ATOM 2006 CD PRO B 33 18.580 -13.540 -1.241 1.00 0.93 C
+ATOM 2007 N ILE B 34 20.557 -17.146 0.916 1.00 0.88 N
+ATOM 2008 CA ILE B 34 21.806 -17.464 1.581 1.00 0.88 C
+ATOM 2009 C ILE B 34 22.870 -17.688 0.524 1.00 0.88 C
+ATOM 2010 O ILE B 34 22.772 -18.587 -0.310 1.00 0.88 O
+ATOM 2011 CB ILE B 34 21.680 -18.683 2.490 1.00 0.88 C
+ATOM 2012 CG1 ILE B 34 20.675 -18.395 3.629 1.00 0.88 C
+ATOM 2013 CG2 ILE B 34 23.060 -19.070 3.067 1.00 0.88 C
+ATOM 2014 CD1 ILE B 34 20.292 -19.642 4.434 1.00 0.88 C
+ATOM 2015 N LEU B 35 23.920 -16.848 0.515 1.00 0.88 N
+ATOM 2016 CA LEU B 35 24.936 -16.909 -0.512 1.00 0.88 C
+ATOM 2017 C LEU B 35 26.106 -17.798 -0.126 1.00 0.88 C
+ATOM 2018 O LEU B 35 26.397 -18.036 1.044 1.00 0.88 O
+ATOM 2019 CB LEU B 35 25.475 -15.506 -0.868 1.00 0.88 C
+ATOM 2020 CG LEU B 35 24.403 -14.477 -1.274 1.00 0.88 C
+ATOM 2021 CD1 LEU B 35 25.098 -13.181 -1.703 1.00 0.88 C
+ATOM 2022 CD2 LEU B 35 23.482 -14.979 -2.396 1.00 0.88 C
+ATOM 2023 N TYR B 36 26.823 -18.316 -1.140 1.00 0.86 N
+ATOM 2024 CA TYR B 36 28.024 -19.106 -0.958 1.00 0.86 C
+ATOM 2025 C TYR B 36 29.252 -18.209 -1.050 1.00 0.86 C
+ATOM 2026 O TYR B 36 29.253 -17.180 -1.726 1.00 0.86 O
+ATOM 2027 CB TYR B 36 28.119 -20.245 -2.009 1.00 0.86 C
+ATOM 2028 CG TYR B 36 27.209 -21.394 -1.650 1.00 0.86 C
+ATOM 2029 CD1 TYR B 36 25.811 -21.285 -1.751 1.00 0.86 C
+ATOM 2030 CD2 TYR B 36 27.755 -22.613 -1.212 1.00 0.86 C
+ATOM 2031 CE1 TYR B 36 24.980 -22.351 -1.376 1.00 0.86 C
+ATOM 2032 CE2 TYR B 36 26.929 -23.682 -0.843 1.00 0.86 C
+ATOM 2033 CZ TYR B 36 25.541 -23.543 -0.912 1.00 0.86 C
+ATOM 2034 OH TYR B 36 24.714 -24.608 -0.514 1.00 0.86 O
+ATOM 2035 N SER B 37 30.354 -18.570 -0.367 1.00 0.84 N
+ATOM 2036 CA SER B 37 31.543 -17.725 -0.294 1.00 0.84 C
+ATOM 2037 C SER B 37 32.509 -17.929 -1.438 1.00 0.84 C
+ATOM 2038 O SER B 37 33.452 -17.166 -1.594 1.00 0.84 O
+ATOM 2039 CB SER B 37 32.366 -18.015 0.985 1.00 0.84 C
+ATOM 2040 OG SER B 37 32.797 -19.380 1.028 1.00 0.84 O
+ATOM 2041 N GLU B 38 32.285 -19.000 -2.224 1.00 0.76 N
+ATOM 2042 CA GLU B 38 33.166 -19.466 -3.281 1.00 0.76 C
+ATOM 2043 C GLU B 38 34.490 -20.022 -2.749 1.00 0.76 C
+ATOM 2044 O GLU B 38 35.505 -20.069 -3.436 1.00 0.76 O
+ATOM 2045 CB GLU B 38 33.326 -18.433 -4.424 1.00 0.76 C
+ATOM 2046 CG GLU B 38 31.961 -17.879 -4.915 1.00 0.76 C
+ATOM 2047 CD GLU B 38 32.082 -16.692 -5.870 1.00 0.76 C
+ATOM 2048 OE1 GLU B 38 32.625 -16.864 -6.985 1.00 0.76 O
+ATOM 2049 OE2 GLU B 38 31.577 -15.604 -5.484 1.00 0.76 O
+ATOM 2050 N TYR B 39 34.481 -20.528 -1.490 1.00 0.71 N
+ATOM 2051 CA TYR B 39 35.555 -21.313 -0.901 1.00 0.71 C
+ATOM 2052 C TYR B 39 35.985 -22.508 -1.758 1.00 0.71 C
+ATOM 2053 O TYR B 39 35.172 -23.345 -2.151 1.00 0.71 O
+ATOM 2054 CB TYR B 39 35.145 -21.787 0.533 1.00 0.71 C
+ATOM 2055 CG TYR B 39 36.120 -22.725 1.211 1.00 0.71 C
+ATOM 2056 CD1 TYR B 39 37.373 -22.272 1.649 1.00 0.71 C
+ATOM 2057 CD2 TYR B 39 35.777 -24.074 1.419 1.00 0.71 C
+ATOM 2058 CE1 TYR B 39 38.267 -23.152 2.277 1.00 0.71 C
+ATOM 2059 CE2 TYR B 39 36.672 -24.953 2.045 1.00 0.71 C
+ATOM 2060 CZ TYR B 39 37.920 -24.491 2.467 1.00 0.71 C
+ATOM 2061 OH TYR B 39 38.831 -25.370 3.081 1.00 0.71 O
+ATOM 2062 N ASP B 40 37.304 -22.595 -2.004 1.00 0.74 N
+ATOM 2063 CA ASP B 40 37.968 -23.669 -2.706 1.00 0.74 C
+ATOM 2064 C ASP B 40 38.898 -24.363 -1.719 1.00 0.74 C
+ATOM 2065 O ASP B 40 39.823 -23.712 -1.220 1.00 0.74 O
+ATOM 2066 CB ASP B 40 38.798 -23.066 -3.864 1.00 0.74 C
+ATOM 2067 CG ASP B 40 39.658 -24.039 -4.668 1.00 0.74 C
+ATOM 2068 OD1 ASP B 40 39.838 -25.217 -4.269 1.00 0.74 O
+ATOM 2069 OD2 ASP B 40 40.261 -23.550 -5.650 1.00 0.74 O
+ATOM 2070 N PRO B 41 38.747 -25.650 -1.418 1.00 0.68 N
+ATOM 2071 CA PRO B 41 39.630 -26.325 -0.485 1.00 0.68 C
+ATOM 2072 C PRO B 41 41.028 -26.545 -1.012 1.00 0.68 C
+ATOM 2073 O PRO B 41 41.884 -26.958 -0.236 1.00 0.68 O
+ATOM 2074 CB PRO B 41 38.957 -27.685 -0.230 1.00 0.68 C
+ATOM 2075 CG PRO B 41 37.495 -27.493 -0.637 1.00 0.68 C
+ATOM 2076 CD PRO B 41 37.565 -26.448 -1.746 1.00 0.68 C
+ATOM 2077 N THR B 42 41.288 -26.344 -2.315 1.00 0.65 N
+ATOM 2078 CA THR B 42 42.610 -26.588 -2.863 1.00 0.65 C
+ATOM 2079 C THR B 42 43.533 -25.391 -2.708 1.00 0.65 C
+ATOM 2080 O THR B 42 44.757 -25.506 -2.725 1.00 0.65 O
+ATOM 2081 CB THR B 42 42.572 -27.024 -4.320 1.00 0.65 C
+ATOM 2082 OG1 THR B 42 42.225 -25.968 -5.170 1.00 0.65 O
+ATOM 2083 CG2 THR B 42 41.583 -28.169 -4.559 1.00 0.65 C
+ATOM 2084 N ARG B 43 42.962 -24.191 -2.510 1.00 0.61 N
+ATOM 2085 CA ARG B 43 43.708 -22.981 -2.247 1.00 0.61 C
+ATOM 2086 C ARG B 43 44.380 -22.955 -0.874 1.00 0.61 C
+ATOM 2087 O ARG B 43 43.767 -23.370 0.109 1.00 0.61 O
+ATOM 2088 CB ARG B 43 42.774 -21.757 -2.352 1.00 0.61 C
+ATOM 2089 CG ARG B 43 42.182 -21.560 -3.759 1.00 0.61 C
+ATOM 2090 CD ARG B 43 43.151 -21.040 -4.826 1.00 0.61 C
+ATOM 2091 NE ARG B 43 43.555 -19.637 -4.458 1.00 0.61 N
+ATOM 2092 CZ ARG B 43 42.791 -18.557 -4.675 1.00 0.61 C
+ATOM 2093 NH1 ARG B 43 41.616 -18.652 -5.289 1.00 0.61 N
+ATOM 2094 NH2 ARG B 43 43.222 -17.360 -4.277 1.00 0.61 N
+ATOM 2095 N PRO B 44 45.602 -22.444 -0.705 1.00 0.65 N
+ATOM 2096 CA PRO B 44 46.153 -22.169 0.617 1.00 0.65 C
+ATOM 2097 C PRO B 44 45.279 -21.239 1.441 1.00 0.65 C
+ATOM 2098 O PRO B 44 44.995 -20.120 1.002 1.00 0.65 O
+ATOM 2099 CB PRO B 44 47.543 -21.577 0.333 1.00 0.65 C
+ATOM 2100 CG PRO B 44 47.927 -22.180 -1.022 1.00 0.65 C
+ATOM 2101 CD PRO B 44 46.592 -22.249 -1.764 1.00 0.65 C
+ATOM 2102 N PHE B 45 44.840 -21.671 2.637 1.00 0.68 N
+ATOM 2103 CA PHE B 45 43.981 -20.887 3.505 1.00 0.68 C
+ATOM 2104 C PHE B 45 44.762 -19.865 4.320 1.00 0.68 C
+ATOM 2105 O PHE B 45 44.884 -19.940 5.541 1.00 0.68 O
+ATOM 2106 CB PHE B 45 43.117 -21.819 4.387 1.00 0.68 C
+ATOM 2107 CG PHE B 45 41.859 -21.135 4.848 1.00 0.68 C
+ATOM 2108 CD1 PHE B 45 40.793 -20.954 3.953 1.00 0.68 C
+ATOM 2109 CD2 PHE B 45 41.720 -20.686 6.171 1.00 0.68 C
+ATOM 2110 CE1 PHE B 45 39.608 -20.335 4.369 1.00 0.68 C
+ATOM 2111 CE2 PHE B 45 40.536 -20.065 6.591 1.00 0.68 C
+ATOM 2112 CZ PHE B 45 39.482 -19.886 5.687 1.00 0.68 C
+ATOM 2113 N SER B 46 45.327 -18.872 3.620 1.00 0.71 N
+ATOM 2114 CA SER B 46 45.978 -17.728 4.207 1.00 0.71 C
+ATOM 2115 C SER B 46 44.990 -16.705 4.699 1.00 0.71 C
+ATOM 2116 O SER B 46 43.799 -16.712 4.382 1.00 0.71 O
+ATOM 2117 CB SER B 46 46.950 -17.027 3.218 1.00 0.71 C
+ATOM 2118 OG SER B 46 46.279 -16.469 2.077 1.00 0.71 O
+ATOM 2119 N GLU B 47 45.485 -15.743 5.484 1.00 0.70 N
+ATOM 2120 CA GLU B 47 44.730 -14.639 6.017 1.00 0.70 C
+ATOM 2121 C GLU B 47 44.146 -13.798 4.900 1.00 0.70 C
+ATOM 2122 O GLU B 47 42.974 -13.433 4.901 1.00 0.70 O
+ATOM 2123 CB GLU B 47 45.633 -13.742 6.905 1.00 0.70 C
+ATOM 2124 CG GLU B 47 46.390 -14.485 8.040 1.00 0.70 C
+ATOM 2125 CD GLU B 47 47.632 -15.272 7.598 1.00 0.70 C
+ATOM 2126 OE1 GLU B 47 47.949 -15.269 6.376 1.00 0.70 O
+ATOM 2127 OE2 GLU B 47 48.244 -15.923 8.478 1.00 0.70 O
+ATOM 2128 N ALA B 48 44.956 -13.526 3.860 1.00 0.71 N
+ATOM 2129 CA ALA B 48 44.508 -12.850 2.669 1.00 0.71 C
+ATOM 2130 C ALA B 48 43.446 -13.597 1.874 1.00 0.71 C
+ATOM 2131 O ALA B 48 42.491 -12.988 1.393 1.00 0.71 O
+ATOM 2132 CB ALA B 48 45.720 -12.519 1.783 1.00 0.71 C
+ATOM 2133 N SER B 49 43.557 -14.936 1.718 1.00 0.73 N
+ATOM 2134 CA SER B 49 42.509 -15.693 1.053 1.00 0.73 C
+ATOM 2135 C SER B 49 41.215 -15.752 1.839 1.00 0.73 C
+ATOM 2136 O SER B 49 40.146 -15.512 1.282 1.00 0.73 O
+ATOM 2137 CB SER B 49 42.956 -17.094 0.560 1.00 0.73 C
+ATOM 2138 OG SER B 49 43.145 -18.027 1.618 1.00 0.73 O
+ATOM 2139 N MET B 50 41.274 -15.973 3.169 1.00 0.73 N
+ATOM 2140 CA MET B 50 40.103 -15.921 4.026 1.00 0.73 C
+ATOM 2141 C MET B 50 39.410 -14.570 4.007 1.00 0.73 C
+ATOM 2142 O MET B 50 38.198 -14.480 3.815 1.00 0.73 O
+ATOM 2143 CB MET B 50 40.501 -16.262 5.481 1.00 0.73 C
+ATOM 2144 CG MET B 50 39.329 -16.277 6.484 1.00 0.73 C
+ATOM 2145 SD MET B 50 39.806 -16.750 8.175 1.00 0.73 S
+ATOM 2146 CE MET B 50 40.656 -15.203 8.605 1.00 0.73 C
+ATOM 2147 N MET B 51 40.170 -13.465 4.135 1.00 0.74 N
+ATOM 2148 CA MET B 51 39.605 -12.136 4.053 1.00 0.74 C
+ATOM 2149 C MET B 51 39.020 -11.812 2.688 1.00 0.74 C
+ATOM 2150 O MET B 51 37.974 -11.179 2.594 1.00 0.74 O
+ATOM 2151 CB MET B 51 40.619 -11.043 4.461 1.00 0.74 C
+ATOM 2152 CG MET B 51 41.021 -11.032 5.954 1.00 0.74 C
+ATOM 2153 SD MET B 51 39.683 -11.153 7.171 1.00 0.74 S
+ATOM 2154 CE MET B 51 38.631 -9.801 6.581 1.00 0.74 C
+ATOM 2155 N GLY B 52 39.652 -12.260 1.580 1.00 0.79 N
+ATOM 2156 CA GLY B 52 39.091 -12.080 0.243 1.00 0.79 C
+ATOM 2157 C GLY B 52 37.771 -12.771 0.017 1.00 0.79 C
+ATOM 2158 O GLY B 52 36.883 -12.218 -0.629 1.00 0.79 O
+ATOM 2159 N LEU B 53 37.582 -13.976 0.590 1.00 0.79 N
+ATOM 2160 CA LEU B 53 36.295 -14.649 0.569 1.00 0.79 C
+ATOM 2161 C LEU B 53 35.234 -13.888 1.353 1.00 0.79 C
+ATOM 2162 O LEU B 53 34.114 -13.688 0.886 1.00 0.79 O
+ATOM 2163 CB LEU B 53 36.396 -16.078 1.156 1.00 0.79 C
+ATOM 2164 CG LEU B 53 37.301 -17.065 0.390 1.00 0.79 C
+ATOM 2165 CD1 LEU B 53 37.366 -18.389 1.161 1.00 0.79 C
+ATOM 2166 CD2 LEU B 53 36.829 -17.325 -1.045 1.00 0.79 C
+ATOM 2167 N LEU B 54 35.578 -13.410 2.566 1.00 0.83 N
+ATOM 2168 CA LEU B 54 34.667 -12.658 3.409 1.00 0.83 C
+ATOM 2169 C LEU B 54 34.255 -11.318 2.818 1.00 0.83 C
+ATOM 2170 O LEU B 54 33.081 -10.958 2.833 1.00 0.83 O
+ATOM 2171 CB LEU B 54 35.269 -12.456 4.817 1.00 0.83 C
+ATOM 2172 CG LEU B 54 35.481 -13.762 5.609 1.00 0.83 C
+ATOM 2173 CD1 LEU B 54 36.288 -13.486 6.884 1.00 0.83 C
+ATOM 2174 CD2 LEU B 54 34.156 -14.435 5.982 1.00 0.83 C
+ATOM 2175 N THR B 55 35.212 -10.567 2.240 1.00 0.79 N
+ATOM 2176 CA THR B 55 34.950 -9.303 1.553 1.00 0.79 C
+ATOM 2177 C THR B 55 34.030 -9.476 0.363 1.00 0.79 C
+ATOM 2178 O THR B 55 33.003 -8.815 0.256 1.00 0.79 O
+ATOM 2179 CB THR B 55 36.245 -8.669 1.062 1.00 0.79 C
+ATOM 2180 OG1 THR B 55 37.075 -8.332 2.166 1.00 0.79 O
+ATOM 2181 CG2 THR B 55 36.005 -7.368 0.288 1.00 0.79 C
+ATOM 2182 N ASN B 56 34.317 -10.449 -0.530 1.00 0.81 N
+ATOM 2183 CA ASN B 56 33.490 -10.699 -1.697 1.00 0.81 C
+ATOM 2184 C ASN B 56 32.082 -11.167 -1.335 1.00 0.81 C
+ATOM 2185 O ASN B 56 31.103 -10.779 -1.972 1.00 0.81 O
+ATOM 2186 CB ASN B 56 34.204 -11.695 -2.645 1.00 0.81 C
+ATOM 2187 CG ASN B 56 33.425 -11.910 -3.934 1.00 0.81 C
+ATOM 2188 OD1 ASN B 56 32.694 -12.894 -4.067 1.00 0.81 O
+ATOM 2189 ND2 ASN B 56 33.540 -10.972 -4.892 1.00 0.81 N
+ATOM 2190 N LEU B 57 31.946 -12.004 -0.286 1.00 0.88 N
+ATOM 2191 CA LEU B 57 30.651 -12.404 0.227 1.00 0.88 C
+ATOM 2192 C LEU B 57 29.820 -11.225 0.711 1.00 0.88 C
+ATOM 2193 O LEU B 57 28.659 -11.082 0.334 1.00 0.88 O
+ATOM 2194 CB LEU B 57 30.859 -13.413 1.380 1.00 0.88 C
+ATOM 2195 CG LEU B 57 29.590 -13.913 2.094 1.00 0.88 C
+ATOM 2196 CD1 LEU B 57 28.657 -14.688 1.155 1.00 0.88 C
+ATOM 2197 CD2 LEU B 57 29.980 -14.795 3.286 1.00 0.88 C
+ATOM 2198 N ALA B 58 30.426 -10.310 1.492 1.00 0.87 N
+ATOM 2199 CA ALA B 58 29.774 -9.119 1.988 1.00 0.87 C
+ATOM 2200 C ALA B 58 29.328 -8.162 0.889 1.00 0.87 C
+ATOM 2201 O ALA B 58 28.203 -7.659 0.901 1.00 0.87 O
+ATOM 2202 CB ALA B 58 30.730 -8.415 2.963 1.00 0.87 C
+ATOM 2203 N ASP B 59 30.185 -7.946 -0.128 1.00 0.80 N
+ATOM 2204 CA ASP B 59 29.874 -7.148 -1.296 1.00 0.80 C
+ATOM 2205 C ASP B 59 28.684 -7.707 -2.076 1.00 0.80 C
+ATOM 2206 O ASP B 59 27.767 -6.988 -2.476 1.00 0.80 O
+ATOM 2207 CB ASP B 59 31.107 -7.118 -2.234 1.00 0.80 C
+ATOM 2208 CG ASP B 59 32.297 -6.380 -1.633 1.00 0.80 C
+ATOM 2209 OD1 ASP B 59 32.101 -5.563 -0.701 1.00 0.80 O
+ATOM 2210 OD2 ASP B 59 33.422 -6.626 -2.146 1.00 0.80 O
+ATOM 2211 N ARG B 60 28.642 -9.041 -2.278 1.00 0.79 N
+ATOM 2212 CA ARG B 60 27.497 -9.705 -2.870 1.00 0.79 C
+ATOM 2213 C ARG B 60 26.238 -9.672 -1.998 1.00 0.79 C
+ATOM 2214 O ARG B 60 25.141 -9.447 -2.510 1.00 0.79 O
+ATOM 2215 CB ARG B 60 27.833 -11.152 -3.313 1.00 0.79 C
+ATOM 2216 CG ARG B 60 28.730 -11.225 -4.571 1.00 0.79 C
+ATOM 2217 CD ARG B 60 29.000 -12.646 -5.093 1.00 0.79 C
+ATOM 2218 NE ARG B 60 29.998 -13.286 -4.189 1.00 0.79 N
+ATOM 2219 CZ ARG B 60 29.814 -14.354 -3.408 1.00 0.79 C
+ATOM 2220 NH1 ARG B 60 28.637 -14.936 -3.260 1.00 0.79 N
+ATOM 2221 NH2 ARG B 60 30.866 -14.870 -2.779 1.00 0.79 N
+ATOM 2222 N GLU B 61 26.348 -9.859 -0.660 1.00 0.87 N
+ATOM 2223 CA GLU B 61 25.229 -9.751 0.276 1.00 0.87 C
+ATOM 2224 C GLU B 61 24.576 -8.359 0.256 1.00 0.87 C
+ATOM 2225 O GLU B 61 23.356 -8.231 0.381 1.00 0.87 O
+ATOM 2226 CB GLU B 61 25.595 -10.148 1.748 1.00 0.87 C
+ATOM 2227 CG GLU B 61 25.690 -11.679 2.063 1.00 0.87 C
+ATOM 2228 CD GLU B 61 25.910 -12.047 3.550 1.00 0.87 C
+ATOM 2229 OE1 GLU B 61 27.030 -11.795 4.059 1.00 0.87 O
+ATOM 2230 OE2 GLU B 61 24.994 -12.635 4.204 1.00 0.87 O
+ATOM 2231 N LEU B 62 25.358 -7.274 0.049 1.00 0.86 N
+ATOM 2232 CA LEU B 62 24.870 -5.900 0.017 1.00 0.86 C
+ATOM 2233 C LEU B 62 23.781 -5.629 -1.015 1.00 0.86 C
+ATOM 2234 O LEU B 62 22.785 -4.969 -0.725 1.00 0.86 O
+ATOM 2235 CB LEU B 62 26.046 -4.923 -0.226 1.00 0.86 C
+ATOM 2236 CG LEU B 62 25.712 -3.421 -0.084 1.00 0.86 C
+ATOM 2237 CD1 LEU B 62 25.335 -3.046 1.356 1.00 0.86 C
+ATOM 2238 CD2 LEU B 62 26.897 -2.559 -0.538 1.00 0.86 C
+ATOM 2239 N VAL B 63 23.893 -6.172 -2.244 1.00 0.80 N
+ATOM 2240 CA VAL B 63 22.882 -5.986 -3.283 1.00 0.80 C
+ATOM 2241 C VAL B 63 21.528 -6.549 -2.866 1.00 0.80 C
+ATOM 2242 O VAL B 63 20.474 -5.928 -3.018 1.00 0.80 O
+ATOM 2243 CB VAL B 63 23.307 -6.609 -4.611 1.00 0.80 C
+ATOM 2244 CG1 VAL B 63 22.378 -6.133 -5.749 1.00 0.80 C
+ATOM 2245 CG2 VAL B 63 24.761 -6.211 -4.933 1.00 0.80 C
+ATOM 2246 N HIS B 64 21.541 -7.744 -2.250 1.00 0.85 N
+ATOM 2247 CA HIS B 64 20.360 -8.366 -1.689 1.00 0.85 C
+ATOM 2248 C HIS B 64 19.775 -7.612 -0.509 1.00 0.85 C
+ATOM 2249 O HIS B 64 18.559 -7.535 -0.347 1.00 0.85 O
+ATOM 2250 CB HIS B 64 20.650 -9.821 -1.301 1.00 0.85 C
+ATOM 2251 CG HIS B 64 20.970 -10.637 -2.511 1.00 0.85 C
+ATOM 2252 ND1 HIS B 64 19.949 -11.027 -3.358 1.00 0.85 N
+ATOM 2253 CD2 HIS B 64 22.168 -11.044 -2.999 1.00 0.85 C
+ATOM 2254 CE1 HIS B 64 20.549 -11.672 -4.340 1.00 0.85 C
+ATOM 2255 NE2 HIS B 64 21.894 -11.710 -4.174 1.00 0.85 N
+ATOM 2256 N MET B 65 20.628 -7.005 0.335 1.00 0.87 N
+ATOM 2257 CA MET B 65 20.209 -6.153 1.430 1.00 0.87 C
+ATOM 2258 C MET B 65 19.426 -4.926 0.990 1.00 0.87 C
+ATOM 2259 O MET B 65 18.410 -4.584 1.588 1.00 0.87 O
+ATOM 2260 CB MET B 65 21.438 -5.712 2.243 1.00 0.87 C
+ATOM 2261 CG MET B 65 21.110 -4.952 3.539 1.00 0.87 C
+ATOM 2262 SD MET B 65 22.549 -4.128 4.274 1.00 0.87 S
+ATOM 2263 CE MET B 65 23.563 -5.607 4.536 1.00 0.87 C
+ATOM 2264 N ILE B 66 19.843 -4.253 -0.098 1.00 0.87 N
+ATOM 2265 CA ILE B 66 19.094 -3.142 -0.675 1.00 0.87 C
+ATOM 2266 C ILE B 66 17.719 -3.594 -1.160 1.00 0.87 C
+ATOM 2267 O ILE B 66 16.703 -2.939 -0.923 1.00 0.87 O
+ATOM 2268 CB ILE B 66 19.891 -2.447 -1.782 1.00 0.87 C
+ATOM 2269 CG1 ILE B 66 20.865 -1.382 -1.229 1.00 0.87 C
+ATOM 2270 CG2 ILE B 66 18.954 -1.707 -2.759 1.00 0.87 C
+ATOM 2271 CD1 ILE B 66 21.978 -1.901 -0.320 1.00 0.87 C
+ATOM 2272 N ASN B 67 17.642 -4.769 -1.814 1.00 0.85 N
+ATOM 2273 CA ASN B 67 16.380 -5.365 -2.211 1.00 0.85 C
+ATOM 2274 C ASN B 67 15.477 -5.719 -1.026 1.00 0.85 C
+ATOM 2275 O ASN B 67 14.267 -5.513 -1.082 1.00 0.85 O
+ATOM 2276 CB ASN B 67 16.613 -6.617 -3.088 1.00 0.85 C
+ATOM 2277 CG ASN B 67 17.230 -6.238 -4.433 1.00 0.85 C
+ATOM 2278 OD1 ASN B 67 17.116 -5.117 -4.933 1.00 0.85 O
+ATOM 2279 ND2 ASN B 67 17.870 -7.242 -5.078 1.00 0.85 N
+ATOM 2280 N TRP B 68 16.044 -6.250 0.079 1.00 0.87 N
+ATOM 2281 CA TRP B 68 15.332 -6.478 1.327 1.00 0.87 C
+ATOM 2282 C TRP B 68 14.817 -5.191 1.955 1.00 0.87 C
+ATOM 2283 O TRP B 68 13.659 -5.112 2.356 1.00 0.87 O
+ATOM 2284 CB TRP B 68 16.252 -7.248 2.321 1.00 0.87 C
+ATOM 2285 CG TRP B 68 15.777 -7.325 3.771 1.00 0.87 C
+ATOM 2286 CD1 TRP B 68 14.846 -8.150 4.332 1.00 0.87 C
+ATOM 2287 CD2 TRP B 68 16.196 -6.412 4.793 1.00 0.87 C
+ATOM 2288 NE1 TRP B 68 14.646 -7.803 5.643 1.00 0.87 N
+ATOM 2289 CE2 TRP B 68 15.430 -6.725 5.955 1.00 0.87 C
+ATOM 2290 CE3 TRP B 68 17.128 -5.381 4.813 1.00 0.87 C
+ATOM 2291 CZ2 TRP B 68 15.587 -5.996 7.116 1.00 0.87 C
+ATOM 2292 CZ3 TRP B 68 17.282 -4.651 5.994 1.00 0.87 C
+ATOM 2293 CH2 TRP B 68 16.509 -4.943 7.129 1.00 0.87 C
+ATOM 2294 N ALA B 69 15.651 -4.135 2.008 1.00 0.93 N
+ATOM 2295 CA ALA B 69 15.303 -2.870 2.612 1.00 0.93 C
+ATOM 2296 C ALA B 69 14.116 -2.210 1.938 1.00 0.93 C
+ATOM 2297 O ALA B 69 13.190 -1.742 2.591 1.00 0.93 O
+ATOM 2298 CB ALA B 69 16.528 -1.944 2.579 1.00 0.93 C
+ATOM 2299 N LYS B 70 14.060 -2.260 0.595 1.00 0.86 N
+ATOM 2300 CA LYS B 70 12.948 -1.739 -0.180 1.00 0.86 C
+ATOM 2301 C LYS B 70 11.628 -2.478 0.047 1.00 0.86 C
+ATOM 2302 O LYS B 70 10.570 -1.983 -0.329 1.00 0.86 O
+ATOM 2303 CB LYS B 70 13.302 -1.744 -1.691 1.00 0.86 C
+ATOM 2304 CG LYS B 70 14.400 -0.727 -2.052 1.00 0.86 C
+ATOM 2305 CD LYS B 70 15.121 -1.003 -3.387 1.00 0.86 C
+ATOM 2306 CE LYS B 70 14.295 -0.758 -4.655 1.00 0.86 C
+ATOM 2307 NZ LYS B 70 15.172 -0.879 -5.841 1.00 0.86 N
+ATOM 2308 N ARG B 71 11.653 -3.666 0.687 1.00 0.84 N
+ATOM 2309 CA ARG B 71 10.453 -4.382 1.071 1.00 0.84 C
+ATOM 2310 C ARG B 71 10.147 -4.282 2.563 1.00 0.84 C
+ATOM 2311 O ARG B 71 9.155 -4.838 3.034 1.00 0.84 O
+ATOM 2312 CB ARG B 71 10.571 -5.877 0.697 1.00 0.84 C
+ATOM 2313 CG ARG B 71 10.585 -6.145 -0.819 1.00 0.84 C
+ATOM 2314 CD ARG B 71 10.557 -7.637 -1.166 1.00 0.84 C
+ATOM 2315 NE ARG B 71 11.821 -8.253 -0.647 1.00 0.84 N
+ATOM 2316 CZ ARG B 71 12.920 -8.499 -1.370 1.00 0.84 C
+ATOM 2317 NH1 ARG B 71 13.011 -8.098 -2.634 1.00 0.84 N
+ATOM 2318 NH2 ARG B 71 13.935 -9.166 -0.824 1.00 0.84 N
+ATOM 2319 N VAL B 72 10.952 -3.547 3.357 1.00 0.92 N
+ATOM 2320 CA VAL B 72 10.612 -3.227 4.736 1.00 0.92 C
+ATOM 2321 C VAL B 72 9.437 -2.244 4.751 1.00 0.92 C
+ATOM 2322 O VAL B 72 9.552 -1.196 4.108 1.00 0.92 O
+ATOM 2323 CB VAL B 72 11.800 -2.660 5.510 1.00 0.92 C
+ATOM 2324 CG1 VAL B 72 11.379 -2.155 6.906 1.00 0.92 C
+ATOM 2325 CG2 VAL B 72 12.870 -3.758 5.658 1.00 0.92 C
+ATOM 2326 N PRO B 73 8.292 -2.492 5.408 1.00 0.92 N
+ATOM 2327 CA PRO B 73 7.117 -1.635 5.293 1.00 0.92 C
+ATOM 2328 C PRO B 73 7.370 -0.168 5.591 1.00 0.92 C
+ATOM 2329 O PRO B 73 7.821 0.170 6.683 1.00 0.92 O
+ATOM 2330 CB PRO B 73 6.097 -2.271 6.250 1.00 0.92 C
+ATOM 2331 CG PRO B 73 6.448 -3.761 6.212 1.00 0.92 C
+ATOM 2332 CD PRO B 73 7.972 -3.751 6.088 1.00 0.92 C
+ATOM 2333 N GLY B 74 7.082 0.715 4.620 1.00 0.89 N
+ATOM 2334 CA GLY B 74 7.289 2.148 4.752 1.00 0.89 C
+ATOM 2335 C GLY B 74 8.687 2.657 4.532 1.00 0.89 C
+ATOM 2336 O GLY B 74 8.937 3.849 4.681 1.00 0.89 O
+ATOM 2337 N PHE B 75 9.658 1.797 4.165 1.00 0.89 N
+ATOM 2338 CA PHE B 75 11.008 2.240 3.857 1.00 0.89 C
+ATOM 2339 C PHE B 75 11.074 3.069 2.586 1.00 0.89 C
+ATOM 2340 O PHE B 75 11.739 4.096 2.531 1.00 0.89 O
+ATOM 2341 CB PHE B 75 11.951 1.015 3.766 1.00 0.89 C
+ATOM 2342 CG PHE B 75 13.400 1.383 3.577 1.00 0.89 C
+ATOM 2343 CD1 PHE B 75 14.198 1.750 4.671 1.00 0.89 C
+ATOM 2344 CD2 PHE B 75 13.978 1.338 2.297 1.00 0.89 C
+ATOM 2345 CE1 PHE B 75 15.553 2.060 4.490 1.00 0.89 C
+ATOM 2346 CE2 PHE B 75 15.332 1.635 2.115 1.00 0.89 C
+ATOM 2347 CZ PHE B 75 16.121 1.997 3.213 1.00 0.89 C
+ATOM 2348 N VAL B 76 10.357 2.660 1.524 1.00 0.86 N
+ATOM 2349 CA VAL B 76 10.425 3.354 0.248 1.00 0.86 C
+ATOM 2350 C VAL B 76 9.656 4.654 0.235 1.00 0.86 C
+ATOM 2351 O VAL B 76 9.871 5.496 -0.634 1.00 0.86 O
+ATOM 2352 CB VAL B 76 9.965 2.501 -0.919 1.00 0.86 C
+ATOM 2353 CG1 VAL B 76 10.970 1.353 -1.104 1.00 0.86 C
+ATOM 2354 CG2 VAL B 76 8.541 1.967 -0.682 1.00 0.86 C
+ATOM 2355 N ASP B 77 8.767 4.848 1.226 1.00 0.86 N
+ATOM 2356 CA ASP B 77 8.078 6.095 1.440 1.00 0.86 C
+ATOM 2357 C ASP B 77 8.984 7.152 2.061 1.00 0.86 C
+ATOM 2358 O ASP B 77 8.754 8.344 1.880 1.00 0.86 O
+ATOM 2359 CB ASP B 77 6.861 5.876 2.364 1.00 0.86 C
+ATOM 2360 CG ASP B 77 5.955 4.790 1.811 1.00 0.86 C
+ATOM 2361 OD1 ASP B 77 5.560 4.870 0.625 1.00 0.86 O
+ATOM 2362 OD2 ASP B 77 5.649 3.847 2.585 1.00 0.86 O
+ATOM 2363 N LEU B 78 10.059 6.734 2.776 1.00 0.83 N
+ATOM 2364 CA LEU B 78 11.107 7.627 3.240 1.00 0.83 C
+ATOM 2365 C LEU B 78 11.844 8.253 2.067 1.00 0.83 C
+ATOM 2366 O LEU B 78 11.978 7.640 1.006 1.00 0.83 O
+ATOM 2367 CB LEU B 78 12.197 6.924 4.103 1.00 0.83 C
+ATOM 2368 CG LEU B 78 11.731 6.130 5.339 1.00 0.83 C
+ATOM 2369 CD1 LEU B 78 12.924 5.385 5.950 1.00 0.83 C
+ATOM 2370 CD2 LEU B 78 11.118 7.037 6.400 1.00 0.83 C
+ATOM 2371 N THR B 79 12.385 9.483 2.193 1.00 0.78 N
+ATOM 2372 CA THR B 79 13.222 10.078 1.149 1.00 0.78 C
+ATOM 2373 C THR B 79 14.408 9.224 0.752 1.00 0.78 C
+ATOM 2374 O THR B 79 14.969 8.500 1.568 1.00 0.78 O
+ATOM 2375 CB THR B 79 13.699 11.533 1.325 1.00 0.78 C
+ATOM 2376 OG1 THR B 79 14.972 11.759 1.900 1.00 0.78 O
+ATOM 2377 CG2 THR B 79 12.634 12.427 1.947 1.00 0.78 C
+ATOM 2378 N LEU B 80 14.855 9.288 -0.524 1.00 0.77 N
+ATOM 2379 CA LEU B 80 16.001 8.532 -1.009 1.00 0.77 C
+ATOM 2380 C LEU B 80 17.282 8.829 -0.240 1.00 0.77 C
+ATOM 2381 O LEU B 80 18.098 7.947 -0.006 1.00 0.77 O
+ATOM 2382 CB LEU B 80 16.220 8.782 -2.523 1.00 0.77 C
+ATOM 2383 CG LEU B 80 15.103 8.239 -3.446 1.00 0.77 C
+ATOM 2384 CD1 LEU B 80 15.307 8.685 -4.904 1.00 0.77 C
+ATOM 2385 CD2 LEU B 80 15.036 6.707 -3.418 1.00 0.77 C
+ATOM 2386 N HIS B 81 17.472 10.082 0.223 1.00 0.70 N
+ATOM 2387 CA HIS B 81 18.582 10.439 1.096 1.00 0.70 C
+ATOM 2388 C HIS B 81 18.574 9.683 2.426 1.00 0.70 C
+ATOM 2389 O HIS B 81 19.557 9.062 2.822 1.00 0.70 O
+ATOM 2390 CB HIS B 81 18.516 11.959 1.373 1.00 0.70 C
+ATOM 2391 CG HIS B 81 19.464 12.436 2.415 1.00 0.70 C
+ATOM 2392 ND1 HIS B 81 20.809 12.227 2.222 1.00 0.70 N
+ATOM 2393 CD2 HIS B 81 19.227 12.934 3.653 1.00 0.70 C
+ATOM 2394 CE1 HIS B 81 21.374 12.589 3.355 1.00 0.70 C
+ATOM 2395 NE2 HIS B 81 20.461 13.031 4.258 1.00 0.70 N
+ATOM 2396 N ASP B 82 17.418 9.656 3.112 1.00 0.79 N
+ATOM 2397 CA ASP B 82 17.214 8.923 4.340 1.00 0.79 C
+ATOM 2398 C ASP B 82 17.343 7.417 4.148 1.00 0.79 C
+ATOM 2399 O ASP B 82 17.959 6.723 4.956 1.00 0.79 O
+ATOM 2400 CB ASP B 82 15.850 9.325 4.933 1.00 0.79 C
+ATOM 2401 CG ASP B 82 15.886 10.806 5.296 1.00 0.79 C
+ATOM 2402 OD1 ASP B 82 16.415 11.144 6.384 1.00 0.79 O
+ATOM 2403 OD2 ASP B 82 15.445 11.627 4.443 1.00 0.79 O
+ATOM 2404 N GLN B 83 16.838 6.874 3.021 1.00 0.84 N
+ATOM 2405 CA GLN B 83 17.067 5.488 2.649 1.00 0.84 C
+ATOM 2406 C GLN B 83 18.550 5.137 2.503 1.00 0.84 C
+ATOM 2407 O GLN B 83 19.007 4.131 3.044 1.00 0.84 O
+ATOM 2408 CB GLN B 83 16.331 5.123 1.336 1.00 0.84 C
+ATOM 2409 CG GLN B 83 14.789 5.155 1.439 1.00 0.84 C
+ATOM 2410 CD GLN B 83 14.149 4.784 0.100 1.00 0.84 C
+ATOM 2411 OE1 GLN B 83 14.495 3.782 -0.536 1.00 0.84 O
+ATOM 2412 NE2 GLN B 83 13.186 5.608 -0.363 1.00 0.84 N
+ATOM 2413 N VAL B 84 19.359 5.983 1.824 1.00 0.83 N
+ATOM 2414 CA VAL B 84 20.807 5.797 1.743 1.00 0.83 C
+ATOM 2415 C VAL B 84 21.480 5.897 3.107 1.00 0.83 C
+ATOM 2416 O VAL B 84 22.242 5.015 3.492 1.00 0.83 O
+ATOM 2417 CB VAL B 84 21.452 6.786 0.769 1.00 0.83 C
+ATOM 2418 CG1 VAL B 84 22.990 6.690 0.777 1.00 0.83 C
+ATOM 2419 CG2 VAL B 84 20.955 6.517 -0.662 1.00 0.83 C
+ATOM 2420 N HIS B 85 21.144 6.927 3.910 1.00 0.79 N
+ATOM 2421 CA HIS B 85 21.735 7.172 5.220 1.00 0.79 C
+ATOM 2422 C HIS B 85 21.503 6.040 6.208 1.00 0.79 C
+ATOM 2423 O HIS B 85 22.398 5.613 6.937 1.00 0.79 O
+ATOM 2424 CB HIS B 85 21.158 8.485 5.801 1.00 0.79 C
+ATOM 2425 CG HIS B 85 21.676 8.884 7.151 1.00 0.79 C
+ATOM 2426 ND1 HIS B 85 22.970 9.339 7.273 1.00 0.79 N
+ATOM 2427 CD2 HIS B 85 21.065 8.886 8.364 1.00 0.79 C
+ATOM 2428 CE1 HIS B 85 23.130 9.608 8.547 1.00 0.79 C
+ATOM 2429 NE2 HIS B 85 22.005 9.352 9.261 1.00 0.79 N
+ATOM 2430 N LEU B 86 20.279 5.472 6.232 1.00 0.84 N
+ATOM 2431 CA LEU B 86 19.988 4.306 7.043 1.00 0.84 C
+ATOM 2432 C LEU B 86 20.807 3.085 6.644 1.00 0.84 C
+ATOM 2433 O LEU B 86 21.331 2.371 7.498 1.00 0.84 O
+ATOM 2434 CB LEU B 86 18.486 3.954 7.003 1.00 0.84 C
+ATOM 2435 CG LEU B 86 17.555 4.971 7.697 1.00 0.84 C
+ATOM 2436 CD1 LEU B 86 16.101 4.521 7.514 1.00 0.84 C
+ATOM 2437 CD2 LEU B 86 17.862 5.158 9.192 1.00 0.84 C
+ATOM 2438 N LEU B 87 20.977 2.830 5.332 1.00 0.87 N
+ATOM 2439 CA LEU B 87 21.838 1.771 4.835 1.00 0.87 C
+ATOM 2440 C LEU B 87 23.320 1.994 5.123 1.00 0.87 C
+ATOM 2441 O LEU B 87 24.014 1.065 5.533 1.00 0.87 O
+ATOM 2442 CB LEU B 87 21.614 1.546 3.325 1.00 0.87 C
+ATOM 2443 CG LEU B 87 20.245 0.926 2.980 1.00 0.87 C
+ATOM 2444 CD1 LEU B 87 19.951 1.112 1.489 1.00 0.87 C
+ATOM 2445 CD2 LEU B 87 20.169 -0.566 3.338 1.00 0.87 C
+ATOM 2446 N GLU B 88 23.834 3.236 4.966 1.00 0.82 N
+ATOM 2447 CA GLU B 88 25.206 3.609 5.287 1.00 0.82 C
+ATOM 2448 C GLU B 88 25.534 3.359 6.752 1.00 0.82 C
+ATOM 2449 O GLU B 88 26.584 2.823 7.097 1.00 0.82 O
+ATOM 2450 CB GLU B 88 25.474 5.113 4.983 1.00 0.82 C
+ATOM 2451 CG GLU B 88 25.610 5.474 3.477 1.00 0.82 C
+ATOM 2452 CD GLU B 88 25.821 6.968 3.176 1.00 0.82 C
+ATOM 2453 OE1 GLU B 88 25.572 7.785 4.094 1.00 0.82 O
+ATOM 2454 OE2 GLU B 88 26.226 7.302 2.024 1.00 0.82 O
+ATOM 2455 N SER B 89 24.608 3.719 7.658 1.00 0.84 N
+ATOM 2456 CA SER B 89 24.751 3.437 9.077 1.00 0.84 C
+ATOM 2457 C SER B 89 24.565 1.963 9.454 1.00 0.84 C
+ATOM 2458 O SER B 89 25.331 1.410 10.238 1.00 0.84 O
+ATOM 2459 CB SER B 89 23.821 4.350 9.915 1.00 0.84 C
+ATOM 2460 OG SER B 89 24.286 4.473 11.259 1.00 0.84 O
+ATOM 2461 N ALA B 90 23.556 1.259 8.885 1.00 0.92 N
+ATOM 2462 CA ALA B 90 23.189 -0.072 9.347 1.00 0.92 C
+ATOM 2463 C ALA B 90 23.855 -1.269 8.682 1.00 0.92 C
+ATOM 2464 O ALA B 90 23.731 -2.385 9.183 1.00 0.92 O
+ATOM 2465 CB ALA B 90 21.684 -0.310 9.099 1.00 0.92 C
+ATOM 2466 N TRP B 91 24.552 -1.135 7.533 1.00 0.88 N
+ATOM 2467 CA TRP B 91 24.865 -2.303 6.707 1.00 0.88 C
+ATOM 2468 C TRP B 91 25.657 -3.416 7.395 1.00 0.88 C
+ATOM 2469 O TRP B 91 25.316 -4.592 7.289 1.00 0.88 O
+ATOM 2470 CB TRP B 91 25.561 -1.914 5.372 1.00 0.88 C
+ATOM 2471 CG TRP B 91 26.962 -1.348 5.517 1.00 0.88 C
+ATOM 2472 CD1 TRP B 91 27.319 -0.073 5.831 1.00 0.88 C
+ATOM 2473 CD2 TRP B 91 28.174 -2.110 5.436 1.00 0.88 C
+ATOM 2474 NE1 TRP B 91 28.679 0.011 5.989 1.00 0.88 N
+ATOM 2475 CE2 TRP B 91 29.236 -1.216 5.746 1.00 0.88 C
+ATOM 2476 CE3 TRP B 91 28.426 -3.443 5.139 1.00 0.88 C
+ATOM 2477 CZ2 TRP B 91 30.547 -1.652 5.753 1.00 0.88 C
+ATOM 2478 CZ3 TRP B 91 29.756 -3.877 5.152 1.00 0.88 C
+ATOM 2479 CH2 TRP B 91 30.804 -2.994 5.455 1.00 0.88 C
+ATOM 2480 N LEU B 92 26.706 -3.075 8.165 1.00 0.91 N
+ATOM 2481 CA LEU B 92 27.474 -4.056 8.902 1.00 0.91 C
+ATOM 2482 C LEU B 92 26.690 -4.715 10.032 1.00 0.91 C
+ATOM 2483 O LEU B 92 26.786 -5.922 10.237 1.00 0.91 O
+ATOM 2484 CB LEU B 92 28.813 -3.455 9.371 1.00 0.91 C
+ATOM 2485 CG LEU B 92 29.812 -4.467 9.969 1.00 0.91 C
+ATOM 2486 CD1 LEU B 92 30.158 -5.594 8.985 1.00 0.91 C
+ATOM 2487 CD2 LEU B 92 31.101 -3.756 10.390 1.00 0.91 C
+ATOM 2488 N GLU B 93 25.823 -3.963 10.749 1.00 0.91 N
+ATOM 2489 CA GLU B 93 24.922 -4.531 11.742 1.00 0.91 C
+ATOM 2490 C GLU B 93 23.981 -5.573 11.147 1.00 0.91 C
+ATOM 2491 O GLU B 93 23.780 -6.652 11.703 1.00 0.91 O
+ATOM 2492 CB GLU B 93 24.026 -3.461 12.413 1.00 0.91 C
+ATOM 2493 CG GLU B 93 24.752 -2.396 13.260 1.00 0.91 C
+ATOM 2494 CD GLU B 93 23.763 -1.431 13.914 1.00 0.91 C
+ATOM 2495 OE1 GLU B 93 23.492 -1.603 15.131 1.00 0.91 O
+ATOM 2496 OE2 GLU B 93 23.288 -0.501 13.217 1.00 0.91 O
+ATOM 2497 N ILE B 94 23.411 -5.284 9.961 1.00 0.95 N
+ATOM 2498 CA ILE B 94 22.545 -6.194 9.230 1.00 0.95 C
+ATOM 2499 C ILE B 94 23.270 -7.453 8.763 1.00 0.95 C
+ATOM 2500 O ILE B 94 22.752 -8.564 8.898 1.00 0.95 O
+ATOM 2501 CB ILE B 94 21.858 -5.478 8.073 1.00 0.95 C
+ATOM 2502 CG1 ILE B 94 21.021 -4.267 8.559 1.00 0.95 C
+ATOM 2503 CG2 ILE B 94 20.968 -6.440 7.260 1.00 0.95 C
+ATOM 2504 CD1 ILE B 94 19.808 -4.612 9.427 1.00 0.95 C
+ATOM 2505 N LEU B 95 24.517 -7.331 8.249 1.00 0.94 N
+ATOM 2506 CA LEU B 95 25.336 -8.498 7.938 1.00 0.94 C
+ATOM 2507 C LEU B 95 25.641 -9.338 9.175 1.00 0.94 C
+ATOM 2508 O LEU B 95 25.487 -10.560 9.181 1.00 0.94 O
+ATOM 2509 CB LEU B 95 26.689 -8.120 7.278 1.00 0.94 C
+ATOM 2510 CG LEU B 95 26.613 -7.471 5.880 1.00 0.94 C
+ATOM 2511 CD1 LEU B 95 28.026 -7.126 5.391 1.00 0.94 C
+ATOM 2512 CD2 LEU B 95 25.935 -8.374 4.844 1.00 0.94 C
+ATOM 2513 N MET B 96 26.029 -8.689 10.291 1.00 0.93 N
+ATOM 2514 CA MET B 96 26.323 -9.361 11.539 1.00 0.93 C
+ATOM 2515 C MET B 96 25.134 -10.068 12.160 1.00 0.93 C
+ATOM 2516 O MET B 96 25.248 -11.216 12.580 1.00 0.93 O
+ATOM 2517 CB MET B 96 26.930 -8.378 12.559 1.00 0.93 C
+ATOM 2518 CG MET B 96 28.374 -7.975 12.225 1.00 0.93 C
+ATOM 2519 SD MET B 96 29.052 -6.830 13.453 1.00 0.93 S
+ATOM 2520 CE MET B 96 30.768 -6.966 12.886 1.00 0.93 C
+ATOM 2521 N ILE B 97 23.935 -9.453 12.204 1.00 0.94 N
+ATOM 2522 CA ILE B 97 22.758 -10.144 12.719 1.00 0.94 C
+ATOM 2523 C ILE B 97 22.362 -11.333 11.846 1.00 0.94 C
+ATOM 2524 O ILE B 97 21.953 -12.383 12.343 1.00 0.94 O
+ATOM 2525 CB ILE B 97 21.580 -9.228 13.056 1.00 0.94 C
+ATOM 2526 CG1 ILE B 97 20.652 -9.926 14.083 1.00 0.94 C
+ATOM 2527 CG2 ILE B 97 20.831 -8.796 11.783 1.00 0.94 C
+ATOM 2528 CD1 ILE B 97 19.365 -9.170 14.430 1.00 0.94 C
+ATOM 2529 N GLY B 98 22.535 -11.230 10.507 1.00 0.96 N
+ATOM 2530 CA GLY B 98 22.324 -12.361 9.610 1.00 0.96 C
+ATOM 2531 C GLY B 98 23.307 -13.488 9.803 1.00 0.96 C
+ATOM 2532 O GLY B 98 22.927 -14.654 9.784 1.00 0.96 O
+ATOM 2533 N LEU B 99 24.589 -13.177 10.056 1.00 0.94 N
+ATOM 2534 CA LEU B 99 25.588 -14.156 10.443 1.00 0.94 C
+ATOM 2535 C LEU B 99 25.259 -14.850 11.754 1.00 0.94 C
+ATOM 2536 O LEU B 99 25.363 -16.069 11.883 1.00 0.94 O
+ATOM 2537 CB LEU B 99 26.958 -13.456 10.578 1.00 0.94 C
+ATOM 2538 CG LEU B 99 28.102 -14.320 11.143 1.00 0.94 C
+ATOM 2539 CD1 LEU B 99 28.435 -15.486 10.212 1.00 0.94 C
+ATOM 2540 CD2 LEU B 99 29.350 -13.463 11.362 1.00 0.94 C
+ATOM 2541 N VAL B 100 24.823 -14.088 12.772 1.00 0.94 N
+ATOM 2542 CA VAL B 100 24.451 -14.618 14.072 1.00 0.94 C
+ATOM 2543 C VAL B 100 23.276 -15.580 13.971 1.00 0.94 C
+ATOM 2544 O VAL B 100 23.296 -16.660 14.557 1.00 0.94 O
+ATOM 2545 CB VAL B 100 24.185 -13.483 15.054 1.00 0.94 C
+ATOM 2546 CG1 VAL B 100 23.607 -14.005 16.374 1.00 0.94 C
+ATOM 2547 CG2 VAL B 100 25.506 -12.750 15.362 1.00 0.94 C
+ATOM 2548 N TRP B 101 22.251 -15.238 13.164 1.00 0.90 N
+ATOM 2549 CA TRP B 101 21.140 -16.122 12.862 1.00 0.90 C
+ATOM 2550 C TRP B 101 21.554 -17.409 12.155 1.00 0.90 C
+ATOM 2551 O TRP B 101 21.159 -18.501 12.555 1.00 0.90 O
+ATOM 2552 CB TRP B 101 20.099 -15.338 12.025 1.00 0.90 C
+ATOM 2553 CG TRP B 101 18.894 -16.131 11.533 1.00 0.90 C
+ATOM 2554 CD1 TRP B 101 18.665 -16.629 10.280 1.00 0.90 C
+ATOM 2555 CD2 TRP B 101 17.809 -16.553 12.358 1.00 0.90 C
+ATOM 2556 NE1 TRP B 101 17.500 -17.352 10.275 1.00 0.90 N
+ATOM 2557 CE2 TRP B 101 16.955 -17.347 11.529 1.00 0.90 C
+ATOM 2558 CE3 TRP B 101 17.505 -16.344 13.694 1.00 0.90 C
+ATOM 2559 CZ2 TRP B 101 15.820 -17.932 12.049 1.00 0.90 C
+ATOM 2560 CZ3 TRP B 101 16.356 -16.947 14.211 1.00 0.90 C
+ATOM 2561 CH2 TRP B 101 15.527 -17.742 13.402 1.00 0.90 C
+ATOM 2562 N ARG B 102 22.421 -17.341 11.124 1.00 0.86 N
+ATOM 2563 CA ARG B 102 22.891 -18.535 10.439 1.00 0.86 C
+ATOM 2564 C ARG B 102 23.680 -19.476 11.340 1.00 0.86 C
+ATOM 2565 O ARG B 102 23.661 -20.693 11.183 1.00 0.86 O
+ATOM 2566 CB ARG B 102 23.756 -18.171 9.212 1.00 0.86 C
+ATOM 2567 CG ARG B 102 22.976 -17.478 8.080 1.00 0.86 C
+ATOM 2568 CD ARG B 102 23.788 -17.284 6.791 1.00 0.86 C
+ATOM 2569 NE ARG B 102 25.020 -16.449 7.047 1.00 0.86 N
+ATOM 2570 CZ ARG B 102 25.180 -15.180 6.619 1.00 0.86 C
+ATOM 2571 NH1 ARG B 102 24.151 -14.395 6.335 1.00 0.86 N
+ATOM 2572 NH2 ARG B 102 26.391 -14.679 6.411 1.00 0.86 N
+ATOM 2573 N SER B 103 24.377 -18.918 12.340 1.00 0.92 N
+ATOM 2574 CA SER B 103 25.258 -19.665 13.214 1.00 0.92 C
+ATOM 2575 C SER B 103 24.549 -20.200 14.436 1.00 0.92 C
+ATOM 2576 O SER B 103 25.162 -20.852 15.279 1.00 0.92 O
+ATOM 2577 CB SER B 103 26.378 -18.738 13.739 1.00 0.92 C
+ATOM 2578 OG SER B 103 27.101 -18.167 12.652 1.00 0.92 O
+ATOM 2579 N MET B 104 23.233 -19.957 14.573 1.00 0.88 N
+ATOM 2580 CA MET B 104 22.477 -20.211 15.787 1.00 0.88 C
+ATOM 2581 C MET B 104 22.486 -21.672 16.208 1.00 0.88 C
+ATOM 2582 O MET B 104 22.702 -22.003 17.376 1.00 0.88 O
+ATOM 2583 CB MET B 104 21.039 -19.687 15.594 1.00 0.88 C
+ATOM 2584 CG MET B 104 20.211 -19.540 16.879 1.00 0.88 C
+ATOM 2585 SD MET B 104 18.662 -18.641 16.567 1.00 0.88 S
+ATOM 2586 CE MET B 104 17.606 -19.672 17.616 1.00 0.88 C
+ATOM 2587 N GLU B 105 22.349 -22.585 15.232 1.00 0.85 N
+ATOM 2588 CA GLU B 105 22.303 -24.013 15.462 1.00 0.85 C
+ATOM 2589 C GLU B 105 23.678 -24.664 15.392 1.00 0.85 C
+ATOM 2590 O GLU B 105 23.804 -25.877 15.540 1.00 0.85 O
+ATOM 2591 CB GLU B 105 21.364 -24.667 14.426 1.00 0.85 C
+ATOM 2592 CG GLU B 105 19.888 -24.228 14.593 1.00 0.85 C
+ATOM 2593 CD GLU B 105 18.942 -24.876 13.579 1.00 0.85 C
+ATOM 2594 OE1 GLU B 105 19.430 -25.567 12.649 1.00 0.85 O
+ATOM 2595 OE2 GLU B 105 17.713 -24.666 13.739 1.00 0.85 O
+ATOM 2596 N HIS B 106 24.760 -23.865 15.245 1.00 0.89 N
+ATOM 2597 CA HIS B 106 26.134 -24.350 15.182 1.00 0.89 C
+ATOM 2598 C HIS B 106 26.982 -23.861 16.360 1.00 0.89 C
+ATOM 2599 O HIS B 106 27.751 -22.910 16.194 1.00 0.89 O
+ATOM 2600 CB HIS B 106 26.807 -23.913 13.863 1.00 0.89 C
+ATOM 2601 CG HIS B 106 26.050 -24.406 12.674 1.00 0.89 C
+ATOM 2602 ND1 HIS B 106 26.153 -25.734 12.313 1.00 0.89 N
+ATOM 2603 CD2 HIS B 106 25.111 -23.782 11.919 1.00 0.89 C
+ATOM 2604 CE1 HIS B 106 25.269 -25.895 11.349 1.00 0.89 C
+ATOM 2605 NE2 HIS B 106 24.609 -24.744 11.070 1.00 0.89 N
+ATOM 2606 N PRO B 107 26.897 -24.424 17.573 1.00 0.92 N
+ATOM 2607 CA PRO B 107 27.662 -23.976 18.734 1.00 0.92 C
+ATOM 2608 C PRO B 107 29.160 -23.853 18.532 1.00 0.92 C
+ATOM 2609 O PRO B 107 29.807 -24.802 18.099 1.00 0.92 O
+ATOM 2610 CB PRO B 107 27.334 -25.002 19.831 1.00 0.92 C
+ATOM 2611 CG PRO B 107 25.953 -25.527 19.446 1.00 0.92 C
+ATOM 2612 CD PRO B 107 26.003 -25.529 17.919 1.00 0.92 C
+ATOM 2613 N GLY B 108 29.740 -22.680 18.857 1.00 0.94 N
+ATOM 2614 CA GLY B 108 31.184 -22.477 18.778 1.00 0.94 C
+ATOM 2615 C GLY B 108 31.703 -22.178 17.396 1.00 0.94 C
+ATOM 2616 O GLY B 108 32.911 -22.080 17.193 1.00 0.94 O
+ATOM 2617 N LYS B 109 30.803 -22.017 16.411 1.00 0.92 N
+ATOM 2618 CA LYS B 109 31.161 -21.784 15.032 1.00 0.92 C
+ATOM 2619 C LYS B 109 30.413 -20.579 14.488 1.00 0.92 C
+ATOM 2620 O LYS B 109 29.355 -20.193 14.982 1.00 0.92 O
+ATOM 2621 CB LYS B 109 30.788 -23.000 14.148 1.00 0.92 C
+ATOM 2622 CG LYS B 109 31.418 -24.342 14.554 1.00 0.92 C
+ATOM 2623 CD LYS B 109 32.941 -24.344 14.372 1.00 0.92 C
+ATOM 2624 CE LYS B 109 33.596 -25.693 14.663 1.00 0.92 C
+ATOM 2625 NZ LYS B 109 35.036 -25.664 14.326 1.00 0.92 N
+ATOM 2626 N LEU B 110 30.962 -19.955 13.432 1.00 0.94 N
+ATOM 2627 CA LEU B 110 30.327 -18.884 12.698 1.00 0.94 C
+ATOM 2628 C LEU B 110 30.113 -19.316 11.257 1.00 0.94 C
+ATOM 2629 O LEU B 110 31.057 -19.542 10.498 1.00 0.94 O
+ATOM 2630 CB LEU B 110 31.152 -17.577 12.741 1.00 0.94 C
+ATOM 2631 CG LEU B 110 31.229 -16.924 14.135 1.00 0.94 C
+ATOM 2632 CD1 LEU B 110 32.187 -15.727 14.124 1.00 0.94 C
+ATOM 2633 CD2 LEU B 110 29.848 -16.475 14.636 1.00 0.94 C
+ATOM 2634 N LEU B 111 28.838 -19.459 10.843 1.00 0.94 N
+ATOM 2635 CA LEU B 111 28.454 -19.903 9.517 1.00 0.94 C
+ATOM 2636 C LEU B 111 28.275 -18.701 8.606 1.00 0.94 C
+ATOM 2637 O LEU B 111 27.183 -18.170 8.377 1.00 0.94 O
+ATOM 2638 CB LEU B 111 27.173 -20.773 9.575 1.00 0.94 C
+ATOM 2639 CG LEU B 111 26.771 -21.486 8.263 1.00 0.94 C
+ATOM 2640 CD1 LEU B 111 27.797 -22.535 7.816 1.00 0.94 C
+ATOM 2641 CD2 LEU B 111 25.407 -22.169 8.432 1.00 0.94 C
+ATOM 2642 N PHE B 112 29.400 -18.228 8.041 1.00 0.93 N
+ATOM 2643 CA PHE B 112 29.439 -17.117 7.115 1.00 0.93 C
+ATOM 2644 C PHE B 112 28.707 -17.447 5.837 1.00 0.93 C
+ATOM 2645 O PHE B 112 27.943 -16.638 5.323 1.00 0.93 O
+ATOM 2646 CB PHE B 112 30.894 -16.709 6.793 1.00 0.93 C
+ATOM 2647 CG PHE B 112 31.497 -15.952 7.942 1.00 0.93 C
+ATOM 2648 CD1 PHE B 112 32.199 -16.611 8.966 1.00 0.93 C
+ATOM 2649 CD2 PHE B 112 31.384 -14.552 7.990 1.00 0.93 C
+ATOM 2650 CE1 PHE B 112 32.767 -15.884 10.021 1.00 0.93 C
+ATOM 2651 CE2 PHE B 112 31.967 -13.824 9.034 1.00 0.93 C
+ATOM 2652 CZ PHE B 112 32.649 -14.491 10.056 1.00 0.93 C
+ATOM 2653 N ALA B 113 28.879 -18.678 5.348 1.00 0.94 N
+ATOM 2654 CA ALA B 113 28.182 -19.174 4.195 1.00 0.94 C
+ATOM 2655 C ALA B 113 28.115 -20.683 4.345 1.00 0.94 C
+ATOM 2656 O ALA B 113 28.875 -21.207 5.161 1.00 0.94 O
+ATOM 2657 CB ALA B 113 28.945 -18.787 2.915 1.00 0.94 C
+ATOM 2658 N PRO B 114 27.286 -21.454 3.634 1.00 0.93 N
+ATOM 2659 CA PRO B 114 27.197 -22.907 3.804 1.00 0.93 C
+ATOM 2660 C PRO B 114 28.500 -23.632 3.557 1.00 0.93 C
+ATOM 2661 O PRO B 114 28.680 -24.743 4.038 1.00 0.93 O
+ATOM 2662 CB PRO B 114 26.107 -23.342 2.818 1.00 0.93 C
+ATOM 2663 CG PRO B 114 25.217 -22.107 2.689 1.00 0.93 C
+ATOM 2664 CD PRO B 114 26.211 -20.947 2.777 1.00 0.93 C
+ATOM 2665 N ASN B 115 29.409 -23.016 2.783 1.00 0.87 N
+ATOM 2666 CA ASN B 115 30.725 -23.531 2.496 1.00 0.87 C
+ATOM 2667 C ASN B 115 31.830 -22.786 3.236 1.00 0.87 C
+ATOM 2668 O ASN B 115 33.005 -22.949 2.923 1.00 0.87 O
+ATOM 2669 CB ASN B 115 30.980 -23.499 0.967 1.00 0.87 C
+ATOM 2670 CG ASN B 115 30.940 -22.087 0.387 1.00 0.87 C
+ATOM 2671 OD1 ASN B 115 30.227 -21.179 0.827 1.00 0.87 O
+ATOM 2672 ND2 ASN B 115 31.731 -21.876 -0.687 1.00 0.87 N
+ATOM 2673 N LEU B 116 31.485 -21.944 4.225 1.00 0.88 N
+ATOM 2674 CA LEU B 116 32.465 -21.223 5.009 1.00 0.88 C
+ATOM 2675 C LEU B 116 32.020 -21.175 6.456 1.00 0.88 C
+ATOM 2676 O LEU B 116 31.294 -20.281 6.894 1.00 0.88 O
+ATOM 2677 CB LEU B 116 32.696 -19.802 4.451 1.00 0.88 C
+ATOM 2678 CG LEU B 116 33.926 -19.054 5.002 1.00 0.88 C
+ATOM 2679 CD1 LEU B 116 35.237 -19.796 4.702 1.00 0.88 C
+ATOM 2680 CD2 LEU B 116 34.004 -17.640 4.414 1.00 0.88 C
+ATOM 2681 N LEU B 117 32.473 -22.171 7.233 1.00 0.91 N
+ATOM 2682 CA LEU B 117 32.197 -22.303 8.645 1.00 0.91 C
+ATOM 2683 C LEU B 117 33.499 -22.059 9.381 1.00 0.91 C
+ATOM 2684 O LEU B 117 34.466 -22.798 9.202 1.00 0.91 O
+ATOM 2685 CB LEU B 117 31.691 -23.736 8.949 1.00 0.91 C
+ATOM 2686 CG LEU B 117 31.238 -24.002 10.399 1.00 0.91 C
+ATOM 2687 CD1 LEU B 117 29.952 -23.236 10.722 1.00 0.91 C
+ATOM 2688 CD2 LEU B 117 31.025 -25.505 10.633 1.00 0.91 C
+ATOM 2689 N LEU B 118 33.564 -20.996 10.203 1.00 0.90 N
+ATOM 2690 CA LEU B 118 34.796 -20.589 10.854 1.00 0.90 C
+ATOM 2691 C LEU B 118 34.659 -20.656 12.364 1.00 0.90 C
+ATOM 2692 O LEU B 118 33.565 -20.515 12.904 1.00 0.90 O
+ATOM 2693 CB LEU B 118 35.224 -19.151 10.458 1.00 0.90 C
+ATOM 2694 CG LEU B 118 35.483 -18.942 8.950 1.00 0.90 C
+ATOM 2695 CD1 LEU B 118 35.866 -17.485 8.652 1.00 0.90 C
+ATOM 2696 CD2 LEU B 118 36.589 -19.866 8.424 1.00 0.90 C
+ATOM 2697 N ASP B 119 35.761 -20.879 13.103 1.00 0.89 N
+ATOM 2698 CA ASP B 119 35.755 -20.821 14.552 1.00 0.89 C
+ATOM 2699 C ASP B 119 36.748 -19.825 15.102 1.00 0.89 C
+ATOM 2700 O ASP B 119 37.418 -19.086 14.377 1.00 0.89 O
+ATOM 2701 CB ASP B 119 35.962 -22.206 15.215 1.00 0.89 C
+ATOM 2702 CG ASP B 119 37.272 -22.884 14.852 1.00 0.89 C
+ATOM 2703 OD1 ASP B 119 38.348 -22.244 14.945 1.00 0.89 O
+ATOM 2704 OD2 ASP B 119 37.178 -24.106 14.558 1.00 0.89 O
+ATOM 2705 N ARG B 120 36.864 -19.801 16.446 1.00 0.79 N
+ATOM 2706 CA ARG B 120 37.753 -18.921 17.164 1.00 0.79 C
+ATOM 2707 C ARG B 120 39.196 -19.040 16.738 1.00 0.79 C
+ATOM 2708 O ARG B 120 39.882 -18.034 16.590 1.00 0.79 O
+ATOM 2709 CB ARG B 120 37.775 -19.219 18.680 1.00 0.79 C
+ATOM 2710 CG ARG B 120 36.494 -18.863 19.442 1.00 0.79 C
+ATOM 2711 CD ARG B 120 36.697 -18.914 20.964 1.00 0.79 C
+ATOM 2712 NE ARG B 120 37.443 -17.681 21.365 1.00 0.79 N
+ATOM 2713 CZ ARG B 120 38.644 -17.541 21.924 1.00 0.79 C
+ATOM 2714 NH1 ARG B 120 39.448 -18.575 22.152 1.00 0.79 N
+ATOM 2715 NH2 ARG B 120 39.046 -16.326 22.282 1.00 0.79 N
+ATOM 2716 N ASN B 121 39.702 -20.269 16.533 1.00 0.85 N
+ATOM 2717 CA ASN B 121 41.096 -20.499 16.225 1.00 0.85 C
+ATOM 2718 C ASN B 121 41.473 -19.922 14.877 1.00 0.85 C
+ATOM 2719 O ASN B 121 42.528 -19.313 14.722 1.00 0.85 O
+ATOM 2720 CB ASN B 121 41.431 -22.001 16.278 1.00 0.85 C
+ATOM 2721 CG ASN B 121 41.441 -22.480 17.724 1.00 0.85 C
+ATOM 2722 OD1 ASN B 121 41.707 -21.740 18.681 1.00 0.85 O
+ATOM 2723 ND2 ASN B 121 41.185 -23.799 17.891 1.00 0.85 N
+ATOM 2724 N GLN B 122 40.578 -20.049 13.886 1.00 0.82 N
+ATOM 2725 CA GLN B 122 40.722 -19.407 12.595 1.00 0.82 C
+ATOM 2726 C GLN B 122 40.670 -17.888 12.678 1.00 0.82 C
+ATOM 2727 O GLN B 122 41.402 -17.191 11.986 1.00 0.82 O
+ATOM 2728 CB GLN B 122 39.670 -19.964 11.618 1.00 0.82 C
+ATOM 2729 CG GLN B 122 39.903 -21.465 11.328 1.00 0.82 C
+ATOM 2730 CD GLN B 122 38.709 -22.080 10.613 1.00 0.82 C
+ATOM 2731 OE1 GLN B 122 37.606 -22.122 11.158 1.00 0.82 O
+ATOM 2732 NE2 GLN B 122 38.918 -22.575 9.373 1.00 0.82 N
+ATOM 2733 N GLY B 123 39.845 -17.322 13.583 1.00 0.88 N
+ATOM 2734 CA GLY B 123 39.832 -15.881 13.815 1.00 0.88 C
+ATOM 2735 C GLY B 123 41.050 -15.341 14.523 1.00 0.88 C
+ATOM 2736 O GLY B 123 41.303 -14.144 14.500 1.00 0.88 O
+ATOM 2737 N LYS B 124 41.883 -16.195 15.140 1.00 0.77 N
+ATOM 2738 CA LYS B 124 43.104 -15.749 15.781 1.00 0.77 C
+ATOM 2739 C LYS B 124 44.228 -15.421 14.813 1.00 0.77 C
+ATOM 2740 O LYS B 124 45.216 -14.807 15.208 1.00 0.77 O
+ATOM 2741 CB LYS B 124 43.661 -16.806 16.759 1.00 0.77 C
+ATOM 2742 CG LYS B 124 42.835 -17.030 18.029 1.00 0.77 C
+ATOM 2743 CD LYS B 124 43.493 -18.133 18.866 1.00 0.77 C
+ATOM 2744 CE LYS B 124 42.751 -18.465 20.154 1.00 0.77 C
+ATOM 2745 NZ LYS B 124 43.515 -19.490 20.899 1.00 0.77 N
+ATOM 2746 N SER B 125 44.138 -15.814 13.526 1.00 0.71 N
+ATOM 2747 CA SER B 125 45.211 -15.532 12.579 1.00 0.71 C
+ATOM 2748 C SER B 125 45.246 -14.084 12.131 1.00 0.71 C
+ATOM 2749 O SER B 125 46.265 -13.572 11.676 1.00 0.71 O
+ATOM 2750 CB SER B 125 45.133 -16.438 11.327 1.00 0.71 C
+ATOM 2751 OG SER B 125 43.901 -16.263 10.627 1.00 0.71 O
+ATOM 2752 N VAL B 126 44.124 -13.368 12.305 1.00 0.75 N
+ATOM 2753 CA VAL B 126 43.995 -11.974 11.953 1.00 0.75 C
+ATOM 2754 C VAL B 126 43.857 -11.179 13.238 1.00 0.75 C
+ATOM 2755 O VAL B 126 42.946 -11.386 14.037 1.00 0.75 O
+ATOM 2756 CB VAL B 126 42.781 -11.748 11.061 1.00 0.75 C
+ATOM 2757 CG1 VAL B 126 42.637 -10.262 10.692 1.00 0.75 C
+ATOM 2758 CG2 VAL B 126 42.919 -12.589 9.777 1.00 0.75 C
+ATOM 2759 N GLU B 127 44.780 -10.227 13.485 1.00 0.75 N
+ATOM 2760 CA GLU B 127 44.755 -9.363 14.654 1.00 0.75 C
+ATOM 2761 C GLU B 127 43.470 -8.552 14.740 1.00 0.75 C
+ATOM 2762 O GLU B 127 42.989 -8.037 13.734 1.00 0.75 O
+ATOM 2763 CB GLU B 127 46.008 -8.460 14.633 1.00 0.75 C
+ATOM 2764 CG GLU B 127 46.132 -7.440 15.791 1.00 0.75 C
+ATOM 2765 CD GLU B 127 45.774 -6.018 15.354 1.00 0.75 C
+ATOM 2766 OE1 GLU B 127 46.497 -5.483 14.474 1.00 0.75 O
+ATOM 2767 OE2 GLU B 127 44.796 -5.457 15.905 1.00 0.75 O
+ATOM 2768 N GLY B 128 42.836 -8.524 15.932 1.00 0.80 N
+ATOM 2769 CA GLY B 128 41.565 -7.856 16.193 1.00 0.80 C
+ATOM 2770 C GLY B 128 40.332 -8.581 15.715 1.00 0.80 C
+ATOM 2771 O GLY B 128 39.211 -8.109 15.899 1.00 0.80 O
+ATOM 2772 N MET B 129 40.476 -9.762 15.083 1.00 0.81 N
+ATOM 2773 CA MET B 129 39.337 -10.536 14.636 1.00 0.81 C
+ATOM 2774 C MET B 129 38.752 -11.425 15.713 1.00 0.81 C
+ATOM 2775 O MET B 129 37.531 -11.576 15.804 1.00 0.81 O
+ATOM 2776 CB MET B 129 39.705 -11.361 13.387 1.00 0.81 C
+ATOM 2777 CG MET B 129 38.586 -12.270 12.855 1.00 0.81 C
+ATOM 2778 SD MET B 129 38.886 -12.885 11.173 1.00 0.81 S
+ATOM 2779 CE MET B 129 38.287 -11.380 10.358 1.00 0.81 C
+ATOM 2780 N VAL B 130 39.587 -12.045 16.571 1.00 0.85 N
+ATOM 2781 CA VAL B 130 39.117 -13.009 17.554 1.00 0.85 C
+ATOM 2782 C VAL B 130 38.159 -12.405 18.569 1.00 0.85 C
+ATOM 2783 O VAL B 130 37.146 -13.005 18.917 1.00 0.85 O
+ATOM 2784 CB VAL B 130 40.246 -13.810 18.193 1.00 0.85 C
+ATOM 2785 CG1 VAL B 130 41.114 -12.951 19.124 1.00 0.85 C
+ATOM 2786 CG2 VAL B 130 39.668 -15.025 18.944 1.00 0.85 C
+ATOM 2787 N GLU B 131 38.399 -11.157 19.002 1.00 0.83 N
+ATOM 2788 CA GLU B 131 37.528 -10.418 19.885 1.00 0.83 C
+ATOM 2789 C GLU B 131 36.141 -10.213 19.301 1.00 0.83 C
+ATOM 2790 O GLU B 131 35.122 -10.396 19.962 1.00 0.83 O
+ATOM 2791 CB GLU B 131 38.140 -9.030 20.202 1.00 0.83 C
+ATOM 2792 CG GLU B 131 39.586 -9.090 20.760 1.00 0.83 C
+ATOM 2793 CD GLU B 131 40.681 -8.983 19.691 1.00 0.83 C
+ATOM 2794 OE1 GLU B 131 41.513 -8.051 19.806 1.00 0.83 O
+ATOM 2795 OE2 GLU B 131 40.701 -9.821 18.753 1.00 0.83 O
+ATOM 2796 N ILE B 132 36.063 -9.852 18.007 1.00 0.87 N
+ATOM 2797 CA ILE B 132 34.807 -9.698 17.293 1.00 0.87 C
+ATOM 2798 C ILE B 132 34.106 -11.029 17.086 1.00 0.87 C
+ATOM 2799 O ILE B 132 32.892 -11.138 17.260 1.00 0.87 O
+ATOM 2800 CB ILE B 132 34.987 -8.921 15.995 1.00 0.87 C
+ATOM 2801 CG1 ILE B 132 35.611 -7.538 16.297 1.00 0.87 C
+ATOM 2802 CG2 ILE B 132 33.626 -8.736 15.285 1.00 0.87 C
+ATOM 2803 CD1 ILE B 132 36.138 -6.821 15.053 1.00 0.87 C
+ATOM 2804 N PHE B 133 34.857 -12.104 16.770 1.00 0.88 N
+ATOM 2805 CA PHE B 133 34.313 -13.452 16.689 1.00 0.88 C
+ATOM 2806 C PHE B 133 33.696 -13.906 18.004 1.00 0.88 C
+ATOM 2807 O PHE B 133 32.579 -14.418 18.020 1.00 0.88 O
+ATOM 2808 CB PHE B 133 35.391 -14.491 16.259 1.00 0.88 C
+ATOM 2809 CG PHE B 133 35.581 -14.626 14.765 1.00 0.88 C
+ATOM 2810 CD1 PHE B 133 35.307 -13.592 13.849 1.00 0.88 C
+ATOM 2811 CD2 PHE B 133 36.067 -15.848 14.262 1.00 0.88 C
+ATOM 2812 CE1 PHE B 133 35.498 -13.783 12.474 1.00 0.88 C
+ATOM 2813 CE2 PHE B 133 36.256 -16.043 12.889 1.00 0.88 C
+ATOM 2814 CZ PHE B 133 35.968 -15.010 11.992 1.00 0.88 C
+ATOM 2815 N ASP B 134 34.372 -13.667 19.140 1.00 0.88 N
+ATOM 2816 CA ASP B 134 33.883 -13.993 20.465 1.00 0.88 C
+ATOM 2817 C ASP B 134 32.597 -13.277 20.827 1.00 0.88 C
+ATOM 2818 O ASP B 134 31.667 -13.862 21.384 1.00 0.88 O
+ATOM 2819 CB ASP B 134 34.977 -13.671 21.509 1.00 0.88 C
+ATOM 2820 CG ASP B 134 36.097 -14.686 21.422 1.00 0.88 C
+ATOM 2821 OD1 ASP B 134 35.950 -15.693 20.683 1.00 0.88 O
+ATOM 2822 OD2 ASP B 134 37.130 -14.539 22.126 1.00 0.88 O
+ATOM 2823 N MET B 135 32.485 -11.988 20.467 1.00 0.85 N
+ATOM 2824 CA MET B 135 31.235 -11.274 20.582 1.00 0.85 C
+ATOM 2825 C MET B 135 30.120 -11.843 19.709 1.00 0.85 C
+ATOM 2826 O MET B 135 29.002 -12.031 20.180 1.00 0.85 O
+ATOM 2827 CB MET B 135 31.427 -9.780 20.258 1.00 0.85 C
+ATOM 2828 CG MET B 135 32.302 -9.029 21.274 1.00 0.85 C
+ATOM 2829 SD MET B 135 32.301 -7.223 21.047 1.00 0.85 S
+ATOM 2830 CE MET B 135 33.209 -7.123 19.477 1.00 0.85 C
+ATOM 2831 N LEU B 136 30.393 -12.177 18.430 1.00 0.91 N
+ATOM 2832 CA LEU B 136 29.409 -12.767 17.531 1.00 0.91 C
+ATOM 2833 C LEU B 136 28.925 -14.139 17.991 1.00 0.91 C
+ATOM 2834 O LEU B 136 27.735 -14.460 17.951 1.00 0.91 O
+ATOM 2835 CB LEU B 136 29.975 -12.873 16.094 1.00 0.91 C
+ATOM 2836 CG LEU B 136 30.173 -11.518 15.384 1.00 0.91 C
+ATOM 2837 CD1 LEU B 136 31.181 -11.654 14.237 1.00 0.91 C
+ATOM 2838 CD2 LEU B 136 28.855 -10.951 14.838 1.00 0.91 C
+ATOM 2839 N LEU B 137 29.850 -14.981 18.483 1.00 0.89 N
+ATOM 2840 CA LEU B 137 29.556 -16.259 19.097 1.00 0.89 C
+ATOM 2841 C LEU B 137 28.719 -16.140 20.359 1.00 0.89 C
+ATOM 2842 O LEU B 137 27.808 -16.934 20.598 1.00 0.89 O
+ATOM 2843 CB LEU B 137 30.866 -17.002 19.424 1.00 0.89 C
+ATOM 2844 CG LEU B 137 31.605 -17.526 18.180 1.00 0.89 C
+ATOM 2845 CD1 LEU B 137 33.034 -17.938 18.548 1.00 0.89 C
+ATOM 2846 CD2 LEU B 137 30.873 -18.711 17.545 1.00 0.89 C
+ATOM 2847 N ALA B 138 28.984 -15.125 21.200 1.00 0.89 N
+ATOM 2848 CA ALA B 138 28.187 -14.837 22.369 1.00 0.89 C
+ATOM 2849 C ALA B 138 26.746 -14.469 22.045 1.00 0.89 C
+ATOM 2850 O ALA B 138 25.812 -14.949 22.691 1.00 0.89 O
+ATOM 2851 CB ALA B 138 28.864 -13.724 23.181 1.00 0.89 C
+ATOM 2852 N THR B 139 26.529 -13.650 21.001 1.00 0.89 N
+ATOM 2853 CA THR B 139 25.208 -13.318 20.476 1.00 0.89 C
+ATOM 2854 C THR B 139 24.478 -14.523 19.922 1.00 0.89 C
+ATOM 2855 O THR B 139 23.295 -14.733 20.184 1.00 0.89 O
+ATOM 2856 CB THR B 139 25.261 -12.259 19.389 1.00 0.89 C
+ATOM 2857 OG1 THR B 139 26.207 -11.275 19.751 1.00 0.89 O
+ATOM 2858 CG2 THR B 139 23.913 -11.545 19.244 1.00 0.89 C
+ATOM 2859 N SER B 140 25.187 -15.396 19.171 1.00 0.90 N
+ATOM 2860 CA SER B 140 24.631 -16.647 18.647 1.00 0.90 C
+ATOM 2861 C SER B 140 24.182 -17.575 19.751 1.00 0.90 C
+ATOM 2862 O SER B 140 23.078 -18.121 19.740 1.00 0.90 O
+ATOM 2863 CB SER B 140 25.650 -17.377 17.724 1.00 0.90 C
+ATOM 2864 OG SER B 140 25.215 -18.686 17.334 1.00 0.90 O
+ATOM 2865 N SER B 141 25.013 -17.716 20.794 1.00 0.87 N
+ATOM 2866 CA SER B 141 24.654 -18.450 21.990 1.00 0.87 C
+ATOM 2867 C SER B 141 23.452 -17.880 22.701 1.00 0.87 C
+ATOM 2868 O SER B 141 22.568 -18.623 23.116 1.00 0.87 O
+ATOM 2869 CB SER B 141 25.848 -18.536 22.961 1.00 0.87 C
+ATOM 2870 OG SER B 141 26.861 -19.373 22.394 1.00 0.87 O
+ATOM 2871 N ARG B 142 23.347 -16.544 22.819 1.00 0.82 N
+ATOM 2872 CA ARG B 142 22.179 -15.915 23.399 1.00 0.82 C
+ATOM 2873 C ARG B 142 20.896 -16.151 22.620 1.00 0.82 C
+ATOM 2874 O ARG B 142 19.870 -16.502 23.202 1.00 0.82 O
+ATOM 2875 CB ARG B 142 22.403 -14.397 23.573 1.00 0.82 C
+ATOM 2876 CG ARG B 142 21.295 -13.671 24.365 1.00 0.82 C
+ATOM 2877 CD ARG B 142 21.046 -14.288 25.747 1.00 0.82 C
+ATOM 2878 NE ARG B 142 20.197 -13.354 26.546 1.00 0.82 N
+ATOM 2879 CZ ARG B 142 19.387 -13.741 27.542 1.00 0.82 C
+ATOM 2880 NH1 ARG B 142 19.295 -15.015 27.912 1.00 0.82 N
+ATOM 2881 NH2 ARG B 142 18.647 -12.843 28.184 1.00 0.82 N
+ATOM 2882 N PHE B 143 20.933 -16.024 21.279 1.00 0.88 N
+ATOM 2883 CA PHE B 143 19.797 -16.324 20.426 1.00 0.88 C
+ATOM 2884 C PHE B 143 19.364 -17.782 20.520 1.00 0.88 C
+ATOM 2885 O PHE B 143 18.173 -18.080 20.597 1.00 0.88 O
+ATOM 2886 CB PHE B 143 20.095 -15.984 18.940 1.00 0.88 C
+ATOM 2887 CG PHE B 143 20.039 -14.520 18.565 1.00 0.88 C
+ATOM 2888 CD1 PHE B 143 19.720 -13.469 19.448 1.00 0.88 C
+ATOM 2889 CD2 PHE B 143 20.269 -14.206 17.215 1.00 0.88 C
+ATOM 2890 CE1 PHE B 143 19.625 -12.149 18.982 1.00 0.88 C
+ATOM 2891 CE2 PHE B 143 20.190 -12.888 16.749 1.00 0.88 C
+ATOM 2892 CZ PHE B 143 19.861 -11.857 17.634 1.00 0.88 C
+ATOM 2893 N ARG B 144 20.329 -18.726 20.562 1.00 0.84 N
+ATOM 2894 CA ARG B 144 20.055 -20.138 20.767 1.00 0.84 C
+ATOM 2895 C ARG B 144 19.408 -20.438 22.113 1.00 0.84 C
+ATOM 2896 O ARG B 144 18.416 -21.156 22.185 1.00 0.84 O
+ATOM 2897 CB ARG B 144 21.353 -20.959 20.586 1.00 0.84 C
+ATOM 2898 CG ARG B 144 21.193 -22.486 20.755 1.00 0.84 C
+ATOM 2899 CD ARG B 144 22.414 -23.339 20.362 1.00 0.84 C
+ATOM 2900 NE ARG B 144 23.616 -22.908 21.149 1.00 0.84 N
+ATOM 2901 CZ ARG B 144 24.568 -22.076 20.701 1.00 0.84 C
+ATOM 2902 NH1 ARG B 144 24.535 -21.540 19.487 1.00 0.84 N
+ATOM 2903 NH2 ARG B 144 25.562 -21.769 21.531 1.00 0.84 N
+ATOM 2904 N MET B 145 19.910 -19.845 23.216 1.00 0.88 N
+ATOM 2905 CA MET B 145 19.328 -19.999 24.542 1.00 0.88 C
+ATOM 2906 C MET B 145 17.920 -19.443 24.658 1.00 0.88 C
+ATOM 2907 O MET B 145 17.062 -19.993 25.340 1.00 0.88 O
+ATOM 2908 CB MET B 145 20.199 -19.312 25.616 1.00 0.88 C
+ATOM 2909 CG MET B 145 21.541 -20.016 25.876 1.00 0.88 C
+ATOM 2910 SD MET B 145 22.649 -19.066 26.963 1.00 0.88 S
+ATOM 2911 CE MET B 145 21.756 -19.404 28.511 1.00 0.88 C
+ATOM 2912 N MET B 146 17.641 -18.318 23.976 1.00 0.87 N
+ATOM 2913 CA MET B 146 16.333 -17.703 23.996 1.00 0.87 C
+ATOM 2914 C MET B 146 15.357 -18.366 23.040 1.00 0.87 C
+ATOM 2915 O MET B 146 14.168 -18.045 23.066 1.00 0.87 O
+ATOM 2916 CB MET B 146 16.434 -16.203 23.627 1.00 0.87 C
+ATOM 2917 CG MET B 146 17.126 -15.357 24.713 1.00 0.87 C
+ATOM 2918 SD MET B 146 17.272 -13.589 24.306 1.00 0.87 S
+ATOM 2919 CE MET B 146 15.520 -13.165 24.511 1.00 0.87 C
+ATOM 2920 N ASN B 147 15.832 -19.276 22.161 1.00 0.88 N
+ATOM 2921 CA ASN B 147 15.057 -19.880 21.093 1.00 0.88 C
+ATOM 2922 C ASN B 147 14.414 -18.824 20.195 1.00 0.88 C
+ATOM 2923 O ASN B 147 13.194 -18.758 20.042 1.00 0.88 O
+ATOM 2924 CB ASN B 147 14.061 -20.935 21.649 1.00 0.88 C
+ATOM 2925 CG ASN B 147 13.522 -21.839 20.548 1.00 0.88 C
+ATOM 2926 OD1 ASN B 147 14.198 -22.141 19.565 1.00 0.88 O
+ATOM 2927 ND2 ASN B 147 12.262 -22.304 20.707 1.00 0.88 N
+ATOM 2928 N LEU B 148 15.243 -17.916 19.638 1.00 0.90 N
+ATOM 2929 CA LEU B 148 14.785 -16.843 18.772 1.00 0.90 C
+ATOM 2930 C LEU B 148 14.044 -17.350 17.540 1.00 0.90 C
+ATOM 2931 O LEU B 148 14.541 -18.182 16.784 1.00 0.90 O
+ATOM 2932 CB LEU B 148 15.968 -15.946 18.326 1.00 0.90 C
+ATOM 2933 CG LEU B 148 15.555 -14.642 17.611 1.00 0.90 C
+ATOM 2934 CD1 LEU B 148 14.984 -13.624 18.602 1.00 0.90 C
+ATOM 2935 CD2 LEU B 148 16.742 -14.004 16.885 1.00 0.90 C
+ATOM 2936 N GLN B 149 12.813 -16.865 17.311 1.00 0.88 N
+ATOM 2937 CA GLN B 149 12.023 -17.297 16.178 1.00 0.88 C
+ATOM 2938 C GLN B 149 12.297 -16.452 14.953 1.00 0.88 C
+ATOM 2939 O GLN B 149 12.833 -15.344 15.028 1.00 0.88 O
+ATOM 2940 CB GLN B 149 10.518 -17.313 16.518 1.00 0.88 C
+ATOM 2941 CG GLN B 149 10.183 -18.251 17.702 1.00 0.88 C
+ATOM 2942 CD GLN B 149 10.551 -19.705 17.401 1.00 0.88 C
+ATOM 2943 OE1 GLN B 149 9.938 -20.380 16.574 1.00 0.88 O
+ATOM 2944 NE2 GLN B 149 11.593 -20.223 18.091 1.00 0.88 N
+ATOM 2945 N GLY B 150 11.946 -16.961 13.752 1.00 0.91 N
+ATOM 2946 CA GLY B 150 12.268 -16.274 12.502 1.00 0.91 C
+ATOM 2947 C GLY B 150 11.529 -14.978 12.362 1.00 0.91 C
+ATOM 2948 O GLY B 150 12.065 -13.977 11.898 1.00 0.91 O
+ATOM 2949 N GLU B 151 10.287 -14.956 12.858 1.00 0.89 N
+ATOM 2950 CA GLU B 151 9.460 -13.784 12.976 1.00 0.89 C
+ATOM 2951 C GLU B 151 10.070 -12.717 13.867 1.00 0.89 C
+ATOM 2952 O GLU B 151 10.052 -11.526 13.560 1.00 0.89 O
+ATOM 2953 CB GLU B 151 8.082 -14.197 13.531 1.00 0.89 C
+ATOM 2954 CG GLU B 151 7.309 -15.158 12.598 1.00 0.89 C
+ATOM 2955 CD GLU B 151 7.464 -16.630 12.975 1.00 0.89 C
+ATOM 2956 OE1 GLU B 151 8.623 -17.079 13.176 1.00 0.89 O
+ATOM 2957 OE2 GLU B 151 6.397 -17.296 13.075 1.00 0.89 O
+ATOM 2958 N GLU B 152 10.669 -13.125 14.997 1.00 0.91 N
+ATOM 2959 CA GLU B 152 11.385 -12.218 15.866 1.00 0.91 C
+ATOM 2960 C GLU B 152 12.645 -11.655 15.242 1.00 0.91 C
+ATOM 2961 O GLU B 152 12.909 -10.456 15.312 1.00 0.91 O
+ATOM 2962 CB GLU B 152 11.736 -12.901 17.195 1.00 0.91 C
+ATOM 2963 CG GLU B 152 10.483 -13.368 17.961 1.00 0.91 C
+ATOM 2964 CD GLU B 152 10.865 -14.112 19.226 1.00 0.91 C
+ATOM 2965 OE1 GLU B 152 11.637 -15.107 19.157 1.00 0.91 O
+ATOM 2966 OE2 GLU B 152 10.412 -13.697 20.323 1.00 0.91 O
+ATOM 2967 N PHE B 153 13.436 -12.506 14.562 1.00 0.94 N
+ATOM 2968 CA PHE B 153 14.637 -12.102 13.864 1.00 0.94 C
+ATOM 2969 C PHE B 153 14.378 -11.062 12.781 1.00 0.94 C
+ATOM 2970 O PHE B 153 15.070 -10.045 12.715 1.00 0.94 O
+ATOM 2971 CB PHE B 153 15.291 -13.382 13.275 1.00 0.94 C
+ATOM 2972 CG PHE B 153 16.384 -13.111 12.279 1.00 0.94 C
+ATOM 2973 CD1 PHE B 153 17.581 -12.493 12.667 1.00 0.94 C
+ATOM 2974 CD2 PHE B 153 16.175 -13.418 10.925 1.00 0.94 C
+ATOM 2975 CE1 PHE B 153 18.547 -12.173 11.705 1.00 0.94 C
+ATOM 2976 CE2 PHE B 153 17.146 -13.112 9.967 1.00 0.94 C
+ATOM 2977 CZ PHE B 153 18.332 -12.480 10.357 1.00 0.94 C
+ATOM 2978 N VAL B 154 13.358 -11.258 11.924 1.00 0.94 N
+ATOM 2979 CA VAL B 154 13.075 -10.307 10.863 1.00 0.94 C
+ATOM 2980 C VAL B 154 12.636 -8.951 11.392 1.00 0.94 C
+ATOM 2981 O VAL B 154 13.053 -7.911 10.883 1.00 0.94 O
+ATOM 2982 CB VAL B 154 12.135 -10.834 9.792 1.00 0.94 C
+ATOM 2983 CG1 VAL B 154 12.761 -12.074 9.134 1.00 0.94 C
+ATOM 2984 CG2 VAL B 154 10.746 -11.166 10.355 1.00 0.94 C
+ATOM 2985 N CYS B 155 11.839 -8.924 12.482 1.00 0.94 N
+ATOM 2986 CA CYS B 155 11.520 -7.696 13.187 1.00 0.94 C
+ATOM 2987 C CYS B 155 12.729 -6.997 13.782 1.00 0.94 C
+ATOM 2988 O CYS B 155 12.889 -5.789 13.649 1.00 0.94 O
+ATOM 2989 CB CYS B 155 10.489 -7.952 14.305 1.00 0.94 C
+ATOM 2990 SG CYS B 155 8.848 -8.307 13.585 1.00 0.94 S
+ATOM 2991 N LEU B 156 13.656 -7.728 14.426 1.00 0.94 N
+ATOM 2992 CA LEU B 156 14.879 -7.138 14.943 1.00 0.94 C
+ATOM 2993 C LEU B 156 15.753 -6.545 13.853 1.00 0.94 C
+ATOM 2994 O LEU B 156 16.288 -5.448 13.988 1.00 0.94 O
+ATOM 2995 CB LEU B 156 15.715 -8.167 15.740 1.00 0.94 C
+ATOM 2996 CG LEU B 156 15.099 -8.598 17.086 1.00 0.94 C
+ATOM 2997 CD1 LEU B 156 15.944 -9.709 17.727 1.00 0.94 C
+ATOM 2998 CD2 LEU B 156 14.959 -7.417 18.058 1.00 0.94 C
+ATOM 2999 N LYS B 157 15.882 -7.246 12.715 1.00 0.93 N
+ATOM 3000 CA LYS B 157 16.628 -6.770 11.570 1.00 0.93 C
+ATOM 3001 C LYS B 157 16.042 -5.501 10.953 1.00 0.93 C
+ATOM 3002 O LYS B 157 16.762 -4.558 10.629 1.00 0.93 O
+ATOM 3003 CB LYS B 157 16.767 -7.925 10.550 1.00 0.93 C
+ATOM 3004 CG LYS B 157 17.852 -7.729 9.482 1.00 0.93 C
+ATOM 3005 CD LYS B 157 18.157 -9.007 8.673 1.00 0.93 C
+ATOM 3006 CE LYS B 157 16.916 -9.664 8.057 1.00 0.93 C
+ATOM 3007 NZ LYS B 157 17.285 -10.762 7.150 1.00 0.93 N
+ATOM 3008 N SER B 158 14.703 -5.400 10.820 1.00 0.95 N
+ATOM 3009 CA SER B 158 14.058 -4.155 10.420 1.00 0.95 C
+ATOM 3010 C SER B 158 14.210 -3.014 11.413 1.00 0.95 C
+ATOM 3011 O SER B 158 14.432 -1.870 11.020 1.00 0.95 O
+ATOM 3012 CB SER B 158 12.577 -4.334 10.015 1.00 0.95 C
