data_1NCU # _entry.id 1NCU # _audit_conform.dict_name mmcif_pdbx.dic _audit_conform.dict_version 5.391 _audit_conform.dict_location http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic # loop_ _database_2.database_id _database_2.database_code _database_2.pdbx_database_accession _database_2.pdbx_DOI PDB 1NCU pdb_00001ncu 10.2210/pdb1ncu/pdb WWPDB D_1000175238 ? ? # loop_ _pdbx_audit_revision_history.ordinal _pdbx_audit_revision_history.data_content_type _pdbx_audit_revision_history.major_revision _pdbx_audit_revision_history.minor_revision _pdbx_audit_revision_history.revision_date 1 'Structure model' 1 0 1996-11-08 2 'Structure model' 1 1 2008-03-24 3 'Structure model' 1 2 2011-07-13 4 'Structure model' 1 3 2017-11-29 5 'Structure model' 1 4 2024-05-01 # _pdbx_audit_revision_details.ordinal 1 _pdbx_audit_revision_details.revision_ordinal 1 _pdbx_audit_revision_details.data_content_type 'Structure model' _pdbx_audit_revision_details.provider repository _pdbx_audit_revision_details.type 'Initial release' _pdbx_audit_revision_details.description ? _pdbx_audit_revision_details.details ? # loop_ _pdbx_audit_revision_group.ordinal _pdbx_audit_revision_group.revision_ordinal _pdbx_audit_revision_group.data_content_type _pdbx_audit_revision_group.group 1 2 'Structure model' 'Version format compliance' 2 3 'Structure model' 'Version format compliance' 3 4 'Structure model' 'Derived calculations' 4 4 'Structure model' Other 5 5 'Structure model' 'Data collection' 6 5 'Structure model' 'Database references' # loop_ _pdbx_audit_revision_category.ordinal _pdbx_audit_revision_category.revision_ordinal _pdbx_audit_revision_category.data_content_type _pdbx_audit_revision_category.category 1 4 'Structure model' pdbx_database_status 2 4 'Structure model' pdbx_struct_assembly 3 4 'Structure model' pdbx_struct_oper_list 4 4 'Structure model' struct_conf 5 5 'Structure model' chem_comp_atom 6 5 'Structure model' chem_comp_bond 7 5 'Structure model' database_2 # loop_ _pdbx_audit_revision_item.ordinal _pdbx_audit_revision_item.revision_ordinal _pdbx_audit_revision_item.data_content_type _pdbx_audit_revision_item.item 1 4 'Structure model' '_pdbx_database_status.process_site' 2 5 'Structure model' '_database_2.pdbx_DOI' 3 5 'Structure model' '_database_2.pdbx_database_accession' # _pdbx_database_status.status_code REL _pdbx_database_status.entry_id 1NCU _pdbx_database_status.recvd_initial_deposition_date 1996-08-13 _pdbx_database_status.deposit_site ? _pdbx_database_status.process_site BNL _pdbx_database_status.SG_entry . _pdbx_database_status.status_code_sf ? _pdbx_database_status.status_code_mr ? _pdbx_database_status.pdb_format_compatible Y _pdbx_database_status.status_code_cs ? _pdbx_database_status.methods_development_category ? _pdbx_database_status.status_code_nmr_data ? # _pdbx_database_related.db_name PDB _pdbx_database_related.db_id 1NCT _pdbx_database_related.details . _pdbx_database_related.content_type 'representative structure' # loop_ _audit_author.name _audit_author.pdbx_ordinal 'Pfuhl, M.' 1 'Pastore, A.' 2 # loop_ _citation.id _citation.title _citation.journal_abbrev _citation.journal_volume _citation.page_first _citation.page_last _citation.year _citation.journal_id_ASTM _citation.country _citation.journal_id_ISSN _citation.journal_id_CSD _citation.book_publisher _citation.pdbx_database_id_PubMed _citation.pdbx_database_id_DOI primary 'When a module is also a domain: the role of the N terminus in the stability and the dynamics of immunoglobulin domains from titin.' J.Mol.Biol. 265 242 256 1997 JMOBAK UK 0022-2836 0070 ? 9020985 10.1006/jmbi.1996.0725 1 'Immunoglobulin-Like Modules from Titin I-Band Extensible Components of Muscle Elasticity' Structure 4 323 ? 1996 STRUE6 UK 0969-2126 2005 ? ? ? 2 'Tertiary Structure of an Immunoglobulin-Like Domain from the Giant Muscle Protein Titin: A New Member of the I Set' Structure 3 391 ? 1995 STRUE6 UK 0969-2126 2005 ? ? ? 3 'Secondary Structure Determination by NMR Spectroscopy of an Immunoglobulin-Like Domain from the Giant Muscle Protein Titin' J.Biomol.NMR 6 48 ? 1995 JBNME9 NE 0925-2738 0800 ? ? ? 4 'Immunoglobulin-Type Domains of Titin are Stabilized by Amino-Terminal Extension' 'FEBS Lett.' 352 27 ? 1994 FEBLAL NE 0014-5793 0165 ? ? ? # loop_ _citation_author.citation_id _citation_author.name _citation_author.ordinal _citation_author.identifier_ORCID primary 'Pfuhl, M.' 1 ? primary 'Improta, S.' 2 ? primary 'Politous, A.S.' 3 ? primary 'Pastore, A.' 4 ? 1 'Improta, S.' 5 ? 1 'Politou, A.S.' 6 ? 1 'Pastore, A.' 7 ? 2 'Pfuhl, M.' 8 ? 2 'Pastore, A.' 9 ? 3 'Pfuhl, M.' 10 ? 3 'Gautel, M.' 11 ? 3 'Politou, A.S.' 12 ? 3 'Joseph, C.' 13 ? 3 'Pastore, A.' 14 ? 4 'Politou, A.S.' 15 ? 4 'Gautel, M.' 16 ? 4 'Joseph, C.' 17 ? 