+ATOM 3013 OG SER B 158 11.780 -4.804 11.097 1.00 0.95 O
+ATOM 3014 N ILE B 159 14.157 -3.292 12.731 1.00 0.91 N
+ATOM 3015 CA ILE B 159 14.462 -2.313 13.768 1.00 0.91 C
+ATOM 3016 C ILE B 159 15.889 -1.783 13.664 1.00 0.91 C
+ATOM 3017 O ILE B 159 16.110 -0.577 13.753 1.00 0.91 O
+ATOM 3018 CB ILE B 159 14.189 -2.873 15.162 1.00 0.91 C
+ATOM 3019 CG1 ILE B 159 12.672 -3.049 15.390 1.00 0.91 C
+ATOM 3020 CG2 ILE B 159 14.768 -1.956 16.257 1.00 0.91 C
+ATOM 3021 CD1 ILE B 159 12.341 -3.948 16.588 1.00 0.91 C
+ATOM 3022 N ILE B 160 16.897 -2.649 13.411 1.00 0.91 N
+ATOM 3023 CA ILE B 160 18.280 -2.222 13.201 1.00 0.91 C
+ATOM 3024 C ILE B 160 18.404 -1.253 12.036 1.00 0.91 C
+ATOM 3025 O ILE B 160 19.027 -0.205 12.155 1.00 0.91 O
+ATOM 3026 CB ILE B 160 19.218 -3.411 12.985 1.00 0.91 C
+ATOM 3027 CG1 ILE B 160 19.394 -4.214 14.292 1.00 0.91 C
+ATOM 3028 CG2 ILE B 160 20.602 -2.948 12.479 1.00 0.91 C
+ATOM 3029 CD1 ILE B 160 20.106 -5.556 14.085 1.00 0.91 C
+ATOM 3030 N LEU B 161 17.748 -1.535 10.891 1.00 0.91 N
+ATOM 3031 CA LEU B 161 17.784 -0.653 9.738 1.00 0.91 C
+ATOM 3032 C LEU B 161 17.239 0.736 10.028 1.00 0.91 C
+ATOM 3033 O LEU B 161 17.817 1.740 9.630 1.00 0.91 O
+ATOM 3034 CB LEU B 161 16.981 -1.292 8.580 1.00 0.91 C
+ATOM 3035 CG LEU B 161 16.844 -0.451 7.293 1.00 0.91 C
+ATOM 3036 CD1 LEU B 161 18.200 -0.211 6.617 1.00 0.91 C
+ATOM 3037 CD2 LEU B 161 15.874 -1.128 6.314 1.00 0.91 C
+ATOM 3038 N LEU B 162 16.113 0.829 10.750 1.00 0.88 N
+ATOM 3039 CA LEU B 162 15.457 2.095 10.994 1.00 0.88 C
+ATOM 3040 C LEU B 162 16.011 2.863 12.188 1.00 0.88 C
+ATOM 3041 O LEU B 162 15.901 4.083 12.252 1.00 0.88 O
+ATOM 3042 CB LEU B 162 13.955 1.833 11.210 1.00 0.88 C
+ATOM 3043 CG LEU B 162 13.229 1.226 9.993 1.00 0.88 C
+ATOM 3044 CD1 LEU B 162 11.836 0.770 10.421 1.00 0.88 C
+ATOM 3045 CD2 LEU B 162 13.135 2.201 8.812 1.00 0.88 C
+ATOM 3046 N ASN B 163 16.666 2.184 13.151 1.00 0.85 N
+ATOM 3047 CA ASN B 163 17.223 2.829 14.330 1.00 0.85 C
+ATOM 3048 C ASN B 163 18.717 3.117 14.160 1.00 0.85 C
+ATOM 3049 O ASN B 163 19.381 3.619 15.063 1.00 0.85 O
+ATOM 3050 CB ASN B 163 16.979 1.917 15.565 1.00 0.85 C
+ATOM 3051 CG ASN B 163 17.302 2.622 16.878 1.00 0.85 C
+ATOM 3052 OD1 ASN B 163 16.799 3.707 17.174 1.00 0.85 O
+ATOM 3053 ND2 ASN B 163 18.181 2.000 17.698 1.00 0.85 N
+ATOM 3054 N SER B 164 19.296 2.813 12.990 1.00 0.85 N
+ATOM 3055 CA SER B 164 20.715 2.989 12.721 1.00 0.85 C
+ATOM 3056 C SER B 164 21.202 4.424 12.669 1.00 0.85 C
+ATOM 3057 O SER B 164 22.314 4.736 13.090 1.00 0.85 O
+ATOM 3058 CB SER B 164 21.120 2.299 11.405 1.00 0.85 C
+ATOM 3059 OG SER B 164 20.503 2.909 10.264 1.00 0.85 O
+ATOM 3060 N GLY B 165 20.386 5.333 12.093 1.00 0.78 N
+ATOM 3061 CA GLY B 165 20.700 6.745 11.890 1.00 0.78 C
+ATOM 3062 C GLY B 165 21.294 7.458 13.079 1.00 0.78 C
+ATOM 3063 O GLY B 165 20.689 7.555 14.143 1.00 0.78 O
+ATOM 3064 N VAL B 166 22.520 7.991 12.915 1.00 0.47 N
+ATOM 3065 CA VAL B 166 23.205 8.731 13.957 1.00 0.47 C
+ATOM 3066 C VAL B 166 22.470 9.995 14.374 1.00 0.47 C
+ATOM 3067 O VAL B 166 21.932 10.733 13.547 1.00 0.47 O
+ATOM 3068 CB VAL B 166 24.658 9.011 13.583 1.00 0.47 C
+ATOM 3069 CG1 VAL B 166 24.761 10.098 12.495 1.00 0.47 C
+ATOM 3070 CG2 VAL B 166 25.465 9.415 14.827 1.00 0.47 C
+ATOM 3071 N TYR B 167 22.393 10.249 15.692 1.00 0.44 N
+ATOM 3072 CA TYR B 167 21.717 11.404 16.236 1.00 0.44 C
+ATOM 3073 C TYR B 167 22.386 12.722 15.852 1.00 0.44 C
+ATOM 3074 O TYR B 167 23.591 12.903 16.006 1.00 0.44 O
+ATOM 3075 CB TYR B 167 21.592 11.303 17.780 1.00 0.44 C
+ATOM 3076 CG TYR B 167 20.559 10.327 18.296 1.00 0.44 C
+ATOM 3077 CD1 TYR B 167 19.713 9.553 17.479 1.00 0.44 C
+ATOM 3078 CD2 TYR B 167 20.397 10.237 19.688 1.00 0.44 C
+ATOM 3079 CE1 TYR B 167 18.726 8.733 18.045 1.00 0.44 C
+ATOM 3080 CE2 TYR B 167 19.420 9.410 20.258 1.00 0.44 C
+ATOM 3081 CZ TYR B 167 18.581 8.662 19.430 1.00 0.44 C
+ATOM 3082 OH TYR B 167 17.608 7.820 19.995 1.00 0.44 O
+ATOM 3083 N THR B 168 21.583 13.678 15.352 1.00 0.42 N
+ATOM 3084 CA THR B 168 22.060 14.945 14.813 1.00 0.42 C
+ATOM 3085 C THR B 168 21.338 16.071 15.509 1.00 0.42 C
+ATOM 3086 O THR B 168 20.116 16.028 15.661 1.00 0.42 O
+ATOM 3087 CB THR B 168 21.767 15.074 13.326 1.00 0.42 C
+ATOM 3088 OG1 THR B 168 22.446 14.054 12.612 1.00 0.42 O
+ATOM 3089 CG2 THR B 168 22.260 16.404 12.743 1.00 0.42 C
+ATOM 3090 N PHE B 169 22.060 17.116 15.965 1.00 0.34 N
+ATOM 3091 CA PHE B 169 21.471 18.173 16.771 1.00 0.34 C
+ATOM 3092 C PHE B 169 21.395 19.516 16.051 1.00 0.34 C
+ATOM 3093 O PHE B 169 20.875 20.500 16.577 1.00 0.34 O
+ATOM 3094 CB PHE B 169 22.322 18.299 18.058 1.00 0.34 C
+ATOM 3095 CG PHE B 169 21.737 19.274 19.037 1.00 0.34 C
+ATOM 3096 CD1 PHE B 169 22.423 20.461 19.315 1.00 0.34 C
+ATOM 3097 CD2 PHE B 169 20.472 19.072 19.607 1.00 0.34 C
+ATOM 3098 CE1 PHE B 169 21.830 21.461 20.094 1.00 0.34 C
+ATOM 3099 CE2 PHE B 169 19.886 20.067 20.398 1.00 0.34 C
+ATOM 3100 CZ PHE B 169 20.552 21.272 20.622 1.00 0.34 C
+ATOM 3101 N LEU B 170 21.870 19.604 14.806 1.00 0.36 N
+ATOM 3102 CA LEU B 170 22.012 20.864 14.122 1.00 0.36 C
+ATOM 3103 C LEU B 170 21.497 20.812 12.710 1.00 0.36 C
+ATOM 3104 O LEU B 170 21.389 19.747 12.105 1.00 0.36 O
+ATOM 3105 CB LEU B 170 23.475 21.363 14.116 1.00 0.36 C
+ATOM 3106 CG LEU B 170 24.458 20.607 13.196 1.00 0.36 C
+ATOM 3107 CD1 LEU B 170 25.699 21.472 12.960 1.00 0.36 C
+ATOM 3108 CD2 LEU B 170 24.861 19.250 13.787 1.00 0.36 C
+ATOM 3109 N SER B 171 21.153 21.996 12.158 1.00 0.39 N
+ATOM 3110 CA SER B 171 20.803 22.183 10.754 1.00 0.39 C
+ATOM 3111 C SER B 171 19.715 21.265 10.239 1.00 0.39 C
+ATOM 3112 O SER B 171 19.777 20.730 9.136 1.00 0.39 O
+ATOM 3113 CB SER B 171 22.042 22.089 9.844 1.00 0.39 C
+ATOM 3114 OG SER B 171 23.006 23.065 10.246 1.00 0.39 O
+ATOM 3115 N SER B 172 18.665 21.080 11.057 1.00 0.64 N
+ATOM 3116 CA SER B 172 17.582 20.165 10.749 1.00 0.64 C
+ATOM 3117 C SER B 172 16.540 20.873 9.919 1.00 0.64 C
+ATOM 3118 O SER B 172 16.196 22.025 10.172 1.00 0.64 O
+ATOM 3119 CB SER B 172 16.900 19.616 12.027 1.00 0.64 C
+ATOM 3120 OG SER B 172 16.071 18.474 11.776 1.00 0.64 O
+ATOM 3121 N THR B 173 16.003 20.202 8.895 1.00 0.70 N
+ATOM 3122 CA THR B 173 15.094 20.807 7.945 1.00 0.70 C
+ATOM 3123 C THR B 173 13.735 20.180 8.099 1.00 0.70 C
+ATOM 3124 O THR B 173 13.542 19.213 8.831 1.00 0.70 O
+ATOM 3125 CB THR B 173 15.545 20.681 6.487 1.00 0.70 C
+ATOM 3126 OG1 THR B 173 15.507 19.342 6.003 1.00 0.70 O
+ATOM 3127 CG2 THR B 173 16.990 21.174 6.334 1.00 0.70 C
+ATOM 3128 N LEU B 174 12.724 20.717 7.393 1.00 0.74 N
+ATOM 3129 CA LEU B 174 11.376 20.181 7.412 1.00 0.74 C
+ATOM 3130 C LEU B 174 11.329 18.737 6.920 1.00 0.74 C
+ATOM 3131 O LEU B 174 10.697 17.875 7.519 1.00 0.74 O
+ATOM 3132 CB LEU B 174 10.457 21.118 6.587 1.00 0.74 C
+ATOM 3133 CG LEU B 174 9.094 21.455 7.227 1.00 0.74 C
+ATOM 3134 CD1 LEU B 174 9.255 22.137 8.595 1.00 0.74 C
+ATOM 3135 CD2 LEU B 174 8.300 22.381 6.292 1.00 0.74 C
+ATOM 3136 N LYS B 175 12.108 18.446 5.858 1.00 0.68 N
+ATOM 3137 CA LYS B 175 12.318 17.120 5.313 1.00 0.68 C
+ATOM 3138 C LYS B 175 12.950 16.136 6.295 1.00 0.68 C
+ATOM 3139 O LYS B 175 12.465 15.024 6.469 1.00 0.68 O
+ATOM 3140 CB LYS B 175 13.215 17.281 4.055 1.00 0.68 C
+ATOM 3141 CG LYS B 175 13.560 15.989 3.300 1.00 0.68 C
+ATOM 3142 CD LYS B 175 14.471 16.254 2.085 1.00 0.68 C
+ATOM 3143 CE LYS B 175 14.877 14.966 1.374 1.00 0.68 C
+ATOM 3144 NZ LYS B 175 15.807 15.219 0.263 1.00 0.68 N
+ATOM 3145 N SER B 176 14.029 16.518 7.016 1.00 0.70 N
+ATOM 3146 CA SER B 176 14.627 15.624 8.000 1.00 0.70 C
+ATOM 3147 C SER B 176 13.761 15.389 9.215 1.00 0.70 C
+ATOM 3148 O SER B 176 13.761 14.307 9.797 1.00 0.70 O
+ATOM 3149 CB SER B 176 16.054 16.043 8.445 1.00 0.70 C
+ATOM 3150 OG SER B 176 16.118 17.337 9.048 1.00 0.70 O
+ATOM 3151 N LEU B 177 12.979 16.393 9.646 1.00 0.71 N
+ATOM 3152 CA LEU B 177 11.985 16.192 10.682 1.00 0.71 C
+ATOM 3153 C LEU B 177 10.844 15.268 10.260 1.00 0.71 C
+ATOM 3154 O LEU B 177 10.493 14.349 10.994 1.00 0.71 O
+ATOM 3155 CB LEU B 177 11.436 17.547 11.171 1.00 0.71 C
+ATOM 3156 CG LEU B 177 12.488 18.452 11.847 1.00 0.71 C
+ATOM 3157 CD1 LEU B 177 11.907 19.855 12.052 1.00 0.71 C
+ATOM 3158 CD2 LEU B 177 12.961 17.882 13.193 1.00 0.71 C
+ATOM 3159 N GLU B 178 10.301 15.440 9.037 1.00 0.72 N
+ATOM 3160 CA GLU B 178 9.233 14.621 8.478 1.00 0.72 C
+ATOM 3161 C GLU B 178 9.576 13.145 8.420 1.00 0.72 C
+ATOM 3162 O GLU B 178 8.811 12.281 8.866 1.00 0.72 O
+ATOM 3163 CB GLU B 178 8.929 15.168 7.063 1.00 0.72 C
+ATOM 3164 CG GLU B 178 8.024 14.314 6.141 1.00 0.72 C
+ATOM 3165 CD GLU B 178 7.576 15.127 4.923 1.00 0.72 C
+ATOM 3166 OE1 GLU B 178 7.187 16.310 5.121 1.00 0.72 O
+ATOM 3167 OE2 GLU B 178 7.598 14.582 3.793 1.00 0.72 O
+ATOM 3168 N GLU B 179 10.790 12.826 7.947 1.00 0.74 N
+ATOM 3169 CA GLU B 179 11.292 11.476 7.950 1.00 0.74 C
+ATOM 3170 C GLU B 179 11.604 10.902 9.304 1.00 0.74 C
+ATOM 3171 O GLU B 179 11.336 9.737 9.573 1.00 0.74 O
+ATOM 3172 CB GLU B 179 12.492 11.342 7.003 1.00 0.74 C
+ATOM 3173 CG GLU B 179 12.104 11.684 5.551 1.00 0.74 C
+ATOM 3174 CD GLU B 179 10.987 10.808 4.998 1.00 0.74 C
+ATOM 3175 OE1 GLU B 179 10.583 9.817 5.646 1.00 0.74 O
+ATOM 3176 OE2 GLU B 179 10.574 11.089 3.848 1.00 0.74 O
+ATOM 3177 N LYS B 180 12.132 11.711 10.240 1.00 0.70 N
+ATOM 3178 CA LYS B 180 12.353 11.258 11.602 1.00 0.70 C
+ATOM 3179 C LYS B 180 11.065 10.827 12.289 1.00 0.70 C
+ATOM 3180 O LYS B 180 10.994 9.748 12.884 1.00 0.70 O
+ATOM 3181 CB LYS B 180 13.024 12.383 12.418 1.00 0.70 C
+ATOM 3182 CG LYS B 180 13.556 11.951 13.792 1.00 0.70 C
+ATOM 3183 CD LYS B 180 14.197 13.121 14.556 1.00 0.70 C
+ATOM 3184 CE LYS B 180 13.169 14.167 15.008 1.00 0.70 C
+ATOM 3185 NZ LYS B 180 13.842 15.238 15.777 1.00 0.70 N
+ATOM 3186 N ASP B 181 9.991 11.623 12.141 1.00 0.76 N
+ATOM 3187 CA ASP B 181 8.671 11.286 12.618 1.00 0.76 C
+ATOM 3188 C ASP B 181 8.106 10.029 11.941 1.00 0.76 C
+ATOM 3189 O ASP B 181 7.509 9.165 12.579 1.00 0.76 O
+ATOM 3190 CB ASP B 181 7.714 12.487 12.426 1.00 0.76 C
+ATOM 3191 CG ASP B 181 8.046 13.684 13.321 1.00 0.76 C
+ATOM 3192 OD1 ASP B 181 9.072 13.679 14.052 1.00 0.76 O
+ATOM 3193 OD2 ASP B 181 7.218 14.629 13.276 1.00 0.76 O
+ATOM 3194 N HIS B 182 8.314 9.865 10.609 1.00 0.80 N
+ATOM 3195 CA HIS B 182 7.940 8.645 9.906 1.00 0.80 C
+ATOM 3196 C HIS B 182 8.688 7.424 10.396 1.00 0.80 C
+ATOM 3197 O HIS B 182 8.077 6.389 10.664 1.00 0.80 O
+ATOM 3198 CB HIS B 182 8.090 8.778 8.372 1.00 0.80 C
+ATOM 3199 CG HIS B 182 7.293 7.768 7.586 1.00 0.80 C
+ATOM 3200 ND1 HIS B 182 5.915 7.910 7.474 1.00 0.80 N
+ATOM 3201 CD2 HIS B 182 7.707 6.678 6.888 1.00 0.80 C
+ATOM 3202 CE1 HIS B 182 5.538 6.909 6.692 1.00 0.80 C
+ATOM 3203 NE2 HIS B 182 6.581 6.135 6.317 1.00 0.80 N
+ATOM 3204 N ILE B 183 10.006 7.515 10.615 1.00 0.79 N
+ATOM 3205 CA ILE B 183 10.827 6.448 11.163 1.00 0.79 C
+ATOM 3206 C ILE B 183 10.377 6.047 12.562 1.00 0.79 C
+ATOM 3207 O ILE B 183 10.263 4.866 12.872 1.00 0.79 O
+ATOM 3208 CB ILE B 183 12.305 6.827 11.132 1.00 0.79 C
+ATOM 3209 CG1 ILE B 183 12.811 6.843 9.670 1.00 0.79 C
+ATOM 3210 CG2 ILE B 183 13.146 5.848 11.975 1.00 0.79 C
+ATOM 3211 CD1 ILE B 183 14.193 7.482 9.499 1.00 0.79 C
+ATOM 3212 N HIS B 184 10.045 7.030 13.432 1.00 0.78 N
+ATOM 3213 CA HIS B 184 9.479 6.745 14.743 1.00 0.78 C
+ATOM 3214 C HIS B 184 8.168 5.977 14.665 1.00 0.78 C
+ATOM 3215 O HIS B 184 8.012 4.953 15.325 1.00 0.78 O
+ATOM 3216 CB HIS B 184 9.274 8.038 15.574 1.00 0.78 C
+ATOM 3217 CG HIS B 184 10.556 8.675 16.039 1.00 0.78 C
+ATOM 3218 ND1 HIS B 184 10.532 9.964 16.540 1.00 0.78 N
+ATOM 3219 CD2 HIS B 184 11.830 8.205 16.042 1.00 0.78 C
+ATOM 3220 CE1 HIS B 184 11.781 10.257 16.814 1.00 0.78 C
+ATOM 3221 NE2 HIS B 184 12.616 9.226 16.538 1.00 0.78 N
+ATOM 3222 N ARG B 185 7.234 6.382 13.779 1.00 0.77 N
+ATOM 3223 CA ARG B 185 6.002 5.642 13.568 1.00 0.77 C
+ATOM 3224 C ARG B 185 6.213 4.222 13.049 1.00 0.77 C
+ATOM 3225 O ARG B 185 5.562 3.286 13.503 1.00 0.77 O
+ATOM 3226 CB ARG B 185 5.034 6.390 12.616 1.00 0.77 C
+ATOM 3227 CG ARG B 185 4.455 7.684 13.225 1.00 0.77 C
+ATOM 3228 CD ARG B 185 3.360 8.346 12.370 1.00 0.77 C
+ATOM 3229 NE ARG B 185 3.897 9.596 11.733 1.00 0.77 N
+ATOM 3230 CZ ARG B 185 4.290 9.702 10.457 1.00 0.77 C
+ATOM 3231 NH1 ARG B 185 4.242 8.660 9.639 1.00 0.77 N
+ATOM 3232 NH2 ARG B 185 4.731 10.872 10.001 1.00 0.77 N
+ATOM 3233 N VAL B 186 7.143 4.012 12.093 1.00 0.87 N
+ATOM 3234 CA VAL B 186 7.470 2.673 11.613 1.00 0.87 C
+ATOM 3235 C VAL B 186 8.074 1.792 12.710 1.00 0.87 C
+ATOM 3236 O VAL B 186 7.698 0.628 12.860 1.00 0.87 O
+ATOM 3237 CB VAL B 186 8.367 2.687 10.375 1.00 0.87 C
+ATOM 3238 CG1 VAL B 186 8.575 1.258 9.839 1.00 0.87 C
+ATOM 3239 CG2 VAL B 186 7.731 3.510 9.238 1.00 0.87 C
+ATOM 3240 N LEU B 187 8.989 2.327 13.548 1.00 0.89 N
+ATOM 3241 CA LEU B 187 9.556 1.599 14.677 1.00 0.89 C
+ATOM 3242 C LEU B 187 8.535 1.172 15.718 1.00 0.89 C
+ATOM 3243 O LEU B 187 8.554 0.031 16.182 1.00 0.89 O
+ATOM 3244 CB LEU B 187 10.656 2.423 15.386 1.00 0.89 C
+ATOM 3245 CG LEU B 187 12.008 2.456 14.650 1.00 0.89 C
+ATOM 3246 CD1 LEU B 187 12.923 3.518 15.272 1.00 0.89 C
+ATOM 3247 CD2 LEU B 187 12.703 1.087 14.692 1.00 0.89 C
+ATOM 3248 N ASP B 188 7.584 2.052 16.079 1.00 0.88 N
+ATOM 3249 CA ASP B 188 6.499 1.721 16.983 1.00 0.88 C
+ATOM 3250 C ASP B 188 5.621 0.598 16.451 1.00 0.88 C
+ATOM 3251 O ASP B 188 5.247 -0.326 17.170 1.00 0.88 O
+ATOM 3252 CB ASP B 188 5.643 2.975 17.253 1.00 0.88 C
+ATOM 3253 CG ASP B 188 6.390 3.966 18.131 1.00 0.88 C
+ATOM 3254 OD1 ASP B 188 7.320 3.554 18.876 1.00 0.88 O
+ATOM 3255 OD2 ASP B 188 6.010 5.163 18.107 1.00 0.88 O
+ATOM 3256 N LYS B 189 5.316 0.607 15.142 1.00 0.84 N
+ATOM 3257 CA LYS B 189 4.615 -0.490 14.514 1.00 0.84 C
+ATOM 3258 C LYS B 189 5.368 -1.814 14.494 1.00 0.84 C
+ATOM 3259 O LYS B 189 4.777 -2.870 14.705 1.00 0.84 O
+ATOM 3260 CB LYS B 189 4.161 -0.131 13.083 1.00 0.84 C
+ATOM 3261 CG LYS B 189 3.104 0.984 12.972 1.00 0.84 C
+ATOM 3262 CD LYS B 189 1.908 0.863 13.937 1.00 0.84 C
+ATOM 3263 CE LYS B 189 1.169 -0.478 13.882 1.00 0.84 C
+ATOM 3264 NZ LYS B 189 0.251 -0.588 15.031 1.00 0.84 N
+ATOM 3265 N ILE B 190 6.693 -1.822 14.253 1.00 0.90 N
+ATOM 3266 CA ILE B 190 7.484 -3.046 14.353 1.00 0.90 C
+ATOM 3267 C ILE B 190 7.537 -3.575 15.787 1.00 0.90 C
+ATOM 3268 O ILE B 190 7.430 -4.777 16.027 1.00 0.90 O
+ATOM 3269 CB ILE B 190 8.868 -2.906 13.732 1.00 0.90 C
+ATOM 3270 CG1 ILE B 190 8.761 -2.486 12.250 1.00 0.90 C
+ATOM 3271 CG2 ILE B 190 9.626 -4.248 13.804 1.00 0.90 C
+ATOM 3272 CD1 ILE B 190 10.062 -1.895 11.713 1.00 0.90 C
+ATOM 3273 N THR B 191 7.627 -2.681 16.793 1.00 0.88 N
+ATOM 3274 CA THR B 191 7.468 -3.024 18.209 1.00 0.88 C
+ATOM 3275 C THR B 191 6.122 -3.646 18.528 1.00 0.88 C
+ATOM 3276 O THR B 191 6.066 -4.689 19.181 1.00 0.88 O
+ATOM 3277 CB THR B 191 7.669 -1.817 19.108 1.00 0.88 C
+ATOM 3278 OG1 THR B 191 9.009 -1.360 18.982 1.00 0.88 O
+ATOM 3279 CG2 THR B 191 7.458 -2.150 20.593 1.00 0.88 C
+ATOM 3280 N ASP B 192 5.003 -3.085 18.007 1.00 0.85 N
+ATOM 3281 CA ASP B 192 3.684 -3.688 18.141 1.00 0.85 C
+ATOM 3282 C ASP B 192 3.653 -5.105 17.579 1.00 0.85 C
+ATOM 3283 O ASP B 192 3.160 -6.046 18.199 1.00 0.85 O
+ATOM 3284 CB ASP B 192 2.608 -2.891 17.349 1.00 0.85 C
+ATOM 3285 CG ASP B 192 2.232 -1.564 17.974 1.00 0.85 C
+ATOM 3286 OD1 ASP B 192 2.609 -1.265 19.126 1.00 0.85 O
+ATOM 3287 OD2 ASP B 192 1.472 -0.817 17.292 1.00 0.85 O
+ATOM 3288 N THR B 193 4.236 -5.298 16.384 1.00 0.87 N
+ATOM 3289 CA THR B 193 4.320 -6.592 15.726 1.00 0.87 C
+ATOM 3290 C THR B 193 5.124 -7.607 16.503 1.00 0.87 C
+ATOM 3291 O THR B 193 4.710 -8.754 16.665 1.00 0.87 O
+ATOM 3292 CB THR B 193 4.912 -6.481 14.333 1.00 0.87 C
+ATOM 3293 OG1 THR B 193 4.073 -5.669 13.528 1.00 0.87 O
+ATOM 3294 CG2 THR B 193 4.995 -7.847 13.644 1.00 0.87 C
+ATOM 3295 N LEU B 194 6.290 -7.204 17.043 1.00 0.86 N
+ATOM 3296 CA LEU B 194 7.148 -8.063 17.839 1.00 0.86 C
+ATOM 3297 C LEU B 194 6.462 -8.554 19.110 1.00 0.86 C
+ATOM 3298 O LEU B 194 6.471 -9.745 19.416 1.00 0.86 O
+ATOM 3299 CB LEU B 194 8.488 -7.330 18.110 1.00 0.86 C
+ATOM 3300 CG LEU B 194 9.627 -8.153 18.747 1.00 0.86 C
+ATOM 3301 CD1 LEU B 194 9.920 -9.448 17.980 1.00 0.86 C
+ATOM 3302 CD2 LEU B 194 10.911 -7.310 18.820 1.00 0.86 C
+ATOM 3303 N ILE B 195 5.758 -7.660 19.829 1.00 0.84 N
+ATOM 3304 CA ILE B 195 4.906 -8.023 20.954 1.00 0.84 C
+ATOM 3305 C ILE B 195 3.739 -8.918 20.564 1.00 0.84 C
+ATOM 3306 O ILE B 195 3.446 -9.912 21.228 1.00 0.84 O
+ATOM 3307 CB ILE B 195 4.405 -6.758 21.635 1.00 0.84 C
+ATOM 3308 CG1 ILE B 195 5.538 -6.097 22.455 1.00 0.84 C
+ATOM 3309 CG2 ILE B 195 3.154 -7.007 22.505 1.00 0.84 C
+ATOM 3310 CD1 ILE B 195 5.843 -6.782 23.795 1.00 0.84 C
+ATOM 3311 N HIS B 196 3.052 -8.619 19.443 1.00 0.80 N
+ATOM 3312 CA HIS B 196 1.924 -9.402 18.971 1.00 0.80 C
+ATOM 3313 C HIS B 196 2.296 -10.835 18.652 1.00 0.80 C
+ATOM 3314 O HIS B 196 1.570 -11.774 18.966 1.00 0.80 O
+ATOM 3315 CB HIS B 196 1.288 -8.754 17.726 1.00 0.80 C
+ATOM 3316 CG HIS B 196 0.074 -9.475 17.232 1.00 0.80 C
+ATOM 3317 ND1 HIS B 196 -1.076 -9.443 17.990 1.00 0.80 N
+ATOM 3318 CD2 HIS B 196 -0.094 -10.278 16.151 1.00 0.80 C
+ATOM 3319 CE1 HIS B 196 -1.926 -10.225 17.360 1.00 0.80 C
+ATOM 3320 NE2 HIS B 196 -1.383 -10.759 16.239 1.00 0.80 N
+ATOM 3321 N LEU B 197 3.479 -11.056 18.052 1.00 0.86 N
+ATOM 3322 CA LEU B 197 4.007 -12.388 17.837 1.00 0.86 C
+ATOM 3323 C LEU B 197 4.217 -13.166 19.127 1.00 0.86 C
+ATOM 3324 O LEU B 197 3.828 -14.327 19.228 1.00 0.86 O
+ATOM 3325 CB LEU B 197 5.342 -12.306 17.075 1.00 0.86 C
+ATOM 3326 CG LEU B 197 5.194 -11.836 15.618 1.00 0.86 C
+ATOM 3327 CD1 LEU B 197 6.542 -11.321 15.101 1.00 0.86 C
+ATOM 3328 CD2 LEU B 197 4.648 -12.954 14.718 1.00 0.86 C
+ATOM 3329 N MET B 198 4.781 -12.525 20.168 1.00 0.83 N
+ATOM 3330 CA MET B 198 4.933 -13.127 21.478 1.00 0.83 C
+ATOM 3331 C MET B 198 3.608 -13.465 22.143 1.00 0.83 C
+ATOM 3332 O MET B 198 3.431 -14.545 22.703 1.00 0.83 O
+ATOM 3333 CB MET B 198 5.732 -12.194 22.408 1.00 0.83 C
+ATOM 3334 CG MET B 198 7.168 -11.944 21.932 1.00 0.83 C
+ATOM 3335 SD MET B 198 8.048 -10.771 23.002 1.00 0.83 S
+ATOM 3336 CE MET B 198 9.457 -10.599 21.878 1.00 0.83 C
+ATOM 3337 N ALA B 199 2.624 -12.552 22.063 1.00 0.87 N
+ATOM 3338 CA ALA B 199 1.285 -12.775 22.559 1.00 0.87 C
+ATOM 3339 C ALA B 199 0.544 -13.897 21.837 1.00 0.87 C
+ATOM 3340 O ALA B 199 -0.051 -14.770 22.462 1.00 0.87 O
+ATOM 3341 CB ALA B 199 0.508 -11.452 22.477 1.00 0.87 C
+ATOM 3342 N LYS B 200 0.640 -13.949 20.492 1.00 0.79 N
+ATOM 3343 CA LYS B 200 0.148 -15.041 19.667 1.00 0.79 C
+ATOM 3344 C LYS B 200 0.776 -16.377 20.032 1.00 0.79 C
+ATOM 3345 O LYS B 200 0.120 -17.415 20.028 1.00 0.79 O
+ATOM 3346 CB LYS B 200 0.413 -14.718 18.170 1.00 0.79 C
+ATOM 3347 CG LYS B 200 0.295 -15.898 17.189 1.00 0.79 C
+ATOM 3348 CD LYS B 200 0.708 -15.531 15.752 1.00 0.79 C
+ATOM 3349 CE LYS B 200 1.485 -16.679 15.088 1.00 0.79 C
+ATOM 3350 NZ LYS B 200 1.925 -16.359 13.708 1.00 0.79 N
+ATOM 3351 N ALA B 201 2.075 -16.379 20.378 1.00 0.86 N
+ATOM 3352 CA ALA B 201 2.804 -17.566 20.754 1.00 0.86 C
+ATOM 3353 C ALA B 201 2.487 -18.053 22.164 1.00 0.86 C
+ATOM 3354 O ALA B 201 2.926 -19.125 22.575 1.00 0.86 O
+ATOM 3355 CB ALA B 201 4.308 -17.274 20.634 1.00 0.86 C
+ATOM 3356 N GLY B 202 1.696 -17.276 22.931 1.00 0.89 N
+ATOM 3357 CA GLY B 202 1.177 -17.697 24.224 1.00 0.89 C
+ATOM 3358 C GLY B 202 1.921 -17.170 25.411 1.00 0.89 C
+ATOM 3359 O GLY B 202 1.644 -17.562 26.541 1.00 0.89 O
+ATOM 3360 N LEU B 203 2.898 -16.269 25.212 1.00 0.85 N
+ATOM 3361 CA LEU B 203 3.647 -15.686 26.307 1.00 0.85 C
+ATOM 3362 C LEU B 203 2.779 -14.831 27.217 1.00 0.85 C
+ATOM 3363 O LEU B 203 1.916 -14.070 26.776 1.00 0.85 O
+ATOM 3364 CB LEU B 203 4.838 -14.830 25.806 1.00 0.85 C
+ATOM 3365 CG LEU B 203 6.121 -15.622 25.483 1.00 0.85 C
+ATOM 3366 CD1 LEU B 203 5.964 -16.563 24.281 1.00 0.85 C
+ATOM 3367 CD2 LEU B 203 7.290 -14.660 25.233 1.00 0.85 C
+ATOM 3368 N THR B 204 3.015 -14.902 28.540 1.00 0.85 N
+ATOM 3369 CA THR B 204 2.368 -14.030 29.511 1.00 0.85 C
+ATOM 3370 C THR B 204 2.772 -12.581 29.313 1.00 0.85 C
+ATOM 3371 O THR B 204 3.814 -12.291 28.731 1.00 0.85 O
+ATOM 3372 CB THR B 204 2.567 -14.418 30.981 1.00 0.85 C
+ATOM 3373 OG1 THR B 204 3.875 -14.122 31.463 1.00 0.85 O
+ATOM 3374 CG2 THR B 204 2.332 -15.922 31.169 1.00 0.85 C
+ATOM 3375 N LEU B 205 1.971 -11.606 29.795 1.00 0.79 N
+ATOM 3376 CA LEU B 205 2.298 -10.189 29.666 1.00 0.79 C
+ATOM 3377 C LEU B 205 3.664 -9.831 30.247 1.00 0.79 C
+ATOM 3378 O LEU B 205 4.442 -9.126 29.615 1.00 0.79 O
+ATOM 3379 CB LEU B 205 1.202 -9.301 30.314 1.00 0.79 C
+ATOM 3380 CG LEU B 205 -0.105 -9.182 29.498 1.00 0.79 C
+ATOM 3381 CD1 LEU B 205 -1.222 -8.549 30.344 1.00 0.79 C
+ATOM 3382 CD2 LEU B 205 0.096 -8.351 28.221 1.00 0.79 C
+ATOM 3383 N GLN B 206 4.026 -10.384 31.425 1.00 0.77 N
+ATOM 3384 CA GLN B 206 5.348 -10.203 32.005 1.00 0.77 C
+ATOM 3385 C GLN B 206 6.467 -10.765 31.131 1.00 0.77 C
+ATOM 3386 O GLN B 206 7.471 -10.109 30.863 1.00 0.77 O
+ATOM 3387 CB GLN B 206 5.391 -10.869 33.399 1.00 0.77 C
+ATOM 3388 CG GLN B 206 6.665 -10.557 34.219 1.00 0.77 C
+ATOM 3389 CD GLN B 206 6.610 -11.233 35.589 1.00 0.77 C
+ATOM 3390 OE1 GLN B 206 5.775 -12.106 35.845 1.00 0.77 O
+ATOM 3391 NE2 GLN B 206 7.522 -10.838 36.502 1.00 0.77 N
+ATOM 3392 N GLN B 207 6.278 -11.986 30.586 1.00 0.75 N
+ATOM 3393 CA GLN B 207 7.218 -12.599 29.663 1.00 0.75 C
+ATOM 3394 C GLN B 207 7.395 -11.809 28.378 1.00 0.75 C
+ATOM 3395 O GLN B 207 8.505 -11.679 27.870 1.00 0.75 O
+ATOM 3396 CB GLN B 207 6.774 -14.032 29.304 1.00 0.75 C
+ATOM 3397 CG GLN B 207 6.848 -15.012 30.494 1.00 0.75 C
+ATOM 3398 CD GLN B 207 5.996 -16.253 30.237 1.00 0.75 C
+ATOM 3399 OE1 GLN B 207 5.360 -16.418 29.194 1.00 0.75 O
+ATOM 3400 NE2 GLN B 207 5.948 -17.161 31.238 1.00 0.75 N
+ATOM 3401 N GLN B 208 6.306 -11.232 27.829 1.00 0.73 N
+ATOM 3402 CA GLN B 208 6.365 -10.374 26.660 1.00 0.73 C
+ATOM 3403 C GLN B 208 7.253 -9.151 26.861 1.00 0.73 C
+ATOM 3404 O GLN B 208 8.107 -8.845 26.031 1.00 0.73 O
+ATOM 3405 CB GLN B 208 4.944 -9.883 26.286 1.00 0.73 C
+ATOM 3406 CG GLN B 208 4.006 -10.977 25.731 1.00 0.73 C
+ATOM 3407 CD GLN B 208 2.568 -10.463 25.675 1.00 0.73 C
+ATOM 3408 OE1 GLN B 208 2.303 -9.290 25.405 1.00 0.73 O
+ATOM 3409 NE2 GLN B 208 1.593 -11.354 25.960 1.00 0.73 N
+ATOM 3410 N HIS B 209 7.113 -8.437 27.998 1.00 0.78 N
+ATOM 3411 CA HIS B 209 7.926 -7.265 28.283 1.00 0.78 C
+ATOM 3412 C HIS B 209 9.382 -7.591 28.547 1.00 0.78 C
+ATOM 3413 O HIS B 209 10.284 -6.934 28.027 1.00 0.78 O
+ATOM 3414 CB HIS B 209 7.384 -6.469 29.486 1.00 0.78 C
+ATOM 3415 CG HIS B 209 5.897 -6.285 29.459 1.00 0.78 C
+ATOM 3416 ND1 HIS B 209 5.230 -6.161 30.659 1.00 0.78 N
+ATOM 3417 CD2 HIS B 209 5.013 -6.278 28.429 1.00 0.78 C
+ATOM 3418 CE1 HIS B 209 3.956 -6.087 30.344 1.00 0.78 C
+ATOM 3419 NE2 HIS B 209 3.766 -6.159 29.005 1.00 0.78 N
+ATOM 3420 N GLN B 210 9.650 -8.648 29.341 1.00 0.77 N
+ATOM 3421 CA GLN B 210 11.000 -9.105 29.614 1.00 0.77 C
+ATOM 3422 C GLN B 210 11.715 -9.580 28.362 1.00 0.77 C
+ATOM 3423 O GLN B 210 12.849 -9.194 28.087 1.00 0.77 O
+ATOM 3424 CB GLN B 210 10.989 -10.247 30.652 1.00 0.77 C
+ATOM 3425 CG GLN B 210 10.544 -9.795 32.057 1.00 0.77 C
+ATOM 3426 CD GLN B 210 10.505 -10.967 33.035 1.00 0.77 C
+ATOM 3427 OE1 GLN B 210 10.654 -12.145 32.689 1.00 0.77 O
+ATOM 3428 NE2 GLN B 210 10.282 -10.637 34.321 1.00 0.77 N
+ATOM 3429 N ARG B 211 11.039 -10.387 27.520 1.00 0.80 N
+ATOM 3430 CA ARG B 211 11.592 -10.852 26.265 1.00 0.80 C
+ATOM 3431 C ARG B 211 11.828 -9.742 25.257 1.00 0.80 C
+ATOM 3432 O ARG B 211 12.876 -9.702 24.615 1.00 0.80 O
+ATOM 3433 CB ARG B 211 10.728 -11.970 25.650 1.00 0.80 C
+ATOM 3434 CG ARG B 211 11.382 -12.660 24.438 1.00 0.80 C
+ATOM 3435 CD ARG B 211 10.559 -13.832 23.907 1.00 0.80 C
+ATOM 3436 NE ARG B 211 11.263 -14.395 22.723 1.00 0.80 N
+ATOM 3437 CZ ARG B 211 12.105 -15.431 22.731 1.00 0.80 C
+ATOM 3438 NH1 ARG B 211 12.541 -15.974 23.860 1.00 0.80 N
+ATOM 3439 NH2 ARG B 211 12.527 -15.940 21.578 1.00 0.80 N
+ATOM 3440 N LEU B 212 10.894 -8.772 25.127 1.00 0.86 N
+ATOM 3441 CA LEU B 212 11.108 -7.595 24.299 1.00 0.86 C
+ATOM 3442 C LEU B 212 12.318 -6.797 24.752 1.00 0.86 C
+ATOM 3443 O LEU B 212 13.173 -6.426 23.950 1.00 0.86 O
+ATOM 3444 CB LEU B 212 9.864 -6.669 24.317 1.00 0.86 C
+ATOM 3445 CG LEU B 212 9.998 -5.363 23.499 1.00 0.86 C
+ATOM 3446 CD1 LEU B 212 10.074 -5.643 21.995 1.00 0.86 C
+ATOM 3447 CD2 LEU B 212 8.845 -4.392 23.782 1.00 0.86 C
+ATOM 3448 N ALA B 213 12.457 -6.567 26.071 1.00 0.91 N
+ATOM 3449 CA ALA B 213 13.590 -5.857 26.610 1.00 0.91 C
+ATOM 3450 C ALA B 213 14.915 -6.552 26.374 1.00 0.91 C
+ATOM 3451 O ALA B 213 15.874 -5.941 25.914 1.00 0.91 O
+ATOM 3452 CB ALA B 213 13.375 -5.618 28.110 1.00 0.91 C
+ATOM 3453 N GLN B 214 14.975 -7.874 26.606 1.00 0.85 N
+ATOM 3454 CA GLN B 214 16.160 -8.660 26.348 1.00 0.85 C
+ATOM 3455 C GLN B 214 16.578 -8.649 24.885 1.00 0.85 C
+ATOM 3456 O GLN B 214 17.752 -8.463 24.573 1.00 0.85 O
+ATOM 3457 CB GLN B 214 15.940 -10.110 26.836 1.00 0.85 C
+ATOM 3458 CG GLN B 214 15.898 -10.237 28.380 1.00 0.85 C
+ATOM 3459 CD GLN B 214 17.269 -10.040 29.030 1.00 0.85 C
+ATOM 3460 OE1 GLN B 214 18.309 -10.027 28.359 1.00 0.85 O
+ATOM 3461 NE2 GLN B 214 17.286 -9.967 30.377 1.00 0.85 N
+ATOM 3462 N LEU B 215 15.623 -8.793 23.944 1.00 0.90 N
+ATOM 3463 CA LEU B 215 15.917 -8.713 22.525 1.00 0.90 C
+ATOM 3464 C LEU B 215 16.393 -7.342 22.060 1.00 0.90 C
+ATOM 3465 O LEU B 215 17.365 -7.229 21.314 1.00 0.90 O
+ATOM 3466 CB LEU B 215 14.702 -9.135 21.666 1.00 0.90 C
+ATOM 3467 CG LEU B 215 14.292 -10.618 21.766 1.00 0.90 C
+ATOM 3468 CD1 LEU B 215 13.092 -10.896 20.848 1.00 0.90 C
+ATOM 3469 CD2 LEU B 215 15.442 -11.568 21.411 1.00 0.90 C
+ATOM 3470 N LEU B 216 15.749 -6.247 22.508 1.00 0.94 N
+ATOM 3471 CA LEU B 216 16.174 -4.903 22.156 1.00 0.94 C
+ATOM 3472 C LEU B 216 17.526 -4.528 22.746 1.00 0.94 C
+ATOM 3473 O LEU B 216 18.342 -3.870 22.105 1.00 0.94 O
+ATOM 3474 CB LEU B 216 15.098 -3.851 22.494 1.00 0.94 C
+ATOM 3475 CG LEU B 216 13.770 -4.046 21.728 1.00 0.94 C
+ATOM 3476 CD1 LEU B 216 12.769 -2.962 22.131 1.00 0.94 C
+ATOM 3477 CD2 LEU B 216 13.934 -4.039 20.202 1.00 0.94 C
+ATOM 3478 N LEU B 217 17.836 -4.990 23.970 1.00 0.93 N
+ATOM 3479 CA LEU B 217 19.149 -4.840 24.570 1.00 0.93 C
+ATOM 3480 C LEU B 217 20.278 -5.548 23.816 1.00 0.93 C
+ATOM 3481 O LEU B 217 21.414 -5.073 23.772 1.00 0.93 O
+ATOM 3482 CB LEU B 217 19.120 -5.284 26.047 1.00 0.93 C
+ATOM 3483 CG LEU B 217 18.386 -4.305 26.990 1.00 0.93 C
+ATOM 3484 CD1 LEU B 217 18.194 -4.930 28.380 1.00 0.93 C
+ATOM 3485 CD2 LEU B 217 19.120 -2.962 27.115 1.00 0.93 C
+ATOM 3486 N ILE B 218 20.003 -6.686 23.142 1.00 0.91 N
+ATOM 3487 CA ILE B 218 20.957 -7.325 22.235 1.00 0.91 C
+ATOM 3488 C ILE B 218 21.347 -6.409 21.076 1.00 0.91 C
+ATOM 3489 O ILE B 218 22.491 -6.402 20.623 1.00 0.91 O
+ATOM 3490 CB ILE B 218 20.474 -8.689 21.743 1.00 0.91 C
+ATOM 3491 CG1 ILE B 218 20.380 -9.674 22.930 1.00 0.91 C
+ATOM 3492 CG2 ILE B 218 21.428 -9.257 20.670 1.00 0.91 C
+ATOM 3493 CD1 ILE B 218 19.604 -10.955 22.608 1.00 0.91 C
+ATOM 3494 N LEU B 219 20.432 -5.545 20.596 1.00 0.91 N
+ATOM 3495 CA LEU B 219 20.736 -4.566 19.564 1.00 0.91 C
+ATOM 3496 C LEU B 219 21.817 -3.563 19.955 1.00 0.91 C
+ATOM 3497 O LEU B 219 22.631 -3.152 19.132 1.00 0.91 O
+ATOM 3498 CB LEU B 219 19.482 -3.806 19.084 1.00 0.91 C
+ATOM 3499 CG LEU B 219 18.307 -4.709 18.655 1.00 0.91 C
+ATOM 3500 CD1 LEU B 219 17.171 -3.866 18.065 1.00 0.91 C
+ATOM 3501 CD2 LEU B 219 18.726 -5.790 17.652 1.00 0.91 C
+ATOM 3502 N SER B 220 21.899 -3.164 21.241 1.00 0.92 N
+ATOM 3503 CA SER B 220 23.028 -2.383 21.743 1.00 0.92 C
+ATOM 3504 C SER B 220 24.363 -3.101 21.609 1.00 0.92 C
+ATOM 3505 O SER B 220 25.388 -2.514 21.269 1.00 0.92 O
+ATOM 3506 CB SER B 220 22.866 -1.971 23.224 1.00 0.92 C
+ATOM 3507 OG SER B 220 21.710 -1.151 23.385 1.00 0.92 O
+ATOM 3508 N HIS B 221 24.391 -4.425 21.852 1.00 0.89 N
+ATOM 3509 CA HIS B 221 25.562 -5.245 21.588 1.00 0.89 C
+ATOM 3510 C HIS B 221 25.915 -5.356 20.114 1.00 0.89 C
+ATOM 3511 O HIS B 221 27.080 -5.231 19.749 1.00 0.89 O
+ATOM 3512 CB HIS B 221 25.418 -6.639 22.222 1.00 0.89 C
+ATOM 3513 CG HIS B 221 26.621 -7.518 22.069 1.00 0.89 C
+ATOM 3514 ND1 HIS B 221 26.485 -8.707 21.395 1.00 0.89 N
+ATOM 3515 CD2 HIS B 221 27.892 -7.374 22.522 1.00 0.89 C
+ATOM 3516 CE1 HIS B 221 27.674 -9.277 21.448 1.00 0.89 C
+ATOM 3517 NE2 HIS B 221 28.566 -8.507 22.121 1.00 0.89 N
+ATOM 3518 N ILE B 222 24.922 -5.522 19.224 1.00 0.92 N
+ATOM 3519 CA ILE B 222 25.129 -5.557 17.780 1.00 0.92 C
+ATOM 3520 C ILE B 222 25.719 -4.256 17.243 1.00 0.92 C
+ATOM 3521 O ILE B 222 26.644 -4.265 16.428 1.00 0.92 O
+ATOM 3522 CB ILE B 222 23.856 -5.980 17.050 1.00 0.92 C
+ATOM 3523 CG1 ILE B 222 23.479 -7.433 17.440 1.00 0.92 C
+ATOM 3524 CG2 ILE B 222 24.053 -5.864 15.523 1.00 0.92 C
+ATOM 3525 CD1 ILE B 222 22.101 -7.876 16.938 1.00 0.92 C
+ATOM 3526 N ARG B 223 25.260 -3.100 17.760 1.00 0.85 N
+ATOM 3527 CA ARG B 223 25.829 -1.797 17.463 1.00 0.85 C
+ATOM 3528 C ARG B 223 27.294 -1.684 17.867 1.00 0.85 C
+ATOM 3529 O ARG B 223 28.146 -1.225 17.109 1.00 0.85 O
+ATOM 3530 CB ARG B 223 24.995 -0.730 18.208 1.00 0.85 C
+ATOM 3531 CG ARG B 223 25.231 0.739 17.807 1.00 0.85 C
+ATOM 3532 CD ARG B 223 24.757 1.063 16.385 1.00 0.85 C
+ATOM 3533 NE ARG B 223 24.633 2.554 16.273 1.00 0.85 N
+ATOM 3534 CZ ARG B 223 23.506 3.230 16.539 1.00 0.85 C
+ATOM 3535 NH1 ARG B 223 23.472 4.540 16.312 1.00 0.85 N
+ATOM 3536 NH2 ARG B 223 22.429 2.647 17.058 1.00 0.85 N
+ATOM 3537 N HIS B 224 27.635 -2.185 19.072 1.00 0.88 N
+ATOM 3538 CA HIS B 224 29.005 -2.259 19.552 1.00 0.88 C
+ATOM 3539 C HIS B 224 29.889 -3.147 18.691 1.00 0.88 C
+ATOM 3540 O HIS B 224 31.006 -2.777 18.336 1.00 0.88 O
+ATOM 3541 CB HIS B 224 29.010 -2.762 21.013 1.00 0.88 C
+ATOM 3542 CG HIS B 224 30.352 -2.894 21.660 1.00 0.88 C
+ATOM 3543 ND1 HIS B 224 31.076 -1.775 22.009 1.00 0.88 N
+ATOM 3544 CD2 HIS B 224 31.035 -4.015 21.994 1.00 0.88 C
+ATOM 3545 CE1 HIS B 224 32.189 -2.234 22.539 1.00 0.88 C
+ATOM 3546 NE2 HIS B 224 32.218 -3.588 22.556 1.00 0.88 N
+ATOM 3547 N MET B 225 29.389 -4.329 18.273 1.00 0.90 N
+ATOM 3548 CA MET B 225 30.099 -5.197 17.353 1.00 0.90 C
+ATOM 3549 C MET B 225 30.348 -4.545 16.008 1.00 0.90 C
+ATOM 3550 O MET B 225 31.437 -4.645 15.453 1.00 0.90 O
+ATOM 3551 CB MET B 225 29.344 -6.521 17.117 1.00 0.90 C
+ATOM 3552 CG MET B 225 29.247 -7.413 18.360 1.00 0.90 C
+ATOM 3553 SD MET B 225 28.689 -9.100 17.988 1.00 0.90 S
+ATOM 3554 CE MET B 225 26.961 -8.764 17.573 1.00 0.90 C
+ATOM 3555 N SER B 226 29.350 -3.823 15.467 1.00 0.90 N
+ATOM 3556 CA SER B 226 29.501 -3.074 14.228 1.00 0.90 C
+ATOM 3557 C SER B 226 30.552 -1.985 14.308 1.00 0.90 C
+ATOM 3558 O SER B 226 31.415 -1.882 13.440 1.00 0.90 O
+ATOM 3559 CB SER B 226 28.162 -2.447 13.787 1.00 0.90 C
+ATOM 3560 OG SER B 226 28.257 -1.793 12.519 1.00 0.90 O
+ATOM 3561 N ASN B 227 30.575 -1.185 15.393 1.00 0.89 N
+ATOM 3562 CA ASN B 227 31.602 -0.172 15.583 1.00 0.89 C
+ATOM 3563 C ASN B 227 33.004 -0.763 15.673 1.00 0.89 C
+ATOM 3564 O ASN B 227 33.938 -0.293 15.025 1.00 0.89 O
+ATOM 3565 CB ASN B 227 31.322 0.653 16.859 1.00 0.89 C
+ATOM 3566 CG ASN B 227 30.166 1.620 16.625 1.00 0.89 C
+ATOM 3567 OD1 ASN B 227 30.023 2.230 15.561 1.00 0.89 O
+ATOM 3568 ND2 ASN B 227 29.342 1.818 17.678 1.00 0.89 N
+ATOM 3569 N LYS B 228 33.167 -1.867 16.429 1.00 0.85 N
+ATOM 3570 CA LYS B 228 34.413 -2.604 16.491 1.00 0.85 C
+ATOM 3571 C LYS B 228 34.821 -3.229 15.172 1.00 0.85 C
+ATOM 3572 O LYS B 228 35.988 -3.211 14.784 1.00 0.85 O
+ATOM 3573 CB LYS B 228 34.354 -3.683 17.609 1.00 0.85 C
+ATOM 3574 CG LYS B 228 34.205 -3.109 19.036 1.00 0.85 C
+ATOM 3575 CD LYS B 228 35.444 -2.278 19.391 1.00 0.85 C
+ATOM 3576 CE LYS B 228 35.359 -1.326 20.584 1.00 0.85 C
+ATOM 3577 NZ LYS B 228 36.496 -0.390 20.491 1.00 0.85 N
+ATOM 3578 N GLY B 229 33.852 -3.768 14.412 1.00 0.86 N
+ATOM 3579 CA GLY B 229 34.094 -4.287 13.076 1.00 0.86 C
+ATOM 3580 C GLY B 229 34.512 -3.232 12.098 1.00 0.86 C
+ATOM 3581 O GLY B 229 35.418 -3.443 11.305 1.00 0.86 O
+ATOM 3582 N MET B 230 33.921 -2.031 12.162 1.00 0.77 N
+ATOM 3583 CA MET B 230 34.363 -0.904 11.371 1.00 0.77 C
+ATOM 3584 C MET B 230 35.772 -0.442 11.722 1.00 0.77 C
+ATOM 3585 O MET B 230 36.572 -0.206 10.818 1.00 0.77 O
+ATOM 3586 CB MET B 230 33.377 0.279 11.470 1.00 0.77 C
+ATOM 3587 CG MET B 230 32.027 0.061 10.748 1.00 0.77 C
+ATOM 3588 SD MET B 230 32.103 -0.446 8.997 1.00 0.77 S
+ATOM 3589 CE MET B 230 33.172 0.878 8.383 1.00 0.77 C
+ATOM 3590 N GLU B 231 36.138 -0.377 13.033 1.00 0.79 N
+ATOM 3591 CA GLU B 231 37.516 -0.136 13.471 1.00 0.79 C
+ATOM 3592 C GLU B 231 38.468 -1.144 12.826 1.00 0.79 C
+ATOM 3593 O GLU B 231 39.481 -0.784 12.228 1.00 0.79 O
+ATOM 3594 CB GLU B 231 37.702 -0.243 15.032 1.00 0.79 C
+ATOM 3595 CG GLU B 231 37.234 0.976 15.887 1.00 0.79 C
+ATOM 3596 CD GLU B 231 37.567 0.919 17.383 1.00 0.79 C
+ATOM 3597 OE1 GLU B 231 36.779 0.308 18.141 1.00 0.79 O
+ATOM 3598 OE2 GLU B 231 38.593 1.489 17.815 1.00 0.79 O
+ATOM 3599 N HIS B 232 38.102 -2.440 12.873 1.00 0.76 N
+ATOM 3600 CA HIS B 232 38.880 -3.524 12.305 1.00 0.76 C
+ATOM 3601 C HIS B 232 39.031 -3.482 10.796 1.00 0.76 C
+ATOM 3602 O HIS B 232 40.118 -3.664 10.255 1.00 0.76 O
+ATOM 3603 CB HIS B 232 38.268 -4.878 12.724 1.00 0.76 C
+ATOM 3604 CG HIS B 232 39.144 -6.045 12.420 1.00 0.76 C
+ATOM 3605 ND1 HIS B 232 38.647 -7.191 11.822 1.00 0.76 N
+ATOM 3606 CD2 HIS B 232 40.460 -6.184 12.692 1.00 0.76 C
+ATOM 3607 CE1 HIS B 232 39.685 -8.001 11.741 1.00 0.76 C
+ATOM 3608 NE2 HIS B 232 40.802 -7.438 12.251 1.00 0.76 N
+ATOM 3609 N LEU B 233 37.954 -3.204 10.041 1.00 0.76 N
+ATOM 3610 CA LEU B 233 38.040 -3.118 8.595 1.00 0.76 C
+ATOM 3611 C LEU B 233 38.955 -1.991 8.136 1.00 0.76 C
+ATOM 3612 O LEU B 233 39.762 -2.172 7.228 1.00 0.76 O
+ATOM 3613 CB LEU B 233 36.652 -2.970 7.936 1.00 0.76 C
+ATOM 3614 CG LEU B 233 35.681 -4.153 8.135 1.00 0.76 C
+ATOM 3615 CD1 LEU B 233 34.286 -3.792 7.602 1.00 0.76 C
+ATOM 3616 CD2 LEU B 233 36.175 -5.446 7.475 1.00 0.76 C
+ATOM 3617 N TYR B 234 38.897 -0.820 8.802 1.00 0.70 N
+ATOM 3618 CA TYR B 234 39.810 0.280 8.542 1.00 0.70 C
+ATOM 3619 C TYR B 234 41.271 -0.012 8.877 1.00 0.70 C
+ATOM 3620 O TYR B 234 42.175 0.521 8.239 1.00 0.70 O
+ATOM 3621 CB TYR B 234 39.375 1.578 9.269 1.00 0.70 C
+ATOM 3622 CG TYR B 234 38.258 2.276 8.538 1.00 0.70 C
+ATOM 3623 CD1 TYR B 234 38.470 2.805 7.252 1.00 0.70 C
+ATOM 3624 CD2 TYR B 234 37.008 2.469 9.147 1.00 0.70 C
+ATOM 3625 CE1 TYR B 234 37.444 3.486 6.582 1.00 0.70 C
+ATOM 3626 CE2 TYR B 234 35.980 3.150 8.480 1.00 0.70 C
+ATOM 3627 CZ TYR B 234 36.199 3.653 7.193 1.00 0.70 C
+ATOM 3628 OH TYR B 234 35.176 4.343 6.516 1.00 0.70 O
+ATOM 3629 N SER B 235 41.573 -0.861 9.883 1.00 0.72 N
+ATOM 3630 CA SER B 235 42.956 -1.249 10.134 1.00 0.72 C
+ATOM 3631 C SER B 235 43.506 -2.255 9.130 1.00 0.72 C
+ATOM 3632 O SER B 235 44.714 -2.324 8.914 1.00 0.72 O
+ATOM 3633 CB SER B 235 43.196 -1.761 11.580 1.00 0.72 C
+ATOM 3634 OG SER B 235 42.477 -2.960 11.868 1.00 0.72 O
+ATOM 3635 N MET B 236 42.634 -3.031 8.454 1.00 0.67 N
+ATOM 3636 CA MET B 236 43.035 -3.924 7.381 1.00 0.67 C
+ATOM 3637 C MET B 236 43.039 -3.300 5.987 1.00 0.67 C
+ATOM 3638 O MET B 236 43.842 -3.677 5.130 1.00 0.67 O
+ATOM 3639 CB MET B 236 42.096 -5.148 7.330 1.00 0.67 C
+ATOM 3640 CG MET B 236 42.246 -6.092 8.536 1.00 0.67 C
+ATOM 3641 SD MET B 236 41.294 -7.632 8.367 1.00 0.67 S
+ATOM 3642 CE MET B 236 39.666 -6.851 8.532 1.00 0.67 C
+ATOM 3643 N LYS B 237 42.125 -2.359 5.694 1.00 0.67 N
+ATOM 3644 CA LYS B 237 42.035 -1.716 4.399 1.00 0.67 C
+ATOM 3645 C LYS B 237 41.978 -0.217 4.594 1.00 0.67 C
+ATOM 3646 O LYS B 237 41.133 0.311 5.308 1.00 0.67 O
+ATOM 3647 CB LYS B 237 40.790 -2.192 3.597 1.00 0.67 C
+ATOM 3648 CG LYS B 237 41.082 -2.758 2.197 1.00 0.67 C
+ATOM 3649 CD LYS B 237 41.854 -4.085 2.256 1.00 0.67 C
+ATOM 3650 CE LYS B 237 42.151 -4.678 0.880 1.00 0.67 C
+ATOM 3651 NZ LYS B 237 42.979 -5.895 1.030 1.00 0.67 N
+ATOM 3652 N SER B 238 42.888 0.522 3.933 1.00 0.57 N
+ATOM 3653 CA SER B 238 42.994 1.964 4.069 1.00 0.57 C
+ATOM 3654 C SER B 238 41.762 2.722 3.609 1.00 0.57 C
+ATOM 3655 O SER B 238 41.338 3.691 4.234 1.00 0.57 O
+ATOM 3656 CB SER B 238 44.244 2.495 3.311 1.00 0.57 C
+ATOM 3657 OG SER B 238 44.228 2.132 1.926 1.00 0.57 O
+ATOM 3658 N LYS B 239 41.165 2.288 2.487 1.00 0.55 N
+ATOM 3659 CA LYS B 239 40.046 2.920 1.834 1.00 0.55 C
+ATOM 3660 C LYS B 239 39.315 1.797 1.122 1.00 0.55 C
+ATOM 3661 O LYS B 239 39.805 0.670 1.082 1.00 0.55 O
+ATOM 3662 CB LYS B 239 40.490 4.003 0.809 1.00 0.55 C
+ATOM 3663 CG LYS B 239 41.090 5.265 1.452 1.00 0.55 C
+ATOM 3664 CD LYS B 239 41.922 6.114 0.482 1.00 0.55 C
+ATOM 3665 CE LYS B 239 42.716 7.181 1.240 1.00 0.55 C
+ATOM 3666 NZ LYS B 239 43.625 7.911 0.331 1.00 0.55 N
+ATOM 3667 N ASN B 240 38.107 2.073 0.575 1.00 0.61 N
+ATOM 3668 CA ASN B 240 37.253 1.069 -0.049 1.00 0.61 C
+ATOM 3669 C ASN B 240 36.720 0.061 0.974 1.00 0.61 C
+ATOM 3670 O ASN B 240 36.780 -1.152 0.794 1.00 0.61 O
+ATOM 3671 CB ASN B 240 37.933 0.420 -1.290 1.00 0.61 C
+ATOM 3672 CG ASN B 240 36.915 -0.238 -2.211 1.00 0.61 C
+ATOM 3673 OD1 ASN B 240 35.791 0.246 -2.363 1.00 0.61 O
+ATOM 3674 ND2 ASN B 240 37.321 -1.336 -2.885 1.00 0.61 N
+ATOM 3675 N VAL B 241 36.207 0.600 2.101 1.00 0.64 N
+ATOM 3676 CA VAL B 241 35.707 -0.166 3.233 1.00 0.64 C
+ATOM 3677 C VAL B 241 34.217 0.041 3.428 1.00 0.64 C
+ATOM 3678 O VAL B 241 33.482 -0.879 3.777 1.00 0.64 O
+ATOM 3679 CB VAL B 241 36.403 0.285 4.519 1.00 0.64 C
+ATOM 3680 CG1 VAL B 241 35.795 -0.400 5.758 1.00 0.64 C
+ATOM 3681 CG2 VAL B 241 37.900 -0.049 4.434 1.00 0.64 C
+ATOM 3682 N VAL B 242 33.711 1.268 3.202 1.00 0.68 N
+ATOM 3683 CA VAL B 242 32.292 1.555 3.308 1.00 0.68 C
+ATOM 3684 C VAL B 242 31.697 1.615 1.912 1.00 0.68 C
+ATOM 3685 O VAL B 242 32.376 2.076 0.988 1.00 0.68 O
+ATOM 3686 CB VAL B 242 31.976 2.847 4.056 1.00 0.68 C
+ATOM 3687 CG1 VAL B 242 32.378 2.682 5.530 1.00 0.68 C
+ATOM 3688 CG2 VAL B 242 32.692 4.058 3.429 1.00 0.68 C
+ATOM 3689 N PRO B 243 30.478 1.146 1.657 1.00 0.74 N
+ATOM 3690 CA PRO B 243 29.780 1.438 0.414 1.00 0.74 C
+ATOM 3691 C PRO B 243 29.558 2.926 0.194 1.00 0.74 C
+ATOM 3692 O PRO B 243 28.996 3.599 1.053 1.00 0.74 O
+ATOM 3693 CB PRO B 243 28.475 0.646 0.531 1.00 0.74 C
+ATOM 3694 CG PRO B 243 28.197 0.597 2.034 1.00 0.74 C
+ATOM 3695 CD PRO B 243 29.598 0.499 2.636 1.00 0.74 C
+ATOM 3696 N LEU B 244 29.998 3.462 -0.956 1.00 0.67 N
+ATOM 3697 CA LEU B 244 29.848 4.861 -1.307 1.00 0.67 C
+ATOM 3698 C LEU B 244 28.396 5.314 -1.418 1.00 0.67 C
+ATOM 3699 O LEU B 244 27.516 4.523 -1.763 1.00 0.67 O
+ATOM 3700 CB LEU B 244 30.570 5.167 -2.643 1.00 0.67 C
+ATOM 3701 CG LEU B 244 32.094 4.920 -2.645 1.00 0.67 C
+ATOM 3702 CD1 LEU B 244 32.661 5.126 -4.058 1.00 0.67 C
+ATOM 3703 CD2 LEU B 244 32.824 5.844 -1.661 1.00 0.67 C
+ATOM 3704 N SER B 245 28.114 6.617 -1.179 1.00 0.77 N
+ATOM 3705 CA SER B 245 26.780 7.201 -1.267 1.00 0.77 C
+ATOM 3706 C SER B 245 26.130 6.939 -2.608 1.00 0.77 C
+ATOM 3707 O SER B 245 25.009 6.436 -2.708 1.00 0.77 O
+ATOM 3708 CB SER B 245 26.860 8.734 -1.033 1.00 0.77 C
+ATOM 3709 OG SER B 245 27.576 8.988 0.168 1.00 0.77 O
+ATOM 3710 N ASP B 246 26.894 7.171 -3.683 1.00 0.75 N
+ATOM 3711 CA ASP B 246 26.509 6.942 -5.053 1.00 0.75 C
+ATOM 3712 C ASP B 246 26.176 5.481 -5.341 1.00 0.75 C
+ATOM 3713 O ASP B 246 25.156 5.172 -5.944 1.00 0.75 O
+ATOM 3714 CB ASP B 246 27.671 7.405 -5.965 1.00 0.75 C
+ATOM 3715 CG ASP B 246 28.008 8.885 -5.805 1.00 0.75 C
+ATOM 3716 OD1 ASP B 246 27.317 9.597 -5.034 1.00 0.75 O
+ATOM 3717 OD2 ASP B 246 29.014 9.297 -6.431 1.00 0.75 O
+ATOM 3718 N LEU B 247 27.002 4.531 -4.841 1.00 0.71 N
+ATOM 3719 CA LEU B 247 26.783 3.100 -5.002 1.00 0.71 C
+ATOM 3720 C LEU B 247 25.480 2.641 -4.372 1.00 0.71 C
+ATOM 3721 O LEU B 247 24.689 1.915 -4.975 1.00 0.71 O
+ATOM 3722 CB LEU B 247 27.972 2.312 -4.382 1.00 0.71 C
+ATOM 3723 CG LEU B 247 27.812 0.779 -4.269 1.00 0.71 C
+ATOM 3724 CD1 LEU B 247 27.592 0.110 -5.631 1.00 0.71 C
+ATOM 3725 CD2 LEU B 247 29.028 0.149 -3.578 1.00 0.71 C
+ATOM 3726 N LEU B 248 25.193 3.094 -3.137 1.00 0.75 N
+ATOM 3727 CA LEU B 248 23.939 2.785 -2.479 1.00 0.75 C
+ATOM 3728 C LEU B 248 22.730 3.368 -3.190 1.00 0.75 C
+ATOM 3729 O LEU B 248 21.728 2.682 -3.379 1.00 0.75 O
+ATOM 3730 CB LEU B 248 23.970 3.248 -1.011 1.00 0.75 C
+ATOM 3731 CG LEU B 248 24.941 2.446 -0.125 1.00 0.75 C
+ATOM 3732 CD1 LEU B 248 25.098 3.144 1.221 1.00 0.75 C
+ATOM 3733 CD2 LEU B 248 24.464 1.009 0.104 1.00 0.75 C
+ATOM 3734 N LEU B 249 22.815 4.632 -3.652 1.00 0.77 N
+ATOM 3735 CA LEU B 249 21.762 5.270 -4.424 1.00 0.77 C
+ATOM 3736 C LEU B 249 21.492 4.558 -5.746 1.00 0.77 C
+ATOM 3737 O LEU B 249 20.352 4.267 -6.093 1.00 0.77 O
+ATOM 3738 CB LEU B 249 22.120 6.759 -4.646 1.00 0.77 C
+ATOM 3739 CG LEU B 249 20.965 7.670 -5.108 1.00 0.77 C
+ATOM 3740 CD1 LEU B 249 19.861 7.790 -4.047 1.00 0.77 C
+ATOM 3741 CD2 LEU B 249 21.503 9.072 -5.432 1.00 0.77 C
+ATOM 3742 N GLU B 250 22.555 4.153 -6.467 1.00 0.72 N
+ATOM 3743 CA GLU B 250 22.473 3.416 -7.717 1.00 0.72 C
+ATOM 3744 C GLU B 250 21.763 2.071 -7.578 1.00 0.72 C
+ATOM 3745 O GLU B 250 20.894 1.693 -8.365 1.00 0.72 O
+ATOM 3746 CB GLU B 250 23.907 3.211 -8.261 1.00 0.72 C
+ATOM 3747 CG GLU B 250 24.027 3.101 -9.797 1.00 0.72 C
+ATOM 3748 CD GLU B 250 25.456 2.748 -10.209 1.00 0.72 C
+ATOM 3749 OE1 GLU B 250 26.124 3.608 -10.836 1.00 0.72 O
+ATOM 3750 OE2 GLU B 250 25.876 1.600 -9.906 1.00 0.72 O
+ATOM 3751 N MET B 251 22.075 1.312 -6.506 1.00 0.70 N
+ATOM 3752 CA MET B 251 21.342 0.109 -6.170 1.00 0.70 C
+ATOM 3753 C MET B 251 19.891 0.347 -5.770 1.00 0.70 C
+ATOM 3754 O MET B 251 19.003 -0.420 -6.152 1.00 0.70 O
+ATOM 3755 CB MET B 251 22.061 -0.683 -5.058 1.00 0.70 C
+ATOM 3756 CG MET B 251 23.348 -1.378 -5.534 1.00 0.70 C
+ATOM 3757 SD MET B 251 24.116 -2.431 -4.269 1.00 0.70 S
+ATOM 3758 CE MET B 251 24.603 -1.066 -3.189 1.00 0.70 C
+ATOM 3759 N LEU B 252 19.603 1.403 -4.982 1.00 0.77 N
+ATOM 3760 CA LEU B 252 18.251 1.748 -4.581 1.00 0.77 C
+ATOM 3761 C LEU B 252 17.364 2.139 -5.742 1.00 0.77 C
+ATOM 3762 O LEU B 252 16.253 1.616 -5.870 1.00 0.77 O
+ATOM 3763 CB LEU B 252 18.241 2.908 -3.563 1.00 0.77 C
+ATOM 3764 CG LEU B 252 18.539 2.503 -2.109 1.00 0.77 C
+ATOM 3765 CD1 LEU B 252 18.884 3.761 -1.308 1.00 0.77 C
+ATOM 3766 CD2 LEU B 252 17.343 1.795 -1.462 1.00 0.77 C
+ATOM 3767 N ASP B 253 17.865 2.997 -6.642 1.00 0.75 N
+ATOM 3768 CA ASP B 253 17.138 3.513 -7.779 1.00 0.75 C
+ATOM 3769 C ASP B 253 16.840 2.440 -8.816 1.00 0.75 C
+ATOM 3770 O ASP B 253 15.863 2.521 -9.557 1.00 0.75 O
+ATOM 3771 CB ASP B 253 17.940 4.674 -8.416 1.00 0.75 C
+ATOM 3772 CG ASP B 253 17.941 5.915 -7.527 1.00 0.75 C
+ATOM 3773 OD1 ASP B 253 17.280 5.907 -6.456 1.00 0.75 O
+ATOM 3774 OD2 ASP B 253 18.590 6.908 -7.944 1.00 0.75 O
+ATOM 3775 N ALA B 254 17.661 1.371 -8.879 1.00 0.76 N
+ATOM 3776 CA ALA B 254 17.477 0.285 -9.809 1.00 0.76 C
+ATOM 3777 C ALA B 254 16.127 -0.430 -9.721 1.00 0.76 C
+ATOM 3778 O ALA B 254 15.687 -0.906 -8.666 1.00 0.76 O
+ATOM 3779 CB ALA B 254 18.619 -0.731 -9.643 1.00 0.76 C
+ATOM 3780 N HIS B 255 15.441 -0.529 -10.873 1.00 0.31 N
+ATOM 3781 CA HIS B 255 14.203 -1.265 -11.027 1.00 0.31 C
+ATOM 3782 C HIS B 255 14.502 -2.738 -11.288 1.00 0.31 C
+ATOM 3783 O HIS B 255 14.514 -3.189 -12.431 1.00 0.31 O
+ATOM 3784 CB HIS B 255 13.348 -0.628 -12.151 1.00 0.31 C
+ATOM 3785 CG HIS B 255 13.349 0.882 -12.085 1.00 0.31 C
+ATOM 3786 ND1 HIS B 255 13.465 1.613 -13.254 1.00 0.31 N
+ATOM 3787 CD2 HIS B 255 13.346 1.720 -11.014 1.00 0.31 C
+ATOM 3788 CE1 HIS B 255 13.534 2.873 -12.871 1.00 0.31 C
+ATOM 3789 NE2 HIS B 255 13.470 2.995 -11.525 1.00 0.31 N
+ATOM 3790 N ARG B 256 14.814 -3.493 -10.218 1.00 0.42 N
+ATOM 3791 CA ARG B 256 15.144 -4.902 -10.279 1.00 0.42 C
+ATOM 3792 C ARG B 256 13.874 -5.789 -10.351 1.00 0.42 C
+ATOM 3793 O ARG B 256 12.773 -5.305 -9.973 1.00 0.42 O
+ATOM 3794 CB ARG B 256 15.913 -5.354 -9.005 1.00 0.42 C
+ATOM 3795 CG ARG B 256 17.184 -4.558 -8.647 1.00 0.42 C
+ATOM 3796 CD ARG B 256 18.271 -4.609 -9.719 1.00 0.42 C
+ATOM 3797 NE ARG B 256 19.502 -4.044 -9.075 1.00 0.42 N
+ATOM 3798 CZ ARG B 256 20.587 -3.627 -9.741 1.00 0.42 C
+ATOM 3799 NH1 ARG B 256 20.651 -3.685 -11.068 1.00 0.42 N
+ATOM 3800 NH2 ARG B 256 21.619 -3.135 -9.057 1.00 0.42 N
+TER 3801 ARG B 256
+END
diff --git a/examples/scoring/model_ligand-1.sdf b/examples/scoring/model_ligand-1.sdf
new file mode 100644
index 000000000..b75836662
--- /dev/null
+++ b/examples/scoring/model_ligand-1.sdf
@@ -0,0 +1,155 @@
+LIG
+ OST02122508393D
+
+ 72 77 0 0 0 0 999 V2000
+ 34.2410 -11.9470 9.1080 O 0 0 0 0 0 0
+ 33.9430 -10.7380 9.5310 C 0 0 0 0 0 0
+ 34.7350 -10.3020 10.6450 C 0 0 0 0 0 0
+ 34.4700 -10.8250 11.9070 C 0 0 0 0 0 0
+ 35.1420 -10.4010 13.0060 C 0 0 0 0 0 0
+ 36.1110 -9.4390 12.9330 C 0 0 0 0 0 0
+ 36.4000 -8.8970 11.7040 C 0 0 0 0 0 0
+ 35.7070 -9.3350 10.5780 C 0 0 0 0 0 0
+ 32.9290 -10.1370 8.8170 N 0 0 0 0 0 0
+ 32.7500 -10.4970 7.3810 C 0 0 0 0 0 0
+ 33.2450 -9.4080 6.5240 C 0 0 0 0 0 0
+ 32.3360 -8.5890 5.8690 C 0 0 0 0 0 0
+ 32.7920 -7.5950 5.0520 C 0 0 0 0 0 0
+ 34.1700 -7.3540 4.8330 C 0 0 0 0 0 0
+ 34.5390 -6.3850 4.0370 O 0 0 0 0 0 0
+ 34.8610 -5.7980 2.9160 C 0 0 0 0 0 0
+ 33.7520 -5.4490 1.9530 C 0 0 0 0 0 0
+ 32.4030 -5.4950 2.5250 C 0 0 0 0 0 0
+ 31.7200 -4.4400 2.0470 C 0 0 0 0 0 0
+ 32.4970 -3.6670 1.1830 N 0 3 0 0 0 0
+ 32.2350 -2.2530 1.3810 C 0 0 0 0 0 0
+ 31.8980 -1.5530 0.1070 C 0 0 0 0 0 0
+ 33.0490 -0.8730 -0.5560 C 0 0 0 0 0 0
+ 34.1510 -1.7300 -0.4330 F 0 0 0 0 0 0
+ 33.8570 -4.0210 1.4710 C 0 0 0 0 0 0
+ 35.0410 -8.1850 5.4990 C 0 0 0 0 0 0
+ 34.5780 -9.1800 6.3180 C 0 0 0 0 0 0
+ 31.3290 -10.8230 7.2630 C 0 0 0 0 0 0
+ 30.8900 -11.4980 6.1170 C 0 0 0 0 0 0
+ 29.5700 -11.8510 5.9330 C 0 0 0 0 0 0
+ 28.6260 -11.5470 6.8850 C 0 0 0 0 0 0
+ 27.2950 -11.9020 6.7030 O 0 0 0 0 0 0
+ 29.0350 -10.8880 8.0110 C 0 0 0 0 0 0
+ 30.3740 -10.5280 8.2020 C 0 0 0 0 0 0
+ 30.6340 -9.8180 9.5020 C 0 0 0 0 0 0
+ 32.0050 -9.1660 9.3040 C 0 0 0 0 0 0
+ 31.9000 -7.8280 8.6500 C 0 0 0 0 0 0
+ 32.3280 -7.9750 10.0890 C 0 0 0 0 0 0
+ 33.6974 -11.6004 12.0157 H 0 0 0 0 0 0
+ 34.9007 -10.8435 13.9838 H 0 0 0 0 0 0
+ 36.6456 -9.1074 13.8354 H 0 0 0 0 0 0
+ 37.1744 -8.1215 11.6098 H 0 0 0 0 0 0
+ 35.9470 -8.8905 9.6009 H 0 0 0 0 0 0
+ 33.3373 -11.3619 7.0390 H 0 0 0 0 0 0
+ 31.2552 -8.7398 6.0073 H 0 0 0 0 0 0
+ 32.0577 -6.9540 4.5421 H 0 0 0 0 0 0
+ 35.3766 -4.8612 3.1740 H 0 0 0 0 0 0
+ 35.4651 -6.5445 2.3794 H 0 0 0 0 0 0
+ 33.8809 -6.2067 1.1660 H 0 0 0 0 0 0
+ 32.0186 -6.2558 3.2203 H 0 0 0 0 0 0
+ 30.6751 -4.2136 2.3057 H 0 0 0 0 0 0
+ 32.2830 -3.9690 0.2050 H 0 0 0 0 0 0
+ 31.3908 -2.1443 2.0778 H 0 0 0 0 0 0
+ 33.1509 -1.7953 1.7830 H 0 0 0 0 0 0
+ 31.4892 -2.2957 -0.5939 H 0 0 0 0 0 0
+ 31.1796 -0.7621 0.3685 H 0 0 0 0 0 0
+ 32.8236 -0.6959 -1.6180 H 0 0 0 0 0 0
+ 33.2533 0.1021 -0.0897 H 0 0 0 0 0 0
+ 34.4807 -3.9554 0.5673 H 0 0 0 0 0 0
+ 34.3283 -3.3528 2.2067 H 0 0 0 0 0 0
+ 36.1250 -8.0482 5.3718 H 0 0 0 0 0 0
+ 35.3083 -9.8226 6.8316 H 0 0 0 0 0 0
+ 31.6227 -11.7550 5.3379 H 0 0 0 0 0 0
+ 29.2697 -12.3804 5.0167 H 0 0 0 0 0 0
+ 26.9440 -12.2260 5.8090 H 0 0 0 0 0 0
+ 28.2948 -10.6350 8.7844 H 0 0 0 0 0 0
+ 29.8633 -9.0565 9.6919 H 0 0 0 0 0 0
+ 30.6109 -10.4980 10.3663 H 0 0 0 0 0 0
+ 32.6285 -7.5270 7.8827 H 0 0 0 0 0 0
+ 31.1161 -7.2726 8.1143 H 0 0 0 0 0 0
+ 33.3705 -7.7721 10.3753 H 0 0 0 0 0 0
+ 31.9828 -7.5602 11.0475 H 0 0 0 0 0 0
+ 1 2 2 0 0 0
+ 2 3 1 0 0 0
+ 2 9 1 0 0 0
+ 3 4 2 0 0 0
+ 3 8 1 0 0 0
+ 4 5 1 0 0 0
+ 4 39 1 0 0 0
+ 5 6 2 0 0 0
+ 5 40 1 0 0 0
+ 6 7 1 0 0 0
+ 6 41 1 0 0 0
+ 7 8 2 0 0 0
+ 7 42 1 0 0 0
+ 8 43 1 0 0 0
+ 9 10 1 0 0 0
+ 9 36 1 0 0 0
+ 10 11 1 0 0 0
+ 10 28 1 0 0 0
+ 10 44 1 0 0 0
+ 11 12 2 0 0 0
+ 11 27 1 0 0 0
+ 12 13 1 0 0 0
+ 12 45 1 0 0 0
+ 13 14 2 0 0 0
+ 13 46 1 0 0 0
+ 14 15 1 0 0 0
+ 14 26 1 0 0 0
+ 15 16 1 0 0 0
+ 16 17 1 0 0 0
+ 16 47 1 0 0 0
+ 16 48 1 0 0 0
+ 17 18 1 0 0 0
+ 17 25 1 0 0 0
+ 17 49 1 0 0 0
+ 18 19 2 0 0 0
+ 18 50 1 0 0 0
+ 19 20 1 0 0 0
+ 19 51 1 0 0 0
+ 20 21 1 0 0 0
+ 20 25 1 0 0 0
+ 20 52 1 0 0 0
+ 21 22 1 0 0 0
+ 21 53 1 0 0 0
+ 21 54 1 0 0 0
+ 22 23 1 0 0 0
+ 22 55 1 0 0 0
+ 22 56 1 0 0 0
+ 23 24 1 0 0 0
+ 23 57 1 0 0 0
+ 23 58 1 0 0 0
+ 25 59 1 0 0 0
+ 25 60 1 0 0 0
+ 26 27 2 0 0 0
+ 26 61 1 0 0 0
+ 27 62 1 0 0 0
+ 28 29 2 0 0 0
+ 28 34 1 0 0 0
+ 29 30 1 0 0 0
+ 29 63 1 0 0 0
+ 30 31 2 0 0 0
+ 30 64 1 0 0 0
+ 31 32 1 0 0 0
+ 31 33 1 0 0 0
+ 32 65 1 0 0 0
+ 33 34 2 0 0 0
+ 33 66 1 0 0 0
+ 34 35 1 0 0 0
+ 35 36 1 0 0 0
+ 35 67 1 0 0 0
+ 35 68 1 0 0 0
+ 36 37 1 0 0 0
+ 36 38 1 0 0 0
+ 37 38 1 0 0 0
+ 37 69 1 0 0 0
+ 37 70 1 0 0 0
+ 38 71 1 0 0 0
+ 38 72 1 0 0 0
+M END
+$$$$
diff --git a/examples/scoring/model_ligand-2.sdf b/examples/scoring/model_ligand-2.sdf
new file mode 100644
index 000000000..986f4f8c1
--- /dev/null
+++ b/examples/scoring/model_ligand-2.sdf
@@ -0,0 +1,46 @@
+LIG
+ OST02122508393D
+
+ 20 20 0 0 0 0 999 V2000
+ 14.5030 17.7260 35.6290 N 0 3 0 0 0 0
+ 14.6340 17.4680 34.2040 C 0 0 0 0 0 0
+ 15.9580 16.7510 33.9650 C 0 0 0 0 0 0
+ 17.0760 17.4970 34.5970 C 0 0 0 0 0 0
+ 17.8840 18.3940 33.9480 C 0 0 0 0 0 0
+ 18.7760 18.8660 34.8320 N 0 0 0 0 0 0
+ 18.5470 18.2880 36.0220 C 0 0 0 0 0 0
+ 17.5090 17.4570 35.8620 N 0 0 0 0 0 0
+ 13.5190 16.6000 33.7450 C 0 0 0 0 0 0
+ 13.0900 16.6000 32.5610 O 0 0 0 0 0 0
+ 12.9120 15.7440 34.6560 O 0 5 0 0 0 0
+ 15.4250 17.9670 36.0330 H 0 0 0 0 0 0
+ 14.1590 16.8270 36.0620 H 0 0 0 0 0 0
+ 13.7950 18.4920 35.7430 H 0 0 0 0 0 0
+ 14.6038 18.4166 33.6478 H 0 0 0 0 0 0
+ 15.9061 15.7413 34.3984 H 0 0 0 0 0 0
+ 16.1388 16.6903 32.8817 H 0 0 0 0 0 0
+ 17.8134 18.6774 32.8875 H 0 0 0 0 0 0
+ 19.5230 19.5620 34.6410 H 0 0 0 0 0 0
+ 19.1064 18.4638 36.9527 H 0 0 0 0 0 0
+ 1 2 1 0 0 0
+ 1 12 1 0 0 0
+ 1 13 1 0 0 0
+ 1 14 1 0 0 0
+ 2 3 1 0 0 0
+ 2 9 1 0 0 0
+ 2 15 1 0 0 0
+ 3 4 1 0 0 0
+ 3 16 1 0 0 0
+ 3 17 1 0 0 0
+ 4 5 2 0 0 0
+ 4 8 1 0 0 0
+ 5 6 1 0 0 0
+ 5 18 1 0 0 0
+ 6 7 1 0 0 0
+ 6 19 1 0 0 0
+ 7 8 2 0 0 0
+ 7 20 1 0 0 0
+ 9 10 2 0 0 0
+ 9 11 1 0 0 0
+M END
+$$$$
diff --git a/examples/scoring/model_ligand-3.sdf b/examples/scoring/model_ligand-3.sdf
new file mode 100644
index 000000000..16845fd5d
--- /dev/null
+++ b/examples/scoring/model_ligand-3.sdf
@@ -0,0 +1,159 @@
+LIG
+ OST02122508393D
+
+ 74 79 0 0 0 0 999 V2000
+ 12.4190 4.5510 -2.7930 O 0 0 0 0 0 0
+ 12.0190 4.4310 -4.0260 C 0 0 0 0 0 0
+ 11.1680 3.2690 -4.1990 C 0 0 0 0 0 0
+ 11.6010 1.9680 -4.3190 C 0 0 0 0 0 0
+ 10.7390 0.9160 -4.5410 C 0 0 0 0 0 0
+ 9.3830 1.1340 -4.6520 C 0 0 0 0 0 0
+ 8.8950 2.4170 -4.5400 C 0 0 0 0 0 0
+ 9.7790 3.4270 -4.3210 C 0 0 0 0 0 0
+ 12.4790 5.4060 -4.8800 N 0 0 0 0 0 0
+ 12.1160 6.7850 -5.0820 C 0 0 0 0 0 0
+ 11.7080 7.6360 -4.0250 C 0 0 0 0 0 0
+ 11.1470 7.1340 -2.8800 C 0 0 0 0 0 0
+ 10.7360 7.9710 -1.8360 C 0 0 0 0 0 0
+ 10.8730 9.3220 -1.9110 C 0 0 0 0 0 0
+ 10.4590 10.1350 -0.8630 O 0 0 0 0 0 0
+ 10.1380 11.4780 -1.1770 C 0 0 0 0 0 0
+ 9.0670 12.0230 -0.2570 C 0 0 0 0 0 0
+ 9.7170 13.1580 0.5200 C 0 0 0 0 0 0
+ 9.0230 13.0220 1.8600 C 0 0 0 0 0 0
+ 8.8160 11.6130 2.0600 N 0 3 0 0 0 0
+ 7.8740 11.2800 3.0670 C 0 0 0 0 0 0
+ 6.8120 10.2970 2.7280 C 0 0 0 0 0 0
+ 6.3780 9.3930 3.8480 C 0 0 0 0 0 0
+ 5.5450 8.3930 3.3490 F 0 0 0 0 0 0
+ 8.6370 11.0000 0.7800 C 0 0 0 0 0 0
+ 11.4380 9.8270 -3.0690 C 0 0 0 0 0 0
+ 11.8470 9.0170 -4.1020 C 0 0 0 0 0 0
+ 11.3500 6.7770 -6.3380 C 0 0 0 0 0 0
+ 10.0500 7.1170 -6.5250 C 0 0 0 0 0 0
+ 9.5430 7.0240 -7.8300 C 0 0 0 0 0 0
+ 10.3100 6.6090 -8.8810 C 0 0 0 0 0 0
+ 9.8140 6.5130 -10.1870 O 0 0 0 0 0 0
+ 11.6490 6.2570 -8.6840 C 0 0 0 0 0 0
+ 12.1520 6.3440 -7.4210 C 0 0 0 0 0 0
+ 13.5400 5.9540 -7.0840 C 0 0 0 0 0 0
+ 13.4600 4.9620 -5.9190 C 0 0 0 0 0 0
+ 13.4910 3.5460 -6.3540 C 0 0 0 0 0 0
+ 14.6540 4.2220 -5.6000 C 0 0 0 0 0 0
+ 12.6778 1.7597 -4.2343 H 0 0 0 0 0 0
+ 11.1366 -0.1058 -4.6303 H 0 0 0 0 0 0
+ 8.6974 0.2921 -4.8282 H 0 0 0 0 0 0
+ 7.8172 2.6197 -4.6255 H 0 0 0 0 0 0
+ 9.3741 4.4460 -4.2327 H 0 0 0 0 0 0
+ 13.0367 7.3845 -5.1357 H 0 0 0 0 0 0
+ 11.0164 6.0465 -2.7788 H 0 0 0 0 0 0
+ 10.2917 7.5255 -0.9337 H 0 0 0 0 0 0
+ 11.0433 12.0947 -1.0761 H 0 0 0 0 0 0
+ 9.7553 11.5090 -2.2078 H 0 0 0 0 0 0
+ 8.1937 12.3179 -0.8574 H 0 0 0 0 0 0
+ 10.8039 13.0152 0.6111 H 0 0 0 0 0 0
+ 9.6116 14.1479 0.0520 H 0 0 0 0 0 0
+ 9.6554 13.4326 2.6610 H 0 0 0 0 0 0
+ 8.0721 13.5747 1.8784 H 0 0 0 0 0 0
+ 9.7660 11.2560 2.4300 H 0 0 0 0 0 0
+ 8.4366 10.8733 3.9203 H 0 0 0 0 0 0
+ 7.3313 12.2176 3.2580 H 0 0 0 0 0 0
+ 5.9298 10.8575 2.3851 H 0 0 0 0 0 0
+ 7.2473 9.6378 1.9626 H 0 0 0 0 0 0
+ 7.2637 8.9337 4.3112 H 0 0 0 0 0 0
+ 5.8310 9.9812 4.5996 H 0 0 0 0 0 0
+ 9.2593 10.0963 0.7020 H 0 0 0 0 0 0
+ 7.5901 10.6984 0.6283 H 0 0 0 0 0 0
+ 11.5644 10.9154 -3.1665 H 0 0 0 0 0 0
+ 12.2904 9.4681 -5.0020 H 0 0 0 0 0 0
+ 9.4195 7.4518 -5.6881 H 0 0 0 0 0 0
+ 8.4925 7.2944 -8.0127 H 0 0 0 0 0 0
+ 8.9380 6.0000 -10.3050 H 0 0 0 0 0 0
+ 12.2764 5.9204 -9.5225 H 0 0 0 0 0 0
+ 14.0194 5.4783 -7.9522 H 0 0 0 0 0 0
+ 14.1376 6.8351 -6.8072 H 0 0 0 0 0 0
+ 12.8631 2.7941 -5.8536 H 0 0 0 0 0 0
+ 13.3666 3.0018 -7.3018 H 0 0 0 0 0 0
+ 14.8697 3.9460 -4.5573 H 0 0 0 0 0 0
+ 15.7299 4.3582 -5.7843 H 0 0 0 0 0 0
+ 1 2 2 0 0 0
+ 2 3 1 0 0 0
+ 2 9 1 0 0 0
+ 3 4 2 0 0 0
+ 3 8 1 0 0 0
+ 4 5 1 0 0 0
+ 4 39 1 0 0 0
+ 5 6 2 0 0 0
+ 5 40 1 0 0 0
+ 6 7 1 0 0 0
+ 6 41 1 0 0 0
+ 7 8 2 0 0 0
+ 7 42 1 0 0 0
+ 8 43 1 0 0 0
+ 9 10 1 0 0 0
+ 9 36 1 0 0 0
+ 10 11 1 0 0 0
+ 10 28 1 0 0 0
+ 10 44 1 0 0 0
+ 11 12 2 0 0 0
+ 11 27 1 0 0 0
+ 12 13 1 0 0 0
+ 12 45 1 0 0 0
+ 13 14 2 0 0 0
+ 13 46 1 0 0 0
+ 14 15 1 0 0 0
+ 14 26 1 0 0 0
+ 15 16 1 0 0 0
+ 16 17 1 0 0 0
+ 16 47 1 0 0 0
+ 16 48 1 0 0 0
+ 17 18 1 0 0 0
+ 17 25 1 0 0 0
+ 17 49 1 0 0 0
+ 18 19 1 0 0 0
+ 18 50 1 0 0 0
+ 18 51 1 0 0 0
+ 19 20 1 0 0 0
+ 19 52 1 0 0 0
+ 19 53 1 0 0 0
+ 20 21 1 0 0 0
+ 20 25 1 0 0 0
+ 20 54 1 0 0 0
+ 21 22 1 0 0 0
+ 21 55 1 0 0 0
+ 21 56 1 0 0 0
+ 22 23 1 0 0 0
+ 22 57 1 0 0 0
+ 22 58 1 0 0 0
+ 23 24 1 0 0 0
+ 23 59 1 0 0 0
+ 23 60 1 0 0 0
+ 25 61 1 0 0 0
+ 25 62 1 0 0 0
+ 26 27 2 0 0 0
+ 26 63 1 0 0 0
+ 27 64 1 0 0 0
+ 28 29 2 0 0 0
+ 28 34 1 0 0 0
+ 29 30 1 0 0 0
+ 29 65 1 0 0 0
+ 30 31 2 0 0 0
+ 30 66 1 0 0 0
+ 31 32 1 0 0 0
+ 31 33 1 0 0 0
+ 32 67 1 0 0 0
+ 33 34 2 0 0 0
+ 33 68 1 0 0 0
+ 34 35 1 0 0 0
+ 35 36 1 0 0 0
+ 35 69 1 0 0 0
+ 35 70 1 0 0 0
+ 36 37 1 0 0 0
+ 36 38 1 0 0 0
+ 37 38 1 0 0 0
+ 37 71 1 0 0 0
+ 37 72 1 0 0 0
+ 38 73 1 0 0 0
+ 38 74 1 0 0 0
+M END
+$$$$
diff --git a/examples/scoring/reference.cif.gz b/examples/scoring/reference.cif.gz
new file mode 100644
index 0000000000000000000000000000000000000000..2525de53c1067aee4a0c2f841704d56dbc9f7b19
GIT binary patch
literal 210954
zcmb4r1ymH?x3zQ%3KAmSAPv&p-AG9(A>9o_htl2M-8nQO-CYAncQZ8KfG_@UeebRJ
zdu!pi@44sfv(LVFm<0n6g&-oLo#vQ8KXHAvabfsoYW(V;b=i)LtD4fKq9Aj=NwH4z
zCjk`kV}37XLTq9-B~6~Rs)^%Fl`fu`m^80glv#9f@j;y@*imA&_bsfTvV9egaf+!>
zaK|=c$C?f2o1@O&T_^6M+lD93n~0JATwSYKf#&mG`2s&zf+Q|a_f%`Dn(4DUvxf=K
z)Y1Bw&5OJvwkKU(<MZQ~+1?<5sy_6mR$c3@5{j;xa>+!ZI*sA{Mfj_h<+jI$_D8ju
z<$z{j$>pTpTiBk-%NEeRV{_8*wwL7!elk#_OqYr(Mq+2S+d)M^WA+~D;S6W!b3~oC
zzuLm_<a{ZpkMO{kq3w&KycOeZve7NkJ9&(2b-tFzd8rtP5ohXszm5}~<N-Hu{S1^e
znHv2c<DL1P`UJK^ZmAGNK@A40&5xepuTywOITo=(m(3nH_2hBTl$wL!f&L;@0c#l+
zUM+vd(!(3}8|JSpb)0p*c|s=n99v|c%<I_agO<TYZA)2FS7V8&-)pgj;wum63`}TH
z&bO;T^4lT9O84VzlzwlHb8ht3iptj=TW>udH7ZQCXD|27SS3CmkbDL^Jf`W=Z!dB=
z=<6_=MXq_ib}8kkxx9BY7nhLU<i|^L`XW`o{&j2Am}j}ovRQ6IR%oRi*tzp+qJQfS
zD5W<8%q0@>R~C`a4ZL_XpUTg0(isJKr4FSqzY6S+BCkfZqZ`3^v&o{`eO;|Io&{X-
zN1Ps}v~ivHaOOV>`Ywd3^w1g-f96`x<vSW{b5k9^iSV{<YH@pd9e(c4y;Y;NZS~&I
zF%O{i$pQr<yX$w)_n(6kgCFU{&_fnB%iexXom0`M&bPLyahxSXqkC1Rr|;A_HVodi
z<I>}QAPQ;FYyfzmDE>+2x#8Edt`D^PqL9FR@m0DbO<~ybD=ee^LZu$`*rnMxw*Tbp
zr3Y6^yRTIeqgMsT;?3l{*eSh?nUaQCH0lqE-wK3|I&p{FNB1u`2A6N9;mV;;j!_eO
zYNRVM9tSX+8##)D*jgqBVj9L5n$_y<fiaWTB@LUCK_lBo4M#;&hs5LsKXr(>*N+$@
zhikD@h8reicjbxL7e8HeGfwj`DdNSPgE(Q`HOc@YebbFzm_>43x+{d(=fgEX7E%4g
zCo;svkp`ai-7e#jzy$3#MK@;+yD9|Ut#Gk1Fl1MA8_fWJJafjOnn)LY12t6A8<x2J
zT&SnnJ<Hdm%t`#b9bKD<HeNdG7F-z&CLOatH~T#@e@gIg@NCxaH*+`F+4ipv%y{#=
z(|+>u48q<8p+7!YRt4L1O*PNAOy3!_S72K+qJ?9<Ye;0s0QD&%6uZMo%Fyq&k@Ik>
zlepUInp#+_Oy2F@7J;(S+_guZ;L^T$Cu{OM5pE4i40(R>anf;O9~km&dTLG2Zmsjl
z7Kq=!-L-@gZrT0f@tEqHz2`CL!hD4K+u3w`(~?KWiU&OmcL<L;aT<lm6kqCENnsY?
zD#FS}zFp4Ni0Xh%*6}A?m^nWs-{^5xZXgD=mRJkHl%l%EOJdi0g-~A$imyUC{**T&
z+aL?ZbIxjNQTby;Z$G%_qR4WPMy&Kyt0DQ=u4I})Ex9?(^3nllsIIopWvO<hQEV|b
zKgXiN>wl^}47eL>IslP)H}zx)hIsCvHgCVS4FdMGj~FcbzFrBESAZ4`ajUw8ajGTa
zehB2X4;l60xV#nF&R$g9wmKc2T#RtL$vUrdXAD7UxOQuXN2+*w$g-zTQLq20E;C_X
z$+7(B(G2GN>g^AO=_NaE_J`Mtjs-=NQ#5Vv+Wa$fyV_#Iseevc4_ezttIj^a<}T4Z
z^7aH+p=_!Tv(PTZk0y+|oQE70(u{mDOH8|jR$t7wG(9?7(h1`+U6Uq79{5bCli0qA
z*5|QUY7+CCz1DTukT?Zj#W#?6=Vw3B<^8VfVzx$GE3da?d7FZ62S#!$y<kpbu-nXl
z;Nc&Tkg=DZLdKYI-Mrg0j}%WuNlye$-S2kqENAXlkLBrm6c#JSmmd?=3kcH5O=rrA
zVJYxAC+-Cd(l*Up^FPkrYd8g}uiuq~l%znN@EzxKnQw(stnrXjdEJd>OiTjXQ}YT;
z1b);!?F)GQx!ydW0$h2X)@xPhe>=JTcA79tWL}B5&GcjRdOo5@fFj}P{?x0Te^!Q?
ze^6mG-HW%J1jX!@Sbmgn`|R#L4?()6?)Lt)*9c$;ySjO|nqNlXWU}VQ__Ctm24hd>
z5z|}aSfN<B)C)PROySWfIxjorJa_rMt)$8Cwvp5-^d&YXg7i;mcV0Q)N>jQ~%^d0W
z@1btB7zOpCijGa^;e;a3^M~l~1w!@v$#|CL9HyO3Ir7r&?CKFnoxuh+&g?oZ{0ah@
z*K$PLB>_?G=p5EHaOFYVIW?~C*ZiJIi~w(GON%Gn?Y!T+6H*FkSF5X>mZ$eJ+BPdm
zfi*}_V;|XIXTmbXy|^ru7&#Vu>mQ^a>DBq~2hEz?ie`gWH$y>FPstsK^4OP7A%P8i
zGn_YzijN<bLfbrVU3vGye&^hQdPZmUdRxbLvN;-CTk$+UpttEPfmW6Qc<65H`}>3A
zJCDXwz{U@uZD<u0R)Ag4wmUcXo8A4M9e@K%%k|B^4I5sldwVFndd_~y;P|ZG(eGKm
zwZqNr@g0@pD`Qx-mF0Vn8`pbB8`lR%o6FrlZftwY5xveCN97gP;sSbT@EL9C5&RJq
z<?`Y=DW{vW*5C~B^;15>FnGUFobHmf<=OF`?UK8YyYXoohvmB^p#S32{rPBj#<6&7
z#u}k|&gsdXl?z|njR#Ug5a5d!p;sH%&F!TVTidISRlH`-mJhGp8^GTpkNr3iK7co$
zMw=c|{al+oE{3x~L2U|>4HMz%8s`Jn%b#SDl+jC!%zxhw#)WNv>{7v!>gzLu^;$zb
zf1>}Ka;G=W5;VQ()i9l#aMk|V=@J+4zSsmQ{F0mkb~}r8;E<&fz}v*Quw#wGJ8RR6
zwZPgKxn{$7ijt$p`9Qjp5DMtu#bHX}NyusE(36gJoRb`6)W>iZhf#xux7mJNOuL1a
zYa~FM!U@Ep#$z(#S@#J<(t={k;@B%<<f5mcmXngnL;{Pbbzvw&$y8-E?4ejf`C)%S
zKbpq*-Z=}B^z85R)Q~s-*eCbi5~`%nlhYDP0cnM^cJ=Bg<hE-Uk~A$@_0uHREFCl4
zZU9DiqWB{;CX#8mWWOgYSt-VtFK9XMmXw-~jEu_8PDLp)<!AJTsw!+eg@3E2bbFuD
zb$*-8#AN7zP<&LNF;`SWXt=PrcI3EHALc|;YB)6BdcJRJOx7qI)>CLLp3|k1$C)o1
zRS<RuOJSR8E*D(ws~Mb23W{MG+$K|@&CECcJa7a7qy=nnyQV@ERhjl#vXW9s(Iau8
zs)}|j%+lOA1ECXR^BNOM)J5d+s%W&_IK{D*#o0NEw#q_c+rp5KxEPWmWaN)XE5!rj
zl0Oa=l5^|fOuG&ubCIYPDBfQ2n?}#q=Sf+;kERSDXkw$WM48B~7Rm5ct{sNTlWb$k
zCKjU68b**F|NL5dyiXfhI!aY>jFI9&c^*n$h-M)jl33@XT&wjyHv15oT5J(c@n<|w
z<~w=`NZAq701RaL12Q+Ym<){cIO;cK>2Vg=zp2U}HlYf5U*&yILX;jK3V0Vws%fWu
z8!+ILN&hNOQu;fJAWbwQ+*)B~&MWEhYMj{YO?h$GNaovs`d1MAfx5?@mHhoC6tx(S
zM&>)qZ9y8XD_>=Dy+ZQmN6uYzYB6o?^eBc6RWw1Gg#e=1Y$INXz6{@y0N-alX8|$D
zf;1S(p%;+OSy^_9vHm$?Vr|~awOFw<Z>yrCnjiyLBgc}`^am@(#v)KyLRu+*nnu7P
zfXrB50GUxv%vDi|&|8@tOEFA!92-)~0+|nw1!)ZmCQVX0kw71wdpwyl6Z1z@+<0{A
zoSKwSd+ddb*ugj(2}LI6YY9zh@+hUWK0zuByaniD%=gnjP#v-juwc@@%ixY9K(OTp
zGQ1x?^0k)Ve7l1A_2~-g-g<TjQfcYd{H(-r$S(8V6aD>zoJC#&${{<+I25yN$VJ|q
z?AH4<x+|ERW$Z_NRwicITU72Sk2NReufCF`n6+?_NEQ7KwPIQyECE~*=5Ru+14)iu
zq^<I&9np{PGBN2(1gRD}2O$1aVc@2rWMW!w+p&Dmv|_{HlI-?7EO2W&rYmzy&o4@b
zfxX7aM^Tc)S?o8ytWTdVlMoG4@4nb{R0^`vcrwS}AL2P2RS%h-^kCO<cy;rc(d5!J
zGe787Y9<gk(Ve2pNJOUEw@tv^Xm(>%@76iYz(=X}l)j>yKZr<ie_DTfb^R?fE!H7H
zv*3F542Hk$eypi!z4e04?tIvsFJ(5R+sdk_-rOVGjeOb({Pv<#^;*_&%O$m^=#Le&
zQhss)qlA*Bci7pSg}C9WL!+Cf&rrMY{FZ|r*5G`%M|Ilc50gRT-=AHhkIC*mo6{Av
zUxQY@di>-gvBC~gl541$Kjqaa%g7%DD+ztv&$)B-K#AJ3WY$sf`bIQ;ZdTJ1C`ReA
zqZ>HI_|b3pph<VsWc1wBq+V-C0j#zjmoQY2huVMI92h;*t3tqi63@{~O%B%8eXt`|
zlW9L763&2Ml5w08t&4UV68)qqA*bqI(E#W6+uNbLb`q7VFyJ^gOr)T}zCwi3EaZGF
zX}Z}+2Vc_B|AMgYV9KklJmr;d|5mTDcKd;rb{jTBeoDekj>0LvAeNPW<OhD|<H+?<
zRtIRJ9X3Los}j5B%J<5Se_~Wk$tExk(F|GeCQo|p>h4dgZKY#*0vSgezq5^U?$~=h
zRNS>MpC?D8P1-Nnb;|FnYzI2FolJ&bA#!%6L6?%|uwE7d{YGoI2MZ=g(3ixPR=<7H
z6f)6pu;SKBw7a4yvGUzcrfMWZ`fTIuYGmde#(Q994Lju%aeP{u69U|dNq5jfonmS`
zT)t#*B&Zakcf`q+8hP(lXF$-<$t`b00ao8m1Kmvb6qQRlNqk?S7y-ISy7^KmX8p`O
z091BIj%YM-<mvFHaCgdi6vEG;g23gDSd|Sjm=kHL8#=tPJe_>sDmjYL7Csaf+PRVa
zWFS;bU$w&5dA~62V5r@ewjb~9VCdjr@EyYg&1QmE>9XM$zw>lAO4^#SOPtA=)Var)
zKpbFqxf}akUr>j?ib+kLhobyRDe07N$tlhpOvWUo%|uvicjP;!!bT;uX<H4rw?*F7
z@xiR!F!({V`>CsK0;1?f-6f11s?^G)8byW8F8&U_1)*8onFm{o!6UN+syTeC)ePyA
zX{)A!mB~OxvWf7YKSh&;;dpmbSF?l)p{dPB(aU#ZWX(b`d3_MaMdmxIg$pSYX(x(9
zsGg{<Bgr&+mKzrD7#q4lVWlvMOtPA+lm!zNpB+vu_F+epd>uW2cPyZ_+!-#T1)FMD
zZ?6-)(<d$j*ct{y2c7R<R^?Az=zbAWFUEcDNqtAIyTKDqbc^%|>->??(Yg8NRQR5M
zp@%1&#PZeSdxlSsFrbOebw92OBtc!U$XLmBq}d<KsJdSy)%3q<sGyS>Ik>N<LdHih
zTf-eQI%3tn1P1MuAe;d$^cSjpr4kW4YX{*HD(PS+M{tF^&fdrZO${+V`|B_GkR?>I
zz)qGE1o*3wBs$%8#8OEi<}VA;BFTs_9a8(!C}_ON|02n>DP{An)*dOJ7b)D=iKjD`
zs#9qUjVAGoJOKyL8`2e9f}GDwvk|beDW<<y#Rb8en<a8hPWl6#JKZSl>tY6b1_Jr`
ziM`X^n@*MkuV1O8=bv>QyD06dMQk%~cJQ|F>Wo>jCEDo|>R#*U!sd%Zsh|z5@A<se
zeV6~mn&~;?ga?B0-~K0Fa(uzO9+Tm`FO_ZSv<>jGTuc!q65{k%X4^y%jLryo%+(*z
zq-8{3sqKCP5fPM7V7U;7_}t*k_5mW<V4(kb^;hV?A?!0AL{J&Q{i}z75n06w?*$VE
zem9|fVZ9H>2`Fmvra{<R+kCHb_$uH9eG9e=>xw;B)lE+^E1-Ev9Mv~<rhP$>{yA7L
z{Y{|FaOnQhFfc-^jA;IqpF$f%@*m_hK@1QaQG(zP8AYA(FN1p>ChiM^gj=0EZvL0t
zv$G{to^XQ!A6FOGSU)G4?pT=fle5m)n)lCXf6wLv-oKal{YB{cUuOSWCsL8N@Yhga
z3!<zk`Ey5<3h{|>n-@jtN@EOmiDz_i2@-vE=lFkV=<2iy{vzSp?!Tx2WdRHQ#kHK1
zx){R$Y<>5F6C{LdzY+bdX*W#}c$o#_i;3V1dbW~=LrB&&ePEDPW5MUmf1X9%3x1C7
z{zcuohvC65Rx5p4P<pEp>iTPtwWbz@>@Pc+>9+U_r`}@h;=je*>O{yPyS*sKd!;%Q
z%$s7gjHA5M^09v>T&Q)Y_*+X?xBeGFrlG)mndY0csfpYRALQ&lP`%_;SPm%nytsU+
z`eNAg4J#Y@dp$NYm&KSjjUXMGGYO>rUThU{VB*)81ES1y;{RLfAOy_&8-wJ1{+q`w
z3aoyPwOlMnF7#vlwX?DI?&C|_<NN_;?3Wm;Lfs%;ev9<x=Hh2+6Rj6{5iO=1+AnC7
z`a8mxzp+0P<xPJtR$7$Z!r#Uxa=`Pyjeo21-2O%Rp-xc0Uncr4bBG^W^a=#I(r}0D
zp+%C)uCDLeoTz`l(>o4Gu&#_PVa|tkp^D{MK?^OSXP+V8*i;%{;CrtE)zUrKu&5S3
zn25YepvxafonR~rcY?+^>Q<bV#*7v1{McG!chjvZ2~q=S6zMBso-tH9e=eU)MBdQZ
ztBa~t`IHasn&4(herOd|BnZk|T2$E#envOokp;02Dn2bTtQEvG+m^C$XJ|J&Z^<`j
z{(X1tg9?f3woY2zN6viVvk{=)nEW3IEy4LH+$MiGgraJSCoS$97o<V&J)TsP`d8Y>
zXE{#dy{g2=t7p_|hxyNGYoK{nqgWW8=R7+|uURKZuW+o#^x~$Ds(fW#{#~`BlSJfx
zo~JL0;b+esz(+W>D16WPt?bcG<<E4S=g83u=LV1tsdoluI&U;$A``5QY1BQRx$Y!{
zxK6)8_ISaw`Qk$Qase$KIhpuR&;H~Q&Frws25h7`w`cmnF=6%btj$W&hQ5MKj#;G6
zRrm@9!XVFdJfxh30O_4}0{PM<)*B+bzqJM-U!0^nnZ@-+TnLUuAHv^dUbOcH;n^yN
zdjLrJ3+*-3vqu>yv~<uApzb=IiJaI0kz4)iV?1pvG^B~&U;(~rB;4~UFbhDgGuO<o
z&CPvZ<e}%Zdv_CpY9B~5qa<~ZDigwU)+Q*um<b)ygW+R~Z!WYT)AJ!a3Izn}(~=+4
zuH2-c;dMevZH^C=KGCMazO<mSHX98p>gyiGQAI?~Cq);~Q|zR9p61WD6l+=wxR<0^
zIIJ;WNUzPuZ4}z6=hz@h#YHhOF2o(3UF#Gr9OTlX=mc=S+$t(Wh`NijC3h}7B<-Uz
zqb%Iw^ZWr|SdpN$zv#vnZR}YH@>*TL+78-tg&_#3(AN#(F_08IJCoY?d?9RZ;?c1X
z{fi=7Aor$j`}wBcNC?59KOd#hACuq(MnMS5^J>q84u7tksEAUf#&~A4dlp9lF{1n;
zU4Q4~FM^!ToIhlUxW}eU;q>R@Y;4g{1lA*)({65lP{E=Mc<vP8i=5d7(N_EmI8!o4
z`^<5czO|eA@db^*5rhXoIMkN(v}@|0?@b)oP&>%xS<*8?aDGNMu0%M-#q6a;kqHg;
zl*Fjd=j)aMQ>@7R?AK;c9P(!;mQ|g2a)1V=ZlGyA<P`(86^*x>4F+U{bUu?WJi#>V
z?d;-e+=}-3Ik>j@EqH<FTQbx!%M(Zwq0!(O_4KCI7b!_r<qPYAQnru-KgFG$bs@ub
zC)2vR8Voma=D$B<kn_M)44N}YCOK9<=88sZ>t+)H<$)f2(FXq_RyBgkAk)AWnN}b>
z!N6ZMy5JB=^jtjrz+riXl4#rqoPs=oeS8v)Ay0|+f?)vEr0mOcy3-%B$rJD57>vyN
z3&LDARf4bjiWE{C?wV1zJ0>d2x{>B}T<V9-JRIpf1mxbg5r>2b&dtfOc7h>o{RY3W
z?Y)tFi3vQYcSikNi?DzI)8D@7Ox&3mlc7`w8hK`ZN~=N&xCH(`On+<Q#?v|@dg#8t
zl2G<ZNi_cAZ!oN4F3Xx8U=YUtJeDowHKkkdx#f}oGOge{h}!at=BUCkC0W*fo_29%
zcm979)-Cs()djgW#Iz9A@=O(xC2!Q8H=mkn&~$qsWJpiVnO$1XX{6^YqHrx=AznsC
zq;HA@bUj0VFiiwnbProh%g0tT#emVT$x<(ObmnWa(Hi8MSuqb+pL|j5Y)mxPbYUoD
z(vhv9<Hb>Z#h9<Tm4@=bmk#hm330uBt1&bg(eX7M0E>NoK~|YqK;+ZI`+!KdwJV{|
ztRMglNm0`HH5t)Gnhtn}eR`2o8C*aVAjbPZP4{P4!r-lf0CI@S-xO)<f0p-5rOGAx
z-%<ScT^#=p#15waF6Y1J`Y(#L(Ee5b|5DKX{|)><7np&?|M_?gSpQrF7qGsvAOi-)
z{g$ipAApoU{~+l<h)mE76a)~kuP*HM{{aYh=t>8m(H-n=cl-m8ni#<MfUhw(IqLHd
z09PdHKb-Jcyglf{KhV78b{l}Ut(^`af!yc6DiZg1ar~Ro0Yd*3{Hws!0<3@F#eeuk
z2>-9e|J%H-Gyl}==LXwK#{ba1XNyy*dj3zse+B)|=L4~b#3ViVUoPJI_M2zR%L|Bf
z`JIE~A^+(@JPb<MPGs2npDslB2dV#F|1-Uind>c_L3x4Rn}4^YSBC0e?pA^R)A()D
z(2ZS9k6v0v;Yuk-dx$(>ko4zldqvUX8ju03xTDS;4HlL-Ez2013rVPut{vvi6_Yeb
zahxNtsJZ&1R;-5(;C^&}@<JOq=F#JKEVpVy`wdo4XuX4cU!dTQ)~r?69qg<!U6BqC
zN}s1)c6Bu_S@K*qEEzku8^ZqM$k+uolU1M?cXH7U-8GlEYfU5!^`zf&4JyhA7BiW{
z4>M2Pl?!(w<8RtIkv}({h5tof+5cYWll(6#KeX>GH$QE3Fm>h7d~H6bd+ZtR^(wtp
zB@g3~j`7Rj!}&!X+^<qd94zxDVf#raGLo2ts0dyt3D#($i5PK!f;s`DC!|Os6u|3*
z>MM;zyD1V!To|1xecKExv}3B>fskGtBt+wz%=(8Zm?T)rq@5|4ELf(ulSz_TQgXJ1
ziCRRF(zCTI6JMx_mlMqo85V1zn;Mn&t?B^g52iw4MaX-v2o#uHXhdS~{P9h~(6w;=
z@g+vbs1dnF8aF&3i=YUW1<DOhk4oI$@tAt=2sUo6sP${vkL-D4A@zdRW8YIE*LP6x
zN|5-zqg;3No*KNdOZ~`rON<ENyq4rb6%Nm#C!B=ighIY~_Yqz=yjucqozra?n>V2x
z1(J);e<CIL(uOxb!$ui<2mF4Yz-<uwMCq3?)9nCu_NgtpU*!6U(r*oKS-O)XwF{>{
z+v^UA%)hmr($BT%9{TU$NqX1FBKk4ida+M@(DAy6A(}JY<y@eiTfYB*JryT5<3i*w
z)OQ*xMHR|~$Q3?X@U`2QunNv2(_Rw7GRjg^+)cdU5-)?32-!v>a+O7f2s$C*bM<{D
zTRlHKF$;h8gI#+Jp}sGrR|BGf*JOf%3NmDO5bqG0Z{&JYB!K-zS~bM4^Ez*I?3C0U
zuvUizmiF2BK4k5&fcY#nCz$?&hQ_-eu_cgRx@?aXFGXh%-_eM6jNd({z&s4TOtDJl
z_nfmaK}Pc22!a0r<;9U-GuW!ba2~5F*_CNOASPT4AVK0r>#qr3sy&5Xs$<8KpY7{$
z3*s+>B*P58%y#X-@R!Tsh06!P`qF>wj?AK#thYqeO)UW8RI#fe{$H+-5H6RVJaz3C
zyRo&s6%pQ@_=HPBs#*p%$(CP8jV!#!?d!ZF=qPD-8nikP_<^AZ-hx3n+q5B8F=LxR
zTdyD99rB%gR1t@7_1iVO)P7kb)N_8>iFylV^lD&Z@(Pg}L6Lzds$MXGhsVr;pf0lw
zWrAmKV!Vw$a$ZTD7ZtLg3z^Dwo+5SPY0VK=?;(~vF4QcgY|R;oMub4yOh4k99Qkj=
ztvL*24U;@(@x6j(5<0&Ui=3xSv0#b_K7~{X9v8k3@tF$e4)MJR=Pn^7uFJtrlazCl
z2$Rn;h+I%QXZswppj3mK0oje{j{zwaC_P7UdoLktDIdt1Ieees6Sq`=keLMi*Jube
z=?p}{)^nPA71Rum+1qtUSq_IME<|b7{8y(b(g<$|+k#D94nsD#%3<MnKTj#^bU0o@
z1QSHHn4$M&INow>H$)1<Ps#4f@Z=uRo`XWM11C3$G>MBwkdivHaWa9UuBf1!gpTL}
zgx0mx83KQkt3b*fT2*+=e!mP&ic$wsN?@kQcb?LGm+Lg8_70LOChBn+-u%;4uQjLq
ztMm|r*f2ST!0~MqbWM)&TN);wJ!R2nn|{O39Tdi}K`Zm@k>;}wLrN~?4-1(~DJ<|H
z&T)$cLIw^qAbU3H+b^-_;WSa7rJx!*O}&*XaGo*>O>&YTP`ZM6Y4GYfO`Tas-)U-E
z{#Z+aW+lEPXxOkW{T`@WL0R(t@!)RHXtFM1TR3<z<Z;93QiE}atox0|!$S7s>s4y(
zM>qF01``1^VIK5Q^v=EB@gV)>47yO;><1CR=~h<;!W1x(|CMt=$l=;t_w|@Jx}hix
ze<)@#R<k>e)ooknw7KqBRA&3l4Fx~_aZ<z5Dj0K1OgEPSqb<WmAi6HH)Si?M!&AP|
zqbRWr2sjOBaffWzMxH#7gGsF688F&2-hsHiET@rH6r`=wx~Ix8+cH!E<mMz<$BnG2
zk~i@fx>0TWIOctA>sK~7uH(XAS337r!~pMe(IB-Q;^RSv^yKv_xa7^u2CFfa1!zCa
z7Lr^e*HLh|;tz*B9nrKL|KR2Y2n~Sq`uZZy2lLao31QnaR?(tu2nkM?$3<~Gxspvc
zg(k*DbMfWkU7|_@{DG`I;%9JpExFO9Eepx6zj*r?%?M4&0Rjd~A&_n$9nM3G`}!ST
zVe9g(qa<{Qs6V(>OMbcMh*5TgRbA@a6=mE}=cO0ZQk;zYv8fd;k~6}>D@}wskKt&$
zKyLp6{tYpdAD-JoeipYNXGg^Cwr2+*fiCre1NW6_65exCO-RD%>*_L*+j6wEfae|q
zZ3%>iIWOxtoPI6Isq-Hpr9VIOoFb~!tK_~=9=;p$%RLm$wJ2ECg;-dX<`g>iNxcte
zYS(FR>@Gj;MeBgm7XL<OfT$)$0D|jzNyx8bs%(cSQ;@i?`1i;oT!S&kkaH&Y6fE{r
z5=Je_1EqMkNVIJz8m<gxM#y<~+zb(rp>|l+VH#Uc%CCt)&ayf!31PPuGg6Mn{yAe#
zo=5y}y7IU@P;*x(obgNUm)A7|>f4!WRML`Gy@-d@s1syoMP1;H<@2ea7D*lQau%-V
zd67IvwZEy7A2QQQJ37A*PiPJDN}7beqUog`ZH0LFl_vz7W!bbKxyN<)Z{s+G-TE4{
z1x@njakJ9kG$U+0aYhF6@Y{`eP_~2sN;ySQ6UNky&wjP=gpY@PG1$DT&aJ;Wi*UE_
zbFHHRP~D9W@7-NR(A+YQHcTFVxr<sj=y9k?^2!)B%u<2oNxFfqPZ->lIi$aa{HUK(
zaQxz~1y3izycq#Q(iG$5jc>ewe8Y$i;r_4%pO<CBUKOA$A>z`Gy@G@7$+a2qOW-@`
zYqN)23V)Mp$#QyE;9^n9^4j$8hpqia2T#fszBf(%lSkWBL_GVqcOIJUQ-fu;&Q}lZ
z1ZY;}j|M*#yrhA2yZM+T1Ap2b`2qLW2`U#~gD~{h-kEuNq!^$pz+Ao-h!}ApT><}m
z0uqc081F9*<%isy?Xu0aiR`Uwtn8mVz<iotQuK1)Szq}vO@$}%q}i(BU=WG($zmt#
zR!2Y1A<GEZC)Mie5JjXjCDMAS8f0><qe1GN3B0WP=#kvkf<GhpBb4n8tnq^%EN<iF
zrS(&m554uRpyP`AenLZ!!&!Z*HAjpdOrcn-N0$h;wT@}D)2Xcz%D%yXRTw%5uckVL
zQO`;Uz1U`}tdg!-YQbuaPIv9Nq-RlPdA_?HezWXHCLnD|_X0-EQ94X(w&rFZPj%{R
z^~V_^KWf@igLiQq5vM%GpkK#@z?SXssAi`CT3<I##7{hkVxp{0y?%<U=+bH1!%vs+
zs1NpSr-P!H$ThC1EmM`0NAk|9wkbr6ip`I2GcFCcK0vqh7^+w|gpXL(b!S$@FZMrN
z7${kvY}{n&9uG<W1hvSUFtzMYFP5;OQ+DrueOu~|<LPub<>|(t*OH#DOxvG!Y(0l0
z(E3O5VS682b-UZR4zMh5Tyo2!!D_ERyRkW3oA+9)n^W3+2XMynaQ<q{qX|9NH-ncr
zHo>hX>5Zp_P?W72*}|&vK2ge{!`g@RDQ{A|70@`9r5o|1t<&t?OjG0S#csKCxkx?r
z{4Zw|ZVb$6MW$=)k_Jan_hy^QU3T2EOU|c9&sJVs0N=7z#=gMPRV9N3P~;uxD9HLm
ztHOj@HU;agO_Y<$5lI#0J`~?0n^4KFKD<~y|63>+FP+(n$;*qe-xga><<qL1_=Mk;
z-?Z_<x1|$mxs#d3^eh?!%h3b<rqS=x>$6e1^k&Z!c5iz-?aq}II3$Akx|}V7`A!NB
zmFgJ7{jB#BX35rSVS+lO5YT)WzuGi?DP+XNEiQ07tJlSckq~id4(rhSoI*oKzxW`$
z+NHgY7jRr$z<CeFUfV8b(}j=JU_2kb_dD+@;^;zcFQP%N@GIP+@N~s!UAik&qQT`i
zL4!|~S9=(RWy86X6|IYm&UVYUcetO+(9;Z#x6byqs_kvTn^$a~`(f+X#@$=dz@hcN
zWd=XIYHm%?L-9rl=km*mik7j1lK5fu?XIp%(b4JH1F$TPtbPjfiB*wt@U;?rak@rG
zry$~<RoF&x!pm|e@O{+dpFaJ~Z4OXl&tAfPv%EX##|FK>d3=6pCKawJS))DYlxFCc
zay?FB-xu=Qk{zp_Ppl=x0|n^n?x|DOkS4Mh(DRmZAB_m#;-W7zAPkSZ?8=P4)<i1Q
z<gm!@&6TOUOKV6s`PYIGT&K6a(rcip{hO(utcV<jg+5JL!l4szz>sOTC#CQp!N)a<
z#@5?j{S7j+wmSs&%QriG5nime%$)7*Ks;x7^#niQhyeHWWl=#mO)v#DQ)Pv1ksje#
zT|M-I#MlA(Y^6P{$k)0w1~k%FK<lgqCmRtFS41D)A@*b%gFkd@CZ^a{+7A^CZd`Y^
zf+pEDBak8-s*>ZF-Hglpbv`3SHhsI%&2XqN5S)hC<Fd%Ud^|0!0R8)F)s^iKdbUb{
zM{z{stjA4@n<n4%pxZ1lib`u~e98Q|8=TJh=xfI5eKTgAQI5fW4B21nMH>tU`o))f
zSx5NnzvF4S-}<R~l@|z{bZi>bar*8>>>k%~-z}8TNVemBoT?-W9mhJD&$q5*PF+2$
z@KfCg47o9Oe}%47EW*Y3I-U|o+yIzdH)qEUA7aP0b3bv%jr-b);W((E(=C5+_fK#8
zKAE9xIcm)=_7-%q0}t8l_WRIyujc5s=3A0w7$=ulryp^c9V%NeAkz`}`u>_`9(U~u
zK5=p2HZp<s9PduBuaxsxMTx-P<>O7}m?63&q826K;(BrT=HzJbVL2g%p!v|@LDd?)
zRmMUq0~9K;UQ<#c?==P_)LBO5Hnnwfw2e<cQa!&jt4f2fE!obWT-mFc1|JWTJn}nO
z1U6%AQgP<q4o6U!h0)KQ#ss<DRwpu=zb~P@17;Yratu}(C%^kL$4(!gV&%oMQcBtG
zjSF25vanq%Sua*qI^v536YkJ{^=RQ{jxeXXlRb_Q8tC&mLNoei+A7t&eKTp_(pfqP
zT^lk@<j$Q!;qS0gPdcYxDZI7VZ-4Ur?A1U=)jI#c3dnQx`Ckw4xXGoLFV1Mr&A}da
zb8oGZ#3<XaDG$Ed?ZN#4ktdU@+^J+U3%s0{>hZJEg3&0_$abK_dF6a>8N4)<p_?D0
zaGc+=AW=l*&{EExa?_m+Vr^ENm!m%=I5ODl&pJ<Cx;n}W#Ci+A&cuA7L`WIve>Ul+
zD=?rRwzBW|-5?a{aq{ZBSiL9w;Z2Jc?;ik>0`Z@(3JCBCtW#Hmy}L(*wzISO+O^*k
zF0agdb<$+LtaI1)I)GXO)JdpF6`~0^JY}HkBYp#f3+EbpXY`~XyDQ!di^ofLxNrh~
z?uA=jwt}K3IPLA>x3PAnvHQD*m(7Rxa!4h+{9Ugo6bWh`bI?EY`2a>h*pm;&5_jp&
z`!^^%l`#2xXq)?4u~HoUgK2F?>+*`eDM%scQ6NE5(${lq$8FuHCfh<Z+7*d>zGwFy
zXS_Nd0^TgUpVjJQT74dRcp4oz=35xH7Qu?_(${9~7--5zaX$#8QTy&Zn_WsGEa~kK
zd77OE4ix1R8YLoGm@P|>ejf=Rr%NG=pj|$g+>U~ktDRNOa%kp(+Jm5Ft*fJ%Gv|i*
zc3|B-Uzywry~x3G?7iT?qoFn<$Bq-9S8+o7pr3)d*@{>{NUlF3-|*Oq-rd>!xq4+;
z>+!j|7CUYye1lN_IRUIVP|jPX|32*r$gFDoac9R4{6jRw&V)#X5&L|0*z9pmHyW%g
z-5z*j;Y=g2mEPe$J?K#7wutYnkibw+_MHq}18#g^PGalBXwWbmHObf5AlmuG(bZvR
za-rkzYXBLK&@v9?yF*v8%Hw&-$TROl3vXovPtl>?hznG^YS(zeJ7Xf-u_|P)G<(`P
zFHRHMH-~s9?@N~*4{JvFkH{iY0(drpQuYy|+K-R4#L=<w629Dd9y6PRBadqeRPK{v
zKfmrJSUX@_ZOlnzx)IuDcBj}jz0*BwC|OTBjy~pDng8e_!44w0%{gvkJsQXBf&n`$
zp^Z_ryHVZP_G$yp{6;<QH+T@_NKUyTdD)=uHxP)5Vf*x+68gYIPGbG&{QHuvkXZFK
z1TsoByT%6;a~_P5cRYwF$X_We>>vi3EI&n8x49Km^B>{=Rsd9H0f=4uv;-cH!fo9S
zmbK##`8^wYk)Lp5?jEpPGVb+RA3NHDk`3gRZmN%phlvk<T-I}fcCcT&BfJ)f4{TlM
zKOg|FNsO@_AtCVMg7W513wXVapS~FildZ2{yZPz*$$DzZ)tB@a%)5Wz5D{e@?nHx)
zg%?{AjS`*1$wKnK6#q_o5Hg1EnQ=L|wR87sm;}r<SJcy7L!2~We(jt(M`T!NrfH$b
zvv!=+I=o>$5Fq~e&3|k1EB75eNJ>DCI8;E?zQL_{Hf8;2a_qYMj(*qx0jknVf!FY^
z{)u#dYbmSbX=x;Zm6Z%UIL#nO{t6_6>55F4`-8X6)-?TdNiRj<666QJ+t!QPX2lm|
zYSi%;*Z|+m7>7Z3yiYD)aw_aO1HUC~88z#SJ}o)lZcY?>?pW0QB6^p~*pT99%A|q%
zyO)PZm~EhTu4eIU!hh)VZ<#3Zog*#t(0RSw1y>Tmt6sB*#ZI|U+X}Iqup*as+HpCJ
zP=+zaarz}IC@b0wZ2aoQ?~|fnWGN2%kRb)!Kh30ubaLPPW87M=8uz`H6j)E;-np6H
zubaEY$I*8wq<HZit;^gQt0OQ?<dNL@_ZiMhtOIpY^54$i+OnX9i2GB{ktG<P^FFm%
zUJ;!2-~dYK<kvaOwAqYX)$qX#<_yC`pXeH{>qGnb3mk~#&P7UsPF5rQw)BH3*%3t8
zs&;Ymkwy`PzpZ?1HSzmX@WYxNaoD)-TBmJNqz#{kMX(@4y!B50={RRJ?KEM0wsY8X
z`*yHL-vO^!hT%(0(6E{9^}~ncm8-Er7*Y?tg>3$goR+d!G_Ic4xL68{>!vfh-He<#
z9M<DtG12e7LeWCW9sEv2VaMW!r$Sx9eio@)DjOZugXhHWO9>D_(#^M{pnBX0k_Qw6
zj?-NYyrt{9ov&;=VLMI3Xu}?UYgiTM^M-d{D)jP0jGYd?EnBogXF)z;CEl%gz^YtZ
zG3_j+c^-y6@^f0MWoBPBe0;yw2<SXC&N-BVo7EHdJ8zG0b4~+x9u_+DH^TFcl_N!X
z=Iwzj9V>4>G#a%Es|l>EGBhD=o1zKTaW@kl7J4gukF+quBy28e>*62<CtB$4&l|EY
zPwC?A4x<9&JFkypfH0ebSy6|)-bm6okB`^AqJbX=^s8KD?kC9w1Mv}~0<7v>bw?B0
z*R;8vOrx#h4)8@}FU@m~(9))EWBu_J4)a_+Q|C?=W~YfF?8y8{JO+n-*g%%PLE>%j
z6yiHsoj3|>p?()Y&ClUkH{Bu|SxxEXr)!JrPSy7HIJr;+jerYwS`Q*%iD!o%@afy*
z&JUt<Dd+X8gB7vLTJ1O}ZZ4V)t3MtO>=_UBuIUV3DPNX!#g2?jZwn<qoTOh#CF?XM
zYysHBC*2>f;aNbyMoYlhw+IWOlf<xt4#}F^p!9kSJVozu3ENQD{v%#lkaNk-?+J<X
z-9blIPUmZ@mTuEATz>z2*R~1&IN3I9W4GXlY$Qz(bMhOaR1+qBG>iH>1+#BdwQ^WB
zL^Wa;iOy3WRvNyexitifR35*X;(E$ui^5a{pVW{{_}E<Ae{}1&-4;*km2}dj9q(L;
z_z2U0WW6CEj>OB;&go-fcR)55)xzEhYBi74e<G0zA!chJgS|uB4ZdHj;U3E^!|`)L
zIv}g-|N02KKibCg#+M-J=cl458V?vD%Z6TFDhWf9<joI5(oDSttX!-yt*~X`2a-(@
zf8s`NA086rX3_6BFPn>22-Sxb@Lkak4i<;7^7uW>%&T?0!<d%o-Ala?vhnnO6ELXE
zG$3Syx|_5!`OKVTrewMn=Z8s@spj|`lX-6*XLu2IQ?K7$NQ9<J<JyHL;CrF1-EA1a
z8ApFCB<h}e|5$t2D<9bI7(O*D<3WU;Ek9XKjVYz$Kz_M?-vs!Q;tVD5`#8;J{tVyC
z7pKT%)IK*ZZDr+*{B1OzR|IB}9*)Xt4uw^rr`^W2;q}J%US<x}VDk~H`SOvKAR)dc
z^c>Z7K%#1J`r{G5!yF1SXi^h{wC53c9dVn}C|GcBvKh2`Pk;AKq4#lavL@|(mXn-K
zwM^vKD`5sbL$7P^_B3#P5s?V2gUmZ`TopFuHU&zDSx;8=Wb4w9cFCoHr|Xi%&>z_<
zhS#9T@>}#fxRFD3u)sTPEOfQeD!2RbFPePcaRUWHwe!mMPC4jBrqBHovi7o!XL^XV
z;-*bpgW`l8ik<c`Kl^JlidMQ6CatXl^WBsjHR41r)quCr0VSj7q^f*VLqMtg;-F+r
zinFx6$)Be-mz-LlJ)_~4koK96B_<TA=+31BpD&HH0!tDqbS~7<KZTS__KkhzJ&?cD
z#M<)I3Lux5S+aOXXD_|#SvBc~T|@|OIwLqbb2-agu~Zy8^!R`#0QudLSNc0>V@)L{
zmmdi;E;f!~L-Fj(1@s0If^<uDJFIqIepTyByJdmCPZ!v}Nc!>Mo_U4e86d4N3cxTC
zc!*8sYq9jA)AjNe*BJ7749$4ZxECXAc)VF>tQft-XiMKLFqwG2HcDi&yNh7!20zFP
z5cpQ`<oPHN`1DY5{$yM4npUCy^h5g>mPS=Y<-3eLqU+uFiQP|bDU4aSn*vY~(@(j3
zJ&UplB}SfS9Nn;&znPxS(<2CQ3cPxR=amuu9NgG{m|eno%?{qOTynKO;Dda%CL(ZC
z_6YU!!WJALG*YQOSN}LU@14H)_9;``O@lGFz?|rFwb(<}q~7f0aJ@ZRiB{|5SX2A{
za_H!Bxz#18)e~mk>EX52>Ko2>qNz83tTWjK^ki5K>CsVm%R4j7)A;-vhlws3hmMG+
zKQt`X=_{^W^%@p94TEC{Z7{vA5M5RpywV2+PEDfa88$M$pQWR2WI#XNlRy2^Q{ir^
z^@>*V5&L+>-7_V|&(GHGzi|Twrz{eb-Y;v7ws&4Lq@g|mmVvfX$@a|%bHL#RE2Rdc
zZMgGp19?yD*4UGrklKUgS&>V-2`{<Njj^*Xp=ChZvxd_`4!npXcN_sdF9NW5P6%lA
z>dNfGlK0xl*4@kb&Xjj2tfGQZBIhne>G+Qo(=B&PTk}mG_~vN;aI>HSC+BYb<j;0R
z_xN`k(4CP3OCz3+o=$k%qa8;ZA*wZ_K!kXPTLTAK;qB4Z_TcEY9zw#b9)fxXL%Bo_
z=)uJUynA$eYkYCOseiJ&f3tIby=TVO{9X_6;Phn5MwqcAGV`73+Jm_T59CRp<I&dK
z-bkeLT4J_!v{k0@VN~FW_x{Fe>hArK?I%3+ile~U^_0;B8~2^w%kA?~4!w3zc$<#k
z&8nM&-S`JkSYYeoUDdR7ypqZs@A`gUdMf07$eGsVT^P~6IV%wn3Y`S~y}^Wr==Om7
zLNDa`pbmOci%XABtKP}=fqgWAj|X;@<!(2P4dr;+?@G<pSDlG9nhQ4HVKgQA1T4yt
z+$CEAdfoKSwFF(A?_YBjf!*~RJ1mU2Xqi9tD*^N|)3V^Z+fOSn^J#8_l>N!yWWf68
zDaIEE(W49fh$&2%hWg~6r~HS>60pU)5IUx)k$8Wm4=7{^XF0<z!qRu=DJ%|g>Y_8~
z)C%?f_1*x$E{_ELxS*%-2wIV7x~0~<re^KXB?i?k7Tuq+^D<PN6u@gcR({)mBl%~h
zGop-41fv1X)`Ea5y3x_FcSec$hqeU3f`B4=hx=rf)IIIb95*fbxZ}ld4n+yqF9i7P
zlzC+^UU0RuMd4*+Vi-ET4-GuARU3WWxR45~Aed4zzG}2^^7w+jh*$#6AVCZrgvV^+
zlUlQB+egc#H6vt4I)nEW=AlHMuI2#hbJh6O(R)tET)M?FkzBD%G&(7<5;RILoE9~S
z-!Xy&8orF^&iil5oK|f*<ry^)An&N<{pxdj(z(s~K7ESz0HqCR2zTCzfY3u$KIrIa
z+@LH0jfLWMf?JqTq{L~W2k;L1Z#jZOf!pJ8BH2W4MX!sM907f&9d1S9J4k3~fMze^
z(ftD9BcehS(ec=GV5I3eP@?77BI0$DtJceNfuOMHh+iSl$UQp26K-742KfdIwm@^I
zvz`06uHLK5$&T+V$>0Ls0l!TNk@v-8cl!<v>g&3}`f%bWdvGF7NaO2Yw(td6wOfm}
zn?kh~`B^+-?-o20E3m_a-v2J#_A?N~v>*_{4Z-xUo((#Bnz|F1*OM2DXXScJ@^m}6
z+;MVWswx5RO{C4aGpqcVYi-j(rEpno-j+D7@a<&!<L$|0M+KYiT?Ecjz?}L|F#m->
zs#oJR)Ah-2_omgN;X^RLEFS&R2XaSlFN+a*Zba2{VpTuzcj`35voaU}#)C`(rV3x=
z{moi$kQag!-f_cc*iZZ;V^3(A<fp^^wz2n;16!?zW%|e8j`~vpgi`&WUXrULK(#YC
zrX84Zzr4OHo>?Gq5hHQiWPik@P2aw5-R@;QGO-)3g?(t42vf1`#{6WT@M_c*dlKR1
zYAaz@qe+>l({4%s&N>3ub*tX~f|%Jw@SV9YJ(#02J}AXIQ4+H<;B1F@2v!q+%ZJP5
zgq=~jfd<W);fu4mg9(b_HGSVm(vJwm2d7{CHcYp@8}*aq`V?1gMGJTN6J(+fIt%Tt
z(fjQkY;h7MX`lH}_o4j0Q-j?nw)Vr^qOqT>&bV;%XcL%kM4=l}<oWRT*UZ`}liiLO
zPCWz{YUKEFiUu~h5-u}oj;F{f3A2v0RpZ&^8ZFUPi_Lx=zMYAw+v~4PFSX}uOsI9y
zFC2;TrXo_~4+@Lop7tq2ItyyJiTTFYWac<9CX4GCbID|IOYKb{SMKd;vbS#UbNNm`
z!z-rt`y{&wQ4#g(F{Pg1gIxKl+GItpn!=CE*xS@sxR%#3D4G$u*vSH<<_ms{1_kNJ
z`$ZRxI7^{CGRoa1Q6{wNs%9<4_4vXecST*S{U)u)qZWJ}+msxBt;jRoi)VfqGbST|
zc8<25c2=uB(e9T1VNup2wUkjNj8=YicWxfWTSMK8;g+4CZLxu@baAvh$g;m>C&hIf
zeH7)pa79LuXK)&hCkx}PvF=6pIcY%D&h}oL)4wFW@z-rvbgnsDqB>jRI9oy=WVM)f
zdr%&*%;>X+e5~}@3($=+(X|5dz-8j;ccSTckVga8K$5+*f<0LhdTCbOFkX(EY)RGf
zD3kG-Aa72SpBa#dyZi5eHP!+9n3Sq~zQ#?5eV?~{+i8nHM!To}I9_lZq~`rl6s7tg
zD<Rxt5D;JTTNm@$bQmx7CN#GtA6}ie;{yRZa8Pskie0U5*j~q)KqRkU3HXUhflL1r
zIzRiN@|`G<>U~&4cbxdcZaZuG!|cA*IavOqYSDd_>e9zN_kpB#kIRQUakr-1qc4mc
zj+0xe><-AlY*ths9lAZSNf>LPOo3|p&PTSqtoz{0?Vv+k8i2;4MphvoB}srdornP4
zLQ7>@<77)^)7(+TO7(g6)!B&ocAb0WQ=mb}M92h(1+20rp_I|*eN}!kwR(x{GBzLd
zttfxf9H!x6-{kx_<~L%>#b11q3!<#*2or%9{W`Z>44$4i`9~8}&bu+di(#GHVV!#_
zNjY%Fcu2}f!kb@8(C$JOjMUS@KLIxgOI*uQ4>0>2-2hyW<PyJ&x%hz}2aAi1iMFq&
z#vy|9begs;8;@P)Tog=CI6k%0l3>+3{7(W7#e+tluf4C|o$r#*G%-uVm-T<h(bCus
zp%HSI^}@U!Qf18L5O>!2!%uR=^XnmSE;WFiA#h+Sm@AETMFf4^uFgY;9?&xN2;O#~
zW*<h!orO}6Lx&6R-Lt%L;S@XH5AW3b0#@Wza16$5{xzC_t5OjTd1a+h-H5YOPu-1~
zPa&W$O9eFunotB79*M@)LR}T+=w#n3JEMHwzrn0M9JLvbuo-XX69ezDacPk1$zxL+
zJ)tK2+PN0!rV!%BZXpT*MZg{RW`oy-xCyg9z};~DJhOkdu}wWNsuY=#LoFa71PIT*
z$N$$2+sKS{YJpzJM$SDx!VOpWnSE*cXIPo94hI=)(YORpCXM8hy?%!q<4$M#Jg&8A
zymRs_M@0gA_umRgTn<uC85qy2C%I(oQCs@BL!Cp|N|+RLHv&RoWG5-#oY3u34wE3j
zoA&8TCiU1Q^{|kLU;#CC{|LK5e=-tdpqaD^fBQ*83mY!oI<?A5*HE$_SP4^@tc98G
zsQTbKejoQ^iwVUl?o76>P*T-2+?secFZGjGl`7~D?Bj-PdRKa-XX-2Jiw_ygEHh=5
zy{6;Cnx6+UF+sJA{g~5j<l|n<3}D7+%xWmy&h8B*IrYlw=m?)I+oCN|wa>y`qH#uY
zpGi3}f*H0=vuM|=-zYVWferHr5qOy_AEgI`d)%<UtWUMtpl*_kAt|%@xpaXCU_)hf
z$@_j_(0aR{L9a|FNGC}q*AHTs+_4A6<Ko1z#8EiJN3tk6)cjO4lf)RQ>^WOYJWyB|
z));rF$B;#%12LIaWANUXxy5Y$*mL~-vAl88zY)4z7ApfclFjRf@b~`BAF*HNy?GPR
z*LwKnRhLWOG)4a)4VbCMH^T`)^;ND;Gz?=6fA`8%Xn^Ab`>@P}ai1ck^gGdeTijg}
zXc6UCD(@(UkX-cxqSL6E-@39Ia7rc?3&cf}N$5~#$zU3jQ_iYH?@##Kmm7yFvIcff
z9a1MzBhP!sSP)U^Gq9aG##dWuc8W@|h7ya)SJGm+$>%0x;<C~M)1-C3@zmkgu*7XU
zEYn6I!<$G<Un{Nhu2rW&L;mi>VaJ*AoA+(w)ojuQYi#NPa}}ZyFp@Dz1hS_LSWA6q
zDhv7F$x*nXJ~i<5gYBSewa{+g8j|k+Oht)BQtI>&Qj4VFQ`%@s4{=M+6^r|rM6E`$
zQzVP*KC<BeA4X%BWtc$KgkMmqjrgfTLybnBT((%AW+-pMO)83dcU3LUEKS2yej_d#
zGZ7#y9cDwh0|MEQ4kw#BC?8B?YI2B;$ENnN;JPc~ybot7+^kh4i`#N7cKkdrO^#EX
zWvcl}?(LTWFAzOb`r87?UuL*)Q(i6dVC7-q`Z0=}$`g>xRHOwMi&Cy2)j~6PF#W~2
zEtX|e<NE(7`_8bYn&4j*1OWkQQbLv9dq<EWhzKZ3lTPR@0upLKse&{?x_~rAYEW7X
zgetvB4K>n50-?7MxQF-tKivD_ez?!$^V`|k-PxJlIkP3l!>yZV{Hu@k8SYKcKQvzn
z+G=$c-El@_&~egp?ph8}x%h=c-syYGw(VRNKHb#%W^&s)?a4;-J>v+{8HC68#use2
zh3N;erDbKV!PBB+O(P|-FH`ou7yXDon{dCUL*Na}D-ODE3{FTbeVhaRSdyhIA!x+w
zLD^m0Rq+@R{{pYjrq{?@HR#M5{e@UPX8MD1xPP(8zqG!;SgmSv6>;H8t?|!08g9zh
z??!|?<_D$p#Bh&HH$AiBB#Zh;2A9yvk}E3`dH+O@qnve~j37RE(0>qjo#G37Slc1F
z>0btGxKpm1lg@+!lozk?Vd>Kw<y=S33Epv=);{qS?6sSv>sm#}t3hQyb4@Mv+0rHJ
zg!Y=uCC9W3f?XaZZhvztc(f7$FSKyF=lMP09`n;S`!qS@S0--tUo?{HdMNsHwHB_M
z$p4rzF|un@=_P-d^KF!_k+h=8=f!8?V8svprY@hzT$l~S;lj2XAKZ2BjSJbl`Vq(H
zw)^qzNJ5Yhd2?;QAemC8tUKwD*$2j#&{cB@CTazHBjrC4I^VR6A|Ce%O}XEAzI;vk
zi_s+C*qOY3!q!t}wp8Pnd@T22_oAN6!1yIHmOt4_Xd6dMUBAmPp!oVViJWGlNANc+
z6EaRN$?}<DdaSi_?fnmBtIv2w4O*k$$a&hr&tD9_xJFk*vtH{qPA!75+`JSrcBkto
zm~;<kjwyUfVPfPupGBUQu~t$q_kP?bynpqGn4Z9H@aFz6?*tXP&wqVwA&G0gKcIhC
zsm$zO*H1n+E=*vJjx(f+5->tQ--);@Tz?`c4O|1!MCg-%o3hy8yge*-!;SSddX8Z{
z#$R;Uo;-6@esNE>K7yqroWc>=&hq7$pOduY*^9y&&rVeX2bVv8uzz~gm>Oy|O00GH
zgoPQkOGdKe+@&9{^mRD|3E0L8vZQ|dh*fI);CVpaV?Hx5f7^-MoiF&AEXjlDAfqf-
zg!My35$YKwfdTgNM+rAy{x$DD6nPv~Go0Np|0wH`c}MJ3!1z7z*wygWxUJ&atvVt-
z+By}7*lEhNmq9sfF5qp!i4Py$pv8!pYYY#|zEG_v)DP#JiU{_1ZAVXkSbfRA7Bx9)
zIUEMBIaCp>+sb1CQ5+Z-_<s&8aP}&jN_?SDU+O{4uiz5%!tIIK-ZPY~>}sP<N`C{(
zQQ3Gli-)o-L!8kd)l=&y<|Y+S@rh+wY!ZikT9OqN#qsO#Jek~8_;H$k^@G^bLlzN*
z-#vF8wdAoqOrv*GBKxA9>-_lgjgM{6FNt)90n^IwQQtkoby`xt9{$^!2)<Skcf>{{
z%+&ktbBJO6G1q*zg!N}!mJU<EgD4cglJWzL?+&cz{_&BD-U5-z=k^FCur&_JA<1QZ
zwm_CH2dS7Lgzd?nrbG?7;%XzR&rWnvEe1*u&-_I`!{Jfyf8zXM6uI0r;PU8c*D{h0
z`f@7PfgNx;iDz-Sc7s5L(yLLf#0r){-siFv1!jJK{&FhU|C`%m$<2fRYqeHUt9N?}
z{^_RjytRxdXLhNl?04_T3sE6+KidW~b_>6BblDFlCZgGDH^>A5Zn>{rMTBQQtvJXm
zQ=H9`dP^BTcZ2P@Y_3#P*$l*655JpPMqyF+23QEU<n2~zx@e4xbRGxGk$7mhnzKEx
zlLmnnDVWShL+*e17k-PwoiC`>?L+!+8sp{Lwa>p~C5TG@@kX^Z2xU!u>^HThwP>|T
z?AP57E#UjBcH=Nm>EweOo0Z4$Jy<`Oc-rUFJI?tunYrU5qklSLyOjFW<%cVdN*2}D
zCU7WfF_?!p04e}n{XxEss4Y|cbnuI|iO%h6ilof?`#R^?!`9p;oxySc!Gk}bz8UVz
z`cBMNIOu=B2{=8_q?>*_jCdvO?Ja9OxYS>GD`Ga^Ofk8YpC125v=>e4{|ihFnUSJ>
z8!Xz>e9{5J&EyJp(S$~n^LOxM&K=8zffep&TX`WQR+)s7>QgQ9vV3kw=n(aY4(lsM
zHx@B0r!#(G%_l1qTuRRX2<n3S1^vITf9hS&8pJR`6Sd!p>B#$u$>#t$p*Ufrm=2Cx
zEJ-G(MbeTr!`Uiv`;TSbfn3<~7{4XhPm#obzj%@3BDXIiRbmvCW8m90eV*ILnDpv-
z;x=w@7Lwia{M3kMv9>x;X5u{eZtUFL^RqP<jo*yl051rNFLR;{+kvR`D7PIe-Z_is
zk7n=qZfLu?J+l9C#Pq4P;`yM0^ts~=qGr)c)RFeng<9%Mr;~oDh-VswQKC34{9H5U
zY;CUe6lAq+$mG95L@CFef5PoNut#n6@<)ZM+C_rS9exqt&Ed>SweBN}3p?8fz9b{(
zgFYT%@58d-=lwN=>@b*A%b7!{aix!4U(RV-ZJ+dWv2{j6i&cbR#{T;sCV_T+tLIBi
z#@5+BiY<*2tI*KHt@EWU!G`^E$U5V&J|fo!rrZ)>*SB^4Z}#+;=q2{QRCrYNe#;p&
zl&oJ(`F~Q@=O5&^x?9FrS9B!SFYXy`5!w!vY34R;q}A}yQ1ZpOmaKf3vf9H*A;w~$
z&PwHxV?FF<Pm93I<KbSy&5srri=RA)mU3Elng7O?zC0H1CHRgEr-v~;&8Ydp3XIJA
zr{@30F@G~q6XMLi{~!l?n131Z$O9GLgI3HFg}sUYO3c@KAbb@e(zi{9MJ^?F1nKng
zyO5BS;1tApzn0@kx0FYVau|p(+Hl7E<NU{23FJ`E>(u%1O4eLji+0OFWoWO(d4EO7
zBZB>w!s+tk(c2GlYTPNqP2S43SlpB<WFAP2nXqqw2O=4ns>ZfLzEnzZd^s)QXHJr#
zwj0=N339!3pFrrAsJZP64I~cT*CF^(!CG8p3i<}0i18y3y$n1J$%sLul&6=gk8jHR
znJ>MfE@D%M=`!+T2!=t?*OW%S-z?KzD#lHf<Yf`@D^jWbx>XX0@RhZ}`L4$9T11Jf
zrol_6#t2UtL_H;MZ=Gl9qbgS-ZkV2Ls@_?8ww%PMe1*Q9D+bFnhGMRgo@p2u*E{RF
zJ;l5MDt{uj0c!B)hAlg-C~klZ^?|H2U&cYD5$(;*_gl04D?$6CCSG`GM|_3vY=iha
z!syBj3T7uab+kp%fT)LPR@k8d4rNv^1Ca6Z^~6NCuK{`K9Cy6jfM?a#EF2D0>lnRa
z3g=iPTl4T`9Er*ziXj5u^u4stqNR0KQ&0uxWtOAzpA>~M4k$}r0*u9hXIE7=uNaP2
z07G)DA^spC3+4EF?g_?cRNm<<J@tzD>592p3>i2O<%fa4KmaSGVg0(8%nb{Jvo8Is
zs$N%By~i5D`-(R#xbP$t0tWQb7UWJo!@+EocycdaW$kLl_Lb0$%xNQsyR!}GIr~d*
z2t2Bn4H{p3w`8zRy1dlGYj`C+c5n-%`cbe~Hbj8=3IJo#Qfb0?lC}38xl+=INM%Pa
zUs3<Q_7&Rgk0rleZhuT0Y?eV7+xv=pc)3}~Nr;wb{<?6hnX`Z9Cn&N3k}_MJL4BYp
z^T71nGOmX>L<-HyOKGHSftV>yQ$ln5J-ys~#L3d9EyGv&j>B!E26@o~D^yBy^74q%
z^VeSLK3Tn@o?<`HaVsnyZg?kNp)~J;Wsqs%P8On%mp00-P-*Hhy%M(6^4_z*F<)z7
z;e-0yyuG4NC>g(17RZPqZR;J=+Fk}eIA%`MTj6s20?}eOayrxgk9@(N2}eNZGB-f+
zHH%7s$1N&J!-_1Oze5^CtA0FQH>%q2T%oPne*sXwPVmUhPdS$Deqv83BR5rkAO_af
z_%dGQGAd>G<mRBBRr!v|_xahKX(Pmpa@-MOPcVN6Xum){w%BHV`tzRH>LT2((1$Y2
z?kh!f>=5tyFB>9PAHlF)Mg#iv9md;qY0BCci8+=MPhL|-I@@NJTJ}i;wAdmu6Q5GX
zjtHQaO21T&dtiDNic(yc5)ka%SoEuiF2lJo$<ycClcjCrRocA8yt>{Jm5$u9c7Ud4
zEVI0qYMc3Yjv^%|D~Qy@s7>Pc7MmI2jT&tcU=3mev>N0EC~TbxsLu$9+`Rb%k-izV
z0kRS&xAP^NJn&S2|19p&t@_OiFxeV3j<#@>-oiq;dfk;zo`^9wNKGJK&pmd6JIp=y
z^670%YhOw67M6Z44wN(?OgcVB_3|#8WTSq23+rS4HX46{yq*&plUMR$_<?|m{70q1
z5yb9ia;$eMfDQ^CA8lE<N0u3_XVbLL^{vd%*y|Sh_TI94kvUYS0wx<nL^_Ks@@0Im
zwDSobSaXugn4Oyg9!<$wy`2XG8z7|{<(Btgx3_51^v<H8x~Y2jXlQKv5m|cHoE|b?
z2dP!Js4<hOUnPO2aH`4bWh(~UOjhP+ajz__=v-ePBM|l+m_!@EKOAV6$6r^a>2_rf
z)>%4#fpokdUn9@abCZC9sBXzMT<NT>L$^g6VvS9V3K7m6;N_=eiY)ZiP5Lc{V4-}u
z_vWhm)$3QPtX$tp;mfE8=%}q!7N6AMtQi*aoPG}=7K-1hm-6QZ$6r<MHp@i)W~Ts#
zr>p(I6U~nRdesB}THYM-5R*qB24#gK&eNn)-Q5Lrt18<LC>^@TlX-cj#*<5~U>Zdu
zsE#D2?wyy^Mi%#$05W6yc>hN-6VNrUFFT-2u&$4As-8BWd9J$-!0?lo>T=1DLA;I!
z+*hd!a0#~Mxr2nEWt9d5lzsgRq>~nW#VlyLhj5CFi(JX35dz%1q}Y~cYO?i8k)woo
z$r;|F`kR9zV$3l2O}|<_ZBGi8<@pz4Y~cUs>;kJopI#>5y2wZTk(e}sD5YONIIM2#
zA<|*IzRlbf7)g{2tccqNaFh??fTQ$eqz%?_+hn0=%5OxpJ`ronMm=k`_Ri6Re}TNH
zHm!#ch1bFG6IHj<wq~n~NoE^tbSdj0CXaVwab&7guZxNE_W{r6J$Y@q{!*~b`KM6E
zBQn+A3AAdP6W?*l%9@gYh#l016&Mt@J07mvPOH~7dyU0DkcRjb4>|Ho9VGM+8R}!+
zsqB25we<4+kCOTE-;|rYjyI7<6i1J)rLX`It+Bw$N7<utl<8Ta&jyeI%mi?BWz<^}
zsbzOX7y49Abo~~4hG6_QDC!~h15wfo^y%meyj+O-Cf&^kbe5<h4;VjuW%tz_>;c1{
zs50zX#YO=<n;wcodjGjy5w|#Pj(ZK@87JkQS#TIPcM_CL^$ir5M8LTcRc3gFGU5T$
z7h?;o)uT_pqJ=UB%xd*sR84FGwi=5wbJgl)TPkU|WRzM;-OU1K_5BmHrScV(8)fcw
z^}Ht}J~f%K3<n+uOC2OJ$1D;^0A~VFYn8UD2r$hEz(OE+xMT=mdE0;pxWjm*z#ik3
zr#oG{>hx8!1khd_a1+GyOcagqEgSF8zGTBAV(O;1GMulx?IVDtmhIA4`t$)vUk}Nj
zF9hUfe1mmmGgZv%{(%&@h%EA4*|Q2DAoM%nBA-O`F+F*2Gp?SDa<abmH5O!225+w;
zU&B4boQj~_e`>E>RQX8_{uTqm>(tfAU+D^Td8M()hZn$jh?z5w0DK3>2S}~;m!3(`
zST|fNmayx1jm6!RB&4pSclB!RH@$MQG+TYlP|VfSzM{@^wRlL3sIQN%?_ZHx_Gj8o
z=^>hVLqPq5gbGonv2tHho{U*bqlgVq4T&Vl)Cz6I)@-t^C#FKn?)5*ip9hMxyd!{S
zv08Q&(L;5#QCy6GbJ9o0yL;r@B6{ntN}nN23W;ZUm8KH;0K@$sz=1W<Y)szX{g%_&
zmqa5LYVt98Azr{s9+Lr%W7MvXDgF5BiUq7m(7DD9P#Uc@`ac!Y*sP~5-!lNC#kEUS
z1LFpQQZJ#}RDgW)Sno41m$Vr15Xab|!AD+BKCw7Pptq^BP%>bIymWo^Qr%%KJ87nT
zQ$v71z4mhQeV*gql&l5B#*h{*C%hBv|H7TRzkKpj?&&=qm<n7*&m)Y8ztpJwZ1kst
z!Fn!!*bmPhU<`1KXSLauv(a-$gJ+=ymu0Tip5_K;PKdlzlw-a1to$ZE%Fc{$>Lk=o
zCT*w=WpgrlBh_681&94W*%bbtC;{UJIR7t{fpPPHF9h7>Wf1@<o01LCAwdWjCY&h{
zYhW#p$K?Ovje(egsUAH@I15cn+lo3Qls&?{!)0vc91>{L{yz}3OL*)7v^3S|N;s*T
zMww%(MQW}THn+bTqwk$pwmQaMN$jJ&GBJ&}9x{0>tamj~rs*^PHK_Zq!DEM%6YMm~
zd$wWxC}Gz6vsL)pdx^#$t^x{e`8^<_tiHTTihFrYZlYWtfh(`d3VpVGqk$DKx8Fld
z`f$ci^}h<6A;7}d_g^fl*k@}0=8Ffy8YPtUTd$}t5P=zbSG(|%H3%pEx2O}jsqt3k
z-a1({YTA#zD6onB-(JF)Dz%^aXO;2QU<}bikA_DVnYQ~NYGhRK+>|IE7Ud-=dh91d
zwsP;ZF(}wY<*SvAH^Rhgt^X^VGxT$cQ?y{Q>ed6^Dc9$fuh_;`eLTs(#V9}R)p+i?
zAok>iT|b6x>Ylkkd9y3BnLh#HBoKS7eD~32A3ZI9fVr7sR8>pB`xHb}X{aZczshMz
zt}{iH#a|;Q1BW-Ye4cjOjlOzCqj&Fmas3OhFjHzHOBsEvv3fU-DlM{;%vQlLw|zV|
zGWqEJw@L2`(=Q)IR}#CCBDE9bUw0^q2*nFW-{Mr@6Kj?2ktP-jyX2#BKcY(LsJJL?
zEj(9G2zttBdZU<-&nZ#Rs$zqc$l8P_rtg9;7^`kSvgpYzz2Ry&t0CW`!ID)k;m%;B
z`^U>HT&8DGYsu?%dqPKmwGtO=WqV&Nd$L@)Abl)d52wDVMW)j4TchE1Q3GV|F3)^)
z&Z38E`Nb|3K13V1M=AG550$=~`)#YaNPjnRl2vK{`A37#gCkk_g+3H)xygt&1x=j^
z2d^hXBhQSOeItYZx(voEr*Lk)un_pP%lhTxuKC)Ng#z<yFYSm++e>!cC@7palI1Ey
zMRH5PnMMUeLOLZ>Y`-%3E8A1<ele&W8u<-V^yR}PKciaR7D=6~5~Z)y=qph1<r}?X
zA*4SPlX+0QH{n`+YOUn!`1c9E$&JB?>gp4JGD)6xGeX6zLUZPFulXQt7EvEHqh8(3
zEszd;KM+fsa<^7=Aom)%E6HqoyWq$4Qc;n44QHoR1=5PWxdNU=s_$?d{TGA95!X9p
zp$b#cjk0QUCseNb7LON+U-w8*SY+0b3*!5lj2}&#-Zjwb8EJOjh_q>J;{8pFY~od?
z1E2<g5-xh>Cf*P9K=wKV0Nz)y$Pl0wm<-tdb!64kxSm`PA}pV$rHbdi3)Y}m)l@Xf
z{24VT=pe)SFgib3!+>J-luwY}tH8ojoBQR;shHq^>muB5I9$8Ahl$b1>}OPbJbCQg
z10m*1^?|iw;~p2g$3@N#GPeXBDm7wK#%_U3mvmosS9PW`C0WJt7qBB~4ezN!dGm-v
zv5!?^FVSfMv?Sk!cX?PGfQnChfQsm3pd#13tBMcdkC~m-SyqTU<{ArKm$l&!&Y&OK
zzZ*a5PF19ls@$z@<H_5tmE;AW0015uKIF11k-o~Z>+%(J7ywXY2tdSB0Km@x&@=*o
z`#AtaFS0cnUK%XBy$pJEi^Y13MG926#4H7Bx`GY>X#2h^JIEFOl6H`TUjgb02CiV{
zCQcq2GeFWD5IxX^0wB6IUOa8~x}b<lyutfjuLn=w@5+gFbp(Lem+hJoQg$Wsi2Jcp
zd7T3QL=Iu47PLnKm>@*1D!#wE#sI3rO(nkJw`|_T0?BlMNifKL*?h~hhtfolNY6vf
zb44Fa-Z(+dBEi$)`N(cks90zsdO4u8Sit36U+>A>pHJzTXePF#%;cxJR+2R|%IuO{
zZ<Ueu8cY7rUy+f!*tpn)wcU5Il>Y!o*t(*2uc(77>g0;TUs0E?<nwNd35G27<Tojw
zyXk7A{Z`0N=Xs$h>Y*DB;u=pOmVa8xOU7ee`n50s`yr1K<VFr`Sw<gmo6<hI^Sg>C
z*{sltuP6B)=+26iy7t{^jSMoW)_3$jzoyC!xnz)4zT);*8YwNx-FOh5r1FGQ@)7b0
zXTc-ovA0@0TLz>onYGevE+L~OanAR;+Z9DW8VDbWOlS*pO`NtWy40!bnJF|q$_+M=
zG3s+0gm~Q=J55~FxR<pP>iJlkqJ)mDU`1xBFV~T$sh8VUs;{?G0P!_dAD$}u+VLHO
zjNCWg?26(j(ccbf&;OeA)3MBr)9Qn$S84R+Map=yy<Wf2lkrUcs3S9PCV1MJLciu!
z&=EkZIAJ=>tZSzmQ8{GA{N4M7nLxhMj0VV{gj`YdiEC|o2#GGadHKk<^ak==x0{s5
zDT}hjK%`Rw0;a~-neeXnbz09q%1D&)+7=c@iC*ug{R%&H;4ArH4A7a+|59ZojPKoI
zB16wGNXUDY^V-UV^cUgh1gg@vx!Wv}Ka)CNTR~@TXlo#Ax4EMPMPDa`(EeThKn%iN
z!O;~E{7^qM`PFULm6c!9QhWi_&||5Xq=h#XJ~J1+E=>CpO$)#0M{adpn2B=Jjm)eq
zSHrZGT%E$=h7-6)1rXf}y&13daf>{YQe^*DCdg)zRziMYpib7cb~>?AH)06tp-&qe
zZJb9v=XO)nqcUHP*7NvU3URSrntaR8iMzG%y3m=O+AkxO^@SgNq}T`U&e+y{8TmHZ
zRUsQ?P$&0#kh_85tGB%<qLNtDqt`PHSg+<x6e(rgdp(U6u4vvXw(;*rvZh|TJ+oDF
zqdg65h?48ClzsG;{y<mLqdTn1B;<|$YW+g^=!Gu>oX(yE|CRK}K3S=cN>OPRf9J+X
zhPEDa#OBX3&@pQ}cZ^y}egJ-<9RYGLbjatO|GH`~&kR|7L_A0PQ&7BA@Q^Jne(NnN
zsVn?-Wa}$s%l<pE*mj^TZG3|;pB&$CMgC+?c;uSm=6ZukWZr^uvIhUt;d$lSrNd%~
z3c^{J!fJk93s*9@&!DFpegZwB;z_5*Ip+_A_-dXF`ODqq`Hnj`We`2Se0t=iTsYs8
z_6ON=?``PLfTq)aXrR!?;!oT}^F|%3*R`D`1WJv+i++AwHu(#V-;D9*j&Q)HSh{?6
zT<!JKm{XTxqH&Kpvm2#v>yQOcHX#6<4sFB@n;lY9w<PG(;i#tKVfe-E?A{Fy_NuHV
zr){>XtoEZ0LW}P%5#`hinYLM328$i&;6s)si1i>_lOa4;BjA&*a_Y`2_(OpvanoPI
zGOAFj>?;2dEbAe45-w{DXwBMZzE4O@%Iybe@OoKTKnQkD#%|{Xjew}lT`Dt*(p;d#
zkCQ6VvB%veJiqW@;i@Hu1mV8InjK#EAxzCq$zKk33Y&jN9k4~cvEnxHq8=u+Q9Q)&
zET+5NwAviNDLCQPC9dL`@12%8>%Va)0WBl4m%Bj)!YnHp2SW>?X0jRHVb1PGD~CfS
zb3ORnN`aKFV-HZy&PkpqARP1K*H(;9x8>;T&gJ0xCc-P50+Rzk{pqqbX`rxfE2cZl
zc?#RLJdQQE+(AEj4{`P2d5CNhfBg&9B!2L)JrZ+f-!j6$xQ`lP-~~WdTKdj=qc%DH
zU*`ufd6#9^ZN@Y8sq=%Pi@}JxSdW1ThRU9t<(S|Kgtr2bq}&9AkI+FVDPqdqIbMVa
zMZ{e!Ufec1A2R$lVUM>P)A|jozB9WojK^}1uA3fB>&y*TV}B$Ge72c(=8#lx`97?A
zFEZ3IAJ$1h=u^eNV?RrS9nt6=l!wV2$K89s5d6?rySlmXThWyDv)iM=)h_oo7|z{P
zH|k8~UTz>vsh}I|IjlTm_fO^<zW`M}jtQR_4~!|F7!$uZ5q*+U&Ji?dPB=fY8yTPI
zfPlvb8j6M$`1A{u@$o;L=GmGDYg`H!78vy7Cwj|gm1|-f%R<rh9A1`f&G;ObiqxkF
z|1i27KOc!<j%Y$mAl`1=va8wD>Y3#?Q<#P7uh(p9=$v)gMTW3aYVct2ueHDi0^GH4
zb>UyNIeY|8eZOThChj&x<;4%Klcmn1h=YP}HOs^&uQ#P9Z=0Xk&4x+4&Im~HepCm2
zJs4~BjCq(t@WFGnnGB{{6(?0w(Rw=ki#}6Eu5oZ&=EfOWWV(D0eJ<&q>QwNFc=o~v
z?n#xmRioipq>HO%8vN;bO#S|1@zmdBaC{+FGdoT>bf*L(cI{WsVPfW!vWYNmHVzs7
zU&FsRybLN`e)c#B%~BURL2$()`ZEvRj2A*PWih8?)8>~G28*&ici#89Cv)8`nBvqN
zPjC-S=9<w~RO`J1+CS&ito6*;a=7*Dw7K_A+*xoc7d_DlpQgaQ9sTI1A%Aji7r3+?
zbZlurtZ>7*w+kM%cYZ_<&7yXv{G}obZ__=uSMI{s_d}&3@7)=rZqWM*SsyWoe)`(p
z{;`MfxcnD9kXf-mTddb;c9%N`GB3bqi`tCd)|hZ*W(}I8jTk>*7N+)q5*ddxJK$lO
zKLQFqq-?~13Y@%CV+Cty+$?9q8fo0_KF@NYpCuP<m-;PG|8U28|NXHG>qh@(Ot4I%
zh|^&Q{8GX-eD7;FWNj-ZAFDQ3I+)Kv;(2@hK8vZ=x-yH}$xv|hn=kimvThBAqNHfz
zhzA+Ms>7I)I7kQ`ug@j^aX1Y&F8DIVal+Om=nc<?>;!%uuwm}GpSARO3|5Doj`^!y
z?tZnoIGf@KJwM&b4?DduTplLu#&BG&ZsJ<-7@OsugN%%p%Nv&)n`$lR9mi^f^ZDVH
z^Ybl3akcaP{&h?!VLkuyuw^JelpJgsW*PQ(_3~tiL-n%SCghCzavd`phLKl0-vi!|
zzUc1XZE3j#{%x;AE)Vu%@>|%$#yW5p{YerpkMK4ZdurV_h>MI%$w|X74!7=4HHYup
z15_{8C(1(PFD`JX3+bfTONxQ2UvJ?OYDZ_4Hm7O3h8V&*N9+E@zCWPZjpy}YTc)-F
z(<n~N1>UBGu&aE+-SO&NGwiZlK#j1|pM(j)cjH<vC?W_+!>XqfHfLu!5ENnK>#m|}
z`)0o$eyoKsY(uD2gW>n5Foe^ujypIP$q$PcV<+iqZBpmA%6II~tHbuxF7gS6VP}U)
zYGIe%`Q7{%8~K+f8P#DIyU4K1Fv6w$1xGce`ttYA?4`?jLYT}sl&Bpd&j}<;Kyq=F
zNc_Q|2y5#cp~WqP2EzZYd8l^QkrZ~iJau`oW!Tqpz(H8&Xt`KhC-wJ+3>}gn!ZAA_
z^-!XV<D5|LJ_vCI@%apd*l_}aS8o5_XSzap9*uc-iD==z_*xlvxltF_FNCu=v1suQ
z09~>HMlY)2DRv=*c0;xEQ^rR0#mSWSUT8DMs3rKM2(WmN8guE2?=TEIu(@0|RJ+&_
z$An&v?Q;+|8!)Zj!MRoYZyZHw&)FJf795sVzlw()hc%ziGXm*qKZdY)R&-5mdzd5i
zbdzJl!0hra?~}<(MAC1|%e?iV;f<UrLx)MiX+%k?5225hHuS<_;d9sU+Mm5cqNcJ$
z#nsKPuglJnySR&v6aUL#yuYsx{s_`-b1+6Nk#|0OdD!oN3C+0?Gj$S&Ip3U8yXg1o
zR}CVZ98W%GOZ_v<!ITdci)L}T#D|^jwSfP&D`|?0L&V1mj`6$Vi&keyMjVC}?rqZ#
zf+MW=K=jvax?23ic~RH5F8$F7+$|?JZ)(P~J<7OsFPLby`MU4FRaxp!*Iz7r7LS7a
zhDMm~CsImKC`%pn6Up&NUPBV?qfo{pPdKqhB%{|!kDUDPtrm;t!-ZW$ZhQQBjjC-}
zYO070BVs>FB&<f~PH!8EV2@0$r(mhz3v5gm4*o$AG97lu{4B`75Z%|1&Y|yooF=<3
zF`rw!&#jiV>5(0vieVf)@Nua3Wx8>g9uZRG$ide1j`Uy1(^-Bj{X&pJ%`s&9prHxg
z0fNt818J8~W6AFkg^Q||!sU_3i*yn>dd6#@JAYb=I!+uq#eg|qXyHBQABMPAkc}VN
zSmQypO4LZM)B*G|#%i-UOb@pOi``ybMrY(r5<fcGs*FM`tcvajHN?O+BAUg?l$+Jb
zN#F&l^4O#P?LCswJIY5FqOjWI5?lGFCD$%VypwA9tcOxrF)vYYe`G4qBG^_=$?&m`
zn(LrA*31CAY~d7aLoQeQur>Q2d~+-O#P$eMV*|xuQVvuK9y!}<j>(>o@nm+JPy8Vb
zhlT0Ad4?_~CwEjKLN+PZ28)pNaD4PO=~c|kjv{1Dp%ZE%JpH4R2uiGM0Z(A(#$Kno
z!t&4&wAHD+-w-F%@p7AUP7+nJe<J#Jc-UR4y;chiyIAtZDXd}`p+Q8^ef{pmznGjE
zct%zhdJj7n2+9GgnCN+Cv5dD{e=HJ9dcpa9r=pvcfGrVw5F+HC23G&upD;woi6Qi=
zs3jD4!B%+15AW=A4=Df4F#6Yx4%uI~fD9vD$l!Q_-63hd_lDBdq}40jYP4xRZ9XSV
zGkQvi6a<!+@T%~S`32e~uVqZ3PL$4_bogXXy{lU@tlmbFO=qh)%6@^fl(y@>nCy>*
zo#@sLw{>k&5)-$Ql#ztaF0JR9%tbZN&SQPyv0)KrW9}?2WHp<&?yW4iUUaIS7tgNS
zE(hFk@q0r_rqvYVlNY>j*uOn!SomXDy>pws?7E!Q4w%rb&Bwud88Y3RAMty3ofAxi
z&)#NJU~Pq{VD`OFY=6QVd?iTmtn?l#5#0>~@suxbeD^nMtT|M?l||UVjC)6;t+oT>
zW!o6{DHaC7xYT*$?OGb49`Wr9w$!UpVQ7aku_guokbvIcP^w8fQ5L?GgBK888&==>
z<xM?dSAor)6vxhQ7oOwWsa_jWVaan|*=pX_LO-()j%vmO|0}G85-Hpjv0eEmP-@{m
zcK`#@su{aL$T?mmy|k4V=%w@!z!5=xS7-M7wyATd_fY3|*ipPL<_XDkD<yv{eu@N#
zHvJG&yUujD;Jt=?tMNj?(DDl;_IT*l)1{YmyQw=nUXK<+<Ry;a$lq3Tl4kDUu<!HU
z#KNnc3owbB`}3{n9l6ia^{phwuv`qdc{8DTmTl0V2pp_bWX)yb^=>}3;`rVBf3eMY
z+sA<Xn(l_>!|l(pB<SVDWLa0nqwNS?Ohz#(9BsWVQyV<j%j5u!UtF;;Icie~+dWA?
zLp8xk$t$Eg`Qdza3Pm_yeS3wPB*-^hKV2{@b7MpFJg4||sHV8UbS@?GfA~!ZuCLe8
zzkWA(_=F}MR&8{uqDoNWm9pQO*6o_Rvp?1!g+MaqXB!62P%<dq(&%e)B;9S)SQ!lE
zmNjk*HBkKff_EW<@hCvN&GEj5=dF(GAeV}FR^9V~)xA&~r$q2BN@lWnH~UWn7ja0=
zBd;&rAd7rsbHEJiaP(WuT;c-HGK_gg#hW%vbD+yTWeu3^+(THPJ@wdQUbX8!ET1Ai
zcWYrr^{O7&;r=TDo0^fM_Xp|Z=I{>3FX;fUtpp52COT`DG?Jsg1u!C22+AMn@I9s*
z_`Oc{ZZ*p`_yWTX<^a05{7$)Lb;sjvjQ;6y0wpWSLFyab8v#?*Fy<M+Kjd-!!yedZ
z%*->P+uMx_%c*iWk|@G-y0dTX0&d}`?M4PEHZa7a11UPF64`>{Z58ks!Z(oy>;Dmy
zZKcg~-7(0M{GRWfwukd?_J8~|IOcEMJGMamKY=8n8f1esHbW5eH6+)t&D^m8@Y~58
z`X;VvN@G{V))e92b$`(S3&VXZJ{pR>Ur(CXR-JrY*0`>>1YtfqxH2(!VgXTef8lE~
zMT9LeJQw%~Lu@lH*Jyk}v1S)_;Nrh}AGdm*DD7Ofwcy)qyv0TV0uOctJEL)vz~4=g
zoj#&k`DAnP=D?f?6h08C$V)mz9@x+{gf=q7s$qj;j#u#!^CJgDQ0IYeDjSc$>0EIn
zrh&CC5&UicW({4w@dw{cN;#TNRnY-?&h?L7qM|JUD=mJk!S)UEF0DmMWEJ|?##b=~
z`DkRADO-0QdRge!In;CKGf1*C1R1?3Eq~<IkO(%!+KH{vM$g}zgrO;4dVXKGQmyg7
ztWrvBo|-*;4AuO4e{TQtoXix`5(>GnIz@Fhj5jY>qj+UFsBwWrRT&ljZj47q>17X_
zOAI_pQ(KEjhJ;S^qURC1Rkm}!B=xG`-KysO?1LvP7HnW{1+X+s@2S!Uh~TCb$6j__
zR-k@+G`;M)p-MNVsxC0^mGyHw4psDE6QAAJ8se<U*=1%5vb66Da~JIkSg)Z0_r0-Q
zQ9E`jlw%=UHBI^G8+G8|+F;X~W$FMfnjFNm@TS*LO_1<Cc)#uLK+_l7^*n(iS9n`@
z(E7i1E7q#Rh5c;N8OXK<IuFjpu_cgLx#?Ak<=<KyoKGRFi5-a2{ql&~6L^IiI2_u)
zkI8fMn-2Armdmg4tI#d5e7mC16}UtIX5I=bFVDsR`Ai<;PjssL%Mw`;`>EziN*Q5o
z?U3p_AMa=`iJwp`*I6?kGG9hoM_)_=#k=tJ6(hLHw)0L(5!EsX9(EkV>bL2Xm<=DZ
z=!Pk8FU`5&-U!5E^{OO=umlUJ^IGY&-#4uozi$T440nclw&gJU1TLNV=B%Q-9!Y@;
zrEKc9H*od{P<zFMAkg5*cCC~QbaqP$tm$-jVLxU0mUmvwRfD3eB0g*xoC_g?a@6nl
z0<_Xh{K*d}g-)2^Bspq~wENLP^lliJ?6mMzZKX6=&UgGf-%X5WHIpqbTDk7seBeR`
zASWTXV+Yq2suApr)oUE*ivAn8;2O`C=O)oSbCJ+OBAC({-2JTTTJ26ET2*DjHs}W-
z$Bp^L1(8RFLfDcid)B_{;y02A=MRgRcUuB!k=`OaUPR->CL!(Xx&dWvZ`_(zF-;3*
z)sa8SG&zYvO*`TZUp8SE+<y<{T+E+%wOY0dugF~s?sSFa)|@Yp8Okz^R5YCD)aYfL
zfC^zd8&B62dnC24B&{^BV&VtAu{(5+jHvRVdtOXo)Klvn&nZdh_orLJs`rgQT7>nZ
z$FAMKm*o@CN*ghDX9;b9_xThL9ik^bX2#ReDc=GneHrDyqXF`-p=gP=a=^_&lSZU=
zW*H8Gc3D}<9!Nu|-K8#%&j!oolk!t*n*6zqWbmE?eHtJJ>8hHBqEuPZSK@vTMGe
z*{Tm!gS0Fev4$R412p{EwcxoNd;cdb;gkf4+I31K0hEls2J&fov(*L8#IieADAy$2
z$2HrA?KQy5xjhuPI}PJ5WwD&=v8((v?h`u;-{|wlc`n#^C&%4=4g?>z)t?jh-+q^{
zOJ>VhA546)It5StWV{xn{D@V(#gG%J{yG)Ao$`DXjW>Vz9I|Nh68g0r0smJ@LL{WV
z#D8I0^L}Mg9|=0<3wIMd({)4^h)q;M5cv^12K*krHly<r>>eQ|t0`adi_hKB`g=!T
z=06k1ZCWYl+&_<-L=GX*YAaiIoj1W2Q28mrODo0U^k7~jR|9+4P0)>byy!!*Ya3>X
zV6Z*MCx7qMb6~P<g0ekBP$k5mepe>yyNv@Rc}<{{;PTy0)gkrl<nwQ?^5cFxtgMot
zbH)cAYQ9O}32|i74|1x%cv0CJ3fAK4PzBcM`Su{2H6MG9b+W-%su-h4N`$Mpw+J!y
z$k$~4db?xPy5{5|8)Ci48Ohd!wyyd8brCjgqVhMurt9?mdV|PMl&@XHIZqXt%AvN(
zEln-QW`z7RyL`;|e`iB)DGxskZQj2~d7JBW5&VgCt6dfA1vIdYp_wy%nW`Fot2Le7
z1f6l%soLT=b(qTrN=NQCRDgH2S!a2x6_?6FDvx(XUGLV7`)@;HVUPbt(17)Oqe}P?
zHxiojYh-@E{HLsZw4*Y!|1_l6MR-7xMlJTZ;oPH}3h2aMCyum0(w>-xdy?4dG;8Yi
zR1oBljY%j1-PXBX1D}^wH~Ewoer}L@VgZJ%+dgr}CEsSXCp~IgP@3NAqF_1aDLDlW
zVY}$*z4zS<v4LB;6rcrcEZn!FnQm2|*2yrjT{Sqme@2;6ZY7S}E&|=Z(<X$g-4%r(
zlbY!^XOyGoKU-^Id_pGfOazDi>Y>1+m1`=S!M4Hi)1S#2WXj0KPeu2mVB5K<qr_cN
z&`}nZM^9e6`9uaai~Dz6?#kqXB)kABd2xA8LL|{@xCR>0tB&egIHqE~h^AgLR<I|1
z%F3<AY<exEKP%~QU!~VjH8Xr8BGPJMhY%Yob#Z-&uH}fzm!JM<F+wm~RR9Y1y;q^j
z+(y)7<$U4r%j2|{wBW?`<g;xC@YdjD<T~fOncjuPpzL<l5DCXIQZkTFanr)n%=YHS
z$>KREPBk-bBO=_&!A9f3O+;4X5$_a27LYt~pnjVE4CQzjdyX9b@z_WD^f&43o_b21
z4z?355qrIbSKv+LqP*e|q*rmQ=GzLRAqTdfRMZ2_xg*+-)_OYTD%{<6zk(dU(}qo_
zwnl@SKafh_5HkDwcB&+l%>QXKoH{hZMm4}LN#1>WD^Yq_uKu}Fjp4SI8NhRP`*htS
z)0KhcsJAaK18qGGY%UYasRHcymxvcpk-l&{w&(VPDdN~ls#_{E=A^(b?<l)1h-g*l
z0lP{SgxL$bB{mee+I|~pw{qjmKZ5B-kUhSl?PS*Q$e-n;EjOtIPNHBoPBgLbK!eQf
zwls(GlKe&bVJzrld0LVqRxX5!;NY>NwaLjE>0Mt-fj_`Gt%8}6%ZG{RSB+F01A>N^
z=}ZV!?+BlUy_zvEB`{GkmGX&hT;F!6J;#OBKnS+e3mrp>=6*@lN%1Lg&}SO<D&mSe
z1bo3Fs(%rEC;#K2=&zQ|=c@IYr|4L#-Mko{wpV(cdgUa`V%T}o_gP7~7~0-Xe<CDI
zz<=IyCV%1|;F^UuG(UgAsz(lcXC<KOed6@%ke$Q(MAv(>A_e_*&_?APS*mc<#r}5l
zl~QZfD;td}&MNEoKnS?7dco>$H+37@!5iVs(3vMaIly>i*ANGWVBcs7wst|xC8<@x
z!D06K7nMt96v|1rNGFL|(m!w0n!t4SFn!w{EyjR=j;Ay`sY+B+e@!q!k%TZijyd^;
z^I1!r_wSBV%0$X_e~UxC?dFNA{ZtFUr_1lzUgTe9*W=11sDh5xFlk4t_|*Ai^|yGb
zq;85oy78YrjjzidU7#vz#WDHVXxB%Ld>!w+b<Vb{XFhZ-Y<<D+EvJTMc*hpZb9254
zu-;~CMYXJU6D*t#aKrg<bu9*PJq<TCa(PAmV^)#L1>rQ&sv?h7i1!*4)Nm?%_m%LO
z?!YFj_kz$V8>t?vZJ20FN*o;ZIWI(_b^_Pox4qLT+xc^FK9w8&w7~xzB{AhY#B9*8
z-u7;+`@5R|_;<`?E$PtMg6HH$_VxYS%POuz|9Z{cm%6TBlB>J7-OpcRo^`I=2I@op
zA^Dx{B9vx?Et{52l3tXi$bOJNrklFsZmzvuGbqcfOuXgP^v?ux@ASA)j>9KOG#jDQ
zB^FSRTGC_yuZ);dRa>EB@@pN|*!ks7{lA<<20i34ZN;%Az|gsabIYC48br4K8Me(o
zR-E3%gigcGbR~V0=yHyzWP;`A#GCc0ULmGdc2eEe*qK2Kp|R%<3LNJQd(fK;E=_Q1
zHCLx??=!MHmo{8)DA~cS)0gurl%+Mt4epyx+q*mJ0mRQe#P2_S1Dl4eup^~?lk|t^
z0-8|v-1Z&EB}(Ajx6S*AX67H>Tc!7Et`C<*;+t-DlWfZ<85V}cO$SMU<+|A2X;|z#
zBE&TQ)&rjn{e<pb*!Uek&4g?@%)0}6cWLG?n3~#mXn$qRKxP7*iwnJRPIBMtZv>;Y
zRTe@b3Wm+i8_e{aq15NPL!IuO94{Sw6yDz8kui^7*!UGcy%vOgF>;}rXw*0xmGOa(
z<0%*y{MA(2$pYQDKr{;`C_b`*7)0l@N?Jgi2IOFO&RO7gMAXQLl^vryRejOGNm?FU
zA4{n&W8V>^x$V7c1sr6z`dbOAxcd23N^-&KIo2D;5DUwW5d3kyIMFdaBqXriE4N0t
z;<#)=Hr7z)sN2e!D^t=UL;9{ZWw`j{lD9sOPHy1}dtF!<3as<K`;jMoCikrn`4>&=
zsZF}0@3sPQkufOd(jpcW?Jla3&kVb)k&zEyXV$0OAC_f`g6&*b)d$3f-(NC|FaLa<
z`gj%VXP_UnDsyD#UlS1D?-gVt=P=v(#!>+>7NS~1y`To@v=^Bx=@fCS@+<q{P@57i
zdS|4YrV+E=F_!(J$)6?V4Odl4FzN|`E}?l-v(amp>85hLZzO!*3=}}2hjO!x>ECYV
zxc91MxD9Lx9YY4p(SULBhDyQF?jKnfqMNt$Ad|W&j7Z-irW^E6?1qPfog*2s{JRAP
zv`yyxG}zrC*XuRv*jq#Bo*JiZ>8dztzmz|NO1<sTG(2!V2^^O;R<Q68*ieq3W9FT5
z9qc+BdQH*E$->u$46-rbt=)Z28ss;5!gHT05Fej6PP`rClszz7vts4=$0N};Q<^G*
zjgyq>%pNZn!=0wADKcI0ug#XGmL6(zh&<ZvWSJQ~6Ig7&@aXnRKO)vOxh5xL(9z%_
z_$<FY&X5)FA2gEpAUD|}SOZQszyFFXHO#rUvLmmWA6U=Y%xCDr*^)zc$VoXnjoGWY
z%yH0ZnA=W(Ua*Fpe`{iC+|8P`m50HBzQWiJQcZX*Ke6(26@}Z;t{$(x4#GBgua2p(
zWIT*&E4FTdX6wid8?F+$bKN%&FLmF=Ffv(Wi>yuTkwVa~PR1%-vCWF5m$~)9<*CH;
zxP5%sIVbwrkXg_3X8Z62x6aV!l1|e7^IsjLel5cZlv>(`p`#<D>hT^ZadGSzsd3A2
zR00p*OWYHG@AR24sL}gLU_8q(>p*C~u>$-2VU7!$sdP{O-!F3ff%*gvJZ(j>)vt|X
zV`OZ}^c|nso+mAm#?{KyAay(%aRm*v2n64pjjYB{jIwCZzJcC%zWcuy$mSwMAX6%b
zT=Yk~qF@PJEl<sTo}g>UqzHC6IQyr?c9$wPaV=M_hTER>_CGET>8-qTk|>y45bwT$
z#paeP?g7NU*tv6jN+e?*xENc@O?OhcC7Wp{|Jv&YV^EcD+DuE=0#0W8_!LV9nmlCy
z(R>rP2pamHBWV%%bBvQt0k-4&4QaF~JlW7Zr|fc!?dZ2YfRTisFKtBVpZ<xuzo7h7
z`NpL|;+bd0MQqb`#-oi0tJBYKDHFi2a1T-~i`hv6^}G|FfpJj&uOTC?RmmKY4<w$7
zSFdb!Be^WmG1Pq3Av^8S?1)5X<HJ0KUw$*9I5x-Q0%69Fz;>kL_)jyD|4a2tsGn<j
zW3WDyV<nU$MBWTN^5Z7@Dcv<xWM}qH9yR09h1Vn3RW1>aJ9pI8V#kXVeQ)}8)vyF3
z#SxhG`TAMAHd<VN9AsOy&ZBGxSj_Tb{)FZq@4T5;p3fM0a}7#5p~D6NuJ?ZK-MI^G
zg)zh17*VS$k~d-w+86fk{KPm<0AC?EMMqvx7N)dj+)2cbeqmF_tLqsZ<IT_y<^pam
zd6d8u1OF04yXo-g{hxpn@Of*tdJXI+OUs=GhBokv>dxc9b~-ACQgJerYJ!fg<ty&`
ziTA7VFfZ)e4O`rUj_1Io%A~ew;?Mi8x@#^I{`Am$*q2I&N@sy4-fT~2VJ^CS<)~B>
z;18sAk}QhCgC}kKD##9E&J22{%W%c!;7FniS(7Ir9Sye$-;rwL{-2}TOK~Dt)<qPt
z6w$=%mHBId9R7A3P}6c0H@Y+LnukJh;i&l|<Fg=!qYeJSGN5kUu6!wn-vP2|$jsj^
zKXg=dNXKnY^g11!V)a9?%^}J5C3{2R;OVV7+<q`9xQTEB%Vv}osruvFhU~rvIsPOa
zDA;>92#t8f5b3qYr)yoyBMZbyxB`c}{sYe2EspCiwXImHfoorsW9;2^?!lig+L4V(
zXv(Q#0|U3z?5g_U%k-ZZovl+bcO&;gSk}&cOo=>=+hwh|4*lM%(9KW|3Z$kNAMGLs
z0#Od_4A!|i>SV6_=c{HeS|sWz(8g#TaM>oEQQ+ao?DgYLuK=7DeO%1P%u(|{=dta;
zIY)XJm(~#TN$}27=}CX5^90FBN8pfy3=H+(rMn{?Df_mI?C)}Bw$4L)4$tGzP*dj(
zQ%8Bcp@iC_f6R^k=@(?jf(fDyo2F6!L<vG|Pyu!_s3!b6+H<4(dvrv*YTcWN5}RLW
z&KHS6No4O|n~_@HuQ*4I1A*c9XmvLFrn5-v4f=o5xx2b4SNfb6^Xav?*=t&Xw#4oy
zi|J-cf_y3K=8^g19vh~Ta^rcQ!|tRKzq{|dDSQD$mwbA?mbjXNB+lgd5%;%E7zvE)
z_E|bI)EMw)e>x;5ga&peXy~2`whOp}sxqA=puqBDEzK43P0JFK#GxH0^`3_-0bPkn
z7xVg;N247qOrTrMBRNdz22{R03`dKY!K@2WDB}uSLR9qSH38Qrxlx?EpSx6RtC}}3
z;aj>COxXc78EQu*&e>wvjus0Eg2f~;;np@ACv$YPhGh&%Qho3-1PCU!_7UtLx3QFw
z8?P82R&(lafA3l#fX-mIfnFg=%|mxuO)4fFt6wiw%PO8D9miU3Di^ZLs%pcJ>xV=0
zzeRoCS|A`9*uuhi(dt8x^&4ko$!}`Zsw#YwVG{rCppDtWFzCwPr<9Qr2dQ#(sw)*Q
z(O<*l*}_2Rv^`^9p3(2OoH^=%;JB@HAqQ9dI<DhD)+D)jt;4^0a%J4d|E?itckKMe
zASJ|1K=<p!lrVIif9rf(H1AD2)eAa-o9;!NqY8?xz@7CZlJq@4CtB<5m(u4B6nw(M
z+L<*czji;kHsA)ia!^H}dZAlLfBIc$6MXp4;I82VcnsatJ7~u&NUyk@BWwR?W}Be0
zF}*}~3)&e$4bP$Y*kE(U|0#GJjSp-msFE7m+JQOPRhUYhx$qM?J*>nD&Fk&O82(Ij
z>~h(zXe=omVM)f@%B^F;=W%n^MQ&uon;+$`^mp)ey{_3aLL1&tW89Z83Y)%XAxp`W
zw^hw1^D=_hy`gEo0C%{Yw~c+Byh2lqF2`MB!xd`$df@=l*2SVcx&9V&t?(@Y8*6Cz
zqr8yfN<`Un?DB_ebS%Fwvq(E$27gl-ihlPcj03&=Ry+8sP@ZWcR@F%p*p^)Rf{W98
z9Z4%Q=*Dx6s@<sO;b_1GfoVj3w!Y3fInJS6m)(^;9;|;feW%Lo@br^&Jl48V?%%G(
z5YjGEBqVSAD^T$A@H94|j;g{YXay%TQ8Xy~Itq5?|Ks1jd82yb5*_VB(nMruPpdZ&
z-|hSx{_T%#$ItZt;S~K~ooQj276P1@wsMX0hu@2@{uRA>%;%OUwiWAB-MbCE$n876
zzQ2Oy%DB6Prn%D^gq&FJhJBgYhRG2h<5>?+UHyy9q(>HZ%jL)`QQO~x%ZH25ZT~vx
z?*CIkm?gh%-v@p^6S14mpmnc5eIG-8R!NQPJbG=T@q>8>^d_(70KAI2TDz|J^`IcH
z8fu72_vbo+Dx~_JDmfk=yxAcQM_@<^JQc_1qnpO)uhd?!0DdSiMv1z9X1LlDSIhD-
zD2Hm};bJbD=IfDq^{4%SsQ{co<%<N^0A~7Z$ID}&Qu8@txYPaElwG5;S28SS$!xnr
zxki`sMlc;$^cz&S>VCu=Q3>po8aP58{7wjw^=57;E`fifY-_UNBYsa8DIIOwbtgPQ
z={6cE%c-H^`nK1&7uaNBxUwa+R`-j?nu!J%8pX@UuXj{97V~czJoSg$-)a*pO(nX&
z%Qjs0`9OBFjxQ!G#-r<w@sQakL{xFe3TME#)X3?}+`L+4uz=HTE~x3!hDHjhA_u3s
zq~BdH?0k!+EcjLpNMRB!Z7M+hp~P9?$^C!h9P4_r($RO2&oU^m(Q5BtU)~d8y^z$G
za+^Fn*QwDmHslxAPk$jqV7Dfv2MzsFm<E-|z|OQdEmg9E!y623;?}Q~Yp5?1opK{<
zD7uecb(xIE-17FWGJnpgHlb@Tv&l2I9hWWfCu9d2r4);06F)WxElX`38!AnG;$f(A
zK-0vlQvT91loq(eJh#}ySA;q|CVDd&Q(n99?dEtawO)B_@ag{lV(B^qn&_IYic&;C
zMd?jNP^n7qB1#cyBE1u&7Xe9t5KvKyR6*%YY0?QDLO{Am@1X<)fd~X5Eur(>Jn#4S
z?%mm&?CzbJbI#1hC)kZ1C{jZCPfPE_eOPz1vE4Sir?jG=T0-!)kz!+_J)wIvmF1n+
z&u9|Quhsc|7jemzV^qUjW!xbG2Uk>D;rnl<KEv%m&F`phiqpfP>deG_A=DV7(z<)}
zoYRFcI#K4H0ps|&#C?q*QLpBKA;#vT^K;KH|5TyiO0R#;E;QlK4fEVG)HyO|yyl0v
z{%v%R;3zQANqQMLycyhEH$-bX6ChQd`LOx!;OXrUYW-8W&``_4q;F%ivdCM@-{;S*
z)xqpbnH^t}$yK@AMa)&|LKM{xV<R4#PFSv8tp=`9&J3N!$c~GAlqtvrmHnlxap}h4
z1NohIoiB<l2Nw(@)9UiM2bv0$8F1Yn5PPuaM?LJ**}r+LVWDdlxY{&{*HMVQ+6Ajw
z%-Ij_xl&vSd_r_w8@Gosnd_L>R!vGaDnGR3JD*PV><4H%aR<yf@HLE4ytHZi!MW4&
zaI?SoiQ16T5Hx58c{loaM#-AO;aq^|+vuNRkmKP4#|eLm$j&^(zMt=p5LE@^_+CHi
zX6cERIm~p%z|d;<-RJzumUq3BerFi%?u%Cc+=`!t^mc>sO6_;sgKu5_=;3;A2Q3%<
zH$J)Aos7w_ccHwh{P$0!f$7EyKtP2Jb?70%8@68+7<MT~^L)g>&J}i)Lt^o+_V>!e
zM%(YIz6d;z-AXniJ@@#j;~#ThD#BX<DTZ~*(z|+hT#(UhqlX`@hGC<``IpkH+`6Si
zF;VwE_k*=H0p27X;f*f8)eO_^68SUyjJt8%4rkuAAk;4bQTr@)t7*;HF|xib1*z+f
zcO!hZMq8|O(;l>5V^F>JT2*27CCr-pnU2TA)skA5D_WhO&)Gn%&&jNPaexGZ$bzV?
zF+S~MOX4BjKF{#P>4Bslg)_cw!xe48FX?<Co8i%`v`s<^n>;{siQ0F`QyoUXwB`8c
zusZm41lNN6{O*`PifJgW_ru(qAMBhi4{($%*vle-8w6YWCiEr#jfZP1<>0%!_mQdI
zHf-=1Dw8>!FG?E)Uw~0i*DUn<<`PES@qNu88%h~@@%Yx|eZGG}%GWqe4?o-rmkDU?
zXV`B1wn4gI?y1Y@rEf!cXeq1Xx_kyCYT%TZx9cmjp1g4veM$}ZZQPs4dCRyw=#Ufl
zW#^L|9YtS6bLH!-YeX4#8I$csmeeUqCoPVW@L|bb@Issj9V^auhIrjCr3vGBCuphb
zACrhhMRPCCNBLROqP*NGw=Ul~M%vo>X)cBOS!Q*}ApUI!?FCy8Onv%0Z}X|NP=0Ha
zl}jnsN*<xRsUhrIUim4+^ln&se&(p(06Cevp1IhXXXx7+BK2FkXt^=6fRK%Zp;8y(
zSulF98I@l%<Xri@;f5+_;CB6}V_U4zR=<!XF!8T%J?)p#e$NI(v34Qe91}bB&ra&2
zd2q&ah3ynJxDtfD1L@nzhG`U`rJp#DGI0A0zgL}!cW~7Yh@(Xf{gygPNcIwQT54@w
z3hrW^z6KT%A|>U*lD)0$5vR2KU4qDU2yPC%9O)U&?A#_D38@@#XwI{YS0Fl#t$xXd
zp8uyjJb~ZYD{|Rj=eqyig4=(|*2S=l1EMcLPuPD0xAfw$>904$bTzqRSHGlU9v<dz
zqZal7=^(WTR&51!*!^|CCfi0V2OCb(rWa7$1Q8GMCCRXCrb^DQiJb>|!7M0)KMU<Q
zi6-=L6<f-*h6r<~IlXNq*3B9?flrVaKnRCd<62;4Y1V)4&^EHa`uDO!M$#KyCNT+L
zx=A{0R4T5`K7!@6!_-!PjoPdyV&SD(4w`LAzpj-juhPYSzxc`unmOQSd8@HPA`&8!