4 'Pastore, A.' 18 ? # _entity.id 1 _entity.type polymer _entity.src_method man _entity.pdbx_description TITIN _entity.formula_weight 11882.170 _entity.pdbx_number_of_molecules 1 _entity.pdbx_ec ? _entity.pdbx_mutation ? _entity.pdbx_fragment 'N-TERMINALLY EXTENDED MODULE M5' _entity.details ? # _entity_name_com.entity_id 1 _entity_name_com.name 'CONNECTIN, NEXTM5' # _entity_poly.entity_id 1 _entity_poly.type 'polypeptide(L)' _entity_poly.nstd_linkage no _entity_poly.nstd_monomer no _entity_poly.pdbx_seq_one_letter_code ;MHHHHHHSSKTTLAARILTKPRSMTVYEGESARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQAS DEGNYSVVVENSEGKQEAEFTLTIQK ; _entity_poly.pdbx_seq_one_letter_code_can ;MHHHHHHSSKTTLAARILTKPRSMTVYEGESARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQAS DEGNYSVVVENSEGKQEAEFTLTIQK ; _entity_poly.pdbx_strand_id A _entity_poly.pdbx_target_identifier ? # loop_ _entity_poly_seq.entity_id _entity_poly_seq.num _entity_poly_seq.mon_id _entity_poly_seq.hetero 1 1 MET n 1 2 HIS n 1 3 HIS n 1 4 HIS n 1 5 HIS n 1 6 HIS n 1 7 HIS n 1 8 SER n 1 9 SER n 1 10 LYS n 1 11 THR n 1 12 THR n 1 13 LEU n 1 14 ALA n 1 15 ALA n 1 16 ARG n 1 17 ILE n 1 18 LEU n 1 19 THR n 1 20 LYS n 1 21 PRO n 1 22 ARG n 1 23 SER n 1 24 MET n 1 25 THR n 1 26 VAL n 1 27 TYR n 1 28 GLU n 1 29 GLY n 1 30 GLU n 1 31 SER n 1 32 ALA n 1 33 ARG n 1 34 PHE n 1 35 SER n 1 36 CYS n 1 37 ASP n 1 38 THR n 1 39 ASP n 1 40 GLY n 1 41 GLU n 1 42 PRO n 1 43 VAL n 1 44 PRO n 1 45 THR n 1 46 VAL n 1 47 THR n 1 48 TRP n 1 49 LEU n 1 50 ARG n 1 51 LYS n 1 52 GLY n 1 53 GLN n 1 54 VAL n 1 55 LEU n 1 56 SER n 1 57 THR n 1 58 SER n 1 59 ALA n 1 60 ARG n 1 61 HIS n 1 62 GLN n 1 63 VAL n 1 64 THR n 1 65 THR n 1 66 THR n 1 67 LYS n 1 68 TYR n 1 69 LYS n 1 70 SER n 1 71 THR n 1 72 PHE n 1 73 GLU n 1 74 ILE n 1 75 SER n 1 76 SER n 1 77 VAL n 1 78 GLN n 1 79 ALA n 1 80 SER n 1 81 ASP n 1 82 GLU n 1 83 GLY n 1 84 ASN n 1 85 TYR n 1 86 SER n 1 87 VAL n 1 88 VAL n 1 89 VAL n 1 90 GLU n 1 91 ASN n 1 92 SER n 1 93 GLU n 1 94 GLY n 1 95 LYS n 1 96 GLN n 1 97 GLU n 1 98 ALA n 1 99 GLU n 1 100 PHE n 1 101 THR n 1 102 LEU n 1 103 THR n 1 104 ILE n 1 105 GLN n 1 106 LYS n # _entity_src_gen.entity_id 1 _entity_src_gen.pdbx_src_id 1 _entity_src_gen.pdbx_alt_source_flag sample _entity_src_gen.pdbx_seq_type ? _entity_src_gen.pdbx_beg_seq_num ? _entity_src_gen.pdbx_end_seq_num ? _entity_src_gen.gene_src_common_name human _entity_src_gen.gene_src_genus Homo _entity_src_gen.pdbx_gene_src_gene ? _entity_src_gen.gene_src_species ? _entity_src_gen.gene_src_strain ? _entity_src_gen.gene_src_tissue 'CARDIAC MUSCLE' _entity_src_gen.gene_src_tissue_fraction ? _entity_src_gen.gene_src_details ? _entity_src_gen.pdbx_gene_src_fragment ? _entity_src_gen.pdbx_gene_src_scientific_name 'Homo sapiens' _entity_src_gen.pdbx_gene_src_ncbi_taxonomy_id 9606 _entity_src_gen.pdbx_gene_src_variant ? _entity_src_gen.pdbx_gene_src_cell_line BL21 _entity_src_gen.pdbx_gene_src_atcc ? _entity_src_gen.pdbx_gene_src_organ ? _entity_src_gen.pdbx_gene_src_organelle CYTOPLASMA/SARCOMERE _entity_src_gen.pdbx_gene_src_cell ? _entity_src_gen.pdbx_gene_src_cellular_location ? _entity_src_gen.host_org_common_name ? _entity_src_gen.pdbx_host_org_scientific_name 'Escherichia coli' _entity_src_gen.pdbx_host_org_ncbi_taxonomy_id 562 _entity_src_gen.host_org_genus Escherichia _entity_src_gen.pdbx_host_org_gene ? _entity_src_gen.pdbx_host_org_organ ? _entity_src_gen.host_org_species ? _entity_src_gen.pdbx_host_org_tissue ? _entity_src_gen.pdbx_host_org_tissue_fraction ? _entity_src_gen.pdbx_host_org_strain 'BL21 PLYS' _entity_src_gen.pdbx_host_org_variant ? _entity_src_gen.pdbx_host_org_cell_line ? _entity_src_gen.pdbx_host_org_atcc ? _entity_src_gen.pdbx_host_org_culture_collection ? _entity_src_gen.pdbx_host_org_cell ? _entity_src_gen.pdbx_host_org_organelle ? _entity_src_gen.pdbx_host_org_cellular_location ? _entity_src_gen.pdbx_host_org_vector_type ? _entity_src_gen.pdbx_host_org_vector ? _entity_src_gen.host_org_details ? _entity_src_gen.expression_system_id ? _entity_src_gen.plasmid_name PET8C _entity_src_gen.plasmid_details ? _entity_src_gen.pdbx_description ? # loop_ _chem_comp.id _chem_comp.type _chem_comp.mon_nstd_flag _chem_comp.name _chem_comp.pdbx_synonyms _chem_comp.formula _chem_comp.formula_weight ALA 'L-peptide linking' y ALANINE ? 'C3 H7 N O2' 89.093 ARG 'L-peptide linking' y ARGININE ? 'C6 H15 N4 O2 1' 175.209 ASN 'L-peptide linking' y ASPARAGINE ? 'C4 H8 N2 O3' 132.118 ASP 'L-peptide linking' y 'ASPARTIC ACID' ? 'C4 H7 N O4' 133.103 CYS 'L-peptide linking' y CYSTEINE ? 'C3 H7 N O2 S' 121.158 GLN 'L-peptide linking' y GLUTAMINE ? 'C5 H10 N2 O3' 146.144 GLU 'L-peptide linking' y 'GLUTAMIC ACID' ? 'C5 H9 N O4' 147.129 GLY 'peptide linking' y GLYCINE ? 'C2 H5 N O2' 75.067 HIS 'L-peptide linking' y HISTIDINE ? 'C6 H10 N3 O2 1' 156.162 ILE 'L-peptide linking' y ISOLEUCINE ? 'C6 H13 N O2' 131.173 LEU 'L-peptide linking' y LEUCINE ? 'C6 H13 N O2' 131.173 LYS 'L-peptide linking' y LYSINE ? 'C6 H15 N2 O2 1' 147.195 MET 'L-peptide linking' y METHIONINE ? 