z5VF~>8hvg{?duOt&y(r<`5HFdC)lD~8+oLj2hD(oqkMQo7xnI2b`as4uysb#i7|_%
z^ZyW|yj#a1!tKhy)`^4x>&UO-zt++p*d|ulJ9;an*1)$3?Z=9tWaAl^n$FI*WQh;y
zrx2=$SvF~Q8AiUXL_GiHTfy>rN!5DcI#a<Rp2ORXk-P4`fo*2L=2J#1e9slPWFwWP
z*Ch`xes4TCwV#ts$L73#q3cGmKLzP}WbDX>fO<b(z!;NbrcDt;2`w$+`>`ud)`oc5
zTb+djXZXBy+l)N)@{~K4ha9R{DTCpb_RguRPGXd40vQvLHr;xp(582by-nvj`Dh+g
zuwQ&bV;0IUl5Gj)K5-*n7ln4_Q`?fFp$>kibGQa83^&xZvdr3M<kF`{bT&3CHH)GH
zgp)y|H?VQ6(GSdpB^_fkj^<ouM2)$<P`1*}b>0%fw$AAtpSa=0jIs*8!K}}T#Pf^b
zBN-8?&AxlJ<D~j>&I#4G0+X8-^3`*Or{w$uxXLsP&&b1VjR!Pa4xhJEWp0ymNEd}h
zis|^&te`)LWafOQUBNrxC9iG*imLB$<w|K$u4jIeeMf$7Ko4O$hpREOPqx4M^KC=V
zaKkcNHb@1gfdRPIa&fXLGSI}HexN(`F@*c1WcMFE{tbSHd7P>vIm^QLG|>6G8^Ec(
z)7w)qSg9KJkQc3R{u0G#IJy}#OLx~1tU}H<LUfYzyQJykHMR*{1spELn}OTq(n9%J
zieLM9L(c%I1?`7Pl>Z6QI^4>B348R?-IDMTI<ZfADJ1BBuI7G<OPq@}%Cp?1W8boh
zZ)~e228DfX73e-q=j_$UciC6!^Xnwce(Om<t(@60{|B5^t2&2b^V>QK`5gn;(n<WL
z2mU0!YUPjvbGA$M`K7b|4qRI~KBZC<BiD$Y^zH|W%#zPZ8cJ8*-*}g@BJYyTMt*jW
z`OUpjwsRlQ?cOLn3CRD#cqmOJg~)_!Jzw&mF&A{)cUe;)ti2=!(mNwEPl;a|aRLK~
zwozHE6NqQWYAqkr+Q?TdG6Sv6F2dcFgF76P)iuvatm@zA-5@J%!0klpdp!`iBy1Cd
z#6?oAeL!GJ_Ia71>pMak@t3Avruu6xF@l^O+@SWr+x0@GjCH>`>u+|Y0592`yBrTx
zBx`cgR`;4;zZlEd)>uXJ9j52)B7|MPOT7}l#FikdsFBA-<vk-obdalAuwui!DvQt4
z@)o(?RoGkmqH#TN4jHbqwRx7EN@Kx9LLQw}cz5lW#L$(YlVi`W4MPvjFUej7l?<)j
z=iHi{Jm=~%BrS!Y9-2@4SKY3-x=!Tmzlp77Q2&xPQwz8eIKN*}?Fap>&nJ0-^f83}
zZXK26ByuQYj23#AZt;6EMLPR|t=w*!Cx8p_>DNkT6INgHIa;G`=&HF&WFA_^BM3Qm
zyEQM8U5sCH-MWgq_3Nv8&~;L#Bk+IaO#=>mHEPjZD_(;L8uM=j1IuK$m}9$J^UQVO
z2`o)1L?WqfM`HT}np6YcA_&<3Gv-x~^n5kDv7$u!wPa@$3Eg&}sOHgQ>VeO8H*R})
znqaQ%v@IXbfEEfrL`2Ufgr{%HfAzap#}_!+N9du0M<6Opn(aRJ)UjWjqvK?feeU$o
zmbz1$VOLXKg>_f6wSP249m6$O+F!rc^o(J*=X2jdt~JRoUwM-`_s;61cOH@f)pxMe
zP8@OndFYFek@n)a2%x9QVylbLmFPL%hg0Xe<H~(~(n1HJ1h`@<Fj+e4tc=lpr4@0D
zreMj}h9J}EIxf=TZqypU{3jK)JSKI^)7AgG)jPq6uiffPDtC5aid1j+=z3<2v^DxM
z`F@dir8MI|l?&X1Zkb$wvHgo44|upSA*i#>qQ8;AcgrTGq~F6x=NK8Qc5mA~cJI)M
z3v#c2*pAn=FuFXb4TTXwaQ_u*#w!Mt`)bDP;Z<eSN4=<D8@`;}=IOXDf`V}iwhY^)
zt!d$Cc5bK)GA3rW7i3#xEZ^r##=ShGdGUC~%zjGlMxJ+qlV3_#($fmxQ(n4h-O1SI
zC25_k)mSS-x6jBP3WCxX*Ugg)C^;F3jqdNg<{K9za8L3X0mJ!RaJJbxl<z*fxQx_i
zhg6vn@T?qISNop6vxraQ&$@3}p!LjFQl{t^*@nH7b)4Ok+%0++u}4QyxuYgJ5bl8C
zAJ1~l*pl8`h<fwO=%1b|Il4OC)~FX`%e`iip8Hk<!<ujA4JyaAbR}^~nT8qSqRR9`
zgFmjJzH$s8kEKNgw3{rBiA!Wufl`w~A73iw@X<DMkXU)}{r1FR&f8??Dsj;ZX3GOA
zmC5{gA3{5D(gPEAPS(Ftd}p_#+8?N<jTz~@Y(kP|Abkmxd_8%Ccbr$RIN9uJWO@{g
zRqBE(G6JUy_tttPC^RO*IgRf32-g9l@qZ67P=^e+IbGVy?1S+_P3)Z4fC5NB)Yi=2
z6)Vjq8W;8K2~B^TG>*xZce2g{Jt!*&Q}zVweeMVk+kG3$Z$GS1=t${HM%v#%AtN7Q
z(Dcp91$Et?Fn%HumnsG6yLp0L;^5%FX%}=J?i5XqO|3gqTw&{eod&D{!#b`~bI;fB
zj=K&;N;sJ{er*(Vnut;}Xt|rTeU#9MfPa(#NNuD9Esm?GSnA(5f&Hjrjphk>%>RZb
z-F0W@F%D_`7w&H0p5f@=+a4u^$~xuG!tXq-pWuc62_X^QUWtBIM5;j3;R8i}=#yRL
z3^yh1_V@F@7d|F39`3Z*Z;qTt-Ii&dpVzt8Ex<g^z2~Gs_HKXd=;9{c$KTF6=-pwg
zk2s`IqVo->RMILh5{c7aE$6G_%uBFqz|SJe;Srg97~|EfMjc9g4RL9)#SwozyVA0d
z-{&z2xTKKGf8Xu8GxyfaxFjsbNius*@9B#DknHUb9@uZ$2kOo~KYp7T5`sM@R;3Fh
ze3f>PZDin6{N*3~S!SPvX@E8(Rwq|$neiF931`<7`tSWr?zNPG0h9w9G3KFz`H(Z`
zSbFB~i&gX=UZX7V_7{;y{W^och>PCs2W%B$4G;|k``u|qXj`{|`8JzKO=RR|uKtP$
zNVGQ$n-y#rl;+VRv2R|K_bROSlTuty($gys)-OzZ9#=qwvY)4xjpn*5P5vpwH<C^N
zlh-tG_IcI$sA%Tb;V8SDE2d>Q^~Oid+p7=yYR*{D0=E#@nv(rzxO~^XA|he-l8s6+
zt2B`Y^Fy!jAfb3Zs~mRPFKps3_C8%NB&=Nd+F8sw6YTaTNW%IPW+ScJ#Luo`->FG`
zW;xzsEN!`i7h%BLuJrv(dC|b0l|PJQ4!u{WFE@vU230_eG(A+CZvX1BB`_`joAuHs
z^aPfWN~Pj+$v|0_vD%tN=#@dLy9zRQjNp^UHl!B738qP^u?Ctl4#s@Aq~$AfxZdT`
zs|cxtjk5}1guDGIkT-0d5q*qdWZG%g%%RxYJK&uy>t&a73T~bTzks*oEEY2?_k1is
zO6Ci5F)|;^X9x)ulRR`xM@FqB>b?bXDWUU%U&~~;Yq2PX1G{wOd%Bkit%1)w-I&Vb
zefl1(GZO<l!5ik;DOq4;+fU=*`c3z2m5Vk)tA3<)gtg~bv5Qr1y)+zXjAP$C-O*P|
zUF#qd@Ux5Yx(#=}n$m8sKIC^u3--fq_ZqOCE$!p)28XDjo{RkA`R7gXe?ESasVyzn
zIhEY!eXr23{440zS9J3ka|6;5S^fJ=G2Ggr0XM&?XvmW-JGA2=Q?x*l$x9Wla})E{
z`BeScTi&xT*b;^Hnt@JPE-Bz@%SHg<g*yixEyTSuQ7eB$9s``AkehAWtVR*j`t6`^
z$95!w^_IqRZ4L)jTy_@AnTjPB#oy#GuVpbl4EtpZ`Oy7>#kYAW#3UAouW<HWqF`-W
z27bfUZ<2&`%_MBPSXJ7o6lo&G9?X{7J^#uQWq(O3Z2fpO^wkK}NZYhTs6E=kELK*-
z+Eq$dOhcTD?Je+XiC@h;jF2c*8J#SREFKBRrFGznr#aJiq1RCe&qz8{o-O<CDz*U+
za+jU)=`ZEem~CZWR!D7(TuA{*o?oB}d)O4&;*YutRa+LZslD>7?Q>hrY+~{40wf91
z4Q|A=LAf4flz1LT<H(jj1+*Z4MPicl@)_Bda&)$6%$0_^n}+%0Gg<x+j}y+y(iZhH
zF@=@~!#;Po1lu4Nqo0`{AOiw%04xmZ`sN}k2YvKJrIqq6M{JX@2!D(o$YD5(N?Xz}
z(xyxk=fe!#%$o}n=C{B@hJ8)9+)h+3|LTa<t2r9I0I<R!SV?6$BzQ3-QMyL_ds!dL
zxzdx@KwBdPnC0?yZ9Az~bMgT_Ge-vr>z47@X0UIHO>Y=4T3p&b`&JpK4J`eS#6e63
z9h9Y&gYx*_Z^oTP6{i(2TUJ>Tj@{Kgv2?ZA=Zubf?r%!%nimQegimJ)A)kw9WP5zo
zGw4z!d1|>*0x2Fq{eG6<K9|fiSO+&=O6PyIzd7x^Y`+x_!mAfxvJHQlsEX(H%g^R}
z(_t#{DTyGXFEw<xz=yc2jXSW{zT#gQEhxFFgNG1u?3c!AQeSvsHgu7pEkyyYAO;|6
z*LtnJr@Q#$%b$CHQ~tmz_N?ogmNLu+0Cu}Leu15@Y^zo<N&lkWQnLq&1oI>=qm)<Q
zJQ+XVj=s11mt*E=evg3=!qE$(m^kYxcwyyN$9tcRyrx`$5_0zr1xVS2>$Gn$%|~AF
z%LHze94RIfLIf3PZKbZB#io3qn(~-P;ZRJf+;{)Y=Krlh0LX%jGmZ9Jd;xwOT%SY;
z=|wW2MJW3GKCmepk{X-KN!zK1h<>1`=MNl!xlTFXaoaoBYyF*5V*{y(X7>`Cqf55U
zeCl)8@f<t<@46e~P0vP}*G5op4-vEI@TfQ+afq~v(t}@R+4qEc{|SJtLF$@A6Z?ZM
zgW}_H&y$z=a7QmW5&R$bJ9&YEAN(({E;Qm4Fj$8&@1*UKPNM%$qwD%g3FQJcR|e4|
z7m2?v3~ka@&Z*gOA66tCAZ=lbazcMn&;NR>n0e#})EjQAT^FIr9`2)d?`5(!7QyBU
zv0~C!G8}&|WA}FX#*d7$2$Aa><Y)Z;E`$c9Kl}Fe<EPn{Cmn|(fGBPf%nK~GKD<}2
zw#U$Jd7`+!tf(Ia007(7uB(#P2IFrZ4K2Mbta3_zSOt{xZa9bli7#&@xZpDGR;fp~
zM;t$5(R@9?^$XV(KW3H03p;#yuUErH|2HZKfka;;a9(STxKpB;mZvxn&yTR<HDf*L
z!`!*>4l`(U29ehglbwzU4KkABHoHqK(B8T%%5lc`oaM?d0JUJ7i_&9Wy83xn-f{cU
z`rCxxZ&<B=tiQ`}nMb-sRnL>UiV0^r%d2znvwmvdxMtd$OU9a)-p$QtjD7fj`KZH6
zrRQCi>vAg@R5!Gxsis$1mr4D54K*j$;|GdT&?OGbTMP0@b4F!P6p%Wn8wn@YkbcV^
zuYv5+3;%F`3fc+*GF06(5S6}<9n|~HI_2=Vh~|Gx7RZ)a*3#SEmu+tsaJE?Cgi)|l
zV3S`GpZ@dydFt~&WbPb3=p*HV3>fu9Gf1~wZmiMTcmX4Rt06^V=K(Gr1QZrCak)y;
z>lsLf#`<|5!TRL5CuK%uB(B3M*A<3e{#3tQ9(kVi@8KM>OrFzS1?m`1ETPg~L9*1U
zL2%RB-FG0dAW8yqNEELXTMNu&L_Lj>yi{^lktfy#o2=xd<1JUY0Ww3*&3a|m%fe6d
zd^9f&0WNRDy>I;*KCQ$3ub1k*R|-D&rblM_iw_an_>dPbTZP-@oZUKtcgZLuX?#Yz
zB_ZWUShOZzlS^u~-bSb+u!;=x^?u_d$NWNb(KJM5HpnQzeWQ)t>c{dK9G4J%xpn>>
zKWd(TZ<r=Wk4WF#z5}h(O83GUMrh~Cr(#Be9<EpmEy|CK0h>ra6P2&6T0#Ci&)X2X
z%Bz_Gs2b7v*l{*NVkNM{m1~!4NjQWlD`1jbY4lpCVN@i&Sn9RvLo+W^XeHA>X$?1v
zh?&$}7iEmic=Sa&*+OZ0-%<^E<bcPdkOgf^!okZMww_k#+Cf!wVSL}lLRzlN4NUZ(
zd#ew+m=bfJ@R76w2CMJ%n>8?{*QeJ%EuNHJEpKS5;-5kDW#T~uRDIdiwQtFkb7haF
zjD9*(1kWG`t$HnFrzMZ0nwM9OnqWx`LE?M%vRw4cD_#r9ddmq+)H^9k{q_85?%8Y`
z1`fP^vSl{$X#71y($V)<j*Mwyf*mM9vxoq6AdopJJaZlX^WD>PrVTwyKw-y*tN*q_
zcEllPw}@w}>Cnv^>15kLPL%B?HPM)L=AjtVbKOd5u#5W$m7fV%Gkt~<=$CH$&CqP+
zy^$7FZ{q>=ZXUq3ban>Pl*>IH{i_{sL^VJ70qrRlA+@b&eo=KLB~eC`X7OmTk8bYE
zpLqWDrG>u67;8BZ0_B|=m57K1Hm`J)f|Cfd$1>tPO3jaOhJuE-du#Z@QkoNd*iv}5
z_mCQ@J<M>{PixWqmtV!vq6WO)SBwC@oMx-VQjQyPPn<9r6UP7H*s-5=D3w~8e3fvw
z-&Mn3F&ylx-h-)r+^s~Gt39bXS;FCe@9vufJLydIbfo%a*7H5Fg|lo?>?buX#QO*J
z9CPeo{h3L3HZ?wZbRVoMm=hL`{s{}Wm=G5F%~hnl#bRk`U$CUrmqS6=%-Ogr%!Go(
z2MCrkl+Tnbi`V}L7!Yh*`n6ZzJRD|toEPiS-Czd9uY}7bFi!_}hi8?BYGOxT=2JjX
zzCUka{-|QM!=kP#tu6RQo-~zBCsEpEwG~85c54<h$(j)_ucfemer2!Ow>CSUaUtq>
z5-1yCNbCH2P)L8(t(M2DZ_L9+*U)nvUrh<Nts#o5onl$eU-zH;E!ijiXtwcy^NVYu
zD!sAQue)7ZDLa#&y9{`5cnYFQuqKactK=?BU#S(-g;A%?m6mPurUS8Fc>nMQ-W;~B
zeDI7hJs2x;x*P~6$9m{o>|M;4*R{ImtA>wycKK}RlgaPur39e5IXnAcdzGgpVe?Xf
zi<UI$`#R7t4{Xa;$-P9oe3^lSu^5dtF4L3~-*?Wgc6`_c$|-G=_*TSINF`2tyYcae
z%M#*OFw`M@a(Lq!$|OQ?5YIHYb8lnus|(0}!aE`n54wnY{mPEA7saF1@XNF9o6iHo
z5VjJKOhH*)%YNgeyUd=wYokIQ{KS>HzDNWM%Fd6Ogm;o0`DKJ8rjj{&dwd&awuihO
zb9f|891fE=e}0Ef#bTRAXTbTnI17<pk$K(jRHROZsiegL#B+d30+-@)jt$<-{#+E2
zS>VHoN>QNxGh}qMF03RI5W9=$$EcMH^rdL*G5jdfSj%uw$fbi%%K<IViY)1-!<R+-
zSK|;%v7Q@UEg-XXj9|tRylrE2m~-c-;@D$VX^ubMm<q1(9XbXsA@i`}4D4H>|0dpH
z1V}l?hMAc0zv?ajd88euw+?GP1FEOFzF{W96W^iXcna2+)U+f11kni~+S!BER&{i2
zbi%0~?>H?7Sjh&Skd+W8*&c42!f9&;J?i3J=;A%IjeTO4kfkvYD_O=rL_8g2G4h@L
zyVVj9)I;KwOWM>}+RN!ZG5(t^tp4;1jLqB0Ea;<-m-wIfdjanCu&n1X`)9w<dXu?b
zndD6kEL?eoH#E+|++{%+q<;OAkvfHYS^q{%b7da;pwG6wB+bv&CvDPfe@mvgRIN9m
zzMb<7Rc~1gL>H+zzw}KSZzlx;XAGy<S3x(=&yjWIq&;3KF~xZglfq)D*sGgQp+Rjr
z(R+`V{Y;=zpEc~zyYJxnyVn^SrZ<k=@AMC+&i^|zLXYSF^SGU>=6X<Nhzg9sUo6*G
z(<86a(gPPDNR57(LW6O@>x%%`ShIY`{=6L1euD1rkXt=g2L=Ehl{57hd$;~Pc@1ls
z^yr4-Ps9cCOKQ9IP0ppUqF=PXRddvAYQXZ_X01YdaL3{k#u`Sq>uGZjJu2%Klmk)s
z@ZM-G%PNe8O3Lx&@SXA(!uX0qbB}mtA<U=O{l7Q4<aZKE<;^~^MYbwVOfNp^NwJ&V
zel?)>D?a24oUCQ_d;ZL_%9<+rlNh~6i-ZY6i~|6L$4$k2A}Qro3Qwi}nQw-%<vDfy
z>`esqC>dpZBK}k9ys9Bj6>_$g551iI-7wQ82Ek*e>s=my{I0$)S~$1+@V!s|CRViR
z4ffQ+x$2;qhFw))V3x_)qq(YdqF9a0v}zfilG=%G8T@Atey0~wJjgVIa6=u6PR+^{
zKuhaYhEAkHKBZ2Ad@4ZZQA|arspT5?tm>-%@++44#;)-KNnx`~HL#3|?HB6c|1fU1
zI_<F1Hi9`sn52%KDy)}^DY0~K{O-p%v;jE7%*W_^5`<&zgEyUu6OZ7FZPjGbT;^)&
zleNPcOs`7U;)}o*ro=IZ7T(2^7ce0*PE6lgv^{D-U$9zbKV93i(MI)O92A}zlEQi&
zq1#uwU~U{#jB-YBL$qwu1LBD9UQ)q`FNj?YE}Di|gL3`rZk~UM6j)7z;Q59ZU}lZ$
zn8i!2o1T}g>Cd$*S}Z}(ixP(rZ1we`ji(rmt)J3@R|q|93EH;@*6}euMgZA&pYA&*
zejj_hrhsd)8)Dr6qZ=eYhGqXmzJ|xTn<3lqjs2UIpAR6|FE~F=AEQ=E1oaU8yTDBK
z3Nc$LoDTWGAwqF#jkDq}_|lTdpSDSdDekq>V#4-N1?uNM-P*dSV)Ayq&FuGP5a$IO
zz`jT*`(3L*-GC<h`-%k(gSiT(vQt^yk7TF59aEnBVhyvx(UAC}DTc>~gcVF=r{1rJ
zjr31>uu34detp<9duqdtvmQu@uCb<4glL#ufQwJC>k<R}2ZuuH^FyK~ZQA6Mdc_!(
z7ul*R;Yt$ct^>}1=)B@6R>Oaer>}^%e6~c;tu0_0ls=<@bw>8;E<OJI`HX?UUDHu^
zxDpk-_H`Aj+~rRj*W+)8SAD=P+|Q$h_w?~3ua6I9U=%icg~BA>I>#FdKkF~t$;!3>
z3F99MNoU>pR5{y>l01pZT#Grc3F=~ydHr=9*mak#6&w7_?Ra+3V}lkxF;pr)ur@f9
z0fk(O@+f!@#HbE^&$tdkI3@9RyUFhqZ?A-@yHlpTe(SP0?(dEEJ#vF)I{8elirsdF
zdVKtJBl-f{z=G6InI!ImXGH>rnRjj4?lj8p>RfykWovRwyxO%KsyMP*IOcE<b63-q
zq0kt);O$22TVy=!p+K1+@+$bg{(^H|W6rYtY@{82I9`nfVHkE*?2AWo+CNy96=PLe
z&#&o9zJ?n3^!AvXfCt0&EgLOUCQI?l7qe7nn7LzdQPJ_E{nJK-l12p^{*sj^a~03H
zi=X%C0zuuL_0l>G`&8b`8it*;jzX`|mz^m~H$1EmRa-<`*f&cV9p|@M+;``$nzkN;
z+V*fA!&%F6&1>sYe?!#V-7{oq<I3(a_#LiReyQbm{hdxL`2q%MVPbC0@Y4b!2@T{H
z@g4SEFYmdb-}Av1%TQs2)(13hy{OD^Hlti13X+p7^yh}`IM{tWogV-a0o5W^#836&
zq31w8pD8>yTX8kbPwtQ_G<8}*W(-!uA6kxfoc!@nFvgUryMVQAoh<Q?F5*`!N09U#
z>b_B`y^v3OZ9{-kdF(D;Ce~f~_V-rXBmUp7ir^;|<S3^&Bh5)_*Qn*v_ehtDt;>}j
z7Sn*B3^UZ}H}&u%WVzd#v335*Y>Pr4)&jgZZ~<5RPF6dCdS+V@i9HsAozeqI#TArh
zB8gu9o2`k@#0!UBLvDYs!kxqOBkmhRlsCJL_rKRM=BgiiwawawS+BY)XY$QDDbLdV
z`$tuhFeza4WX=C^kz`O4r9Ld8oU_pRBbOz`X@4QKU7_vb;f!3~Mgm3%VZ%ksD{5sw
zjx##RQTT^*5%;O(gEB?^7*~gnl?B?lm+FyYp}Y+y8x^aw{iY1!bvGXAjQQv10>K%Y
zQ41^78ItFlaZIOAO$CiT>fUq6p!<p>{r{0Fo@SV}uR2~+pQm3@ex2X!Bu7;r<}wvk
zNn=$n!`|<)qW@7p)o>cUq~i=O%p$jN<%xr9heWah?T^d>W@3{_b^%Ia;yljZR@hbk
z<afZ;4Cb`jP1AUUm8!QQO`2XiW2~tK`>FW9hF^WJ=6a>k_<df9lx+=a_^xA{>fLgB
z8?PDEUsG~Q4o(Qiq#IL+&G&FEr*uddeZXlu0v)nlKmQHa7|z<>vs@903k&x{Wa8C9
zs{bH)Tf<I^&6D@5iLdM6`I&%@TsPpYnw~8K^iEjYxglNr*+}o*5|VaMlFsvZnas!I
za_yo6m`iI4YaI~6&n7&>wuUpvGapK195g3dDpPQ$1w8DHunB$xFJzwh@2cuI{5lfP
zrRx=F+F1N)2gPXMn$*)e*aT0#n#XXYHs>dDRZEsk=KFHaVaxCQR6qT*_!a9H(p^s3
z$S8Z?r}J70Y4_7|nhTj5VdEU{e<5N-cV{wgndsLpt6wDwd{IlP#0`y`@PG2wg>bK>
zr%R}L*+O_C5H`9!j?&kjdZEQ(0C8OJpG~=S*X4O0)45BzAp|LhOU&a#;}}o_ZQb|D
z4&}gYshZ0g){K%{j&&mwTxu@SybzUR!R=ZOD(iPisAqJ4UYB(@;k+xB)wS`_rW4;8
z^lS)^3yxJXmO&Yx{Mun-D(1@VH}zd2Z%VTMK80#}?1!M6N4${B>cS{*d+y@za+$b*
zA3)rRh_)NsZZu41A5Q!n<Abp2DqN+@@J4qltlTnE7+7nCidS72&w=)5em}vyvdx6&
zo1vK^={OiHJ=8EJ(r|A>0{C=l3C_;~^NG51M`%du7hXo-C}9{p#6v)3AW<OX?QwI*
z^NqQ7N`3ij8*aE7h|iJp$viXRPwTt7CsSos>ELs6w@uMZ@A~RleZRM|>n=U}io<Wk
zqv@$XQ)f@SD_1Dg6@%HH&;6v9C<d)xpZ$Z0b2|m12H{s8w(UpZnS_v^9vkBBgH)%&
z9Yhb2z_=%Kp?Ko%UlULS5|rqCC<VF2&E&^=P4h$dr%17oFdz|jJ+*g@-OD<;SNOH7
z;-K}pJQ)qC38IDKU~I3iKjCT?Ttkqz51*Q#TauUP7yK#2HP6;;c?2PP+M09cx~4I@
zCw~s;H_|PQ0v^?O(E(|22F_<+3Id6_hFR|lI@9a4=>m1VCj~HX3De5Stk;@Q7(Zh4
zf&=`$L}eNkb5y$XfPImKN#!IT^s9#k!sb=TcfZKnX<)?@u6_0pSEeY+(~wsBoy_k|
z=VXe8+gv4ihi1sLwe?9gy24@{$Cuf_wr5&0>B`8S$`mX2NujUL5)mUzmQ-MiCtbbK
zo}!Ff?6TvkmAx#g3Zb-MwmYzl56g_*p`s;LzN}sCIN6GCBcrTIeUj_MDCE~OEMJd@
zI1l*cz`B9p-F-?SAjy{cyOj7at@8vnmdn1<U>t-b#FVT%vR*TcQ&@w{0x{5*C0ioZ
zZ7Pb5VX%jx!R*uHAqSDuD0G*rkjVjmtTsCkY&@(Ft+o;Qt}h|d1ltNe(Qum_R<gl=
zMA!IA)xCoz);X)~gRCw<AmOCDy;F<@7r*mxt>i%39l$rvE1Az+M-hQfo->bIn;R3v
z!<)Cs7W&8*RD-8Cn>fnes|VlVjTYLifX{80r0(C#q?WU*XTJ(ETyF!+#@6Su)&5>1
z8p*A=f7-z&Vj4?DIf?2J?zsxMnAH<ZEYTiCv6C6e|HYBL)ocV5!C_m#Z0K#Q7t8FI
z8y?&*xYb<wL6HhveB0pNdeI^mW8b)dfCpjqCFw*6{$SgnVm93W@tgA&_nW7U`g*LO
z+&I{Pebdu&Wy1S|&m6?N5@S7c9{A(+sahGh)iZpg$B!%TBY$3UIfY!fsd>R&toF_O
zJI%faza<@j7FXK%$$C%5L`LFKcdH`eRca*+qH>*czvIgK#%*oR@j;MSY`FE$M$su8
zeHPQ&b9ek0%B2k|HdCjU@#&be`HD8tve{T=akU%KU<U;e#dMkih1~gHU5^5;z7QE|
zz+ESXa>9YxG8&H7Fgo;-%^3UdRe)BQT!=bE_!_o^a}Ft$tK~fLkALq3Lme$f2!%Kb
zPkQ`l#nBvvjx^rdX&G}c#bN*D6il1f%)N<RcXGch|GM0$RGmwv$}dCSX;sn)FJ(P{
zSn+sh^a;25;dAFxb|7=Eo_q7bmb$m#CiDjC1MK_?8@b#Qi<inOCRYr!k+fsYS$598
z2eEfE>X`Bxe$XyjtCMSeCZWF-4SM;&9h%S5W(L~`igqHCm-l;*V5vX}tY7Qr(R_At
z<8PXyj&-l01HtWO^kFo5zm}mU$cV@|AkT8g_MwQLxdLs4NT#??Y77|OV$6u>KwP-q
zBQIt&r~~peM8$C`60%tP0<`G<y!zFu8t8x=rknk=<YyDV7nsc-mdMurRdFQGM1r~i
z-mSw5I*;hAx6JlhMq6__DGlI{Q%u5`yso{u3G4I`nF$y)YX-HD1p7l+E-WS9oTa?t
z$41=&Vz`<Qa3IsolN)ykl)jp`Lm$(1d+xm=6EA7&b5Y0-B!&^8kW4|vTAaz#LA#yb
zb1l;VJx-%_k-kD3@Cv-N8*W2jj|jCsgk_U%>n0mp#Rm)uooY*g|F`NG<*D?5sF!VN
ztU3oON8)E1f>PqA9)TY>aXuq(2U>zjH4Yx8?gauvpnL`v(2RwR5ns!A{`e^EKVKrF
zKi8(4S=pb6>aiEir`i!^A!$JX1?MaTYnw~V{e;b`rb0YjmG7P>!@MSytvu}NhgT1!
zt+l?_=HA^nzw#m16NRa4O(6@eD4ZK^N{Z)1BWM(op6e7bgACquuImT=UPkDm#W&gC
z#bdWO*05mn0OG2*Q4&O>#ybTJ`NfK4>B9dcTgvUy|575YW%VG{J2kQPSbIRm-8Zdl
zU9OG9)Y9AW>6q4jyBmAUn^y{GvtMQ;2K@-}-ny>Ac*W)PTY6@0zLy!`kRUboAMQiB
zNJ7(ekxAD!O=2)U%bz8I))QQIb&0_oa>=;ojh$0_V4pCYt4RPY(xu_#?fTy@xDmvq
zUP<r25a0Io%l6U6e<05yCJfs+%M%%i@bwAQ<lm(Pj09FIy3d?3^2YDj1qCI<pys8o
z<qZD=$JKXb#y5l8ukV=lnyP-`s3zBt0Kv5_V@bqBJEZIhp$Jw~M+*jrNXYW+znSe}
zbbevA2mjie+bFv7y5&V^**lA`5`F*LnaA%hQ(BcJGBgn|-HRA%$(1zax2Of#;-+0*
zKS?)I7pGh*2fGR5!m-MuHk*M*pDbyUf|5m0Qqgpgm~v@JR~W-Px(_`67{hN=#Lpan
zQp^1peQD2sHxz~TaDZkpBD{T6f>#-$6GPMWoePp>ZntbS4f`K%8hDO-nR+LR;2{I~
z?#rLgO^A4Aov{vHzOz^BsG48Rw|OIfv_j1Lsm(ZxLWxwl{8<mL%Qs0SE?~Zc$MWaa
zVrJ$F_Q%Mq)0{Gi?oIOkER!U2+k_Cu%Kq6Q>-4esg{=SrP$~`J9G5>+!}mTEhld7c
zzBhV5lQ>^-SU2MJ!278!tPRdZlyB$XFA3v=tQ0HN?f(wUf9ZX4dna+Bw)b`ZZ95+2
zf#e;RJjsFh9nsSY@*#-B=yg7n#n(W)WVsua>!72+++<pi%zEdM^hSEShr80mG*D-r
zxb-)iL#2p}JoKu*!D3L)ZL_@4{Y0VEZ4p+~?<7Zgoh(P@>B9KplY3-_r6Vn<8}sG7
z%)h1_c;MDIeTVfW;QI--{mp>?lw$=k)%11eAt$2yK0Ca5<fF`~S1Aoq^EW(n!<OGK
zleZy!+TWvEkNQT`eqtn6H~3RkY1fhzzW-aQ^mvYiVjan`)|S*2qV8bu4W^>Hdup7h
ztsN($)r|{1!5HFCj9cl`#6IMeY+9W&N?oMVPf)!50Z^9Ul#7y)@~jvTTw241&h?wD
zz5zhf^hV5eeAq#7IZL#!<#4THdA(#|c??<~e}ah>r((IvU*azR_U6>Sles!H$W;Iu
zRBTP<Pk4Qha4-M!uYiF>@-^4NHMs&GIS9&!trUB$p&7}QgwEvap*3E`GAw^C9E}i*
zR0aLAc1wYQ;_$U(JY~lP%=WkLq~o3VtwHYTLM*o?hJKod657T?z2$n<=u7L=J$7QC
zp#e$>Xb^~enDp-?D6u`!9dtl57z2xTjj0~O{L{N|Ol*}93~UnVQ3(<p6e>P3Zin8P
z2k!d44v%^L(IK$~tyHt(XZg{J<H6i^)Un)fx}?v(cRFGJ;Ky|j|BQ(b=}ywq0&!*n
zvxz=S7lAO8!F)3h=f{eX9%U^TSToaP_}mb&Mq$(ljDXddpOvOgH!zuXs=wcC4EZlo
zZ78RuS(u;IaF4n1ZgIUD2+eH}nG6h=?=k0a)}j9QFGX6qTm^FA`h}7w`Xd6@Hom9`
zoyXu6^wZ7iLJST*b@f+EpiMRN@)E5>Tj#F6X8aoTY6@!~ovq;LU!9<(Ri^uR;@hSS
zi=JA}(^4K<5&t$I;?K)7vJPa^RTy;tP4h6_%yx0%{r1;#9i;+brdZ>#CFj)$BvX3P
z7QqFrqvS-My}>?CvuQ?&f19!m^U5To6SG#v0Ny&fbJNxF10f*LVd2bEk)ZzP?AY?!
zx<a}50nU5PBY({(pS^mt;hSObNdlb}JihE*yP>5hWuu~9cv*5rF813Mw_-t4ZV+U)
za6JR#a#f7T?5?RGVo&pJ)eVLK_quH0rmVA}Le}tc{i`MDG~-(!=~2YQcjFQyls^?1
z`BqVy$MYO3-tM2$3;OL{o1vvxi=j*V`Bvdw^P9s8_5P~<KyJ`(#Q>l%VzlrX>h|rY
zypQSDgz9&haDKzwdow@0YxZWoK44IwhGv<g7r&c1XqCC4Nm3dfe3_~1(c(pC$^|xh
z?wGf27*jcS&62ch=Xl$7{_Jn7vvg#9m^8C|xP1xP#^_Kc=g_PXW;CJBd@U~e0=z2t
z-}&e94KBV5cpu!l6pf8hN+0F>zt1qOMLiD$T)|DCC#L4y4^n(k<AU*)^b;*mkFg?8
zX4Z21^5dv#hL!!CXYq=lHe<6!r*?I<L4#&q%|!_R@T;)Vhrt5}vi0dXGKI*2-F`4^
z8_&UR6U@dplZf!VEd8IlDWagH6%)17`g@ZqMf6HfQXD{hR=BGS8jA92o?7>3v}JHy
zCKebQr2#mw+kf)7I~x1U?Rty$&+AmTZmp(C)Uz9keD6FdhrsmBZmX9>ukzmddmdX-
zE}pHwus_2FpD<hj!TZS@&f7}V%$Ea{R<zz9)i&dSY8B1OpxRaW@8TiNrQMDbjN<ms
zBX?>YwlWKHR)#yWy<Ek@kgguApP$(dRD~WO18k4R$Uep-OZd*Lw*8s$_Z{|K2d`Fm
zdTeWZJ!{NnZDJ!snh@EygHbeJe}4Tert8X*FlD+R4Cp#)d$+gvpnp7Q2tC?U#zh04
z;a;uroi2%inbx*lylZrA7FjX3%1mF2mbZnttsOodhc9~2XdM^RAo~kD6<N3!T28VE
zj8F0(h(Xm^rt=%5H#k&)9-E4L2XHN0DRybhbjX;UOdjs}*4g#IK~i{*zRBN=&?A^C
zK7kq9G`{$+g$lvlNem!}k7k9UloyO0sp>$bL%<-(27hf)nDT+ivpR)b=rz#oZ2$wN
zT6zp@W~p@8NEhYk+|BpPXb<%*SNeMh+^rxl&)@3{W7RSdDf_(s=-U6r!-C=y=r9)L
zb6ud9$b{cju;9{N#JK#~a-%+#P&mJJr1|i$8S|+&gP2gmIH(^99{py6k=*Ebwe{c{
zu^!eSG4iM!0;;TZ&dzm62q>%qQ6#|;!QJLQ{5X`S@)ne4BWbz-8H3K=1$^}#u@IzF
z(MC#xf!764@J9%1iji7}=8&kFwI7{C$1BngDqRHXi$Kk09Z_U({BDRc!-EjZ1AlB3
zdOz#$p)oWj(Q3_As&NDe-;yO*O2?e=15i|DH+$44@$CJh=uvK3ncOA*irM|QQXhlg
zUYd1`lqU%xGq1_&cv%GAR7~Rb%~mjsm->kDw&bKPfi146=4$mE^8;stN^aEa40-i_
z)k#<WO{4v0SFu_YD0r0e%l;%Tx+EViU2uMicA0}DEaOb}qut4kL+Wfvn9laYIEizA
z@L&G?SF9hhs5N_MdR^m`-M{wSxW+PyrRwq)s57v>$mekl`4vVh^TS%|U*p!ouy9ly
zneqbA_C}us%~67v^fuF@teWxELoNwoAi3-Z<y70n<y*MIgtu9@SqU3GG}|E2uYsl-
zNaVbQssuI~U0Zp|3#y41sb(E@I`CpqIc1Y8!jy3~c_?4!8!v|F*`!Lb4j-rPs%ARb
zA+$tb6ykvpO+7goYO)x)AQ_Pdej4Y>i%0*cjwo~A(ztCM1Nq;Eedb+AA`hJF{WecV
z<^g{+F2Io-3po&zw^FX9+@c9}p<4`&VCVI8_4_NfKADQh3rk1pzunMuZ1@0E*>X?<
z^~9tAdSK>|#>L;}cT_`GWq*{+l8Y8mLF8Dmg~*taNtvpUWp7cYDbhQ)h9>O0_D@pq
zU3SieZYmqySGBA}*mKW@9dLO)olL7#!)WcaS`WY%IemNv63NYh()(oKwy>{(T0D=V
zUtQn5!IX)@f|PeTO#vx)J6V7}l+Csbp0WQ1C@wv``!lS!pXnMC-kG;O*yV~q&gKWD
zdK0Np3{o!mU}HHpPgg5~X1K(fzIH*9H}O2Gf`RYa_xA_Uqvy*RNbQPVPdm~o`CS$?
zx<tIRe%vj68h;R710T41Jr#GIwh!Twe4O)%p|g1B#-6+H!hNFccH`w#M;7^8vtKid
z>+e|}NVGA=AemEf9hfK_r2)sx8_mjPp7Ik7Fu9eQHG-<m1rQ<^CHs``c{t}b_z~nc
zS>Q-N%P_j<_E8h(DW~VzU-fldRr33vZI<bYUvpPK+YM1o1Z?=10jf}PfEM}IA`R#F
z{4RH;_|v)!rVQUmG)7*;gi*xhoPp18Xm|SZT7b9GCX2Fu*AC&SOfHWiiv~Z}`4T>>
zj}wRCU6`W2?W?X0>_4a!i0;)@d!@Zj7j@)2E!{GhZB^<YEq_F*B4XV83_k6F$zjLz
z2|<iCz0DlTI;xz_<`aIch?x2R8Cj5^*_owz9j8*-R3bq`-ciSv{hkbO6uZJyd{qC+
zcxyHn&a44Us@l&oG95jW$g>qbRdte7Sqm~W3%3j-UW-A?@yNYLDUpGm9b}vvCgx*i
zn~k~=rpPWX^)PZ~Y=%a*=o@^{ZKXQ3K`0E1<j}#~g@}Bj)yyoh1WBco!)lEvG_@h?
z?JTe6#AG+9?MGqz$Wzxj-PMNU@Sk-OrD$F`tpT<GMw{mzVV&PQrJQ9+1y?LatN^7A
zxqMCup$HGR&EL!E4tO|9(s(-OuyxV}DlL2iGyw|@N#uod<slyxn=s>2AX*;~ftm)*
z@<^wf?4ECK(3EWx|Itj5i#b*kYq2uF(ipzybyclyOEd0)K5n^%pe(Z~tkWgWSCkpn
z35w7Em_47R+71rE=A<)dgubXfkpC560VV7!ldm+fh;u#EW^>jI&YxXF<3OX6m{kW&
zdP0b-L^kKj^<o+B2Sq$l4iVT?3|My5`qoiG>{?$@^Sz%(pySbA7FkM^%9!q(Bph1*
zPC_MBB8J=-M;y+00TtGS&ac0>tsTtLlL<<tSAiBu4#N6zf17UGz{20`H>Lz+*bGEh
zA|GE@y-zaX7gR^cT96+sjRa~}hA><t`AagftTM*zeL@**o%a<FG^&r=vxBHawng6V
zP<r#5%X|BR*Dv1wFdVndUVpEguW5uMqP#!e3jh<aX&n~!Ki(;@_oM**6w!s?%@&<T
z_MrYPM$`DTm*^XqH*x8tu4jXN8#?r^9tSi*Jqcre=ghB%f6|W+1eszeg`BZG_I>3)
z`P&no2?brgull8fC;#p=Me2Yt>QC(Q7OnK+0hfK2>f9B#4V3+b7Dfc+84jc<b&T*E
zIrE}i)7Mn$a>Ok`i@B+Ep^Q?D#S`Xhl=*5G-?mfTR`g5xfP2em^Y1mkq!UYU62($8
zR<`J<dNwihMMS<Ph9)t&-}s}>(~=39J#ktOYbo;JEy3i&xavy&iNOK6btk3_surhU
zF#N%Rp|#jYM}f9=Qq!mNCwY073?zIT-fOvCuEH^nS=$AA_Q$P7kq=x`yp&OD?T}oF
zV{@_((|#HK?e67F`+2{?`(oe(tY}WY$%Rohi^cVn;GKsZ`6j*;a;82%uB~vm<~UsB
zcu-99OzX8zr{dUIh1XaXpNB2l6)<V;Y4k9?Ge5B&hp1V7^KRYj`S$CGl$WM{l3O8&
zDT`v+ENh39Ae!JNnrXnlt@X9%%l`gRYRGvRiCRSHzP|2LHDU7QL*kXp)i+%J^ii@r
zkbG&}n4ZYr;sKSOF*ILS1~;r&kLt5T3#+U+;pfQAQtrxakGOo<tWX)8Dljvzt?4S|
ze8boEWja!)0d#%k%1_p#x`vWlsTn+DeP=yHB2{QsaW4?)xn+5#EgE|-w<L$_4!l5n
zEs={*4LM_*U&0=&-519T{4KQXtv=m*LACR5uXba<9dzkn4Ltj&MM9(@tmYT>qs)!{
z*gkkhIR(T>kgbI+|GH7P-*Ya)zHTpEakJ@hsWe9o{hxdJ%XQvCUpf`nOP3V}Fwzm6
z#DHf%M=Zbx`5I+G!@>PQF#A)`_RLGRrjMpf;L9fFWi`NAeoZCGkBR6pC62RKUFN|d
zmnl7gn*(_7YhVU&-@xf`^*>KZITuR;%5u*EHILct7gU$LHy*?q>CxJFzFDiD#VK$H
z`wcKc7n2|J<b})9R+o8~&#i&<mjx_)yq!Opa540n<L6%Q@-VK@n!`FA<N;y7-MjQ9
zrNFhIw@i0P^1aI8QpCWF$Yc9aRsB4c<hpy8pYaas(+JdBvK|&luG**;=&|3%Kh&Ua
zjBv8jRwQBMdOJSqRO>O^j8Jv^T>fW|AiOwNn$4A=DFAx)1r|op<L$>(Y1luqMw1%5
z5GFGzuxp^}2Ppt===K`G;m)EQ+214+TwGLN)|U?`C^dcB6{59KTdac@%JaZvL;@+w
zVDO`a?$o)8f2gxEKSZ-Dbo<524jMtL+D)@O>p)Fpsx9^3H~1WZ#Bo-3P|UmG7^n%v
zZUKXzF5F}%CWv6oU?tuALi!JyZ<o>N>UnBe^H4Xk|4M0Lb4Lw$B$voa**GjW?SG^b
zyBwr>eD!ts@CO8FoZj)>n-;45pe?2@eK4B8{v6EabY8kyzj}4%y;jPb#o#M&CVPU=
z-@X}uWRt>9=+?7dtjKTfK|lCqpLMY;QY5?&7M08_;ar>_6t4=VX1`<n>4-P~U#mD*
zI90vKGn-6MeUZz_i{bLQhiGrR?(npF%w?V|#l#D(^R#rT(htHYKSZlnpuJ}u$<#}K
z%P{>_fbmnhUY>eP^HG93c5P+~z`)*B!1}bF*cC^$Lv4(=>PsoS;xXJe?kneeOl)mF
zYn%8pdi$aNz(dLHxnpIypDH2KgY<C{H_)@u-q!yjzclJ(h%HqyaCyXCVQ2B#;FS>R
zJ^az~$R{pWS;^;UI6k8wG;4zVU#QM1aV%aS1zd6_!W5Arr|yR7a-LD2oKF?4uhS3%
z%zY;OClULgQO8WUb9T6Y_!+s&T?%y&N$?OKqoj-ag<KZYx4G$!R?QMEzllnq|1+KQ
zT@SY`u`(L;j!I@}{g(kwTgN|-OLinmR%()t%_q71D|M96SDW$I+rZzz!VS|?*NGPP
zdbg-rZ2Y~K5unoH5T=nJY4|P0D7#6GTQ}m8*M-0__BsdOqw6)2385yYA(BiGIU-}|
zIoeM<ZF!~MGT^@y?ilWT`hxvSa)0^0TuH6fF+ZqESuafhQ<)11zxTE7TboFn?KirM
z?`clWjk>+2RVks||2j=zu+Sn=Qpn|#6N;=1mSnPRGx>m2Xk<QPMo7Qu?J7==NKB@T
zU17H~&IHtMGW_W9TEp@v{^hPhQr6T~A$`$uy9$Okp>2K-b|*uyiJ1X@iwNiPDx@8H
z1u>}sxlpY*?w>#19Mh;1#l)cCjs0Su+}bLI=Z>sS3y8Z?hmn8HK$YI2qK1E`pX*DA
zY`$PNVA#xnn<OVn&NaS&BeBw5^RFDQNBZp+O}yI%VyY^XvHa^!;TIzxC_K{)e#5-!
zTO-%6gXx_`9lzD>b<nl#J!edCo7`uhavgHEs7&cNAiUt{7W6Sv!${vcm;2Yq;v+nK
zm{Dz5rGEyTQFxzkmGn0G!mUehO<zzuaLFim@+w?<BPkshN%w-MH6-V3dud@z$}R$&
z;$;nwxYdn`4!BIr?UFF@PQ*5{XGq6!9jsl7<}ItuZ%Rh?zcPk!X7yR#1iayPvGdS^
zdPU}oRnpxY8jkNsQ(LW4t33Yb9IE5<!MD1haw#Py$OKwN&LxG+v`wLb%EFhxK9p+J
zfnD)zROaBt+hR-=iA~8n?VomZdn$<9S(s1=wd3<L<6DLS50{7YcIsfJ5+v>4FpBXJ
zo)8uW_+Emi(}{PqiVfgxCA<luH4JG2XKc7Ra@Xy-C0sr`g8jsOgR_&e&-P<;SIB#=
z%m)7>P#v_9zR`<r^Knn>i6m6b^Sr7}eAUl52<3+7!@UXWLTnDV+E{6E8fIxOdmdrT
zL?p~#l%$<CbLrW}SD2|9*PoP1qsO5J071)F^CpyIFW^>MZ%NLx4&zc$eRcN~HqtYI
zd5PB<nafTIac%d@ye%ynfrMeC(g4=?LT+`G_F{zCO~2n(eK3`)ma6{$$J4jRGyT5*
zCrXl2Du+3w0~Jy^pGlE~BsrhUoN@>oW+>+zi^ySAI_ES*%*a_eED;mi5auw3v0)Cs
zd++b(@%#7Qz3a8tYxnEEpV#wxUe{HIp}YNY6v<aVv?2NHoOyltbPMY@I+fPTx>@)C
zWv2vcy5Yw2giwCqemqz+nL|iJ$H*=dobag|MP4ieet#SVFo&9igKmc2v-&DMcKW%*
zLRsM!QpW~w8{QYu!2xOW@>*XFk~pP3<fv~l_z_b{Sbq9%8-9wSe!9~ZM)lY8yrw!|
zmb+1=cJ$aH9n|ZJ@O>VcxMl-iAN<b;W#gN!zq>rheS$2K@2?xCOEJ4gP!@#OJ)&3!
z+~!)nJscjia|Ia3cHbksKwC&0Sd6df(R;_H-sJwRLRW%RX_I$JeZ^5M6h{^aZT<GX
z66BTFV6;42LaCqMab<p*`Ez5THPe%S&H8S;6p%xr$ylFk>09r&-q9Z2d$BUpg6{W<
zG#Q~y>kD?Y9zz%i#t&a3@^JZt1jNVw5$do*u$)$+riq|5_wemiD+&4ov8eXE&aOJ6
zhYVn=R>}2B(3$)O^6SF=P}uD%_t7|zYUVE~XDVESQ4M3iYAUqdSKderj_T&aM16@Y
zGS9i^-8WWlyJ3GYaZ&08d1yOK$9#Uf{lDUYNj$g%^<=5q!hNGTFC?c56+!W%SMz}W
z@R@QDzSjMChC7k(Q4<#62q$Vc_vk<|1m~Zo0BtgVE?V5u7!k0}6vpEncAuukiX+6W
zmOvf-ze@w0kU_YPmWxb*b4p!B3jD1Clv>)d+ZssS@SFY^G@%AK!yl-FP}1b}szR@=
zJubws*eyRXlVDk*p7dJecKx|@K^VLCpVYaI1Am#$T^vPjw^Q<*t>Sl3_b;4FIt7}-
zh4TbSH{x`4D$p|d^EruxHSKb&|KgY7OVCMXEX@B_`!Y6juEeg>uZ&t<?$mnZ>x+{{
z@-PE@>berYRr`qh+|R&>b<vqy5k;h?Ar9r)$D^xb8=<Pfgq-F)HQn>_KP?1d%{5A8
zf8<lh%4za>+{}69p4<%`9iviwu226-H+E_@a^`Z`sGm>~KdF=aQFAyL(ntCs$XRSq
zIM^dG#;6TmG0uG^9bS}`jzaCcZPhG&<<LO%YEWP#NQd`5xSltQd}QXO=zs9}`%5!_
zdV)RVjbo6Tj5MWw5kw%bzmzRx2Fb`Q_Ry(phrx!AdA(7j--=OJf2kJc_B^cGYKl;y
ztJJUf@yda`*+lIdEidQC4p8Gy<?Rpi@k2&=z9Bo9yiFp0O1~WBC*Jnqay<S$F{8|X
zZU-}TLlA3OJ|Wujf_+kT!?@eJFBnXR-Y5WuQV3qs782*wQv3^or~z2K+ukF*_U~)d
z!OoYt&dRrqIQsqshQ4Qn?+vu0L$2+dL3xK<_c2nt8zd<%5Mc5*2e)uxN#;jg-^Zd@
zw5HeMgI}%o8~1+sf7;4BI7&s;zlnU_hfJ|@V;+t}#kn1uj46<<z!R6m*E28C%~}w#
zkInSNFB)pjR)WbV=$XrTJ@2VX{4rrVdYaHbjYI!8dQv5%?#?#Prz7~QzcEL~Y9dD#
z>1MK^kP7*4|8p9~x*C!HGL`&6`-64K>+A`tsOLukmFj1=W@_%Q3HDk`_5OB8=z7Wj
zzI~c<>(t9Gqj;l14ZG*dN1TOfYB5Hl-fpT|2`~Lg=Vw%Qq6gfaBd?s|QEn+aQ+Bmr
zBOckb-j>I#8D;)RQ5xicd{k?D{N&WZL51{2b1a2UMb)t8#@7x^jnKsxmzb1pls|=`
zO@h6BEscL`%1u7mmdEvO&r!?=?HKXfa*A|%B|mm1Nakil%qF?F7i(j#wlz)CHrkcP
zA0LMBVq+IjO4Q=Z`OWlQg2@yq5o;`6ID?CEH#j|)E8B;D-%f`OcQuJ1N=uQ&2N))!
zyJm`bViO`6)ban~*2>QFab?Fd>k_%=@8ULw(bWX}&Fj(lS9ym+|9NJuAxsOR7y_HB
zZVI2ATTUO=nKYETxK0grZ`#S<(21G~HN7*b{8(QLA0IZ)v*091CCP@f^L{ol9qNhZ
zgcMp?tv#C<o5Wh`lA@7D{(2oV8YkCG9{>8MhSpw+N?+VTyq)Dy`_`ex0old)Zl#U$
ziVD?KA*N<|x?ul4T26ZE%I<3z2#Kh0f+6-K&azDZnLfLt84##5ykpksH^a2SprX=6
zv22_Roxh1cs+mQ~b2}TVj0{^}I4=DJ824clnv2n|4A4X)EgG@yFr6C_l6ydkAm#r_
zgCCO*XZIOstRR7+v|0^PA>S{O86C<af15I=v9!?boT&7S1l6}Wu)``^!Y=Q-!ZHKO
zzcn{*Yfeq@%)K)m>pWy|`#YyqRas(M5qQc8S`Dv5^g0gS>7(KDisSurwQCquk=5n<
zrXAxic@9j^f4UyiUEb|SCMix${HPT}xtso)?Wp|w38ZA$hwl|i@tIRDwj^<)TodDl
z`cKK$68f5;U9FaqzCFe9uG##<d2n_HS3?D9SKGd=SmH(FgM@t&O=rj232Q+M4gF-B
z&2bCz$Y}{>SL;*$uH_rwt8S9#o<ves!QV|z3>|#JGbcd_>}2qAP1Ns(B`+=(3Z&;%
zK<=CufV3@M;nH5fY*aE=smE779>`z!IE*!p@Av-gB<EAhpo*`2<iZFV@wy!v50%>6
zoxE%3OD453R<yiZBy6DXUh*8Z5{CwO;fNq$&}5w!I_Rc)<Il4b`y1+Hh8C2EH7`mA
z?_zIeB?zaI?&R-qWOD5E2*)qvqC24yZhy}4>ElJ9JkOU-_}&nGD22S_5OW#)Wb5Qr
z{->#%{^!2&t~GmA$Gi;kKw}BoKMlI_emTgUtki#2HnA-7M}#Ob%4CRINVwhDJG=hW
zl5iY(36Xl#r<O)lF4l^5DgJi2gfXS{`%2!PPz}zY<apqPgh7{p_ln1!KE8e1g7@ZT
zOoKEn*^(;;%5L_~O{gPY^himQw}h8-d^0_=(z5N7*qHV3`FP=tsOb1NL1X&yYb`Js
zRV?traR}4+jB8O}isE1g4No+OCC!h;(CFGUqR8!lIH~LJbyNQ}uiKJ|%AbSMrJ$5!
z4@+YGmmh`Sv1OK)<1`q47AVAxrek!s<H9Nq%RG&J5l3g_)>vQA{v5=&l+)rW_6;tP
zFj8%L7ALJf!200y=b&VQUSPZ8iTHa44X0L4-q3blSY%8WTA=I~FGe_D<vDILXT<GF
z#4kBESl=ZNt#{;J3;6J0tvL%vv}J^2;43=o-Fv%5L4~&(6@Hk{RFM@+f2cQ|<wLJ0
z^l_SKtao!GGNR>Xf9iMc8(f<IRVY2vE9^^-Ig8qQ5Y01u)Ejb@C=pRnDB&{WW9RG7
z_~d*LuLeD;-0y07^tr+H;%h@pm%W5ea1n0APr^RFKXLw9W5KxOC<rDBj{guT;^J;0
z)cD|?YOOb<Mp`*IdFMmxf0G3_PvC5BY-B0I-<YR<IYQT@pPw64V8<jE$ef%y7-m*S
zwjbE8ZNKPG`LzA{`%-+BJ2y{q!pkrTR6#`f4+SXWPNbC!;}yQ~-_+@zq7=mebppO`
zsdW1@H{uz;Y$1tXOK%qDargab6Dj1=^UG<V=U%$MF%=c>y|(O^p?WgqBz6em;)GZK
zjSx#-LYewh21fqv5KxCY|IX7g3NK;2<X%DUt~^dX^AMl2tVcXo^-ApFj0VIvs&Gnl
zPWveAy3TR8VVOgAHx#XW%Yy8E{o%=L5?m0^u4M89t;j2Zl(yW|h|(lo^F&a*Ifr0F
zYJQ9gRjm%&g1`I+U4)UjR*((EVmu)*@^XoB`^GiqfD4Bg7KHe`PV$N@hj(V{to25&
z>fO3a(opmdGhG!bubn!+5`F-4NM*3~{NdsCnS$qFZ@O>P;MCj^f7C|s*CC49DI;_)
z)EkW=oW0&alu~{PTAd;H^K`1t$_<2!EbhFWN(9A3X`?UlvWo`zeP4*EmzdmNghk%D
z*|s3=@WtS{3P@9#k8*mF(V4Ru9Z?8eMJj+XwD5#M;dLH7_Y8DkB{MS0<bR{<_Pl9L
z`T?(t>&4t<ix%T{befW=G}&s+i5vHyE*6RFP}DzG-IA}tz`-;4(zc*IXZkxsRnfCB
zrY8}qGs-<WqJ7$_yab+~!oydsU!|hF>m&pw|9ra2pQ*ecJuP)YWg)Qp%;pdNi+e#W
zQBzVkN5E@eSvDqJs(te6t(Up((6;VPLgOm`yZ7h#UgOuyV%Y2tkVEGqmZUZ>Brj6R
z)PEY>8Y*dZRXkSp;H4?*Os&q{<Q^BMwzElA0>AGW^qa;V!C$*KHnQK*-hL^nF4y8X
zBE`4LUnw2u5hXMDqgi=E*zK&g`Cn^^H-jhI`7>$0?zC|Bq&*`YMgI>oUkVS+$i{!v
zek#R*dDv%AO@?i+wB1=HidZV8@X)7aPJ<5+3OeR`=@XmTP{VEhQfbyMY;i;%Pn&Y@
ztP<9ZMg)2kT#owX;v8A|M%eAq(&Yy_O>C2#guuy|?d(bzLU+XC$Yu3m6Et53=>W8x
zyY`)=B&Fyw2Ut8F)o$i>11>mgUlF0bLPl*wQ}V<vueVcGe>k~$fhX4KWr%M2j6l=7
z!ive_87sRaZ>J{&8S=A<$!&}Dr6HQMmrxC(`Cf6JkSm|q!q2aJYzw7|uL?smzRJh}
z&~sf`p_!Ofi?jK*ZE;&npXlY_e+f_Iv`_bTs+4vxKmG89<S*|`D~zRE;))gRLK|aK
zvF+fz;IOc(AOBkD&6KeOPl%l_{N7iQKMjWvr+IRfjE1WeMklfvugQ#!&tb<WnHzaI
zc<rO^44L>1w)KQCkL+Q{D1f@5*s6g-g_eIG`8X)zEB?Q3|D)ZHTnRTZ7bu5UI@!!6
zFL;UInlE4ltwK&50Y`2jSVS(hJzr1%Qr=)Q{~Qt?t$@KsF^;lcmJ|K;kz!2FsgZc^
z#XxE$3p4q&EuadFoYrP8e%zrKzbY*8TukEYQ*iR1lb>8S>nk-cb$%bucsDCem#&vT
zF}kS=_JKoa*BNymVS_sq&MCNh)RoU2U9{w3d$6n*T9@vqm2+9DN9yr0)`Gm`=?V#~
zRgFhkSl0eJ`>cZUdBvq}s15x7^nW&erF_5p%RW9}4}3ANA=K_v6zB^^JDlPca(?ln
zDo&Md>erEnp<<eoYS}@91+8D?_Kzv;mT4^XyJ=#K#5xbx4A#BwuF7zVbulS(L3W@|
zr@4oj2E0Gj#{XTOGbalkXlW|!Q#+~&#uEm~nS%<h*g%zpj+o)vwZIY}Q6sC8Ig_AI
zd$Tu)bF10=7ejWlnTqk3SXIFI{uZkrsu+>7{1n-;<K-UJ!EZ>CsenMytyslN0^GLC
zio*fU0GEq&@cY7LONx1rF?!SH9Zd?9Zu5J>1~<yA=V|;=`tk2kwX#9}ox3SgDUIgQ
zSnlDpj(xhudFAtVWC?IB7i5u`i-FCluY2grHMq~vyfv}0{}yza@DsG=9}dxE{CI&}
zzv&SQ>~fpjv$A#v3MrY)6&-o*+{z6n!H)dj#IW5-$@&uyhHe09xqg1E`fc{01NMvY
zc7!zmBcRE_@`o_RXXIUVF<3mdn6&``2w#8V3D0?_c@mqvah5y-oeoxlw$WRVU7eNi
z{mtGh=IZP^odtezB6D_K;evY{Pem~U6yjV+w>(&4$LH)0sq}VtDcwFmjBbJYSWbfN
z#VxV!v}1DJRAbh9<Vk+}M~Z*{`3;Xwk0et6g~+%09s2N*Pr6^Tv{2R9OO=kGmWVBh
z_pSfdVjIuhZ^W!S)l2xkUY)DU=({jMd^Q%okizqKQtkJqC)_W6k<s^gg6N8YI<;U+
zo3!`7ZH;JZG27e_82fMVYR=b{Gkdg-Y1{nI(@xqoB+V}g2%|@XFUzk!8QJEsYoFF)
zBeZb?w@A4Kds<uNI?>Dg<PE`LbJJP}ydO2A5hp1Hn}lC3VFYCeiTx{si_*;HYDP7E
z;t)n2e)2P?;j^21^)u@3onMKOR7wCfk?@=S$oyVhVXU1wHw!y|m|d(tii&anQ5!Ky
zHS~J0lTC@4rY+V7t-;Pxq#ANlR3kbq0B!w{jt2&gVjZ~<lZpH1b6Uo>J~{7?s&E3U
zNEGXM0Atn>e~+Fd|7lBp6Xj8{LmZJ0$6TmcR({Pphz_|L<T@$CGK*M)y;y%QaV3-;
zR??gj=EfZLYhs-!oe6}P@GjA#Uo^}zwW>TW>aHN5xY@<eq&uPML9ObCj%)V%tZus{
zFA~cT*Zr+qoRk8Nkty1>w_1IS7W;&1qA(XoWJy@r#?SkzDu(|=@>K`f*!VC+UIhwQ
z&*TWb?gB~XyVJ)N^Su3BJ7><r2AGwRJvC7kXQ_gJdui`H)uvymWmkNet+Da-ubo0(
z#Z=9XvJbo6*|ec#BW-m(M#-NeiuNH+qoRW!9o^tMB7NI;=m#3Mx5TpG_HWy7kO6Kc
z-o2d*BNN7MN6{6BLCb;?9dG0`{hJ=TG@y?!_B>(%>_9)x4EQo3kj|TDTjKTC9U}E8
zHP;Om;~a_j1ncGDCKMp!42MD_LXCrO<<4*RQa3w8rV?_ZB%PY$cG~bh=%LOa#$_vu
zNx`s8F+dvgm7o0HcdV+pmLu&DU7|ks)rrv&6l>6ID(1}Xx*NRLgARbRff^BdKuG27
zaH#24P(8h994#~CkOO=a+Qe}O{3Wmo<Nwkuq$GNztuqvWd+?ST<G-{oUwKczf{o(z
z6}1&nN7?;A`=6Ef4<cJ*4iEkcaYHPbSHU#*`Vy@9T?~XS&QC>O;T+tp3d5yyGjpmC
zADyUiJloX1Eh{d{QV6)UuSYP_O$7wSc{V49FZKfs@1*;qvTFNCl~L>atXmme6{A@r
z{5bf?HNk;8eW4msPCTfGJm4ELboEBt0c{6pU$2cXw045YfqxNB<5YI?5PSS)tLu+D
z6X~^~)0{UYhn*A&9lXxq^_+Rz?N_UiOU*n@xyq-QqRiYU|I`Z<#&V*<O>2*mIvM+t
z2?esz$@|n>6?w|%)>|T(E?yRV6?jv{M<*xf1?}95Zbph*HKU80zgrOrKE);;evhN+
zDrgT2`B-%wD(XrLYZQ~zXl_tO8??n<_ntjC%7o`mu>QdLXR&R^&xi}g`)QEt9l<Md
zoTz!H>6l~Wv8LF_LPf=AH2Oi{u89*h9pDE(>rS`KNQ*}o*XsBKmw5OXQS&Ltz7cCY
zeC?g057H6FL?q0FIWo)yB|^vr=L7s{{jQ}yAEF~CBPz0&iLR6jbs?d5^*i(!5ySY%
z2%_fKct#rDv>=Y0v40Y-gPr^}TBq<I`Xdh~5aKp`McNl`Tb9m)LV|Rd=@{01CM?(1
z^$U$?{3fCHaG9}&Ps@6|dXvY7l_JPFa(Xjo6^3Ql`u|x{!bdvig*geScvAUV3|COG
zQGAP=Hvp@GxURT;-}IZg&|rGTu;xr|-C1h<rgCdJn9N4E6Dx|=_}2o`oep=zEixXM
z^dHe}A)dLLbQuy5QD~*QF1{pHh4*v*tyQjjigK04&JTGmzR)WVC0tA1Noc(YrZ*E)
z|LNZ_3z|!-$Z2FF4<Bjz>pf^t^G!8z{i7@o&di9f{9dVQ1U=)=&>M-$_7Ll18tlG<
z30<L7AOG7c;2^P25ASMQIuq1o*xVSk*uFn}wy^?BI6W_AiMbrL|1I~qgGvL*UzH7a
zDN<h^8fxD+@u&h3dd+rUkKKkT30*|jg$3r+q5PlOCACgye?6#N@Ejafq<#Oz8Zv?}
z7mvE)9%Hs49bP%J$WCF1_^cssr3RXg@+DGHPkjcHiw2Z*7smd~f@O=TY?N-ObK#yV
zNSC%dM62p^Ol`!)X`|EAl&}}*J2}YU$=s?-|2NwK|LbQPLSoG^10Jpv@=ki$mRtso
z@$Vj3BhLz1JmhWF(3ja#98Lqi2%OID@Zq8BMXBrNfBPjVLN%K1Nz{J}V_Wi<(~q#7
zP)ez3RW}&<&OO?$Q$n>oMd?8H3(G-ET0a}UdNe%)MPXo?Q0ml|Z+%#qA~fQ7xW8zr
zbW3E}RC$3{Z4h0I9^~PRCHFVsw%x{i!+fcv*1i!;#ln5Z$iZ`Hny@m%6Zk3rjnysX
zp#=ob>OLp(Fk8U6Oew&ssziYD%ije<t_^uRrMCjE3V~Ng2+^}gV)QONUq}d2>=CKK
z_cbM;KynRV;rWF76R>Klic*T5AemGg)Ti{l51(ufv!*~67ka`e|2iU>wSO3w*W-KF
z#q9+7y*|CI3Ye?Wiu!A$U22DvOxOOFep%3n<4y+6Gb<p%twLeX$yNIyE$k{9`9|7q
zxmhtkbsY&{F(P4IsiWg@|0NtZ_nl*k+%*y1+g9dZ?tw>4j3r!FH&y3Dy$dd_W%z#q
z3Kp53C|&Y-wF4WkX0?Z;FUPjScC}4x%z>`2mk~oXU9!%!b8K9MUB0q{j06d}%?Qrb
z;$@eQ&@@x?dNR#gyYzV@jwHFuBgZq2ELK<@xE3n*=-zaBxagVbCk-=Z<#p8}kju{$
zAGsYW<0>(K*s5WaHGGBwl~f_--0;p-yKy7LKD(2SfcBj$KMzxw47`8pg@1&Ek5do}
z#~q(mK7jF8H!n;-ycP4qQ_2D6jDQ+}X0c^zf(c6|6^Q3kg+0}?IRrmy$+2l=uKYr7
zjatk52vU9Dg5_w%Z!LwQ;bWLDgOFEFht$)NZbit^#Yw8wn}+vzN7+u&3#HI-^}5_Z
zcMJmh=cAAhG|4@z@z`>dV(-bjNR^H<XRJ-gS1=w#P%f3ie<Y}P(-p6=;QXIrC%NXO
zTq^3i&PUOXUm5|xaYdwl6f&uRPK50bh&Ir?r5VJ-d;n-F<zlCjoifZlQHLY1SBEf<
z)wzfK03|u!eiUO3(tyvH4Ci`1uG-IX2dE!~xX~8xt%*6PU`MN_o6tlSl?Z7}PeQ6N
zF7r<LT!ox2AmMBuD2dcvTvz*Rz5Q@QhfSqdF#1%79wpDLM;dL;OljgFky{GSJlS-=
z<8a95O6tsB1K1OkpEk8GrR-`O3-Qg~B)B;HOd@|RBS8V571ioL$|*?tg-ECPucMo<
zCYYhVHZl4Orl#FA&qcP{Z6|-BB8ose=?PZ7?552z)CYxP@A9XPf^gm?5isg_rJQR_
z;APGY9iyEV*e<q3F`H?qIo~Tc8Svod8PJw4a&?4i2P&r6lwDStiZjhBF+ghf50+Yb
zhb&Z)zP>wFh`s}P=&M@7Q+?{CDi?WV2-+m8lxql;bI&nFOQ%G)z>Ai;KV5EvHu;#G
z)pCEQ@>k6;o^g4Mr^Ec)dyEd#@o}dh3T@YP24j&TK{Y8(fS1;4x<hElo3T6%a1Ha@
z)?D2$4HoV=nA;cal*zB3OQ_9X9#X{`e;1nYQ>8i9Mb-f$_M#TN{y`737S7;i$RiSY
zvgg8aQFKg=Qn45@TgR~huCl&Arp;9y{l1L^%$(#sHnrU5H{Y8e#?u2?RP(l({2W&L
zV>(9j=L8qbR%=1v+ldNk4WmaUkpW0xrr?cOVT8%KBsYgYMMlT^ewBVuaCgQ>X;8$b
zmpL$Gsk(|d2K9=fAP9)*xZ7W};7zZ9{OnmC>zg6ZJ<@>z6Do?h?v5@;wHGg-N8noK
z*>%Zh`7SpRy?T3S^%bh~JWq<08pzF@I5CL2J9${MG&juYG2yMx3Pr!*!|1Zvy}o6z
z8vPY<vXu~@y_0dbe>LT-JvC_bMu1(<qcEql<LKJ^Z-<}rj>{mOp?|i+KYVRyf!jfM
zPZn8KD=Yv^j9aT5#SYjJCp1&hoE`kPUUh_pKvk~L4m;sN1n+#rhs!EKlSSR=@rKzm
zRPnA{A^`GPVk_qK3<>zpqCtJeyHa)l$EsX)H)Kk)5~Hr-GoeSSP6~9z|FA#Y*Sv(r
zM&*dIrYpiu(ywBQ5KZE!14FJ~!8UMW#rzlqO4RXTONUGq+;<clx~~LIKa=zg8PK7a
zIqxZUq*w4<J^Urqdl9zlXxOGJ0MeSDz3#Y)*WmodGZ6?#qR0U)1)Q!0W^UWC&Z*jd
zsk-Kx?$A~eqxm@NnlE{n$>(c1)CF_R_iyp%@NLmRETIV$ubv&&J=#HtF0GgUP&?q(
zv?){iJ~8SPOp!#Exn*3e{@loZny%le>!my>FyipV1gKY>4z5zAwcdROTTqqCU+<5n
zE9(lg15Gv7XInMxNnW1?n{<4NOXD?8+53bD;skqS*va=LkoSK?MGYD1A368*%Uh=u
zny~9d{BCMEES`?5?e=R@@L`$ZeJM-u5|(9$*Q3;jOTO0r&rYmkT_;k@ztWiW`_ZeJ
zxJCK{o{(#YFektAEtv=hrNCQt9O}Z|F-Thjae?Ode|3GZSHEByA!cGsTgb!p*~D$C
z^Ij?bH+#zE(T%!S!w0wD7S<l?B;n>{b=P(YX=yj2O|_pdL%-LK%_eV2{{YlBTvOwe
z5WOY)<e26xiP^(hVp8o34j$%gA_rd60?U>^`dY{OqG@o<;tob!{Mo+zd9Uvl&Y=5K
z-w5OxK<A_V0$fA+-o+4~<Znb3Y7o+dN-AwVGNh|RaSC;A`JUdX@1igy$PCa;YThl^
z6{Casl%-sCs8_MSFN$rQQXDw4)9orr+|u3Mk$j3(mmHl-IdIuyN_wt#>`qLWpZ4a&
zG%2B0!o@vkg74g%N81v?Q`kHm1Suy<Iq_U|wK&HkoPrVEk=4Fx9#w#pjSO92gPmTC
zh|Kh*lv+J(^)YRTVzk;b@M?%`x1xjG`x<;pO}rFJ!43&m&__Y=Pa+C`<(-TYM+SWC
z+wb#*f@|y_^0`g+py;nGq^B%KXCXc&Fx0eb_Oh`DLj2nO-fHU?sCSkAfK-sbFD=;9
zU-k9kQD4gx`vjtyCtnEits<aN^wb)iCmOYGe4kU@cG-r`d@atj^vCSf7U-kw(SbL%
z`F>#@&dQj&O_i-z?~JG(egwc;K3YE?CIw4yifvJn9SWURKg6u^uNEMYtrHzHFzJ8q
z1PJJ1o%{4>znB2<^u_S-{8$PqkizTjyoxYF2Audbw}fl7$XIW{>1T-F*XA8WTtkKq
z{t*5^$AuMj(wh33EuIA3M$g&bn>5ffyS=8I@2vpwZGs!}^yzoR*NC@tL_h|GpN5(I
z;T|0&u%;@ytEzR%_KaO2j{{iTH`}b<g-5yF3Jq$t=U;`r(Y8o#FfIWHws0dZ*Ng2l
z<1R!zxN!WJ)2x>;S!_y;o}{BY6QR@!ayuEg$AE&)T=vWPdu~=wJ{^hdKHjr=(zgNP
ziCw`(=cR3pXKkf{C>PbGkJBC64vIuIzAO9jyf&+uPI_dxZSzVy<DmH)hvo~_($J2U
zEUnR?`$#Msv<>vWO%YQ}G_P^twl2FWMn><1;}Rvi@o~rsOVZ#!nc~96BZV<8AhaW(
zdk<~>rh#t_GBK9n<u)~sE?-aEK-UwwX*#bajLAPPE%b&RVzF6@lbsh-X6}!p4qm@k
z5mFFtS3lfFV2vKF@n$nmNew)h(zEFMGo%K;#G`gPQqH}#aY}=$;43&K;HQ#j`nj1q
z2Ma8Aj-F%gNlyQkVY*037RVURG}dc3&gVQdTsP@hQlhMIsy>P#EcC>?lvM$C2>WL1
zo!hX!zxA?@O@g#K?>G3*xJ8PS#m;lI@q3}BY3aR-v<3xo8~`WRfdPqgF$oJiy{iEo
zHy>8}6!x+ZD;RHIN}`lK>JUwHcB$<yE&mw#X~9&~8^q3{J*?(shK@A81EUg!XcVQa
z>#V2}pRm!jf`X$As+J6MSOjAj+HplC&|iwa&}5N5Xe(GYCkh%QLs_GT3tdpLkHjoz
zZag^=fB_&xR?FSlr&1kvaElXE<eigXt~QGoq7${lJU0I+1o*dTsr-nleH%#G)^dj*
z#@RG?NQ~=G<~)#)AFsL2jd#N+!pO@h)5>!wy4Db7yhvGs(gLl*FQpIwE)akW<xo0m
zRnvavLaBog<{}A`_j0l5skW!-!AB?|<x4GziTBp+e<GlBd;n^BxYck&t~X>D@#KYw
zsC#Pgy$=TmAtwK2uPa~Q@qK*M5v4A9ZM*Ld{;W8^E10dB*|-1LG1b0s$cH|8G>-N7
zKlF14;c*(7bo;AUh1*C!bwyfMsz6xS$xxxk)t_SIzO?v#15;3UVaLgzN*bMw!=hi)
ztHJ$q9P7!I({^W0%PcMawY(DUDg<j5-Y@#A$kAqWLZkK_w8WMQ=Q*ep`R<^g3*TmT
zMnU{;R<K)QNNLiSX1!?fMU*k4?_-ayF)sHY=?-X-#=b2#4_eWFibp_yYdgQ-u7@DI
z1v_s>21G5Q3hlnZrQ5ASF4H4mhbiK{xfkb}s=-Z3ETN27;2$Ke2v=Oii+0}Yty(O{
z4h$S(@Q#`yi}OSCH_Q~bNVS9}O^V2pxRd`m!BZ;7u3s2jni<KNYuO!eEe`;~D_KDj
z^!tQG=bV*@ZO{S}!D8bs!8(KZXSB~&+pjm}Kbl+&$6zxpzrl~?4?)ylhe#~lvzB*R
zAo)?J#FkL)_?L{4yO3z)XXUjHG~ae=Bi-!c1krXXCMKM8)Vt2W;RPS3w<BQbrbK~^
zjF`!UyyDwGnfYMDYO#e5t7Tp7_iosDU`dgcI`<1En>=6}>j2wG>9Fev+Pn2RwI;;l
z?wuZb<>(?xs|DMNHzl4K@2TKjcL7=wZq{Hc7(A!K7I>UI#3yvO8tnv-%hd5D@ty40
zRN(I9{hP|#!u}u6SP>;tcHMnXV2rsr=yJ1u8+`rwely-%^wz4+!4n(W`r6)G1>u2E
z%69vYxwD)FV(k*P;Z_nc-GKZ%*{QAte%m{af&zEd4)nQGv9R>;jl8ogM@KZ^kub!g
zrK(KqP~qdEseyc51<Vfdy!`moCHnXN!`0F_=Y8J$cc#9~rXX3WkvTRQBQ&$%w~76-
z>A9~Ov*xlwfF6CoQ6L6{c1O}UpE1-fSr_|%LT>(Gn*Q!SqNbigu<aI4C_hE^<*Gd}
ze<z2pUe#Ep5m)|eNoK|*h3A_0prv~FAjT0e7TMwfkAkt*&l)Xe(Q`(Y<6+dnZcb3V
z?R@>fqe<a6l~JwE`{r}52yuHv(M0TZsMUGJnx+*&9$1lYka5(#w3?d)iBW2|-5br+
z3Q+m4;-28L=L(N!Una~If$<6czy%ZFxpkZNnXCQr*95sRUjT2Cmy~QXr53OkI!M<i
zZKf0)U;wWmf<Fk*tH=xYk&@viR>cph%KhgU55)UX()i+}-SKOvesx}w4sd0tN_pgI
zs!~flwsJECHJG2DR`b(t7_2%=Yha?L$A91D$K;Hbx)zVJQ0z8foyBL*HxF8W&XijU
zOyD>?$hI&?dyceiTFa`RU;=vLG;V=VWU{{kGiRO;?nJzmv4THY<Y@ch=&?=LqViUO
z^MC_@<>;9wp@sT(&hmWi)Zb^XypUZ6-}!AhA5Rs;YhPht_BRVX5_`_gF6qtkPlX%J
zT~v##jweh`h+Ii8YsX6aQL80p&tIlb)gN1f=|DvT8p*c)BRT6P=3EDl6T@$&XipK(
z<1ZaRSOh0s>WtVNS4cq4I6L7{(4VjA*IwIosMSAOsAT#lq%v2_w_V}W65|DzRD;$e
zWXNhxu)TF6O$oP9e$-WU>R!f-z!Y-+#{`@8l2c|A5ur24V4J=%zxWpM!S(mPuq>$Q
z(N5n**;=9jQnKBwO;_r;OV|2*p3=;DTi+%!Yp`sPlbtUie&N+lnaMvY{e?aCbt9i^
zjMA&wCs(OghD^<h{QSV9+Pn>#k2<~iz!5|rPZNx^`Xp*lT|O4hw~jo9$Vh{=zEApX
zM&w*Oyrdk+`VsxgKQgIG1v0;G$6Q5}`C}Z#AoI)$0&ZmR9rfewrn?els<WxAQ)(=`
zM|sW6PKEue)z7vCBV-1{Y;UqAm_=ZeH*35&2}<Mdcq+e}22O-Mph`^bP;WmdUFLhO
z?mc_F9O!pO=Rrxn(v@4>FPph8$ANzv^ExWfzWxvRW6wN}_SsJoBMPjq;f8}pz|~?y
zo{zosK?_5U>Kq78#)T{BeCdGt>b7VY``s}RB8-xcAJNhp$X5VGk5d+nY-E01DZX+U
zCWFZtyz+Ap0gdROpDxL~zw}IOFz4ANDege@{FGd8Q3?(p85?rcHq$JuW<BT*&%sH#
z={AzjWYYs18BmPX?zz$jE_H5ZkEZv3K+Q%*9baO^Q>Qb_e4*;{rKddH6|-?ao@L;x
z&2X4@tzsK(GXO<ZUP131SvYgQHel1DI%)pQG$@$RZ64w4KNB{hnEh2#25TI>&$&Y3
z%Jf3vUdd}Xi~E%5!oBr3Rv&2n@q<NCMN(geIf2(ibN_FVDdf+7Q_v+F%7e`Zlqf7G
zY?dn_X1`>eg!r=%S0;;8J%Df9ix-|$-#1bEO8b*l&_a>&njdSJz3$qrve+>L(6BqO
z96%y1oNOn4FbbsQk|#M*_xA=CXte>mf+TW1Iqaa1e}s?$|J~HILqkn|l-j6rwX|ts
zZ6WBnG{j3}d~#gC0u_FHV2MjI{mL53rD%9ph^4?0>%2m5+jTo6P5%xr^1fwS_PPlm
zi$Jk%yjBsUAb0ERT_1&@^wf56Jc9rw;tq2XStmt*?PT11k&&mi=fs+M9rrnIW&E>r
zy2C{f6p&4G=VYk<vY#Kx2yi|zNVVDnd>8B6u!dm$xqY$1xBoRC+e`uxwyoNpp}`T7
z`SQJv{@D%?|0R-ku?Bk{l*fT`D%E@`3hRX1O2f<%A3Xf<4&o=}^Ua{VM;-9L&l@ei
z!RG-qBdV`a&j;nH^m=_h)_HO9%R-L;8r&3|YbPK2#LO|%SP^nJM#pPswQ9J6D!RqU
zl7JVoANebaj{>^M-z++baCNWn`NDKq@vA@V*bDFBVPmA<tnlx}Jr4|IDU4tLhK-Ev
zPDFPe>yc6gJk_!qrV2^-RWr_me@mVB*NbZu^1JQV6TcWol*EKFL8Nn9a++?EgzQr~
zo-9W3aXh=b>d=V<&XqTecgqsE&4&O5YyJvw@fFVR2<kdKt(GOpUAI1o1{$}l{X7Zo
zaB^6^aFsTBQcLvZTUkaW6P|!#=izkp&ohp#3STL-ei%5OQp(NjRTO_q{l~iIa=~3S
zhu6aaMRo_<s@Y&+?!$Vm`onL#x8n)VR4q-TM47eiyR9RH7Fs^pIjv7Io-D|5d_HVg
zF}vx(u13>@PEwzLF4t2a9S1J!wI!ogwX^Bqt$iy{NCJTB<Q*N0;%lU`Jj+UOu8I_r
z?6>ow6OTPahTfY?*hXB6LXl3FE^nW}Jlo?TpPZZWY`Xi*cJM#?ZFxJg*Cp=d!{4Im
zH0hDemdGN~=?}}>9vDIT+*N+7qbr_$nx%w=#fVGf<?R{U_u@W#YRSbn7tMk%Y&J%?
zHZja}sNIS_;w5hzqe}khU#)U6wMJ;VmK<Wj`z6Eo`p8HT7lk}f6y5f~Hm1PFa(l`J
z!5R&7RUINc;g;CoCu|u1L3)Ap%$jQHB*<(1Em^Zrp^|K}4weZm4D9}bh`)iR<5yx-
zlRjlmjRN7G2xGcPivC7N@B6`3OII#rf4@@>0lX+}`R8r>n)UI_q^W0n4~eu0=OG1R
zPnYIoFTaXdX=>wiNtU9QOu6w+*@;o6v9W-Ed<FOWLx=Jw@ii&DgY^|apkve^(h@Ja
zeM<MSp>RM@@A2TUOkrQD%)4t1B94N2s`V8o9O?a!bk|LQvMuw@X<|yrkIxO#$)N{+
zn)+Tz{uj5n{kA$$^)yVTr}OIbSFSoR<Fb8Q3f%zpipgnD_Rfa$jnHH*<?F@$y0Owr
zVrP&=&gxErgB$xWm|6Lp*1g7^DG+TlY!E?Xj?o2yva#s=Lf&9xDN9@RbduUaV^i&I
zK%G-!2bJ|b;#RN&jgwRh*s&-<*z>}{B%YTa(S-%{%62-l^8LBp6TXA%&Hf`7+I8B8
zf63QWVP?+l8v4E}Nh5h;6+1QmxdajZxPU^hCdZ<Z32{VCc8E!ZpWpmgEy2(Ed1HDy
zXtDe(3hwLHu?b)IOeWzk?v}|v1=X95Zes-?iTN)r?aYdqsXKK2N#^!517BaMVqta5
zG=p{Xqdr*;6@<d_(~~t>KWPerMKQt#S}U*HXF@B$8DxkOsJ)J!^V`?rZCF$&!{`cA
zVTq}qev^M<>cFk`R@6<lR?IE2d#Sq#-u6(666-o1g9`Ly^L9repezll-+5ry`z!xR
zb)N0!M;^ytT^xA;gofFtLF(+kODaHg<sQB9=-!8ZK+iJFWWm)c6gx-(R4ww^H4fSI
z`ap$6ZYE!XBWr&8Pn~aq^HK1T9C@_LVmD`$I^{&5{UJ=Hhxk}K`+C!#rpF5o3Ya|@
zUVF0Ukjnb!let%1bsWCl!7R6w5d8hRPd28LYYx$`?ZvB|cv>g8t{!Z<pTY?H?IG-=
zQdk$K9DMHH>ZYTaR#(XPZS~rq>f;@GDJU=J6K4|i3OpXYUudBt8W%4O`8FsV0G+kt
z!g&wmZ{}?V`H^SOrzneHT*?nCUHW5MaKVzPz(N~^tu|HtwLKfzPn1O<v>T&?4J=^M
zm~(09nD0|g*{3Ud=Ul7NPgrBamxk^?{2MDKfFI{V2kBr1j}}GrEs9~|&>oq&eW?|%
z(U6ub<l3!VlPp~_EREP|lR3<xJQj8LXkxUCmA2xmtp~N~%FILVrZtdtgMAS1k7}c>
zJ;sZ}dEacRaC+8dS$!)%W)PeQO{HXXd?H$qmv9EN2G)LS$7g>E&`%|uUu(WQi}YFx
z_o0DsBV8Pfs$~5VbQcQ6z*^-MwzBh_>mRwl)w52kkb04ZmR6e8u01_u*ykumMQy&5
zRW;-dp1yAyuy&H@l|0WQQzNv42e8sP?da@JE|s5_r&Q?8FGpmS3!8@97Q4yAwPgh^
zF}F^2@{5zau9M0%zr*Su#Q;jvjq)>4?ntifU~RsVL>3S&&HYU6Z*{<*#7yKF?HPio
zuWA%7`pNr`<qmj2Li)bqoAkW@bfi#`XYE;jnCcOhK)UCWkRkp-2wmT^ac1{CR$(-5
zanXr2H%f?}`Sh{W0<NpJM~FU6((H+QM#%UhBN^N1IUDsNTy!W+0Yo$a0Knn>GOEZ}
zcC9oSiSiGfGadB03a{YWU6W0n2XBhTGh>H1=DmJ#!#B_<lBRvs?9P2rLMb<7_g-*h
zYYC`Y$x~!X-v(OPE2&G_t?w<YqIue+B2<+WGd~jWM89H8h^r9Y|7h5C<dk4k4xpBc
zZWUvuD_pPXlQm0Mj&y|2d#&41yUpWsk&j$0`Su@<Q=Zc68teOv)d!p552Y$|G1!dA
z$}b8VwL68Der9(jugp<Us3@b652sT%%(3Zvd;AG4cBm_`wuG;K<Nnf(Otf4*e0<Sl
z#n>>dOUdDOnTd8kIYIiL&H3N=ulc&rL+FBPH!>L2INzd008-1vysn&5sXmz)#V&cg
z;;i!l&>j(Z6gM&j(3+nE_R-rqC0CK}(??jrCacq?hECMM!KEh=_qCh!EyqFp5o`DM
zM<PCd7I5>5g;LkQowy_kBr8DYoUSAyf><VeR~G*GQ0(DxV$O+C0?p@IUP>a*^J*J7
zvO>x>HLSNxeLfgSByr^;URN%tG$!lYlv^Ur!t>&LIFOsQh#(Mi>MxOn>~P=<s^Q+}
zoznCEQ9F<825-l+!b2IH&yl%X@9hYmxB~VXn(2tnWu%sh<q3WW5qBH%r^?#|<O!e%
z@zj6lqJQB(3eBG&*G4wLxdzlTcbc{nQaOEEl-WAuM^e{OPoNhsOzGLiBP${rjqj4k
z41Nr^%5uwL9jyNGc2B8oS>K6L63jZ~rl)B%$KiJbnJhibml^XT^mX|->t#eNffsg)
zatme<R=lH&j<e<;kw-`zd?rN?KaoVq9ziSkHc21tG=#M#7oY`+?I+Ez!HQ^8&Mqcm
zh*8IYusN;AVVN0-TW;`72{_nxUro73@l{C8yZO#4_iRw4Fc6<xJKU5{5k*~1<P0R&
z^&_+ILQg!Q^!3+n6I{EQS62O9a;~T}z$JVgsU^%+XBRM533+od?Td@^e%*_o2t6QA
zBuc~gld~ZV`dKyFh5HP(5Z<-qTk8$(jnd&i+~xOiBgo-EdQ;rW$q{Y#J($0>n#>{1
zRY5U^ArSl$&)v3tfThx=TC#y<1P#m1BXWHv^ryPo5|-BOYTm(%%al`3J90fGZarL`
z6R{cPHp;wHC$C&gKvCo4uBI;^9CUgi9rFFodcxisqLY{-0Xcg>f|6?R2^|?Y-#+H<
zUO`Y-tHLUf@W(Oi=i;NMyrg#QC+rfVAihv|4PzRD8Bb%Qq{N^vagKs5V}t3!q@58O
zfUI>ag&xl!+%_<hh|sn(W#oO+F8VUZ6YkFEjneataMoFnM~Yy%(_7szNaKhi-BZ3U
zNQKSpAdB+XvwBI5JAir-pJWF3XLQEjHX3^CLNp@YF{tZ<VM&{KV_L&E;Q8?^YGf|P
zi^OGgAKStA$67D90IhX}*&XgJmq{Ap--CE$ad&TZG;d<M#*ZFX6bD-IXAGLKW;UQ<
z{H0!D)Eaevro!wAKFRRzDV6){F4%?K81P~M(d|XnWPL=T_x^Di2dcTZD)}Q1pk~gN
zfXtoobCz0PGy?TMtWh3!w6pYOSruk2K2PL7CGvc|eC~^vctxcXo<$rT9WoY%7+w7}
z8sctl`Fn)lc5An^sDZ{`1>C%jc(2RV#DISW;;KdKPPGK8R-2qF>RRJ;i%!SQ)^PN;
z-8xTKxY&u&#cp7R194L57&2p(WJq11`&-N8J}@kpu=6slY0EqLEzW^h_SItO-1(xv
zlT{^&iYa*AYPxP<;7gc-|M|YtIpz;nY+-F8(v*~ULe+@j^V(di^3$fPpX7PRu+fUQ
z@UJ*QgN9orJJc|s8YZ%g%p@wx`CPSA!5xT?=zW5OeZD@VfFU%NoSi(f5MKO#pO)V5
zQ++N2wg=|6vLl^`L<8e-wQ>cLQ(HkQcAwT;V9d%IU||6jV8}ali+lYaRk7*yn9n5r
zfp*CAy<N%P(%}xW@iWY0qGrZghVYZRY1~XE0KjD*%qG#UW(Rw1Ze*pKs^x&H%U$ZB
z71*d@OBt>T&ef0hhW&ePN+F1$brpc!EoJH|id1>#nMwhT*YkJ*k<E|2#KK0OGD9gT
zcLb}Y1rL`&lrO)q3<F{YDl8a9_2+sKWG5)sSRxpe{s{mnkUk{tNQPi6O>5aWKT9!e
z!};IO$Jqj>Z*f+G6Ep&{lD*sGn2@PhKeH@HA8j%QaT8zoG+yG+2cGbP%0Z4Tb$6cs
zuMKxx*5>1!f2%A&{MVzE{4aHpvh?%p;i3FTuBE@fzX}Yt`7rcOj!s&#cN1e;r=%{P
zNz@*F?<Cbow(eJbwL)zYqo>T5eH~~#vlzi2hYO_!Hy7FlDbl_yY48ATM&ZXlgD&4Y
zUor1gd}$<;tqCEbKtdz0jfi%vSo*Ae|BJD6HOQxf0KuyEoE95aWXVc^@|Mil{){nW
z5mZSXuZsyUmf|mlf#L<0-~TT5Wjej7|565@3<@w^^3h$8r&e!T!BJSl?Mw|%(*S9R
z3)zr#C%o(4fK3o`+8ydIuoqkLPLjXEiw@5uKKL#HB7MeG)}X838Iacf8agpbJ%f!u
zF*>S!YBvdQ8br5i?yw%8NUYiDt5+C?E}?NCHj3v~UkRn2WZYx^vgR3Lu4aM&>mjDP
z;RO;cck5T}Si1=mz;8yTI4h{D4s}uWIUMYic_h5>hbvPHGRNHBvhyD#v@{#z&3{i{
zbV5O=8Yr;33W45t@}<wB6tv9sGB`vzR{MGLY}Fz|A{rrvN;&sHMA|CD(>F1-Q*FUB
zNc<OYtR(s!?Akl(G^2Ukyz#05)n%JR;A<~=UMzL{C#ODs^fh65Tq}q)|5cjUWTcdn
zjdrE0(ng}4*|+bH(2yJp0O(u`@;Z)i_vb(IFkwIZ`rmXH8luxp^FPZS2jwUF8k`P&
zyl```TbtyEadc3AQ&;T`FIIJVlVH~AFAHPrV~Q80h!bd~O%-0_ZH8N~W?F1wK17me
ziq{zt{}9k0wXtRi*X1)GQQxwn-#9S>&5dEljOgAJ6eeg4XLxL2fh%|x)Y8r0g1elv
zWS8Js?z!(=#tKg2L<zK1YFODENDADI&9@(p_1VA9ECh^h(PfpJ&n{EZJBFWK!+D3e
zM@h6QNaUZW3pHajJZ%NfliqCXzTXREt&_|@%IP+2-xrR2(Hb8)dA^|&nri(12K256
zh?M?N+P;uLxE++hG<Lx%HuO%FOzMEGbI~c@dAj1Yvy6%4t=-hOJRyc>Nt!_Om-%qR
zDu)1B=L}q4J1Ei1kLi5AdywT8+K@h&b`*}q>=P@0FpS_PeTbYd>aiguRA~OppUBgT
z>DbLpCwv~gqq}bIQ9?ZpE0@An<0RNE|14b$^xYZM%|$n+<9q)KvbWEwel7DvO;wIY
zb+f*&kI2Od>cwGfNHn|TGEf9dafl&6$*nV2ZO(_Ny)fO0C3&q|?%nU$(uv*Cqn|;h
z91jaS%GW0q#@zZ8b;TViiAL}&p&#oQj(2f82X$$6sM48c$?M3!Z)k6Ea@tEG8~5x%
zUaE3AS$JcOdK+BwtVgRW4YJgIk5{G0ilvGyp%&xuGPe_{Rgpt-h!39(lfWC=xux?Y
z^}6A&uhEl}SKxN}ZzO%d9tTEaQDGP5pZ2?Jy<82Zr8xnCY1%sSkmd?u-!=O~;aBE+
z=Hwbcb^)*&gHO8uiXU>FzM4BalC}2`ur1*G_0st`K{?p*0i1jg4+-zTr?RDU0#Q|T
zf2A2ae$i}8zIIG=5!|sTvglAg=$v(8M$=g7W{GWHXX7>^ZWp^*SYC4ZfM^FwP2;Jy
z0?3r&-LbFW_R0F5k(g#xC|Go#MWcuyLHAvk;47PqpnPTT<A5k7`mADF`(8&W!faD`
zOi{<@^1>rQ%O&J|k=!KHVHc}j;|$VSY4e5o4~y`PBv{i90^JCxaU&5!quBXQ4U_XE
z{B$be)UL6)nDw(X(myHO92+{F*#2|acRD$$GKHlS%-}WDITWfZbr`c0zuK;A%Mt`G
zC9P+@N{D(jnDAHJ1%ZJAUYfG0^-tF4mNt|<MJ87!ZF<+_KWBME=1D4tEXANx?ZlRH
zU*jzn0Rm@DZ+D2?$bPVGC?1f|d6`A_fm&{ldw0sjIT89A_eeR8^U)`O^NTvYo8(fJ
zc8CXCdd)Qh{<pD09H{H{+4imtzpd!F8{;H**HM=`8Q~5%9$p$+I}@npq3jp?-v&OO
zB=y)wl_jP}P=31VfPKivWk2UrW+Mki8A#+=lVb@Ls&UnMg;q~?zeg@9ZDy~_N@5<p
zOg~HM3t!L+EqN*X@?V>k65^K|6Pwu@QR3nso~b8!y203`Wa3AaBS@uVS*ax2lo$}M
zg<g7F%>B1^(2*78a@EPMkm>t&-FN(_YkB1Fjr?`BBQ@QfWk+Y+4`?RWNS(lOZ()Ym
z$PX9_3F0&Epk~?qlc!oEFZ(Y!DGhBGpet^&e#MimD{pNR>T<IN&8xHfb)a%3tncT0
zWE-qR=urj|k`_l<#3LB|<JVuCV7SytNJujOHuL9yQ@J1>?W>I(et&6RKDs{7FM=@Y
z*`7|=4D;4gsVmQq3K_FEkuNq?prUdvNscD5TS10?J^TJ_pFJu1wi{*<hBoJ-p+Qqg
zNs9$hny*^+tqqx@r=$98Y#tbe)i`Y~J|!K^J6)u}S**Pk_Th&*zG>C>%lmUUX}n1V
zP0&KWWF(C*n;X1}y%vS36~;2pf>8nxPq8g|byau3T%P?|B|s1Dd4NHm*bzLX<tP}Y
zx>l|=`dRsB)sMVe{rlrvkN=!`^r2a9o@GNhDCWufl33M)Q}_OaRdj;L0|qwG8S0u|
zc;B=F{d(vhsif3xxNQ^O&V0@k7Ka&_>eWLI^AB~`DSYtc06Dw6j!-3ox1iAP?^@1B
zk`3_pe+gffk$*Sxq$=m1dL;7Gzb_`{^?xt_OfR(ddjnGA5JrmEIP#VI&x3sJp#oD%
zrUC%nKuIiMo0%5!yeF)tXa}#YR3quEc<o+y|B+`^(n;i#TKTi;=J&RG8KQQ;o31??
zhyq13BJVk6K7Au-?{4~17l+1ePimCkJ6%@g;{W?v)FkzYPU3IGPjwRsuz3!hDywqq
zj`)6yW8lFmNh_)o<ZK|?LQeQ*r0exYjn@j@mCz3PG>I<vS3gyz2;$i2j`f3;m#pSq
z=;9S93-*193%Bt64mwT=Rmj`7RKE~Rp&(2Izt;~0Rw4I%ZMX}V@lzj4l@-3hw*b{w
z;;lKUp{SA+-kc|QM&M7~ts|EK*tGp)*#;(exwhu%{rTvknKX3ecj_WBTHDA0+Hp~B
zEomlmAH6Oa(?gCdO+v8KkIq%C>r+j9Z?@OjK=PirfCf;nHhygVhQ^r4{(@Ti=DD-S
z`g$(6NcbW@$b&cUf&Vidh^zn2Qxku+q7Jp$+A(zzP~==yvsj8=k!b~I>5qRSAb8#|
z5Uh5a)&dy9^czK~6*512eibYz@3Y@T2MDFJl=g@&duk?wcNX2MrSNgz)$T%d_XpI7
zq4|4!VGBS=bM7pj=j)!N-nlWmrenIBC4WjKRzVRZ4h^B+;K&o~yC)uf;6Z8Qb$mj6
zVjDs_-m|SGI<i6PmHEoyp}u?aMqT#S7%9F4+Q5Y^7t1o*kM+o*`JqGqkEZVqWb=F9
zZmVdkXsfN(>`=N;d#}<eiqfI>YVAD|#3)*-R*h0y(b`1qM(j~5u}X}H9U~D0vArjs
z-}n9Z<av%Gd7g9b`?{~|y1iGv7++xDz+EAiXX%|Nj|ZeK6z1Z_u&1WmPcpkCgTh9>
z&~_228*PAPyXkCvcp7yYG;oKJRHewq(-E5B94ivuli$oZI6AP8%@0gKb(Qf>_$em6
zbefsjwH0GL{6TTf1_}g)b(zUFNvH+Q_EpDk`lrB~`xJ0Txpszr8Ii~WA^Une4wkAQ
zW|}`3H(QC|7$f)E2%~yji`u}0D|75Wo+e2-Q|_0^{j8#`Y1NHdI^)IT1RaK}o$p>f
z<HOP%ofZzWH3hJQHRR~fAnw)sBVc-!@m;?H_iOQC9oQ1kGY9+g!Ou=~)ZS+)tDa!g
z*leBz=UVzdB=iCzoO$Me^KBe{h=#M>V|gM+#3<vXqW|I{Oq?<)gn1Fnig>X7@A6XH
zDJ|b^fR0;3Nok4L;LV2olXM1C%R^+DZ-9~{Hvz+cLgv@Me6*l~3@bP&7?TB%iWC-x
zcZ9}DaU+7U(s%<;6)KQw(yuRu(cY9}roC@ddC{?j-f;V1PquI&3U$A!<P}~E^KQp%
zr7pXFNP8HsU#aWyhS4NW+}rBbV$M(`+DA@X08q7zq@)W^r)&~`jAok&ZpKccfH2a&
z42<8AE(8u%2eJ>&tCW=adDzK5Gl&JRLA8;Xbm5})BkOPO>Rb9YnX(L&D(!_ifEVjm
z8hE_9C?1)TDZ4?&HSHF|a$TJ94C8693stSZSumsaEAY*MTM1-@#PAE4WdpiEjDz)Z
z8D9pU<$BN6#it+S<&t{E-&uM4rFU#7lW_LZ0(nj8*M9e(AI7JL4!@eViS9aJ2?yzv
zo6(D4M$g7hsh?r6`mg|Hq&ZdDL9EH7V?QS?9DQ+ku4!1hb0+x%wWby~8&pqdS7F95
zs<GL03Llcm27uZEl$B&lq|)#w(5ziPKfR^^6y<9&?GqO{j2xiGy4tW)MRp6%nq?vh
zs3kJTgqSovYbn&kh%Zppf%BU1%H(yBYIHjFOWlQ#+C=6dU3sS2LgP~$9aK(Pw)+eC
zOT7Dqkhbh0`vI9^zybFc&H{sC&diM2W)yic`vQ`8QrpUdsmq5(@GMDmk?(`oPcDG~
z#7OIY=NFVxlRyeS_fAbXe#!WaKLLD&!7x>PW>II6@gyTBX~Az#@SfgUyMJ2ng(+J>
zqUj%K6=Ap2|J0m%O$sfHXJJ}tPtSkx0G8Vl%?PLOC8qA!`K{IzK*y#IK)82=9Gvbj
z!Gz;UAIx^$mtWr<<Syapz3&C64$KPTjZa+-QqP`)arq=Ab}PRn9Is(QxmU`jCst%{
z%gY6N@n7R!PD>D=3ejr>UHw}=rDceG8##UXiQ*U41q38%>EQRiT!T3ajvg;@8uQlo
zs7W&|Q;FZ8kr`4?JR01cIzP$yDkK<j6S(1BVE+U-vs!mLw$Y4x>rNP3S`uA*x+E!f
z_#>X@3)b;jku6-1d!h-UL>%6tn>=kNnbU&34~pY5xl>q|;g8EQDIVRdm1oqB5I_nM
zEJaVEGmiV>dZlOZJ>#rciAa?%lD#Sk|Kz<;D~f>gewgGKZJ#AF-&0+*r+m!cD_hDS
zqfpYZFYIW<LX7$7V?f3n8B&!pz?h(8=Ab)LZzCo80HB;uy+J>7G|C;v)|<HOhNiSu
z>VyMo-?ZHyI>d!_reXF<2gQp09^J7OYN)?t_eanned)ZK>CmyjM*T;5tdIHe5<IbR
zsebs~4Z-tvr>=W;d!{G4xtZ8+)C=D9@*VLog+RZ=1kS3Cjc!1Q!BV$?mx=!C*lGKt
zm+<hh-gPt1JpRd7(UwQ?p&Ek#mk=0T6BBeuR$vags$Ic|&#e2|<Lw4Q_C$-FWG2JC
ztg>3pt;whWiB3IzAfXrY?PY-Rp_sJ>V!I7k-cIOQgWN6A3S7$WmMA;|XRRAlVffMc
zypO6w(~$7h3^gtzaWveyaQ=SpnSbtUCP4iG-j`XL6c4v^#**OI^dAU>`vG%2c<!{l
ziM_B)MsQ=xDXBL}hgh)=^O1ey!f{b__--;2;>Xa%d7y=O%l^fpYZ6q6Nv2LDhmH{y
z!u@p#*9wO1v(FGEt*`3@5l4Mg(n>8nF-gCEEuFrg#Le&z5Lp16_7vgG_mzl02kcAg
zS>8i~0J#^4D&1{HMdD8=XD~-Re4$xdOzI9MQlh9#7;?`bt&rt4+Mj;cvmAE-gX+Io
zWz?HoP?xQDw%iWhp{PLE7^f-ulQBDf_y^{UW1w(&b~vcIL413SLuc*T2qFC4n_4i4
z<TG_UUtQ57aR{*H;fp#vK3*pUVdt<fV&{mq+tqa^Z)S8H$!!8nV20#25K?7@7~#VV
zMn-LXdWpa+Pu{ht<EiE&)HpObG<~FBH9<@WgK`4eI>Kb6`_Loi)7Ja%{>5JAmIX%v
z6;3H>Z3zy!oys1+sr6t_KpZ4nynfui8nl=jgI%8YQrm>?pobrjxlA#u{7-zTANZfr
zeRP>we5l`KLm<SRaFnph|Igs-NRIVA8~Yy%3PWn*%R5T!p=RCQ!VMeAh^-r?otXK}
zxD$zI@MwvxxH90Z(j*>K_iGGENst$ukWsdpY{n)DfHdp;Ml!$!eAwy)bvjC)mkWk=
z0QV_cZ_V}+;q2ej+(GVhC?E8=6De5cue~rtxz=#iIa6x&aHy`v-<AlmcF^umfz?gw
zVrU{LQP{+9Bk%m`Yhh876Ur97ZHKyRl1;8K>tCM;-CMg0t9N|dnLG77(?97kpj^3$
zJ-ao;ZT|uL&4sH3O|i{Lns%iIV^Vhx1-0kvPPvM#eXr?e#r^zibnn~Jk=nPw-bLG|
z^}*d(LtG@@C^+*>)IaPO{@SF&Z`qS_Ggt0H)Md$6+aXFTm34!5I>(cyQp?!eCV>{w
zz3wGC)?Sa^M|m8~rByY!4IxzPPPOq0+-2Hoq|A>dUIcjkZ4;%Kv3|RW2TZrp*A#SR
z?&CFogDYVwb*I`_B`w2!KHLlWF3f&vnTCobE8H?UX({2L|4UAREj@U{>8>FKb=0Lp
zy10IB$SG>n>;n(5cth>-duJRbWpjybkbZi<OZq3{5{aG&>pf(=!2{|~*-ws;UZ%sn
zF!_^w>5}7axjM{2;1HAZnZs$U&J2vwKS0&JHtyqfXQXoQF78%a2oB#34DskIU8bY%
zfjG;jM}F|p28rIAE4w{wmK#cHfbenaIALo+LIThAgYQS4)#f#-43%@Y8rTF-o;^lh
zxO>RfAwF#9V-B9U`e=&tmeRjjOdd<Ad$1y#9W}b~?<EiTew!N}nX9dkiYY1YH^fi$
zl)E>${VMe~VM+;A&P?cSzy7T<_4*6nbWm@{f#GUwp5vLBL6+ILdt~FA3kFonrzcV`
z%Mjw}5@T<2M}zlwD1hd>FNW?mS0>To7=y`wn>&|$(1svGXjt%;BD7c93^Am5nW}Th
zDDLBdQs)qG=HN1@XFLi?UQA9&KjaFBYKh5S$0j<cSMZk$HRrs#T}bgS>5EQQkx87b
z$vkRIFfMlyFR#AjzeOfqBOCf##yBBzovb*ayUYJn;&tC{&l%^Ef8R)ZQAv1DbLB`^
za?ki{+xl1kkb?u%jYg>`AM<l<qS{z8L~<*w0=zI(Jxb$h1@v5OxobQ`p-j7;01nhT
zlam(K`R-5?l8(!;kCt`F_B)0Ay%u0dggh0@c*`Wkdh$)`;Aw#eP-P?>a00i01SPxz
zXLjLquSdde;tl!{@YYq2Jn$+8-sVbVF4X;Jd+8(6VNLb*Kf$OuUr(_D!v|a}-HlG4
z?rKrU{(n>0$BLkh+htXrNLRL&?VGSb-#C`)nZfB9?V9z6ILihLfSQNIFh0LlMV%wD
z*M7jJL_K!m_QvDVEyym3xOMKl_(vvLW!S3$4o5y#-u19H|BT@M*0ST>fFor%1KyI)
zoS6_Fk{XL*Pt$ewI^x|>Zh&rwSqc*F`2U8hULwCH_6VnevUZx^4CVx^&jI$##wmH!