'C5 H11 N O2 S' 149.211 PHE 'L-peptide linking' y PHENYLALANINE ? 'C9 H11 N O2' 165.189 PRO 'L-peptide linking' y PROLINE ? 'C5 H9 N O2' 115.130 SER 'L-peptide linking' y SERINE ? 'C3 H7 N O3' 105.093 THR 'L-peptide linking' y THREONINE ? 'C4 H9 N O3' 119.119 TRP 'L-peptide linking' y TRYPTOPHAN ? 'C11 H12 N2 O2' 204.225 TYR 'L-peptide linking' y TYROSINE ? 'C9 H11 N O3' 181.189 VAL 'L-peptide linking' y VALINE ? 'C5 H11 N O2' 117.146 # loop_ _pdbx_poly_seq_scheme.asym_id _pdbx_poly_seq_scheme.entity_id _pdbx_poly_seq_scheme.seq_id _pdbx_poly_seq_scheme.mon_id _pdbx_poly_seq_scheme.ndb_seq_num _pdbx_poly_seq_scheme.pdb_seq_num _pdbx_poly_seq_scheme.auth_seq_num _pdbx_poly_seq_scheme.pdb_mon_id _pdbx_poly_seq_scheme.auth_mon_id _pdbx_poly_seq_scheme.pdb_strand_id _pdbx_poly_seq_scheme.pdb_ins_code _pdbx_poly_seq_scheme.hetero A 1 1 MET 1 -14 ? ? ? A . n A 1 2 HIS 2 -13 ? ? ? A . n A 1 3 HIS 3 -12 ? ? ? A . n A 1 4 HIS 4 -11 ? ? ? A . n A 1 5 HIS 5 -10 ? ? ? A . n A 1 6 HIS 6 -9 ? ? ? A . n A 1 7 HIS 7 -8 ? ? ? A . n A 1 8 SER 8 -7 ? ? ? A . n A 1 9 SER 9 -6 -6 SER SER A . n A 1 10 LYS 10 -5 -5 LYS LYS A . n A 1 11 THR 11 -4 -4 THR THR A . n A 1 12 THR 12 -3 -3 THR THR A . n A 1 13 LEU 13 -2 -2 LEU LEU A . n A 1 14 ALA 14 -1 -1 ALA ALA A . n A 1 15 ALA 15 0 0 ALA ALA A . n A 1 16 ARG 16 1 1 ARG ARG A . n A 1 17 ILE 17 2 2 ILE ILE A . n A 1 18 LEU 18 3 3 LEU LEU A . n A 1 19 THR 19 4 4 THR THR A . n A 1 20 LYS 20 5 5 LYS LYS A . n A 1 21 PRO 21 6 6 PRO PRO A . n A 1 22 ARG 22 7 7 ARG ARG A . n A 1 23 SER 23 8 8 SER SER A . n A 1 24 MET 24 9 9 MET MET A . n A 1 25 THR 25 10 10 THR THR A . n A 1 26 VAL 26 11 11 VAL VAL A . n A 1 27 TYR 27 12 12 TYR TYR A . n A 1 28 GLU 28 13 13 GLU GLU A . n A 1 29 GLY 29 14 14 GLY GLY A . n A 1 30 GLU 30 15 15 GLU GLU A . n A 1 31 SER 31 16 16 SER SER A . n A 1 32 ALA 32 17 17 ALA ALA A . n A 1 33 ARG 33 18 18 ARG ARG A . n A 1 34 PHE 34 19 19 PHE PHE A . n A 1 35 SER 35 20 20 SER SER A . n A 1 36 CYS 36 21 21 CYS CYS A . n A 1 37 ASP 37 22 22 ASP ASP A . n A 1 38 THR 38 23 23 THR THR A . n A 1 39 ASP 39 24 24 ASP ASP A . n A 1 40 GLY 40 25 25 GLY GLY A . n A 1 41 GLU 41 26 26 GLU GLU A . n A 1 42 PRO 42 27 27 PRO PRO A . n A 1 43 VAL 43 28 28 VAL VAL A . n A 1 44 PRO 44 29 29 PRO PRO A . n A 1 45 THR 45 30 30 THR THR A . n A 1 46 VAL 46 31 31 VAL VAL A . n A 1 47 THR 47 32 32 THR THR A . n A 1 48 TRP 48 33 33 TRP TRP A . n A 1 49 LEU 49 34 34 LEU LEU A . n A 1 50 ARG 50 35 35 ARG ARG A . n A 1 51 LYS 51 36 