zZSn(>`gpQ*&|xk!H_vFLHu+cuK~}rrROLDgh&^a*aiW5jR>_5K3#`>J&56lTz9=MI
zW-?kf`eMU-+gWLVVS_3vMaxWLsr=^6qQ0J8_w*hZ(iE1<(?Su#=my^t&0vpj7VZt!
z2c?jk=?wR_n_|y{P1NLXSm-;oj@k;_jOxoHf{fea^cupx84T>JSKC*^JVVGy#onWb
z4Ru(t4W<0J7n-b>^d5Cz_IZYS-Urh>YO$>TOJ6wGynKTndShqCHy;Ruac#q^I8I2k
z?+ZAKo5}~XK9?#q2VQG-tf37silhJ1SH7u!k37jfXIO;_Ur0`D+m`oQ<~iObHJnD=
zBe`A>zho(qps|^5t#Ey>rJG(mZLZnm?meyY!Vet3wKy*r`FjEOxpo>)BX93*uUC~(
z?th<i1=;@r>T#fzYfAPQhzPlE{TbUMYh0fSimOW01BB}@_s3mb_)UD0#5r7+DMW_5
zCs*r|nQ}2Vn&pDyDTnEYiqGl=33_QcIljw0tl|-GNp(;grpLwerWT13+tbCWxJyzm
zE_|lZ4}2`)$BM&kFk3_8qu)zkFLE~bgPo~UI!EqVo<Cj;+n)9P7tA?tc?A)-puil8
zvlc%+Tt~I!;-HRA85VdF{DQ@2-F&vY-c#mrI`UQO$0!voUwg?uI)l>gBz7L5jf1~>
z-{P}<i!7i+Z<>BIoVCihT!yeh;_<5W1v!_%JSlEN@JSkcO|+{;29P$2RH^J@?jOp;
zQ%(j(M7r~Zw3j`h98hO@mF4@;QgHa<NdzBiTg^v;r*n(yJC^%OB7nXubmzwQiE4cI
zV^>#;!bnusf|&juNF#pM?#c)fLgd69V{29<rC*>M;>wo++Ae_Y#R*|(I>7nMu&=g}
z86$EjqvF5(>mZF4(mWyk#bH`X@*Rq+m6f_*3S$pAgOPbltneQsvEWtx{y&!$_KE>&
zmzdIE376;s%@BhvELN=+-V7r!VERd?BUDq!3LP#{v7$F`zP>BzWZOIYZ~)NoN(6vZ
z&Qd|C`8=cOo8n(50P`P&S69Xu#XKexFW6fR)L%v1sgl3|eSTXn&b#z1(c6ng94=Gb
z64*s<hd}hG6G*ggyQIHrP2XMf+jFGgNY45x)P>wkD0L(C6$SNwbFV7h@<-$Db@q^@
zJy-8nW-FCTX7=A~@(F%cjXGLD>=d%DG;y7@{-NG$pXq<)^NeEFxjnV^^`^P9LvIVf
zj)Y{d4M(Tzh|D%|#f}ivByY_ZvKI3E$Hu&y_!;v^kZsNo1g=Zr0zh?o2dMX0Ay4j|
zHe%_6_cB(N-f?blMqs@kgF31LoFyG6XU;<Vj3ENDOVJY?4o=ISn2mJ~<G6UCq5Cp(
z$sk{2+2O3B>uOofn=J6jq*laD>3g4kT-Me>NL4$*kr@?i^IUDKPyA1LYi>6EVhenN
zVgb;;lg_FRJd89bvz#&K??zj$ao(JIE!R93+J~Hc!df(i?R-z61^`#JpT@)Dx6-e5
z$lC`6KMizF(MJ9Ndz7|SJnXUqz+}V%C&NAxAB{mP1RW?4#|K?<UCFQJGCsV0C<;5#
zab#2IQr}fljbH~hB<|4`5^ZI0-Ya-?uBX?KOrt-JF@$7^A`uVSD|nOyR2%NJp7@xi
zU@1-wXt~{mxEU<|o)vrKscBZywF$OBDzTbkLcqBw{4k2@DI6~X$~0gvc-LyYIr_=!
zRSaWTliTp=1&u2J6#_x+Y5UkRK^hcGO;7r5jpepJnmPdlc5+GX%jjttbIoc!yK_OJ
z>RWpkKxH;fKI?mAVr)plaif)JDlQW_qg(;t3<0YZkuRgIP6G#|8?j?9M^XL1W8^Zx
z0tYC&Tjml=(<f`W>T&3NHd%WO(~vgEek|bKfTa1_uD<hKh|(9etr#@+E4UsI#SRS}
zC|q^;ZuijVY+JY88A*OimQ^v?-!;n^0yLhnoxjiU<?7>F!nV-(=e@cb!dah~NVHPT
zps+e^ELM3Bn$CH_{i-^fP6n$b^8)j>(vv?Q_q?)nnv+k_jc4%PUMAbANv$grLPq%-
z)!!(XYf;5gs(vPR61`Eh1bntYwnEJ>7yk2A3ffPH@INs*oI|Wj%)dm&{rSQgim|J*
z*L5-yOVnC8w%jk8m5UWgbo@n|oLZL%1+~SCTi#;%PhO(w%@h!8O(mD~=HsW~ZuT?(
zeUgu*^-NREYOjchXJ~If8OXJd6tsTDXR9wYmWE=n$-?Gs769SY=Z^J;Wgd}&xVsQT
zj{OsQ=iV)RNiy~{haCg+IF&NhY4;28+<tRoO;Y!sK3|ef+MHRp@q`SjTN0wTBqK}(
zeZZu;c$2?CdA8<#=ix&d;qBNzg+Qf8iCE_OqUk+1`RLKa-<m$>Q6~WY|M!=E))d?x
zxt??96Qw4!{lZqcmauhS3a(;R-I~x!es}4P`oTwcBs%{BWr1}utrkYUk|L@;CF^~J
zRvf)rDWeHWV^d5%<dmUWnR<MNT!!nfCvSTH;3MW`fpi{HdU<o<0py96?CIj@P+1up
z^emrSdsX!0LF^lF({<SF!IM@2hT*xztyKYOsbMF4a4W?Xx%&mX#`t+gZH*tl-t^E@
z(Z0Gcu83`OL1Kx$*8?qBhv(~WJ%g|#49feE!THM_>!?B~kc~pw>o%?yk=YaMZpx}A
z9Q5r2@wO3$a~yJkeXjs`V|USt0XHnF9GsVvp*4iU@oHe}Afa}KTKe(WOQvq)v5#H}
zwh-d7gvNndIFVT(7vzG!*ra1u6`hfb6PX>W-laey%Zatsw1jPw){Wvh3j-stAJN+?
zr%a(^TK#G5OSk4;WHARtZIF3}q%<#N0ESq@JPLf^_(nE>{^KMU!AUfm+W|FBwVw-H
z6>S=>Imi2zDb_%TdxDBa8w2eK(aD!7XhHLi8kaE%c)-=qJ5e<r3>2pGXve&?1`lNQ
zf>k>{t({yae{ed~;iR~4V$>)stk7jDrUe2`PQq_x1gK$O8-%X=bX>chd}sPVT<G@%
z<I4cA-Kl=;A2<u;1oZRst34CC#Q8g95B}}>U{z?hrKL7w1H0L!=ef5PNonAzLqxB>
z`Jh>@J%tpR(z2Hhb?D|$3kPgpK!k5fzQB6fjU!s3<*rLwL%Ej#u^WUj+aS&zJ>(b<
zBVX`rN@af0Bq`nUpE4?gD!%^desucOdRVDtn+ZT<v0ni~Vuq9$KJC-gwiG|W!r9;#
z&`m+y1Z+6HsF8Q)+e3J@Go?#JW{a>OLxw<ml}|%PI>k<2W0iu_f+DAz1n`KV^vSAx
z&?Kv6PChbExRjIkS|OqK>eYQ`3cvLW+>gFwskKesP8ZgUU0sc>o6CCzq<7R^lYZrM
zV+u^^yiTIG#3MbF8A2|D`c$m;T&EM7`&b_Hufg-^09f6D5GfGL(NV?sH`M!4?P&E-
zC9gl4N;tsYH5GG>>UAF|SWp0M0{{@<os8eYcO>&5!zFqW)tC7+yhVncs`21|j63H2
zLbt}TgjG~-ps!-JPj`H@eFPRlJ?av!-&(6T`fAN?O?vL<PAc8g5+~Q4a_GGcgy`nh
zabw0#;L$v@EE8dzuAR55^j)aVLu;_VQwWoo(UV!9jS&qGwm%j8^l=z=h3aK{&PV=k
z(Y?$=eQ(o&iA;Ca!tGXfj&?b2=4~b)`O7JrdF%D92hf2!Ki0@g!Ni95YD#E&(0QWT
z&Nr6azZvva1YpyvvBBxl<-AWUGib#E?~gg#tK%AgeDrsGCSJKLybjO4cXpuo6-_x%
zBsl{!9xJr-WFpPJnWC(%c@&MV#s>eclUM!UkzMfJv5NnF{7C$KTA*~;&~mz8XYzHr
z{k;S^=?2=AibPGKO@=|*<;@NJf0u4I8r&UOhNIF3@(~;95}1+d)c)OK4A{u(m@#S0
zi8h@MRf*Um!;-}VUP9RKWYEoNqwH|txC(+G%M1a3I=W4imVDvV^X}cbyqogoi0;sO
z?am+d(H77RXB+7bpBCNT#apgLfFpTndH=4stm8#?RLJ?8*7D_k;7f+)fXX$?epcY^
z-!ZwOD(K4^I4avCkJN(6q!~NQp4|R}DeuTQhq)byM0tiNQjnL2m*_^!kv}T3N4i03
z1EEfvhZQ9)>Q4khTZSnI>dhmf7-zqXSRfZ_4>5Q6R@Tv2=O-@mR*+B)mi83aVP;(=
z)4yx%a!ERBL2}Q5LvN|5qp?A64yQj8cSpV^CN$UQ*G`8waDRf%;Vi0$jjivLl-u|z
zK9dJkvFd*CAj_n~S~~;9k|gugJd~u+Rsf`9_sd{F^j)wva-R9*2^7_?->4ex2Qh#I
z{*>#QIZasJbh!!2x#a9yZ~&ki&K(%SMcj5_?Y|5r$S>{x$WYUKppzP*hX9&t>y`Af
z(10wXTU4voVa<a>g&^a(gI{dVpYTJclGGJ$^oYGvu%*Vqj^B62&1pzhuKa8QpYTyE
zgn~mJDkC6;_XvVvu@1?^dc9E^mAuCdJU=H_-_MX3U{DhlhfAUIh-J?Z;Jk>FS!B6!
z&!kT~t4_OZ_ib&4f1|;tS&A<_T0U^%WglN7rt#mDtV;J^sgzxtb1qqEv;D1AsYMnu
zhomQrN7$Hd)BW9qp80Ap`=!mZdD!eVB#oNTSFS52Co5K1qlqJkkxXsHGDCd%xij^R
zfoxB$r>n-(_>i=Irydrjz8z#Z$hkq;UgWi7LR%onA9v(Sz}5RxM%P-|l5{n)p0s<5
zhZEh*dnorVLfY}Ch-o24eY|97^7e@aI8N%PJ?K0ou}#t{lMBz0r)Y^G(<0>Rfy@{<
zK)-)fD#1KKR$lEc;D`|igQ`bZo}+f>vx(<jGOsSXsFB#oYh!>?VV^$Iz51NPF;C($
zL7QDQTKV9e?;b@Az49K)t96hS{yRH9crz}?9*GPvCD)l?IK{jgoo-Ai`8jer7Ez7x
z!0361wcN7!Cy@!m;q+Hd&m3k48vtBVy2Ta5c>NuGe3P}D&W{~5U|sM|`}3euR+&jq
zWaPRU{|f%uN|6Mqd-rt)+A3Y|L)vGFIQaE%9kna^VxT|-aEX=X5U!MmWpdjZoQz!a
z=fUYkIk!yyBDd)DOkvuQDZBd#lws?U9QB9HLyL&JOi3NfDQe#{@6xMe1O;<4DJf`A
z)>2Qs=p^Jiro6gU+YCbZL|i5VC-xHgQV3r`)4NoObGIAskZ9^A{6-H;&@?iOYilZ{
z)f!I7zs3<`6-#r4UzT-RWZRGTtQUg^H`X||pC&U~v`mE2!~PArrxkW=%S-YzlOh?D
zKWsXkP|6FzxREli?f|HzN>(;B&DMp7sIk%H?UCsQ>SOe|^V7zV#7^f+eN_)cU0&^b
z0O^>#jki}K_O=N6@?2-QH@f;}rA;^}HQIW6F(IZ#RY;tR8KL5P5EP(Fb1)0W)iaaV
zoDlhM=qsng4#~fqU#)u22CqgK-}`d&*N{iPbu{etc7J=2Oc<JUcwM=OqwT^&?H+P%
znfGbRK|GgPUMGY~AOChY<N~5nfidJx^YsUE?_MycP|>WXLLV{MXQgI046hBtQpL<s
zF5?+Ot#&%+f7lO<Iz8VIh_7WmPB@?d&&D^=7H67FhM=cGQ@+^(Ke%-*C?%F&Y`ZW3
zRgsllRO`J~Zp#tQ1`<uG-}1G`goR1p3)kAKS0+@MopY%Sn^$}{M`#^?#pd9yki7pj
z%HqwAOX7<1w3;yt?{D@wne8=7-QD~9#JYErB;5%*U)n*J3BiwY={KC3`=4GP07oS<
zTe?#}u1hYqk2&NvcQh9GF*mI6$P@rSc$GiW#cEmpt5)z8@ElMJtvi2J3O|YEPvkPB
z(sH!j$LYdK_7kIU!Prw;bryO97f<TmE$JMtDPTy<3s~Bb!^lmwif~GrPo6BBW)Ac+
z+VcB7Hw<nt1)C_oneGd8o}6P{q{(i~urRkN$k`AZS+89&`KtTbTd&5k%^|VQ5g${W
z8*S>2fafL9aF6xQlA<k%J+%QaH?6O%`*HBqYxsqFWU?{ReMDkVvM1#msH<VY{rtdE
z3K?mw?NEbROO#I%+X35_!$oN{hyIdvxzh1L>!I$}q<&WZzRD?XqrO=6M%r&zSy9Z7
zqxT!PxC;K|h}>rc-*~KDBkgN~`e9o<&k4t(c9LjbDVkcxJ0*~3RIWgtDL=R6C;cZp
z73ap3AShs?CN~vSfQ7l2m<bGFm$QC^7|<mG$+<)JOYiZt&&)Aj$Ab<&`+KO2eWKbj
zA11OwI%3L(Xr3pVv`mnVSOB|P(ji%U!(3wiru5|>EDP%^{nq0n$p_@bmdUQbb8xj_
zu9RvatHLbK%^hg{$bN6&{p+(Bs<jKu-M9eM6Sv}Krwl?W_e&}1=o-P}`(@bTbstM|
z(^1k-?ll`TDk3rol75bhF;a~$7{zE`sOH>yqJw6Uw`|zt;wAv)_GMVC)zg+A$&#zH
ztrsR9OoDL@0F0g@Jco{1x;)ivPw0_xq(XRHE^esg7d>xY*l@Z96$Fkx=_n0Yl9R{W
zo|^k>Ll<xK6!GItXljiAB+rP?z8p|+K3PelMP!GJJ;O)vOH_@My=mn}zNCFs#oB;M
zx?pZtOgFH5k?keB$&Ey4W`F8;8gdJmEF==T_YMD~+dum}Ava<N<tvVkP<u2%wq|-v
zwZ_byn<C!7&E#(--M}7uIVL)GOY;`)w;$42<6hJFx3Y|_D-NHDQ~P1RP7ME_UY*Wa
zuQEl{lfBnKRSlZ${syEEP=?8pFPc8lYy1y-=_l}Mysi%WK8S>Y;OYnFv$&Kk?aZiX
zcbpdSv)H3zpnZ<NSZ914W^T_@qK1>SF16RnKT|qlfj}zza#J9jx|TVU5`7FB*U2<Q
zf(9zdz=4$+2(Dm=`;fLeX8Yz7(Z;p>YHsRO14o(f(AFO&O+%a($_j#eYVzw60o_MJ
zq`b@2FgL@Cr<{&?Gx$eHS#5Z3$M(^GF`3S^D^ls}nFYvdHs!4Vu-W>LL0h%B^Dk=m
zfqT1KMk26s09XD1k#BR%X-IT7ceke=2mqWHfHxjOg!|NFn@E38LY&C_L1vpjzCnZ7
zRCoI@L3E$p&D_P*K&~!pUG4Zgbki)uKepkB2!P5ZS;0vex#@$nRIMXJ6~EA<wT-4h
zZ8vj`XqnIb)_eZ*J>64tUz_TE*EZumLiGMXFZD8Z`JgkdH3OQPwt|`&ln*%>iH-R*
zkJ{0^wc-ayGFMUWXO2JdOYB~J@Hc1uFRR{`)#N6~o|*t5jQnHWP`vBPtAFZ_KCJ8x
z(01_%%k>B(oHZt89rQDL;80Z#T@~BSm9ZRO;yX+D<$tdR&*!I*|D<JK#ux$+!ZiO_
z26hzhFm~C+pE=g*9e4cqUNZzH6aW|Mb-euKUB=kqKGF@br!{eaFDtNZdwZ%YQUG7w
z`Z@_MzZLfjLk@qSH+H_pE#k1XY=_^~jHS2iV%kpDAtUIX(Oq?_B-Ns{8D`yw%&ye=
z8(s{y10+q!M46$es!R`F>l(M+su0x%0Cuj%O?hv5O5;cSgN2*CIz3O0_YIuEI1?E6
zDTCi+BrHgsd5~1M@V*+Ch<@VcJ|D8p*)JOy8SFK+Z=3dR@w!YyjoT+G-U1Iz4Nk%n
z!nRw7zB~H6&S%1X?5~BNK0q7mb9=u@rJ3lJy=GE_A3E%NB!Hx6YafvAIn>QV*3CKo
zlz&TwWaUpWTDChG@#VjoqD$-d6wTJC2W(uCzDM$y?}qe2%~_+#-91V+z{G@f#pYTD
zU}Bu+8iyyUME|jK&aDLg|4gD0p+kavZQIO??k0~{%`&bR2~XMi*<NE!$G^5f@GZd~
zZ-~a37>-bWPB5-$wA26<HtTk|U|GYp*6SJJEEf6iy`uM<A<(hUUbM;;jQJgOs5q@H
zsjayCbxGDb3SPADRqBF-UNd<8raNrj(z;{3+jQ9W;O=cus1rZ8_ksDbA}y)c_;QMx
zGoWm9uAjRG%PM(fchusoAC~dZAlA*FBxs^^{bH$N8S8vrVEG5~NpwWlLr*7a@C(Xp
zAwA9A9}i^-e85u2NbuuBP?aN7i*=PS;N+?3)^vT0xY#iXjN~58T*<?xxOw%hy}pa{
z+7qtH?cB=@F9f{KfMf3bxQL%XdRBkO#n4Q!_s3DMXRNhlH?Uv<f%}ORQH~pLxg??2
zd5~M0y41jnN=uR`Is3up{siOFT>J~xRRHF(%hioLIc$dR$`EUNyed*tadl7t-h+!-
z%vitpDfV4=r@fuFcLxtdh^Pi|8p3&}hHH5HNN3i~<ZI!ew2B*CoTjx8!ryr4)Us=9
z(B0@m0_s#4o1AR4v5>?E%-1s=F~34-Do=qu<`rM(dh&}X8YcTZA(TithZpV2hBL+K
z`%`9872;i5gR=7{h}C|MJ*h^1^D(*3|KFMYT9_>|{{gp!B+Gd2xHi{!R&gNL)QHe5
zf9~pHn^2ch&t4*S^8ZGa5gC4;|G0rpH6ruye{`0;{Cf@{y^)wq4ES~pR{Uhe*!GuE
z44K{9-w0DuZ@J|c&n)!n_Jx(UZypCP1dm&BM%pkfEc20C*`B-vBx_eUQ#5#8jT6ri
z|MBtBOvYuZB|@D4!!JmSBB`F|c;8VXT8TPF;ej3Pp8ob8_NiK4wn~A%xIVfg<hLyP
zTw%1x%=i4P6=RZ^D?YQIvP(IRp&Sg2<)xNoww$fB6`@30&f!%Ox%ZrHH-TedRK9I;
zMwN)I1ZUcgpZWfOgAS6>UaRZ}v{NPDLk$Ihk{pTsl`+@uq+zww<iqT6%xWUo@bf${
z!veJ4-w0RPGxQ7(dx0P8!F~Jced?eA>5i*I8)+m5|7R(}Je;^H3Vz$2PBvMDoh<CU
zwa9y-CC5nejsX@#04KM(fWxio6<OL!Z3!b5%EBZ@djtBJF_}Gx(Y;M6JJYW8CS}0j
z7_zmCJmu6q<n39zL1_AY7oWBzdl9k1SN)#!VZ0f`GAOqgoOxTPFe&)!=0S<+L_)G|
zqoWRjbtCU)Ucd}X&8?3uU-H8k_9cLz-6?!bbBnI#Lsw(XTdNG&quztJ!H3*jh|?1Z
z`Q=>itE>Wow0f4ru!$Sr3&Bk40H;?bM9yFQQrPZ4Zk!X{Zvi+fhK-Il9lX+Y1R^{_
zT<ibTsr_2C2bRhl5at^Gh_pLLbTjBiX!4x)UVOUTN-&U%oB`v;Uklq@9r&Vrbsbjm
zRghyM+#0OXVR`q1n70!=IZ7aal;!D2^mjMB4??@@Ph}6bP0V}f$U!$zY#rJQ^<~}c
zG6kmR_*c$qTq31ulIk66R0ud?q5oO29|-?@qE_*fKd!fwzdTy*`5WUm3e2X&RJXc=
zv0hfYGoa&xaV3)t;L++F>XtEJWzL4-BpFr+-m7VkF#c$Ko_{B1%dEv$JCB=PE2@<b
z%&PDHs^J|WNRGaS*GuBN6ztlV35LXB(yMbgFrK#Ff3Awn<ZT1dAHSwZ*%^L!Sv|YQ
z!1V5mSCIk=z8aG<8RTpB>4Ci27I7savK}{%=+f81Ebr*8Nkx|}T(J?>%70=VL4WgW
zsL{z*7i+D!)-vi1li-GDMHb6UWk2K@gsPKf{i&E`>?zHsqizZ;>91cHT?^j(mbhRE
zjIjLRbBb{~Wq^ZRR#UU4sf+G$ld@F63%yClZ>{r>EI6Nich}1>slMNLoVc2%8(bd{
z!)<<e|FT_*7YRLhyVG~yx=eoW$lg{7cYN8n@00hLhbJs#-!6m|&KX9P)*l=A^ifJN
zXJHPR7tYmgc`mqT_!a@oJvx&V@TK1BspG?kzny$vqC{|>#+XEAlp@W`r`1PAktDjQ
z>@1UwY5OkFBQ#LI8>pOfhfd0rsQu)9*qA`h;ji3(NmHJ{X=8R@eCw>@%zkaWR4c1O
z%y;5T8kR4+)pQH-Y_nayXf&SbB=X&0Zg=JJI+(|v38<x={7EmG>zM{6{%i>x4K)^3
zo@V=QN8yrXMvD2GT6Nx=_I5Ex$eG$_21>owaC4iapFI4QvnXcmvm4eeH#~NV@wsu_
zpYl1b&S4*)M16WYUpuompmK4JX!2cG)!~NYwA{O88DjI%Jb^2a?pFykw|0h;ldk?}
zYVeDonh~mipN{SOpUF=f4qpvRchVEDTR*|)L}@cV|0;Lhq8F;k%9@B`>AYQi)3=K6
z`~DZPl_-neABT*=hjUUDQ;}J_ar{R9fRE&>p;L5kOXCb@pVN)5$7j{-9|5aq0N*8K
zzkOLokB|9L&D>QgJ^S3c7}(R{4a2}BBGq1|+t#Md6LLvEhqQfv%Uf!Kh7NDtpY^<v
za#om%!0to=ADMc>b{X%wpKsAUOb*SbwuvyDt{bhQ<#!372LmR?ON=vD6Y(rrT1=NA
z>3S|A2hLt1<YYqWQH9+mU{eiA>h<lnI^Uxlu<XO-KZ2Ofh3?SyCCpZ*lr^P)z*+c~
zzFYJmIKxUa6*SA#EYC5yVPrCC#J2o8ea`^x!W7fqAS!u^{ld8?=ztMLXEMQip%{=h
zn71!)=4viM9lrx6Ij#};@>9wgw@}a`fue<03K)w|3X`-s1^*%W0av;>c@Z#i4sC&H
zvr$0um}c^+7cNO&={BU_ozuk9BhfQ!PW6ZJ^*W%JbL1xNunLYm6)mfH%Ws`%?|c&H
zuP#XZI@W)DhtTWxq&D(Kf3XeCRY~TIVFc?4v(4K`NOs`x5$nJesjo%v5)SToOS*2r
zW8Vpfo>_~$5uH=1!}br38E&xm+#|9=@b#xIb72}fP}6E9l-4SUL@v(1SdA3R&|)S5
z7mNC&a5dcV5CO@>)vr7xJ_EFSy>9&sbk~ySnByT#@^G60Au&px%6O3bi(C+y4yMf=
zbZ&r)kanN7s{hr=J%oHS>0=oOZNaq~kY);1uDuTqn6M}3%=V8G{x$jUL&KSH&rL=0
zeM#?<Ykx`1A0-GsIC3apu1}hXZILL4d$)5Y8s@mW*tX6-cepyf2kmCU^#saQF1$8_
z%G*6^UiYyuM1)hXykiC9+V*Ao1t;?n4Omui#nQeaegaXeH!5u=62C1Bd_%mP)Xl}V
zHyFC_Sp9JuY`^C{*G|!jOo`K(!3;XFC_ih^-XJo$+a3OX;p=Ua6a_<Sp6?HFZ{NrW
zx0Y=%mRT=vqHkH)`|6*8&pVX19QQzBB8`6rTtM=Rs#jTZd!OLI4AaA0P;Z-_{^3(+
zen3j(fI2-r<nc={lasb4Gz%DoKP`v+bce6{d0QHC6FQ|VY1s|T2UcWxiz(?RO=Mqy
z)zQNsV1jl({hSWxK53q`U9TDEr9kPj-s|0m@(U5)94~%kFI>BB_!jSy#y8t6ZvBw5
z|6K%Pt~wy!H2-~Zaw+^}rkA}13bWc9cYa>vJ>#28xGW5xfbn{sktX_hO-MTyA)zfC
zANsBK_1g5~`9Eq#vi`*8`h)QlzUy7w-FrMk&m{BYbB*5Zusb=}S4(LBhU+t@sjM$*
z>W+91h+4_OivyUQ)8Cn^me6b{a;EWlViRLU<cQ)&a&_LZKaBE`r;Aw!r7t7#O0Hvq
z4zswH6h3`SjHJ2^of4{EdC=R)-{Jt~Mdk@QY&~z3cuMJRfWrLcyD&7q)H_zT&ihh3
zU8#QDk@I;SMG~wHH)!Y_mvVhlwzJtul;(MGxd$t=oc4`U&`nvWHmN_g`a#O+lC#8=
z{KgR8p@}W;TJ|pdxTgo6_y=woOJzov$}j(vaWxzFlL{e2IBl2S+te4lD7iu5>{zaU
znBhDklvcg+J4NN;-__^4m>l<0-n}QdF%VPKRGl%!XYl-^Nya!-Tn(H&Mg}b-q_fG8
zD};xssx}}0##vTXt#T$o<;r^N=lr>;AK*>U%06M3hVpI2z^B>9_7>aoJ*aWdQRAga
zrI{~iQkmVN(n=zL)&tOPLuM5tNi9M>^J2snWj|{tO?=%>e0qaQK;Iq(SV*;-1;-h}
zg<gecixd1cJ8yG?7t314?olGPQiJ(&{Gc1IuG)KjJOeYl>OW*AKxh{WM1jVsa-tli
z^Z?$Rozj1V3APg$Ks;ID+(>sF5!r^1?@?sEuAbk{an+e5!`ZzLkoZ9)uk*3M1c}_z
z@>IZ~t6C+x(f!R6B0pL~aJKcx96sArZU(=I`|I;k&QaGM^~G;>3sm~21_uyLEej@i
z_2BQ4+ItIE6OS;14LB%GtTEKd@2-U7l$^rnw=ABG|MdDs#w-2ihc)hM{r5rt{v`_r
zukDAcsLXOD`l?ZxJFobv1u##%W?bJw3pgXIYIW~~Lct525@*Otc(}&{M-2Ke*|+oF
z3-}j!nA^4rrYR0{$&+)*Bc1<}bVbHw#c^B9Tuv~~(9}LQZ{d>#YL;(pDXwMOB+j&*
zJ{Ju8>v}&Gc8mVYqEXD&(>J-n3g}RlYm<y!+$o+_EHuwv4a)hr%|#GRNg<cADNcEA
zxkBjc0$wFTCHiA^<lw^<><f#HNyaa|B+={jAsHWgY3>}p=BuidfssNA3}|J8`<5<h
z{A}-4<wsW2S8X-Dt%C+z<le$~EjEI$CX>WU9YaEuzwM;#77DXen%gd*ww95D4U>$Y
z_WcM5r83LD^qn^~riG=c14!Nl@aHI#j2{^V)_MGpHn&byp@bf%&mJWxL<BICu$dSU
zRU#~h&8IkpTmP@ImV>)Q>k^XvvW!*j;8#VIBboQHINpTCU4kcCA)(ZTpwaeAez40;
z)2+QAAiC7|wHj9dq1j2_Vjs1x_0PMpVm5C5Tj~AI+2|_{o2wcoEVL{`uz`h?i!-Gx
z<73424grMf(6ub9bW09<&78#J#;Sc`?}M`L)r8;exKDdctk&%V845)4|3+b&L7N>3
zO8dU+I=9o=S*u19!MvOW_SXtqw?EBRWXj(1#xc%5Fnt}{!TkWEW`FALFTQkVjIRjW
zZLqW}@sga!t9$iDYUHvooRzt|@E0t3ya5Y1Q`I-1Y?C!Z$>nAL8WeV8G$7<Mjg^>v
zOTHx<U2e~D<kh8Safr19cOmAzN@U?Bw6>!|?|8t*?L@+YCBhBLn`BH!&tM>MHQ?V+
zebP~9w9)UBXktN}^c{s~$grf%e!a+b6X#jnXm1B(Uj5(JQ`AFlAJv@_u(=+kfxkb7
z&7Px=;p3|h%0_RRu*~A<8_)~Z>;)Yd52UM&4)+%5@U-G5zeIm*Cba`{EgrJ&jppS`
ztj>%Vrx|2`KNlC%ai*E-^1oPU%iJirxA+$FDtLfk(g(o|GAh%dCpyI@Ke_@dKkA`H
z-w++#D}6>ZLa{deD#Y<s%?E8nWB~VpJS!x#|JfH}Qwnr@JbTh>6r9OCp#d)Dp*PBB
z@*;It^s#K#)z}4Nqu(tGHAJqLQpj8G@7unO#7k3ZCwaH;wM}!sBYeK5veVqit$s+c
zwAJZw1IkELKdHQut0Uf7U-TIJ(b9N7FO20&nS!TGcRxt#>C<8e@kLMVwZ@QP#O5j(
zev#rzh|<}>_2nuu2XF868~d0WB0{srYYC`i>lQed&z12X#6kY;O6afb@lMQl^1rv`
zp2;lV4cL3b8O(i`Az4%YD-Zz!=6(CGksc$Ir@f-_ilc{2Q?4iag!?|%rbqdZM+;40
z{h+5QZ}C~#<DKs(>2xOKXk=eU3%O`5g^3x?%O_XBJ&}VW=UwtglTMmoM7r58<lGlc
zY1s9%Lcoi$ZAmB73v@cmS(0G8ECIS(EJ<Zj@ZyZ2<(?DHh)`dRnd|M<|7z~r9qm_)
z@2R<a@h=nz(ba~puyow`)mMKi)p90yH+&>(Xm!n?r)KlyyueeC=jumX8Sj=MHrChA
zyLj;@VExp6b(^|PnY9A5kn{ijnsryZSGmN{;z@k+PrDyL&BmQagIes%;4c%{e3-%N
zJU-06SPdI=BJ&%1c<~P>e=Mlu50pe!ZFjzkYGfG)`58s1?&`}*G3$#aw~U<lGVU!$
zg9m%vtedH{&8TwmCe-ykSA+kWUL{QPxh&=jn47?q%zb+O{4jzj5mq;-bu11QqU;|$
zmlvn#>BMo6xjB4PXE#^|4Nbn|I@Sz|oJR{>!~!KBx^_D4QfkV`><Ag^qTj}sR>xw0
zIHR&XN-3u8tJ7-+1ai(<zS)nzo{Y-Am=Z6Ns49a=*IgZ_|8~qydv72XJFz=owJ$fW
z|0j`>RQM+GqaG9TAScFk&A!Vgz)di5b>8plcGtLaBe~7cB)-(l_kUv$6X!<!bns+&
zEir+uXJ^ht0NcI)kf2jBlEt*063OrDH5&)3^$;Z8#^`vIFvKmqJT!NY0*1K%e**Eb
zZ=dX=2_+gCJfPXc|3()ISm~uKbq4+XM^aNrI(Co#H%SZTGkub&i15f(zsPeR0g0-0
z(sW&TZEI*vfkqGA=hn@uY|4w{mHzeN`yP{R3@KYso9|(gR#(yb2Icp`R!+K@3N15Z
zok^Y=TO{|XsX9xwfi^&8FcrM<L(I1dQjMv|*Hx7>DKsxBT8F-@(Q|d-wCtcmqk@9I
zGLPN)zyr@e1P~PcCJS73SaUcFy^vhF&X13x->NUlAkFAdCkGuVMBcIZs()Klc~gJi
z1hZf)TR;|=#B_OobPx5p2H}@BhKxgjg&o4noI&F1=bO^@Sk@F6)wT|`$OOd?0r>3Z
z-D6E_LJ<u4Q*~cxH5gGIG3^3H{Uosk4GW*ckLAv*%fU;LBAlzJ-C^N28AcLk-`n0^
z8ZiL}OUijBXs#Kv^vj>BABW9<7267xh?T*tpN1mbM|%&FMc;jYo3bQX2s{i&Ws30c
zYh+lrXYM>+Ju9DwS4%Yjk&h<w`>x-4Fo*UuDpC3@l6`D1VSr%|^e>uv2$uI7#+wwQ
z0uOQb+$y%7zbskSixeqj-Or=5Pjy2FYlqH^!BO|~e<-leJ=jj_4fji^xBrR>^+?WC
z4Y0W<2GR}~L~wf)!c3&SgX|ZhC!4K!4=7k>NY!C-OD5fjE1znbbA&?ML^vLTkY_O5
z?^Pj`X?~^n6N>P2n)O@DP6eQqik%kR)<M``nKW!2$kFq3sWrt7OfWthkSas}mMO4e
zm?Yb}=l%RC;bYO@2N!OLj`Z_L5O;Bsi>=~?cl#qkTr6`XAds3ish`0V&9CX7I>*X%
z_Rm?E;-_|Iu9m7cpg;AJPOs`Wu91?sdkidP;gJC&*|?4}8PCppH%T;+T|ZyH7)g#0
zbXxb>+?T}2*)npf45bBp3L9-_t@e`J0|&<M5t*!h{I0)k25!CzL}@NHZPtdnN>YW7
zl<5e6#N2fMfRI}|)X)fiTj$yDjLhkaK7lFYFP2N_tER7(_K?VfZA@8~$||&<+~hpT
z<M{E_3_2N~^|0Y<pP+>WSGR_T>o35)xc7|*JNiS2j5a&sp!dc>nD<>Z{%*3&k
zvu4<E!tasZEFcFf0xtLq3pm(A*JtADt;i2L$}Vqi%IPISik<x1_{81_%J+*+`>=fp
zcd73@zQ7%y-Zkh1B-Z%%vn*`_`qqpW8?z4nY^mk&9ku#*@QFbL<#h-p6CpRmT4gM3
z14@&kS-1BiuE>=NBGjtmKF3Hw()J@bDaqdvH?=~Yt(KqLS;*IQeayU;q7FlsV?}(|
zdxtJ_)F<T|<yW5DK9fTus~2?}Y~77jM`>BqtS_ZKm}hb%I`!V>7wW3rcC1dzbjfMI
zdwrIz#nAGHO$mj1X<hANzI6U;yjq{ADzv3Pu7ysPZ&p?IZJY!v68>`}i|nI!AG#u=
zX|YcOiWklTKIZtlE7+KcMu(B8(VTWK5RxKm7eC2`7D*(t&a7)GYvmgf0LP)$rim-7
zN&Ta4;4lwKHieKj=;WTx1MXk0TZtHmex7)$f*ZQ3Gecq-pGfRX2~RiF)?2Lzqx%UA
zV9uE~g*k5fZZBlv2kQPM$t{kwKc2rQ61)aHEMH4WAL6|1$Pw?@4A>*zlD<nES8oQ%
z^Yy46Lwh@yj!iHdy!W(EXh3pna1*iIvfu&16E*`FwsXX*s4q%r%@+O>`wB?sS#ytJ
z<`mx4M|ZtCD)#eq@bv`neH0EJ^J9!_<)?03giwBOMe)c>fdnosg*qI`V^zaU+P(8O
z&Sipey;+>{epTzZ+AN#i#LI9E64ob=krwZ55|@`u{qvx!xaYR;JMjihX?kVcpKjg6
z<P6UdpEbZ})F!mbf48BNygDH8D7BwlzG}eipTUqKrS=_miv^OmA3;pS4%1V|WCnMn
z#v{XpU#dIU8t{ZW`mIfYD1+%`&EL;o8#rD6CC8+KNezC#gaRtW4<l|DhYEr7<E2sx
zD<zeeb64+Uo>YjH@!E{pg{C(aaQ34AJot-U{j>5Lc78ft(fIyMTHSt(;h!?xQLm4Q
zf-$1du1ZB6()twXKF0mPb9GlAS_~2(kzI`K8R!Kc!&_dJP))@>zXfY-<?r;wd_;*@
z*h|S%wr2`;A69rwI4gLM7(W1~?EF~oiU#KLc)7}NRQ)%5&F9!k;RduRH^kkE*Ol|p
zo8+Wdh@V&Gz#_kG)g5h>O(yvqxVZkt77BdR^Yix~Hn!JfiiY@Vy&9J3+Mvs!W9pG4
zPHsFDGTfc%FA<ZG9ScgcZT-6H?N<N%a;5!K;kOPjrs0`28$rV5xn51>Zr29(s``~M
zM`8(6bd?$FvP4WBv$-H@vCgt;qYdPq?p_tFRe%W>*Q7|XElQHZlIO!!5yPu%Hl<==
zI#RT3ZOJPUpGZKhn;PsXDLcjhQ|a8YctKomx*S!%<z}8T@jQ(wdV8ZuDyKA&?dJVn
z;&OGoQPWZ|uSCnCe1M->c)HV+BHZ<Do_Ce+=wV`06u7!s;I-Sz)P8uV|N5|xEYY8A
zqc=<z2LB6Zn86qO{=emwz1XBT$5RaZNW39r@A)jb$GmqVvo7q$$tbjO%&?)l=-Uk3
zcE7cOq3hmrR!H)1Jl`c;;NI=}GGe;(za<f4Oqrd-aor`}Y6n55Z!RGCOc}Jkk5Q^k
zUh@)cn9h0au$B*wOgY@2LF+CI=<n!bz+S=Y>A=ap^i75+4olyv^Y_DW&i2)tNEd1m
zF#zJpuyq{l9Jh1`^=w193Ez@r%GoO46n=-UM%Vc<Yfbu_kMNZ7ZUzbcNewVeRgG1Z
z2eIVl;vA7yW{KdIrEJ$nb~9f|ch2zMPfx8otU^5Vzrb9j#lK$2XW|F<TOh(98{6Hh
z*J#<<q|iR4ySus-T5e;G2RW>K&JBbpCCLb({mVb}s_|L>8pf?BkEC2z>kgaS4ZqFY
z|1A>(`M#k%ff0AcrNmX^FcpINchk(F-&rZ+w$-)lK2RSwi#(vR+i<c$bG4kINNWcT
zL#>XNJM;Y{<)nfb{oZ!!1dp83E<b`|5(Bhz`K(9fHW@J)F#6)^0Q+icgp;279@<-Y
zJh$tw&9hz&F$6wIOPv=9>ipGplbql>l>qDNby7^Kw^PIqR}RBDC&eIQ?O4+{n+omp
zXDgQJh$upjyC6aIJ>9jv#52T|dUjD&x%!3LmAfd}YBL4xh9bEa=t=MNct3MJqJmUe
zG4@{)-pXM@=81g-dZASGO3gxe_a~qvUg&Wz70WkX6<sSA<FX$b_088vgMb)1&D*I7
z#S@J36NwfPPp&hm<8NkmwMZ$qJ8zv1jBvI(*Zg)5H0E_A<q8Lgd<$~uLwT!on0fVm
z`yd(iSF3yc_WDQE1wA0|A9xU*MA=aj_ZjUUi=OCOFK}*L7egCcdo0w_vXkG$R%f8G
z^y(R9BRK$8Sg3Wa$NF5qCO5SgwJh}5KBw<v-^{Hz|Ibnlo51xa%7o5x_K&TuW$JgF
zH>zo#&vm!+V4yp%T+-)ykX)W-93Fp`-R@O)!+WL$unX&{3R;?%j{2VGxRVt-agf|^
z0RX9#?8LHR9*KF`$Ic8oKUa|=0*K!FRBS(RO8PC<X&+QA8@G`#&n*i8rqq`H?hAw(
zvFb-JnXazY6Ne{esef&-&~#>Kmd%H&i{Tt0>Vi{RS=y&8`ISU|uPu!xe{qX9#J3wP
z&&M3ncWlcdnX9J$39>@;N|;;a*EZ@bH5aM_zzc-jn{STl3J7AjD>A>*r40HU=C+}t
zN^Tm=e562D^;__N+vI)$-oN+-cE3fos%)y+gtVYoer>dfhT(&U2H+Sh%(kzA|15>R
z_`x+>?${vcO{xQVSZ}|W5#|ZZ?a^DeNk)CVuok!yk!^n$6Ia9g&cx0F*)2IdSGCU^
zOkBTWmJ>IUvnWex#Xf5OGWvV%%7<sm*;lba9eQy1`zY6e69aRmmBTrP4*UGs9eOt~
zFFo3Xg4Z6R-i?VICdg8b0RW&HU20~joz#~6QS)bxSW3XCW5fH+opYyC^6R|b$Zq3!
zHSFw5%oe&q0`}h&udV(*DyOt=UxW6M-`N89hJfo1(WQ!T23Ocu?8PmOdyIKp&+Fhg
z*Vo}(rh#VFz1D0ou#YBBANkQb6E@qON&-5_TFR@gu~<Xa!eXE$Io$69UA=A#KH9y(
zCU%j5n5@Wf74QtE_o~g@qs2FZ|CT>F7x+eDgDMgm+;YzUcP9;JyQt7~W@2@I#5w7I
z_mfFNXDGrxZ`b+9o7{oJA4vXvK$pwJFmIB}(Ytltpp<PYSaGiwkT%P^9A0>FoOXLe
zlq>|1`%&8O6`YPI<F^${U4IwXI)RcQYCYtoYek{rO#!KwNyO8&igO%;1>Rv9@q)yH
zgo142N;nN^w`ZnMd$DTI>d(+MZHE<HzSP+3ph!x74<tzNK9`92GxJJ@@i8nXvEUOw
zlqMvCZ7U<9SE*F~ZGA<d0b3O0o7rtuX|Jc3p2!T<EidRlBmV|LtVc!RwG=NyVau1Z
zXEz4u6%7A?$XKI6d$UYrggyP!(^yuybwdrc*`|%3#{b@;yKVH&LUL!L{~u3p9thPN
zwvT^WRSKn2){2NivJQr%5<)4-F0y6IHiI#vk}V<GvW>E2UnaXTCbDMV$1*1CSjLQP
zjNR{<_kF*=f1i2gIp@rrbDsOY?(4el;;VPnkkTf>PUEEBO?j}-f@juP>90`38X<+t
z@L6<iG1rEkH5^u&cM+B|Dbhkq$BQ}DHoN(^r8ZF~?G42#Pi%B<ORiDcGV4wW<Z^9T
z%$mFi7P!`wza6h`_pX&?==5bbv=nS_GT6Qfvdi(o%##+<vTco0t#k@%EJvuog9Yvt
zKV{sUB*juwN=swX)*JBPX8tn~{1T@3Y3V`|L_1FRO$h<kMV?<)zeUkap1U&WIIs~&
ze>)7Kxs&GmLKl0&bnE2<wzM}}6Nhguy4YK6MZZXkSAFG_@s-<}anI{_wsHUSUloK6
zlep;_z4O?MMy}TkPWH!Fyg68_FNfJl`lk_6w)LKz_vvg?TWB-!7cmAmzV^zh$Y*Hi
zwb-uc$8H8iCK|uS!3)v|w|f$}cN+ZLIY+h>-Y;(Kfl4@eprr9#kwvbTk73t{PsoFk
zx)b#P&fTe-*{21XT~4Yxqb(RQbZIkN)-|UV1&B^=Z>xAHKiv#Oq*$MfIP!n+tYhje
z*8aK66Jk4s>mL@~tVTu1TY@eJ7;I2L+g`mb^!?#$>NRG6It?B0v!Tw&;wCU`>`H~)
z4B#Gp!qUF-w}ThPBalD;&mCWUWaXUNx9`1BlAUz2Ij9K)$O@QJhbnG89Xz^L_|*8G
zMRGO3^QG=*D!iy1lf+8Te;WEdea2L7aLl&`+1<cVR_%JXb<}X7)n}Kd>PySm>ziG|
zq}6DT(t+99Lz!`PRn5JR4%~agYZl`>tV|9HiO3^bXMS=RKFe9}PB86!PEi240pl&{
zoz7xmJzWj1?mdWbD#Y0Xivl#2=ZT|6#!>(@^2nF@i-SpkT*Y(XQinY9iRkv%=gyXy
z-<y&~zgJ+a2YKWa%xa&LL!cY-jm_+jx4-rjNxaJSZq5;XeQreX_`B?)rP|_oOZ*<z
zW(bcRTu|IO>G|#{x^1VH0!%!U(+e&P;jg=@V&4vb)b;5gY-|;5<?40z4CXG9^j+r+
z#`WhaT*i902Ne*^$YzlQc9H|0lMcyOZ>d&y)>&c-{41#275R*5>5Gx7{R@vSstqYM
zwz({l{?J|PB>oP39M+|xWVrJs!BY%gF?A6}9=u&X^&*3vqkzu231=_#hxbH1{-C3%
z6SHRo>+-Y)r>Zf85AM{~q#UukZ=pt@`=HfXF7L+sGp4s0U*K+WFFCLJr7!f?@_cP9
z-zSzVlGGQ4R$&jW7xZp+=K2KkjE<O@9$cj8;zIw;2+UxV3S5n1+x8m3+&pjrDLDdZ
z&$a%0wdzZu$1!ww`=gvdw7uBoGAL%>ub}WvPGjgJ<hBK&2_Hxj*(TlLh!+YST({Gi
zO)j^a2m}Z~C3w#Tkk-1i^coUh4TUAmvRH3!(B|z$uNpLS$C`~heAAp}Yb;O~UgX1<
z#*CbZi2G`(idirnbDgTF?-E#wjsCU-GC*irdZrLTp*&U{*xBsOtwbv=fo)ktL)+n1
z)-_1PO7fX|UfKIZ<~2fprDv87nyiXkd3Or0naAo;b37prG3>mHI1i>5F|xO3A1?oQ
z@n&7;9hNnK5qIpVJOs;>z%F!(wg0EuTxG@hvGT7<xCx&?YPJ_GkevsHp?V)LKH}3Z
zHl(fu?rqQlNaQ&$T{VUD^nCfv<vUV1iQ4h2J9m&BS4zQ0^+BDv$pPQ;5cw8RR#|P=
ztx#b2vu?|AN$FJc`P%F2cTldQ)SRkj&QSuAnQCPpYQY6aX^#PNtK<w?736{dFODF#
z=dgC#FZ&C?)p-)96qxn7X!(Hegyag1Wy59hQD2V=A!Tr<Op(AJGG(pvYf$p+&Xx8B
z1Z^Ee#SsA@QuZbMOMHUGkk?k?auu!DR_juaV|}Ghd=4M(&R9D`i2pugk=!%09Va)W
zl*C*bl2b06B7!w6e9)1a48z-TEPEwiKHB7RC-r#5U3<4~Y3Icwz?cxN_Fq&&^fRp}
zh7I>uf%bLrp6gYegex#|S8{K%xo#*%5Nfn#Hr8!%VGxm3fJ!|wO4;K75dTac8&FHe
zY;iv0mWK6=wTJE{)kT==YA)G^CyS`eN9`$5)=X$yyRpv}uKGYSapS;~$K&w(%qN$y
zk5cE`sH&%78}3?;IEdZ$ePKP0^~hpJ^AZJ8FIfCj{4*=3b}b=X-<{&H)w><}u0tL=
z<8bbVsO03Yg`w+i-)~CoZ$wr)rc1XZQ`=ZbaPCiP6)KjGH5D`<MZ<Gw|IWIB=AI94
zPu;yeuP#s=Or1L-K~Wa+@11wKJ9w|y3$@<>?6(xQ-+cg`4}_f>q`s@(K+sCT!vp0*
z{tn~|o>t(Xm6I0#(l@S@h=~C3@e(icZk@!~+#^T*6*SA}u%fkNC4dw8($m>*5DeDg
zUlz~2q<N07?KOeHXy#zJ5DP?OFF8Iz_~S-}6W0cNKninhonSFPj=slVj+v7+2e)Uc
z#%Uur%r94{e79szP`X!G(FX;ks1RiD3<-R|&69%ah<VVL*1}Wl?&_n|DF(G(G{oCR
zb}SCPrrh1N+^ubw!ADP)BXq-@8M+j6yznaxAxpZ;6)YlRlqEBM4m?%tMHbN*7B_(}
zsUJgBlsyMq6K`-0ha#6!=IM?<uNfapUUbF_MuuGMsG;%YXhXxcdy0mcKmbpfVjWtq
z)NFGr9ij3t%z0=B00G6UMJF4i6gPHHjOt}%tuh~4=JGtT>6N<oN;q3KB`ChHM(Mi4
zi$l+`JdAP~-_6(hAB<6x1n17&Qc^tE1_%1sv@hp&lr<F77U<k5MrCZRI8@X~Dn(sc
zFB5jAv!e;K`C5q1HY3+Tq<Z_q_}iD189S>R(co@JtQF?0Cf?36OpuAONU)74ZvLB~
z!n0#NUY0e{ffbVjU9hg`$7;ns488gsluW^Y?7LR@nV5+(`Z21xMaW--dPz(LI#W79
z-Nu0OsH!<}?!|u(KBGmXGDxBh2(VXm_9Ve=oKAbd%6ZUcngiN{h{BRw{|@ZE#l8ga
z706M9a#piP6AVYzFmlb=m!*B0PWz)B!(F6lEZg*cE2Vt<)Xz7?Rx+~z@!58I@h^&b
zRJY%y2+o@QQMA?=Fm8J9yeEXHF8yE@>v8_rS}1BdR)gPqroM?w@@W@ZVyWIGzfLi`
z2+k{g!kTU`05p5v)uoQOs^AM&V+jb?G7-DiO9IME<*3Q|UaG5RnPNUX3zeGYMU4t1
zQv&y9uP+SuWnQ4D^^es^^3={mL^Z#}>}^h7UjWFclwd;f%y0Ieq;rw3EhOM;V&?h{
zFg^C>n6&Tzz91_2Y3fH<#)o@V6@EZ%Fa_-Vdn#-&@m@m?G5SP-(aPBu`JnT={!R~V
z%2IFX=G`+vvtf%UtSu8FVy+QA$9MH=hu^UWLm4zBXH-YV#$+=lV5!rL^e$yPD%jnc
ze#7sTz02Mw>o9@lQ?L&AF3zh@UyI3x=6Oe~Gyq=_fo8T1H6xl9L-+Igeh;ttX|D3J
z(MW5SRFNN!0_L;)XO|#(I#bc>5ctPyReub>2wQh`m$66Mj#(3-*H&Rj-9Yx*59VgI
zzzU}tUbzzNdl3-A+aTVSqx3=vi}zMsOUF{8Akxnx&z1x+13RqWvCrW?qOJa%YPtm9
z>IaZ?Jtyq=z|74jlm?&FrZKVX99O=7#vlzG&ylb=WNnSoaQFV3@MGtfT!$mLOVLGO
z^p#)*f1?X`;t7+fe4UORUP4gOcf)wV2YxoRAFWCL*K3gTmuutKXalAUv7$NXN9nH}
z*OERl|BWa15(K#_yrEdL`4OY!hLft;%;1kA8a^39A57~|yZ~Z6LM+{2m&jGq*D7Zb
zW6r%;v-x`1?4wfl6P&`*aOY1*-+F5j!DM}svkXDM@UEzWkCu}7(U58bK!P~ty1?fD
z9K?F+#h9!IQPPPswUp8*QZ1aXc|Xy_yQ>1KN-C>RW-k1qW>ZKbR5tV=$$K(~?3671
zn>SS%zkXB2VIWNJywcpQi=~gxrZx}}CK67I0R=uQC#~fNLQ)?)9V8#J>8hI>Z%tj%
zTr~GfBS6}2iFXh_76h`K!dPM?1$fQ<>IpYE+iqQS%ML8)2pV7Z9d<^(Rjiqj5*dzv
z;HVL`z1-A$l{Jy!1EaFI`lvE%ww)(k6W87}oGh8-Y?nV8=8T`IV_Gf3t)h+jc6sb5
zA&%5XZw@od{*aoP4^Yu$D`MzFkIN2pf0hC+0T9UZ@2YerewJ7yO1=K(ApEN1O9wO2
z1ThWDukBWuVshg@^FlAWqPA;WsB<T0&zjbL;%&y!jm+idjgDi<R9A=2X!Wi(41ylm
z6O^Cy=iA>*uJRlj@2*PoXPr1dr(A7#0%P~bUV+s8y+q_9s1i5ozHjRNW>{FxC4aHh
zx`gTO=v(6YDaBytwK5Attk<o}6i^rNwxn(5m1t~#RMy_vMMm3Ca>1$w8@3sBv?)Rd
zFI&IiJM;a@t>G8!iw;bnr)F5b46%y5?BD#k(XzU{@h03l$@>c+Do}W=MUdFzlSX%0
zja6;Oiexb=H+;=on_bj=zbnqz)+<ohDu_Ru6msQvng|J;ANq^7@-^+aJ)nB)5``8e
zt|?nc)K7MbsO!1Y(rRMY_z4qDaxl2-MmR<)3%iZ{Vz;>T8#cHjxh5VwbThszuE&P<
zoztiL#u7UID`2?#&TM}(FG{vzncaT(lG}Txce1_ZRSKZQ8Wwi_qyH7hhP`ER(-kd1
zYjwwcW*sF!(}!+m5pbtSrxUrZVBS)Ea_V?N&ek<e|7%k~`<OpM%GMreEQ>d!Ejd&S
zuSp|t?yO2DQ$@!e^uHQGM?gUWsu~7PBvbc}jP0Ld1aw3BArDPf3W452Iu)5p_;Q5_
z-{4=htfFC6Uw9n*pYxcVQTWx*llx}kRrjH-T-lra_u+?+`ddIEhH<>XR`N5Du=cYr
z7iMv>Dm6!#z`%^c37$kf1MlzMTtP2OmWFjZ)YrRso0H8W)G;Pc%=a%TWDO0D_iSeP
z&nP@RVICo<o$^}9h*PE<N^sl=-|hrGeQpza+T3o#p6Pz8_rrxc$l1W|Z7b+fERHMr
zK-iidZs~a%ggln-YtPsi*TT=fcXsCu*a7IX<+JF+DFMpO3V$N<n##t7o2Blp_-=Vb
zk3Htt+j@7Xh&*0ok}4F!j_R}ue}XedH9bsyb8ft#0kd}^u1y#TM!RdkXlHKY$}PXF
zUCVZl#+Gf^UUK6H@6Ua0T?BjMrQCok(p0Yk%^C{0GeHB#YT;*Hv<43i(DTwRzK?us
z@I>F@jG+@+?}z|h2o+M$moXB+3`V8E+)p@}NzJ(%&+rtJBMYFpI$q;5;G(12GOAOi
zNwFW~286UgbA~lU!}K<s3+sdHNebcR4>Srhd0>^=Wt4vwBq?Uw^>4mN%QchHw41g8
zsiuHFW$gx>v(?X=Kk;l*F>F-8GzS9kyb#n(=5o)d!N}grAAYg|exXyLf17XDE%KFL
z5s%6Qq>|92)RLEiupxY-3);Hjt>azZq<h0Oz7GE`*8~1S|2(3>h7CxjeVPJRn8iEK
zJ#1U@T`ts)RA{hQGsz)Eg!%Pjk%(*T^T!O#F0>y>yWr%4HImO(jv8WNG(75=LO-F@
zCssr)C`HfPt?$M`{Vh!nbX%v;mK32aS0NwanPEAyf3NZ=0Q)=n86U0UuU2!;A(Diu
z%IwydnO=_f80W`u)QQ<Y)`uH?-rl+Q>6$6XVRf;nE&M^5ulVYDY!1t(mg;#4T^4vP
zP`T@USM^4=nc-`Sdp_Ur^*XncQ9JcARF4h#1XH(X0?i&Nek_i<88RmJYrJp^>{~Q2
z*l{j0?P@({_HUqU2RlEIzK?nIj3?ffcb-n<N|g*-vp0n$xwh`9#0b<B3&wiA6wK;D
zLh1+iC5C(twmR9_sEi-G->u<OP=S!p#P!T_-P~=)D~6J4h)_@;*5G4_gqy@I{bt3<
z+~@KlpEoVH7l_;t1kU7v_l$82?%DRV;=dm}{kH&_%Cu&@Ah1I@|B6{7x`^Hq814pg
z<-8%R!H3T9QzXUxcdhzowMXrY!M0K5gERRguDlXTKXl}bUj8MBDGbmq&1o-A<{I%E
z2%@c06*rVa*Po+dNjt0EYl@h3`v$HRwG*G&*-A=vuhH6?FRSdmu0~xW<nysUjr_QC
zj#!GIod$*JX@L3{v(Dh3WnHmfwlC=1YvbJxb*8AS*GM?c@tu`p6K+tk^t7m=`xb=K
z!JB=tUZO$sp5q7M2ah2cPzH%AD}|~DH?~T#L-z?^jjA919L~qu^j@Q<OGh^~MaT1B
zML`a2aOTU?Ct^`e2JURA1-@{7oRNB?L_h1Nrk#ff7O4HA?o9wNM$dL|UrbT^Zh9yL
zag$-Z-a!-GqV49uKRW2x4HgT{9R9hP(S4t<IKK8dFjd&^SK_wuE(x;f$PFRdzq^0B
zryLb9eQGspyyr$=lI(M*T1iakmu1bzP%%tb&CuxPNr1t<#YB-EYJ^*Ir#cFD1MHvH
z?l!C|2ADJ_fcfX*w^)KcYRz&_74n6*xkx)Id?S&I*nyT5Q@PC2tddKw^lSm0O>K%x
z<Q=mCCvlElF6h^zW?Pr=z)>nAf5H+apaech@D&$2^wD=^62+4SUvEM+bFkpMp1R&J
znzhuQfks9oT(W>X%dwg6Qv9dD+_9U3MFqm7<v^|(Z&Lvb8vft7TH^4>@Z(2H$jvqt
z#5J%+p!lJa8*FFU(*)e`a3RJw)x~#H%mSl?!TQ4CV$K!QThs~|fbMp|j+igM2Ay=d
zk#UlHwa`P`1?oR|s2L1f28+R^PCd_%ul8!GFB9JA0BN_kWAF8#yE|M~(*XiTZ*Fgu
zuqjlM$ad>{SclW^`5&&U<-Tw=hpsTk!4E<XCcb}@em}c|JJu!@)0wy{12ZgQ%U<m8
z)wt5t616DoGqb#&zny<1VsH#m8&bX(gAA?x;M4v?kpH}@Ln^~>kqWhVP5Xk9VvGBL
zDhH&1=h%gYazyPJ2Aa!>Tc*CY;lFtWFN3tfK3#xxdD6D(lQkwuC&oG02T}H^4XmTo
zE&eftIYlA^8iJD+n;F(E{OO2WLeqM1WI(Hw9wO|X@$d@%+4#gf4Umzx&|q?L-mL9p
z!|7pD*w9aDIg#=zG6F{PG2-N|JPPAiHk4=YOmA~RbTKB!*B*35=lYt5FT}fz5?w&}
zIzNCTA45ED-MK3@XB5;Z_+c=j4Zj2>B_X=FCMsN4b@R@aymY{sE#_w7ib>>FKsM{o
z)QZKvcYnq4qA10?lTBALCw#VRWKLll$xG2P<~`}x-yQVdPH%mjO2n=a51$4;(oViv
zMUUfow_$gAp_Uh=9I?;L3Rvb3fyU8C`(8%7y)pCxS?Vs6$z~}0WSivz|FXnSa#ycP
zPCU`J3*hP^u;|K9o{eX_zYb1~sSrG0%s?&xhSv|^gvibvohGZce-!!3Va@Rrx#vBI
z37O;R#HWK;Dg11r!{M?=Ok{XqFRuRV%k20Y$FzQF2(ud_`-iP8NWZE``h(aNUkw-D
z$0h<_>|v7Fr3#99N)jgN?VU+t_k2p+^FKwmP^p}w$)v8!)BRPKvF;wcyGNrlS{%hh
ztPOOkI7bJos{ZHJ0UcsR@AN48%CyZc7Q_>0chPlIs-n4J28}Ln2d2a`ah=&+VeFlf
z`_WSA&Hnl^(NVMeE0$BJ*WH@g{GVrSXSohqzqNv|)Svy9o@@}kcXa3{S|l+t#bQ^)
z+BWha<AjFg_wDPoHkoj#5eKfWx8+Q>@ye!NKlSYN(x)x`X<0h)-EgQ669jt^dGHYv
z_I8*9a@sm?13v0gzSZdefjjvR6SSVnecZ9K)_v-TWDi|jC$$$m+-?5#1cS=LXVY-E
zf2FbRdi`xI9Z9dNtJQ2mR5ZWtxWgvh1^#YXywLO8ntsjOH*iKD1O@789KnvmUZOEp
z(TxDO3drMWASjk-v?}`^8H`P8HHM3)CV!T$tXBJMW{-YP8jGr23*NXe{gXDi+S;lB
zre`>w3rRggNa@Ti+#a(x6N@MMUve^(w}164KS3-&F41RbO~@3K7#ODuT{x@*MirNR
zpWVq>l9nqV)cU#K>HN2FTom@R)=Qbf2}IT;S;-vv7(Lyl`L&%GQSN-1u)tt3D&Nn<
zJG8BH_)X-`F5tle3QE~4B7F!{(~QX1NGKqF!nTm-mB5BF*+UIRyPSnKG4snA#w*G_
zXA&h~j(86R_ty@UWe0n>3O;fKs!$YqoO>%SSQqfJoA5}KK;x{>xdx|%bxSS6?#3Ne
ze=DAYjV<IQ?9+tzv>+|Arj~<8)e!4Wa2+_(CBz(BZ;aJ=ZtFYT7+ae;!AM{($`?G=
zm{aniu0sR4%}}CABT=c`m$3S(JfC2C-I^ua&gA9SU0Fp{bKuf$$lb_>;SMQ#nT%>|
zXR|wD;eM!88+hEdZbOQk5x+L1XAQ(mFml>uY_HQPa#ZRNwq5_Fz+(%K9%)@y+oFd(
zFT0JK?n}MP+<k$MOg2cBMo1rXwbjGy#FU)6_s!cji0F8gKDi1hk$<*syOBF*H6sK+
zLh$T4NXN_;+Qf7v;1a&dmlzs!-3%dSD_%S8suYwRPlVx^=nyt~SF+jZ-%6MehrL2i
z8@YX4nYj;$dVIcrTmC&x_I~xCCE!E9;M)Zt!o<!wSeSoB89CE#qCw8i;7zlUO|gJL
z#40*f!J6e{T9L6QesDC|AfJ5QZh(i!TB$$j1Vs%d=$z?M?J!25m57~z(}a40x;J^)
zwcC*ewRD3W$r%LgF&OosdA6orDZD3u7~OtXe;H{xii-}w!k?>(Yav-QEheEnJGHk!
zp+rdoP79%$<mkf#|C27%NkMAoZTK@MM`PjrRO5A%hm+6yE^AId+hOwSAXtRPkW&8k
z%=fL|mzH?j0X2vXY`vSml58EG;y)6*7brYC<)ainDx+#cS08seTu&i_4@cN4^}uzE
zze1%t(poB}lO19pL|rQ_$HCj+Dsa)nt+vDmENV2XFJE6Be?3pJDL5I^RlV3w-OaQr
zG3QHMObs|z!y0U!vb^*Ek8>3qnVf9+)m4QEVnSCE)ZOdW8ZLwPI#>@IohT}03vn!b
z32u!~O8!-YNnJ066j;0P5m0Mp^?F>Cxv+Gkz(qzV+)X||A@U~_HB&-W3}a5t(3Z4!
zi1s-T-xa5Cts22o8dLE3X@T;k?CffGr#xpD5@U8u66G!3$dUst<7+1#ayVYI(}zjU
zEd|(GT!ioIFHsGAQ{3KK3wv+D`&2UjZ;5_aqZ0du^y2}z^lg0;QkmbN*$;`Ow=w<o
zunIu6&Yt>%CsQvEVk?nuG3|Gt5$78DYb1NF$LG+VFOKy~+X8AyQQg#yr<5-lO(*zX
zu7?f~1+T5W69J{Jhmq+YF`V?+uf*)yf5Ux@ntq%xtZQi6E#@}NChfj)G+9@@8Ynli
zok52qAOd4xc&{6jvRHo|Q9XC=1ZyAF3oXBawevp3R2B(ey_MSq-;OJB4cE$HZhQO4
z^_^Y+B<)`>AbAR|k;k$@1<+Gzh*wZ9q{~h*l1YuyXJ>0v;W(r2znXZ)m>UA59Uy=6
zc@<C(ZAEVJ>Yph3`w}G5AVOzkHva56QWp{4^#uUYvGH@ifvAnKqu^L?d~97e4F8m8
zB8pM9B&V`TSW6}CueCLHaywex2pdE&?CqAEA;kyQ)RftU;|4id81v&F%{g~0M-UpN
z3V+G@6HbLLPhz>P7e9n=vR*~;A}o%B2sopvTJ4irDa)xq7G)f{Db6T=72+5Y>Mf#S
zmdSQwuO;Bo*=2FM_=CNtK(wXl;T6zNZKtK^z6q`5=^cDHNFaL*zLhhSe}sA3|BshG
zMQFKjYd;#WF;wi%*n!!DiTCFjhZuJz2?Ng(Uhr@IzuD5{LDrMMe;m8(=v67tOJP6=
zrsm|4OcA@5t?&f)&CuDHWkds>%vH2Tktiy$^1ur>I=$b^$al^0N!@B(RK~U~<`Y6a
z9o$w_-piMh>qgT+Gqy=DG;zkumU0zWk>FSzy7gz>g`>0Q2uKFuJ}G(qo{;AEwU=u&
zyB*Qu@NOndLS0q73Ddk2AN9qqt=VZm!utOX=n?DdmZrkSo81MkGqon!<u`4tg$?<@
z;)klVh_PNR9F{tt^qLe|vNiymr+P*XCwbtG85%n)r%=?|BXAQslI5SIP>x*_@|q)F
zL5K)8_c+-0wo9lUnrT*UrBIbMFW?ksBO7Z0P2$FBLxJ;rNk>MhDHEO1&wH-sHH?1n
zSIdW>Qb!EmA%TavHRCN=^Sp_BWI(msGW?dr$3`#ayGnY@=WDKPQ@Pc2``*ru%a^fj
z0Dvg{NfCMFG)HVr3Cgj#rE|uFQD6>B!byK>{_!F!|0KRjDd(Afn}<os<kv_fY=I?s
zgm+--NnTpjz<TXtUhNsW%gdF2?~z-YYYP3j?Na4pxC)2{HMH0DvN9lLGMIxF8&?<4
zoIH_Cb{jET0r*Gsgj@D};`9v+G-%b$UxHeZy=Ra`9Mt>S{G*9rRyoEQopt@9(Mu`d
z%Y>xe#z)RP>65*jERZjg5QMsyV*Od0JQcWC3nFfX{y3tJulScge~>v<=5Iu6igo<%
zM3YH6vyw{98_GLDbaQ~j(<gywZ<Uq+1)bmTiF%=j5xSn0J|vn?s~eE*foNyf1Y?B1
z6hAuUM_8*KS7;+M;Q_S2d{17IBO9~_dT|ydKUeWMbsw5UCRLA1wbk4_RV?$za47MF
z9TD6VuHfn4FL1nf*lSGsF(e|>Id#x!KNM6jz4r?UW5F7&nYyqdxOxxdJr`i2&u>)}
zYFeR_AB7uKlH>jDQp{8^7W*kt>+tb+I<`V*AGho(r;w5~Ue8A>pZ$Dry#4BZ+8K}~
zjSE%2LkC~C4ZjHMNB=zn2+oj?)3`%Pome>xmX&NtTQt!+1FEkuJLdFydeq!2O~EN8
zMmEE5-}}fc$0x?|*ObnCZOMrCu>%jBrY;jh8bAOG&hG`f7-8=EVi})ij$T!7tAjg)
z4#bgMBJ@#yXfU)mvQmt+2+I5j*Sk%qPXAA`uNWn;maP7iBnLK_uQe9wtuy;ji7wj8
zt2m}i!%1(YY<v_=-Cx?65QQb0`G|8jZaWNV3K_ly;6{XtfVuWx=j;{v-J{OGoXJrj
zte}8Fw3WtWQQD@GG@}pQH=tDDw+;8)Sx)Tiy%>%}C%s$!tD!qzU%t;rR8elC)@y{<
z{U$>r$;KnHMKGlHBB^KTk7F9yz*B;o`_DRcbl1t3El!VlF!Ts9H(&nc87b_`opRt3
zK1IU#Ap3Q^#rk3{Cn=o52PPHBE7v8HG*Z+l<^o>NI(x2FdF>wB`lqVKUug`i?Sh9i
zh|h!b+Y;|uoG>&QCWrP{>47wBeLFj8d3>YWOHQ?i_}yo^qXNZ*Zt51(%^lBW)E*%|
zq^wQtx&R3n?L1E9jal?a2KAJ!z_jo7hHLoM1q}f&wlSLZPWA<*m~szXOY_G);j?>N
z9y*`>vnceZi@w@;WY$M0RC*D;gRh;zhx=zu&RjKqs`F&x`aM_fzuyW*6Z%Cyt*vpe
z!|1CVpZPx8z5m3$E}lLJ?=~R-tc2EIqkNyUv*!*SUF2y2`aUm$dzxy_pLSv9HwEa(
z&7&I^AD^%NAC}V0RZksn>WRkn`;dqX+%C3j9jId%>#H1#CdZAUKPS47&z@TP!xInm
zvmVR7Vo7sWK;~UXcGjI3=nQN<JzVkzrDwwi@rA~I;=?vzvW=!{O`-Xt_#F-Aun#nL
zsRME<cKm*MA^%|ZTKxYg=$Lb1`9@DXoVIIk<=IXAE=PS0GbFp@9+J(p`%yyF*{T2A
zyOwKV{0cI?Fi>>?tJBIpnXUp0s5PeZWJIQ;90F&)B!Mrag<UXg-!OIgKHQJU5-yk@
zlq@J_!6Lk<Ke_E1aF37lmUg8NrkV6}Ki=y-)pnJ=sI!Cc?^Z1K61&dZ)*PZZ=mM;L
z^H#7jP7w}%F3cPA6iobJd!l*~^UyK>2CC>L5n{+=-|*?r>88@Z_sVyMc3f^4<9Erf
z2RjGUwTv+8{rF3lJ)FLged;yNzrKCs7SztGP@q)hr3`H?I8uD&<o4)EER@hy-!F?_
zgA)>&00h1(!_PZlmk0Uk4FeG7{J92(cm6cKFi*Q$aw)R)O~ta?E?@Zqr3$u&U^(Q*
zqpU5}K>aSe&N*5bO4S~sK9`{dm>zPsegp4D?co0mBIgMyIp(cZ#hQ*E_D_@}9LD*9
zkW~U&q^eB0Pm`H^l8y`D`AiAg_uDNZj2Qkas;KR|ed*EKGq-|@CY5G@cw5Lucnz8C
zCb63&A~hXxCYwbB?q)@p;e>k@E1KGt28+kId$Rx>Aa7%0Z{k(f0Bwy|NJbh$aCxf`
zbMUDE>3y({3G387Z%iY9?Wgn0mxo5>)k>OScVeJ=DlKLH=ClF3Z8%}O)^o{L0)DM3
z<ul)FoT20#>khKX9pANPQ4Jdsq6f9QU7+#hGZxA=l_(N>0n{x%_x{BHklO7sQN+1M
z{N8kyQS?;;b;~U4?ecfkua)O)EaLuA+E@`<u4#_&KKUzmN*@InLhw>a{;3A4Bw$&h
zqT1JtOGj$iQw3c%f9+x$4?gi_(t66UEI^<_y0iOwp*H_!7tHd2KCYzWQ(=k?rfyxF
z7Y|%SQ#zFxoAQM7&HHU-SWakWJMAr1s?B%Gympu8wj|{m!QY!8t}P%N0?Ee7hY>vn
z9v%RaL{;<n^$oxdy^jvGa`A~?Z&V}Af>x`tl8kIZftLS;qi0t3>IXqZuBxMJ%zDwB
z8if%lTlNTFk-DTmq9{L-J{vQ#+YT+CnBhOkBYP|*vk_YvLsktg7=?(JgXZn)?vc1W
zbm98lAFYQGPZ24I!T((e?&Yxa<&w`uv*>!#9SNjM4j+A4iX~bdjANGtMN+~ZTAS2W
zU5c}<>eplgoHA^lb{pZ_))&_V^vmk+@=_8Mn6(Mk%*?nE?Tbo(!j4YI4BhXnJ2HxD
zqb~HiU~S?qE?IO9Yk1mCimcVw*4lXCGnW-Ba;wJ4S42>eHG4_4Eq*-S#si<}eu;f}
zE$2@2=aDlJL$;tX-7wJ=65D2`@UuJF>|B|u7}tk}0H$)TlB7=&{$bPUFF$E+&|zW^
z)n#@Tnn!745Ob9K{vSfW`g}C<)CZYd>8M}Z*&2TQS%s|r#2QJ=rEkqcmy^n8t5VNQ
zGB#&!rwvVI5puLUOQG*APxk*Q9>g*UqZ+HeyXO(M^Xa->^ba*=BU_xINC1+-H+*+5
z@i3~}u^$#M`ITad<SUki`9Uc!Vv@djR<6VQM5<_vq~>4Ad|nMa=vZNd<5z8DQ}a01
z74UwR`vQV~I+Y+?PDZ5)NWes@-9z>4ap|4^Rpf#P6eQ$S^GFg$%Jad##zf_$<EUSy
zQHJ}|4f_to!9!E>_eH$k7I{p`hCZ&i;&?|=V7DSPuW7xs{^9w~gDY+q&i$SFr&W;W
zI$QOhUqLai?Q&`Td8~(c0IS1HcXy$VPYN?Lw*~WqmIa$d_f)E+MN9}ID!uX^K&BF%
zb>SzWpk++8K=aDd;l?=hCNo4#fEE;&2^&>%6kolXmuD<p<`79@hJ7X8#;-o}C47vs
z6;evU7}1V5s4#q!aDu+(J<Ynw0;gk&{W}S1$VHqzddZX%Xxve$)2~=2H!QKN#Kyd#
zD#MNh;I&6fsUk}r&<|)hLBIa5cIuY*P`$GJ`48yi)GPP>mse>}e;?qnez|Gf$Lh?c
z<(Tr5J6JzUi+vnfl8@33KeGRyZ}8{Fff!G=y#~}M-ybxnOkk(;x{KFu9UoWl<(e8x
zyttzm#+;5NfBAOiQ`;B$enRkT^#4@A5c{k34{2EqiP3nQX9p6FgUb#3HpNw_%TS8w
z_L{v4&-tBOZ0I{>KM~ulqj+n=T6_dC{V#$aYTm`&w}~Hw7t-anqAzXiW;Q+)FFoIp
z`nLTi@|f4WZZbhNoanrgszA^r_g#s38sY1fFrw;R*a`@!3|}#gS>RDIgX<f{dyE?Q
z11^}87(VMx^X(e+-@ugV+6JZby`jy?@9Y%?2(}hYw{d8##<+c&Na4LRe7iWT`7K$X
zu_o{Z3_Z&s6twc5?o`Xwc8)lgW5IlDH_g$Xv-R-Ia4Qaw1>K$m6GziP<##TpT}rqp
zOCMv>jY_Ro_R`?J>Gw)x0}DHEz2Pf%L1~%T9ollrc+#y)f-y>kFWmry3NF~iGcPWm
zt7q_F;WtUJB&h%LPBJ3P-tU?;f<XCqy~n(}W-5Bai`Kwoo^=WtH7Y*|mF+G&II3UP
z2>2-~OprzEt3mtO5L9aU)XV8p02El_r{V+&^=Dg*asODwf*;NlGxY_GanWrwSLf&7
z`(`nY?0)_9Ux0FW3e1GE>RUg~_>ve2`Sz=FOwY-KmN7T3)axh(G5n%X(dm`r)nrcU
z9aj>qVnkTl4ZM8h#8`mjJ+%wa#dhGLe<5g(T-%<w{Anudv4QLSJ?UYUgb=yF81Jb~
zxVEd(jSx}!^NYeC&pv`6gCb64eDE@zZRYSp{=;zfG2ZL?EPk+eU7`Dy@{yd#6TxmR
z^*XH1|5+BTDc!8teDBQoU$l2p;Tl%@&1GlD50i{BV5%_TmUa`Sm!|Yo`c)QeC4u>$
z@cWu~CYIigEdrFOB9%v`Rsck{nEmILCJjqBzgXWC!%3f*=JT&$9i?b9IYzJGS369;
z_$j+S0L(?Q-ulvrszQ$dWtzFN%WB-=0J)W(IJ$1qkS`w6<MA4midPvF@+e>n&He0k
zV<dQJ?GtjFMZ`A(gouzHFIq8LVvq;&%)XNxt1*Zi25U*jc<|}2+rYU{)8kubvTH7i
zJGf3Vr8ORF+c80%rYsXp_oCR~BZLxA(DdIBRg>zSf5xq|wG@aKTY<_=Q6pn($M=V`
z&aW+R$Mn0zd`}3w^@Q{|0paqTw3dq0dh*i)j8l83$Lo}@ct>39dTWH(FVPc?`$rcQ
zg^AbegiSpEGz>fVZVf8v?I4hi30n1!EQCCxCK=(rt5vCN+okHC2X74P=JS!s^HMu;
zaPg@Uy_2uc>GHkxgy?-3i+9sMfScngJO(UP7T>wifk5(~z<GXWj!&-#bM~6bRVufU
zrj#7W^-oKEvxvvqMTMXu^Ykrz;a#<`=&3BOaZ~%$%ZL}I3-9(y*e)fI$n0ELeU&ea
z84o8*oxjx3A?ySgH|ko94>Pluh~GN(%l?>iZL!<1GcDx~?()a0zSWub<K!*({ts9(
zd=@t@%zqwQw2l!rb3Ybk=d_wAqB+9egO_pj$nWV8WZ#JXG3IKpZ4JQilAx~Wv$d-&
z7-9KHWud}r{AXn*es<P4c%+EbhkJo6pm4ZDa4}zDW+~^1p0r#E%~dp+$sfU1`n;~A
zsuxR@1n$q4mdOIQSvt*_sQfEm-qBv8cB~u0!+_k_0)8}8q_QfX=^rIQfta)YKLmU_
zGJHwB+wdh9exJF|udSRGULEsVA2g0fg?Q-X`?JeO-XbVxg#|?j)7m;%#r8y)#dL|t
zmT$fm7dO;oE=<%qB{l0!Mw74YWlJ^9u7+^PwI1j;bq0_lJgKThy9_`S!&WI@`@F|n
z@T~ZU(%li@W-95&3(k3T=IkrV{pYtohJTPp8ICKD^iILS6}m`7hKvxC8aC#ng^=%S
z=$8OJVxMTrA9b~6CON6D!l{0X$S@Hz1>D}GHo-K4poEiempl@i)-_|yx#MCFPL3mj
zdKb>k4H|npwr@1Ftkwdp3-$*%3w7@{BbIL=*^mf>eOjE1zx#HDk9_IGjIZ4jq-f~X
z8xi3`IGak2huiJ+^7$Fx3jl|__OMVUEOSl&pH1gQu;cO9m=;-S?<;jDOBlZ$?Y!`4
z9F@^!>KbWY2p=xkKXZqrXWhh4y3uMB*B2eXXh6v}=Iz%0zCrI0H<tk0tM7(8?h`b3
z+V;Ep11L)AVcf{vqtvQ#bLOgKF)1F~!oaLYWX}g-)?n45<sCl)A0+Gfe0pz9KU&Fs
zuwhII=fl17%r-vZ&m}ubOa2kAAwU6F+EN!(X$Z;Gysm9;=sz2)#5W}My9a{l%W
zWI}M(S>WZ%ORsIujV>!4bY-TPGLsjuoOt0NXMJxs+vx#EH}K2z*Y$;@J|&$|vl5s^
zhiv`3T?^Q~9lI(o1W^wMlyY~)S1biJYmQ)<ECBx2z7RvF*<+2Dd0Oz#h&~~1qo9cM
zT5=z)pBGjt`JNc+`cnd6Lp{*HcDv9|T>g3!8n)1;kRNOLsFF#76QJcqEHsjyd8bG>
ztArnacvd>NK;#NN1^9yyYc>I9l62;b3~o<Yywb5t1au~~WK6o6ML#t5{$1#Y=JoSt
z_*$qafQk6)YbCEP{Ww$T;fy;?r>$Q0kDLd~0tEKi<(snOoU)HeHM{XdxqWn97=C~%
zcR@)9r5$dTN@Ge`>^!?(PAoe2BUs(3DlfS<TS_#QU#fNy62_!o_ymOt99A!D*DkG8
z5@jo6VmYv`mvy$`S~c+BYLRhONH#6K8Ni*8pk7XT;3(XxbOt&Ho_AWQCos`KykLC3
z;M5uT<E-);k%Nl;fkI=(XdWq;4`$gGoP>V|=+gZ#?O%Z0ApK$!`87CPg<j`&!8CmH
z8Z6~LvKY*+MGu{4o4W7oRT-8*vK!j}<9h^j$3hp88wpX_X(xHq?|HWc!H7yrH-qE-
zphbZ?PzdH(-?2A+!5eTqMNZ|LA5_vTI-iiO{pJ4Xc)Y#{z+y`Y;NduLHj?I(`hmbQ
z7W2xZews;OE^ib3Rb0|<`Q)+4$ruc2OnyT$U}-hvaZk;er!p76M}Ha*EB1LA*tOn(
zO2xDetpWV)SHENrO${1H+~}w&?&HB$(PSoWclHY&ekD5Fl&Ddw)m67o*VPV2#|N7Y
z5$}?I-3kxP-gaP`2>n53i4MuS>D|qi==CK}xqL~$fqxxJgeSh0)R=t#DIqaADzzhN
z=pL=@f0q~v<g>q@OljIl@Kly`PG!Esq^iO3s@a~WM&8JH@OQqf;B2ZSwnIt0ak{pz
zfm%m9-XC$?<I1r-Lk2JnuxzI)>6H0~N}gT}mlZw#Gv8FLy0~LJv~jUDL8nqbFaM-x
zcJ@P#Tg{7WEXeigjF&hxZ&RU+aHGmMu^}z?r8;|{kZ7KzPv3xLZONP-IIJXK?5zYE
zaYG>|mXpEUCSL1vstF%)v+&y*Qb6HC`m@+-1k+n_ZKs?KUZJ+0WF)>kK%48aS;Kp0
zuRDGDbi|~KRy`HHG7udQIki50Th6<5hWKBw8ZncCo<Qw{uBZXj4+{AtzH{eUMB;+5
z8{JV0zvoZ^!Gp?emLsDd`>pk8_kOll4!0+D4#fYIPIJA^`ky;@?wP)?oyq00M(x+j
zK_T=17!aCFk7Y-OXmH)oJ>Dj97oyExTxwa5=Q7w7^P@i<3fJ{pyiPMNZ4Zy=8nIX0
zMDjXOE1IziU*t?odEcn-oNBUjmI1{tE?D}$Z~gIR4)0GFQ}qY<qgIS~bO2${8m_4y
zf35T2KJ5fCe#_VuE7|8cm0Re0dDZ3J*rmTkVeGCBqmf|gNmT01LVeX&&_hQBJzr#2
zB3{~*d-x4Ld=}wiI$%(wYo#-1ajmeo<P>tR0z^QzhRsMeWLE2z&hAE(g3k-eAM!sB
z{cS}m#0Grw=><(l*R#RE-utLoClwOCy$kjkC9ER#jeM7B^J7^_%b|jui;~y^e>=lw
zGfaXAOIl)}jMz>h#>iBTX~IESsMMRNo;7DZcT+?>Q&#<W#~<+A?lPBnCYzFnHb@KL
zh(H4w%63KGluE2CRBJbUL^8IwZ)B}^)ZG&AHRkcRFk<I?t=HhCpNHmKx6ddQel=cq
zU|?ZKd-1V|U4a8rLLN*;f&XZc<gSvdnfm-q?`s$L)D}rI-EI{GJ>Ca<98&txyse%z
zqYJGQeBcGs_G8Kg6U#bL_Y-;fM)JU#$(zeyo7`beH!HQaw)|18DRaX&i_WBzK|IH3
zvJ=J+Ki@A+_-3xV6sNMld@eE-y<A>%v{3I=mvW%(hyeT+(K~%rwrLBZouuWlF!o_D
z-{A}V$nkE?MK@~gxFs`xPElkuxtue+KByO#c+iw@%oJJv$?;&7(;`3Z6cfs7o{cO(
zboqDo{=5UG)=QX8y0+_Iv-$4z^;c=kEcupmZe0%0>K2maZJn}t30zr*l|!HgDhp1f
z>1UPcR@}D>SsV0n+p)Ir|E0;#TWR$A2s%9~o`4qF8Sp6P-BGo3kaF}Lsye3RU>a-0
zD0t!!k1_OP4y&<wrUtZp=^2k=u*o0#{uu8Y6t?l9bJvG$a3MK>Cuz~an<LuXvmY0b
z(Byzw8qeu~uyDby)@o3;v_>|JNNZ()sSR*zIGNX!P!^i{4;q=(nyB_}3<p$sS!`t9
z^OT2zLA*OMgGW1d%uHReOXCS_@j`ciBeG!?{M3A9utC6l?toGoSN!WYbrWCDQ^=zC
z_BN!Jt+7i+#{HVPjpd|Y4}!Jzi}T)gH~+Sp39o$doUA_X0RA~8h$*nrb_QZ7>vJUW
zm3#CK=vABvOZi@0$71AzxH#D$Na5Fe#_5=IQ2ccZdh#g?*Wa`B=2LRElCN<&l?0gh
zks7%^D~rV?FbGRaWF7pt{Z(+$E`LqQoG|E8qzW76J6<F|knxn-ne^u+XpFUW+{xUZ
z@=M8sWG%#(G&DX;3;MsYdbVfQ2&av|?m55UBe?O|aR)HbIJzDgnZVZ2;%b!s18J2c
zZ^_uUKBn~d^O??<POuEY5vmD(sG;T%))0R`^PS`E=Xn9b<5TVbgdIm&W;*urM>O{C
zcom_liaBwIejqzlzAY5aFF**uH#P?Wl)`NHGg+}dT>)5Hi+To-dM*t}Ugkk+u1lcX
zksm$pkI7#0@n9Ozf#pqMT!|N4+oJ-{>yV^}xcw`Nwy*DZ!S~#UJCtL)6w@O)_HpjV
z!d&-CN2dpw^GRQ;NZhU1{f9Q&zsO`sRZJCK1?<{y4hL-W``9LwMtL;}Gs?#I);=%w
zL9NTiIW8r=!P+~T5VT#_f0wH$d_XiUoF4v%3+O#NbM-~nJ;3u(QAk5Hoq}cfj(p!&
z0yYmxO#ch^h-oxN(NIH{*yI=6@Z%|H9u35^>=6_+Cf7!cAXB7WeYJVazp}XFveGB;
zbvZJN)bRk<1ksDeWOyxeG#Am7OPmb2EX6S|GGoSBIn<DhN#~Oq#dDR<J^B@)BVu;<
zuPEPM%eF4hB1?gPB&xybI1gm#E+LxgQ`$6iVRX^g71Rov&z4-K2=66E`%Z^s-Jq#F
zn^;i-viG%+VF|3XLvrKqdi@k%&lj%R7-p!Vpn#L0oZB2%!?HKGn3R~39D)JDP99XN
zEUpvno7SCLQ;JWAd0O)v%rcQCxyn(ICB9n8r|{Mtmk_RUAFS@*ohN6SFi8-vn~OYY
zyx#4-fBjaf#(y4{W|*!AhJPzqCB6&hq!a>kj3p8n&BMZ9Uksb7YxTPp!m_x*iIi{e
z!bvA#;YYD<I`K)tZd_ev>O=6A-7%#SKuG{}s*I)<^_1@V#hXPC7p97m5i!z1D{Xhp
znd-omDX>u-nXHJA<BQ+E3Qz*a8?Os1DY=d8jVnQp!f7X9Q?e&-)dckSQgdR4zjN*Y
zp9t#sS+fyMS8A*5ymx=tM8HtuH(a#3J0rrr*nJ;yM~??EG)pr)K9ha%3|+QiqS71r
z8GezD%)N`L@>)b%5b9MDnD54jX!ntl^#9yH6}<be_Y_aP^Go&35hciTIBm`^an|<6
z?S$uF&7lxrM5hFifzw({`PQC46h3j?d{A9g96Xm)DwVG;B3VNsKOrRHBb3|-IBpxM
z7ZH^RjW?H#)=1AePnhr=UQCf-zG|rBQQYk(RwX17DCW{9LOK9>_<#5rZ!v<I(he4B
z&m&A}3gZs+dO1Wey`~VLBl;rm|C64v9#!66BA1QZ(i*0zd^uT}EfBVKl9XL5>d5RU
z9>g}o^Q~$_7rOR5EG`}0$VLyc6%-3Op2PdPyWi5)i?CF+GmF9X2@jEX&`N*%K(@k}
z*B32Fh%~Xwk)Lj$mlgxsJ`qN1m|dSfA?MEfbi4leQroXtPtd~(I8cZ*Q`e_&VLf_k
zY@PCHWjibb_$fm@-H1Q)Anb`0V)#uMHx-79W&H;Hz?6CBRO{I_9&3Y!);>7_^BM|>
zOd!XyL^O&y-EbJ<+}Zbq_lPTuB@vpuCb%6_dn}^0l&=NM<;|HC?u!is_`FI&CVcIS
zE}`&O3s*+F$(NRn7XmdnwJipxB%T{5ni`M~zc1dkqnr1O+(%A{`vlK=&=X<fEU<pp
z#y5Jsyllx41CW-V3q*%E@JaKuZKZX?YeNEqTV|2~uwA3dlwqIjE4{cldbqitikS9Z
zZUBaaUNqfjPC0xN>H1WReWYAx9f%J$Y`Di$E(Wqza)n0KSp-(}|2Sd_($k%<fc@@g
z*_Gjg5c+cSY5F3uyD89_TFP6a<h&Kyv~mCWlWg%xsP&q$YYE(a9UL#I%IQi}^o_yf
zrEfgA;-zuOHc~GBjH3Jec#gp~OApd*+fu*a@aaUqw~uGi0f6SxpQQ`ECgd_G&%$my
zkO=m!|MAR2YtHuBzjLdxZ882I&fvs1V}dgPX^&@pSu{i99xww4q7u+d1%@Zbw10Uz
z@#}y;f<A~4@pt>*b@@lI14fjKBZEmA8NjoJ!Z*v<ny^wwJ+@7JbA=+afo7)ze?B`!
z-e;e6RtN9g93Oq15)0Mql~k4DeU`9=+~5A)si<n<Z4rS%%z%Bx|1xFn?c*iclXt>o
zU%_W%-c#G!^iDTFw}ndnk-833y`kt~7L_f=GGuPbu-Tvd_E!SWt~ldh5p+Z4(NWel
z@8~(+$7fQx{|wJCm~J7R%2_-&n@P^im_JsdP}=Iw2|4eO*FQsTIS#kh&(-!L$j_`5
zu)8X(N}dzJ?~1M+6s$FBtM32?>-Y@A$nj44`UG9e<8~#(phS5LfRtc`Ta>SX8b^a~
zT2)r#Gn)eb_gF@#uUV_9zp1~xRQ|0pDrDU9+h`>eT^-+`s0y92_$<<$SsqXm7r}Q?
z%R=g76NeJd`$qR)P`^=h?4yi|ugPjF%^D;46fm?mmqIJ_-KE_MJ&IBE^66+2xyjc2
z+ARrR_u0;bpP+Q`|3)JW$d{@Zu#Q=g0l*M1@K4<Z7XIBz1sDFh9qnkIbgc%tw;54U
z^L$}{Vgn1}2iBYZRB-kjVC`a%UW-DX%zjdQmN&23jW8-6cK~K+Z$b3^30&-&l712I
zz?}_*`CbOHX=9)uI$sv>Gar3)zZCm;M<U`PD7nlIYW7o0H<5>De20`Z^&<dnb=E|#
zLN^V@>dG4O{0`kP#p3`-RZ4QJyv~(jA56Tx`&cXeHR7iziPYO5(!o5E237ElsR3{c
zUNase^)_vQ!E7R?ZCvf_Nx_?5<g4zLyQ2*og=j8)%jDok_0LX*zvZ3seK8>s3$U{w
zv>C`)i6xs?%xpbKXTHl)0kpzr*ri<@8y~{&6isU>CJ6z89<9>XoHc3hW01WFLy;?e
z3T0)1u&ZX&EPn`+sHq6B;}{u(WsSO&z<uA+d~)_g61V;%+kZ!O)Na@?K!W!QTC|9c
zAMx+_n-mh<DfGq+swZQ+lmCMZSjZ^1KH<GM&!z}#m;SA|Su_pBd$X)3rcZ^%P2&xU
zWBb~wcypFNTs2}~dxpd8LXGC!c+sNC0s;ld1B@wxFvG^gFEVO1z}kalJ_)oc1A{Mn
z9@?_89BqiQ<(U1H_jSFQ=~|5yX#ShnAOtkO?r)ptO~l?v9x#RV;Ao_;B!?3<(jGTr
z%}Ap0#CZQ5w|vXsYb7tQ_YBLAM&!xx^8!-HuEGn)xrG3QzPWZH*)o-hT4;FgnUu2J
zT(cKJ<4-?7(zp3KgqT_q<RdhMe;_TzK5_VX1z%_GucblwA9DUH{$U{4cgeL@e~^x`
zThlzw0KyBdA-sXcFG;>Te|OeP7ssSt0;Xts^?t#2`~&Zxx)j~SSmy$`BeN#2;Q_=g
z)?XOAPM%G+Gwt7Z>4DC>Njpf1gBLp8*}EbsZ>s0BvE^-g5=_xbnC`-@zeYnWwD{^l
zA>gzDWGf21w?hFt-K-ROgC-4=e5y~hIj!RNR$-bcUWkyH{aY<|VxfmscEi++=^f4v
zm1I$RJs_gCCRWNW7mVre280N>y8`cEqRikKUzKaCm^s!_hAs}cjUnfJ%n1L~U!?TM
zRSFjmeJs;62f)-tXwjTC<BG4w`dvpBjn*&d60Qwwmy9$%a^fwA(|SW#gpiO-=uhV^
z*k1%0i00J*ram!ZR{oQBGh6B*{!I^YMGXsQgBE$v9<S8JJ!g%iCg%IzZm#&8N(QYK
zXDl`7b^Du~Rw0e5gx7KhOl@v8nQ^|O;f6|x?^UauVv@rOvp@k^ui>Tq^^<<Q5V1KO
zvXmL;W_jR%Nk^dC68nGbxZfr{R`$IQOj`twD^-yh{fwFgE^A@gCCH(5tqfKW&va6^
z3S`%X?F^2<$(+^Vo#{WNRzvqT>fGmiAcStZW%%F6Fv)$jX%<&3i7X!!J&Zrt8udpN
z?$ge1>Mmk(CB(b1D$TF{TRiIbh1O;lyUudpjL)1!?k{5uNU~p2|5aV=F8FW%^S%W}
z7HIau&%aL=vCj~e_*e(CemDzghbh0-Yry0@D>!xP36?yv<{wb7(_5zGZYrzU&jNS*
zN^jalR26q5-d{3-FR|6Yh0pwdG<|nG+|ToW5<y6iM2jB16D@iRqD8NX9-@TkojXLL
zCWO<YCOXke)YChM(`)p091e$b{9fLl@9(dBJa%X2HM2XrJGVRYTt&TD6{{wJAjma$
z-Ps>WZ&5#WD|;!OM{%k_^x*Lin*V@>S!Ne>5gwjlY(%@@G64xa(=<mi(&`08|3T-u
z_>}vD^@1kfXduil+C4Oe{GNL8&DBcQe>LOGSJ46dw+m=z{^dqFNs|I8$jFI$4)qcJ
zqhSp2^s1wP9T+rYW}@fhFPcpmj8*hAxu%$hL+?K%+RG6_AEPY)nIiR<DAqyuC4)|l
z61R6O0Ca1qP5>&9z7*5K>{0~WXAT0TgfB18UBP<RG~LV5vM(pejW)`!xtdiouDNOh
z#sjIJZ0jzu)7COCqAp6H#VlGk?z0&uQk;pGVsqmzDQWcpYOzd;6n5|{9cORIs&mfY
z;xMOkYXFEsE50CzbLRWIcMpC>{rY<TfRgeRknaMZ_ralLPKPM(>!gI=cv!<Kksbi+
z&w>qL3>sAQ5m1qfyFVCi-ZNp^9*Kp|?C)5VotAkbv+vUPH@(qMDM<!yynyS(%xl(X
z>0-8ePWD5qEkZt-8nEKyQ%!Dwxs6l$G#TbGf&EtF#1iWFTc;*|NI_5of^TB}^U8!A
zT2t~pgI`nTOwR#g$HLiZfb#=I36MC~!nV=@I6(oI$yID|$HX;DkLeVz1Ds<HGJ$y9
z)}hSnJj(+1YYN1W-Q=65RygV_7F>`BaNt9{X)&o;N+{p;nBEEx1q>D_B=n|edBh^T
z3Lu`EBI){9GG=UHc3O5MJnv~8Gi6ke8D`cKLUrI%Ie-I#;AO`_8-UG0^x^bTxL40q
zIelTgbcS@hv#`+Xy~V$FIe#Q9&0N|pCvgm_3aaZXgeITKgS(_3<{Z%0W-gzW;1}Cy
z*|`9(?#&XM`>+z%nr&%vhZR~#Yv=h&1PmT1ikJy6epsDexH=mE9yor9);#h&OIi#;
zX1rOyr;k6gu)6Y&RL`2H8$LS^9`Dv_dnS)v_gHiQO5r$PJNtG*bP?m1tv)Ktj(dUI
ztpJwBe~jm~3d702j+&;#`lFKeFjcq8tnMKGfKq=gp~RcL*b}B#zhh;z)I6+*nZQp^
zo&Ql=>j9VuM&GWA{7lq*tTj4b53z4q?tRCU42;ZM07<3ED?MqS7gddLRfpt{eA1P%
zRc64yi=CddFJ{7J@tG^C)tUZ1Nw+CD)C<OX6_TgNp?5^dN7fixA}@gXdqKTu45>)u
z7V(fK3gARYRbBoo*yMe0!9T@<U@?t<d`uV_DCorS4SP)Lfpmq!$Q_Fp6#^gI=$+K5
zg^^-E)JKXqx&dOvbR??%GB{aM^+Pl7wV;ap9)|ewPbG+~q>@l4Wcw%#Bvl{OvawA`
z0WK_>re`>B>BR)JU+c1x|Fm@1;wp6Gzr1{*&}D~zZMpUOJd!{_Y9fB!Vlt3w6S^o~
z_9`b66K*){xaE(b1fZ@jK~hacNpayLh+*rnH`c?~-Ll3pK+H0YsZAvMs?FbrntLoo
z167HQ4yvF968m4G<U(BkLV^k^V8!0$^|Q&bR-!l0t@U{I5&5$Oo8uPPGs?OZ2A<Nb
zQ+Rhwml^Z5Mxao^Yt6=~c~}3$x-EX#l`6zXz|HoDv3QH>$kH*>wX_T>?GwyGV&<7F
z8v`QLT}@<PO0gA)q^kcf;2^%rlHrYT)=N~G=q=I)5I!L7w0kr1%$GH0dY^rO&h!0$
zAqW{Fsff_@e=Jm&z?%Rxu7R7ga|xy?q2HTCUz~Lf(W?h@+nJT$?y;D5y^E|#$|Q+p
zloZY*tLayjdk4P{I=<ey=LZ}YvSa@h)y!-}x;zb1e=)GSNCBic4yn-3Ole)V>-kv=
zAt}Bf8rXj93ZQg=KQridJ%`HbiD&W?RMhD6Z^I-{fOtI!_)vdoMhYKC_Q}CUl^6Ri
zfcWu$X@dA$gw!G{x+HU(^~p;~q(Dfuq_BJ0>4<#A9t-hhx1Q=%3b4AK=jtsf3%ehP
zFfLL2SUu@-S+TTB(_|1n>hDKZHxR)sn@ErJbvt5~P}K}V0Zu-I77H00>*&gvw=k}g
zQ(Yp^u3y#3t|s7R03P%wQMV6m_^is(Jz(TI4S+Rsj9HjT^i`CzUG~lAq_5p}1nwOH
zZ+IllmB{wvK6L7R&3_xa%mwgRvAx0A5|y><qe{OFR$Ix+??DftvC(v=EunZqX_C~H
zPN1TImf>5lK3Ov-dfDWZ?-;1a6pz8*J^%zc(+;=`mqKivbUJaAtLCKU7m4qt)r5h8
zJ3x=vgCpsDP8Xvne0jVl_Q=w=rKJlsrwto2=k$Zm=$DzTeNss|?r<%z*I`YjCBaA1
zpS>4W0`!{#$ZuYU@=x-gA*#9n`2NZOyjY~0m7aw>CkuxrEwQ!R?1J}vi^sMf-H~Nd
znh|3e+Yd>$k?P6!%etJPR#m{wc-W*CG-=JUn7lKpt2=xQMBxEmhL;uP7$Z)q)@B3q
z#sePAH;pWpcp#6zeKT{#?ziG*Hb3_n!8<qrz<gS^^iy#<w<s%Hlt}tfIG%npaJ*zt
z?dS3on-n@C&-80p%18Kn*ckxFX`t1--mF?RG0MI}Ewe{w+{?BXK%d^2oHZj#a0`f5
zITp<!^I(;$YayJi@PsGb8vsMhys9iw1^^XG3SSn>JmZv^@X&Ur<t%3qzBcRZXK<{5
zdlW<l!82o<jGP^K(t#UUN3jcQene3KePdVzqws6K60jc-Jfw9!1LPbGo$&;xhl1Q*
zm$&xf0C6`Nu~amnba}nyEFZHOGrta_Q=D(3hBs0w1!kU6CQ6g&qWfsyM(<tTx>H1_
zDV2WKTE+JxNZ8&%y8R}8o#_Ly?vK1BZJl^t=6}B*F#ZNU9`?*3Bed5aiZV#N0NM2P
zyf>n)tl7emI||S3mMsj}>e6&UtZc-2ta`loF+v}4%xq<sp~bC-q0j2R>|>sO(IQp#
zo>>Zb{CShN1!>Tm?`XE$Ru{mI#~(X1GYVmnbx`Dzb8~t}J@*^f(GQ*h<a5$RNji;Z
z%=~{o8%|~NTllS0Lz0yZo8F@8$e6@g{N}2rOx!057J-8r#6}!>(=<~+W&``Lk1La9
zQsV5u84>_-jOzQg7<u+{ipKx>UvzCUv^cD9P-_WULtS#qDfQvsV4gIwZ=K^@Gw8sJ
z0cHUE^zy>Whoxm~{B8BdTkql1x_s$}0Iy^KaS2}A^n}HVRQ|)PSDT^HBOM@?K;@4Z
z5H_FHVqy##!D7-nLti%|2DM@isLif{_;vNxXi1`p4C$jk<sOHS-%V`EvWEL*CrMn-
zGgOAuS!P<wB=;e|X&B4k0VOl;FlJZ}t=>D*Z3Wcw&i|-is{e_(=pcj${HkjaGl$sA
zwIG0p8yc=Eze(@-^<V^*4#NA?qZN>=z$ep8uZ=ri^S_5kXBqd}?(8Jx*M2+cA2Wjt
zGL(47a@jdqEoSS<YKZxcvn%^(gvVfR%o=)myxP=+iegEKHy_eaD|{>RTgR6Jo-^^0
z@Lb^aj%)bVi$9+mh!}0y#t$$B;)NI_4k$2@m7L0EY;ja;i`iRfS_uG#+oXwv&L=v<
zhOIU`1SCjVac=pIrS!O`?mB~n4jrH&;YPEnsUGU3yFp7kK!v?Exg{^)^nR{csr3V_
z^aI!R;?I#Cz)b>f;KHvk9S1ddfjxD79#D76*zA@_b|Cg1K#7Z4Otobvgs8;#RGg!~
z4fLM_w~szcr$7kls6mhSn#r#r=H;p_uO9lD&87ZywCZ)*1dAO{tN1R=-%#4y4u5`T
z(XjlhwGS(OT!)hViJN_fO#=Bm!%R@Bi>ey}YKl<(K-Y0_g=Z>Y!av9DbBTsNIy>Ce
zZ8&bVk=eD=cwN5W!apNm84+B8F)}OO+?mXKCRr4;wzPuQG{HRm6@WLN$<FHQ#o4_%
zCmT<E#YR<Z@OUgDz>20x{bX178=X?YPJ@jE`W+bvrkqA8ICCb&*<Yg0>7BFS9}@Pm
z#SG<u2KJ6Ef;~U1du2{Hg>Q@MUn_*af}(<Az4uR4F5+_I=3?tc8^Hw14_#Uy53y8e
zt=y%WHweNH54+Ajg;eb&6MN@@*9mohhBWs~Tz=4#2I3lzA-A9b1>2f(eFb`Dc3hNi
z2mQgfZ_t=QPZ0U(y10IwEJSxfIA=LtMYky)W>C)x_Kl8R(r;2o?HX=Q68)@9AjM;I
z7uTyo$l8Z`;NJ3=5iGj+zbH1!ny5^pOJma2F>nP2)tYN)*uWn!>N9s691Os#u-BbD
zGKwlW<jv~D5eZYkQL7v*AOXrLU;0vRnEaBDtYJXYXfNpkmxk@3%f0Qke^S#_T&aX4
z<x!7I!oYxCMel`v9>zXSq@=z$$#eW`s|zGvhT;QfZW$45-=-ujTLzCZwWvul0oXzt
z>GDDRyz+V--rt|oB|}Satv@!h9XpEw(GcF#_`vj3meF#BK^7&E9+-Y0C#&@;>t+vN
z<fUmeMbnJ;FJ%mK+z^#pzabuTiqFrmfX)leD0=yhjeNgKC3GM_8NC4nH_e;@sa(oq
zj0*0%4fiV8B=B+mRCohJJm1RC@1#;?(BPBVeJ3bj=^btd(!<h(!3on^GZO)__r5oB
z)r=YI@Y)togLMF@C+&61$s_*C{zxeXV%oaGT0W;qE?=vkn5zBDyil{SuE)l{hxg8g
zWoKNRAVQ}XAhkHZ>E{A8GaQ1bDgf1a=DHyl>P{;I)zT?rD{J?B+MtYC8wYVqpxi7i
zWVVknWGhkw>C;XL5#8dx+c;_rr$96XkZ~I2Dk5_5#6kGcBShXO*;<!PAm?m!13e}Z
z@)sAnm1RsSod%kImdCIPU>an@kiQ+{^Vb;<E0jyTzrEJ__w`fY=oUb{BJMe}SQz$F
zANk<ZBLHsPMJ{XE?m{*BN_6S(Teb1VEf-k<mo^|cF~VA1`hrmHw>lN|=3IfkKI|b$
zez|D>Exe803PbL~B@5{F@No8~m(~A8Ei(BC1Rh?nifJ8h@=^j><5;%a_gS1K$Z)KG
zYkoF_>VIpU01|X=QO2fz)`EUKjGpiqA1_lH<oR?BhMcUls79UWCowtRqYtdf<YW*T
zu$=av7gfztE?)rdj60A*CF_L({7U|50aMzx?3wsqZzs-^7<2JZv+cM2NZ|z(OoFy?