36 LYS LYS A . n A 1 52 GLY 52 37 37 GLY GLY A . n A 1 53 GLN 53 38 38 GLN GLN A . n A 1 54 VAL 54 39 39 VAL VAL A . n A 1 55 LEU 55 40 40 LEU LEU A . n A 1 56 SER 56 41 41 SER SER A . n A 1 57 THR 57 42 42 THR THR A . n A 1 58 SER 58 43 43 SER SER A . n A 1 59 ALA 59 44 44 ALA ALA A . n A 1 60 ARG 60 45 45 ARG ARG A . n A 1 61 HIS 61 46 46 HIS HIS A . n A 1 62 GLN 62 47 47 GLN GLN A . n A 1 63 VAL 63 48 48 VAL VAL A . n A 1 64 THR 64 49 49 THR THR A . n A 1 65 THR 65 50 50 THR THR A . n A 1 66 THR 66 51 51 THR THR A . n A 1 67 LYS 67 52 52 LYS LYS A . n A 1 68 TYR 68 53 53 TYR TYR A . n A 1 69 LYS 69 54 54 LYS LYS A . n A 1 70 SER 70 55 55 SER SER A . n A 1 71 THR 71 56 56 THR THR A . n A 1 72 PHE 72 57 57 PHE PHE A . n A 1 73 GLU 73 58 58 GLU GLU A . n A 1 74 ILE 74 59 59 ILE ILE A . n A 1 75 SER 75 60 60 SER SER A . n A 1 76 SER 76 61 61 SER SER A . n A 1 77 VAL 77 62 62 VAL VAL A . n A 1 78 GLN 78 63 63 GLN GLN A . n A 1 79 ALA 79 64 64 ALA ALA A . n A 1 80 SER 80 65 65 SER SER A . n A 1 81 ASP 81 66 66 ASP ASP A . n A 1 82 GLU 82 67 67 GLU GLU A . n A 1 83 GLY 83 68 68 GLY GLY A . n A 1 84 ASN 84 69 69 ASN ASN A . n A 1 85 TYR 85 70 70 TYR TYR A . n A 1 86 SER 86 71 71 SER SER A . n A 1 87 VAL 87 72 72 VAL VAL A . n A 1 88 VAL 88 73 73 VAL VAL A . n A 1 89 VAL 89 74 74 VAL VAL A . n A 1 90 GLU 90 75 75 GLU GLU A . n A 1 91 ASN 91 76 76 ASN ASN A . n A 1 92 SER 92 77 77 SER SER A . n A 1 93 GLU 93 78 78 GLU GLU A . n A 1 94 GLY 94 79 79 GLY GLY A . n A 1 95 LYS 95 80 80 LYS LYS A . n A 1 96 GLN 96 81 81 GLN GLN A . n A 1 97 GLU 97 82 82 GLU GLU A . n A 1 98 ALA 98 83 83 ALA ALA A . n A 1 99 GLU 99 84 84 GLU GLU A . n A 1 100 PHE 100 85 85 PHE PHE A . n A 1 101 THR 101 86 86 THR THR A . n A 1 102 LEU 102 87 87 LEU LEU A . n A 1 103 THR 103 88 88 THR THR A . n A 1 104 ILE 104 89 89 ILE ILE A . n A 1 105 GLN 105 90 90 GLN GLN A . n A 1 106 LYS 106 91 91 LYS LYS A . n # loop_ _software.name _software.classification _software.version _software.citation_id _software.pdbx_ordinal X-PLOR 'model building' 3.1 ? 1 X-PLOR refinement 3.1 ? 2 X-PLOR phasing 3.1 ? 