zP>{se(nOZ(Xgg78=KICU&hYo@Vm;%+W!+t(+q*})7I(a+JwL%~25V$pwYs}0{t{Zx
z$+9en2^L;*cV}sr;yDRXoVA?v;|C6kZTC3z=-q;k=CzbcBl`MEi(&Wg*Z*7$@B+V$
zOLa4@{2V<l1*xSbDPNod&Gq-iaQn<dy1aGc&htUr>h-3(3*g1@jBl%d-RoUaSB!Aa
z`yi*K2{^2vd-RwJhz_06K^V~|1->DTM$E6xjtHYsmjL&LP#me|lP?)x=5<#hNE0V7
zoJ5u@(E+YfyAcU|mz8I{I2Z$KzOw4|j^h$yeY#i)CZ$chZl;$ixSYTAOtPG-&yNl8
zi({1Oo^)p#xaZToq?-uu%il?~@XFo|oOr@1$Q*ty-8O>gO^adBVcd%Z&7pzfyWXVB
zt#9bxD+#^sP1728nJEBPI=Ux|kbylm3~}k7(deJ*0hpx!O5>QS6Ld#Y)*JsgEZT-%
zSZR&;fMs?gwllwR$OxVm+t~lH|9;f2NsP&aflEiu?kazgq1}|}_97WD^TMrlIg`%9
z8n<WaeN+}U5%?`SC}xN4lGzWC!Bh$&3p+KR+o*X{PMPu)efLLrEW*HuQ7Ua*FgZcy
zle(jX{9R^A#7~ecrm~7X#4nceC9Ca@>AP|(eQ>D-+Ig8*3R8*W9iQ(S8F8p0plXV`
z%W$?{fP<NhrCY@WBOxi(ZF7fvL$a30v&D{T21isL-qhmGwPuV-CcV>P1(Jf^i)-*p
zhTK|W;Bd#aB|NQcSnIdqNi?Ybun-6vR`^t*Bja6aI<tD5Y(!UhOHK82N%3Gm_ixBj
z*vcwiG<*OUlZUYqiET0C%&K6X4bXP6*#d8Wb>jcgSF&fY0>F~yM!K2Nj&7+jU1hAT
z^XT82dG8hYOaH|)5tdcUH$c?`>ygSC15BvAY`cN<>T3;-s41w21=?!)NT)z|pXHhC
zS>qqhm({8DD^^e~Ow3WFtT7IP#byOla~CQGgRB{i(*#v?pL8+Y_nt`k^6^^)jc1t{
zJWC4!Z?y)mlH9{o;g;-}>kwWnuO)FG&TKUfk_J7VNxi6OcBZ!P!wxL2s`sym-%^8C
zNp`_#E|C+eC&&{KbyXzfq=&(&Qu+wr3yP2OFUow4)b#O-C^~BHl|j$|FZ~7rD2g5$
z7cRg(sp@Z&C7FfFAgPL8(jaZLVqjKRx7nFlB7~H_b)%hu<>?_#koG<cvvS5?RaQM&
z%Q~+uzuqO7CZX2CF_(wT=$3&5s)M840ZY`rw0hOU>%uAHHW;F@;CWiY)=T7wS2CGL
zd*<h@>%W?WBZ>0p^dUcW`JuV^cUTMssDvV|r=3yqQ%l4bh=-XOJ`w{aS7wHO=HHD*
zcFw-cFGCHz&lWNlDqz)+UDA3}=!dL$p}gVjcNwjcvmbxcW5gtjq}>KfhAN*dNj#Y+
zyj<K|JzhS;{7Vu&1hvXqp_~G~!}-`F4oow?o4$b$mSZp>*uKsZ0`I5ircafd6w3AX
zy1PFrZ+K0;QID09>SjaX*GsuBfol?{^>5aJ(m|lql9KqX-=eT&LLkH1so{PyS9!Iq
ziv4yw`mVPDF<D#=9!6%$M^X5K6jOt|>g&YuULAkv|Cnpule-MP-^v~i+ES*cuPFM$
zcr7X-00;Mqka{iwOOX$FedVrXU$gzLWLml%H?_t1<c#x7I1<9(=iA8sHsCBmuG4SW
zAUXb0(=S6rfpSsdpwhOIbmI}EydBlrJD||lQ0mgqn}pFjcrueHGP=@RSBa@KyGSF(
z*e<Veq8}jm-W_;mnKu1gETuZ$M-gF6(SZZf_kOzPuFk{fmF>n3AccMm;eaFrS`EsJ
zklZV-Rj+ZZ4Rucs)!Cj5qDg9ms2DdOzN(pM0u2*KZW#49H;ylD;?*9Di9VPKO@4Uo
z!(S+HR&BUd0dsjvzlC=<fJ?dQ(23!a&fiF6Ehzw49AZ5}$pRFMkUuDRE|!aNCiBm7
zB@pxVf$2240r8Wq4nHU_9=o+jqUx59d4sO6F%~!1vZQB4NK{tq*hPWtYmaAZUT?=N
z*g;T>C%+ZNz^Z4tv&~}`d-bL>1;ESCnx>>1Z(}Jx+A8_9mvtzg%^dSm0<AqPEr<z*
z{d1LcMXe1HYz@7)$`>K4kpu)!%x3h{uMPkC6ZXdTXG@;BkRX1x!djjE1O1@<G^M6|
zfQ4fkV_p2<=%blbFRktJgxs8Q6=Mvxf?byGzmM{zAF??eGZMbzB$Hfh%{%$PgV0;H
zvk;xs@hv+)MT+z(al8!7`n2flLjlNAUH<a{T1xWFf0Cd7>k#gYQs6of22*(eH0jN^
zjH+-raK@5<7@W@hGM^bJJ2ku|C>Va43~jkiWPpC?Y+d3VYqJ6JnHR(-WeKX-Rj>b*
zQ`vTIdb~BSFrfeiP|qm(jV#5ay3_x(eCZ^Ue2Uwoz~JZlH2zpF|6$sC*<8h5$S~L`
zpi5J5P*}b&n6)RdyaCZ=RZm9~m~|aNXFTY-BY~bI>64}rMSv|)4YV#Z=SdTueHgQ<
zpAKU#Giz;|=;OKJUg`b?BV~=P+%?hkBn?VzJJC;b;#fe~O?*U~6V=#D7TK3P&f?u<
zXcyJ;qTWppzeV@hnG;UGMFh#XQ&yGJVJmyr(CN&Tx%tf!>C4!xaJ)^M?`>kqM60|@
zm6(`ezpRt0<$p`@%;rqC@jQ!3uDzPQU{u4KBP!rf{>SH;0qT_MGlS&@q|Y3ZYa5e$
z@<l^>{uisbbr*tKl;*;D*#TP8hHfye#z!!vZQF#>QBP?8UI!aJ`PPfKyd^lV>@@T&
zpUI48bVg&7L?&Im3Jgep9M#NF=|~~{F^b=J!My6+T_$j_(t6Dl9MBUZ#hfW>`Ci7@
zScr6O5f3f2?8di-qWhVxm-<&H%BE;PX0o-BE})+D5cJ-^wd6H9?@u}Dm!#w7#Wz@2
zZ*R%F%j`+L9<vH@7?xmCh8l~g82Ddn2Jen7!MZIkh0c&jo|G-?xv>2mlb%k^bJL!q
z=7W$XE<yJ217w};z}N7A!wOQF<mCBtUp}2ISja<^KJ=OM$SKa*LZus@h0~AquSX-j
zF@Efh#Iv0NsopgAm)SQcG4vWpm#NHW4vXyjD+q)O&bdrcYx)I?U8aP;aj5^%Y)@zE
z@-iOKeb>#)ziN}^M%av)On3|qwgmTYiFb}ncBSr)x9o3YVvqXB5i^*2fG_l1#*@{O
zZH!zN#r{WK8FOvExn^?QFtqYvQ5F4VA+$$IU}Ie>aIhKbkg}D?fGi#%6K|GO^v#`H
ze6i%;h*Vudat)ydcKjB9u~LnidbGr)?X|34ga^Dp`jDT?pysPH?q_tjOMt(h7JbS`
zfuLKJ%c%L~K+Mmr`Wz3~Gfdh<_>d6a=N*OI`P7@AYoAg~+5Kcti6+cP6be3rfdQ9E
z=)WssC<v<Z=z~_<7@JP@!-RLaf##?>cBu69FyO1bUru!NQhXBz5{1|ECxyELdryOA
zyv3B+?`9(5y;y&vcQry;F6e%j*lMBZZU<-#^r9R!k9JY2h}4TTeWsKY=-n6u=V|R?
zxEkiw3~kl&>pCcn?rbop_g1g6@*9q6vC49zK9@Ot($xQrmXEI@MrBalLx1^wIH=3v
zAErjs=}ap^R1e29%%~X-EX5J<Y$Tkaa<Ck)S2s6E7w^)WGFAag`akM#$u6@$OtjLE
z7<r=_J>?x+tdMT+@R!5aYVZ*gO6=h@@V+by(}qM@0fe+B@V1O=y7&8P!@2{Xbw4VF
zfHU8dUOGwSOh51+qj7DVX)hO>G%Ca8C3mVN<-J&0-R&Ui6n_b8)AWt5J_Z@r@5C(n
zAl|#pg=VNM+po}Dj!PYTbR+kG*=H0D&m3v~NI%xtK<T`5UW)-E-KYtY9n#N&iHQ7*
zmDn>YwQG<O9Ub9b1$0d&K(Tb%`c#A5tD=~^?}<n|yI8oyxeRTAv?ad%eomz%dD5)#
zHM+BLK1P~XGobCYbN;I@pZ!|LmTHcJTP~LA0<+HDdz1J?LY|zrym<-XP;IfQZ^sVx
z+5^IYdO2Ni@a;X(-FZ0_2Qy6>!AMeueHInIZ~Fm)XQtF4Yb!%Y?|ZFUJg}J#w7lyp
zJM)W5eISu?IUs#X0LERnCGDW(8!LP#MtIV+wRm|s<G-%!I{KCowy>P=!;-gOWchSu
zF)}<u7*P8F!eQ6?zBM7MSM2}mu``B;|D`^~BkXO9Av_O*Ze`!8Xt#2kgM&IunbeYO
zrv9l~?JVVo3qheoqiEGrTpDk|bGJ3|=?`uc2QG8;1zy0kORmom-5F*dp}HXQ8YbN)
zu>%Luw4qh`mj&HTO`khyxiqyTZ|s;H+>SRpG;mN*sk-d_OZV~gaa2<^CXMb==3+xb
zVJY1Iv8_@}qX`fBfp=A}1JHA{7FWfkEnK+;!bxQwbXu)2;CqK4cmFedcmn3<qn~H(
zCnbi6-AZ&5mq;|6ev0?nr`vk!ZPuLa%Hp(iEcSq+K)RVoKER>KA@!oF)3g2n16VG=
z_@wH<3ENHAKm~6hN?LPu>vY@9L82%i5p_93E`@=bBIUC#XSbxN=FDm7M3}ePo0RAe
zff&c2x#8AWu|J_mRG{}$=-#1LcKy=#8|kmTl~xRP?Bz1$S*q}j%PIqqO$|&Bp~1&_
zax^zbYAz~1dmdV!<_x<a$8bka(G$7<>!km4@b32zoRu9z-qdXUn}m8MH}=i6nlZK;
zcjkhwsTHXjzwk)JcWgm()xIwAVM!Ywa%P_#<GyS(a?)su&$7cCE*fmMT#3PCcC~%R
zEv3p3JnoC$llri@PZ!XPB-rTqJVXwi8fEmzS$>)}wr&G`4?}zD!R}7KCcRNE{E{!?
z8SnKNaTI0NfoW9r2p<{wS7|II#Lla!36V}k&K!Xj3Hm)V`IS73_R1S~$tPHR$i-*N
zXMmJ%HIS+Gy1847Lh)uC=lzb^NaR*kpjfiaKPvB63yPPypN4<+NIi3}vZ!2!eds>N
z8!;LiCEdLFCPK-57lSoTLVKv9?lds`;45moOcN>>XZRNcfncMsU_MUKww4<G8OCXe
zhAW?h3&~rlp;?1pWF8f35q&(~611%s<sHmy&KeYynaLh$$gf`Z4O4j+__7&wOBy7W
zOqct3XtrdCSEHoo*@s0yurMvOk4=W!Wnm<?*!j|6pq~-waZG1Jmy~m>7ROzAaOp9j
z?-_@60ovm&yda?Bc!<Kiuq+u}a>V0$y063jf8?bd0W9)yJq=4v)%4Z&&@tPV_sJw^
zg4nWqvWUyrH-<72w$kzcQ=;5HC2-PlG4&!X;ijtDmLlj!I>HD+vK61JDtrTy*LETY
z{$~2ojAI%~v7L=58#BA7<)LK@6_<It!#@BP(lQs1A)w*=`ya;NjkP{nJst!DeQ*ip
z6VSaI(9se4)sC;NRm4cHzKzEFVb(!$Pjf0qn%5KEMF}CDGoXL#NVWuB|F+qM*F5H`
zez~uq;GA(Qz{$#x^0lu;dhqrrhVvymxpcs7mu+eJAS}(F&8n_Z+0A<L{u;7ox$PgU
z=~D_A>KEe^BGc&R-351&O|-}CZn!ijk7tjU^Eij9x`mJ<HvX2c7P#~<A;QB@Kq2>!
zc$-oMFy?y<2V7|bL{6(Oe@J;<*a{Gwhu(fGR;$(ary#cz@xd}9U&#(nUwxo#@;=ry
z-kfI>`A;K%A>>qjEQlB|u_|CB^`{69L3kUp_Gd$BjJmjhNN49qF&i?AUuG*O)`X2<
z`0hggXCK^%HZvt$qtu*F-oGT~{#U3zM;HTFd43}CHMti5J5AwNLc0RMZp>v$f11cV
z#xX~-I@*@DGW)>?FbxQX)xkbi9hqcB-R6IvmqHCr6SmL%yPdNRNVmI`BXHPqSx*qb
z;mVq4+}<~b2f1%ITGFSf3!$U_GM*Ilx3glc6YP=F(+XqJBtFG9rH+UtZvgUMI6xnI
zY}h{!<ow4)0UweBWu_xU5l8K@yjLuTU|5PkuZM$JAqW`VC$blz=`SwckLeHf5vc3k
z5#hg`KJWq|i@)Zk0s+yxWp2Zd<z3iszjZ<S@&vkbulZGe<dHHpOu;1mb{LL1GnJjg
z-08@SpPo8xh^^C?BDdTFBlvY*;TJ^kJ>9)~0PME6gl9YSrFsYQjc@zBs#7Dor+{gv
zd~-emaV9@1@f`8W>iuSQ`|aKWT6)nRflt~2^b-U#d%%{^NFYcy*&2Mv`2PKpHOtoD
zs)K#k3$9rR+C#jv;8}(D%KE6VE0@Sz^P`Q3TRWzc-5_j}%}L3%J(r2D4qp23Kb0^x
zu4cP}GHN^SS<@9)&p+P$XNDvVRD=ezt#5r^+uqs6ey0_=)s*45^5oF;b??G)JIH)?
zlTKtO<N5z)Z|>E_KU(?=sZyOE6eL<pt7l+7J4}iY9pwmR9Ij3>m&4-ndv?IIMq>RK
z20%IWJA&5ZAIDt!?Z^P@a*rW#5vcs}fz3X0^uXj@{L_M3K!>dYN$(2p$8lNP?QXU9
z^su{#X%AJ*g>&e-Fz7eE;8e6-<4$AA3!%8%PCOsG+4N9Vx}kWPAynluV@ZO%T^Knd
zfmqU{dOL>Mzr1>D8T8AQvQw(}rhPchn*wtcu`B9OLeLA~I=XUD8I%8xa?xN~d8^fa
zBM2U7G@}Z;WpUh?X4_l8ZY$kb!qZ9%-0N)6HGu}I<;$N77Nq<6ewe(wfjGI0!LFEI
zb7|Je6Fx7K<YnB*aSLrmwX|5rYF!|wSe>)QizaAtMS9d4FWU}~GYqf~ijP#V-)Ngg
zs>JN#O_0bf!LV3y;&o6&=Rk}6TaO9-&uyu<r9H8ycxt?09a+pNZ@a5F7I_5bv%XAF
z9x1gN3Z0;yR|TSFRvlx|9#km&n=fpY%s^JNh(`74K-Arwc7@y7agp%w=TL2S@QQzy
zu0?giwi+b@pqAYNshk{ht1bt*2^ohUg8KTw-Ph~AhFuO)ePSN8@4cQ*_AuQJEQA45
z5{7B2dLgnynKJSUF4g5Lo9q_oPt&Kob{_xjhnn{YI!@{sC_KWNnmZGyf{Z_TMn{Lb
zDgrD!HCOa_CQG_d6U-MI@7n~w=&1rCoo#tganQ5vPSqk4d+(Gt82>HV#5BCwfrFkJ
z>je|CiF-IrQr4|A-WFcynSHEaV>XL8`S&Gn$H3r!EB7&{(H-Z9PsCIdczMA*8R`f$
zuxu592ZkR_spU1PdDiP^{ozpl^1rzy)84G(4_9Hh7hj%F$%X+Y7aS0P6|J(tKK^ZZ
zF#Iv}V{6u+u*{_8Tri1z^*iI_zQ5TTNaO`Tc(oqn(GlejVD7BSwCL@n-7XeaM=hm&
z!(?anIQ26;EmZAb+2o5LH$D&f{RqD4o>0Bh>(}LCw{s=S7njaUZnv{^D7^5ULiuI>
zcb`_+c^8^sTvUxEdT*I~1`N+GZ@X>37LfWD2NETY>k+&*kVSUOli^&(qIg<eB<1a>
zUbFDGC$LzcbsqzaRd}LIJt~I5@x3Oz6DQWc83pQLZ`GPImH)?R*d?z=_i22OT+&ZA
zS+o_VwPzaN16^1aXqz624$|!zd59UN3ut|>N1e3w{E;)XtHE^6rFy@)Lh|f8a;*a2
z@xh_gvnjH_-(HmYjSVag06qu#PX~4b44mt7_w#I|`^bQ#xBoJ7fb+%4P8b1E=A=T>
z@yNq~wh`ovQF?DP)f{B6|4;TA4U`LDijO$nF`>wG>-p^dT|Cs<K_n7seOr3jdcfl0
z#Brf^FA;=EIyR@~N8D`!RYBU`6)o71l^fTYJW}}-h<{rOwZ`9f`TLpXe7Q&Oz3O2G
zCE)za%&KbrGLj3uU${Scd6yD@_kaG2JB5;M`jP3}P_@luY@&}0Fs9T1=?7vm5^4=k
zqm9N(c<v@SuoZr1KyuAkZgpW#vnr@cC%7|x%x7@UFby`;^JGDXgb}LCbHnlxx1Yb=
zbJ_2^P@nrI^k|hFa2<UB%<L3vdQAH-L^`J;%#<KQV2FBC@|JY1L2)thzHzzGYaeg3
zvp>tnSktMqemntK^gSo8AHvgFFY|o-jymWoFzk}44u!Uh<W1&`R^~E4*XiMa+rcpM
z!5mFMU{4yv!4nhFwXg#;2lgs<*lr%%Z<(?1MltP<Jq=(RZpl)Q@A_Dbe&!o?mZoY$
zJ9Pr)n+Hw+Qb^*I(rv1sz~g>iTVJIu3$!r2SltjB!NQ4|44JMOKP!^k#mv86uvgc!
zQrnD6!c6<)+Wc+t27LZSifrGO;J<5gYN^VD+c5$hLeSWd)u&Ojf*0`11{y4s=2pwj
zhI9$Ic$Fpb#oL&9rdBQg|Gb59r&Gq4DS+w+iNlZk2iE%jC+B#ugYIBT%05J+-qfpx
z@_+5S&Mi*Vz3db0&7zjGGbp`#4_4rk{8-6QJGb1r6VSG^>VMq{xFA<t{$&nv+X|wf
zEEbS*G%)nom6lxEf5B6|&liuk&mYg;IySJZinwq~#@zv-W?{bk1^?y$X;h!!cMozQ
z(^Wg#z@><h^!-o!_>WNrm!tie#>}8ecvtxVAZERmjAC1Q>>dKY3*|Mb$|9Qr@Vs&5
z!`WM?;(H=~(G@2e(>ID~0{oO~FyD@tAvTFrT6ZqXQ2)l}b~LvN0<>#%pZt6b{ZrmR
z3Ih60^6WuYMf=h3aQDN2)UEODq&a(FGBSgYL3q7HWD7t{)4P|RE~mGqoFUU9N&8P5
zk=DlRl9P@Myrm0jgvN1aclCQQJ|)o#2zBb2T?IxnS?ergES&zYTjr^L$LjjTZEG{x
z78C?2uXY)8pYOof&29F7LmZ#`3o?YC8&CV8_|K+Scdg&8HK4V85`m1w-ly*v9NgsB
z+JPxcpXH7lV&@peK(m&H1zq%YjFsKGC%*g+KmD{6gA-pTmp5eSLT`N*uvD@ap-cXF
zsKR(r8H^ioYaoF0e6ZaPCWmz~|6wZ;ARbdQ`#-yR+B5W!Ip~Kl)z>MufcVS*mWQmR
zi?-&|Z!!QJu-Nx_@FCE1vgw0iX@CkBmuTwbYfA6`Oz{*B5^Okwv7{b<XPI4?jYC%f
z(|8u}zCF~WV2z4*k9pG=9^D#9Q;`3bP~duuxDCOv;y8p0sTm-f>=F3R$NrawdWcr9
zn6-5BxaiyxYy+6GU5kHyrONjcwN~%tn6&y@i6W>vdPP5}WbqO0w;U9&o>!j!13D=v
zke{aJtS~mt&zI%<r_-=j6d)$Nz^9<1RjY$ey`iu5@5p=hKdshVT7K(yrKPCfXp3mR
zTuiFDr5h}$hP<_ay!5XKo71LwBVp%qYaW0xDfCAmN$Dk2%G|{Rbmx70ueW<CMus0B
zVf_90AtPx&b83_qZ$}QRM@%y3Lf*pQiQjd~`_*o)Q}V1AEhti?<N@z;J=%D2U>MkY
zof4}={|Yx-5cWh6$V=i!#L#sD9_jfIoH1>|XnJmy{K51uz<E6vXys8lHel(J=d{?1
zrcVps27HNpEkBLDWk!jo!*M64gN?URqu6h3-fL|e&<~Ais&Dbs{%2P*7in}y#6*r(
z(z}-LG$cCz(`2t;;f;%q_(KE<TT4lyDD?lY64sB!3KYNEap7qPLTiF2@c@kx44;1N
zIfx1UOSN75s=5ST7}>Zv+Ygt;Uchdy!x^p*wSq2CQ0$8A^(lYQRi`W#9fXaQy#eAP
zP|%xQi<^ykl<fK7%@tbq8lc&NVo_N)C&w;V80Z!11`Y6m%ibJmo%fb&Ut3(kEv}1$
zkT=%=LyQH!FYi(LCFRXp?9E!x5fYos5QGX3!Xj_nu=O_^vHUknHy1(OLCx35)2#ge
z{cPU;kh))<YoU5?4)$a>md~_qkQUeT7L~YH<yi6n*v*nf<>@(kLM(!y{(ITwsc1!h
zUs$<vQhbZwQ-_!bYF%Thk=HM^Q?9;C45~OWhO-5w1cS3F5<b}`em1vPWPBc*Sots#
zh?$Exf#RiUsb@<G`-MCmC3!0cU6e0pm#s`fZ74nsU5lEA+DB%{Hz=iDj_ufbX4mL4
zDLd;G({e<jwJ)zONhgYZ8|Ln-rHS2FyIdC*kR&2elatkdyW^4xzTS|6!(fVkIdh9N
zWo0*e{!Qck0Lx(do%1M1Nrr<ssPR2Q4Bv7N-(micvj^?)c)(;R;g`n}eEK~vD<a)f
zoa(&uDyQ*AThjh_BY#fq(4Q}K+__KkYHD#AxU^X<Lyp6#uNCOB*Il08g;c)v50~rz
zz@Bu}7XGWqj6T6o0vkRjA29TFR{ggtsd)zsIIzg)6AkVmN{}VPYRx;*<4c^!ioU1$
zp;=K@bCemcJ`$AIH~S|+h731uEArz#H4j`4)_#lpAI0Rzo$MQt*B9C~hc4@E4Wvp$
zQ(KX`qkWDaPYNr4xp^^gB|Q(2_>8|nq6CBc{UY;B3jRYB_=`<b-}zCRjn-_vM|ShL
zyQ~hOn)?n5IV`JbiY;4QAZ2ccgPx3`cu7mYn#AClut6ZGHSgY-(zbWJNz?;QaNbo8
zwOmkRDDl&ymBjJS>fc|0KPu;qQIRQ(GN#O{5p3hX$N9v(bfu<XW*6+}6!-=|)ZOB7
z)?8zVxty#vuj|kKO(=N(>hxllJ6HI1c3k=AF5J8K_VMi-<qE3d%b=Tpd;9m)aC8fY
z#j8|_?(zou;1(yqGpni?{XU;}{=EpThSPZ}3KWHysJ+?sH#$#w9mv6?CZS!YH!z-(
zLC>A{Amp<49s>{X2#UAFxgAME?p~cPP`Q(KTj|dhLh;H$DM)6i@YUkKlh<yY5g}C>
z`3S_x)kWgIu%LaOxz)Y>z_swOL^jRJ#>DsxHgO%<MR~i;JqH%>4Rt+7gw=7&y;1!$
zpvwJO;DWA#viM=N5x$9G-h5)YOkiP}8_Gy+6Hfd5=Aa(K%bLx5ILn#qs)=k3#J-R;
zOnX-ISSK)Kbq|f<&CBizXdEpJd#wjv-&*V5<PPR1E2b9HHs1lD=FU(;eH9@=*TLaW
znHbDzwHohX&QM3ETiB%WMB=3uwbfl=M~Nfzu+Pyf%BJIQHeI>%%CkCeYju~YD$~wW
z44K|lk+fSfdY1|#xi?I>dT)iPJycWw2T$W(3P|eu1*Jf6QdQ&UnQ#>V!f<Cq5(!sZ
zy&SjSO4R)rd@b8tUzv#Ag7YeIk^$p#Gt?vdA&<OXC>`1%VOyhkZ4oNX{-TH@C}lrk
zm&vw3(!SGC9}nu8$c6s`98A2RE0r4<(joh2L^C$g`!zRko{y+eY{>O<c^ejUV9<I&
z$x&V-E-5W{^t#gSbs5VI`#mcD(0t<2zrb*89w1IkIca3^Cp^yzd_hi+D7`5q7lUNx
zi_#0TRzX^%V6ftIc{A?A%RAJT1p=QKqJqJF?!Ull=tSN9D8s0&FI*LWbB}V=;zf&H
zxLbhrWoT<fRbf3CD!L#IhHxKMSLz0Gh`&t`zkD4&;y2E^B;|mUm=)_-J9_o<`ZAC-
z>^_8W2x*b+q|3S}<$(L?$pO8_mjVTDSq2xU?4q7PlgYY}V>Q$;<fV36tvq_C4d;1}
z)(FIRC$M~TRem;Ct-){n48<I7#o8gyJjD^nxdbP>tM=6dsw-Huy3CPg>mTy^Zr(RG
z5J(0mF)i^hr$V>5ejH{;ve5`T3_r@bqNxq78)-5U%nb5>?W-ket|t}9=+S4LeXf1|
zUBd94*uUX8m$p}r=m|7kQEOY(h-jRR#7oiLJD(8QW=K5Qz-h;><Z9o5x^V$14w;0Y
z-!WMh+`k0P-!q3_sxz5gnya><r8h_nu)ufDV$`XZOZ4oXzVZOyRk4VZH6EbhXwk9h
zI6+-}Kh73*32$j#x~Lgpvj{p|HkS<=2%nQ9*be71XMpNp)RgTc|774?Y3A|ZeR$Xu
zxXkEcz(=#~m7{<28hhe%gCD|HtGA#ly>e0RlqKv!=bdJGC6=#r{bJtX)MbL$zd<^J
zVK(=pLVDIoWF~z1ig3XD9hSzcG{L`mTM^gX!M-o!Ukh|8C^)7f^jHn3367T#XweDG
zN+PC=w^t2(fOkD$-A}>c&H?m`T;z#*HpEDc2xaO{znb%?S;xVGbAHFw+uwvUt1uX&
zFZfjFbJfhzVVqnD{s+lK($h7#8h#e`v-P_f9Ri+27MQFuyDQtH6Xk)k`v^`gnML`4
z&W!MaVx88k{imss5u#k)w0iUKhuh(7sRZ<X{=pOkr!(?<6WNhJEu6W{-3Z-GIPYTR
z%7UqGfNS%Bd&8UAtTCQ`?YQFQgVNnbT2(|uXop1Ep`PU`p=-LD=YRW!X~M!^-*4JI
z7bkdn_>yFxXE{pf8mFd8IgM@Jp$x~)+<YuTjPNJ{7+yoWt6rG0YmcItzk!%K`A2d{
zu_|rtw*2h5iAPURX@Z#DNfUcr9V3|QGQAJRFrUd3GLvz{!2K!k>|wX}NpkRD!<}!5
z?|mhE@YH%>8L?2zSrY?;9Dc8No(GRPq3oTUzEu9A2itW8Q0uj1(o^i+8dRr_gq_sG
zudL2r$*pYc-RAY~UFHOoBca!q$Oknk;T>!S=MTtP#t%m;Ggc!t&o4EuUjQ%k?9I!o
zZ*j9Q9<T5bniom=K0$vBhLvYK6)XmT@Hw8+aC$&(on5`7GdbKw?`>&QaFkC3fB@aJ
z(+I-q>zGH$NAGh#*NnyaAi2M^Cn@LP)P<Wi>%)_3_7H%;G0byGI`rmdmE1pm?e^U5
z>MF9vaO<~c3$lOl_p~b49gVJd^K3Gelg)dPIGz>EnQ;nMqvVh(RJgGh=8{%r^pCI2
zsBSF@`46sjv+d^E<Yauz`dgB#_H&tinb4_T-q8GP5m)^r>U)vIkdLbexkde7R^_d9
zQAzS9*$7B3)vm;!oIPGvWYCTkPF`Y+>tHsO{aS)|nJIU%*YjTXUg3c#^?9(&&xwfo
zM``;Gy{sBbq*yx4WXL#nNw3Jwf-`kO1*rLKKEk&=^3`Z=Pj2-wK`M9f5AGKS+<7G~
z>jBSZCp0lOcAxia$nH1tKw$JNOT~B=AJ1R7CjfOPitP$T9CVC`t*e~%0;X#je{C|G
zUFmQ7qa9m9zX$ZV*g0O=9Z)Z`Jn^P^scr7i6dpIMN!BDS-mal^C*-w-xAxtr(LjLN
zNx-wBY@$rhf0mbxN0MjSBY_DwDvNSQr@g$BsVqV7e#pHsD7({Yh!b1z1c}ccEnlGJ
z72~Jw#Z`DdLZy20^pyZC6*=}i{JFpOwYJcLZbsdB2cuSpM!X}gJ;aWs_tXe~AhFsP
zXu#nptoJ!(EmHWg%22L_tSx5m-Uf*XoOiN8ZsU6g(TpIXY5>O2xLOA|ITJ(m`djxl
z#&x)y?h_DuZO5;Vn{b6Shl~qkY$WXpYlAeO@iHC|O(3iUI3=g7aq?ccPni_MW%O;5
zd5FL_@#h6*W~x|iq5bS>k5?oI4h0HXq@^`Xdm#^=|KR!>0`6y4O3=0|s9xUJm*>vP
z(T~d_AUGX=nJkpU?ikXc*}JG2ZU(|J0@gMTKP72Zou$II+U=UW^|yUj6?!I|${&gh
z64t~9NkgTEIW@N4<nppI>}*OPCJfVbeAfz!pX(BtWh`<8r1_t4Z*(x4t%qlPJfk(p
z{NkzH|Jy$+OUN$$iVK{_K^yPlI#X0uQ=v?aAH+d#`L|dyr}D2<fKz{{`^pdEE~^5<
zD12s3RV_xw&iG42W_0N5xG(s59gK?&6>tkj;%@hGU$h&I1tlY;RcLO^ucd<ZHSLA9
zad)Y@huP4EQ14*P;1MW&P0>*nH!q~bkIJXE`Hw(8cC*}6Tu57gn9~_|+r>HCS7SwY
zvP*g8uCP=vv9wNoBC+CFq;-a%<e8@}NJB^N(L79<Gc#)GPRk!p*F}MXsC(2FvvEoT
zcN@*8NfVa%Y2g^P%7VA<9L5ej?otp*tA}L037Rx=NN%OlP|L>rNa;V`Qu2M49is$k
zCx~UkIUI8-RR$DQL|~ab-4nZCpJW*jF{Rn{iA+VQ5?oIs2Mg$H_((SH^ZMs3XeO+S
zS0!AE&658HaUk5Hnlg^RzPgYNUNW2$at4#Jy5)2k3k!vaM%_<5$ku>V)h8PArP#U#
z`2X|jwef=oCx#E7i*pWI>)-L0)wu$*Rg}H6WZ%9-v-$|u4Cye)h1>cgy$7^BHR0s`
z%vlsbM8?~M@i?5klGs4w;3elG`o~J4>vspEbXufyM88lRWP8dYLKLUwREtywUQYb}
zcQ(W+DpU4_`+BPyI{Ev3l-+ZyZ07!Gd~*iEaEOSV*r)6JQ6^k@LO--enJi>0>wn4*
z$g85%cij-G$wXw_!?*MqS^;G$-i(qyX1We7zXHpJNusK=2B=h?ZLim^Q^ckAl1j(Z
z!oQgmyDBk#I_22JmP*M=M~HuX-d>jwmU|`0x09bN?96$7MJae)5m>m1x}xFe*rLq?
z_o+5U;0bG<5<2|IAizx|nFM79;eSAK(wIH!73>dJQ-ObN{G%^3ap(sod53dvDQ;so
z^k|-@TXgknhE!o-;STDGK7n0V0EAnv_Jy0%j-f>{UG3+s@9%!wWKP1EH&xG$7dNnQ
z!SGJI;b;^7MhU-i*4FY_4cTAmyAI+qgjQ-v>^4otzwohf@(>sb8IZ;*Ou~_MPk0@>
zrKj1y&$)5&Rw6_W4$717P@#pl!IZPX`jIEvKl4-d=o6faOp}golA$-eA#7f(E2kl1
z5S^pwXZKmd&4oTD{O)83JKAde7KEROFT26G13uC|N$F5nQ4a_q{8P!hCTmEj=0QyK
z0sObkba5pyfAbe9PPZCH@Y*_WqF94FqtMIk8I|>PVQ#RZ+{p+o;Tp`E>gH|~!hH9W
z1UhgxlI#3JWuPpv<9tgH*r)Nlb5LKnQ+*dLdp?V>vwU8X;-Cp47(9=a{?wN_i1UIv
zrYI~{b%s8n*eBcRYTb;1E$>52aK(LG5GS3POPZ~(iAWTDqtltqV0<|D{)r${%(>vM
zPR<?ueKH%^o&3^}j$F0Y)P!KR^~<un9FEkLGeul-KL7P1VJ{)h<9cF9RpLD|7dN~j
z*4Hg6x<5#i1Re1RAzY`nx^?4tqxW~E@i{Gf#ivZ2L6{3C-Mqy&YDVvV$cJVbYD>kc
z3O&_5WQzln5JGlEA-bbIF%D_=PwzNN2;vXx96qexpx}7(kq2@K0N`t8$8TvBD(3~O
zHy-Peiwr^%qLa==J{^a5=WYrX(Fs#(s<PxVqkjBQ);rGI?pGrwV>9R!EW#0{uwjKH
zh##JAh_Ad7rEgu8Z->MT=8j~+!e#O}O?hPURjDG(0*m|1poCoOdo^!9;<qf&E3*H4
z6m=BNbwZ=g<VxIaIKXCrDn6#oCQtUfYo%geueXFP-XVUv;FhhwVP*Ks&@V>%D@kfw
zeG8Mm8|zo_?*lD$Ne=12+On=8;(_}DuW(v&R_;;7D=>};YO8FXp~NK^O_n@B4ZGp5
z?!}#0{pDgm0#9!#s+1*~!&^lNCcvAQ6!yWYD~m{S(I6vyjZ}iG!_z;i*)c-X1=-@y
zL&MT*4(H!jc&7iTbog8jSkG4KUUg!}f*xJ`HU)_iD*xjZtC;qTL(|5kQ=ac^xk)iI
zQu1FmZcAR&M*gDO7>n!R>8zS$CZuC0=G&;$5D$04Dh~s&CmLA*O{QSVYOUn!b~9)q
zGY^hX=|6kZFroyF;zf7R!5%Xu$<z$bvEm@i<*p|_ADy_i;Pqy6>+%f_Ikbw*=IIi4
z;-C6T`<X@1XNe9rk#&+z&7Y`CV(r5V(yI9B*>L!Lw=`wGlO^6SU`GRLMiN)Qzw+ND
z9A$m-yN5q<$y8LkbixlLSxE8A{gq}TQ$X2l=C?ayZv3$!Q5h2DNMi?Bg<i#afg-z^
z$9M-~#Lt8iaZ7Jc&>YQrs5jXr`CX^1H3!X^$41MM_O_!6j#3a%75sh=j|uumfS}s3
zutj%#5cnT=_7`z712=x6{9*la+|}>;!6Xx(#y6q_M9rEa2wGmF?@6y{D^@$Tk|Vrw
z<Y*vxN|dlx7z4PTR(ZHC`iSjKU@5<|wBtoGNGE3$ioXHqak<f+`|*_~^(-olWs-m?
z;M4JIa`5@16UuAt#Ql>kN&9Z4cX-fYX-XT|S60ypg`7`r-j_n5b&#bWweCp?g1Xw#
zNo8W#UAH*Xq6dg=B3j4&6FgjU!dH0w%`BcYwZGcmKF(ami>hAkRdsoxy<@@i%0(`u
zsR+bWN~Y;DNBu=Ccz%b-G4J2$X%rYP4%*>R!Tt06+XD3$j-LUeGz*!Z0}bUUJ0XuE
zz4x{WO+l{Q8`ZL_x2zs_cyRWe={M|bY}p|k=HyeC<SNHg5!CNQ6ARxQ7i2FQ5;3cX
zz+mW|Q(jP&<GM+ey1e5LZ4%yidt1&HCmGoiXMXKKtd4VkSq_OsoQ#R4C$s)T5jGLd
zL*2iL4k7RJPLmK-A6Z7&&pYTQV+MKk)F8$R3x-@4(8YMO5?AA~!Or_{#*csW;P|0e
zDn}vvhEe6qF8yUzM_{Fr`{lxI!;$v}=qQ^DtZ}-h8R~7OD;`l(&$7+^mVXxYs_QR8
zD7&vV)ZO*vChzPAtWNWI42j6EW3BKLWvw0QpYxf=tkRvlvw5<zsM+!eHj{3GU*>o5
zvR;5GHqhA%G*m9munFsd<)%j?nP}rGug-GfgJ&tAz|<<A0Ncg}X}x{2Tzbz^pUT0h
zuOOC|&2=|1?PoVbqV>vyw0~9jwc@V@nI9;KkZ5&8Nkz;9%5H3)8O!H~aNy2X6I;8i
zrm}pIi8EEeCtS-q-8_3kqd%znc0u>|>MN>O6x#+L*(Eu?1=anWx0Z#jrMNFhQj4_+
z;}T5L`*LM)+dWM99&`rO)ow>v5A^pFTxzH2E*8C_;+10l7*aJa)H}RinYDZ<<|Z{p
z^E4tyWvy|vhZ<r+%Q3&x+#pRDMV8|$D?Nba+>cf;9Egj+$s<ktB6K7zjo7)fmHDTY
zgtL1v(>71ky>Cs9G^FR}e6`^KJ68_!zQ~ustzNYz!4D*BH(#5+!-x0B5-D2u2LJ69
z;z<5TdI+I^?WI5Vp+Hv1UZyEVZ8SVqqj+VDL>r$HNj7|JMB8p5>&JF4u{)-W8J9P*
zvz%?1=dsW~zSpYVJ}0l)NTNn&v|(k;CY%x9cyXTvQBS$vwaCJGIP}Xj+t@*}DdrKG
z84po<q&#^fziM)jYVsY}Apt#EMrB9p`EVyJD?Me01EIy$9H`n(wlA7qWbZJqccS#r
zZnZ#idqcv<S+YA=A#u7-o7S=c0B)ZRl0hql`+3vNs>LbjXdg2@uX%iQSc%GfO5eKf
zIHoE_TDGSmPjg9Wx8kO_@Fz-2zgLb0{CM??P+Z__isN;_S+o6yle<Kfh9=Yhqv@*y
zqI#mX{gKkOfONwGBGTO<EVV2pAt>F_(n!P7uuI1hOG!5fsDvO=lG4%*l1lnr-uM0f
zoilNFXYR~7&-0wQ!?GpO?|dyy=^u^A2IQ~t1(+MI)+zOchIDUf_RUqRXB%gZyP_sO
zg?!Jav)=~63ZSz^QUr;{?i>6232}5_Lw~>kzU};8yDC<xX62^sdyGDeQYyg4mr7_o
zXb&YG^+@RPcXzJ~jf^1RAQXOuezZO&8!+1ZUM9d5HOP=KsMJ(57O(vbOc((tN&hVO
z3W!}#(q)XsBi3$g6p^30H!jettl`U<nQyn`L#)T$MNO$coXV3~DXMl4MGvW57yC((
zZ$m16^oy8!Ms$gp(t%5!M-6ANf5oN?Nl|)~4(So#>z>R0NPcPSgk8M@XTnxAGsu4V
zvC4~CpG)j(xFR`g{>Tje{J6Ckg$_^bIpJy63%HOf`{CaTbJX(+#3;~g#C@%QJ;NVX
zd8W~m!tefw-EY%qh?651Z`RobwIhC@mZLL$^aR}VRr*WW>QAp~M8h^WvT@G8T0dX+
zF||`+T`bS&uk~ykUZN@_>{8lqw6FHxJr~BbIV0(nlv;J#ast1@yoxHu+o=r_gH4j&
z5@|b2Tt29bBQripWqs(^7;02FQaR6;SYLC<os)Q+*e|8W+@C9*$$z8~tFs*a{FO8C
znkEXlhn2SF?`W%#Y!oUxsis-bm1iQ>HR(}}EHhbcMz72K&8)_=SAGHx0J8T`qTY~G
z_J+t*Domd#HYb7}Ur&wP^}a=hOJX^nqB>9C3>-VT#l|+Fcby<?uF7e~2MsLGbsbZ$
z&lht4)4?<Pnm@cvh5`Gy0T}w~G8cr5$UKewxj#vwvdX>@_p8P;IzALmuh}lc)dAZP
zx&ScEhM21Ij?Bliby^+BHKpkVPnhUoVq%8BmoBY+Ls>E(;AEO|=Tod|-v0f4p}Xp`
zv&x`=Fx9um^NWjV$-y2P!`n0%E(tDOGx~v3*yC3*(;*(Bo4fQzn0~9M@#NiAuO+NE
zYl@h5+=j?sskl-Cc5-^58@Cm@MWC<gD48}duVL5PqS#iNG9(!SZm&WgTaPjzj7-9W
zDuU2ObI8@}5B^FoSU6E=?xMUe@^4@qKpP{;zaAe3-De83U%{eNpGo8^9UJ0D7H(+n
zJyOZ=w&AT6wlNU-SXahs(Nqn3SQ3{dB;%adw1IVwR63GF49P`a%tt674rwUb!E8b?
z$SU?&#SofNigdm|rB|yaMl6F@H3LIla+_o}$9fOVm5oKa$di~XAAoe5+&H`Cs+vxn
zObY+OR3Dc{Y)<`dBN_m}xf^(q4s>v(&{jWc?;@5Hrpn+=kD^xz7{wC&jCP4X+HdlZ
zR$%;=!H#xsfEHM$-+DjmBF)?eR>FjntOCW`wM-FrZVlXUoYtwI5uc^))*eOj8gpi2
zmG+fr2}_$`%;Mtp)#HT%>-0aKA-;-GAu#$6E8m~;A8@n6(6vnehw_3hC6ik9&r-^S
zbyVzRZFz615lIdscKH?xPPVw6YdE_KhT=t)@hZ|k0G}q}^HA0{|ICp757H5h4l2Wg
z^y}1MRex=_Ld}A0o#uSMU~I~EIDY+*HiMHz(T59;5<HAZA%UR$g1ZkgV{cIm<S*^p
z4s^}bx~g%WEIGLHB5PO1q(6nSuJQglzhvjtx3hHXVucI}1?9_4yKh~&=(wj0<%?D(
zS@P#7a~)_B{w<r_zM?=QeX@ONd^B~p?2~87Wk52z$qn)JhN-D(#j#w#vb!cW!F45n
zP8vY9nf}atWw<9>2cTyl;uIvj)ybcD%YU~NF~S!O^<242#hyZ|g!6<?Ea5IYR_~by
zWBd!7cu<p$!2|%Gvzf-}8Za-9bm%Ne@7La*awd6(sH;WDA+|LK1*XphZu9UPlymgf
z!T-Hbx_NyyyAQkgQ?adifWjUPR(SWB+z{k9f)^ZOwJrv|f*$%5@YqKTtM>A#c+&)_
zzJ`@+!y*@fm+sD|U>>3yN%UW3k<v!9vL#6kjwcQS5K+2+)S(n6eBXdHB4YaRUWq?k
zN&gcpu-xyX4#{}#8)M6J9_+bD#ne`k$eX5UJrcAd23d1Gd1TO2d?gAZYV}<r#3gES
z>l_M8Dr1C)az1{_A{5eZ-O$5{t<2JH7Tp^Pud|fAfL3yJsF-8<zaCmuvE^Xj)Y2vV
z1-My(dxbwCERDJ_G9;Nd=bD&<L|Oq8J-9oV|Dm(6F<sJQ&;5&xn4uW6+VTX0Pq6#z
zu6%#6cXN!q4c4aKbuaU)jOrBx%#j#m@hQ(AjBm1!W%~Y8@T3@iH71LL9)YJn5#j=x
z`tWkp096z%934*|RgBV56U<egONA%q<e8+&6KglCHz)m=Z7DA*F@`+*VOw@)Tb7=t
zY7}TF(#D;ye$80{k}zHZoc0%Oa}_nhicR=om>jXQV(gp79}LGn;6^^O@0_a;G5;l^
zqTT`HCCj%zs4(=m`;DrbOmX#b%rZY007+LGFm|(47MUa!iOp6c4)w(;0Q$<*i8Ew?
zwm4O+UuHf#xV-5uutg8@oZhDr?vh;L2u?kJcJGkSTEW|@|LtDsi}s5yV0=(6=ZIg0
zVt`>ajf-tNBYP{XW%5U7$TbO;;}ZSjQH-A+%4s*Lm*V$OlkHDb3LIXyZ+`CXECZum
zx$?8#Y9Sl=SA{<kaKPfb<@>dx|LDlrr`iJF0?ACn`XimwMyu)Q53Ta@|2GxB_4JfA
zS*ej-F+ctA&3Gn#`Qz!Rv>-F2KmW)K#er4A8H*TYk<T|GbBCqA5IgC)0UWqy@E5X<
zr|QBTEasHw5{1I+82$O9UJXe^!f-6>N4@IH<xf*>v|?R~1Atee;9&jY>_<Ph+$Uw^
zdqPf=FQ_Rd8&pHtrZrP762Djr%ajAIiiJh?`n};NnCwks{(%*?)??7wFe&}`xLJvJ
zV|S@?mjx>DGE!*u=K#KmJXY=JXO+RGHag88!XJweBPfK1veZa;Bh7U~hX#jJ<@$RE
z9DUtpw{al5i4v|pCh_3-7PoF_rc|^wwYEN#T(n;DyKJuIXigrFeY8C;kgz+2^^Q7^
zyGutMqv4>JTd{3!*RfOnU9Ojhda8y$Yq2Cn-rIW@aTVed+p?K=7!9wJ>|3YF1Ccf2
zueevr7Tn<U6C>J``W+Ii;4~Neb=skU`C*9mCsS_a%CiyexUL)DBB_qV)Ryqggf01j
z+0X{HW;f2xy!rg1pNU(Ksc10m=gic3c*LPp6;z`Ut$H_C+)uS47O_E-_=@AM#2!DT
z!Lj<$J~LV$ycwC}m2G9IQ-Y(!i8HjH>MHGxo0mwQH@Z5aCR~Nt3?&U^AlUoeCEzY#
z)(4Emsz01y+?DPm!Hr+YzGtZIk``|H3~Ur<RXOvJ;?5EK<PncEB^s;d1#&G<VCh?l
z@0adxC$$S-)L_RguzAs6T?zc=SQ1Nd{E_A6t%qHW*{#2c6Y-seV%(%k3<I@Pi%_Wq
z=4G$61*Z0TGwOwiItCeQ)cDTUsXJXTT3-wuH(Z~r=GxeDm_V)=puMI}J-s(&n4)PH
zGRPFA-k%WJ6dK0$s_{IVI*%2&Wx`)$dJQ;c-K|*s#`WXCP2WfOEB<z{U#5pRqF(NP
zRh*X(2wMoJ5iIg$s1z}CWb_t?3RFCFQlx75ypUaMS|+2Rz6OC+wg`Cxqa$#@#O`gf
zq*5R4QBrScRoEdeY1)x59Q#zC+(Lp>&duq)uj&tH76D;%=uF-P?ws}RQ&6Si@-Zms
zqflld;@|b0xJJ5eY+->HXy1S$WI&?%8AeyDS@Pn9VL-qi?lX;7ct^3L+)MfPY)vn8
z?+N3!S`hq12#ZNAvjiTNZHlE<5)PSJiMSf&S)?{L5hI9~ua(P0q3}mKfth-_7*^Im
zxZy{BhdpCp57B?C(-bD^<)&1uOsk><a~H8;r4p^sGUF@r2`Hl8dFh3S*S4+c3rUMo
z^81?#FlbtLm&&|g*Zc1#xWs%IuV{de+`mcwIZF)kk#yB*I&{D&Kd1n|!E5HWe?iS4
zPBP>JIOax9<b&?br?y`G(d7)$w8uuN5#^?r(%Yt&W(uC9n@+xR*v5nG^B#pS?GD_4
zhYI|j&kvP2ck|Z`CUB2Y=itXOY(4NB1^oECK(i|eQQfFy=aLvBdp0R|d@AsPFmN3T
zj)|g051jQU?aRZkl^`u<bE862?uClktVc`rJR02`Cs1;PH%D-`h90qw=;1CWR(coU
zJebgi!OqS0A2aB>G+A|o4@En2-Ob3SNeAv&MZb3Xh4Y?Y7wZd0*TWfCvQkqZ7nj&(
znIhmDpn{#wE}~=p3j;|aqJ4dcVQ}@auxxr{>oHH8ykd$g`Y-gXWW{hlg*4K{dONjL
zGE%TorW0f>1?`4L2(9k4PAh+44igq9Gw_0|g&tK@#OrRC-&_S2B77&_x}euCL16rM
zekwUwb{>~(4)Xrc4k$!2)<r9|0k454qcJCAh>DA|h1j)dO*bQhtz|P+$1*2$sHzy0
ztf*+^Hce+?H$=+q54>0!60t5g_|v_t_1v^7Mr+U2Zgsw71Gv_{y0Z{;7nk}l#Ec*O
zxt#Q8#?Kjy$h>qP@&!WBAuk7!85ru~_`{ILxkT^|GN&E4pCl=d?qus2O3rz0nQ>5Y
zd)s*z__Ja^sUrxy1A=^)Q2sAF2<$y&?|g{?V817-K_MpGUSla~qmRo_KhPsH788Tp
zntM`79Qbj94dGj6x<8q|?4FD6#@B<$8Eji8ES`YOSH@0Ol}<)1ER!=#Ob*Vs-o5g0
zMaxYJREz7%mEopYlBex_Hsj>LVD=0t;s%|dyfmF;cZvA2qXp{;+DcezW)Ak_0u|Q8
z948Nknsd)_Fe!uX6K^#`%X!c`pJKaH4=QkxSGpG^Vo$)JYeA0*+EZaY7jjFSO&NNy
z;k>qgc&KHmfogHE<8NqHtU=y#TQz8)=`wBkHER5ab{f+o_j}Fag?#%;P#f}8pnBce
z$_&-Ns~M9>P^Qs(F7VE6R;w}2)csOa6?=sFr|t7+LbiAHX@9h6t*ab9hn@<!tU6mY
zA%U+kIYiKVS)%@yW$$vhKWZ&gre6Q@D1dI=gj@gj?+JC*gtCuoB77RQ-@{W+TD@@W
z_~vHcYP@D`eljfcj~u^9^l@7A&9ACWA#tH`<1fncIDBz65%5P*Q%m{jeBw@<grijU
z6qMeB&em5@{}la^GD8wLa^|5n53dR%Sw}UgE_V6yZ7}-z{mkgEVfn&QT@0@PX4}u)
zyN8P0w?`R3CwGLSpz{Vzdj+ql4rR6a%1Nh-yCZ;g2KL;r#^$ne)gfl=9n=XzjN+dX
zF-HLO60L04gKdXzBG|?n^8=ES-^jxS(aXy_FJS=B0S@Ks&x(y<gt@WYWg^vL5aYc4
z^vYn-7nixQ48mH3@Tkub8xu-No@pT*_%WD~c@J*ANne^Om4v*SJLlO||Em=Rz@Ho4
zdOn_byF2J&AoUE_-xbwaiOr*QKO~XUE1y=EO!|U|@cf8&8@Dj-7*(gYso5t5K8N#Q
z1qgy=&Dj5-s-%C(ON7iXNaR=@awFu&IlUS5VlW5|T<iby_QteH^H>BlbeHe2D*b{9
zwVzUIzolGa?9#Der4zE-x$0x0dZ@slf7{85DTnXRVvw1yr9O|Qe~4@InNV#99`N5+
zESQYv2k%^3iRi$!UgAer?JzR=w0ZTYwruP1BH<<lvR>ej>2)6i;<B}9E$g_?tH`L=
zd5mxYS|@ZS-EP}9E?AO8aA!i|JzZ8@lK>>`k+mol*dhqioXH{x*FM7z^o){m`lW&H
z%kJQH&d>`$PDPg(5d0oK2vKGv<DSnnxaj^iW{0t5!fg=*jH3g+y`59GBFd{vJ^WU*
zGTD27HkU;@+V|%MBD9rbsQWpd)UaxT9(65K(s~>sD@9RU5K&l)X6w5#HlK{@xkUVD
zp)lc@=@KY|oA?|tAdaVmBgr0)<NQsHP)2v2YP9GP4xB<{OZ|!9I5Bc)z7P}tB1-o=
zr%B{)3jxANviHI8?aSPSa0>_NszUL|rYTBXS13QC&=$>Rc7@6I4b{*O!pj-H<gih1
zg~{p)<wX=;oC)Nyu%<+bx_Q0*J1*@(UKr3rN}{)jr?kI4P)A;7Jn(U+9M?M}rt_10
z)^kLp(8-+xno_+R*uf0Ti(=lm>a02I{D~-(-sk>rF5TMLo5SJpfjOs*j&S9+X4j`4
zGOqu!?4&rDi9jYD9N*>t%Nj1aE}M84meP)cFO_$PcrQF2(IcCkL|z{LW^}_qRWVBn
zY$&OXH`sz7o$S;T9R@;pa{j_~n?1pxl*%i^DhY*zOkoYEl=8n53TA0N9S(1XF&^{e
z;&J^qS9Ki0KOw4ThRK}y<0<O&NN+kYG*w8~OZ0{RBjjq-PPYQwr&_qD)zV@r{Iu_v
z7et;Gd@If9IBcf=LlL%y7RD#b8V$W4<n1!>%}JL)fstIJk37Hvwp}{zkHyi-WHldt
zr@MXlO=};`tVWLHBP<(_4b4SNn>vMBcDS?|_)-dMNMS<AXnKz<1-oQ-*R3K8vEj&N
zo=)IQc)3bo=g{;^@k0)aka59^yugy^B4FT=4N><a3XE4F7t%G9UOm&XSmj$aTs0Vn
zW4wENn>c7T^Rho0UKG{)4GZ_0A{^+807P^!!ImP<N8Q+#ToqJ)rn5L^mj-XeuMHFJ
zEGYgx_x6{X>R!Dnp1QvK{AFQVk7?&<-|@eE@?SvuI7`#Uhw|9oT_mz{S$RGE<M-Gv
zOzG}(=70}1@<cpW;JKg?O;M4RxwV(;=DQX7H)ZB_YcIJOZ?Uk`u(X)dW?}(kRlXip
z8|hW0A61U%CWr8tQM^=+owMu>@6iU1`1UgB=ZMFy*(Xm>B}Z4?fGDt5$h}HfvEV-~
zkF^4vq0ykU?9gdl2JnKzxry2h<V&Zfu1Anw6ztohYv`<*EH1v(g^8LJIP4^%WldjT
zwdgx8yuIz$Fu-&`E^oVG+!<VW?AGK?A0#7<xgJN3Xn#w4_RWcffiqH9M*-oDE&Tm6
z$%+0;y`E}>^e$_oMEAB7IC~_uPHKFN%HN~tU+MgYyin+x^4)3O1Rk_bGELanpi75C
zf-Z^Tf}j?}wU-f%ESh_&60@T8C?dc}`g?e6CL_WKF1EKFja&nB>`ZYDZ-%Dl3e(jJ
z&=Q>6nLEhr-;DH4rz+bBq90}9<@Ip}n6%B_Ueg(^@aK&75#w9F)NX^~@YpGFnSRfw
zO8i3vYMm+-st@<U^ILO6vq{>n^vT_Dz7hl6Mh3ee3k9JGW8<}D@Q+x-5tYi$di?y*
zwe)!}P9SysNiSH5=F1_Ait<TGcmlgOpg0`b*SuYlgZj>eZ$jmr5G<B2ELCxW-!xoY
z{Ex;BnEC&BRMJ8xd8$!gelpa}#x~Xh`ZjX_WgPjBu#a2)oXmLwnKl!yeT>l$k@<7`
zh{zS=WBj9-swYEsjI^G)g)jf7`r0F{%u`G%r?05(w$k~^3HdogILT%^Km}3AX!TLN
zmQZHHe-kCyH_ZT+<9g_wZ`^Kgo*R}%1ohan%+>Zm$qAMNK8?a$x__EsfN#(bukq&w
z5q{FdK;Rx0aQ~g5i9$y*wYASNfq|w8RiXVGjh+ph+vO*e)R~Z<<ss={A~=UalF1~s
z8d6wID19Y+H+3W@<hfVbiM;4E^ap4e+3>EP^v{m5R>cU=;^43IpRf~&Lkk($wy|}m
zEArKm$Og_H;5SaH(>{lS&jzuuce~ryI-jjaV<V8*M4+!0r+{Ug`P}qp#on2ErQXoM
zlhQ52p|2K0>a;sEj8Ql~ow_1%_p!tAd~U&P+bDW4-KQPRTVGt4nBR0;dBTHTU-Q}N
z@PMpchnuVC_Y>L^@56}c`x0?qvu|8?K!5k?#sL?j6{uqZpIJXZQFtm!m6B`Q4+1GR
z!T0g3k7)lO8&2XzBiM+3LZTmsDi{he2Q7Z=EBRevSwII)!-2bT(mQ-Mgp(ODObT%&
zhHdFsk#Y<V&3WQNMwPp!i?1gR6uB|}I3U!k{51{q^VZ9qtX|2$g?p0x5uu!`5QvZV
zhQ;QV&YFgIRnuR8{fbtg+>$CzP0mhu(42||bBBXl!$lZagg|G6`sLB!^Q}@mW%prt
zXX#Um*C_GQ3&SKqDEqRqhAfK~MK%=)#ACf-7IKw2V=ChqD(Y*i=u9Ew@Sk3pQP1Go
zzAk!sPgjPam)pby6I(G&S&T#@8RHmdh;v%UuR6avobFB(RY=?>WAH@CIIQv8nxjjO
zxBi~^W;3BMbLh*}8%5UlQke|)ARYgQa%rHvsV+2~^)09`ByOX)Evp|<H!r$h-sCpq
z#9dA(OwIG|>+9@fZ=Gp{-s#p6NglrZQxkj>G9+cz=fvGC!zJ#b2+9-Xw~dJqjk3=4
zyTC&4*IV|XSjvE+wUX0zue&VpY~MLCx`2PZA?4Q?p5Hy|sA~$|Y+$V<wEN0bLdxo6
zvmg--2!NOARQp~A&>C-M|0S#uYH9NK`AQ3piRWOE$SUzPW$P{q$d(3cRyH>Z87gQ*
znHcOAy@vg{<vyB?l`py){W)<xN8`kc{2El^>lu0ONt2G~*C#V{6anH}cS!n02Q~3R
zA0@NN>5L@_&WQDwju!QFq^Qm}K}?l5pVWx4r-KI_cu6AFjhDhLbppgWz7y*EX9$%S
zQKJ8pzWSP~wcQX6s2DGOA?e<9mwJVD?+0<0Nt7#^L1XmrHHG>znY>h+{cScH8TsF|
zl>s&Vm?^WgH^3ZT213%S3-~=ByQ?epzn^{`=mk5;bxyTGXXrHy2L~$(X{2jE+kj>_
zY(TY%+MO+!zSWomPxa?)62_AeXtKk*5gN-9-JqUM31HeuBq-K;iWK=iyh>3y2rd7B
zD=hZ_mKPh1oOypr%(?p-MVz+QrM~I){uDC6ZQLTiZ<e;LhiOqsqXJ@rV_M)2)mRsZ
z;f~l2DwEx-Mr)>DjpM+F`JKGYqnD)Y*%s-Aovf7(tqE!TBGhM;G+qcUWNzm@0VnRp
zh~ZWn+dZ`w;iV=0yubhB>qko{QN}tI*f86b*rajyjq6mTuqZZ_u8Ok>83v$>8t~f4
z32!M~l7}!I5J%{>$$5K>!?nL|q44Z_r0h$>aVlVVx}M1TBRUJ7t<La<aL!!3V^nkA
z0wxEVUO-&HK1E}IqVBvAlSAr4lH%9ZyZt1^-Nz)s7<dxGdd>>hm|@;7*WGDr-kd(;
zgejv@0<<&}4TX+$Y?2=>RV{7**Q7m8oTgYr2VqomsZqUrGEWRgjy4|m$qQ_h8?ZDN
zrN!~C0XJk7t(#K=Dw3$i<C0@Zdm@^wRGa4sd#GRevBPk0UYoS+lLILMXx0e`noPrL
z42vHd^D)`JKfBs0*nKbz-iXFq@xY`U_@0(N<!*_*+ddoNm!zmUR#s3!b$fe>phUk-
zM6Z;*`213x5pm#^o;JBKFyk{Brp<;^&htiDEtAm4zxH41`gyvsj&^OR<t3bO<D1|z
z$AbMft8>z-!ke<jyxiq(YGTvWb}s>1^tS}ID(MWnhe&?ooEBV@%p*Xns$U3ev4*dj
zJ%!d!x_kH^ZWlAv*!;etlO%2rF0*=db-dmJ`?)JE(Y3!#Z3Zs-%_p;^q6G<S4njMZ
ziA1DLI-$S^)PzauJ+jYaZc<1>Z<v8_$ARc%<Ge;jWsB4&dz=N|<5$LST8X-!A+mGa
zBMcJ4WY>$*yQMN=%&*XQvP6qG5O(vjSg4Y$2pLG&3aZMF()!k!mf6ZhdohU(2&0uG
zM95|!5`zwuM2aGubV}vxvA#~N$a}7;ru^*3I6NgY=1_@n+ZV8|eCEABpfAtHS1_9L
zvL7#<UyDyLOiYgt{LHCts!q8so`Hn)qVA@Y>twL)dw)`}Bo&V7zmTf5Za3Z4afYn}
zh5{0Z5pIE8%5BcudTMg2<`-AU`#w&Qu@7%wveCKT!`(YsYse2)Dc;xw7uBX6)O6GK
z`dtuB?uValM}XFz6g@4;KacTg0Mtc1U(fa$kv{S53j4+|?BPcoPxn{R9gzU?FzI)}
z2bDdX{cgw{2diEfbYg>2*#crHOW9gk>}pVsD(lf3xS=8Xzd~WO<<bjRv@@(e*Qg*A
z_LNTHBP%qkttN;|@NYP!3Ox`Q)#n=(1c4!QDtS^bQ+M(wHskA$cDA?Qg@m3?bLHZ_
zyGRgGiUJVGMPmw09*1@Rq2HKpXJv<babibTb(haC(@n;D_BBMkjaA*^;1ogS2kqM;
z%Wd2E*(^EB9l`_qeco+y75*udn3Pgo?qdUc5(FCfJe$H*v5`rgqBxCtwqr77_etRa
zuDnF!@>Mh=GlK3i2?mm3#3t?lisiMQUt3TR@igX{KuS27%h6&}wAfo-06`NwY7a9c
z?Tyy7I<P!2wkBlH-B>*#MjQ$+0b|dnuxG1zwUSdyjBmnNxjWiw$9%F~7d^3E!2RD5
z1*Maj@QAe2D&^ECUjNruH3&0}%WK7i(vJ^1(UVLnGtuseTJb{z!-TTNKDU7zHqr<R
z9%;$yFBlFjo@HOt<Pv>9Gg>XcZ*<Bu%$VqBZjui$33M}@6c2BF;~#V@Zs1E+@hcso
zNU1*0`Bjh(i1LtIG`Te8j^EBAQ<ZDEob0MblS;n#0r?P~;^9J=e1gwF+O=wmb#i-1
z><R{3z@Odp#j$HCv$wMcnET)UJO;v!oC&`AuIRub56N&LY~+<ILq&u1HfKX>c9(82
zT3oj$%k4`RCQ)V)$L-`^oGBF=Iy!R~D689^`z7lx5DV=RGsdr%Rq8QzzMbKsbEUkw
zr+3;{NFNZQze}&pQ6;reUR^l<WSH0lDMu(ZGE%l7HlC<?yn*P1V{8=4bkdg8M;8H;
zvKRyj#zf*}_@2NNpJW-d4rs#v-Vy+=t}Mr=e}OUg;p?e_4VxT&UC|lCzJN4Jd&Q-*
zR=@NbLzp<_r+Qpq^&J<mCd&Z5#4aAlvH^2rzvN5i<o2df^IJeL02H4P^BAY$D{MZc
zjHz7C@BEiL?F~4a_NPl<7a)bs!LM9wICe4=Ka{VYeBZr9@b9M1as<_YMzQP%j9EJ?
zgSeiI^HA`o=bduA8p=X2XuKrr$Bg}hriSgdY5<=ysJtq1=DW}wBIfltiG=B0j67BB
zFt_9d_3%NTggDs2X5@c-hU#0DQtN!w0<g%&vj=2rtfcBLP%V&ps@PhVPOU09nBB&f
z3LO6_UWgkw`%NMGgq6dRio@iom%p`B=U(zgo{Rw&lzsaLZ2WN^!$P8-wF?ziO(|&N
zUjXLeusPgreNW4@y`0v*U1v1JEMe3DJXQ6{mb&RI*_KLijuOU2a>R6&h#Fm>#>Gfl
z%`RX`;VpWBaV)!)Ge2#lkCBQmLI5ZUfn*wU14hs#3r>VK8Cp29h@7)TW*y+}JkCn?
zpBYM|96jRT)h`qSQU1q{osW&5R(Y|d4#<;jq;xEjh9uW?=knN*8xJzVg^{$Dc4-El
zy&dbXnzm-((+}89zR+$R0I-sA$QkMjwH!$X*8+DtRc_6D(^ueZb<2Lb@dkEc$1Z6H
z?$$v>*m#LZlLKptvgH!wYN_^YOZ`KQwTTtY&T$E2<fRH5kt+Tz1K47MZ&BLe6}Pa4
zb(lGsi|fR|YaNqF1vS#eyTI;}1+Ch*FAtUVr&6{vgw3YE5@?O2iK!-x%SKPQ`Ul}>
z3uY?P4Cu3?_DG>x{wzxZE%cC&fba`yFI(Knmd#d$wjCSFC<$fMBhLgR4R1#liK
z^ox^XhxWDVk7Hv1Jvl6$wL|%8d#El6t0V0Od&}esI7>Q^r?HM=T|ioqgT8M6Z+7g0
z?n7=J*k?0TV9`AAOw}O8X0Qeai-i%MUl{E7uDAF98A8K&OvWc!1A}=AOt`3F>I;x7
z<>r7Io$v0<=Qe~AYMB9)z~y2*7;1d)f+mqwclrB5cxq(&QJ3!Tm;EUBf~KYd-xP%W
zuVsG=681Cdh%UAmKDs*Mp|1Dq7?{X_nzykAMf;DByM2RHBAild5QskjV&Aml88k!x
zQbk+e`qyt&^_Af9oPzFR0I+xXw0&Jg8w=}<!4P)$kL0%rbZ|^@2i`1TY}3l3<nYk;
z$~=<<ovD7Sd0Ei^R+k_J+#1QlN@(PJnsY_<n`p}i?<aYg#&A<1M?lqt6Dv6L+ZXM~
zjH#}B4Q-1`|GZcReFu*TKjx{@rwQqrEp@9P93CG@ogi*(zH$YS{WbwdoQS?|RE~Cu
zKd{9CC_+6<*FHlAiS^DPH1f4z|2F_yf1nTGM{VSi!NIkqq2=FR25YImat6rPsfT!q
zGXBnl07Gs^!+{{JA;ofDVNUyn>;)Rsq?8-LE_!dSdWwu;xuoT`*pQc4quZRyfQ_@f
z%B5HzF{pwmo<IAcUcw8gr2#}P{~Cq^Z%?uM{e{-}D>?8*^wr?pbSE23j`csec*F9v
zGu~LDygUL`{<Tbl8V4s{QT19KmH9w8Z(i?f?*2B>S37f|_xMu*t6+<|(X=NgG4%0y
zDXU`h>+jyX@qF1wC|M{j;NW>qAnyYGikniTVn!p*vmEmayz;5R@hhI3iAZ?I%M2rx
z2ugHbp(9hs+$HF%+`7arM1dFM&V&|2PPZ?)6Vbli=i|<6vtF?4+@4b!`chZq$wWV%
zWzO@CGsBGz;wY!~^}>RH?|Gp`w>;#7MgP%v2xBeuX8e`a>fWpw^=Mh7v0wco^rj_k
zV^Z<M>5&daRSppPRoekA)^N0no<1HSBaI5Y$^=Ie=ywN8nH~{>`hV(|xV=ohI25qA
zAmnd_1>ObwxQ(?<|It%z_`q#kccjh#>1Ote8^fY^Vq<tfsK;XNDV9AYZKBn;5WE4u
z(4pvTJKWY#szPt(5T5289ukYG_Zjx;#0bNAMRBP%YH&vaOBe#@^!7kgEmBXgYclkn
z3UzYuOLQD>&J=1bB$+jm0nb)`-QUtYvGUwrQmSn!e``~bYpPwL=hTn8ChzHZ!4u&E
zhD99wy*H_azqNicq{^CS#S)B%rt(iKN<0i9D#R8(lePgZ`C5iF-^)Hj#meu`eW^yx
zek5707WTxyF!u=JG!>8f2VMNKq$nlT22kC0QH-&K(0roJAZ`fOM`Z9e^0F~}LB4P~
z*^|1$_089<w+r%;Yr+BJny7W)X`wqpa9a5zSW+shQS+7Vt*Xt+myzI^<u5L%)Qqs#
zdF52uScnk`wpZdL5MIjBzA=E(<_ze`Y^`dva@Lt#&xcJK#I+9h3D-l+O_lv#DEBK}
z1l?Hl46&v>qdsZ&{jT|>+^7E?p6-5n))U!frks~HK=p{w7Wj?+OEp$}X1@x=dXa=U
zwCX%P>p9fz$O^a2=<%UJPEC}1Krv=NALZLDJWLfHPGWUdR7TmiSf2Du7T2+#eLSX}
zHk?~~8;Wr1A_Id6M>M_B!K#&xKg9><lk}{YyhuhRT@aN3v)`XHQT5l(mPo#3K?)p6
z@!-x&P%5dou2#`bspsg+e_ju!QK7Y*Iri^SX<0+yFJdDa#+Ffn_QlsRwP-ihKpd04
zlJR$80`NlhTH~hD^j|>qz@1OFf(Lhxs9Y-K@fFSBa&t2b>KmYHcoB$0yQ=uXXCPBH
z^hrk=zX{+|AjV?G<W2G7cvI2#<ISI|d913I>kNl{vWI9+xb3wSlhaR9Cdk;(zKlr&
zxQ@=iZdQ>`RuH-c_9JdOp>Er*oTXle_(_g4(KO|etqhwsdZ*|Q$=l1S*syD?aJLF|
z$ZSUQUkI(4@{SboV|QU=brv7{gP)@I6u$kP6z`udjWvjButwXUw9AVGtWInD+*yMZ
zxoT!6r2D4{g=6UnGaDRXmC-QzS3q{|Ur(R~71&JOL8>}61D2Iw8Mu3(;D?sTUvu2w
zCb)R6mK@gLo^V5o9CX(|TXW<q(=&4kE!t%MazTCRj>NKjNe#!1Jo)ZS%vB?*^$!$Y
zjKaxC16k{riJAWSad}qpbrx_EVn1-(E5C44&QdCwW+~s`!c`^q&7n4OY6nJ{%*IT~
z;34u;2GC{7+VVL5L;0(%vBND*wL|uz@7JfAq&jN5;1;xi75CM?`R`HXBQd+4Y)ns2
z%-y1M)ym(k<O_rCCMe6Y^)1b*YUf=4ZyJ>#VRxNA=K1gk&HhMMxzAZRQ=+`(V-0QW
zy=G_nGF*V$bo1n_d^JJy7Syn<Xa@}nmbrO)+Xc*$$=XO(T><~5huH_kE?$!qXl+vZ
zk^EKavt6KjmsI&mRvh*#Jxb#rRqRe){7_NuA6dUgBMvJfw$=*YbJomzDA>{4`ix(1
zY5I<0DL=Jan5Tgumet-2m;bHpkV#QGTU9a0d62x3pT6Hn$tHwBi|WE~MDPE9F-n+=
z<_~KSCv9#d?F>5$up3|M=}*f?gLz|%>f$+4J<OmqFFQ+n<0?hRvH(hw+JR~R3$ab5
z`HI<55}?xe$}g(Kf!j6`fFvB+p_*nROaB3}1fs>3+CXGHjNO7qa6>2c6}id>^S6t^
zvOq6Cvi{y%!wz<o4-*hgxf|Dzamq0l^a_pe((+x6m>lir@m}^U_EG0~C&$R%{j1C4
z;E~pMD~^FQ7nTlf^mEZEEc=+5GQc68zVPua3KkXNVT}B#FT5F65jWu#1rQ7~3m;d+
zPFC1^o_u+Ef)X`#`x@G}xO_M7dK|n$5%Wa7bS_`KDC0foaJ?D8<FiIqSAwurROQ~3
zTCrxS&bHMkzGnZqrvP|i>z7A#VC%|_iZF6^@ohompkojtqDD4v<fIN(@rBxk*=MDL
zUca*QK(2s)mr7eJqJ6#>qo%ukux)l*GM_>acPLsyD`IA?A{L-<9b=#L<&&qrQoo$w
z#5pr#1c=5KFGtp4Kwr2!?&d<A+>~3tx$|l5K|1Eh`V+$8!idhmt+Ccmp&ZfB?SG)t
z7pm9YYGR!oQlt_5NX?v&?RbhpuHE_{z3FMe*_bLfx}|D3ltu*eexK872=y<|XWZKi
z@$E34dC`jNvg|;jx1ey`e#l#f=t=)k<(xn&m)46e+aZ}UQ~%JR{AEdE7xZ8jn)&1V
zZT8sQ(h>2J2tdqJaOblxE)0Fc%1$F+P^5b-TFZY;5-C=>B1udnTpY?D8-|zJP&w7H
zb($<xFAqRxrUQjxLt5lqi}~;-vx#4takx#^BoJzd4%a_KW%b%QhF0m)xvO5UmvSr|
zGg)f)Z&~$rTF9Qf&C^~W!|hr#+&r}D6p&3HZf+FN+NTz}XAU8(yJO?o6G{a#8i42D
z|0ZVuW!xHuT^kIL2gO<@)V-}b^a1{!0I9387MS!9&3~YG7u@@UB6z3u02U;5cn9=U
zPFf;0^!5BR8(vQ5smLsv9{fo+DEC$m6S-}z)=2{Ke4K-0iAq?JpDWoimMAV2Jm3aB
z4^OSN!B{|~p$8DhlhqzG0DnO2?{_uH-AtZGfoyoA_*xR_2cQQ)c{@xxP-ec3`gd^y
z9^dYY)PpJ#DTLYI#qRMZYm`G(!j6Dzx(~o60E&WMjtSG8yysqD1-PDXD7hmtWdWe9
zXg8~Js|%9$3>Eo0=IXp6()PFCq5>}x{0&D5K@($&*;bLp_t%4Hgai675P|N|9aiPi
zfcpy0Q)>jd8WeC!%O{|lvtG5i-<%VVNdT@LMj&XdWFZ)*99>>0H&hEk3IS*&kOHGj
zC>B8s*6I9=b;*F(Q+7q?$|L6JYdmauDKAXj_0&_5aVBn4aFP1NhESLcp!)nIT?LwG
z;vT3d=6M3>Y`jSM#PEi@JUAsOJ}nxVJoj&rCuAY%yb-{&GMw{}{uywD6v`SoIqQYE
z^T*Dsjy~C7NYQ>}g<qb(C*STNdRD;$c^2d5U+fuB+7upsMmA9glcotdsVs6y*E5)s
zPkVeRZ`+%VRWem!z*ywV4_$;c=2sTsXVb<!QB(tSo61;x+;A(@2V?~;dInzA`g?R9
znx<kDYZeU1ML~M7YsH+7fiC6<I1A4PmLS*X@X8}y(F7oe91|b9FN0>M9FgisLXOz?
zpK2c^nxX<VM*J$_Jod4$=x}_-TjBln@7Z#j&qlE!>R6S{43$OSOMYb!KF$M`zO~kH
z@31@&tT-m51;)6!?s3FhL$Ak<rXIj&7-w2){}F_jJ`D1Mhz8eE?+1c!P5niH_TN=r
zbAu+}$SUKhM7dMNYd;zJ5MO@YC~2P+RIz5Dl2y^vxC!<LaVmNr7sQWD8J~y>BU2TG
zm%r9;`j>N=x`qyg%c(R${D;?gXjVmBhyjH$$)WXkZu{7xpI?(4XXd^t1qC0*qeH&|
zP{JXX>8L!KRlsJErcFkrn8L=($jASK-S>;<+AX<ZoYsFLqRAt}jCyZdhzhmoUl@#~
z?+fOvm*I{ZzN*ooSu#-hmxjj&=ust0Wuk;8HAchZeG%$LzFH{<6Na36eXQ4XucDt#
zE?7wmb>YkxLQS8a{&za}bgE?}u9T?($mO<@6zU=X1xs{B3v-0qPWY3*B=q6T9y|Bw
z{hq&TFdo+ZT(^ws<c4(i5&Dt#+jHLj*`&?ka~^v>aOP;@RV+sq4tbMQpH*S|mJ|B+
z!b(P{3xA$@bSe3)QmaYobV^{(jW5<{9T;dKYquF$<kB2-|Bm_xye2K&HjM;e-0b`V
z4(v+b9dc`fo=r$s9u$toMtO#oerSeum#mBL5_xUt#-+1_JmRw~)7#hm<~~-tJ^6#q
zKbNaZK|zRpPp|~rI#5uu)!U6#k~kXJrAyr==$z3%Cl`M>F-FdE5n^>+S#6L^%XEbb
zvf*}pkrzm+RUZB|`g-UR#WSM7!P4>2#%qF(P*~%cdB<C2i^}8m2CK>iK*yv9=!Ni2
zY-rav+)CmNt2p#wlZ4stfNNx?vwR<6|KlvC<<|1x^<$1b9>iB701&z9v}F{E$fg=D
zTERIQLB8N@Ci;%CN(Q}C!fVI6ByYF6vP71XSlA=NYDvc2LEdW%(|o(LTe_&Y`}D_l
z!8icSbsVujb!oREvH2T3neRHphr>e=(O^BM@=yQ#%J?k?sPmV6|KGPjIex{28G8zj
zUF+`0w}n^30Lh#EP;5eatVGJbx#)t`uKn>Ub@}EYb5(4U3NrzcqNVMC%9)fB5j_k>
zJKtWFE*7CEJ)Vmc=_yb3M+w?a?HB(Z4Q)8t&hdx~qayU+{}pSqE0F_R5sU3gxy|?Z
z<nTWoF;p5M+-l!HXMc5Ke0Hlz`HC0q`{|+0U0?~D)2dw)T-X7MVVk9GX%~7LJM=KN
z%E>Q(E%(bWG6g-dL)mhNlMCE`a#F{C6b3NXQeeUM-{%XLE^s=uO`RAIZI?Mk&x3Q1
z{KmwVJh8i^1s~58GGl)6a3UYKrJ9*D15k~t(tvLHs{jiUMue%n>#k&q7PoI~(EYCW
znBTLWngCZhCK8L?$G!r;1-z<Naz3*fun~c{Di^%~w`JmM=-k)bgSCQ{47H1l;YknP
zO$r0oj_v(zPb}SVHHE_6N_DP`(Y5%&e4W~W<?mX57Uk)Lp7VU2hfHt@(;(@Pb1H%Y
z#E614k4YJ>3XRTE`<VPE`BBA>%nK%H_1Qwr-Wjd$Z<Yc{LZo{94DnfsJR46$mz(Fs
z*8n_<=iw(+lj(s~YIW?_=D#p-sBV@z0WRFK*BB8<i-qz|ROP%lAjio$-RB$s1F5EM
z!}^SnQC7A9TPUw7r`YarE7>kmGyVz0l}C^NEO*En^`w|ZtI9-ddYgT^V<V0VeAyJ`
z$&(hU2o>zT&`A|@nP5!UcjVe80un~nC6M3b=|ZvzE8|Z}Tp~HKvKfHtr4QA^W;2=t
zd3Z(|GK{^id%Iz>r6L7-S)e8#_oC-{|6!5m3>uacCLkB+!Az4TqZOL?CT?d&Q>z|S
zhgQ3ij)hg~8Neo2vGb4-visRO9bDb{OJnylNuJLD9~&{EIBou+%{+O?oq5hVE^dg1
zNa1?jP;;Z6Hp|r<Js6yN_WM)qabDDUW3xlC+F~0uqlR)#60h4kxg0AX3As15+x9M!
zN2keP>>J5Tl;!Q&Q?~`km-I9bzp&3J2Uct3)8g$P0QPd{oM?rnk?D*X=MYKop&Q6v
zFFL@8Jh_>pAAqbLv&RgvXMHrCmYc59Sqzb-`&2Me9}a(_n6A61bn|z9Eq7lU4;Q#!
z<<$6B3)0Yy1C6W*dp{TNVevu0h5;N9RGo|Mipx_p;1(e7=u$eFqtaFH%xhCyJN+^5
ztIJ@)l+D*<E)!c12TUol+nCei!=~nsc_y1x>kVNUi8zI#`j!LoX%B8>aH}4l`;eDh
z1=CP|db?Ct--r*O8*W>u2n!oeZ22v`xxN2hCnu0hru^q_=R(E(?YI$Bfh}i;M3?B1
z%U>jrH0uWRFz~I!y5zQ0ZC9hY6Z}s&(nV)Z8!1Hg7Dbu0yzgoiO^ZRMyRAay(!#0B
zjyvST(<mV-g+#86e$P}-<tkw+6Sp_U#Pe8`1}LbpZBj}T)P@erQx3jiMG7XXrN0(E
zlpLYBV#?@09>lu3<Ag~~SS6Cth*f>tUQUaW13+5Sm9M1ljArHKJYT5MZ88gjye*0A
z2MDu6`XWmdELoiudwMHfabf}gkHd+QzW*^W26jSET6!|><dVxXokSa=dpF+5yhP6!
zcr}Riv?6rEETAEsRF@l3`w8$4w<VNqLf72MTYNFAS)3X)Dzp&y56B(>{441b3bQ?R
zz@v>}Znl2&jcXGXiHSG>vKUsF4B@hDhGn(|pIk}u$rhqo^^|`U0h+HjXby-A#gACE
z-49$YX%RIfJ3t6~MPJk)kIPsFglkt&OGx(dzkgTP*{?=C=-ayrSS@}Lv+I81EuQpC
zv3b4dg0d63xF=cDiAO1`<JJ0Cmc2!czVl^=6RHmX=YU)3pfmR8_I@gGt&gSs-C#-Y
zZ&M3m2cZr-fLb_iH9xw#!=A?}t#;E_pk;{{ylkqMXmEuFmUb<l-QZkbA(-c2Z#*=3
zVd+WJJeY@x8-RS#XY9BZ+4D;iYXEP<|AGgez~OpvLj)gd`V$Zw655lfj^i3Ato>w*
z#x8f6K5<}ntSPB1io7v{|5wmj<Fr9$X(qkqG9**)?aVAx)z=Y>179l@A;AL8_H^hQ
z!_XCy(9UwQ0$O~9#@MRQN9dl>Y5m`oBgbP~84s+Ro>D!Mn08`Sm@>%4-Qhb;aRB27
zIuO6(pq>&-IcoIH^4DbSIGOA(W%ZJ0^{^maHaQUl_7H?W?2~;pf6a%)X7MuOD$MCS
zFGN|CWs(JSn|f4rPn%Q=A2Pflw(ky0q8$=nbiJ=YMZOT8>W8e+e?0x@qU7*_n!%O`
zeUd~2i(VM{Z=MwkNe~cteW}%2R@=Vwk{+zI=l1agg@JpCQOI(Q8$D`W#4oj`D+2)F
zZA<jLXbjFO^_Qr}NUfTbbRkm@6fI1K-c=0OUO_kAe5$-qdDYBI$LDwKKP{0Ge_(iG
zDE=9N;BGuM(tdw=X7JT0<9TZsqpKKKc}v2X{4^%UGXakngXs6eH=kwhrHiB_C_wtM
z^16}F_+kTYQY7?EU!AR4OkrI!$!z=?(hE}C3~LeKrO0d7H)Uk-3%-dqdqc9>b*j(y
z+RzzHiOq3By=*%Qd}Wg1!EgZ>_$^-3#zfM_%(ZkkZC^bwFU!11)lFgC1P4DWsf~Dn
zG@aJB;ey&X0h@1LU_8eT4)jCK*i~2~8xnSwAY^6hKp$z`U!yQ^S#EnixY@%oC4<-H
zMYOGaYo(_vw<~$@M_(TyCZbo*99bM_=0Y8Fzy3A%t88CXxTn0x!br4!a-vU@RZ)+d
z=T19GS2n`ivT69YJ2gasFDDB=gC=h8VcblZv=t)%i}>tZW6ucUH*lO=!BNTmdi&L(
z@q@%@kfyM~*6r;jU6#;OW=4<5M&;W+ZYB$!BzyDQ=K}-ec3f8`Li<E;@q~*6y)d6{
zpN<7sW1K8GAAhRG1@E*thuzvAf@}c-CmP6v1&c6F(5s7kLuv3@(<k>K<isj(81FaE
z+0>_|ll0pUKQ}=SGqT?bP0eM?CiSUYg))yQghX;(I8sdeBTcaQKp#R%rkxa0`mD0#
zi^PlVb>V)%a8XQa2&dxu>f*vVA&b$>GKY$pL@bLRZn+ZFnn4soW0@6#{}wt?!aPwg
zD>~ihN200cB@5f`yq1a%6$O->!dbQTg4df&jT2$e*P?0jeJHVXT*rwMH<Epzx+BUr
zkWiVx#C-3(NqEz{|L)PWxYk9&r0czI+l#^o{lT=N`K~##4*{8&fZ-4@NK%kysyQ{z
zb0RdHRf5E&%fC8&B9gQ1ke6`?-6k<Jm+%<S?5Ojv;oj8T%w2u)N0NfeKC}tyV9)ru
z2txGCO$=Qlyc~QU#k91qnTry^_YXAL;-)8TxCvG)mfAa6llMjgl1Kl*cw-vlU@uwO
zxL06*mFBT|RLp~rQ6^X^12-Ev94t>VyMhS*;YSb50%bdq9AVR{_Og5zzuV-`hU~vu
z#l%fg&;-4+tr&iL1KAKI_3o{Pb{T(VO#Min#dW7#$U_sa*Y6nJ*jz`{!p75G0(E&z
zb`|V${qyk1BlVc=6nRT&E~VKeidYp`Stl-xm9DHw68%>I76g09@ArQ~WZCG9%>imR
z<6cNw+44K!*}_DhYZE*}i>Tz^3~RcbB=Dd&0chm}dW>g6@iLFpn0w2oQCpWV;Y0U1
zumk~8X8(jB(vf1Z=f~!*4|km845_E2QKkEyH|G(ODrRspu5sFC-BpyILO+o@Qd}f2
zR;~)v{k@$zZ4}HJ!`)(C&DTf2`RERfI)xs)ps|O}$NxQJX8qa`qllSQKmtWCe^@?H
z=@J|Nk6^}85=CTbigoA@{DjtbymzJw-<7(!c2N8}y|X6d!Ag_KV!i3^IR8qP$Hq2G
zmrZkfepSg|cG=#UtUo`Rd-Br3k!$Bx(=%X*A-0PG`ZIwSPlv2-BR;a^z+I-eFGI@z
zNT)p<MY%U6QRaN`)kT)bB%Ju2C<%N_IH_#$4GQ(mrml8saoIQ(NVto>l_{@jig+le
z{PQBS3`xUf;q{{R3qiH8GSH%_uWYfNQSL`LoeOtPg0REm_mz7{(~96y4w+5juohx2
z!zaf;6Vb<=+r?=-Rua%V%{Xbm;?tBsAbSl@?6h5v<JL&<{`c2E7jcV_dMuf}Tr62r
zUhVcP)kit?aW?R0dc5$vE#_>-&@|R!!k_4p90{tEGRV+ZuHGGsDmY8p+dN4!L6JTh
z8D!lPejfea!zAZo@iij0PM)j`FbR&QztO<TndD@DWdrI|?+wLn2TmNOe_+hR%f;;S
zz{|nDZ+!7lr}2;>MH5u~<ba%`OfXgoQ**JP%CCzPPj^?==Y>ANx~)zMnY!2VW_#6$
z(d1hNsv+>zH7R#T(Ux623?g{GrH@SqK@YqM6;*5<s2x}saECGdE61L%>x;SdBCZYA
z)p|9VKX~g!|7q9RLo4m-J1~$eCoykS%}^bSp&1u0`=w=1aCTRSel343Ki)fTO;78k
z{k<wG`5F|z`r`|&sg)*Qa|^)uHav_ox~Xh@X=bnVzwDS|91{31pg0M|z=C8kndUZn
z;`|dIhgraKpErMYcK`dnDGEEOwgCEq<PF^qe45z7tGMlp5%q?g*^F`Non-E3$%+R^
zOoh;o2ITDaDheOAFD|Z6uOH8s|469MNf&=h?)#_*pG7qHX8P>fKfo`j1%@ERK95><
zhNme#CB^jxHi5&<3o@_drT+|?$-=ezqeUnxP;=pHVlMo(V}?UCoPh@}`0iQprRoS6
z{Y<UC7~=Bu8stU$yC;<D?oNR_#yLEl!%L6g4AoKClmSr4c{deQT(}=(Bx+gq-|V?D
z{%?x|F}~*#Jv+v9nNr+TWmDfXm1#*TuN;6U!hu(uPMo_=^3+H#fk#NOL0Uh}avg*B
zx+KI0GR9MOw0iO-CLe`Qc$-AUo*llB(avUSJ6O(H$B5J{1_h0pGuMGAI0}=^`Xq^=
zIRAWcp5aMi+zFjK%F;T51x`J&#jehd)o{yerUE<{QCTv+ivbGOaf&Wjni74+n4YM|
z!N(&f?|q!XMfIdT9&OAzYD`RYkTcATJOBdw_d6%d%Lrw(uss-hU;0ZE1_DE5gY_8N
zayiyai8%{L<(?CoY%x+RY+byy7{*jk_?QvCD<kLeoItoo=4s`Zi@N_bT!Tv18-nM%
z=rxZwQ^Hy7#eyug0#uvBlXz9)t{WBNF#$3%i9Ws>q^=+J@(eYnBYa9(MWXP14i$KF
zm=a!(R8$qAj+n|V{cD-=on5mEx^4(>U15@Vg4utRTR0|nAVe7-!SnVYZibrJYv_yD
zo~EzFldu*XMXCQs(p3jU)qL$&DM_Uz1WA{!rE}?K>F!3lK|)Hpm#zg_Qlz`2rMpu)
z1nCC9>+kz_=1$x@b7#(Z&U4PW@1udX_894KYV9!(3QlC?$DEEx7xky8RV#VLC1%Jk
zSueq3a1*bwM9CIq{H$ou1;m;(4J%$@BonnbEJZvqw3Ym_rg@MZw=WEqE^)C96b*c4
zm=Y^x-Gke`q*@FyL!6IDFKumUr9#EX6JW1rbq2n=u-_)TI6y;Zegds32zW|ul}pFi
zFq&u7x=1nvM7F&BuuD~Q7iEL{qjE&|orWAc;~?e{h!{lZftZIxKJP#!F?cpY>(P2V
zvUVaT(D^-T7PshpDe7;rEAYGHj96NbptT21Q12p4(j&b4a?<^SmBZRoQD$!Z^N2Jn
z)QEOy1;Kd|Ncy0|FdDd9ehnvm+)^4BG=jM=ya_b1l06WWB6}4#U40ZihQY;Y;432T
zJ$*6ukru4L?zu#@j_)wXtW0*mrdMwd#eT-!%*w?lNKQ@ii2s_S276Z=J3j<0my(k&
z&P3EF*pK`|O{FJuj+=xovW<~`p8d}M7~?@=HR4`j(q2-tUzfItxCkOD4psxk=mk_i
z<DS!Ch)tL=dcWnbWTw{mo^TzyM85=oR2rtiFoBb=vO16Dl-U;ze?0HKzdZX7K*Rr)
zgP{eFcP3SUif4}qJ|E=)1x{Z_ynJgTOTN*wLgzs@0H2FVtnR6v%EMTqRQ(T$#RPLh
zgCVh-yJyHPnCX5+@ZG)>%DaEln!{yngDa*wmTqqx)AshAuE7~G*na{R8zh?w=JNv<
zUoG{sQ8zE@p4M!(Lw(3rvO=Whco!r@$C5$l)(WvKIWxNFKDT4Y%H760fUd`G$A-Rp
z-J|&Q^IXiBC73e_$F}`fJHPUT0Ru{y>YCWcJ#KGEC)c|c`S7~6(=~Epo1WjC3w(>)
zQNKN3*2CDrdn*55akI6hmOKHZ_#D^6pwIeR7Sobqmz~Kg;|D?GFPO-9d&?}LLonH(
zFLRJEN7kPq`)4_xr<)nt3j|7IFg?sb;Nen$l_s>U#S6HbPcx)BWhOT3KGMEpOW_x^
zEHGf@eui_I!rc`tk7R$GfUfqlyL3!Ls0)EoDthF(f$R769S7%IFTzDY3=2Vr@_+w5
z4Wdk@94k<<aS0N~@FkCrPq+^m3l$a#7~w<48E=x(wi`mlTb2<L!&M8M$arrPViKhD
z1lwjhM^I-~Lk_UXG#WcZ_Z8pN@fy)yMmR>2*BRYpAC$ozpsV-5xcP8gfljwbUx`21
zx_JzBGUa)>OtS`dj}Yr_Ej`ATDpEC%?C*+txzpH)TsYTl`xx?eG!Q*YI-NT??tKpC
z-fi#9AMs>MdHz-fW#v!aIg!9=!;ju`)(_F&;=%34L{Px7o?V7*$x7TaNhR=uG7SeW
z=|ISO)p=HIKnA$6-haBGb1K>my=@$Inejrk8gl1+MiWIIePH6K8`i7QLk?|u>mc86
z8X@cM^qWX}wSyZraveYUkULF_D#FXqW}jyG@DB_bisJAHt_#1`kU7l6rEyPY)*<Ck
zSqk9)k=Nf*4nE|+Qc1%nJ1{TFx1TU>nL1Z=MMq;JeT>*IL<-i9*fFr}W7T}5ov-`W
z`JoxBPECPV4dr?!{Y5@4*nX-{#TDCjoHi|pe!ru@nNgfnS;vX8RqHz%p!wv<v2swc
zmqbmSSZa)&!?<n}uLwm4xh;f}4a@{=UNMkM`_#ue&=Pp5JK(kgTWR-H(Uk<W^t~=&
zIKx*hQ7r-f(DgVFbV#4G#WiTz$<R0BB8Y1@9LC;26CDh!M8eQP#y01KB2;mW8)N1J
z)6n^f45KbEQ#jz?2A~GP)jzmd#-FAO^D4OV4}1j0JoY|VZ$22>eyK4bdMvu=M>$(R
z)OGusO@$B?^`L)#mdK7n)l^;OcQs`a`A+}R@xz^;YT!|H*=v1eoW6$8<w$n{qrx3>
zFpvI8ZM<MZcG4<q135(W?{Lk!w$)$T9W@j6u(;_u--eZ+Po~3*@-$__={Rp>ha~X2
z(E?uqpG1HHc%DIR)Je43q7bk5#Br$~h)7*TCuGmB&(OAsuOV%*{WY}EXI$teF;{y$
zm5ffrp8r7!=?fB?fNYMk_Q#>O+7yJy9`O5&)XS<JEP_iKob2tG$euRMUNlsWF#t07
zx8NuUN?ghR+=@oNU{{OHKrAP4CP*H4Tv{`*8vZux<7OKXx?%AYn^dVo`g6CEJ62RF
z8naOJI6C8{Vc7a!!-XV|gnI#kL+^kl9MI_i#rO57!B`IkhdPx1jO&z*S@mjyGVXgi
z@ts=ofg=1`Lwx=#jzpk$_;UE+Ll$opFbcL})Qr}R7&b5e^?-_tV&Hm`y`$Sx-c(`3
z6cA#UJvVUNFQ(9EGP4o$eu#{r_?Qw=0o&r0YW^zX$omPw{t)y<3dhfntm)@&pMM94
z#cReZQ{vDxi=Vo^bdyu%q2NvCUDkMNxcOlGy|UX|klhq|aw-h=deNP};2<CHcIB)1
z0}c=JOm_um#YYV%4_jb@W)1-e#w*iYRAiaF5B;+hS)E02k+L`$fs5X{Ee;ahJUmNT
zxKgM_CT;X)q(Wn>u49@URlr6f=C@1<lkHe)q!KH^oA}bNs{fv5LGOWwoulj@((>Y#
z^Z&goa2Ewe9Pst4r4EZGqVq@_#oR>{Wgfo}xS76Ic9Z2w76lngIKDjhpsM6!F(1uS
ztjUf4SHldA@)WZO!(Y+eZjvDko#F5RFA0u9pcF&FWvR4ZCIoKK_7HI?)XK|(qoz!K
z8f{>cEwWdOo~1T(g^PeD`>z;|t1%fd3H@c=tgN0dq{ydL=CZVA8+UcfK`CNw+3uij
zKbidg9Uw&?=K%h*dIzu=J~|oK#nxZ7n(|G67V7|fE8!0IRA;$rK5SD=W}BmJKh=oo
zXArh5FQrjQ`G!A)1U)5!?Y{kBOw@R0k4^v)G}-?ZYyyu=dINlg331LK6b$C_)B!+?
zyFLYBGec8%pywaqYbo{uQz3HB!hrNDEFzC&rY=L$$a$#@{ff2N-xW3my@*){l=oZ;
z#0&jWhUqQ7$m}?MbJN=bcavFQ1!mmnpO4t+%zm;DuV4*w#^i0>f<8LtSqdP2`H3Ju
zau@+IY_j15zP$K^g&KCGt_!yN)-7Up1qPyrFA)uK$adxZA#5pC3PBOokZQI0_!f%1
zmkKEB0gl;mwYJ{!zYiNb|Nm({1~2Op9(2?!agNpzNe2AY!W;Rs0%*oW%S`*!Z%@2@
zTnEhI*wSBneA;Cm3;+cqP@V4;-F{$?up4p9WHGv&_1Lw1J?joX{`R$ndUtn9csF-Q
zH@7KWyXCvk<UdEUIz4Xm%FwJhiLHbwu_4?`V)Qpl#31n@H~Q}>IHw2`htdW~qr9}@
zQr|&-=r;`tywnN;G|IbT@yWjn^E=-vA^F%*3Fq07m>Ru?qlir+mQQ;FL(4Cs5=eKb
zOf5gU9;CaRym0}J)PldTxf~(hPBr1LZDXN9YPFb$GTj}Ddro#F7^51JO!#?!*Uzq(
zAFfBm(HyqEG*aq{az9|ru&~dxK<=&|9<I}HNXx40#;K)xJp=GKskEDbpXRK?-|daK
ztZJLBPGWQp*RMi*QL(Gz0b2&o&L=vg@CT7X`S6*ZmDhUZkOAiv`M{T85vRNg8mzgQ
zZwidr>naLmG4dh5yjAb7x5(w&i?%qA9#5(2CZReMT~jVxmLWD<P#km8;|Zf_m&Lk-
zk%&tBjM6tFxu1{u>;0DCK&#&&Ko#neO+hyq<<*@v@p<&2-M!S{i=mX%PXdm@B0Csc
zc;C2;bJ?sqi$Yo;$H()Z1jfWnGc#3%6UHjWrY=T!WJJY|j~o9Lhbba6H%;?Tz`{<W
z!-JjvvKK|V`R!)L(SYjTGxC(<@papee3w5S^ZR~DEH)tgP6o;t(5Uf~xS^%=Ruz}K
zz?tf*0?x4l%(b87a@@D?R8@%<J!yIwntU?9^%r}>TV-HTUKK*qTCHascz&M(>Mi*F
zXum4I=WdX#d(HjM8vcgq;P&T7MIYQyh@+GeY2JaUBL1G?+2OgxMZ&Ky!CX=6_nvkA
zze#p)xA)IMM@NU}Z@}23QkeCc%Z$!}XX*uY*+@Iqq{FK_)hRXRvMGtOMAinqRH5la
zRzQQ2+MlyK9MGt;sl_GfjNhX8K2L6J3-Cup^VU|OBVLxVsih<%mhP5T+mZpNp>gna
z>u_=f4J0uIxg7;mH;^LlswQpi19a5OaPH~hgH^|kmDy0|W2DDp=qGX^;12HuE2}rP
z3SokO>{~#KL|Je8*v?(t5y!~0d{2J<+Gzt~U7TzszR*(g>jmRWkSV+Ogwr?hsv*TE
zRk)EXLJ&6-rN;LIC{Qu+D<Gt&v<{oY#lsc$gRps;w0+|Y8L2b)T7+CMkk*PB1o7S)
z-CH!HGq68E8E#3V1kgt}XIwIi&a;cG6hfELt-f1Qv>L-mt9HAHXBl}xqSG3A(_sDh
z*W#dV)whDD0+gNKF~X2`<d@wtYiOw2V1QeOmzu;@%XvD}H0q9Z=Dl0yZcjSuW;kBc
z#Xw!(i*Ni#S^!29y9ciSf;H~X>>cIcKe><{++Ds5n7cFNy_MCu9`bA8?+>`+EcU~(
z&#nrbGv)o1)qUUP^J>B8blw}i%ChfxWI?Hyz$h*)+yn2(3*J6rPrc&csq~~AIZ?_o
z_=I>Bkhlk?+y4*Lq(h?DbSPC13mr`#s~{*Y-QEKun37FC;nnOU>=wFv(!$p^#IBbA
zw#}3erc?~h9%_Zk>z;F7K2i_&MM$W7_j5OIj>LYaPYWstPR&P6vjcdSNN=S*2Pt5A
zrFE@?mhcoW_0^X%5l_+QUdH4HoO_r+c=qeoL8*ygQhA1JQ;#v3#Zdbt0UK9vb6tin
zce6bL)N84cq{geqr~9*rgKRuylj|uP?<ShFmH5s58(p=*6dUr+{9e`whr9t{BaOK6
zXin&3k+AwpPL@D*UiVSA&OA28;ytMhGqTVhaK=o5x34mNmw&EK9jw9)N`=^>;0rk@
z1$?EzX`fiS{rk?J!xB)TRry8P>_|W!$wX?&sLw^TjhmhQl4<%3#v0A7iO4L8_+2w6
z8<$peDlKY_yzkhe9uCkp52Z;#VNiBAL#uN%m7eZpx%DJV%**u!6}Q&b#Oo}ciau>E
zUk3!w2TfZ!((!?TfO|P{wzH^}Hji9)u*FN^t&u$qS=S5(%jd`FZ11ppcf(CWWR`bz
z=KGzcR%yYmFa{ol;AkYv>{RDy?FD(H%uhM31dSaHB}&<1=`XLyfS@{OM3wANI~eLK
z#@B1NR&=BH4^0TbGRMbq@UKEcDYRxP);y*`{DI&7w^bz|YHSl#zPG6;9FpZ!C4W)`
z0zrICZHz*b%1-r*)_x0`C3`srax<1RYp>j|)j6V|Jn&&?^hSZ8op=-a=qarfqS*RY
zZF}XuW-Uy}4g3z#=H;v%<rtwSAEj`d3S-#02i$po+F!IdZll$$uKq-cq6&g~Z*478
z9D6^MF=oDYXnt+e*_wzNb-^j+>+Duud-<W)FvlHkaL@#N<x%8!Z3RotCZ)qdeXf78
zhxjUfok-(>u_N|>!nNBFN&eVIpV@^T0o<N@ZB_P@pG86G<jR`ZZ{GUA=R!Ul;O(YY
zW9w3gUddx*CS}Ofj-Jzs4x|Bt@*T};^G<0+U6;e*PT%uQ4QaX#vGk4y!y62;BTwmS
zl16`{4PEYA6x%(3I`4iE^OAkMaNL*F(r`J((;X~YKrJ_6#3Z8dc5jZQH{wR|;{k2e
z&FNbJ(W6^jEO2wI@jZ2AdU9H4P=OzvrN#{YCPjfAn$+8<9GO!k`L{gKFM2v4`rE>m
zm*P+7LTfG0#I!j82BtJ>RO>%zlG4J0g{kKsKC$m<ZbNxS1R|$^S6S+2sYwd2gwtJy
z({YB|fp2S;E@2MtaK0P;HYu%FOTT;)I5doyZ&fQ^s`odD-((eVPEG-1Gf91VZ#jby
zugdPM&>tlB;5N(#YPNGXnY%vq(?iZ>R5fegt3+>H-=!(#aq#w$SepeZxsZbFS|hnD
z%?#WQ<ucjw=78iFA)P6oqLSg=6hfq`+jPwHRTgXH$H+VKN5Xx!Oj0Sd+!LfeU`zz%
zu{E@(5_@RF>6pTjagzS^RIUIXpL^HroPbqJ&f%O_3}+un?>tDI<24E0MgJNf-JEv*
zGC2N9So5`A=RuQ923B1%UHtEXsf&mN3<B-gA&J2Oka{+G%179s7-U<;X7A_JF~iwH
z1&lE>UbTqtPwG4fAA;$4$)NrsS<_AN)+W(fH?cLvOyb~x!jf|$m<<CwV~;x6rQtl>
zaU%$|2N|BI7MX3@y~W1<d2ipsH`BDMlsY9QBAv16p4}!5j2}c1Uof7@YuU=T96)--
z#}CxRw0?v|!r$F1k_ehuR?<Rm+E`~FGI5}*P+$LGK(+v3mQ7?)Oa=-18yTTxTR(7=
zX3Cu2Tq6gbOJktVUd-_8v*v%(a2>Q|gQ5ohQ90G$f;J}bIcLL|KYkh5)a)#A{_Kj_
zLJtUb<(pXGL$y02_2l*s;k=dc4qo^5`w9I)mh^MVYS)_&8>X7N%p`Rhe~T;%!Bs2W
z;;J8MUPQ#~1qubKBmb3EIjuZn2L;eTFh{Pxa5wqrt2Sm~M{Q7^BX?rg{A$MMf>9i_
zl4%A0jqct%;RX76MD7d{Z!9iYVFQGjt_1AWPKJ;`SgV_s{h@3rQR&1nDmc5U-MnTQ
z`h9G%#A^?T&f}e0f}PO374JKe?ULLfVEuJ9r`GJNA`D?BYYGOF7&6y<_Wlm*61`vL
z*9Wpig063l4wIaM=$cj>p_tDuUSo4kdYe`o)6Wt#kyyRIaXM<<h`KUvpTbi-E&MYY
zPPXL~7915@HatH+quR6yTBByVFyXuE%V9N87;l*9^FywNxIVo2K9(UI@Oc(LhVAFc
z>oAOCs~etycASYqxU1LLP>ruRYuN8_#?h=vhm(e<|DO8gFM!!NQLbDBvoWgY_$)+I
z-{~=U-~G-W4g56=%(E>8;tYSQJJA6exhUo;oDfQ<av3Cs`LVaC9w|&X2cKW%Mxlk9
zP03{YL1OY(&rwk2=fM`R?zqrGH!y+bAPR6ze+d{Serpr_n##&soo0`j_0WF>e1<)g
z5~tr`QUOi|jc{S)9ke8G#w59Z-sFnqSUE@O^Yv3B?<!CJ(Ejb+pws}XX1ia|Sfar>
z%11=P-PdFE<^Dduu@XAb18cx?+;6Mc=ob{USwAq@wjW4J|5sjp$VdgSq77u+8o&9*
zwCfpS@$y^|U28=z-1Lb6`%lq&z!oJ}A-VPD%disi9uM3vFUJFG1V|oHhZ0-?@g4T;
z7}*cj_+bFE@|^UDaS3rnJWzN9b$jT8zNBR&*7<>(lB2X(pqQnj8BLUwJ-8XI1emJ~
z5%}e_`i_+_s#)utzc-je986tUB^n=ls@EvdeEbKt{*nm>l6#fbI%kHkib9#|BYQN{
zYSsxJ4mjQu(D32^y+yL2QlPjXPPFHzX&|xv&&3z(Ro|<z-aM_St_@_(bc=JnX!_jJ
z_$eIdckn7g8L6)%f8#T8sq5Q`B(XxIV=|Z%Wp-p9TZz9so>pnH8)QVK$7*QTTnwa4
zI-_}L(8+-MRs70Uh5gX~B@)Lbwafpy4`uVf)38XGjr{vIYb5x(|F&oAVg=2*J569-
zzQR3~r-D){gw6LL;g|d8L)MffmcM$L{twQk(rhiNQf(<Alh{`C9}b_V|EQI&pI4#|
zMMgs)%s92_scqHU^(3ugEXo5cf9>GdMi%r7nN2{1hJ+UUL$YQ-(?f53EDs`TD|sVS
z&9eB43jzP0!l_KR26PfdN6$de(}QXz?H*~YBS=Z<!g!Dx$PK{YA3XZyk34bj%nZj~
zNdo6Tqw8?z_jQ<hb`_mnb{yG}RK8;I#RD0j5?rwSZCMlfZ5R&4jY>8+duuU0GZhqo
zRJU?oiRsR)HB4WB7?Y6|%lzd1@K<u~!_{tXn)0v#S<}d;Ro|%FDWSOJah0v6Jr4QS
z<~?L3@q64mwYJzx;FCoz;WI-~J1?^UqFIRxz4L^~Jc9xGoQvA<{abR7wtyqx%-g+5
z<KaJ=SFR^W`UQ*Qoznt<AU-;e&&yvO7111g2tM!H-?fhV=2S`0l}CBP4>{;peLti9
zzM^=bW4+K#R1Bc&wJj)^6=P9+VELo#M!J8ZUw4cm|MAg)FQ->Io4G>)VEBo*Ah(Hd
zPD<3gpxS3flZCNCJD#$gBHtl}O==HS`D_Wnw&`kuLsXQWc|h8Fj*&SvMRD(!g1Qws
z%i4oBU5id)$Y$08+UY#8U=oQh-q8|F&Q7>`jLQAFVA@%BYV5^<*ow;Cz{vG<ztIdo
z&wZXil^V-?V5zP(B9O-e9TyF??jNQnj#rX{(aMT#DH?m@ghc>k!=$_v{Dr-(svuKM
z5Ssl!x8kA~(i}GJPuj_V7F147MR<055HpSUhmU(ADt2bbH7vP$=Pl-I???B3TRE?6
zQk$;Eb(d&V8V5>0X<M!513+5XiBm^<Crq01$ww8<)>6gQ|E#43LQ+h(4$uG+%4K6^
z!17ricd;}rBaoT^3`U`O%l)Zn^sZH|1`<v9=(6161nspg^~(O9LcKid_wcARaK29W
zbe&w_4IC2A^Z@`#Y4jw1qsc^sv65c|x${0t5DKsZDuuYu!BQbvym^wUb{~m9L?Im<
zZ(pzpeHXG^(WVHdk8vs*QvT44N00H|^pl$-&;<J?Wk5{*HO|aPz@g6$x_~pV&!<TL
zFvSP)kZtC-e&Q!vF50}jbKnIeqoRi)b2#YD^sfxj3az-GvI|y>j);h9#(!Pd+Qy=K
z9e(?R=4SINz3Ezs7o<F$`G-lR{(#TkpPP_r<QBrC2Rq$Jz8FFp3++7rHXvh&VNgV?
zVN?H9_g+}rOZs(LmoX)gT0QG)`et_LyJqP)bJ@?1X7^+&De*MQM?K=4(90poH^^a{
zKe=fWZa0I`>iPV2WHAZo&=tApt5idNBua_iNs+k$LT8V78IRkSU#mE!Cvo?-MU_5a
z^FO+|%YcRWx+=jQ;j%#vIh_V`H%K(RLeJ7?*sK#~F1#vWANZVA(OzOQ8X~D&8OP}W
zEWsxo+3Q;rddAC#LuniRrFZGkID66J*$v@g7EG3{<bB^&g8P*gk-KzYn$_}X06ca+
zdic$Z3`4w(sPQ68--eyoYDdv;jCTAmrefvW7-RSg;YZGCF_({X2Z5&xdqaIeoXYy`
zx;cO!CUwwlK4B|8_72o8-d8#$WS0L(p19mC$SjSKhXQqxSHM8Na*Wd}NH6<3Yu2{Y
zb`!wLp*>p>$!OI&fq!q6fMaVENN9DR6&#shqr_<g$y7wsd;%6?lOP*?9H>cGw^(XD
zm({u>H-A^@xf0;lYa7p7J}vg^Cw=p!unVOUlANH8Mf6>Qc=omXdcntrXk@e-)%|{3
zy>cI?<ymXaRuQ(dCMmCGr%4Z`pJEtDLvOyS-bTw;eEoAjgKC+5?YCZl4R-xPOd#~?
zB(#4_mo%5P0n$9>`mgx){3;$1HY)aht)ahFyB)w(`qb_;iOiDzX`J1BEai}QZkHW<
zJHwzE_!~a8I!zv(O>*}58=H*P<;*AJSGqC*{b#XiMMwU(E6hNBx+Y2Wh2CsLV=8`-
z?%KWDhq7tk40Y&9!~3G^tvN%CIzDQK$iLeqFf@zR3jWr7Bxu^DByH>^%Ax8mEy1Jw
z-L*{Hff+K(&q6L_RD{@V>lDamuv^hQ0(+=YbZRyB+pHU%Xy6-rNy(gr|1v9Lg#L(K
zD2TKqN}M<r2GP4_LS@L^8}qSU>dVJhhIvY!itbJTo$=U+6FeIpfU)$WYrkezRpuOS
zVEaEUvqV01j@_^Dp){A^jViCq96#XTvKUK#bt3(J04={#-vW}I#5hW~=YQtG)JM#{
zv>HoWLa@-rp^T<^f+85eO;+KP%LiS#l?HSyGJ>(W7b%glNWSEL3U+A4wxX?x<~LuT
zk2=qev&x0rw=jkWoZCz=_?eZ9srTDZH{)^D7=8!LpzHaD1*sJW%jtd}KD4zD#zY80
zLp3m3DLsO<pr`UteKSrUY>JF6%w(06a{y$+OY{)=_%x~#+RZ4%gzNIgT`qM@(j??L
z8V)phDoU^&LFr_WrmK@f#IGkQ4Lqz9P^EOA$gFmjq6Q*_Uq?}%u4=ZsEf%EUT=I(j
z>&#)J$K$sT;pKA4T*cwz8y>2jAUn=Ppot+<-&M2OP-f3uUSquDosKr85*@FN+C+ml
zh#1sF9ZPSPbauOOerPaza^?U)K6PvqL+xs@(|Y@|7);hJq2Z+_v3Bv<04-KW2*#v5
z+2inbvFy#01gMk-Goz+#tqM|4!{IM4>T*9%37GR5cQdhHq@|mRk?rc%3fQtL|9xrG
z#@$**GHr9MA;vrO78V)oCi<N!sCjh^uYCG<6nb`KU>p2h;RPqg@39TC#2WtxGc5st
zLcARB`q7ibW){OX%v}7WDeCp%x&B{`!6O_P(`cg=F+`N#E!;-tvln08HfN&<4!X^k
zM#$Z92-n#KiUX3>!A9t=p7ZHs1nU9`H%iNj{25U7i@OzzAZoH1U8%%Wcu1)w>)A(?
z!kD{t(;~nCt5;t8Q$i(K*`DQRT6VGKc?zD@j9vMyE-}UGbu39FDY~+J7oGPw7ji(1
zEuwvE>qYqW^}whY80s!hmJXqNpZxt2tW2P(okb7O$cvo0-VlPHWnNZ%HNX5e$p`V^
z+uIw;b<ggG13!*vUsjNgL*`d!8YO+N_XKb0%8~d-1Cxvy)&k^tkrLq*AIFUIInVi(
zhRQC=O=2^O8n@1>FM#=zL|kW?wR|&`|F)t10}=DQMs7PsK_Do~ho2kNwALZw{3laR
zo2R+=(x+lW7=>84<fM25@LXbYNMd)1;OOr@P!g!I!M~24Cq#?N0ffUpUWl9q)ATnL
za~~|LKho2WK>J?+&OyNJ(wLIpi%QLBb6G1+5H)+OfyhCg&oh7Y-6ha%E!s~5*ctBQ
zohUnPf6tsu+0zDoXMQHinQC&HM8#OLleoLR810_GAC!#B=AB($1t2@dUma3R`{1D&
zIvnVvyyWTY!o5L|@{+$ZK=$i>AaZ~^H<J;Hr_-n<3H5mA;(Zb@tA*TU$hQEe*zCb)
zo0oeUtkJ<(bc=wFtG)$<=~a|E(Fa2;txhIqN*V3BG{s-G3y3_|A-OU2Su@^=6lDE~
zb0)&2PNzQ{|5DCBoy+Pe9Sa<m6q9NvG@0=Hk9gby;2^!PIjuivIu@3RU)wo#uF1IL
zJAz1y+e6qaw?FO{E0p=+7z;wb*R9HcA!J~MB{&YKX}657m;s@iG-jHL0<>9|sS_4~
z=}Qw5`SG`-7daLEjI!zkVx>H6i4+{4N#(Wn#LAZ{wW3vM(_ygPuES)&eE3FM$xKSk
zw%LF>nZAXB8fs=`N<W5~uV1=$yW2E9yK7^02Vc49ZyxS<A+z(qrokZ`y+54XmE~V`
zh_mtqWgdGj;V-O+*ws~eapfbhhZ2Td8~L&7_8ZqHY1C%LlUbnS8V&q2@lJr6a_0z`
z+0LhNL{SD;f4?%ln7WTwve$=Wl^UGzph1{4W>G6%3xpAx6ja1iNx8T(Ny!Frojss9
zT>K?;_{r?H1S+^FwqAB5a{>T?=2ZtAq@0Qeba_+LH=*X@nYqWLrG^*SQErsk=<B;x
z15SFoB<W^yNQc<Ci((oSf9?7OpuGo8BoVQe&G|QpbA#l%am*9DyT3D(M@H~xx!$Ow
z^CC@(k>PZR>Cq@p|5WoM<)KLw24tb$te_^y>;yUaCp}FQ*&o=|(uCT}z;WL~5`oO}
z{tNFLC}*>ft<DqpNvC-hxEzU^Ng^85M!L25s%ixZ&lxH8PaDkv;VH=pl^P-{^R7nZ
zNeL764K!(;C?4wU22d~oDX$&wkZM33Y(+5%kB;p-mh<OsCEsWJJeL(@(`ie&Qm86-
zxVV0)rQ)kxBRJvo8Tcuh#K@jjxRV{*PFZo5@Q?^7i+|n^WnEP>qN|=ucP2{__NCSF
ziKsuC>w(F2jeTlGh~7XPOGy-U@6)ZBDBe2Q8x`{c2vLWw@fD3%%2-fpYOQ4*=K);b
zShTj|-pU`fOyOJl_E0*GHqX}UlUaTAk3pQbM_E_61e8`i8>S~37JGXP^xt`OD;yE8
zo`DALn0W+;uP$(}aKh6C2D+0iLFzTD6$D*>-0AH_5ik*ET}BI1DMbXjIo9lb5k!5^
zg<?|qpO#xFF14&vvSL=4YK3o@%w6@*__7z_7yz!z6jW6-y05N|%5~0+yNK`<z$e}>
z`43UTrzut9xxSEwm$UJGOQ;}ctQS2KVqs76RWXF1O}uiU3da8AWaktpBm>5bSWrQ0
z8R*mK!>H-t9_4RDMT=@w$%(uTZ!}JXV|%-1{80PcQ(wK)nkv}uBN@WwLOzKcW=g9v
zE!3{j!RLXnjNj!t0H(^aioY^S>sggpKykxAG(2@U!Pi%s=^<SZW*#ia-Ta{mJrf}g
zC#KyVQT<f2rSP(({|ML&4Sp)lWFR3qdFrQBHD4IZ8+n-5RouVr^RI>8Mz=w~<HZ)W
zsy}Cbsv{Z9W$92D2&u52sv%ol?2!oa(S_L%J{bUFYdsJ<Ud$9?#DFjcp$Acgv)fKH
zVUPpca~*#L*#YEPKbDxQ1u}doGW5fP6NXP9<4$&i%nOl$8m)`@7fF7HJ>%BqBH#ds
zo4%pEp?Hh#sL#OKreXU`YeVo7iL7)}XA=DsNh73l;KOYxhdPF^`LGotl(u*%B6yr6
zoaXkEZ}9qz^W~4qY=Phz(zaN|rheaPGFaF84tl_OVYHDWCmtBR=>Q#FB60PiEE$aq
zxENJV$w1o}vCGqq_4w~78YkypTAtpVBmW)TKgqW3vek3gjTw}h({Kee&GjSv$48}K
z<T`dy`nZR+LF55`loKwWsc-YS&W=!6s<0on)c{B>i4v93+l4N#lOeeC=EH4x#^ZsM
zs4Ct|hb<{P6ge4>A5Tt08<Z-iwTzK=_QTNm?Omam*%!~w=^9bMy9I_mxXy(nqA+O5
zSrLCQ^Ny#+=P;L$+uO141uB$GWlNNB!mZ;%s^6tm<(Cw6AX%QqyBm+$Blbxxz&BIu
zFW%6%V?7tl{{--%A%A|Z3Hmqx^;yf)=yBg57G5n;pn*aHw;x=s;1Z1;QAE~bR=1O0
z0rCw^#tgxMFrd7Xp#_!2=5s3Pu<I+HX?MHwPf%pww(K;59x8aqz6w+()CEhE8A_iq
z0Tq93Zgxh*AQ1RR&#!q0j~xLMJ1JqA8xR+MvZoHfV>m837wq*d#B*^(F=>*t*s3^M
z-C&H!dXsY3c~Q<5RfRcz0Y|<TyUrzf&g%DvQJ11pRiGAiv`Uh7f?8YC;UdO^ptuOO
zixRbw)|cTeh7i}Y0lNvi1+QnMfw?aLK)+Ozo?;><fFpZwW@&L$YUhWRwUF3fDQLN(
z5FAcPIH!V7xIA)@R9rUq_|IZH!-&soW66yE=Rva#M=!o#b{}ou=`#@?yVC?t^gvwx
zPrbpU55yH55~}^*KKUt)Tc6-e&sZaZl>{^=$ixkUhkU=ix|sG3rbk(Qx7PX08@x`=
z1|N@?`%YdGjPI&v4D$rJBQgT*U0MX&KG-PRi%U5FSJwWvWy<NZA1qh6r0?M5G#9Rx
zucT~F8pp|kXz2c?vV+M3(jxT=ztOWr(*Im`Q%5hy?1jvO3ty=bBPn+A@~&Jb@M`Tg
zJsPW7Da)~e+K3JV7M6bv0#xspxU6a6@j;wuN$W4vwD<v@@<hhO$8Geb9|>jqJ%o%H
zat6P@hDzU@Wj*8nuZ<o9>POBpgDKm?Mj?xd+-c8nK;Z<R-~e28%)S|#pDb@{^n`76
zJbQ)467B)4XiBV23q$oY7U6;-?q@soY?S`G62;#GfBWT^g<a=IgWAnD6R2n38sM+x
z71{qDsyN>h*p@lzbpdz)gO41Eick$Yw5-klZ00j+QHI!nR9dVP`R+$pjRdxQ(rVnt
z5`}w)Xd%2HtwTP1Vo>p>?R7GL-yl|BOvgQ+*qs#rzf)6ZPppqCHni6ElxxSo^YGi9
z5km*am435T?S*QTh`hMDQ>_msh~9>BHpos;`A5bnjaP#jIFeSQ%sxM$W!uF2WWY1n
zP8Q)8zd{0%W^w(2>#)Q3l}nE_l%|E8#;dm4_0Qv?6>XJpSXG6^Owc77oz;&s%?aO=
z$5Ii&PJSbkwC-4{@T7SdZnAK885(E{TyMSCnDXWKh(w5-Xr^5VyTkz+NP8(SXI%^p
zv6ML&oUxl<u4D`+D&AVWs|{408f9OU{LkeZyOBp*R|NpN{aU;m%|H>dJq%n9r79PS
zyi&LH6omeMJl*B<e6}o5gAkxrxBemFy7#3~5f*E{Q1JB(5E1!Zb07iY6X9tN%cr|D
zVDJn`1g1fZa>G6;uSjG^aqelBPuG++=eCFTKl)c(wd3HJnfTE5)xrBLrT0w(17m;M
z_-$?{qtTgyM-)Uw)LV;dpr%vNb;a+91UB3FSto+95z@+$)eC)!VYVvWTa7*9GTFQX
z*h?gjgJ`14td^^cB}@4BfP}YBB(Pe<kAeJ&?^EBo3wXWc*4)FF7t{&b8+8c|!11KT
zZ&G2-<EkC$abjewt=5iWV+>yw9}qk9Cpu9hi6h>nOr)wHGd*j9oJn<MZOvoq>86(3
zxLiXN@RU6^BIdfVU*BWG4;m(@Y<difJ=&$`98+oc6*QNuajpaxsjjf0%`%cL+&C^L
zJ!3|EKPb|S>jF%NOdmMd$^s-MT{~nXi9lAr^Pgo3PIEV;3HI4z0Q2UqYkb5T4V#O8
zGwm=v33>XLCDo?JGyK$?SNWB=i5;ZjbzV~PbmWcoIBc*)s^{e~T-?E93S251+zLrc
zye}rb6g6*4QNU<9`=0;w|4)*=6rFQ+jv60NfsnChG;e>ZjN{@4jfGO;Ru9PJ8L)r+
zV8ZKI>;9ro?&?9P#L-{bI=JF1FwCNl8pcjt|KaaVsb7x1o-{ya1p|1b(d+!?gQg~M
ze04QeN~n!BuUhs$X5`{d>XQ>GXR=Y;+JVDTkSoH~3vdY@rFJvfo0#SNilt_V`|G!K
z)N}?P1RoLlE0wVeYd_P!XqE0?5AuMz?=J^|G`!j-N@lSGg2xaPyFM2!+yg(!>dy`!
zH3!G%kk_d5C8wFQJ)8<oK$8-#L?fu83;nM)2JY557)Mkcivb}1{qYPTm2b457J%&h
z#KUv*Ptu?9J{z#`qp)n=Tm{_G+M-}w^)Grc=N4?E?hjsCW^4WN+=6hS_>x8K?^27;
zE<<Iz<{zF>`{c{LTKOSgr;i6y)?Cn4-}G|AwgD(|wskc-{&nOFGc;0vbg9qkUcw#i
zYQ45sj=X#F{FIjM`!$bBO2*=qiBJDY{p;K98-aDL2`!I|01AB>FL%}fKLB#;VGg^#
zwmGV+Kep2P{QP`ce_*tX{y)DOon(sL0U13sgOly1b7b&q>V303jj<c$ULZmSeCnGq
zmaVWl;h_Iwn++oa#mr`%XnV5hnu|~4aG0mA>A|)0e_Y#0Fs64ZKyX;5V<V`-{)&nc
zcJZ$WN8mI7qM&7W+7{sG0l=QILoAzJn(dr+JOCX1i<_ngGXBqSPz6s?u-h`N!ZseZ
zCB>nv@9X=)e!x^9?t=%m98twtbkA<>!tD4uK`AZZ2+C&D6QBnT_?AI>UKA8cFaGWJ
zdTUY;7l?TMga*Y5BS<u1I3-3@HIzT?d8E)N|3$TFX0oAK2;*&CrVS(7Y@jO<l}&!;
zXeE?EshDjIwt}a#s(Aa6?tf`Qop+Hty86%Zw9!+0;#DS<GGip2=w*R~L8*n9?srN+
z;Ok_vK_#WG6{*@uzd&0ekX$LtN<zJ7(4%u$A*{Q)<vabAG$zPx&(-m^ihSz=uovDq
zYfoSi6g0~@pQ>iLMV88F1nL1xamUcc?}y@$j+bf$O3c#ys&<qcE}iH}g!fOu7G5O;
zKPb8M%9)x6hn>*97$gC+yuVhjvl|mK2qEsVh#nC`Cj>9GDlc6UM>F_J9}v?GY=m9<
zy*7FaT1sF@oVPx1atFU@^(AKoAY-<hjXpl)RB9>Bv}u&c<2oP9(_s#84yTLxjj$jy
za`qtB3M>r#|3aED_z3ipi~-Pf?W7A62_=uiLxcW)0mq)F>AT#YW;Fn>Mq|UO6Z<cg
zB79V_6oei||MNo?&O{)G@_?{+wV0A2R$0NSD+AYEkF{RhfOWRO7;<uC7d`QpRCS9c
zX|DVI;XrMt4;Y!_k2ApSH-SaBhU{s=BQb8F?h3Vg7cuR(TMVR&451bt;K<~9C`zm+
zxHS#UpS}1esO99bPP`iA1UR`2{m~Qw5(j1U9bzPE!1GT<yRI_P=EEu#vl$8bKbzG;
zf%K9FOkw<Cv~M^@_K@cowPZA@I9^A&1<nWpsXR**t3V&+oQkNm6h9@b3X6D_PM$ov
z>+s@PiAub_O}blfZ&m-L;@}#F4;cURDpdTi=?Lcvn-dpw331g7hh3kt`I9+vD^$`I
zew{@>*U`C2pu0CBVpP>hl|`+`TwjgPeds@k<>>)SFkbXqyDR~mSeyyU|6<4I22#2g
z^_=}#`%?_0<w4`NR4)I}xr4>~rm3iF9KAP-I<n@AE$U8;@0gy@p*{^F!3{|bmzGw0
z%&D`#Vq0An#xrUa$0U6rT)%7i$QKTJlhU$zmfW5ml{}8J3}(wi!6Qr*j-@5Jd%8^b
zW?!zQZom~^51o9+vUi|=@TS-qKzx%fGaXeRL2g>b{}emJwjnHqONQc{6A|558h_l(
zrm~p7_BZFb@C#ax(chdgQdOi(9lausH0wxAn(t^K4|(8sOYLb=ko}0L8`)U}EX}o|
zdm~!T(m7n#{9jr_E#PhYn63=wLq#^ljOF_u0Lif*C<QoxhB4tR5-qxi_4-jMBJY5s
zp1-Iyv`)<BB!su_l|+q|cXqZX@bzjgcB?dMbdE}#(DH=@W2^*!+c8M_fb!UWtSbX`
zd=L~~Lwus|yClQt$hQrk=|KRF&*2?F!C1|eguM9$OLWe}4-Ux>#fLFfj34*52%#5g
zY+$lkADLY1nv9$7ISm}s3OdDM65N!4tER?W2ik@OmvmwWoa}(5UPg!5lA`GnwBKx=
z-Q@+vi68veH%C0+Cdi<b9%P{Y)g7HOkH51W<Nze(#x5nuT^`h9=ws}9>yV@8nz%7}
zTzuS=<HuRl+9|4NgsG)clAHFULPcC~Q$zPWuW{$$fgjP@=>(Tm!mAqQEFkkopXF?H
z27WeLufRYJQ5r}{ZB6!q@5LH<LG~K3<9Ay-J1HoUK49B7+tZ9xe;>_cmI3%gN;@Zi
z$UydLcnexS3x2TB6xH&7MBgaDHTC2Vex3LWx)6&sYTca4a}C;dl$)o3%Ns7>qzPOX
z`{e<1iM3CLnXhpq%t*)?jWv!Z9C`s2`4u!(A8hFF$@YnJsL+`BZto}8$Nz`%Auw_`
zO3H-w^Rouo;*yib5~iM?-E~^;ACAt#?TsY3cprZJWhQqL^IeO74oJ0T3`o}&@_bfa
zEYM1u?jz=>sS|kQ&^4C%LOrh07PMIelP@BI`;c)y1$iUNHtnGSs^^M*Y|y4K;-N0+
z1)n}^U&=Vr1aO0oYY0Iw)om;qxj75ZWsh8~((18?*yM9dZ%y6&V()uRyqqn~8cr0v
zyF$*RldKunC@7PmyFJUX5tGar5ubQ!@|3<a17lXeM66c|LkO+BrBRlw$4XzIMg6ar
zdNsu=$oHy|gZ~sfE54lf5%d8B>Kl#6zjx1UD3*ValMP<p<qCN-4AXgkWs6w~bk%(1
z*aH74y~T%tgCt$8P0&kqFe9g3mw1eT1#BzcRGFZ@^y%6*w3I1eKTgz``^U?a2ReMZ
z-6f5hh8gCP9zQl>Tk!#>@tXSC&DK}Kag8aA)v(39^aekE3QCtu;Nf~Tja)V5-?GkY
zurQJ;H?ckdRhm{|e|{L~41D^<E0rjVTsXHV@xwolr}F2W>3O5r-zQA?C&p(z2K{XG
z8Y!&=hHvt&iUxH9joSCv6Qi)Ffxu@8$SCu>7{|8^Ge4ZxcnIDanZq6AS2p5VlzG*!
zUsixFE?@XF@HGBDL*eas^BNjGJqi<sl&Yss(%O2)GlJoW)sN{`ayS6PEsNn((B{)_
z!OC2!ZY(pi$5`$pv5e(E29|x%Z}d#tbF@zvYAtg61C|-B5_W(PuQxRtn@#S}28weL
zYi8bSf>rum^M3W|5L%BNk@^nUWvt?Q3tp<zKsY6a`^o6J?L*F`Qv5t<u<OL3<&rFS
z6>go*11cX&xV-^++5jN2VfgnOTsdAW8r(@$kLTTTjr<D2wqq+ZTK##Ir6$>7%aVU>
zF#licxcZ*qYz2(1%y3l}$pIckB%2avk;S#_;^Y5)G{j7T;pq@?JhQ(;sW0HbZc|M+
zRqI+FVs_vI07+oi|9w$szQkv<<%~6V`@1bK>s8$j;1-LG_)<=03rCVqayS(1{Topw
z@}DsI1EW}RM?>^<=L^zGLpvgxE2*H*863L0WNenRC#po)>Lu3~=#;G*O7pDsVwjdr
z+!Cc)ybet2zqaNN#Yi4CzZ(vTF*(YU&{WsseOs1~e!2jN%)1}c^x)iZhZT+iYjv5+
z&4z)z;0*wxF&?g0AhG#EOyW`JW;r)s;nlrumh@>w9`~`{$Zk`;d7kn^3C-LOrw$i{
zna>Xme9Aj0{&>Bi-6p06+&7+Hn`ESrjIHD1ZGV%F3;ep^9zpL2Cyc_&>(wyUForXa
zUWjuPSG)t*1+3g>C{emdV_9=uGu3Ao->#(&mdC?0Z)yMLXy-C0g(L~tO=)!2cRa(|
zWhUY)rXGFL22zSw+d5F>yDs9o6-^IHT)gaJf_?sTggzG??*c)M8~9E73`t*i45jdt
zmmJ_4jxnjU0)C`JUld6vP9pq{Qi#{>xH}KE0Up}u(K3@|OB$7?-MUEUx24-=Wynsu
z8gd};JZ2r$aj6M4_=|=$l1l~nmbfpcbG1zbsUkMBW+JuR4-#UI-Dd=|0`0V&*JaH&
zY7N=F1~d0Mes~D0X3_-~5g7GB)r~W>*fuzqo)s^aEn;@CYe1W@O$BG~LA81HsRRWh
zEhHvDy1q9C;Zxrs)}Qq5A2#<?(ype6B2FZwj%hI!q}F22Un2nh_OBczio^&qSv)i8
zKSw-zVblNTpINmP$SsOZIMw}PF*lyfxQ^+b8Qua2yAP{?=Q3mS@!-`}mX-Usx#@iI
zer#p#Q%S(hS0WoF=eCJq-TE2>NIctjL#DgN@dA6c@i}X5+ZdA94zBe>{&m#@^E#KA
zY>s1V<od>y<8v|-6eVEzMOTnaEdq9ZEVHVz+<bL)ZSPNR{a<k@Jb4xM&z&c4{WQ1T
zX`|cG(bM96s>$k)#cxQj%)HdJKp3mNFd$(POJRTQ6=CuMx;|;XCIw~e1|hj|MCqRt
z>OyJn1`!dFX}34HpK7;*&g_Vd=o%cL_Wm>?`gshP)P+A94kMk~d9Lpuy+7?_8zI$K
zv6uG#GBVU(Q<jTgf(vsq^4&{f85#$G;1oD6w&S9Nb@v90=8`pp^tjwh=uquh>p8Wv
zftcw;!=)_<irs%CMi%wDvU0kNn{$A#W6ZRw!IE2Wfn{pSO6g+RowV3>Ju|luz*^Qy
zyC#Rr`i2o3RZC-)?+N#7{*Nj!ncY9~g7NK^Y>T#b`Kgv8Xwr9D_#R;Vv`(k<8xa)R
zmVQ?g#ODln;F#Q1x<UXampfl<#>Mebv$5*TN6!t9wkI8(vz%`hXk}@&8D0*t8Ax@`
z%x#btq#mVjtMVmVbw+l-Jt)=Fit;)$4X$^VQrx0+8Dm07*L)?FBN%*$i}jN7D2LuX
z7O|l1q<;3y&Qax=oDENb?M9QzoTj~3Ic=1%{m&xO45eqppo~i*1M3PP2(nR$c6HiK
znZMRAzY6LUT};fmil6`<hvsfH4!rKEbFV+_ddb^)r+3X_`A=NDLJ!bq*p|%yqAt)V
zG<+p!2g-ALf1C1*Z1X92{qXT6Dk|XRpr9)=MJBPChDfV*K@LQJLJz2=$CYe<E^2p1
zq^jYN`&BoXBe0&&kVTitH^_){Ri%m8mvqo(<tp@6oT4`3f1wAE21Im}pxR!iI`gYz
z^7{K(%p8_&ZW44+Zs9-j`1~hAGlH$a^eJ;I+CjE1aXJ33g0hQp8vk*1T&kGW495I*
zHFF^<(SQdOB07Zsh$=rU7PV>e#mh=GccbXy!#{(o%Bj~^-dDH3%!XL31Y*s@f)%;|
z-le%ua3|Rfxq)1JCUI+~j6%R&o?B)gV1S?muw_(?7hpcWS)F5Eav5v0xpHz)uxP`F
zTiv8_6VD*m3C@d2NrAZbCm$_-D01L$l~Xn-fo1*jWN2&B&b=&mH$n6DKaQnPmlOQ0
z>8=Z>EYS$6UFK@uR$m`OuxMEH8oQDQyQ_?wL<RgH-)@spOS*yM%!l5`S3>Tr0LZN^
zFsZ4R?0iDI2u54(SMM_grmNnvkBv$2RV?^kv6|}R1s`4%63hi)l)6rm5rMi5E#P1!
z7j81M9oVCNJ|Dn99U=yT)Ex|@mA<gQ%mVl-BVv{7z{}+gNjb4k08U}0zB{&B`*G48
zU&JC9fh1ALfn~()rWIf<0!ymUMTT<QY@?F9FxL*y1ev@YP!m$%!Ut%hG{%~2YQpd4
z9_0h6lpmy=7Mwb_j(ZN}m~WLT)9B02ko$;J`lXz7n53?R=7WbxxbTOeW*a{&0nx)4
z7W%*!$wQ4d{9MIpwc`$Uy+XtY2;kRj@g;gwe!wK?GTz9G_^Gxl%tbIF+pqz-19DHt
zCpV#nZtgbjbmy#p(ZSSS8vt&uA^+^Rz^U?*X$nh0*@MD*7LE3|kq`iR4c@rmjegF>
zNh{o_w#K`){KXx-1$bAm$^Wm#Ot0v?)XKz1VH<3ucu_ew3Ib!;%mZKbz`(7s^301^
zG$hrO;|iC3F_-KgSv`~=P^12ExvkZa;J=8k#3nt3*8Ek%eVqEUWf4vwhSbM6P<HG;
zc^+&86Hz94+?qN`zxd&;ijCiu5Ew=cn^L~JRvNVYu7PtLx5<b9p~M7Phx%xh;9KNe
zyx#oJ6W~?`G|C{<OegI{-p}u)J9s!Y7N4E}*$L|ei9m-gFZIYje0u+U(+6STx?Y20
z1q@^~X=mD=DCFxozNbg-$2|SL3mo>h?|?WhsuLC}EEC{*7N=V_*1PCOeYB{J@tvuY
z1tylamcgIsi#O7~)>oZ~7VG}o$MXuUJwd@?lD5J__*q!w*7Tbzm<F=`NbV0Zt5jha
zq(t^?c27mPx^Rr==9Fh_=u^RS6dP#h-AEyVBxSH=mzic5w;10h_>lNY`@ToMS`ICa
zBlvxt!Ld(1bSeyOcKmWOBOT0;tLl9D1%CdXd&ZBpFlt%lLKVgmKi2yaMIEF$*vf~F
z!S(8`qVH>HK+(TamYG>Rc`s9XvxEE}5bu-E6fh?LdsWm-st=@1`3XH__A!azY<3~Q
z-A2Z`TMQpoiN8I8oOW<*qlC!kuRPR_`ZwwV8-_jqWpfxkqd?=I{<qewyO6UC5dr*<
z2nkBQU!K%>%N$Ob?EN~2cUja&pWNxMm*@Q%bWbI;T{94<uH%&hGIM(#^b;F#^g8n#
zR6SahDU~eB3=KuJ-*i{c3WI<QM#|784*JVmMO|mx_ne}H7XCXxPDdc@%x8?lxTLDe
z^sTT#+vG`>CYh8FFcfg7zPf#r7|zpdv4E>JeH=+naIy&iY(QuogHqgO&KP``oxxq(
zm@-25iGPupu1a%d<Wsrz^k{An^o?^@IcvRb%1`NpwKNA6Dp%QXYUUA>v|!~YBL;5_
zi10Q~Nqb2#kdc&RrFCQ+&_8&Hv2$M*Dgctzy~g+!X=~|oQn2Zf8Ii!o8}UKQkfmtf
zvOSmP@F42wkD|0M>MuI%K=f+IT0_KF8sq4hRCNhtbUVLXdEar!k#5KX2pE~Xf7u>j
zvc{OcD7N4<w|vwQ7P&}p0sIk`)rA{VP^antJmhJl<yLspn11-1MSb9)a<vjLEgQ}T
zE4sN#%#cI)Zk^pK`sVP4JNWZ>AY0P$31MD-gwq_8>rwL@)b{BDfHr!j#8(@%h0R;$
za=LbU<Ar22%Tqva{)AwDuXaVjRKDv%;36qw53-J~<pb1d@P0?{6F7gXcn8#(*Y7JN
z60+_C#P0Zc&&b^>*7R-ouvC?rni2rR{-=8{Y1_Up2F1F4LbXF40Rnsl=dF>Sy--q`
zPh}@#s2gD#_FaLYB7C6PK>QB!;?j11dewv=q;^BmJ8nvpQ*#8L(gR>2_duQuAIBwZ
zOb_CeYV-a-p1wLPitl~<gOs#Nw}8Md-5m=^*V59`-67qGw4^i((jfv%mmnQWw}5m@
zcm0O%dtL9pXXc!l*_}D(Irnov_Z==&Gh(m<l&V_#qe!!gNvP_*h!q3nQCpv7Ko57V
zvM%}exqJA=oD)wLXkNUsxI1<+?FPsUPBS{*8KxP?e8r{cRkU$`R^BN-6DK=#bAvH^
zg1(j<ALf!ReGTzsmVO?g7T2kdG#sa=Lf-oPHJ1Y>H0}S5TwWAf<Pv2zsm-Km7j+yr
ztzUrtzw^1Ff0QMxRY7BRbf$s^2^_vbKop2ytoReRI?SbAGLlQTUe|ZoeI{&FfKoL}
z9lcV+>IJb8Mp_7e74nBfv`*<YidRf@A}+SfJ;8X?wBW`p<$BhAjj!z3tAN;qtl!!c
zq%&3OAM;OP4a^K3`%G>k++-J_3H)N<LjfT(Ha<#fb=&$+oun74cc^#oeq~h2^zQ#c
z`F-$LL`P)of`*x;Hm@jX&3%JW1+PgmDt068m93{tA!41L8urX*h!d!5$SsL@^Yz@+
zD3|Ti!h4QgE4(rnp*`L%5seZ$6}6+!+3&4ucv@Z+-{y-w;fr?}$h63$;qaKfH~i~m
zvKeRTByPItqq_*?c^=42jF=s!0>X?~D{yI4ciitR!<T`7U>#_OQGUvf38`|J@RUI{
z2QfXiNC1UJVRm8O!L)Rnnj-$*&RO;zoENtj04z4<70ba6B{_X*F6~vUT_#A*Wr4vg
z47C{2+EHqJ4dg*D%RivvT-`NyPtOS^o$+hc8{oLca#S_o1>Y*^`0_Q?>?#&ge7kQ!
zeh5$5vJ$7%e*Y_6C&Kd$tzxC1oUKF%-#LG5Ux3i)s;@Zj69`k$M2hB1Mv?XV`EP{4
zZw3E+dr&+RJDepjtWS*PVhetEVJiw`wsIcay<I!Sk(p5mh2iu??TE6!05AQnHW!z=
z7~@RM@?6V1%C;ekwlSbEX7U6Wg1_*FFL4><vYQn+9;DL|91ye@pl9ZFsezAF;EDb@
zK7_t)X#P#7xa=V%NRp`+xKSk^8pDvz=wy(xko~v(0BXKuuY=;+8-Jl{#1J1j7YS~K
z&6S^6pS(E1Lh;Q_ynO4iN(JxWW_Pm$&5zGb*776<`|eGzxz+YZ05Ydpd)5aWO_*<v
z*JHKDOgK%C2=CseJ@9{Qx|%LAPe%uY9M%w|-FceSC?@O)?ymxQ)@mb_3cJF*?=0x)
z0YtBb0yS1gIqZf508Y#t8>2Sz2x>zT()<<n$%;yG^c&WzZ)U)g25`StKX1|up)dYP
zxbmHpVb&pAn3O9g61v`){t}D8iJA$G8IVAl;g7(g1g!*M^5fG~Zgu|p$;(fWQRrH@
zMNByekjIL=xL;%QXyBm^vZkQHAC5Q21^Lhi8*(Q`-g7|9B7cV~2r=PnG)!B8c&Pvl
z9(hLwNiJmixy8=NAC}OxZNh>01%3+}2Waa<vJ*o{@Y*P*=P$i5BLnSS=?GJmrn`oC
zL#C9>NXXczXn}-2I*#LlrHA6!D^sSD1MMh7Od<T0BLytW1I52zgD$S^3khp74!>w{
zyk>G|XkSUu)?^T~$rB4OmtS5Z$W|>`X?{-q-eu=9*tvbA3;&qyY&omsAKJw8aeqiQ
zKyR|~Oaob3Ar)ei8Wgfxko^ejp92)7ga9z?&A<C82=lEPPN51-=J&MUn?D&Oub#<l
z!s5KpMm61R>ZpUf2~Lg=#<mJ+4nT**fA{BlU`mA#vw+-#k3U28b5I4`u9&#;F36LR
zVB%|qFm!_a+_Od^Ay=XOZ1N%hZ53*%qmQfBewOZln+k>(6bJmwTVkfa;ONY!s}7lA
zxdxY&y|}<7$Ss}9<oQ}bmzPqEBCW?ftf{x%U8nE=sB>lyEV@jG3^*hufM>63fF(#I
zGnIe#fXW^~j{=g=unBODF|ddvqH9kT6Sd^-4_*P$J|(}+FUV?6qJZC&L?ese{eYeR
z{UcCVII;?iV{OV7E=*?Uo5Hm)uXn1OwCws7%{GqT=4~XuvU2N9O!q%JQ31O@h28+e
zP`o&k2Qv1el#ixV%lbSeL20-Hxo`XI1tq|<8dL`SQ@K~Rpt6ICxyI}^ttyDqGOSXk
zpsh?mqToBk=$*5`tC1H)Uz7Gi86*X%o}7YGpO2Ir)^xXQU5CsRo4$3EVU1W)Na2BY
zrXLps*Qp;nN=0msTHEPN#Q4lPk>NrgF5P_J!2SHxFgjPpzuNHJ;L~A`#(KDV#iOuZ
zF-qubt1^{hZ4yl^N^!^2_1cYj8i-{7u%%KBNp+A4zU2I&QJ=?AkVtP!M+N&}g8?*)
zzNV{TMn?~WT8rik%Ypgv1_7ZrMv2<KS@$F4C{D1!J2HR7@D7&$q?eH4bYc$5NJY-a
zBuQf-p=!PiHRaA=>g3a7*fk*ahLPbxCtSBdqyHXh(^Q92$nXNlrAaW~$d4&~c%6g(
z7K;cZS;`t;J9gt&xc&kB2CfbaHav-T&rJZISRbPbEF+|G972jhshnbz;MP_C<E{oP
zvAzr=nw>UC4gKot_s+V|5L3!+Z9CBMds3qxqEUVwRhbO)-<{9D1}T%0)BrFxX$fpK
zmG%n>s)ayHvNWIhl!hgM(K4;8ljy-D@U#1SQAn54QPWF5)bLmW=2m*Y3pwBrZWWCM
ztJt5r*yz@5xXH$vvERDJ0{o&%zfZ}tHi=lD^hdD|Q654`%6NgxV`-8tIhwb~<r`GA
z;2+lPpX6Ul`#%n8m{<p2^3{8Mo$CA?lQr891QrCJnSg9zASRe6pG%hhLkM2Ix~FgQ
ze4S2IXjN)4$L|2m;w8n+VGkEHW1*?e_Fa+dTivwM3-IuVcswn6>q@y1vqIq<fp;0O
zi&_qiMUAvl&&}Xte$N1<r9HXsg&T*LLjYL)03M#}&U?#lb@uja2%}YikeO?!URGQ&
zhZ(a&jdAh^!`wKQ&gN|mtzQ5piV4_V6T@F7VSws+wTCJ}cBF$9lFt<-nHr8a4XzA{
zO<WR2%uvPU0{LB%4>4a~Z#Rfv_xat8fE%)4P#t+BpbW<QLV*X)A{99je0s=V{KqwD
zORf)#RG(0}PZ>h4Z-28R(WDMEhe(=$v>XzX5%p+ornMJ^mJ98GvIB6PCMxQ66Z7cM
zujmsgY-14KYrrY@vK(LI3Ksr@fKWQ@KSY@B_HaD0(!7`mFe$s4?)9znH>-c#OD#my
zu*fk>NS(yTyHN|_6KIG-^1@Ptl0EnSJA*W;U#d>iOobC59{3!+E6wZQTOXjy?Z+yR
zDr+N%e%l$*iQg1_n=KRlbE=01NSlBYnLRK&9;Pbid8<UQ0Mgt#Yn26zBvu~E!m8Pl
zy||6%imIDC2y8i&8(OsiF)YXNk47`E_A-`XSsSjFO8`K`*3g<7EQu<|L2M}RpdKtV
za@&YLZ0-CUt@#bvy@o?zf6pfO+zooHGBOK=%>sWs*YgfNU*>o-q2g0^oHI_7Uc!*=
zB#`N`S=fI*kd2L9ITFy`yIQqHRCOCJ2t=W6OQ(7$4h*218>Mxn%kkJ`KlgW#-}5d}
zb_MH7(0b7Pm=+xpy#&Q)|A}_vWKK(~;)!xTtv-NnP{?OJV3rfhiXd5V?Dk8DYnAxl
z{xXCJREO#3ZT}7P4>X_9l7Vg+P*w)^ouUDZIw%%Xyp*zxd3u*}lV}#lc>A&szg@wc
z=rqmTQ|<g+uUL|P^rqk6Q`b&;6>KY7t!-mP!O>}P&o}2`<B)Y~NG$jca5Vq%Y9#cJ
z@*&mqK);I9{htbok~Yx(u^4lBh4{_=JY0y_`spcHFXBoU%%d<F<l-E^`TAix@}J;H
zwZzSJ>V+tC<<!p1SEeQS#?5O2Dn<<~04%RK(gpXoVxS~X*ncLbSG6NAKiom9`&y&7
zGD@6$P>u#wNDZ2=WDE*X@P;g|DTy#kw~1U}r-Qk0SIIsbVw#!uMc-mTTVx;nB*y>t
zE;`L`M9#BWa&h7;8Ud}M%;ARh@3Cvsgy`mFgAdmQ?3kbH5GtuJB31~L*+6w{(~E;t
zJoRFfhF%if>{eF_SQ!TMpEqWHdKf$4zGS`W>)W(v+Wzm{5WJ=GHZpl+mnkz=W^-!X
z+(QiJDbv=m`>QZnJED?O$iL#OPjF?M>WLf{3p-kjsALVdjUGvj7OeePc;@FV@jzNw
zfE3A47WFyCvE0M6i1J9Y@uFuwEdzh?dOeWq`hnCVWUUBm*`aca3^T-eD@!wL1E4G$
zmPrT7WW!qJU}00rFe(B@&ieb|Xa7DjphHkTd3w#3Fl+iB;oTS+ij2#8^5m5OB}cix
z2Bp0=Q5nU&NxtZz=6H4IE+PQr3UZYD6<YtF>YIb0@5x&geR-Z$9lOWOo5ZMy?kZyV
zZ$txvO*JedtvpjDb!p<gJD`c^%pma2IcP10iF+|ay%0WRIm1sc*GPO#98MFA=7fuj
zK>-U^c$*8!!XUdX(#Rxpz-`I2WoVN~3K5%j%LAtfqVE|NGu&ntxl{NFh4JlrxBD!w
zX^0X}?uGdvBRVY0Xy=SC!&p2Y{WM4Q{mQn{^j1%iwZ<)@zFFp4Oy}s<y8_D@u$4uN
z(q)b7g-eRcE2K!D31$z>18;G0u@9T2{AV=&9sfdVs;n}sngZB!=3=)rrz&Mlh00yr
zp@=1IAi=!FOi0HY0KNV<kj;8bZvZdp$gp|HVVrLBxs$QeIIHONS)DrKX#Zrz9+!*_
z)Cie7uLgMT`TEaYgxm}1`Q*eko(f!<;(Edg=x=ZUUKP*<AZDC^Dy=&4?yNr~{+!vQ
zrZ(2J<*!tmi={BHU5hTWJVWbp=J?mGL}3{{F-fMs$6q-PDIZzbbxBlG&T?I_)a0Jd
z;sbS*@HpzxNkn7gzL)*;r1b4urbn@@#v$NNm*PB0h6CsE5`AA1Jpg`^(HIo?{qZ?D
z=`~3<>x8Mnl<c+dipN<Un3)tsm28|`kU3+`+~agRpmCeWW%}8j!9bYaa{^qp@c#J%
z7BN44UwT88SzLN7Z@G)VQi9q+1Hdg&<)VUZIIehCtNLS_GxLv6@{gqle&jsO2HL4<
z10h0UvvrORw@MjLUeQoxhL>s~5s<gk^t`x7ae!*Dl6I{mT!DzJLJhsQ;@|+{QB%In
zXicw%89wRQV6C?!tzSyi%n#CO2AX#uY|}+5YWG=zP@5>8e0{;EgL_9HzB3f<(9Zaq
zj&7<+J`Z2N%UHdcQ2$#E@Q{`<(-^I-R^4;lUsL!N#HDRm7V;~bD4<6PjOZhs`S`sI
zs!x|5Hh;lIo*<&ht)jy1;tXUrTM0P;A#|^uB%TpC<5-wp)tYwv?b=i$`m{hepxxFo
z@%d54=9L!fbv~_7&R!wcldh%X4&=FR<>cXqdpA<&8Q)4k%oJqf+LWP#9jEfr9>~kE
z(DpuL5^V_Q>X2@SBf)-Z7;vEpZLC3_dZQ;Qj;hFcBoAEBBs9koKqX%==DjI3p#`GM
z&qYNo!dB|n=|uigB!Se(6Fyw$#)aSBq!o@nJ~9&cZC5-~E%g|m7!Y^))^eTk5tMtV
zLbaaggH9_hfO->xOBLl#K*iCnSHUEc7kaFcbaeofAOrZIw$Ol8F0~t`OZWT^@7Q0N
zqX{^#EA0LfzzART1dEeV<tADXM2&$h9!3G%@kRFCe_53&mp2R3Ekcq-JBncTd<UoG
zZBrepL4elzK>I1sn92WL)IV=sDW>uH(<E&BJCoD)fZ@Hms*AeBqen4`efULm(pd2v
z>TJJsp9HcR#8DU678U+^@YlDQ5zuOO&(h|)&9r=ZWF7JXZCC)(G~sh~g|T3z#*eUx
zYq}Wt)s(Ajs>&gehtK_7zuN++L0!KDr}ynJ*6i4`=C_5ZzKBhUVlp{QIX%1rXbJ(7
z0>&-F=OPH}J}WZFC<zIkqEsA^oqMXyGk)+#jfK7F^A1hxu=)2D%y$tfXcrqChMYW2
z1sF;^*%bQ3Z8WVTM5F1ytNdWxdr;T<=~zV&p6(-DGh+DRYI43b8Uz`+C!jAd?;UU_
z9QXbrKP<+z3mhi3jyT@^0v{vwyEiB0)fTIrdlo8bpvw&AOQX2>lUEsaYr~b<&`amb
zl>?w}Ko8cjyzQ<3u=x4Elord`EWJqC64)kt#(S3I?DtPX*{X>ZKDiWnc=uZ6{ODT;
zYFH2Z>mfAyQ@XpXerhi=LI;R@ZY%@=)V_^!erA!H)lQnB>*NJ?_q*iTkNjLJ49UpS
zpVggY>+95^uY^Eeg6qBCP)67eFIE9z&%Gw&KK~3$`w3)+ex$lGbs=NT@5yYM((4q8
z=>|{hJPxa3%7i>!*j@qW3gTs?vT!0p_wblSZ?@;6-{>ow!4%IgJJ>s{B}o+T+$YP9
z0uvN=fj`bYw+Jo6gp%jnBXcNwfqxBkwP%Fe2iV|e{wXdMee@gq!pZD^KTOC~+=U9@
zW*iOb-C%&LZal`r{)Rh!EMK+wMJghJ83d1?tiXJZL-k!mlAp?9A}WbQd}!xU3X&LL
z&wl&e580pR?EC#fhyv}MI)tdA&>fVA`jBVrq)P(&h!Tk~dA4)+aIk=v#Z4p`nc&hB
znNE~m4dM;eilOSWNtFPq))y%8Hvh~1bMZ35+`-kQe5iH%3@dYGAFZxIoC0t2TG{Fl
zz^-GfaDxh=EMg~@RxSV!*y(9Hy?-j{Gju%2s1oxV6N&T`7>TlPyCc^lWnIAAg8`d>
z@qQ<EnIa{AXgzE*&f9Dm5D=<Dphz$q_@lp%a~twgWAWLP6W!HKPH_w9XcNLm!{oeB
z6SglX8D5@0%qw`@764p6+4rW?fA-~SCA~xiv(kRl$=CZ%Hn#tb_fE|fanzt=6$0~*
zTae|EnLgmHG#vPH_;r?ziXeBl91tE&@)2(c`Y%r}Kti)Ec4jr(0}nlFePcSEV@%gS
z*DBc&DW$=B;{I*nT@Qv5URmEjId_8aO1mev@DI9l8`T4Bu%1}2AVkP1!zv4a#DN+R
z4_pl*iqx$zsam%e_R!wvi!e)P!hT=AN6&<E)u_MuRC%BS2rYUrywpSU+>T46HauLL
z5N%-Jb94Xy=XW%&hp?w^5e(g4hbs@p0tEJR;0ad<THA3$i6T9Dt1M5WSKRm91%PU*
za=<DMeNWxYMte=VI;cPYfMw~q$m;pwpj~^`eY^fIimi=aDDFt-0?L6Z0L~xL<}WM$
zrs%5+Zq4tA_`BWV!c)PH6@ZM3DugBRI>~2&*XoBjsBlzhI!kr#8T*UWI9pTlVSU{h
zhP~_)a~@r=Xqdr9`wR=HX1#H*LBNNR>$B$Z;hh0C>n`e)0L&(w9eH<h!B0u)^D$j1
zO#5brZZhZW<XKS8MJO%D?&MuQrvA3aP4sU|?c6SfO!NnwvGeX-jwjI4ZIrf%BCnPj
z6?4r$wcmimr01Se!PUulC^h9HPeT3ggTo$M(xKto=UdK3pxhPFr`6W&bfVLuB^mI_
zxYdW*;9?+*ejXitDh4t^A&jD5bG9*2O|lU(#!)o9zT;TH76K?$Ld|#sS(P0c)u8{<
zDTwEHzXlXedtP1PxNp5Zqs{wtLYuyO!%_J|Zfxrr2V7d=AN!FGKV40kpqOp=cfh?~
zQP~J&ru&vw*e#Ek7TEfN><`n~8PJ`w$y0cK0{G`tx|hVX*t>=QB=K6K@S-$o(_ruQ
z&;iQ#$-g6ZsKL9MINOG5s$46r+N_S-6-~Pd?ms^s+k;gI=LH0<G5G%zbDZ}~mt*Ti
zD(j@q)iaK?Osm)y+p@2vq^|g0){u9TtyF4dyuW`^3eYn|mC=Q)(sAv_hry<GF+iCy
zTA-gTAoKl!EDih3ZI(^uZ{L1pL^(id%GINmaGRyNFM%ni1Gb=UjT@Cd1n7f*<5erG
z(k38N>nIfCS;(2_P=}WU$Ws%a^?|&qSY5m6Mrs<oJNkiV?se=g-Qm$b8h4clz-f7!
z0))?tD-ZwN&|q?S@yAlUDG0&R%peBY`iqLziRpu}xc_n!a4Qk)<*8wCBUGyNcljZ}
z({Or5Yz>Dhe27fkXw59^&3P<x+hNL`7=7*(G9gy(#w3;$Jm>Wn)rWFqpb=OWlvOK7
zA<>UM_OM;ja94_QQKeanYvA{v)Yz}>i}y)*ImX0nT4z0IUAut4y<`Q<pU+29x`JRj
z!?L7pd9G%w;`>$ry!OA5v@zv7*`^Lx|7oI=e-XKwJjo|1-YvbTY^bWdjyqYK`t~Wt
zgZ`$=JxQ!E*Vo6^A8_Loj}66A%tGZOW4aD~oq(@-HOceOR@H<#XF4Z}uOt0V%MpZ3
ziRo}P{AXInw>hk3LBkyXGi{N(M<O%zj5o4)gyRBGSH^Vm<B|k)ek=3cl6V(eYnY$w
z)an)9U`kQTf*DL#-x4XbNY_>@#(J0bv*Z;(F^~E)O@-{RFi3?{flxW)sih}l868P2
z2BrhetfXIc>dKdO4FklRJ%O@YZ3^)_s8IqbYejLm&@XRsG6iC4?74^Os7@9hfTd7+
z6r@6#9bZKp`QLmy1qY!MEFtb-!T%VT5hffXPfbGxo8`-qa*1C3cCEY1U;g|#Ib=pE
zzg4k=elU7h9;-|=i$K>rbrol)DfhX3sF8jU2aZSKcbvygq|p0~k3S(5aC*u3&8lXU
z3Uif3tgPnDr=k;I{%2ChC<Ls4aSiXAf+fE?LrVCtI>}-QtkWvAb)Us7vK(Jng7tA2
zy9VrXkWmcle|Tmo(e`dHo}moqY%+X&!!tTGGJL~bk<<K8<N&y(y5#HRc)sHBMerj{
zLW;$DT8}4qlasf)mYCw2_ey{%iIpG8Ef}p$?%WlcfmJTb;uqK+xdS<rp3V%CA43`J
z3G%TeYF^?Q{PlkQ?Au?RLE>r07e&F63SKa=BrJ4xw4Tyk|5uDigTba!!Tb@79~Tz;
zDwclXei-H<oS917l*TK(ZivUBkIxJO)VplC#=ecuZuPUivCsHU$=vf<y-WEQoOl|V
z-1Eh}@_LI-F?(L_gFIe4aLZQ2*R&tWtksRAu>Xr?@x%z2RLb-5c;gx$&#Wrn;HX;4
zpj}#!1Cw><bvswewO&@~I^Rz>r>$D#_Ml^1$}#nsXf7JpyP*1$4(MgXv7b%`>|CBF
zIxSJ@m+n}R<*699G=-DvFN+9TaeF=|0%i_rtYa4hl#p3%xX*ZLi!fM}W$w{7iM94B
z7p2Bf_Ev*})j2O+xEN^TQv{{{0?>1rh|+wGd6a~Bh*F@VXV%~7n&|gql}Gmd=cgPN
z7#ZjwLy~2O&KOa78zYZLLHq2{&r0lg8mX`zvWSHQCwph~<HAeg!o*iMK#yAvi)dc+
z&x!i5*;!$`iIOp?o>kOMK!RCghDv<R5z{V_3=L06Z<i-iaFW=A&)mm9tp=q~=%WAj
zvX+uAv`Cx)^^01xp_Nq8Yy{ZOsbgmyon$h(E2Zm!9yn!`IJ~k-Oi5QCOh71GC?85X
z4yZvaC;)ax_Wl>=QBOB!Irux$(VlcC*KO7cgx@6XWa?xMqpZ{j0*3`Ei*;I&dpL#O
zE{yjlMlYewzBcuyG66nMJ=H2N<ZPv|s6@Z_P2xd5R-vf{u|w}Lfr{_*^QccSUG`h#
zhNR_RVwilUs&9ga#g5VH1Vr1`me#*F@qcvJZTWj*qxy<Y4yCMp6PRioigoVMrg2zk
zKWS1i7$whvqsTwT^+lUz)lV`n2dm`3*&6lMp@9kvuL*T7M3w?6fORw5=!Bfd<3R~v
z=Lo+W_&)O9)?!Q1Zh9T?u5obPxThZLB1WZOMpFIp__X8G0I=B&1&?)3(Y2+f3{_>0
ze!M?K!*=@3N9O$S6yX*1IvIpGC_WbyV~#Sz#Wn2zh{9``s!U!zk|!J2X1*GqUi@9m
z>JdxGIhH~|3A=f2)CAdHpt@x48r32v?lS9!5`^t#wf7e%ufOi#W3P(dd}uLla>C{I
z@DW6i6eaf?#$g#;@w<T>gJ9cIFqdkd7vdflUP3SxRG$_3B4*t=vc+cE4aBCtwHt$_
zzz_AmS4&yo$y;D9UEJZqT(+S8gL#PYFIvw<f^$sl<G0GqxKXFl7nXduKhSx<uNy(z
zOVZauB**4Y@;wEus)FPKs)>28^F6ayf@vqfE)vypG~+^1^@VSSYo%lSq%+Kx@{FJR
ztcRGwFu0Xo{m!%=QQ(x8n1Sxid~r@#lOB0POc3JfZi;4@#_7rksDsHlm5`4Gn@Xhf
zvVn-ee>5yjM-)G?2o`B#u;qJTg$Y7gK(#%nJ+$Ftk`YSlX&ET4n$9RX7tI<Yp?e`*
zcT)CuLAdP?VZ3;IOjrwRrbe<g&dDskhkw{#2M&v5uhY~Ujs=Hk_FeaeAk_6te<N8V
zn10`d=;a_H=C&Z5_(GoYIvlSGzFAXz(zLsfRh~{nw<y@BsTYLyKgKFCP+9N^yw?Aa
zrZ!)RH7H`ZOH<#pLg0F3w$spowxvv5%zyUFNAC*M98KU2pwcU^HJvs7P>bR*-CmoP
z;iMa7c^F3<7W7Z1tTXYZt8?@mqVi19A@|XwzCcr+H!N57@X{{TT4S<+iKMA)%4Y@v
z#&xcpOet3^qo|vU#=Jk&&noUoR@G<H%;OegOu%(=t``ZXhgC#6rDxZuQM_7#lPb}&
zMg!dXvff80#K6uWzMMdUnPE<^lS7d$i!-;wPe)x|fla;r;k6DpngFxTKPawi{tK5w
zSR}TSp(;CQ<uRsw>Oq<FSF!AN_;+(#p8S;XUX$hT`M3n-Q+h5bLh&mlC0~}N5Vu9)
zAG_;Ewf{<7G1ZM!Bi=4{@ZNkAZ5R8b`Y~En0R3Iu+;$wZ&$9Hqa(^#1ovKcAYdbMq
zi$FzM_mqk8R%-j*urw*1iy(AkSK-_2Rfu+00kb<VkvB-5Yj^FSz(JH0eNYZ?kqPSJ
zE0lbxab*40ltjvtQt}S<0Z#&G7io{Ngt->;&&LlYx&IkibxU}}g564&=A6$u4aVgW
z`S-6WwHTFkfbZ0V*9{8F7~6iOLq&K0i#jZzr%d@e(Y%ro&2o8lu_&JK7@JJC`mU{|
z!b@#%ufjK)=oK`pJ*>=OS?<g&(a7d=(m7K29QWqGZ*?(Tf}$~+?7xVo)NR9oW@);z
zf4KFK46UPrEKz;!!|{gP+@y2uPrj-XXnL4gm3@PJK3gpbN&!olY#<GVcUc9h1vmlk
zrM#tj#S}bQifii*bnS`3>Vw{H2bX>5ng{&h1s{<x1l91u>4tT^o>nsAGKIs%x1wE_
zDUgy4KXisn3{wlycjS~U_X6`a(8_Mzncd1JT3oqY@v;9O?u~y7$p(bf#&^MmO<fb0
zJYZp371e=)lm!2={h6OU8FvQ5>B0ZwJ7jIe@FFXxhi>!i+D~oWrq6H;_u{%eLJ)OY
z6DrMI`f2vtZ15w_*bRK00)$X+Gus-@sM3;qQxN-E1ZLfLIFaoHbU||}7fO!LJB!;%
zrbnC`9J1k+VJWD@zdl6gIXjG(n5ko%2$#fixY*`jD$ZZ}&_~U!S}P(0Cx(ak{$Qe8
z*xyqncRb-X<Q9f**&yOyS4P8;3I3VXQj9ajaet{3{S171o1FO`37E;r5mb+s7Bz0`
z_-DdPLw|s|aO;+2yjgC*Mi2EJo}*v*qWl(0msoqVTtab^s0<vJpz_;iwu3dHvKJH0
z3NB@4xhoW)Q-Z9>j>qF`4rd2nA6NE?KPrQNUnh32Rx<sCJiXZQim|5LN!u*5W8=bA
zu76u){+ngwsc7M=E>Iu)eAD#9pND%3<JF-8=>(Z+^KP4Ls)2Mjv%e+of{2DRl+d&e
zJF<!Co3fHH$d-g}$e+>%js)<LcuaWEJh~&#FyR~HpY<yW&Cv%pK4nD`CyTw|wL3C@
zH{mQtUYlQWYa<Ai$)LtvKxN%>h#BJX`;mvhb_nx1S7QSu0a)1DI^*>#Z4oi0$Aa|7
zbP`Id8@U94R(Aqe+<;?>y6aJOf4arj=;hisu%bt8uph3%1feCX*e^d;g$(H`Bf?2p
zHufN$68eSW6g*GYpyPEFvD1Tii+{9zR!6dI6D$9<6}LYfJv~;DCx`!|-5Np;r<ow<
zYOn^&49%m%5#seCzzHv-lH6xA|Lydyv&-O*+7Cq{*F85A^Q>=a(ggE{ee5a8|6^3&
z9FHtr5Xb!*LgTMHAg;_6U(ET^@!`XcA#|&BT`8=O-OsOWR|WAtC)`2;D2jyuGor?h
z(vI{RYURg|?&)%1I+OX`c$HaS*-x-WxghR5;>hD`J3*^`&eDKcx%NcectkS#bYayD
zRAOkvC^?I&m1w*P5XuNOWI3nh%)wkJW7QnP1u+#7UOglLiVZ+AtYR{g5~NXf36&6r
zZP~?Xw>k`TX>uJRDj0W9G{>|l^FlnS1M}*lM|n6^d)Qv>*Ke?w6i#6i!jUs*^ikMT
zOd66b!&WWwAtSPb$$EJ}d1IZ8TNV510*0h%<}a)Nrd|_+Q`=M5coU`Pv1Q14bMIIl
zNElZS&w6YyY}#l08BWON9V8?$Fp5gswmn)+CG0rF_FMq~k+sjRKziZtPAsw>G9|sP
zyb%r}!E`#5YvK)1bn184n2l{cl*g8$ToUI8o}TFddQ|q>ZA22ZfLmQl=dqonzM{TS
zomi3u%#chY`0*6MbMrvbcsvKv&9f=z1oAJQ@=?ex@4-Dn3WxYtLdi-D_7+~>Z(Zgm
z{3xDk(mOb&8XGWE&7VN{(JnF5YCi&`JsY4AO3<ud-yj}Gj-18z^ECQL@jlq&2a#|q
zTA7d1-Z{<JpZO;&R<z3GH1Uk;ttC{#t^DdF;~~)(H|Nnu`;52^elsC^03q>mZdDYv
zV^4hEOlDrV`U=|>Yu;@isfV|w57+5hnR!S9KEyVl^e8a%6GsE6Rc37K7O{BHr1#g<
zA(ahuq^2O^Xj*G~@wm|Ls+x02cIKWV%48-XudU2`wMk8OIuAY$;ZpUD_7*x^Jc5>)
z>DzV%A^wnzSA>ekBU==RZtWr&&Sk+OIbc4_zp=$92+KNP!;@mBISWogowl7SOK98q
z2Xn~2k?=Nhzk=aO(zB@mjq!aqRLVj|{BrXiehD;fUodX6ce7~@qE^~$jzt2$lfiT(
z6Kf>Q-}waA574>%a&r3m+SzYS>Lg`!INij*l$8&)p-+qWw+g~P*VwQBK1GRaQke)!
z8;#rq2WWT?xyJMNA!9m~Yje1vDT@@I-y&VYw>jB?nxT`eV_2cBMy*xzXFkjzE$-`r
zUu$AY22dG2GhGCP{7iF2PL@;9!_9*0LgqC!__>1@L@k}f`IyStOJ#90MFCj^=3h@p
z3_kteSOj~SiaG&YCsQ%Oid1y|ff^gT>m#cYzM-$?>hoTG^%))_DYY=3IgTF{$*yLx
za)=9;%X_L3A|^Ohafs3o55S8OF<cGOt{8I=riyJp&M!MGn#r5ndumy@qZrHLm;JBj
zq55KYfhC4Oy&3o5S{ab>Q_TjNm3<^_1n&60_Ps4Q2qT=1nhNHcpun|8)5HIxLA3uR
z2Cz|NfWyqd#L3=!t%7Uo>*k+L_GN0%Mftk`*SV!-=_rxxBkUt|P5a%@k9ascSW6D2
z^mfcoVjrHEro`IW_p(<#V94DXU-fpUkC6&_2Vmf7&tHwe`nF7Jgl=1wKZsKa&AhER
z=eg0pTuenzPH5+D#f3wWF&8M)1I8t-h`0+VN7omleXP75oT6@|Z{^HC>{v4!b*OK@
z-J#ulZf7rXV0@KWA(=2J1HC;avL8n$z#0VF4GX%s#cho&VH`U|DrU{C%W`Uxdce)1
zvNk61%YCX#UC>pnOYV}}_X^OMQk@n4y$`|a<<C=@ClhV@+y?ULiN6flW2*aCdere0
z|71Vrw=9OH0z(qv#={HkpuZ^iR;0N}&3!W~dVvbXmQB|EOBCl6I3`?_MrsiVNx$FE
zxiuP-<V4wNovkR&HG>$B+VWCEWqefqk>H@VJgub@+u|mtVxd}pH6LDan9`$%s{iUq
zLVDpk^)P0E(Xi++t)Xgx+;cOH`d1$^8I#flELp|2?NjO1Lux3)lh6P)Z6Su$(LREj
zYWo-0Y3_16L!e3=w*<6Y{u9L&8INTzO7X0cM*QoCt@8j}WVS-hR=$GdV9D0};K*O(
zxlDUhcq$YD#mLjig99!MMq{l%jK&{Tclh5*ZvSHF&A4lY0CAn7QmIDb=(V!PI`dCa
z`McTxiuroW-RH>8P6-H03)3*`4J4Y34=Rb7eL<xcGPmqO^=ayi>TOJ#BA<F<S_u}f
zhj;Ao7btgD{yXF>WSOXWTfDSNoPCn%>Vg;um?TaH^HS+w;q8>3cb)xrC#PHxg;4r!
zzW8)8H+j>Ss(x1O(E$@OX=aDcX#sP?R*yw0UhWE90IFDeG1uH8$4wS-%*(F3&#k`G
zy>PJHAr7pma+FrILE2svY}XUPA#9rMQ#T(|6Elzj|0%?KulpEM1|-TtNkwgI70$z;
z`X^#G^@8M$zL_Q21wp6D&OXTL*`d>TG+px=<kN)+BRIaY1sQc6&RJ`VmPh%f&}Qz&
zJ=Z|QT6^qvu2~qGEKG({eJx&^cFm4UmQ(Z%`2j1TSI@Xw!Kurq`MmCo{Hx(apU>c^
z`_+s%b#7JO#=GhnE0{$H4|L}$d=!2f=Bgm?fQLZ=the2IxxsuymRqK|`hsnlajt(z
zA)cgE$-r<c-hLpHI&6T`Coji)B;b30*!D?+Rn@HWD5z^L*5UDmEGbyzJR_~SUeo~C
zvQXIh6BF2$!Q)Xppf&TY^VcJfew3ipcAy<Sd5Ynf1M4;-@t{3-_{lt;+W=ai8CTbS
zc3C~6lk8!g&RlnjZ87|>P1F~v{AfVs|A=SJZ%J%0(Q=$M6Q~9|th}nqE=~eAXd@Tn
z+rVGbRE#`+mO%)j{*MuV^55LSI`W{%$l>_*Cm6K-$JdO~#-nI&=OQWl%;%Nzapz2U
z%xISm=`gUOSpWC28d0}N7bLydTjcg$wZKO*7-JS4o|i3imK?xfmfL5QgOJT#2@Y{w
z`m5F{<;0f67UTYEqEi<g*w4j_bs&cm>k=E$ncV1Dr!S7eU52O#y!9r&j~+oz+J$?+
zGb5&(WRU5zMVw(7fM(zQV;nrBf5pU0izYO~M)933?28=r*vc0k@!NZ1xX#ZFlRT+~
zWCYrMJ{biaD;|iJ6}Uv88nT0&`zFlvD?jsQmgd_gZjl}F+k6H8^Bcp0zs{o}Z{C;}
zx^>=YW>D;lJmqWViWg5vE;hz&OKS}hNLi}!wts+Bd<##`?TpS+z;iG|ws1)b|F>|i
zUfOOAaLI8U<GD7ij%kazBp2r(=pv0bll6IUaJ9>4o;Try`^bZGR@UUyW7uu99}IZ>
zkefa{z%$8yXw&C*Vogg0EcR}nFgjT@X8$^Y_FW0!iGqJ7`xjha+F?4Z-(CAJFU#Bc
zq^I)PCzhvq_TdA$Q>N-U-qD~}WPg0NoHWWGnVe+@<rtmz&Mw7QnwdQ}HQiV|U%M-y
z<I^Ot;N|YS%KSqUw5CdS>PY=?kipk26s*nZGXtXu{2;fZ3PuMYiwUx5LzHRlX*T!Y
zTa}*g71-H!rEwdsLQW57iJ}cJuL(q|#?q}Dvv4va5SpZ=qkx)ON1rLN1aVO%*-R@Z
zz%G{?;@aCm1~g1ftA`-^U23i-|I}5rZSkZACcI;8DL`yi9=)c-fs<MNX`NH7R$iHr
zCFCYv{KZR7QPN~t7{&)e9X66H1XD)+%;le%s4}_neI5Hk_h=6V@C{UTw~b5s&%42#
zA4-VG&4wj=F8v{Q=3Q<FE?F3OOwQqxD%e|Ws~-9z3)QX}-;e4~kStDx5#3k{fejb{
z@3Yj<qbL@P+P3XU0it6)nKOf#ztq`bg}pOQ<TampyCZf<0cGfTj*=tBb^89UT0JTL
z6-n#CS2*>~T`>Tr?wPgfZ4t4pP6;4?h07$7>L>P9pPw5MOnajr-$xaq!2MeemwLCs
zc$cJPVM}N_A(uGZOqCqCP(nxuzs_g9??e`EwNfZJgvnz6Bod0bseE7RRd29Qse=FJ
zf49_h=yv}516>&Er}q4EOBMXK?(>1_V)Yit{33uS3>giImdF6ehWHA5*{@ia)pqf6
zw)v*TVO^=dD>t|wZBKQvqR8ck0w9+`a^!jLdq%STGV<oZpWE3x%1kwWl7crK6ht*z
zhtni#{_(=u9F8i|5!I0EzbH^lRV>JKr)C#_^Rf(4Luyl!lUZk0^f2TZ)C#2aeY3U%
z5*W@#)Xg$twmOS)ugkrc3NeADWSyrk*4>mxM%jt$+QCMZEid$QW%Iwb{gBheBbSWz
z_swLyEm1O<U1RXqmj8-!!!pIx{q95oSF@6tP88ux$gB6nepV@WQdh$0QNViyn2)76
z5HktPIGAO`xke~Es~XVN)vZxcuLJ-$&p1&kB{H$98mf!r;dCxk;xUxq3)BqBROIMX
zi!$N8oKk&gC&Ou<OZb~!=CHSKnGCRGUY7$Dnuv^^qC9RZ(vY_qRvn<ALfGBCr$l-&
zo%SgE4hgio1e*P!?~6)t+zB__LHaMSfv?D+9>e7gDspYRIaU3NTCi3cclQhceh}?|
z38v@3?dxPj#L7fXW5RxHu9JgL-Mja0ka{RW{}!_%|ERZ>`_9Y8GULBpfGqvo2fc*K
z$At7taz66@WBB;u{=M?uS-vxboDREM+tWMs*EF#)K~ulYCjynE{RqT?@aUgc<vy@h
zsfz!Wq=qOvN`=t1Z{LsF<D?G|^ClwKCF_}dxd`IpRUdOFZk*qB8rYK9Uf(ZyK$R}w
z4yTzRw+Sxzfs4L{p;g_Bc_fC(yyMx}0#hmlKlhqJNg(vVD~Fkt)s3@r9iJZ(FMThg
zHXXsp!r<@rfnezbq$IO9YL<;`(bU@JL<QbI!F<FNNlZnZsKtxivtue@P5xr2enkw(
zvsS0^qkB#3O7`=Wc-De7(zlsWQG7(hLnXKStMU&!-J^)fUU5rceeT98^U)5$-K`h?
zuAZqIZ$;r-rqW9VEdnG>T48#@_+Q-pAP#)$*6BlCN`(IRzy#U%J#-6lRjN8RJJ07t
zpfU0{-(eYFE7Pw4h#kfy++dVwR+RDayO~qXCj~dxHGN%91xlra4fy!TOh5*WtaL14
zQ_0mVn(fY6OU&tLUPU`<F>-*Y5}OY7OH^jUi^#O}o3c1};$(JP`9CVy1ek~5azTwE
z%Dj)(EQCh>r~go&!GLv7_0i~w6*ymi?xdVa;(}6dg^IcXfTn7#dAg#c3Q>f84w(>y
z4zH(8o=Be$POco9Pd8@2(j0hW`?~}YoI*#-M`>I<k|o{&uE+Or^9$A9veC|tRH$4x
z5B)~i&F8=gROd4yGS@qveEB<U*P|09LsfY#lms>~|FPJl%_+=k*&fHU7XEM@!piWP
z)fG^8Y1i!kXV6-(D}4~6r(n35`pTxr*fOLmXW&gJ+w!+*bw1_$5Uz>xKW`urWk>~O
z%z+3N64Pc?tBTR&Kd90Qk!Qdb=WYsJ!Xnslsldmp&JoXZvNipNZ6Xlq+{djI=C;fE
zDK3US=!^jtQ^wA;Up(q`%MYpImqiJOLnGk!h3u*`zE7<5IBl|&P*M5lv#pn~zX~ej
z4({nRhO?Q?+L0<W<Dr(QmD@y=5_QJInLn8JCCdm>cybC0-aX|zM-u_W{3jsv)n^!9
zoz3_0`rXs;fxo8eJcxE8z;PVO{pUg`Ql2^e^?bZeMQVcaSm1HKOv%}-WA1JR!%8i&
zWD)~<lJ5!%=)dNqKrxR1dG4tjJnJGx;sZl^@yX*6OP^#e*Jmdyy*z{y3<Kc0xA?r!
zCvJ?exISJ}D%=BXd=eBeJsz>j_>05!;b|QHllT`V-a)}$kel?VFrg>!dj%}Yk{A}U
z2^NY#6>d*%8-s#tCHe@VCx10(^U(k5bw%c51j836bI4B<*0?>EDL}#6e0Vb?70yyR
z>4e-nA@mC^gDL~YnH$^t_kg<E3(&rLCWz%zkOLS;2lGfnpJonVI0GeP|3wLHFcJ3J
zPrXm$ZXr(T+;4%!z$1h@f>mBQSx(U2>VZh*ol2Ci(8$+L-UEW6z|BR%KPDLYWGBAw
z0i0B%GDDYpHzNUcakLDtIzCwq+TM(}@X@YupVUNWMYY?1RfjHn)@!=vs2SHtywkoV
zw(Rb2xn!mKPy4-B?$|-bnkvD7T7sz+fH({CzWVz%eu+ndVKS6<f+d(C0K!REt=HK$
zYtQX+lKs|rAB+e-mENSVUfVw5?Bg&QrHf?COZiS?J!nb)s!8r7pTa66w=^YQL-LeP
zwU48L{H8~57SJ0?y{*j=0>1wYru%Cy^IKwvFDU9?v+dvcsi999X-4nw+PFcC>=ayS
znVDwft7Te$-UM+?P|Z$y@K}(a6XH*i?|cFbRv26I@$hWfZM!c3e4s@02g>L<n8Lsq
z#z#HhB}(T)w;7$`BFZ~vKodrLdkHS3OH@1I9hgWI0nJXbXGdCIXlOS|mvZHX8;g|F
z#Ucna#tu9fYW#MUNOp!7=BSUav!R^OB_Rcgu~QekS_;4pf;}4pc@u?v7v!&rTQfiK
zZrkke09X{J(m9})9zN6E6zS~!TgoGAF8cVud;pvtd6pSMFOKfH7dC!tPi$oCy;0e5
zK-;tUG?6X<>p`erE3e`k+9%pg`3z4|fR-P>A>P-Xx^%@wkS?P}Bo@45nM~<Y`75Di
zC8<A9h3NLa`+Aj2NJd22d>>vcYUg6<(7P-bi0s}i!aJY;dEhOa7VVrciPJ(eopQ~V
z93Cc;&8dn5H|4TsXpA^<%($gAl4chYh7L^<o=ri%Y3KP$)}q&dZcE(~?I=c(fxQ&K
z^}rJ1y6us!@~TzW=@Qf6hAwCA02vhzA$)f0Op^6}R3(%_+q6|#W0mSdnJAG;!L8Ei
z8=99~rT>ZUI;&adCg9>pi-1ng&%`4{L^sWN%+*73B{}m@Yc{N}tFuwqKxYKY6dg~m
zz`dH=A4ZxJZZAvcwC8zOuAl%s0_XcA_OL=e)g2`CQtBgI?I&-c#$E-A6FK}8$iLOK
zoRy+i8e-s({;PM`yanNW(PHwPy$|A2-FM!eL?_srqNk5p`2I;<sZcN>xKaNc$iJz4
z61#x4?U>}NB%*P6XwLJDRsD@nPR6qJZhmpsn1Wx*#a^qzU60LMy%5`<)0-D(e;H#%
zt*996?+4)|)5EvcP>$cU5f)x$nWjKL3_9g^cr(|>uMRaIAXXvy=w$Dbk&vivMG2xC
z3HG;#QPhD@&EI(<glu9>OY0KRH=Py~K2nog<8!fF)xNeAO-m6bM5i`-$~;|k;{6$q
z1OF7Ig`i_CPxj@vb2JUYC0G#?z>fn4qQffS`0L#CR;&34zvN6G!{%E&I|!3|Luunk
zj?->=hc+Z$`wgRc&5fM0XdXPmp9N4&MAoA&op|x6{QF*-i&lo~n{bMMmFUK9jJFR&
zutN^~UL=6jGpt~DrKrR3e{aC~OBNd)_DOcKncdPfL^ooQnrT)D`kt&+(4b%{t&=AA
z%)Zoli^YQc&DihvfoD8kZjExgQgXDW1Ly0Uw8D&L4cJLQIt@6V%^H7l|95nV{O#*U
zgr>uv?^wA1YyYzzk5uzka4v0~`5>cM=0`!Qklp_V5*Yj8OAuMC^-<QmAo%R^3LXj|
zbHJQw9Z<*ZmB(K8cdCyxa#X|0&ehPYS#)sst_YYhjmAb3!uCsZCItv{qm_GOh9m&g
zP-A=KHN>vV{$;O<H)Ev%kVA4np)TFr#rB^(yDl)q!KUVYEXsB(x;W4p2-eH_F~;8(
zUsYGbb>4SC%0(VYyfihsd*to6u`8G7WDCo}E&~nX=JAxiOXA3D%y48}-_67n!2jXo
z6R6P$Rd5aE@{+jK7+iWXELh-Q(!l%{4!6M093V1@MmPtQuy(T4&GAIEJ+M~QwZ%Pd
z2eyEDMX+{}vQe?Y9}?BtOn5@r$X}OI0U*e8bC0|b|M02#68gl(!H@nXX`mKLP84e(
zRC}D;+(rayCNaM`X`EHNF+A@M1Zk_fa(Ey_vG+@cf7M6qxPX&<M{&{0V`MUTQ&)}(
zZh~C8Glc!~{`|k#c|+u-tYxgILMJbx34HKYjP1l>!FPO`bS0F1IZ)uRs937lj?&lg
z^Y=m@ZLycm5T$h7Dih_u@JLD73V)uD5H#$VkmpjlO)JRsEo_n2tt-9dZMkgdSZ4K6
z_>+$Vw>~K#h>^oQOSUSt*N|<AbOi!t?mkwZEE?^Qt|)@+B}A|yCkFmFZI@5Oj_w+u
zO^;FQ`6}(NY9`t|<$PGGXXg`u4qL_Qp9>@zki>+%F;}iQCSt;wBPecvxNsb=?P0wQ
z>f%s`y$s)-gzIC>AvMbB7(!=Sq(`Y5cD}RCRG)V)&Ag+zzP4iXxib|2GL;lA(e-jJ
zf67ym49+9Be0<(1Eu{Ka?Jwn9Rpjt%IE4I`m-kZ>P~h8B{Bm-~$6f=6isn`WW$WJH
z?YHboeY^xM_ESazbft770QT8zdU5|=?_6DP$5C;&*m2z?^j5t^U?1{&H){Hfyp-*x
z;4*cvNP_CqmXdhMF7WWo+M{?o-9AF7R+uHcDLubYBBgGtfG=auodNR6p5f;doC%y2
zQ)p~nb*}_QO{p6hr<yKe0d&MsS-pcv#5f$I*=>1RPFxgJ6i*M;9Mq-nzXkY0T;4Hz
zOVqx3;SsH9yq5N1I?>NpGqXk@8^}=giR#}nZGA`R=AP<RipM*#+oIeaMiS&Eg45nD
zl}>)N)0lo=$H%N%;HSnt=A>GXwl<8sP{sl7`rAwuAlRR?g&c*7nuQ_TAqxALl^V>9
z*Cu%2*X;4%+p>k+zFAZYJC%;}MPxmAZW1$3aGd??9xZjNf(z6UOs3#DKy$ieEi92^
zK<jIrmCTDII-8a1KnHqURr?_@y6Ga)$SpHb+L!5=CTrbd4rH!+%vlQPhK&mSt3_;0
zD`o)agYgzI5|Gy_H&$zCTmnHU*%t?Nf(c1_c0aZ7rBho%o|mlukQbjZNBy_;7iKEs
zXa4`RIe!JHf~NMD{H=(0JO107>RDbPV5|*smF>||wyNld^xuE-8tXvv+5Wz^2&mqf
zt-T_0oj7zH#LS5D5*X|F4|C~ETqL0LH5u|thr~%U9jX@P2LFUc@C7++A1bpJonMcO
z)-2#wk3NQnLGE9=OQ$v1FE$uR`_SMg{`d>!(_xxGm{S2l?z(q4nQ<a;--_v0`aw8Q
zT#RTp3a=ce-`;#ri9r8F-P|VR;yL)+Df%=i*;Qk(_3I_KLbhA;O0xX1oz9eK8x0WQ
z5%aMBxyq|jdu#BW@cVbaQvD0$!O<yiw=g;3qr0@|BJ+8ekJKOoW-=92X5mHKs!Y^w
zV;Qq}Egudu6{JHn<n;LpH0q6<snu^W$7uB5C5OGmiMV_GKA%#1w)G{!be&x9D-)%{
z?8ru)3cUlj<pOYo|MfYgnMi`9Y)eSL@wiyeD=glr@pE8a^D8>uayE-WheI$>9NP=c
z)PAr~6Sv$HUfdTc5HB9oeTo@}FozZDagqvXjtO{;W8x7qmCsX+{Adk4zH*&8d#%y8
z8Dj<Bk;N;ErY9%t)GZVHR-5J4n04`;T`N&=dvCFi*rLHY#B*9o5CFanx;76&*0>#B
zRgpM1=@)(J{Cp*b>jmUees3NGVYY~nENyWN3DH8n_&G)6CJ*H5H)fGq_vjh_+?wXO
zNk8>MjJgl=tG^5Ux9U1m6^UuSqNez>-;0a0r(TqQLn7h+uTtaCy!U-hHXLe#QHrmL
zKJW3;P7EfXC}GuQh`@%Me5v#N;7+jm<t1K=xu=BYbTF-|&audjtTCpRyui=17w?MQ
zlgBfc3;K*RPme_KTs^ZQ|65RtuDUM9`=af_0b0#CX_EHD145##$d{Nm!e70>e`%W*
zq=^X_Ss8_a?P2J4ClYF1BsnDbC5(cQ0`Ok?W$?cQ>-(`TJM)hHQhPM92$bW@K|fmQ
zoJ4LKV^|%e?!^kkqG0L$G*J{>xh;;ZWJZ;L{^>%b5jK|vLe?R%;go+VCw_G)Q+6?V
zsAUhnIC{DYbcEWuy^Ae$KgUClOEks&z|pGG^7GP8(HRiDD`dM830XVo{Jo*2oEWL2
z=?c=mgr%x~^L-52LXzccyiI)(erbbXnSv}&(*g?*J8-%sO98&sql$@iNLMzA#Rk@3
za@q6wWfE>RCnJ&_Nfr!DS-h&g&OOpm&qt^rG;rugNyA?<Dc|Xh`vEH=TmnVoX^mVq
zAhnUS<es43T&lpPEwsnt;b@j|cUgTtJtP_rYdqo?<w=o--d!pxTHW?bM-^5X{qz2h
z(Asl#O-J@KUR8>Ku<)Bhe?JO_U(arhau)BlFVPMI1s@(1fH$hEIX?dP`@>+4sYOAh
zmotPCOT@m(S_sInDo_A&^6IlIWiW?1%rn)rrxseUFxVTC|H2NmPJ_KEglw`CWcsEV
zf<^oL7Tp0?+^<k`9BWWc=PfoRG*}aC&dXgaa5v0uO^7$hURDSp5$XW%uxJJ$-g<-1
z{z0?m_|Fs8qHW*2ltPD}v{y~fVM}*Ud2!(XA4^vmP({~ur3D03x>1QsBMp+$4VMxS
z5R~o?X#@nMyDuF|H%K?q-QC?C-{E<`zjNly40D-t_Fj9fwWZ^PFYbL-f^UADzV;tj
z&2)x-p-@5uW_<m3PHUUT!UVnl1MKo_HZuN2$-mwX)=NnXSmfW|c-P@qJx&2Ptq>(M
zc>(Wv2o*N_Os%4ht(|z*CrFOkJ*OG&#Rn_=m<^pAougGXRa0Pa=RD`*2DQ=&U&L>M
za!mGB%Tldkny=TtjEK_6ZOVf<lvEi0#3#e-*@MX|73#?S+bH;d=PqvlMhPh?ZePLs
z7O8b{J$pp&ag6MwPU7?(lK|klFnpOVDZ6BaPgn~y_fyx4&1aR7$1rZ$p`>@7zWN_?
zidZe<BmzPuTUK%N8ew&3JRnI$3p_!?s`L@#W&G-h`jZenZQG5K!Y+&yv<Q4Fi~;FS
zDa-RTt*7nfJd3!ZxW%+OC~Y%?WqY$Jp&ww^Axf@nl}TpC&5`NzgFgmTsqs~2*Uk6h
zdhov@_8I6%XqD}OodMLS!+@upFOg8@MJeOR+Z4;UNp!BDfWYtQe7k?V`~@u^>aDYA
z=sWZ?6ndkD4Hini{ipk2yk1Y)z$sCVto!95Q%$TwH95N64<-$+wy|%Xp5#AZrl5XT
z!dT^Ex%wM67#&2qfKA(8E4X=#^cwF+vvV+>{J(7Xb{kqhY+$5)rTh35zxmd!XaiTA
z1~<ydB+6E2HH;tk@tWbdt4}!>&?$spmEoZcX0BgJS|6xvW?(^1$F>22rMhKRkoG!k
zGe1#Z>vt?5%@gL2ehdo3sv~gRvDDu&lz%^J^Qr;Fu(^OPVr#`jdRJwBz)6kb`*rZ(
z;T8~P<c;2nYHA3Gb49Ll_WUr5R7yTY2;w7^N8d&g^KPPEp!u?uFm%K(A4fN~D-@C2
zX7Z*1HWbNhd>HTQd!8N{!*9RW36?h{{zs84A55$AP`6BXasHdXi(!w8){$iL=(Kk^
zTLk*z8PDBa`gndCgfUoUaZ9x&tvX#JBb`5-UTskny58KVakJmsVQJ#1H060dyrjLc
zc2s;-wx$vG+71VDIQxha0bH0Au0>Lrw%EPb;DXHPCYB7f<f;1jAaBR{cNRU}Zqehm
zT@-$AOYX>Hmn2|8cJ6eHKF;>s*UVo9i|Xthb7(0lZY{*c>L#&n+}=*_f_I1AwC(kf
zgvv;8jdn_KQ^~7X1O=8wa27F*8VKKUrn{mUq-tvDserr3$g7)M6qT+1_a}_<8I)K<
zuE;Y?5OvyOwpV1HrKMQQ%6n36l0HbA$|*cf5&AK<yx5QDo`<{Zl2u8q^Nw#&g>1*<
zhlgW7JXIR;J^S$2?Wy4*Q-8j3k3+d%nkU;OiA-n8qC_+IZp$Jn{-HGg=y~#LQWDSb
zEc8J{&K)4#q?dPa`x?4pT|(*|5=nDEL6fsG6hH#w#eOr=l8K5rMx8y_V=?ae_@-r0
zEa>U_AG3Vd*eVoVyY?&vX`(*>eq(9MQ($K=B+#&$qlJH<)FJwe80Ed1r;ts^XD5Lj
zBy9~DN$kuL?Fug1ejJwCW}F@@NKu4L?dIbhDo#~ZJdVi_VYHg8bR6X*wL)r!Rh=OP
z#xJwo(B<c!qSz}|iGVE``|bSs5<lr(IPwHq792uh%{FHrgF3c)sj_am$gCt8PLD1W
zEz295wkV?TB-GzEKV*I?zDCXTsi%)L1;*zgQNI~Kj$mB2Q?7OVN-87fEzjqP2qw*9
znoEbs>6(9_YTGe=!R<vlwUUoWL$4(fR;yO2ZD~K;G7w|lnHOzeCG&y^O%uUn$!jDK
z6MMJ8=GU;jtJ$XLq~Y7oAViyiH(BBnxCx8GTkElO#!)ULz>X_iTY>Iy34N!)m|Ik-
zr@|hED<AP6qLf9G5aA-77Q4X`k^n<plb;hIQhmU;*>FqSoOhrJ5{?YAworB!c{V)L
z6*j$vF>}`Isf1Q^y24GNa-U9*F>d5D5-y+5RxLK4%_YAODRUn36)FgtdRkZs_6qHa
zVj$)Ev)b&)a5@jyO60%VhXW0`O35AGGLn+9qMvD1teP{?Vf3A5H~4}LpXgQzd1mxS
zDtigrcdB`^G%f)UXu<AesV*|XcF>?4dpuh*q9xUMWLe<T%LR4Id3~$2d8}t6rYQl3
zg{>b$VEAS$*0&a>`H>Ec(2R(peRSfJ{oGNidCtbLB+QYWh2m1Ex2jk2rl^7&FZ4&e
z>Ot14{i*fP2Uk*DLSda<pGdpGa-7^>dCXLS;)~xsE&vAHPXXlppedZ@ZSC=O&nNkw
z+**$Mn_UN$Z%8hM*tDjGZX(%=D*G>|39r>;>p*^)?DKa5Nvtb83I(^$D9|>MTA3jU
zXYZ|;v;pdg=H_v>aS&Aso#tzz3)XBCH(XG17j15cwc{gn;nxeD7w(HX~KpTG98
z1MJha9col*n}3m-oeq|mIo(40*fw$gO>Ww|KWV=hYyEpZA?#C}szvglEqHJ+BK8tw
z11AIU1aqz5{&-{R#mGpC*F{o&%BD7>eIh+!MU`?v85A%u62#@E4LP<y4($muW{Zb2
z5bsZ6vmaSC6N*;mYV8^y`B}XG?Jjs3X+Skdp<xL7I^iHkM0enM#QiZWj00CYOSh*i
zQazlZK0+<^A9hXQmSp^gwu<4L5wJ`#(n`jXDzc~3M>|#+9R?CuT$!!WYp4Yw_LLz6
z;W>&_XR=!l1{`0{u=};pfM1XbrH2*40)2P;ODzJ;wn-KoCVIiUdV~%mP3dq3wjs1Z
zhl#)6A{m^!Cn+imj(iZt_0?%PBx6$~=?fY0+iPdt^5if=+B5jJAEaY(0rKrBF~f@T
zLuk*Ez$m_a@j9<9>Y(_WM*2XzQ<ggnPq*vuH%h5o+`)uEJ{?6-UY~E%f$S09=}jj7
ztIC=l5Jjz2fF>xF^*IaeI);o1W_pVf)+A|iK!0Ey+(%jQ|J(FZQ{#iZvVW`aeKou}
zV?1g;(|KdCE_LA2OHG*%Mrb^O(WJKqYZg{xt^Esi=2+Zb6?$b7<1ECcNKkt@C$!(c
zc18q=Yn<<E1pn7&p(quWI~X(Ugv}ci)!*nUd!u*B4&HVcp$+^Hgq^PrDC#*r+u`qQ
z9b6sMM<Z<WUGYMG8cCSN*ud8^AblnJi(U36f~#>J^$gVN<&EI^9`&f{wgfrP<m|TX
zYggA9%HIuFJ^!LRI45NTaL27amMq^xluJktjY9A?Xfi94|7t^?DNn%3x3+<-_B_!F
zO{8ZB+5`3i!VP&$NS-+zL7|=YO;Ulz4i>71ajz?wf%`O4M1?_DKt+3DViP3PMlUyi
zHNoZt)kL$SS?z94udi(05-+7^Jh&ZE6jpWz)RLGcsrU~(Fzl)q)&qqv@8iD3Vnw~C
z?)?Zt&=}wdVtKIUr5{FA5$ZQ-!RyEzg1?ZVJLb9}&)Idkeir&Q-4_XIJMp`|@2u&F
z<N7q%Umhbj&tlaOaxc9`-V=Pg=3~h23okm-tW|#iGztqwYga5|Q-;&Ee^Qb9Ddj&f
z{U+`~K)3Hb`d#Ss$GCD^DT<B+2alH1K=BhVmlzy>=l9imoJz2`Cp#=t*4_Z;2@VEe
zjI}F<y=2B4?SNraJRHmZgiI$XV%8^Q13q_B=mW$Vw=naUUE=e=y^c=84RjDR(OSDI
zWPPDfgNS@%HRvCj?Nd>)S@1PYbwo{k?%VIHVG|GW6JUmrGZzFB7waZyrwz87y^T)w
zrEY~wAy_s=Sm250E$9#z?T#B!UW7A9y?D+33KQZgj<KVkAo@$+a(R62KnLV_zQB+w
zv=`p9bB%NWnvnQB#)9YN3<#GhssR}=)GxI09y4vwr?pCD;0O~_XYZPV9ALtius~~}
z>}NQ9vLq@$nzAVejvdZ9nj-Xrsg2%x@;6HB?yT`fzY%IzB>u=nn>iaCjH6|rrnjAx
z<Eyr9M-5xr4tp~$F2dW@=7?k)7nPb_TwHQSxFsZ&kue+b29dgh&NwCUrxyQ}4{NqK
zn#^Kgv=+O-P2|#BTmQlm|Ma_M0Q`iPoTW$}`x7B&$cRg<;MF&uMqPM;(=lZh-Q7Mr
z>$ya;g&2p>@K1A(@iY?CLQSK=gf0}Ws&Q}PH0t>1RXaml;-mmu;nK4ZqS!_RG))O#
zRtxX#B%E?8x-UJMR<2;gn{7F^(PbU2#l#1jl-XmQ{TqxawkjnPK%=A)-v#=Q5bS6e
z)6H~-*LstK6ejqYZ^U8(zUzpur4nzodMO5wN#mN@&-4y5)0_F;dTFMLgT~pIQ+3ro
z8e~ValnF?+`P>kh2M||x^9#a)QwV-ZGI4(8>2yx^y=?st!?PV6v<fQa=0!I8#Tpng
zg~e(RtmAA2C`N>}o10u6va-6yw%(gmvz^Zk!fY6&0dL!0{NS41qyhLAv>HQnR1&Sf
z2-fd3>t*oGowB~WbknIO?ltuplYZFt*($E}x5|DFe$S^lE^Z~oorvXTr9RZyMd>78
zlh2XFUg?1WI6up)ErfYVSyD#p@1PO5Y3~M2b~FFt-r=P!r$!_>(mJMMEgNE!L3O5L
zc&UDCqqqljr8c?$6_XJP4$4U#3x3G!$e$^)=6ME_&zOOQ1y9?$Iaz~%3YF3Ub1ane
zwWdYsg2*5I=!ha~o)0jBihP1lm<F$5|2bsZV;+754um$)n&f#&v)b362xn9$edb6s
zIq9dxf<Q$WAQ4-AHImjsv3?2CsVdd!cpNu%u&a#b1nanR1Wmo<_~WFN0%|{+C<9kW
z62%g*n;oNDwsjP;q24AD(8T^MW!lG1jJ5c$5d5Ut<1uSo0k+`TNCx#fKmWkj`EG7<
zZa)59p%t+4)$OQUux6}R=`;FZFIvMX&AM=*;uks&0B!tT9|<bqHzpZV&-r-N{uRHN
z({Xsp`-&(Zy=;3mSsccOR+4ijMEfnreg48?b4TTf1wqmsm(fx5i&K!ZkzD?ZR|va1
zpw+JDgrwmkt(T(}ZocKdNJg0XQTAn~-3X<?MYAR0Y8MNJ0Hb(={|9l?lqo?P!Svv}
z@FRR)jmcLm-q$$Iyc<_)8)FgUHx!7eGf~iZ&IL`YDoK=~=~A9?w}4L_>@NlBeH^In
zSHDIqeDBkW21d`1IcC^8(sh{df>}<9Mt2X)*BRz=95@CT(N4A}ENrMB*+?rp?SF5g
zfKXH!T}%U^(9Fkac6s|(M16z{>wCSI$yv9`(etbCtduT9HHQ|xE&$JEk^b;DIjqPk
z>+#LjbFt~uq>oCaUc3>+&beQK>s6+0$x{v6-alh65J!ew)r<8nw_Lmcs@3pJsvXSp
zUA7vemuO40c<;1w<3oRhq2Q=Z{4Z6VG(eM##8DWThzPGMq7=>l15<)4@BLfGa=W&t
zFrrGCnx!D2A1kvrfZzbBq^O=|8@V9?IuctxDG-S0M<8oTrO<W+{Rm;tZyiE1$f8Qk
z!h+<iv=~;>4h(#CF*4BSA_J^<X;VI_*;R!(ilw8^Fx3!m2M$HkrqHmgU>sU1#?-8R
zF>i`_UV~tY9C^Pt4z%1eDVR9Bz|Y`;az1rdO4qtlm!LjjNVx51o=IPAb@8o7%&RAP
z%ei-9z)�deq0^0-}WnUGVuTj8qf;-lhG4x1$+8Mw*vCmDf-Nhlvwh@y9u`3gnp$
zyKsdVTe2^V$z=?(T;(0Y!o+wb8XBjuP%vu8c2tj`;-k!%UH2J7L&feEXB^RqnL3Mb
z9iQ!`Eb68uEv!GtKrIHffkhwB&N=CjR02lH+VJsha@UQB@uDvq;53RiG$PO$Cn%Mb
zxAGVtz10)bi17lEM279yF58g)<m<c^4m$m*gvVcj7CMU|IJzpKuI@BYNnJea1h)3d
z@gsQRR19sbWALeg8A(RGn5dd;E+Pb&<|G&#KC^1=j{h5}r}a|}N>EkYlE=xn>^$mq
z-APiwFbGce=OdN4N-_=MPCF4xzzmu;Dsb%j^hTixsJ_vz)e-vVu6_+FFk+3z*8?!(
zM0FRe3+#T0&b0RW1{hSO5cHP1;~nV(rJe9x<e+6&`C_89CQ>oIBc)SUvNRXXMpO6I
zyafd=yO5bZqp(B;RcJ5Z{ZzP(-}p1S<2?9#VB};8qW305KqR!sKsNqQy>JkDx-6f|
zD-h*<CC^&n*-qcIvjdgcb-{TGPh-n(vUV>Pdk$IcKN0VJ3)X(qYXISXmQzlDa=Nl6
z8kHka2i>~bKm}j*<mh0)@_BZ_C=kyR{|KTxyZ+th>eg>gIkv{ZoCiu^H&A3v3R&5z
zXEapGm2C$Rljc~EciO_brV9}t+-`?T;%jfk`%JnkPypZCp1O6F>(?ya!tl|RUrc!`
zGdh|G7j!NE>Ea*oMvx^E{cQvw6{f=Q=;+A4%#f3c4H&ZlEbY+_$Kd_A5N6`gY>hIG
z@pk&9&q}Ad%upQbP~gF-<jnkzis>s?;w1gu5w^#BIh*)Ajx8C&tyX*vvBNcGb4tY4
z-g0QQ(V{AU-V?j78Nq}MN%rr3Q1ptiyFp0t$xh~e?LAY&s475PpJ`&px<M)p3l<es
zD-ymGlDTf~+N%O%8Ki!SFDE6B({iP$crvttwp_ZozjwH?-$2uE_A{8CQ#wEpb0X_h
zXdPj(cl6xagvPk#FQ3VgoGONBrsNLsF95|3BT_CsLUt`SI*xnd9X)XX^<#mZ+o?m{
z41TTCnq_vT`>$0UpI*FdDLIXj@^|TpWoc`m2W?WpZRlL#8ALzaN2phFCx=#IUZ5}o
z2rKW^TD#}rI{ed=yZox5&^WCMp3f*xAb0n?i`$tT8=6V%U46~!-_=M{$|t741UNm=
zo?0>{qe(E`(^a&fe*1ib2FL-)sB7Y+b}{a9qNkUn>NMcq2PQ{s%zGbU&sB!7v^0c1
zr|6A9V3cRCiD~`UX4!Cp1o#tUFR<rOaLn9u(mr<b7ZBdYKSq4kRTQslMZ84n2+pWr
zc%fMm`k)AZ`gs5o&^;9Nd~WY@mgaj~z0A|q-97}&+Zs}T&T>}LZbhv2o@noV<A<A0
zuO#<M1TSYz_0I`F@Ar9Rt<xm+coUTp21#v;H5aVEE~_5i;^P?Q>wvpl%PIZ*SKcfY
zKrv00_O5^3-7PuW6$3n!y`iH%9_7DI4auST1S1;2Jq#(XW@&NvP*xkH-<=<d9OT3u
zwDV$`V1k;v4JBA(&+W>SDnTcAQzuP6ehJ*sUq@m@;{|sJ!7=KVZlli`N(hIu`LzCm
zWJ~a;y+7&!Hmx&+u$88x*E(lzL{X(VuK_5Y=w+?R6(x5JRU)Nx6+@B_2F{~xV7&IK
z5`SbFqUiflz6IJYs+-0_aWrVT(;D?-9NK%^;W|=^D0^WmHc8qp5am8e-O^rOeFLDd
zEx<r5ZiVLdV(V{5o!W7O^q(FZABWFm*%4ZFP|H)Uv7iI6s&{JC2UbDEx;abFu5K$+
zC#c_cNZsK6{sWF<ZhcH4Uo)F{71otL+%DrmPX2rBXH4Mj6}KoAJJy%%*a8y@wORSp
z>Ooc0rw8#naPf9mGeF6hTJ;tBjrJW2gkAo`i*(e**(fJ3#KeA|U3@+DkwV;p^<OMp
zb)s<zATS2Hj(omhc{?J}2w#bcTnLmhyvjAlqyWCU6QE~57SQ^|fd%^oN1KNpB$@kz
z7%<MS5{*m|zGaO;?7yv!=l0P68FJrprx6Uk_vg+^8a5TT5h~~AvlImo4QjN89Exhz
zoZ000Mj;z2G#|LA=8u3ZB86k_YQQS7l*<XzzQyjgB9tzHjg?Gs?#d9It5G%eHB{_8
zIn!u!OnqS1^X+<w)rIxyhX^z}>=0%B)mM)k@YLTpN%E*4NrXRJj7QxWi>A{{eDJY^
zKM%}M6;Un_TrqVRpeO>tlv{UR=LXf-dL=fR$JcD0&x$e+xb5SZkhReh9}?O3{{k|p
z1Z{S-0H<4<_UG@y-*mi1v2G^pISKN~H$NYq#1xU>I&a08*8MfpzJNXg!8wnpXV+F)
zk{-@>+%}cBNh2rek@P(us~hqn2BQBWh=pPCV#|N-Z-B7N4)gem1@Nv%E?Cd+^XKJ^
z6$pRs7ow+@>-8x)`Xbni_7k-}e?o->qV_PpqSqRYWY>mBOfa9)ls`<I7y9lhqw{<G
zCw?;O7xpk+K9dozZu$JEE;|cHpupQEI%XLjaP9p~Hq|wfD$Gen{jCA^%f7R%{nhVw
zo3I@*B$P6PkClND1@Ieim3-RAEH-51e`n<<<6_fv*t22Sc-zM$)SA-ZIHHi!7T%Op
zvjPO8UL0@knX-%UBXVAQTl@Pg5#JBPqAzB9@+4k7f7gHVkdp|-;KhDm84mS+jg>RR
zAAmW-p7@C)B*7we13+c56a{s4CcQfw(Z{O>LHF{Y=Y!je&kCFG3T8-v>|#Jg8;P-$
z)M$=PFQQ5S);+obgq1ki13p%1DE}({DR*(*#IA4rcQPn;CqK{G`>-)RqOZYJI;?FY
zloXa{YL^`N(xgLAf2T151t}(k8aaT|m300oiTznXrpP@~LSfLfJuM$Z=uri>sXCv$
z9hW;q#^-%rcm)Ai#Px975e(M|XiDSADS?ZgK{)seeT4<e0<&4t#1`y})xh=e^`$%8
zO@<$)3*=?H^eAtA#c%=dz|l1BUE?BUm-}N)fH2JIgi@|ovh)oe=SwAi-NDAitakTD
z(V5Q%Z`*kJ<v8_!dCZ=GLXp|rB}R1b<e0!l-vN6;ceJhqAiuLJWOulGCdcR=aJv5G
zaTe%b%QWU62TCbFu7JhMus7No>Nz#dYlkHt(1a_0?Fl(7TCuJ)3J&CBF{4!tLulP1
z(`dF^qAD)rNb{K7&o-_?Ram~J@wEPRjw~`%5IWYyy>Ehj$}&Kb`(fbY5OV3hLubd8
zeU(<?fG9N|LniklR(VL28#aVh4gWT&IO@wZvftUPAc$jtByQQuk+vF3{dLD!f^^4>
zZPLLLff+OLIlleKV!yUayX(;SbCJ3fphhtX#SZxAN;Arh4dcWZ5I^BcQQKS$2pq)P
z9fUG=1-3cV@!7vF+2M)S9Ce!_E%@moyw4Sa9e{%4KFXSaNQlik?F>D?$Og=LaCDcq
ztR)iZ@Hexptx{15=V>T0*%&ZQvvGbWX5bTNawad@9seFlRyeiydu*@G%8^&uD<otO
z%j8v=-I<rW)0ggUdrCa=B&pR+dzlLAMLODZ!tF~BVSGSsue#E{9Ejr^jKiPfnej8k
zzx4|RZO1h57l2Y8DR60^<_drv^y{ac_D{}6P626V2*w^)xrJ-Zf*eCHP|~4DmpZ*B
zv#!0K<BHqhmy<!g8^tzB=XKbvc4G*fmD-eG(Q*f`2;*)PLE77O>h*dL+{M~k6?mmn
z@Ipu6AJ6y%))N&+`olj*e2Xf*lQnW7CwI|wT}mSx3arM$$eU{ssNy7%NDwWwBZXY#
zv4R<1oXZknHd=k+wy`KbI8VdRVUqcTyhcf?{?Qrr<eio!MOk7r6Y{ZLifv)%jsuBL
z@fI89&XyFEWiA}p2lOCUYes7WO7v*LPgon_aRdW%RX9V^`nE!rEG?)#k&!=G;!YX`
zaY?}&!J`LTGXMW^p%$|*zV$2a+558h!5J7$d8lje#H7bx^BUpfz#GGFZw84RF4fvk
zTWKzIb&aT-Z6&8H;#9rJj-1n%)ex<5&KpV$Lg*M#*V;-Z9rD3wS_u`m3&QkaiJq~j
z>H^46YtrhaQx=lpc8IOtSD0JhG0WFppSiMy0SyGBl}qxs`vj}a8!9OGnUsIs_mhgM
z?IxD`mwAn7pwZ5PGUT0^!{Kl8kskO8s+4qwGGO%f156P6${{M_erJg9s10nnHO#6Z
zr5t?Ko)0)Cr0UAW`toY)Szn~3h>EI0CuVufjyA5qZ94vV*ETqixYA1&LfPJtS)Du*
zM{L08>LffL|E2g9;xu<^G6r7e8qjPPSv3h1WE950=uBa_QLz#Q(V4QbX>IjCNx*hp
zh^#t{O}pknoJ+)F&)|n0@Uc_2%Se-4b=V!rMO6&!dfEORL7A^JVxGGzQC693?s?h9
znDXZZkqs49Hm2qwOJo)sE(*w;u7=?JRv{KvJ@d*4oQ5F!XN2L{4*7HAm4RL@<A#d3
z{7w1sdX&BQpR(i{VT{Kp6*qZ72l5lYL0PkON;TOLJ$fV5%=kTHd&*a)Y(>#$Mk{H8
z>$JTa#)r`_vf=D11^Kr5Irrb*qrhIPh+#p-ROv8p4OkR3;(DozYq=Ql^9zDF!6v4v
zgm7;@TqA~mQTtmV`&;8iz0#`iIom!}$$HgG@{@|Uam{-^Ie(}G5zQ-hGts5LPuUhu
zHphN|)%r|);&DLa$2rIeHY)Hwui!VYozVL7k5p0d8?mvi!Iz1@Zv`zrL`0`bUMF0T
zP1z#P_~(2-gcpH(KFQuEJ{71LIRSEA!BGKttpOo)QwVN#&*!cF;a_iieG{LGBFp{9
zm*hfk7*yYQ#=Y-$L}p4Pgsl7+A*=elORwTuZH>s&@bba1xwdXCZmw399%a8=Odw_<
z;$t=dE_dz_IQsqlbJz60V>_xsD#$_L{3d<myHL6c7fVxjrKVViy-!jErz%km>=%20
z^r6dLHhz~t3uy_TSp6r1!OJED{J;k_R|(XZ1q4lp#X}02ywnOp$o}*9<8S1)F}R?A
z@0CQron(AbX|C_`lyW-CRW|k!4QkPYsvobL-02%YR;qLPNA^c*P+Isa%(B2xuFs0#
zf><#+2!#;BDwP!Kmu@a9=h}-8o5@wFlBJS^B;p4bVy{-KhGLT{K8(5x-K?RT-Vv(Q
ztwp(ctQGaY7C(4VA(Huhh?^jbJ|UbwvU5=lcMh;*?I&1lorIFad0DKXXws5Vx+=@F
z>Jn<8-l#=T%Qgfz(2n@kU&iatw=Ua*$HP@N1tY9?PBc*NQcQ*{BxU`w=CIga4C|#v
z!L*2aP6>kAdYJ3S1k?+}__`P*d_zL}uLo8D0^$J)2^^B06|7m|!Y1cipe*t0W+PrO
z#b50&aqS0~au`<m$7UoHTtc_qs2KMBt2#-Wb#J$p!$V0Fw|%@TE{xN;w0~kBM@|`3
zZ8*{fyXOV48^Cj1zkm0><~RF2@;BQU&8*dm>nt4c15W&<7>@;yPk=UVM&6IsIQo~p
zw8-}4rE1T)q+qqG&sn*5C};DgL|j1P^FLDP7P=IuE}#KZAyHNu79@W7Yp6>?*-rMh
zv}DFteL(H4qPTYxY7rq!ng6Q7=chZemf%TSx$SiltjRAaSl^}2=t45M?MfY0ZR{Q7
zdv+lXAiNMTMF)pcP@>I^CHmhtSi>6(BRVDI5QGl=O2cpufryo8L8{?Jdy4EMAKq%y
z1Et*vkA?HT>i*K*)t~mjXnIpwwzD^*Mst0$;C@uj<;)^9RX?dsNMeF$Gtc~Dt2jK0
zM{CxoPI<@YZMJKWMJRE8k&K9Oa?QweR36+_a6#ge!jrQLZa?|!vtrWoQHFqdxH@0Q
z{-<K9rqBC+LmSqS&_(vzWn}u^1D=1n(YyDRlbTktquTTWUK7Yo*pj<S`b-$gmZe4C
z&S4ixRbOPk!Z0qPNGH^4cWvY>1%n<BPV=8M_5`COibL>_G0WB<Uj%$VV9x+?`DIdP
z*3s3~g^!ft^MWeOT=RJdzAi_B&67oo4ZHnq;&4j(mmU<NEa~c>Tdy7`H@qKmib1$%
z!#*a&Q$7#-6a8j|!WUEhQ4knUzLpSC$U;iO#`PZ(!Kb$|j2d6)FaZ>Ds!;z_NeL90
zmpl4rOB;@nk@Fc`j~6~CVp1d+{4f<l?|wOdx<n$B6y}`(E?s<Do#^)Aq0_6HWiENv
zRY|J;u|$?=1UX6+pf6c9-f~xpo@iSG`VRwTl(11hCWckGaX`7@CNhN?z~~b8Z-1B%
zbI+aHZ&j1A(;GkbD(huwPFs<L`3t1|GFP_YoH&xYb65U;GNvJbIK=QW3aLR)NYN#n
zZsymI2G21-1LtizQR$l?^>Ijksa@efvp<2%a)E9S0&n;A{BwDtL#2CGNPA~n#TaT(
zR2TqC7|1_nfl^i9wBcQ=KGk*4H6(@KDdMd{%6c363`}dtCgabSu9RR=-ZT?hpioUb
zRZnGw{()J9vp<U|Y~RhCf}HAr&XXtXam9R85S4LPe_79s)l35V=@&QvP$G9pG&|zE
zB3UzMAVEj_T)tdS?;H72f9EoZr6dV&;S{!s$A|Tz!i!87dy^@q6T-hq|M|3SItNhn
z`}v*8NQT4&omlJM6wJ8n)mru?LeG!+wp<VgeNV4M;?}7lH_-#x#kyRb<nqsT0STOt
z4@*AF{(OJxYKR|?(fq3b-SAoNHHg0Hoyn3V3-JI|#b9w($@Cvi;msWvc<Sgv=WArY
z4hcrS)OXo+4GwIo(^T9jAlhB`Jq5(1m+n~>pY&#H;?>>Ct93UJ3S5HJ?!a1MB0avu
z->X4paxrn4h^qA#D1KIVjXNHJj!`k34&5-iBqY{6(jX<&JZWWJ_>~DpD#|4nhdTxd
zwc;M#25wWe7x@l8&y(m!lc0J&JL*yYfwN1n)V}`YXv(hQ)r^PIK4JBKc7Tl*0wXMF
zLfqgvPF-Az0*1ZrJrmfBSX*oMk;L$0Wysl&%6m*WM`PzVDZol<L{QB!<WFAyHMw}D
zDAI4y<3rPaGG=s|iH6?Xh3Je_`!iiMUwobjhIn(Xc~T%y5ExBdan~()HS^~EGaYh1
z(Q-w^yxFzo3Gq3Rwui>W-|e@J-a$g?q#>yGlx5behSPDCv*bWcR<Pj=JTX&YW72wJ
z4XOs%nx71l|H@Q@MJyH!D0ct6geTf*6)mph?%2pu+Xo)41ryGTG{(Z$HF`T$ALaOD
zsyBqoqUi*njd^&7w@;k`i|Fmc2E@&^#9I!TArs2o_;=@^9lYr1&|hf9uqnhS)k?jN
zbW8UcX$!qawI<9D(T3x>m)g|u?`G1QY<q*b@8=uo-;1wwjE;i1hN!vImnx%pG74|M
zp6U;HKiMcD6<;Bs$)!)^qx-x`R$J@EZj<c*7AvN-&K<;CUX=IGGV3u!T}9!zY2V4I
z=N~(FTvE5tKZv4<Oad52(?yIQ9(|*?rYsDHcHH(T2vi`JowlSsCQSR4NBQwjZn7K0
z!lF&7oIBF06=Dp9RbNvHrr>g`)jBK93kp<isrjnkUCSx!?Mlkfs!W>4rlI2Tj+|Ta
zk`-Sq%uL2~^>)qB91@O{5mHg^iYbf=r<CcA{bribdaOIKw@R55+GR#6?@ExJ*7L8p
zb*cf;J7;4NAEKOeyD>ulr%*IJN9X!L`297|k=ouv+l6;hS^I<-%QM^u>bb2P^q5}Q
zjRZ1mU3D^XX)MA}i8cownu1?bc|Z3qG61i8W)wUD+WZoSH8e{k&65x{cy+n#9~aO(
z%&hPB+5rlj4vXUqoy>{b9oScHRh|Y;Cu0I4m=q0~n`j}UpU8KjpoX`ssnub8`|I=y
zD6=*-61c>FhZZZ;&4`m`wP%{P!C&+JzE|0&bu?k545?MoMK)5?{NbC~K7a~LtaM#?
z`=&MNja|40V60{D$t`F(>VPTJJ-tFe<*K59JPx55C!P22TAt^j8-Ot9?zW!KFL0Of
z-dvlGnwmkOK1H#Bj9RUG^g1T@;tD;5?Mlp-UZd~b!(NWY;scsXUE@hKY-_9B<`b=9
z$yCIaqrkjb!jok6EGD;&Xijs>-yXF%qTrXk>vuy1Kv7W$a9iL0=KGxjTEW9xX_H8c
zj&ZsF&+KAU;sN{#jtwclFroB0s{&0FJPjRup@P$Hppcd6woWT^LhvOGfdgmFC-mfF
ziJ`WE9{4PG)l-S`a&B9*3{v3B_~@|{P}m~|p&n0D+}CNz$?3EaVitVzXJu_=Uf*VL
zs*izmTa5nUP*4=@{d9tmWxi|ffX1JZf7rbfXtuC!<zD=5a-r#vA82H;<L377)0fp3
z#(;|%UkZ4Ox{fHtc?1>_dKs#2cZHvKf%2Mu>(r`~O!L@vN*7?7xb-GdMm|Z6!?&<H
zPvhdjMI*GEJLH)<oi04ITmwbCz2`p7i#YU;pz1A;dUJ<jZ~U4uHk^6}DuEDTJ5$DN
z0Y35#*q|pFxt;j$6-&*$W&5!MF*ArulMh(4Q>eC1iMOWi;ie^C4p|*1Rk4|Ce>wS$
zTk#|vo`4Nn!R)Yu4Q^TVa{OYGIq`I0-<j&a?gOshk}S8o2ZHwQ>0>y5-!#mdSzIi$
ze!h9Ndh<9UH=Nn}=}G8ix*ubR4YJ=4@%4vWrqM<~!RE>5aDudUzTVDvPlAe=5$39_
z4Utd$w61x^I~TDLKs%e_)`C96`KZe|`4T_S1}EKlRO?FCNpAxbl#9BfD<v;gtt5c7
zL~n8MLTul5JWM))5ew+X+=QRa_ol&PTqs{f_h2YEZ%mGK0$nukwGY0%`Mh0esGh{Q
z2u&kxHdgUf<?l#PTG;N5pf!u2zL(2x+r#Wq$&MXaeVMjR{T%2yK#>dd02kYTXf!`1
zh!0q?o%ln+hJqixxqoVk`7dB`5#|7*+l3#BDZV~ZIo&~&@k(YP3)y2<URB@`yB2S_
z$|T~^`NT>jlNgn}A57%0rD$<ps)xyHe81D)m<|hDRFS<)tvB|iS6-07!Ov$ka2lp#
zF~G1t6u1?`<rYXM<_U5kX%(V9wCMERF{(3UaQe195?6BOJ@eyU!D!5RbaYWgqg0FU
zp4RCP?mtq*lv#HX#}<Nh(0^X8OtwmK99cUNx=!o#D_Xy{P3ZEKCMUilkJH=tqhs*(
zdu0we|8eRVoFH2d0$LN<SRXhrcUhC>)0XhHFJ2x!NgwPOoLELGQ8t{Ux1~p7X`PQN
z)RiI!>m#?`-s20&fI;XqTeH4gQQ$PDD$8=*j}R+U>6qNPQmLi%IX##bjilpG4B5Z>
zY(7_!rV?4IcdNUOtkB?fOoaK}NOQ6rvV7|;#zJy(9j}RHVWoqq;C{2qvMzIqM@{>6
z=A}~w*Sv(L?SnRxtglV?H&YG2*nQ@My^H?r=9kb0E~><)C|)!Vg<<l^p@8_w7Yr2;
zX9|gYQdcLSA=3E5;WGiOeTu$Z+P<BaU}-V^b4RF{*q`(@iqg}#=!s|$=`;TiX*`=*
z_;(#+a#qJoNB!zm8*vF(S?ONy=^U)?>Q`^wuuAS#xi{Hui=<9;9T-SrIx^FYxOXr7
z#`)oAqujrmeDgZ8X$Pd}^>J^grW#0w_)(e!|0Gz+@RF~`qS-C}4HiD&8mFGjacgvB
z-aJmi)M5B6O<&V}ZQM7sM{{@*@=w{qcAxFz5^NpRqBs<2Oq7qf|I9<_7#s84BaE?7
zEF{B7*nLK#%=E@e`cnsA{<a)O?@CSYStP@p34g_7j9fR(SN53blGspKZyx0=_n^J=
z7wjhDm_)*xjVF8f+1ce%2-*DK#Q?l8>Z^HD+%5dinCwpmaat(mVcU(*)+42{-(-aA
zzrBhRl8WUubR9*9>Tv^HB;A7LAx`BmPeGEFCfJ?a)0dTk6o#dL>2st`RZUagq+7@2
ze!mREpwWFP<n+dpoVw&h1O>-OIx!6$y_bv}6jtTz0>QI~$}P^{3P_J`Wd!j)H_n1_
z#^hY)Jy;KkH(usFtNZ6w7P!2RC$MaZ-ekOYTW`NBR0{KAJDwyL`t4(AQnA9+^oeQx
z9@VO8ZBtB7xW`G7;w~pCm}cW_c)LTxWmS2isxfa}8BGNKwwF*m!L|+6z=`sk`Xybg
zYPac$<6AAeeTjZ+$CEIlXp=QUiG=5LNmp-545qYj&$3uGQf7qihg;s*0Db~}C@bMs
zBM&N3!w1y7?@Tp<`3JBZm6Hg7&jn@5B95bWVQsDT(?kt4NA+wn<iliwwO0uZh{RSP
zQDSwQ$mg?@nyp@|Vg~3sRVd*CjUGx*qf}i=)ZdlNaNKh0{(Qt@!=1=5xJ)`fF86f%
z#cI)#Nl_90LHL6Xj>5LH`8eMMLgEtFJkpVz&Cy5nOwmkcFH4k*G4^YT(Q2!|*v_3&
z*d9ty63`qfP+S+qUcu{dO_wj*X>ezVYB_*a7Od~$nZ*c+4j+0%JZDsXn1_zkN-F43
z0zZao@{mT%ts-9lHd-S{uB9|P3ow#VIm9G}4Yfjsw|2b_;xF(DwNzIOWOEB0xWrD(
z@~6BD{x|m5J^DihT=k$yMejd|U3Y3%^EEp^%r)LR8FfqUz>c(t&o!1#b(hTr-+PF*
z&1#0tibiwib6DOEI0389X_N{ru|#c^mHNAj>JTUwseJ|%OWH1gE_RI}sy4|AC*1|q
z5!D?!;nZJfZUN8}HKPE<URkb!LH&ppM?jzjW#M7M{_lTtp2IYXBTjgjmW2AV4u9G+
zFT2K$5HGrls!H4ooR_-&mHB(ilJ1ZnV@)xdGl8|)>M?b^puP(VJxvPki1XWx>OzH`
z1Ah3?yc2+lzBDuo`ZMJnDwFTtiA|0o9wxU`7mD)<j!i>{2BDxQ@%ClDRiqD1ze~=c
z+nt^k3JLqcv+uzJhifgI2WXk;3F}{-yBwVFLS-{WBQ@E9ud{6Z?ne)H`-<XWMW4|0
zfG+R+tJ0DrwJOe2G9vXM_m4c_gP5H(&J&|U|N3i&Yd?CB>~G>`JI9wtP4L@!g!sR%
z(EF8X$45jNR#Dku6Pr=85-U~zze!uyaxqS#kL?RI+6e?EofjDs=1f3*bW4O$xrifs
zfjNCC9Og^KmrfbIo@FfE!$wpW1K(y05mw*l-rH?_L?xaW7!Bp;J`KjJ$ApNBNPvmJ
zFvCbvvj4@^kjQ5_Wnhjsz5WcJR^HvB-M#5kdi`n+I{A(NY|oc2hQon36J9BI#myte
zYzLsY`Vsw^pL{W;DTSeM;h|ls2Ikm_eTRD*tkRnvHPP9R62_F<r=0vyRaOFup8Or4
zhEcG+&~jjmIDbyKMvI42m<@DDCUG@~*cGc?B!Rvy*41(s;6?FN!9t$GTD!SR#u2~k
zJY>CJ$oV7u+%5NwB^#UX)*BaP<}Oirn+?dmgr3O`ezG03&F6dgbK$kqxCn|O==qm&
zo*e^BgYEbn)6D&-vw>9~9E${QJ*;d%3gfMzLthfnDv?Cp17Eh)`bRqzp*MPm{{SR0
zdMn7)(LurogKu)Dq+G*2X88b($!0Muf>U-8CrAy~tc5x8_KCYmczKVV|3v^TOfa8%
z;B_P?hR3Hz>j>6twU^K4R|&(XmvRx855*2^1enhUs`lJTPvBu~J@}$Sh})5&8)SWM
zH1~al5OncNIKaw3L4u1u7(H80rxax^Yqoq4LgD!SB-(nm1!oaXFM40`qGYX*^-Unn
zF0f2>M-&Q(Vtx)gawsHy(T+*=$1*zS*MP<h$xDD+;H;ysp;!0}NpvJq4{dTC)P9@0
z8X?27fn8mgT!%NklcP9ss=@IRiu8{_dL1WV(DMPbQ%qSG`H7?2LyeHd^D{SCb&yT&
zp=zTBK`h1d7k3{tNJ`MmY|<Z*qL8KsiZ&aFma%7JFWAT0`KyfqxsEQmuqVEy#Gz_{
z5DVLc9^)y4#|_X3qOCTTXktna>^<@$e6>*E#Qfy>oUp?34^H*Q!Y^3Od!$ljbZg;Y
zS<wEW4&*|#Ht`)oew_>RyE3@%bkw5P&av$Pf?*U2ZlX!!)_<L(&sDkntmp4lFQ`h(
z0A6B%#tYC*BPcK!3R@U5Ny?A>^h}NnhgR%gz+Hf33m&YP=NsoYtagfQ=flM=d#r*U
zK`j!)_lkW-6CFz5`PKi)uCrnd3z?JQIDpUf$-O8gmI0%VpRoVaccp0pwv)S@yi<`U
ztotv-_+LVc!|$JChVSsPjCt)Hgdbai6C+quxG5EdumfIt!qtiesSctaJm&98)d~Jc
zf3HsY0vDi`_<q>ZQUo>T6Wo1KR8;d<HzEW?^kS_;A@=jDI)qmjAqy0dHPYLwmjNsl
z+geW=v8l{NMN~7rXp^&C(zxhJC*br^M1m@UVs8_ULF<>F+4-@WeL>YJWL_+2&^|_z
z;H|Om%THZfj((h81V$f`3;0bIMM)q6qpI)px`lY&jv#mY)M5P`w)ESt8N?lu=*48V
zr{)7gDD-nvD)|8;HD~MXyyI?Av>)lEu74Bb3`PE6s}MR9e`T+b{YtjNCa0nPaIDim
z`BU8vLA%$GN;e)YerTt;BEs6=iT4StDc(Rvn^7gTcHhpwk{n+liV4~gCfp8ExAXC+
zQaU2qqCgxjFl{it<CZ#9#m509e=rmrt(nr_=RV9?#naeP9=)Yu%BOysK&jIY4A>T}
zep_oWdW0&xo+72=09L!m#-ZS1wm*%YyKN=h^<XxbOc~9PLW(x9lLJA}oq#hf&b8t|
z`pGk|$RB_az?`-)0`i&nJgf9j8Bvk<<cz(BM)-0`%manl&@=)9{18Gk6wMITp*<3*
zjB!=cJ4j-w2RYUhXvC1t2YP8qPGS>>{BI}~TqBPG5uuVe0x)!uKkPDx+!rc#-&X1T
zn0HA3#+!&|9Koe*5BT9OTwV$$|Frn!{2xN~+7C6cln?jl+95)*LAmHIC0Bs7uJ>@M
zBN`{L6&cOYzK1>63-MdkbwkhhF+*xzMQw##NlG+g<MdTA2V|efjvsih7d>1S8jEtZ
zd>A&iS%lZ!0#@0+;kOe7<lD|U20K_4Jx1k18&B+~{J2^IEt^&0fn>dt9dSJ55Ih&O
z>10f3^DmJiVO^mnU#_SNPsR?|PpXRfNU3$7Em%-zS}YBj^~Tk)<}Jq{7^F%Aa1x=T
z8!qddwac>Zm0xxIn@`;x5<z@1$DrvfWA9Qix|_H>@#U)Zv`fTL{WjVYG#L%6IjW*Q
zr+d*O@S%h;?o)y@$mVzH6&RuSGf5RYC-&VnY6^m99w&fE&(oo|%PRMP%YkzvZWyHg
zXV<it4q3~1`4sL-Z#RJoQ;Qg)BbV9n4)RX_@?P{Xvv7Y2T#Tnn&kTX_C`dOX7Hd5r
zXfQ<n&ovyNEMjV<0squ6sSPN%scwJdi`X^OGj|ZY*LLce`QTZ)QA)0g(speHck0#)
zEx!{>-Ixu#(S4jicGCEqWwYnq9X}#C?VH_3<uO{oEPd5=kzpxF=Y@&JIK*#Pkva1G
z7%l#OkLVn!65rugiP^Xx(&xpd<htnyC96(q_~ZhtGjElSk7?E`(wY6-7bzWNssfAF
zg!jef1KXaVZT{4JgEFd^z|G2ndhmiy891s0!yA3vg)SeXb4b_1c`>P(+kVItFYF{|
zf)>iiSyNXqo%?JA)?*gsr73e`HjI5x$ktAR$IqY0<|L;M*P`q2qJaN|a)0$_ZkW8k
zXkYB!Onr#I)*$wE4<iarwegEG+&p>7WkjcJ;!L_Px{5g}`4Mv;hZ3*%-(BPHLX(#c
zIB7Tl!F}d!Z8lM6Qu6mL7zXqxZ=r-7;XrTHmo-~DYz;3M=XZGzjtH?3nrh<UW*t@&
z6EtV+=Ng_5ru{n_*<T;%JfYlX0)2<F2EmqDQ<=%@zTSxhFXQ(@Mmxj37~FPa-euI!
z9-EQtFH|=*E;Pm~GUj~xGV(0WXVA!W$4Or86gcsH_!saDZFJ0^Sd=gtlFNoZZuR~j
za4yI%cXJk=_SVO*`hxm$xi5imgpTm`f2R}VZ$N$j*rx}`uJ1%AKrv`l7pk#<L;fNR
z8@~%xJG^snjQtfWBYB0$GVrY_=D>WeYT73x{ukBH6iMBVx`~kifq5rpB(1Uo?v2mH
z%;|i7%=4wO_Wm7{fdk?F{Y!3&Z?GDkakxj(7xsaQjW8RnX_*87RlUP}PO7+Nrt;ZE
zQIVJFEwx(UsfkPWnNf<3P`8Kj^Ck|W5k?$?OFXO=UIC9HU}bPikNJH3T{hNukV;X1
z($r?Hlx_Fux!1}*Xpc9^Wo#q?uYIa;fTbIi^QzF?odqlC)+36W!rnvq1tW88_@^zh
zRp~8y+HE;npuJ~19whfru5jx8lDcxN0QX9O!g!!g@)6EB5aHv+70X@T+~ZNB{ZHRu
zHhFJa!H6BNp&tW3$X~J!iIyY$RF8fEHQQbYQL0I8gx-v9%a%}U%Sn4y>?X-da29rb
zVMrce;D$A5r*7K=pH)ZDM>zh41Sb=uJOOrc0!pAM1EN1GoVLz~w_bN83o~lGBE}j7
z#LSe^e_vrNtH6(vk*8ATg@xs8L5DAp`txGHhjz31I>~61RBYL>=P#%G5dkFnNq8zu
zywS?y^345LJxuYhDfSva<mvFSPb^P~bW4&c^r8W(8XZ(v__qm&`hb|!t91|7g4@vg
z9h=?8?j=jPAXdRsHw3F|<y0nn=Qn82kowryd1TFRDp2l2B+d3tK4k?ueD#Jrt5|2a
zrZ>>LQ0zholGNHedCA`PuMP*Ir-bl6L8e9{e3i|;p0E6}cs`oyT9g{T?|>-zPgne8
zn1syejo7&p*Z!&*7sv3UDzkc4MQD*rM!YK*dH$X-C?Q{0CM8C|D?qjm+mc@4f9^d`
z?kxu8t6ej$!W^2EBF*=eYuH%EtVBpVUBD#4KC5`X;zr|iAjZ?1f&2A44!ESqRLSE6
z%<CCB3vqbOlb4ScUvBa?$g><0kVME7-E!V}?&om6OaFb^E?13;v6b&+`I@@6Awr*v
zbRFD6N5+G_+e8GWL-Ref>QC$k0LxCvN!-uK?H`}N;L&TIeI3RhjQKIzS2+X`pElC7
zqIiCcfgF$5Xi0X=gCCQJyj?`>^yy;v;9{KJIT7-12utTu8`t&@MbPuW=z3tQUh+;U
zsXr0DI|WIbtR_I|vmBA&WOne`>{{ZJOMECIBY4M1oeG<5a>3WU1t{xAfVm3CZswio
zJ=#v@GoXF<wv@OFcIWjLbXWWd(_}S|(T_P={l}dqowFLF8L6x2k@IBfF8q2M)qtma
zGFxi1Ibvr#+Ub8TWXLli)B*<%1sC4#X#uD+25n;I%BrdO>rZw%q4Z3<(6mMSk6Qkq
z1#>_jgbb)$U4Yvg$-+Iuc=!ZDZk%Cs8CSySp%btmb8mo@Q+unJWLGfMujSvOBmE6y
z0*TzidB#o5k0~qih?O8ymqbIZIR87*UVILHt`QxToC=+eZKENE6#bYA+9~OJGMwG*
z<Wgdn1%ZlnmbcTfe?;&q*v97Nb*hh0L9b}RyPT<vf6cQB6zEKL)!BZjeV6-R`L$^W
z4%OM9LsU)bWyIJ8Kw4!IjOinXg}s}wm?pDw=fOb>>HAT}+(vsv$*w}Mzaygq*mS)%
z9*aVH0Sm}jo_pJ<zqVzuP4WdEpUC(FApZd(f#HPgas)UY?t~r^<{%V<)FPtI%YCj6
zh_%FdrF`alH99@VA~oQu;!>xXyjaZH=hNaY*|+_T;iq}HPnPGHn#?)iyN$2jdGNO}
z5b#L8L~L=kAhQ3ye(cr&`{E?KC3|)4?j!#PhR!%3#S}*QbLo=(0CNe7)^&QmPN~TA
z7M{N!Gte7(#CZn0F)`OrDFc7urq`_hX|V8(Z`J$g9Xb-`KaE%u$+howfX9urt~@*<
z<IfN%0j}B{EiUipgxUTl2Z^Gyb;>U=V`47Hwc2AUx=P2?n;@NcyY$7CBXLn){Egv`
zvatw75tRuooBHlM?sve^@1In&5a_;|uKApm=`Z)$>Duc&gIaL&!lz4xVG(!2k9^kP
zKCM>VvUC+FEdD$3bnne$n`PXWGuQ!zb`2Y}n{JxAE`{fXY)aGN+vt}0`|PfspLj<z
zCau*^2WL-sv3IpV?>yqcbyQ#c%oGoS@x?QOAAB(qM*8l%vILOg!Iy|82?*vxe>mgn
zD>fPVA@A--5-5zt?<*MS<$IY!k9?*rRtgjVMZpS~s9m87QWIfU5>Ar*`eDhu6N2M%
zQ^+Pfl=#Og2+5BUu3JvnxF@I_)LFn`Jy=PdG302s0iRO%Cwyt3V&%w_aAhlQ;D`6e
zqsq+4F|BG~<58uV^p$*S&Z;0L5d0OO`(G@~(7=qc{7V$Tw{$7VZ~4Z1+ixZkjC%w|
zm#M{|)W`5t^5@G)UAYf4NVtMFHH{9`iD2a$lOWnzd211%L+=8380fugj}yQRj=S6q
zvjLWYs{U~Pvmi$s$rkqO%xvX|uklN?R35w6YHduoY@Ua515+N=W6)Qw{^UZMpt8Qv
z*1-yGl$N&m{KKjKUfR%k0*HMAy?ng|?uS%n9PB=^tnZ2sIT|Zd{cxnozz36{VY8hs
zELB0SXbRZ#l5|-<*K}>&7_*UR`}M<K>!i2Rz4i$~91wjbX3(@Ov6ne3i}<23=~ciE
zHh=@3*keuJQ^@Wi0s}|V*J38Mt0PMQ1O!U-mnQlNMt5ngjTVz-BwQ!+x)EM!Vd>}&
z-}h{(%aB<VJ1g{>&mYNG7{wJcve@Et?TOtpDlb+dA*=-6E~7Yc-A$y!)L&MGO4GA;
zIHM8R@e0_#ibmScieD;zb&>t(e=Ap--kju1+zZDGfrk7k7QTgiAwjrTR!m%lD<GEM
zQ8-HCK<(|qHNuHJf0-!LcP6-NLZ^NdMspSQiiO@V-uhYd<Xks=b~z-NO?qHya2eI3
z{2#S)?20Ky1u=aGo6b8{93Ef6E^vPCqV1CCk|R-X?}hPYPIVMg@6zBl>Vv_@l<JJe
z<_mh!(XEZ3P3L-D(7bPx=4$`=efy}A7$!l*^LQ~d!z(I$h!1&kU>bAYPJpp6S~>jO
z&D$0Bl36yYLB9V+-d$ltBbszKaZ+RN#doZ?&V?@Gv|yzKzPpMGem<6uKHedzH$hJI
z!q7d+&c@61Xwyib;9J_6v_CeF+SN6N+*z9Cva0al!2j{|)d5jGf3!+UD%~Kxba#W)
zQp>V}fPi#^OSh8J4br`&bV&=+(j_UebST~EyL^A|y?<x!%-n^0@66|X&gYzk!Erxg
zIU-hWjGCy+=ig7``0KmorApEN3D7mlQYqt|WSZ?b-*YvZluz=iR=RkMZU24mK8BmD
zvHK*(=`A$qCWHHX9B+x(=3y3|_jchNcyeW!TnZ@_8T$KW;jO^_|C(_HgV<3&>jhrQ
zgp*~Y;Vo&^V=5m15TLVk?oxOi^F46Qv|rXknZI9Mk~UY57MN$)j;1>W%l3J5=j2;J
z0nb!IR!DOzJ&qp|$onDmSfoma?^M@}sBSIi$ATEu>4-9cApV;=SlZoG91nN;#-@7N
z|Gyv1rFct;T}7RC{22wT`uyEThvNOKQh$O@e_md+&%}20Lb}WfLM{hc5;u}nbd7ZU
zzqNgX%29@K1Ku*~fC2(!nCuuwi+eD(tPOgk?3_7h$c2%+6th%|Q>hi4(=n*T99$=~
zjV5{VcYRtM@At6$%hpsGY}|koms+dx(G}91J)R2tgAQND*L3LX=fmT~;zR*6zhvp}
zv*pN$21&wl=8$A|FYm}g;Y)Ja5$DnYWNFmhg#`x@B<lYJ=PP}F=}VRN0~`9iM94Sn
z9nE8Z7N@Bf6gacGlsb#V?G%TahEAe@Rc7RN4(adYWF360hZeODC%!9rq|iHB_dwy@
zW#q54{8GBbI+nl=j<>&s0rTlU+N?Gh55h=V<^+G83@F-P>ZhJMsEzT9SrItI#bxQJ
zb%;V|yQ`9yR+$U;U;=2a{e;Yi`?D*Nyj^K)K;@ueb9Ow5Y^COtKIyJZ?b*)()x7r^
z=J7wGZ`Hq57S+;`)ZJv+5v)_cpuB(+zRANP)>qjx6i9W9{g%wnkS>ZDqU4{2Mhbd1
z^~P3d)?|yxTe&aIYabJ&cPonZLQpw;a3@5Yg_l6dV5F)xF%oaM*@TYusiAF@*IkWg
z<+TRpjbE)VLs%B7e4(@^N)vR(ok?-#W-|InQe%4U=7W^<>R%+VIpOKi?skH)l(Ex8
znVE!2;$3BJW(I&gi0^&kx+CWc2Ruf;^mo}ZJFW=PtAoOi`jnn*Z)$`EZVsXbKCP8>
zR0P~1A>XKvw7&^XaDNYpxET0`TuPzVeFi=N4kpu=pm(HHmgVmnj|F3Pv-C|&_{;YQ
z@c|dQ$Lk@r7wf`o$?T0rV8}K8*VAZ)r>+gkfE%JK($)32riW2F8&y6@Zu8NBE)HcI
zBPMeWlv1Z?k5FgXwmOm}C;?V|+r>5|)k?tFc)bY~c2%O<AdXD|a*{xylJ8yV?=3JR
zI&S?Jv`VO>y7F&fKrLfmYX6V3?r<jen;>S!0|B+fiBe$}gF^#&<d<rx<+G_H!B8yL
zrq1Ov28<82y-~=`By~SR{&6X~qxBpjL4_j|W`*PsbO_F0O8w$Yz-TzRdzB8T<+ZxC
zly8?WU1(HFe~BrvbtehZU3_dW_?rHHeHP3Zx_IvggV;@@SRP+}^6jLhV|lJp#vc$m
zF@3s`?3mWB7rFN5`BhdPLU~}PI!2(~N_MsKbK-pz%9UT_f)SyF<@G6?a4`J4D13;N
zt<2gHlsmGZb{K8!6hRZTJ;O(pXe&2{WSY-z;67N!1GL?L5lS>c=XqI{H3@}#CVn2J
zgSk)8w!lkVwdNe5?~M9sKev4FI9s>uBcm8bX>49~j>x{q?C~R3NBi}<XE62hMLVEi
z-SGfdJDdmCa<RrPuWu8DMZkh%zWnooY~D|#9|H?a$>X#pU-D2ZG`M7WQ~xA_X-yM2
zN6?@u&aj5R+zKH>7@Pu<2Lm!D#A6Q$zeOv%o&28OuA`oHFGDzsUN)0d1QiQtDt982
z^TgIf>9sN>lZ7ozM%lvGWhqJ&ev1lCV1vmbji}9WXNyG{TX(TcVB$!(WC=|?z&ws(
zHisJi`!nr_ue#Q0J3*+HS+PC?d$$@w-Xl*ht0oNJ5N=(jn+dvA6T`8yvFJ*0h&z&c
zpK~Nkj5UwvGywQ~GJNrms1Xl4rz@*Q+2-!6HF-Cg&c3~`$QfO1MYan%h_yZT9Ku{d
zd;1G&HoUz2=x0hvohJ&G%3T54`H~ezLpp~>Yre&Yts(l}yJ4NmAHg`)FB(!6n;$k_
z<~GI)m-gG@)34~!24R0qytjQF4la{2>yQdbX6c|x<`}(7DWSzUrx@7|S-=N$e8c@$
z)kDy4$>g>=Pv-$$lCuTKlSqwL#8y}4#CGWb_}>$omTJi+C@vT4vafsOal;P>-!RYM
zzZf<h)sh$)n1}uhEaoSdQEUyEAhUAj7F0`>#=GJA039Y9UaKDw+2LD17~ioB-dvvz
zpFQ<|qcXclJ?J^Hr_Ni1b2jisV_wMFU^8<1Qz&e7me$vJeb5LLHF?DHbvF6Yz#I8p
zo*z<PZn_K#lqJNjj`Q)I8)c`<dt>YOM#UbHW^%}!!GW&$2eQio@?aA~3QBVpwfeC7
z{r;FsN`qxj$utL<iEs!050rGIQwD5Mn^ID!1v9Kog}8ie)GQKJF{}Sms6}3u`NvCh
z?p>7zX5fQ&lwPMu_1_3+;|Xtc|GQh0PXRW){o1~8GAv+;xy)JpO7C|~O_t*sm;&mW
zmzNh#w>Q<Ix+OXLWEJ&`Af0dT(eR%%iB`n3wT+dp%K^^Eqx%ghK@7=iL7*qsCCu|)
zZ?2sXq$Nlz_eJn}q9#MwOOrrU4#%;#b9#~$0-uPTbW19e&zHVs#;p`C<MJd%{?-FL
zcTcR`=eF$PA{2-xYYD1))Efhm!E%m}M=SH3*%n#)N=%-y6mZ7#>d~{&!X+u`4Z*F<
zS=&5xN#Y5F0PbGTno6k{Mj?N#0yaEjvr|z|$H80zzfKYI2gfYgs!4nnVXHf_!X^F*
z_S?{{QM*{S+6%TLOR3ThnD03#yInNzQbRkOCov*v=`bzOdw;*fIImnJC4Ua7YFKFo
z=u>HU`QP$-_c^R}v-)gyQ5r>$uDBKhrtzg^UOh!i%x33Csdtkh=>lB4X@Cw{IlM$_
ze*s-})0dmT2M+kmj;<F+y`DZq$!xrMtx$U!W(*oUnWXqNp1QSbCbsD{-G}S;aS63>
zcljpsR9H%-`v>^jTfkjQY{iW)NEh-`Y^30}=LsSbRWH&-`OK|WGA=EO+bU0?AZZTA
z;oDjyErO!2%m-kGb9#!@0W8m7*X)hD#m7UPdws9E(X(Z<m|#C+M(97cQK?SgSJr6`
zTUcs6ZwW|lZ{6OIJrb$(6iLkEItZJ3$->y+iA7EtXQYeC<@NaES5yqycFp`h3R^O9
z`Zdyl7;!Y?zPpeIY{uWM#0Wx&*CnRfD8<}E$cXEY?vw6!bt8G$<Jzcf<7D1BW9qG<
zn6&cF3Tj{0G-XkD?K!U$F)yzSUR*Zz8XES8;5zw<x484R_18|VwyH*56#hLycKyX%
z1%v{5Z5Hz@b?oY0;9*Nf3v(9r(lIhtDiN<){sNV`vYD@Uo-97K)5~Skzx-%mxuI`6
zQ=mOSY;9Z2q>`!Ut1WOW3_`+2j<)0ev4XzjgyGeH+jf6rZFZY2nYZoXTHPRj(uNts
z%vWpTfUatHOy4MbbA73}!cnPubxZq=8jJXE!JI)8qd^Cf76MouH&-v6yofg_8=%{D
zT8(BG$AVBLo6MYU1FlL;aj5&vLaz&jHn3m(>=XHbYDe?S7lE)JFQwmCqXaq8^JonH
z*4et(I7uh{ar-+ZHQ)c#YX47q$R!%Y6+g$bnQW%6(;D&G^RLpaqkJwbK9%DvbaFxp
zq&aQIS!9i<X>bD3lZe-0@h6KGR0<A?<n_z@Y!DMl;5FCv5F|tf*kbo5<t*0W6PH=k
z`pyuQkXJbeE4c9M{x0fq*Hyz>r-HO8`=4EYkNq;v6YWbpe^Q(A<&u-j8?tf>2o2t^
z0^%2U=BP(sKQ5J<mRlz$V8X!vo;q%-t#G7(+a{iDtC;zWt-r1)9P0^1eFz=+gZ6-Y
zI(qE=6eq%5L_W3sP{7U)Ra~XVCqO5BZ}PgpLS@fgvlncXyp0rjK*RwdfywH9ae=QN
z&RSk=7*IkgF7C`2iYb`5a8U)jYL9e`&~IJQY_i$1ND`aq61uKnYhLCUMXhBzPFNGF
zqrWyEtJoIld^-E(&$uU|Ckn0VAxI6e@6VIMC!pnSxSIQfBuLuXgm-ub<p%oF%p!Bm
z<D!hLVY#mgqp(`C(0b95EZ*>4D(O3)&+-Nw57d6{S$$Oof6P7yZoj(Yd}dbLp71V*
z(s3u3I1O)jx}m9UUU4E>D1!1mUW(?$dtA3ac$UIgG$6gjKY*nR;~-aX=Qc<y^jU^i
zLq=|_i!&rg+kLr@+t3#3+xDcxbFb)AAMU4v_RZB#CTy`um!frzV*`5T&UT5ZHpnIf
zx1-nur40RSkoAx~$Bx+$k)Vgvv2qwEc*q<JWN#oY?ENnIRIza&VN`aVnvb7iB~Zzv
z+Y9Q@AK+nxIh-O5sB~Ye6!d>&m~r@%HPhB)@lFINWcH;7IMhFRFFYBwD7*4G`wlD%
zYXQq@0PYe3%KxRD+_LV@%;I2)7Ef^-3+#VwTomk|71)5$O@d-M<-L!-DmPjd6n80|
z1BPXbX9dqP+^U^-U3WC)Ze>vwMe8_B=K!PV2XF1*&jK3xRIS?-t9rZ@B~OeRcy~f*
z03__B9aJT_Yd|?8<jNH1jE}b0#rrRT2%z$Q%3Pd5mBg?AtN%$&uKP7++`)~%Yi6eY
z=R#pNqlW_F3t2kjBiTl!Sr%+Ah=$vc-FTcS@bfR+bTXeUW)xdc<Budb#*mh>+V<v`
zf!gI-ru=j=g-dl=WNpUr;$*OvWkfrbovH!NxqTO4i1=Fi&-_;=HrbzF*1QP2DBAh@
z)sW2u)>5W%Sr9ZAi@}7BgBeUT<tk)#v#rRthi<*GBf{aBaS`+J?(e<~d~VstAKbB;
zC-ZdC$u2376mJ55&VA2IJG~rF?Wrq%w#0<VlOvHvTd9Da(hli>7@JP3<jvWIbocUY
zBrye;u6bR##DFnGh*JNnP~ptbus%QfA=@t@gi_Y}C-Dg5Fgi4vm&?MuJfZ35BTx0F
zpO8gt%TnAk{tBaOf=;H)>FWMm#tt{RFUp$<_~?Sz6Tat#;BxDhmTfzc2>vb!HOkR9
zSj@xyo8bKYx$nK{YC!!{k9hq%25kR?v<=<JH98ln0FX_Hc0aD(W+%N<P`nW<AIR?`
z!}Z=MLD$n+`yre2H4LffVfk(goLQA2DQRx&nRFGN-I?EM>y+=2QO2DwIYkI)2mu?Z
zvp6Zbi=BUR$E>Z32UK=5sr4}a(`9F?T%jfETvyr;4)E5ULd^*b`)Y8+DZycQRRbfx
zJ@mQV|C+IFFC*n_NXnWhjCb67vp)pxgRK{B;XZ+88wEAKS&jj@92ySre*FW(yblC!
z<H|;HaYp4mNZ!}2iwJolaBTR<S9gvF)I4A5eUwnCR?Vu4cHOt%Io`h;P_G`#a-3Lw
zqA0^IokwGrmGW0Rm==?w|BMZgeDdoKxT7rLJG?195D8_*LH9i!E;7v}Fs&n~8#_5l
zvCHbO*(t0_2^yV#sn22_k|N$CQuif-8}k;2qtZU$->n9EUlKlF-UxgNjc7QTt(m0f
z<hrY7%451u+){`tOrMt|SM(b#r+{r^<)O3i1C5dT%_5o6h%9{aGd4TrZz73^(nhYb
zQ#@ev3xiMh&4Eobh8vW7NYQ0aKEgRLLAsRRHOLOEa?vsAljBm#OVjH~o*!0GN	u
z<j$>Wf%q?q*3Z*k$+q#8+puU*i+wn8tEDz?-7`b0B(MEa>SJ-L1pq4#H|HOE1MSXU
z_WMouIUv^faq6Tmc=$Ca?%oPfZeW$uZ;29-*?bxxis(te$`Gq(Dwbm}Zv~7m#j~++
z0@!g1sPsdap2K|Skk(B*GlCcOG`HC@;@J^6F!dVzqNgL-Ma&rAek?i!J45;b4Gd8^
z9P$+g8`;<ASA~f9(BK}soF?Ek{CjvmCmiPVd}o2bF@Ctthfo{~9n%gjo|C=W%RVVI
zp6ril`%+-%dGRk^oNgyX_%v}&cCKB_SCDSEGxoyOOUWxs_+-x`vZHmfaHCP7W8ZeZ
z#_eXtHi@=hSfO^*92XDXTexX~Zc5-W?o7eE8(SW%tUmk%*PfN!AKs&dW*MNKG!Pd_
zg?^tKt&&90<jvnCNlM7bC7d@s(N9)+3SqJNE*+E+yEZWPr(F!ByAZW^Vd|#?(9~=*
z%rt_>hJwqlO1HO6+^c>keh`9m&wV1|e(j2*Ca5aHGd6T+0BE#ii41f=4R+AgUEr1p
z(v#=H_|x|*fxw3_^}|s`mkc#Q;e1hdo;H7l6!YD{&SPSM8!{3CHPd|1>>O-H2R&%)
zG@KZ-b(T^)-RK1gkMvHgO0fPdR%dJMt|p6E5L^0BK<WA>$b*2TgW9rOtsE^N;eFHG
z<OJR=QQltahu0JOGKz84`(e;fMecPZS(Tp+|781p1v~8RX*HS#8wzoGD5-qVtD|}X
zIHG>2Q4c5_+DiS<m=ZMfv)hVGeI%KGL$U>iIahhE^`P$BvSorr8CJX_Wqw`y-b&AA
zXY7@RwUT6MKyk~j!&u{(z-JAE6cG)gJCye@mvr><1;g{h*u8GIS_xcYyH7zc2P4pX
zWt$-tcNKId5(_kZSD7o5jvKsR`H&9ZKbobs6mqGm09#aS=87ptj3D$$W5jP^`V73<
zAtxJ^?88{lx|Qdb)rJC7Y?9z6mgeJvdDYA!)Gk0%5QujV@qO<x2z85vKdzkFW*B%^
z=+f7C)JZV7vrM&3l{Yeu&D&2?8q(=T-Zn!)_z*m{A<xexhDkVkV#J}Y4Y$(ccTR0{
z4)CV>A4Fu2VyTUXS1H{|J&=#q!z^4L*+w~EMTwq+JQ7D#t$39iyv7Q}9Fn>`JiM*w
zkM~bGA>;w?#oGgaio~I^SS5!|O`jj0z5?hvCwMmW8u+cwgCHTUEgB(bQm90mBmrRJ
zVFG#jPs!&keE9E=jdMTv9zL-|S9Io-1ILyPZidwPCQ9L5R4ChV$vsj)szgNDN0#VF
zKHu;&c4Ite5n(3QnbRLRAx$;E^28N4-*3sGVT$rTw2n$<2F=Lje~0(Ey+8Gs%~iEt
zC+5A7epuEZK(qWpaL0px@ulem#WE}P9>(0}*+N8Y$qaexXxyfKWE#eQ0RccYcCFV_
zXtL|dGknzZR3E<gpjKnitpYKons<5PwhNh2pvfwzNjm@E@3nEr1DK!$A^lnvwQ_J|
z*Ddr^sR6#k*7Ts*84SdXsh7YKquC!>jMwSE({mtIElI6e8-a)m*&y>;l?rc5RML91
zR!wmUVS&X(+r@@FPmlalJZICCj%rOTqej}se+Ny{=c{J#bSFL#AnB4#$T5Gl>6%e9
zPm-RO-en6=N8tv!W!Fwn#DssSeN%XfFdWE3s*S!D1JJAVNE5)J_xr9r!4kiY3Sbhb
zMc5@rQE~ySp;kfUFc(x9*=5?FN_JP1qTB`Twe>IFz)N<vd3hk9m><N$h5%KtKH^uv
z^{h4ojg4II-uV@z^a}4@A~H_xMkOE?Q~z}Z59PASDo^kCPG;S<q5$Su>aEf`Cm7gC
z*BC-4(j2X=2~0tC;Q*J6TQfoRX8_rYPceLEta~#%WT{bXPigdTXW(HuV<=`co=@Ru
zxnNR3mgM;`xv1d^d_uvkoGUld7lvPP!ZFy-V?th7QJHHvuk~;&o#vO+f1KYik`<hI
zM!=L$A+U#A9QG4roX<Wgm5tt;`WuBo4qbx?ItecLTSnpMkttL?fMmQj?8FIgf?8-n
zy>q`g6j}ODCL5mKWC8`rE@UsTC`~=$5odO^x=YtlITqAgQnKzch_T*gjy{%bF~+Bm
z9}o<IJ&*h15r{!YrOH5t2*QFwb6P%~AxPLZDvhsM(ONOX+`gHFO-{fZtJNKaA>hp-
zO^WwN4{y@aKHIKJ6+B`C6pA_!!zk<zo8I#6*e&p^i92yXQ4s|UmH0%KLJZzI^<dkA
zSt<bc`R=G_mq*^3i1vfA=3ZV<K9dbs%a)@V+RNs~(oV96QMtsGWo@q_43EEA(7bFn
zWZP&cS&DQE#NIA^pLHB2f)o2`F!J>F5_mqPR&VxHmT%`*<Q;_}I;k_;<Zsj=8VlUk
z0gGE>TAx%?PIc^HPFTvOEE$8t?SFV6VK5%g0J}Wm@;-8Nwgxzl=xg(a=IVintQ*_v
z$Bw{Y2P~L&g`9bPECDA|xE?12r_5sq5VxXnrKmHA9Y?+j`x>7pAanEpOpo`rjuW%I
zl;p+HiC$$j@RW}|NdLZf3+(@@|FzG~x8+mevbMqraCWf^k&t1wL02ny)?UUSGaU)J
zWukA-jwXU3-FmGLeiU=3zQ~*8XvB_s_O*5i4jrp>F0wulFd7mTt}Gn+&A36#%miwJ
z5}F0_Ybpmcb(*h1DaRhhxV^0ci)*Dyl&}FvD+QQ`#Q+fjm<=H6$Q&tz!nMjv00X9y
zLP^71)szCKXe%u~wvH@{`*?m;@o${~ngX0|=Wm}GL>&?gC8n!C8+J{&<8WiS1lL|@
zTQhXz*))+QOW19nbd!;yYU;EY6E}7K%rp=0@Za3ZlE^P|+DId(SxmgVlA#*ZmiOrp
z!zIpOM!5(}6dSTMG`9NrwlaqlB+uUQi`pImK_z$dr|{oXdqTW2n2sqrLH7iBCCNaM
zMr#o%7VzQtptZc;3;5?eL67ej_y$nb3ONs}xt^+1EWZNKw_O1et%)pr#!z)Kg2GSA
zO_I|$nSU{WR_DBzCTdjYTc$idaHfS*NjdiewQ7-1Qqqy>4U?dVPzsMRvo&50=#Wox
zeB#-54Q#5H-Sj;MBAf6_lk$Qdelyc-%6*pVUynp!FGr7Lkgr1BwAb|v@tjIT>Qd<E
zk(NBPWY2^1`B83<T&!&bAIhFqUC!Sw!X;Dz4?2{}_sv}4I<D=zBkH^?q;9%qz^61@
zWB@CJOpSM`x8vZnl>ZrG3rJ3s@JTl(_1HZp6cpV}(VWxXa0)$Tm~zJ~H#CXdYso%7
zp}!uM)WD$PoyAz3P!Hc(8kqZR7U0B+5s8M!ko{wiJ*BBQ#^bmd>5*8ld>*Flcz`OG
z@%NX*px|HJ8qg%o@qojamybf^R<Ve~#8(ZZ-L|xNn$ATmL*;E27o^|zi%5rQAchB%
zpaP%tKae5VlLF-Uh})cF1X-2Rd@e=r)g?+=v5257QhWW}GSDFFGV|BFy!MRdXLp=A
z1<P9Iy|(P^#z4d<N(0RFX6H+tb0n5F^(3E%usMCL&M;QwgJ9_6kmL2r`66Y?C25?0
zms<k|zog}{#ffr&j`-;+FKvZ4QDY9&*hg3gEzrY9Ct4ppaEB+A1daL+9l~6&@T}ZY
z9&n)co2GhZkQY><83&IE>lF*O{Ff0??t5?Yrc9C|(%pM42ih1qg<X~((@YHhth=Rl
zQ9qQDHP(xj!Ar)a(L8IXIB&%sBYHI}?-_jhs5MSzGvM|FWYnl{JS@R}Gi4;ycDt|%
z225s*ZS!+j&@eG@!c#Um-cQW#d;f3171(qzI0$w`jYsfyGMK`b1GP3+qbj*SDPK_H
znwN5#*UP5z+6lQ%Zc8X8d!iU90Ji`=iOJS=AjcJ^&4qiT3Rxeg=Kv#+N%`~OZUwoH
zHcP_LP>nZZCl#Xcn6sjzarV1;<u)^zBf;y#>_zS@Bdc#sW_GMStMbLR287%=%cl0*
z%fxvI<I@zGHN43&K}bQFs(iH3_rFpKKG%zvM0V|J$+imOcJ)66V*aXpj7YVZJVB#R
zE2`a@1$1<rZX*91fkCM)H5kuhbFggfUZ+E{^TaZ1dq4=Vgj3(&AsE_=iGtgRPx%OZ
zMoos_ehvFQ@F`UG)2HZpG(CM=aU3Fin32LP`=$$?kux3T3M_P}e|s$@E3W!f(Fw6A
znYLN*`tUaH18CR9qGD;U5WQA_oyXLta&&(w?%uq=O!Vgj5p1y2PVx!1gjJumqWMI|
zIdD3Obj6dBoi&pevspYEOu_u6@_U#F9=DkHwhZXd0~3<|ZB?$CfvWnU@l`C0|K9;}
z`7VPuYovMM1OfuKX`Kq@bCtw!_N{%TF>|75iY>UVsL_SyzL9ZETB~2tw$?^lg6jTk
z%yJ$jROtJTfQK#<zr7!Mr@W<ER<MKW;%toI1e)*p_{q328JmWe10kO|H!FbOR67*~
zZqJ=rZN$j>q`84Vzs9dqel*d0yE2H59e9hPQ_h_gGw7i>Fau9^MR;j5105HcfNzXh
zt55Q`=5Z8}UJmn#tPj8<WxW+tEwW<o#gzGxl9`l9H=T5M!~n98DjfjSE`n0?rLLu$
zkz!NBU#d^;>5@6Cl~v#hY&ZK#+>q$-^Ma%iHr!Ovg;<3G3Pz8=uJMj8L*qtvsdhE_
zZ^(3&$Ca4k#t#J<cCIfJw_HE7Z!IE7K}wvq&Ocq4&*Itfzh_lGhhTgt`^jyY7qnJw
z<XNU^Y(gw<#HZ<=xC8_!M~evDhIct%&C(EOx8!`2Bzv@^nR5_QP;l3|Js?jQf<+Nn
zZOGMr8iID?nZ);P?(?`&d9>Oyht#f`{5;ZCw4{-*N=m=ZsKy^6vrX{nYhd4*(VApU
z<A&)2X$Q9)8>Rxy3>}734FN3#A!GS>ILRHm<v71<`84_ZA$zWiCr3Z%(NgVNL%!iQ
zeA_SU`CL`+NKF-fR6p`B_`C9BiTAJe&Ksnuf}CpSK}WL&xU$oqr7fEugT3@#tSgp7
ztHawLr@{0X#l?mzfg!{0II{tK=m@#fa5i2=3B4<h{s@;o*EB0;WwmT_JDdZ4u}Jl}
ztU#}->nBgUt*GHG(E{xq6F?&ZSOy)Nf$^>{6h?6Ia&|M0-_RiG7l-2U&&;3Jd9W0=
z7y7n==~!vD@pH2&IdO5>UBHNk%Y2`>*jE}~PI32h&!V8&Y?zT8T5aC`2PcMcOCW<I
zMm}ql@j|6l8$a!>_S1$oIw2iyYz~j*0-=K+rCEJ~9y+=-RqlujV5|1HD#V3hryaiN
z`Er;z&|5&(07t5qQG<{TD-WgUcHqkSTj*XC$v;IYQ4Q2n;9dU(G*ga9p?e#=)8{@+
zn0UyXE2K+VT!}O2VlyCcgV@m5(OOPfk`Vf?1MhlM8^DlQ|HfTF=li3_C%GkTefg*V
zY$dVc0<bWtjeI8RsR0)YKIZ#mik?W-!f%f~bGen(X_T5Mxdf}yaYRTp1y+tA{!^@a
z^8<V2!tJxj3h#X&m7L#JpA0MIiP31yHZ*xYKBo*Bgp_pOJPfwk*3gp<l82fjaLZ_O
zE5~Jp_Ga&*#)eOv?C@UQs;&z<?#%t1uD?jvwJu~MF(EF?x5^wXGzjgw0&@6LGKO@l
z77+K;?(=1E*5SouQF*D#1xDZ8&#i@9ht!hz57@IkV;YOkoO(#DMP+L*E>0c%`;-*;
zs1x2~a#0&6TnO0Mi)ZIimONZW=F+fRfC`-jw)wA_Ndk%+{G!=)?r;8yRbOY_9sx%O
z13`no+FWiNaHpV}rlP)JgREc1C-w+onkThjzQvdeEe_p9Eg;&s1XKW`Y3clTaRi8u
zY*2}tDEGZ;fs+;TGSVcD?xl8)!*To-D^y9&f3kNGNVJJNRbQh=qI?+h_`~&MyRTTJ
zvG~PvNbla)j*Y9Rpx~f20Y?khv|nObXy*2;fU!3)j|gP{VyoQH52uzVRCwk-Z-pc_
z{uYP%2JYMUX8`k{wcdSZvCebp_hoIFz>ip+<V|Jopf3NbOPw!jXD^aj&_lf!cT#A(
zW%h~gb$31`^I{X{W>;}?kCRz{CUNtEVEnVuIwlgtJHNK8VY8J`QYY^{Y@h}{c)4pL
z5H~OFWg?<7`2>D678^Ooa58{c;}x{pu*Kl$Buj#LQral&9mBb}vCJ{MHcl_u?Y!th
zPFNa0uWBYCV~{!VDzbd;Q1%0=pmev^gp#YmGOOLYr;}*k*bKY_|DxIW1a&Pm$Jxe4
zMtpz!IW40tJKE)MG3CA3ChIk@UylZw*9#sfZ77af6%l@HAnQQFf@LthgI4XP1jWoK
zW)q*8yXbVjkJM9V=y?8@dYI_m>O7R=`PW2dCW$M{A(DkY&tQgY*HW!xPkUF`wVz9I
zD5_jh%sK-(%j{18l0L!;@b#PLwHi4gnbXjKaZSB)pSu;_H9<Q9Mj&&($Hj%YDcSQ{
z;@*Ns9%d?&yJd3L{&YHiiI|kUPLpq<UFIgS(*6c40f;`|1WkQ}@Y?HfEWyo(Nb}&L
z)k*jOoyi%HE^KRNxmnIlWW~93%2MsMmzIz0rkf_ZUpd6`Qj&vZeXmgJE)kueesv6w
zT#LIY5E=OsUkoGXS3a&Ms}vxx@ti1swHhF~izha$=*$b@ss^<Y7|Je7C#1!y{eW5r
z^Iw~{?BY=+bC1k_36U4F%KqeoCuspB91M7TzN5qtV1NUE|K6KQ|JV>fO`F_JxAZtm
z;Dmg?u}1T8&0(FuXn>L^fd9rl6o@!LMzRzq-m`aXs8`^~<>QY717x^;f&)pH56_;J
zdZ7r;Bgq{6U4;j_{58g1vB^42tCKOnrRuT{uR2)0Vc#`yb8UfJrN{zuHkHXO#8umZ
z1=$xA0f5KC2Wn7fX)?FZcLO$J(%oE@?QqRcH};#GQg?u^PRgl&R_{BVtQwa5`DbaE
z!j9C?z<hbwgc~iZ>ThJPtlYEdo@^_SpI?;Dm-bu$U4yp75uu`^GU}Y?{%*>TIdZ6M
zkA8%`FQheb1@n0sb=7v&Pzf+|Iq~A~hI!Z<??m<U2>3-+9!7J%VT8Pckj-w6R|0~`
z`&V$Yydd?~OVi)D+qU5q-u+vgwEquT19S1_Yi{NiryK@xmE4p;GpRwbNz{+`lm9Zs
z6}`G+p1e?|aD(&T9Y9^nMfzuvgF0N~D6f}c+FSY?>^_`Izwh@XHL0yp46u@<Rqze^
z0t~n`&~-@D1<MMie;=Y|Jl{(^6eVJ{=@&_&uVU$zrN<#+s}&&wLbLl=0eGd`dwx<d
zYOr8GzE*5F463Lk3H)2R_Y%<~xoJ&csY)HvcJ7IM6{IhylDq!^z%57to4sa%atY>`
zr8?+h0|)jh34mDz=F>Nzr6Bl@=71tc0KJLl9-082*cD{q+^0(~Cl4WIx#CIXa>kUA
zPi{j+JGoQL2S?uzWhs@IQ(bU4b3Ud2jrIyjZW0x6WBD5(hko=0#i-IOC1PGXhRL+_
z6H-yGmFautch%3FkYpn@&duC8W?e*H_;f%gNaeEyAgTu3FLp~YKfk7q*dR)}RWe{I
z`eb(ed@?;P<SitVFw#in0sep&xZlizE=F`nm!!TKRd+L){wD8IQSL5H*tvExGCHgQ
zEAE5A&KAIf4UAO9iaVmAP38A}sd4|7O=kMBF^D_Weyx{Y$a2pvb2Plu3t)H00mM}$
z6;r0;B7t^_W?@g+=gjm)ng{LoyXuEzig5~nWOF8W+o27Xp(NmNEiF!Dk9Z-a$?_KY
zs!XGD!3{zKs_O)%u56Ii$3o$5Nmnbq$)uo15;4-kkTVDBdEGRQ$ykx(^e6s-c09sk
zvUAi`l3OqFEUE?IAN!@>$qCf$UE0)CcSqHP=>y4RU`Q5+qD*9L1VuZM8~w>8(&f1;
zaIjqlOojU13Znb+&#bv+1STze!9_KP<tPUM-zGG4WkC}46)0-$d`s?xOm@^M2LP{?
z_|X2G$CIAMW#)9F|NPcec3D%qkS?jxgQ;VyEQbnoUc@$|OrI35fr$q`GYxRY2c(U4
zq*!fY)zul#1gl^HUdF5UBT@ia4L0tGpt%CQSZw^hd$_`)Mh*9ols19+m+xRiwr9<r
z35vE8js#QLdFgPBRTJ}+OV7Ic`bEB+ebxLP7cJfO1<5Ca6jWj=FfagZ%OU)ID#<@0
zQKb=Xow$9Mj~mO?S{KW*>sd?@r|9;Cr0QsYi(S_S{uQhE9Oy`yaBLm&hw!CdJBN2t
zP~Dzn^6&Y#i&-rtbjNA?CIuGuywFh<HyUf5i}Q|=(3~E~G!JAT(@tH~bsB<ohyaD3
zKvaPH7ig{~UbP+_qG5%8g=XAqxbr_BPPyC>6oM=d%i8=j*Q?gTy>+1LKDj2nM~Z1+
zvCl);v2DLb?>XdY`J~JNWP>&5bukUc-EzSDa>GuebOiiKZRUn=a9ft(o=ds}K(%Bg
zI!iT2xfd<LTW-|Y;nq<C&F5Lg!b9jX1wm$HbyAIME)HT6g=3^UJL3O(*)T)o)toSK
z*Wa5lw=upVCb*?2IU2n!r<we!@=m;cVlG>$K}XO_<D~--di&N(2Td*V*RQFWJGb(N
z^^dkDqb76s1FcFRQ&Z_Ti13kw&}m$9(o$Lg8~gR;c^*Me30D0!mP<$e8+KbwJssiR
zN+3G3^1sX^y*=K@)uc1_J#@l+cLDJGL=KQ(`neR!HX2bWwK`;PU6<DvV))|fm+^q<
zeefwo<N3>A`9>B@5qneMiEbER)pUGSBvvMj9~odQ?957k$Z=b=O$%R~CMuyOc*-U?
z&Hs7dY<P7QBND{&c=O|0S#|L6yH9z3_cy0c?3(nudpR{BRj?dUAqa61132J)obK&V
zV!-CeM}Pu$dD>g{P>d?WQs*X^_)aeN7gl7$1#k+zyzOQCpd*)#X`I!v7OA5*wwk7z
z8yEKoK!xkr_nUdr&SIH|*y+=S6iDBxiUCKfhX@^MX#;L73NQwZKtoM(HQ%?KMXX3s
znxD_ks2w(=g4&<mIF@G5cay!-M2K9_ot1AXrvV0^UuF3mSYBe|*gVMXjugZkHRf^y
zNvg+oQwR2lo=CyGW|~zPyjU_8bqhQ#)Z>tsyNP9)^YIk6t!Q?bO-Co^krxg4Cc|Z<
zm0rny6Z~$m-kgh_gmt8Hn8Kh5q)F)@fq5>0of4MCu;-hYj@NTfcV$z!KIaRpE2WWv
z(6A#_58oxFYN}ZSCZFBwazaHww0AQK#_4y==V4C20+GH5#XmHFxaB<y*cmnL9;c<F
z{g>qUQB+6FWSIYxk)L&^lxMoR3}9j^0!lNYj^mD>W)I#8XpX;S(xaN$aFe`alQX4A
zbBxaQe|Vj21WwzKb4LIM(A<!(lvdX#TR}r<J*_iM%<KV(4+MhJcYC5Pf5U>S*XG{p
zBQtv?f9Zyq?9n~Z7!R=H8dGm6ZfLBK-)hN)E|ZyH-cse=ENEe2i%k-WOLI1e*{vb3
zZn;Xsl0}_ki3IVv7%Z-{5ZwXNmaEe!qXSDnAI|HIxSh@4B#ocgV+SQy77wcp?=;S*
zHdiH`4BU5gJni7jj*xMJV1qqIi(C~6@+XoG{-G|WHlJW+B;;ZT$v#}qFRwdCXl4-d
zk%EFuQbh*pq0m2!vW()b_{7b29ZJ%9=H65$9F=(@4I87N3(?xU&a!B6h-3inkEQDX
zzp)e3ZG&B=8rh^W;Sy(A<f(8cZI`w-c_s<fr@B)pzctGTAD~Js#?~8f`3SOm?w0ya
zga3yepgqt>2RQZub71scQNYF2Ks~9m8@<+4$xHQgbgKc$TaJF1GL*~jnePwVOi!+j
zZoE#Hfc$vC3_x8qVEc&Sqaa^d?LsX%KWm*>vy3!Xcnavcia5(WgJtHy@c-c~U#tI%
z4(eI``0KB>s}2&^8P&Y_Za5^cpTS9C2=lq(#t{&ep?m5?_ZB^^b8lJ|MAQZ>J)U8J
z>v4!@?r;tKG-r}%E5@9O?|;kHPPyGFb3x(_2{A08Tj0@fZb~|#DByJ~UIGl+ygwv|
z+slC23~$5<+&bBsp&_u=2Oy^WmbU)I`!|fdPQup12@jvxS!M;8Jo#5F);tq#<w(&)
z)jRy=*5)_?cA)*>gx)AIAGh1}Wzp+>CQCug=fnTC1IX=G;)|gH@=uIv>*QnTKq9>3
z0f-y>S+aL&bqBPQN7c+kZU+8^rab=A@L>8r-H><VW&xA|)YQ59Ia#>OA0!eU?|ve7
zm|jMw!79e9OmCW5yAzPEL@deJ1u99&5>nZq-ro1|6RY_iD-OXW68!Fz9VhTH7<y;u
zSBWfUj3lqke%b@L+;H=U<iPEBo-P(38wW#fp&zgc5r8zu!@l}g+a6K+2XM5rW?)y#
zT4--cEKYP;)?@-YaEODdDLkxw#2`J)6$#sL(UwqJn8M=_oQCyAg=gvlVy?JFnHXLE
z|1$YgMw*vKC0X0QQYtmM6raB4b+5hregxghi&p7eal#dheb(*jS8Pg+FAv|#-#aRz
zP9_)vMi`Wx*W@k@57hJ2^pkfDl6mI6-8=HAmn~zbgvSL{^s>MIbjF~KKODZfbYvBX
zL959*RA|BE?=b#myFCCAuG6yOH0Qk7lK)bZzPTX-Q*|VZof^niZ+W!obM!rt*urK;
zy0DOzRLH}t&RJ!ho2dZp968l@FM~c3Smjghbn&?TiN8gkc$~Zk)Y>Cdi9x@64Tnvp
z@cftXeH>u9r@r?6u0_j@?jAj?;j3nA3cKa2O^>#PxZLAwKt<BpPS3S=>3q2nNcP@A
zbJ1c}RP2866@}nAa?tcS{1!PAkaGO>YB4DfO95NS53*pk?y95sIWm~Vreriz<pZH$
zEq9#5*h^*RCdSMKqIXHsj=!WuGFau36fp41ENB}>gbpP0MJL+poPk3dvm{oAyBC~|
z%dNT3xm<_ZWah)2*}wTp;#}JZtspDAnEC9X)Tp$LXC7-p_&8{z2+ho9v2t%#8wV<p
zVS9H-#t}b@RTdg;q>B&I_Kamsof?q%cuuj{!O0l<?rd_~`B&_Ka**z(>O?9EOVv1D
zc>&AmIJ}=cs_i6O*tve#i`B+#_$TaduV}D0HRN6d+Taq)-v$f;6xt`w(vfV*K|Ske
zv1(Q#Qy@kUiFCJ^h1X}d&<)@eUz*KGP=bw39J!@26ST|KO7mYc8K@~fI`-Zg$y1^K
zE}Ei#+zogFzMdmUOPL54*GB`J;B|@Z8ZX1=ZWn=F066u_NaIU;h$lckImFS8#A|jv
zc<ic0Al2XI)u@iX)3=U3Il#sF0hBQ%@5-Gh`Ue#1m<-E~o&;Ikgyny9P+UMvn@EAq
z5okc3xl^Cb3XlKmoBmfXnqsESe(db)MFv;@z5%uU(c>6S^@k=cW0{=s_(*-+5?c+B
z;jnQB*fe>i1L+p5S#G2q^vUZwLjk01`#Eu~vicI(FS_Cm_upU*Vel4We2_VS0#|3}
zWz}y<flC(%2KLh}Je4l$Lts~aGmTK6c(V<L&&yJ%ri3ajs!=9vNVghZ*Wfwa2a&hA
zR0ddg?IIqmQ#k>oRv9{EcP0E*(E3%_+dhGkGeNxejPc@gSVbS**^x*Iw?|NcLwq0$
zZrRp*in7ozM_<v0n^&`1=bzqsA6Y(sIanY#(2CnRvNR6>d74ItXnmt>-<O+<+NHkc
zvD4}jI{=K<?U}x+RpLhJk&GW}rA9Ro3i<uZH`iWwkN(0|2%~qZx}W9Sth}ox9D~X6
zlbyT7*&a}dE9K?*wQGoW#hO_x2j5@D#kqFbS_VOHcaRF_GJAmbq)0YZCs{=_$h|7Q
zr{#}3%S(e42hkT65#c$Uj{K;KoDGf+zt^XYzC~3;`~-+F^ugcD3e7?t&vr{m(Q`4E
zfTIKuC<NkX^eWhXB3hn&RX&<*=QKq{%yA)3gbC_v5m+Wy6XJV<Z=A6@<j@ZsxXOTO
z^dhYiewkS5S8XZWwg_d)h|$u)_uW~l1~8j3eH$qgGc{Q1fU@tCCyH56>y5U7PZVUG
zrIg-q-g=m;S+>GAeBu&-4&7xufx?w9FP7#swMmTj1Ll+|K=jxH1bBZj8c5$VqKn%U
zaw7Ff4A<5F!0bHXk@gnO%~pD5an5TP-OE2;mH+fh&Xmp(GOb=<?pVz*8rr_bh7O_V
zYf!U_GaW0UM)1@b2?J2kSD`jsVrJtDyIJqw9n+}5-&Xl~WJ>INdk=yJSaf)vrEY~0
zT>VR8G5gt6jU2`OSY~hw%qr9TSk%;(^0UB2*grEkC0SI<lw0u*kW)h=;pg!Uih8yh
zz&oAWt`&qgyb9RAXXWK~bY^yC+PMuN1vFq3uL<Wcw!mAO<5=bVuYG>1LL3C>;~M}k
zK?`R91^$tpv*es{A+R+8kBHW4Q^KI-Ns?UCjl{E@k&qIBK)5fu@?*PgNzA^`A`*n~
zAr7Ei#!K+{k;rJNnkjBokQAb>MD+F0=|p-x`tUjRBhvAu;ij%-*n#}#GC`<f$;K79
zHXpb8XG!HXbsRvZ`Ng1|&Tq}s7l0i9V4wJKJP<xj*lwJQNixE-J(suGt9`ei{<om_
zNnO_lKs#Xe>X3e3F0RokWt)Zn`?@jxiKxuaUqIZye{m~mlN7GX&6OQ9qfr(9YiXox
zd&N5Vuj0gE>D3Oh&<KC_eDS7IFF<wl%enMWvLSGmBT?><q3t@LDo?8+PcR|0j7nvg
z8+k*$>->@Qu}4M_6kxyZmKHcw3ZtlZ8TfMPFp>MDGS=sh9OiDI`RU%qVbO#zj%p}&
zkbeU5FhHj=pLkb2-sgj)^vrwqMQBInPdOpEno9m{xul@WHum(r;a8aX#Y=XEf3>$q
zO)&rt*T4I*PImpCuN8@Cj^s#?A{9|b^jCcG-m(QEA<W^mxb-S9VS@sqB^rD3!;jOT
z8x?IMNn+p`>G#rO#%nlO;sI&J^dpOS_Z;uvTEk5r;jY$-#LLVAeAT-zsWus{Uvkt9
zFW&-1h}&)Kwj787B0=}oJvFWg!Bj(li*gJg6MD=?iuss4yIDdK8kN+nu<zL+0auq7
z9#FHEio_-;lMOomgTF0(Ex81!E#YG6b0NF_+UUuF(H`q)@MU2vU+ny5S|mrpg2@$!
z;_Es<>W#x6wcIioyK#fyu>5;vHRJQ}>8lwj>CV#Y-3v>>=i*<b(9x1jo2?`OhuAN6
zbDrRoRG^2z?VWhln9G}2Y#Z+zwjH!6He`W=j&ik@9Ahb|fUFEh%s<jSXVQ_MZkFsT
z)yXC>pYvPX25e3=>AmkW(!%1w+2x~I=mn@-WGR68opiwWH(9c;n(FBq7pW84Qg>PW
z!6{>v#|$`x4NxO=y|b_xlp!>i4^EsuViE|j+T&z`Cs9+5jm$3NVl>UYx|@F5*9B9B
zKds|T^7RR!jXaSu^dOCq(h`hxAPK24CUpLxVLnCC1eVoWJqhx{GoTq79+-M>g-HLa
z@#3BjDJTY{@Z2=x)FEDjvX=am^%bw^cQ@5JAyGOzls-Y4N}l(A+UO>*AU|OqLWFs+
zs=$r=|MGaUuOa+@4KpogM49y`k>)(D7_EF-nFzdL(NSR4C$rw=HuCQr-@WgEzUWP^
zHJgRG0QtNO&x_??&71RaG7{^vx6YF<WBYBr^7FdSZvmz>k~j-1X4)R%`kryDMGbtg
ze)PQkq5Um|^^I3BgXY<9<rU|DMC4~Djr=kbNijO{s&bf7SRz0f5RfskN9f$iug1?=
z(PL(8H<jltHy{r`ibD?XDN-Vwb;Z9+EjG-4qxKy+Ums<`l%UF|CFZEC==KjBJC02P
zAt+aP2_s!ajghVsNjegQROim^pwZjE_bf#P0onvZCTcJ4j-sbuVdB2l@r2*9%HFLc
z3@XZ{Fc8bs76De>*IKXxYP^7~f2yp{rK@K=nZUH3%0YSF;DEmI8$Bxvbcc%kdKx_m
z=rHlc@N{hKtAzKSOwSCgx~@^hc{1STt9{JXCqhV4jjEZ3keS%nUI$hq8Z1;A_7NGD
z3&$MoZHE}wuE}j74c1G%VP})6m4uh2>iNf_A4Vw9h)ZJUBy5?Qd*Ra3o&H{~kDH<E
z=F4t&Q)8xYN4ApJ(!R3aoW+;mzKH8f%d5h_cXa>w<U*T?K<t<0e>ebZFjPb1;(mt=
z)}8yglL5cGI>3e5hNlJ}rP{Qie}-UoXyjCRs(cfuVe5MAIcVD1TX8Fnp4h=mgVg#9
z9|9nC>z(#bWFe7&)w<hnG{FnRxhpu^=fPD$KkxF=Q)W0=DXHM~zv%F6v{{vy@ezFI
zjAr6yz}>4h-0><(o_khM)4X_BrgCWN<2RQK%mUQcW`_A9%C{KA#?OK8h9=tshBc|w
za*bgMDy&($1gKVTSII-d*rV#&_a=QM`bO|9jTvQf_X(gtz8{6eYd{XCz*R?A<JrpT
zuFuc&qaPHH9mZwQ=Nv4-i))GuQ(6T~0<Q@Gh-sJz+J2HxW@He;L&NeMMLEr^5oy8F
zfs;%R_>^l-7{A}@rm4)N$!`&ykQdn(a;YY!M+dS2MTd5@?=-t%i7ugm9?rp2i0RkU
zf&4{_L{PNQLe;>2bt=IdQ-2dg$i<K00WbyhF8X%--`(dR{-ol6?-gpJG`q!}&?Mwj
zrL0&Up7zrjsvHUIW6V}ov#g*P1X;f=YFbVVI&8h504bFJ7T8C@YnYs%v_|*@lbe?6
zIDP^6Zeg$$>lrKqCb>K^LF(l)5w%XR(QGc>aD4e)bgL{M`CC(p3BWAxP<KkdFo#*|
zF=Sl1Dm^$^5MVdh`4e+hJm}?EJZ}sXYg@yBEF=+3oYPexgoH}W`p05AdfzXg!?H!s
zT0VpadyErRyyNRbh1w;9X}+w0o{xdVXFcnnys)siP9{6|`OUyGA^W+{TJ}4q`|9L2
zp){uNqKLkX*}fdiiTJYA0Dv%b*%9d2#V?pV-W1Gg1*G4n!)`Dd<9*y%=8y`1Iu2fI
z<)M@R6jjLY{k6Qc0%QoQ$3i+lppPk<%$#q%v3UsT-OmzEc_QgA_JPk5aVrM^wEUxa
zO|%|mPGjPB?UwiTv|XHtqv&{2A&;kUlgwA2V=F3h{mE?QI8c6fKt%MQTv?q*7ISs6
zATveV_-{jWr(KkKuVp&@t1J=P#NdH_X}+L2o$E353OI_00*W)NrMRx9VZcMk&10yf
zW(^ie=8*CPnr*t5t&~*dMSIKn6^Xk{nic@68(<yiG?ChL5(=rWz)a%oMpoznbT(we
z>RwAADQ<n9k1;R2tN(j387@ZHR4ufB?|n%AKiGsF;g&a5z_ab=3dK#)k!6_%XYK3j
zaW|K~??dRHw{DuO+Z&hqy<Q1_AbVXQ3}|o0#qzp+ag#N~w=3uOQc7SYi6UvsFkxE_
z&;mL>TB*~nb@HUyJxdonxuLJ@xx(05`m;a~hCc!0>s1&-8w~Pw%B2F^4j_?7p74--
z)Q0+QJi|^KO%%B~*&4Ar2}t{cF*QJlnPQa)T!u2--3dE53MBdntv<5ygF};PC)i_j
ziw19XwNo2y!3SCaA(*p9<uW=aX60A!jDwchcGVA*x?Vl$x)vHK=!R!pTC?ZmxfKva
z{?on9On*|EUG7Tk4`g5e<9_WWKD8sFv@wmP=cYJ%y*pMitU@skyEg_hN~H^-bG{{~
zThWv`PZj_w+`uDmw3`HrdjDJaU=2a>H!`99lk4#56ZJl#2F&b;GIC^f!K&U{mr&Ej
z*n2RLuzlovqMp@Z%oD0AY73tnxk`hNfWjRBR?|6Yg4!fE<=tq8zBPTTzA&O|tqRa8
zH3u>;5_n&6Jv-In8!6KmM2yBX4Ok;`E$QImzrIvwPLh#_*NBFN+NH54krUZF$y+_%
zSLVe6n6GR8{c!?oC77$2&6?8!pgni$)5$Hwj8r-?$Hk{#;AsvIV%a^yy8Vaj)a@Wc
zb1t`}DMaz%myfqVCBodXl|R~+o2)|}qSd^p%(>CED<`k(DRBA9sSfTl_X)`Q_aqgP
zGGc>_Db`15H%#Q9p6qph&RZ?=o`{8+^a^C5*F;fXTx%L<s0SxO1oi-hOHF)TmYpWe
zP#Hh;dm*<Hq??8ZD}_EDj8RnsKjyD!%F1GA6q4LGYnqa?lw+EyaSbhwR^3}XZhU-C
z-T8v%wB=-ayx#C>#rBM51WcCmFa!S`JYb1HsGdD8ObR20_&U>Nle^+eaW97^Fv8dG
z5Gp3`U=i=Ap4|!Ft6La91wd<MqY-0RNS)Z}DX#fcpE$Rg*&i>zep|m8pju&GMJGQp
zP(KkuVg9~Pz~~Cd<n#UVE0eb(tK?>IC=}@Zn5rfkN|LfITCtVG^V+=i21-S&9T!Dc
zUN)HJz8(2iP%=RL8Y;A%2{>>b8>Y%PQ7b7hFV0!F%>eJ0ZSrF?r-xi!(mytf3<QQT
z$f{=xz?*BA{n$`LI~|q47ef_%{e$o@1J0e?n>}N;4WQVSM-g&imd-I+3f@@CeYIfu
z>P}G(u=5ZN6&V;OYlzq`LI0kG7t22>xK)mjavj14P@22Z&kQyt%xd}QVus420cwE6
zMdF`;X_IGv;b#a31R{7P{}73RwUXu?eV&p#roI?xcU<y5$pB|4=zUQF1|3!n^xZ23
zYily-&CA9)VrOVYV8JjmP4r~Yz)m0;qjCn!_C0V=)@fC(1Z-`|x#E>TZZA|Il;QVR
zX9OWYf?-sotdTPti<h9(Bv?Je9GA~rURaZ*6V>vVwMDh^KqSUuxZl6r?=r5I=1q#P
zzqE9aOiJdAUET{nf;aITjY`wn^H%Ay9j8EwEa>0a(%T~4AYt(dFq?0l80lcgKuz-E
zb4a`a$A5ulhSzb~y-}EengcH4{{#mE`21!fz>~u0R{9H|4-2W#g&Aat5@Ak}Y{&}U
zhNjXybSzv>f%=*r7LtM1j+!(~Zo8G?Q1c6LXNb_0l~bU;=7)tu&<ZWVlC_pl8X1S2
zlo^A*=Bm*xr$GHAW?jjItrUiC1=~|8omU)aAr88Q&-qaY$~esr3&}te-jLAof}@~d
z`Yy9{6#;fDMV#h`g=CMPS?6GyN>LSTh;eF;0kj^Vh|~PAkjm<u;ftzxeA2@+MAioC
zQ!%Inq?`ivH9ssQTPYMVq_B!?_OALr6+`ayi%ut~?x(rl#jau=+!)-?5LoIQvk{1`
z3=|WhidE0vvoChl-0or*K?`@Ou4i)<+GN+`Scy;+UZ57I{VsOdN|B)y0lm*AxRG1L
zz<pJ1-5n@bI__eZfg*b<6~-6M7~N1C;c<d;@&;v`O1O(%1}aR@VC-#zN))l^G@%Zv
zfw)(SIF-jqpm2hF(1@>cPKd=V>{is3j8(-eKEIH65~%Vx2@v$NbLhEGawjcw1Iiwe
zQadSNL#c<8K$XWyfS?tG_D;X(Msi@y;G#v1(=_L*Jt$ZDI0+E6p};Y^{?o@8&f?J?
zKNVzs^>7lX@;C|D<C7kbDbBJ){_$HjNI=J#75J6%MV&em|Ni;+2al7W95hgTGE5mi
zhp4`Fl?VbM<Fi{=dUE|^y{J=X!hvRGwUjA~67lv`Bt>`pY-Kr>h25a`qE4L&2RiS@
z6SPepO2I%^9JoLz4F%kZ&&TgTxzbZ-VuQA*%&syEcX4J`AYoycMfreWczv$Z8<a2V
z(wT58otbomtM7b#C?ieMoY`PurJrQXtrRcn(wXp}N|Y)Aq&YO^Q-sZnDinZ-@!1+2
zD0co!XX1EKMc;m!L}5X=rpT4*(X7-a@xLh;-SyI$aG=u@ajrDakP^`kD@7E!@}%=&
zrP+rRcm7Lf!hs5?qH~g2Ln^`r1fZFP?li|z94K=BOJ~A?Hsy&)S1uN9PE$fZN?$NQ
YKcB68{F(Fr>yLl=U#+-=oFyj=0DEJl&Hw-a
literal 0
HcmV?d00001
--
GitLab