3 # _cell.entry_id 1NCU _cell.length_a 1.000 _cell.length_b 1.000 _cell.length_c 1.000 _cell.angle_alpha 90.00 _cell.angle_beta 90.00 _cell.angle_gamma 90.00 _cell.Z_PDB 1 _cell.pdbx_unique_axis ? # _symmetry.entry_id 1NCU _symmetry.space_group_name_H-M 'P 1' _symmetry.pdbx_full_space_group_name_H-M ? _symmetry.cell_setting ? _symmetry.Int_Tables_number 1 # _exptl.entry_id 1NCU _exptl.method 'SOLUTION NMR' _exptl.crystals_number ? # _database_PDB_matrix.entry_id 1NCU _database_PDB_matrix.origx[1][1] 1.000000 _database_PDB_matrix.origx[1][2] 0.000000 _database_PDB_matrix.origx[1][3] 0.000000 _database_PDB_matrix.origx[2][1] 0.000000 _database_PDB_matrix.origx[2][2] 1.000000 _database_PDB_matrix.origx[2][3] 0.000000 _database_PDB_matrix.origx[3][1] 0.000000 _database_PDB_matrix.origx[3][2] 0.000000 _database_PDB_matrix.origx[3][3] 1.000000 _database_PDB_matrix.origx_vector[1] 0.00000 _database_PDB_matrix.origx_vector[2] 0.00000 _database_PDB_matrix.origx_vector[3] 0.00000 # _struct.entry_id 1NCU _struct.title 'Titin Module M5, N-terminally Extended, NMR' _struct.pdbx_model_details ? _struct.pdbx_CASP_flag ? _struct.pdbx_model_type_details ? # _struct_keywords.entry_id 1NCU _struct_keywords.pdbx_keywords 'MUSCLE PROTEIN' _struct_keywords.text 'CELL ADHESION, GLYCOPROTEIN, TRANSMEMBRANE, BRAIN, IMMUNOGLOBULIN FOLD, ALTERNATIVE SPLICING, MUSCLE PROTEIN' # _struct_asym.id A _struct_asym.pdbx_blank_PDB_chainid_flag Y _struct_asym.pdbx_modified N _struct_asym.entity_id 1 _struct_asym.details ? # _struct_ref.id 1 _struct_ref.db_name UNP _struct_ref.db_code Q10466_HUMAN _struct_ref.entity_id 1 _struct_ref.pdbx_db_accession Q10466 _struct_ref.pdbx_align_begin 1 _struct_ref.pdbx_seq_one_letter_code ;MTTQAPTFTQPLQSVVVLEGSTATFEAHISGFPVPEVSWFRDGQVISTSTLPGVQISFSDGRAKLTIPAVTKANSGRYSL KATNGSGQATSTAELLVKAETAPPNFVQRLQSMTVRQGSQVRLQVRVTGIPNPVVKFYRDGAEIQSSLDFQISQEGDLYS LLIAEAYPEDSGTYSVNATNSVGRATSTAELLVQGEEEVPAKKTKTIVSTAQISESRQTRIEKKIEAHFDARSIATVEMV IDGAAGQQLPHKTPPRIPPKPKSRSPTPPSIAAKAQLARQQSPSPIRHSPSPVRHVRAPTPSPVRSVSPAARISTSPIRS VRSPLLMRKTQASTVATGPEVPPPWKQEGYVASSSEAEMRETTLTTSTQIRTEERWEGRYGVQEQVTISGAAGAAASVSA SASYAAEAVATGAKEVKQDADKSAAVATVVAAVDMARVREPVISAVEQTAQRTTTTAVHIQPAQEQVRKEAEKTAVTKVV VAADKAKEQELKSRTKEIITTKQEQMHVTHEQIRKETEKTFVPKVVISAAKAKEQETRISEEITKKQKQVTQEAIMKETR KTVVPKVIVATPKVKEQDLVSRGREGITTKREQVQITQEKMRKEAEKTALSTIAVATAKAKEQETILRTRETMATRQEQI QVTHGKVDVGKKAEAVATVVAAVDQARVREPREPGHLEESYAQQTTLEYGYKERISAAKVAEPPQRPASEPHVVPKAVKP RVIQAPSETHIKTTDQKGMHISSQIKKTTDLTTERLVHVDKRPRTASPHFTVSKISVPKTEHGYEASIAGSAIATLQKEL SATSSAQKITKSVKAPTVKPSETRVRAEPTPLPQFPFADTPDTYKSEAGVEVKKEVGVSITGTTVREERFEVLHGREAKV TETARVPAPVEIPVTPPTLVSGLKNVTVIEGESVTLECHISGYPSPTVTWYREDYQIESSIDFQITFQSGIARLMIREAF AEDSGRFTCSAVNEAGTVSTSCYLAVQVSEEFEKETTAVTEKFTTEEKRFVESRDVVMTDTSLTEEQAGPGEPAAPYFIT KPVVQKLVEGGSVVFGCQVGGNPKPHVYWKKSGVPLTTGYRYKVSYNKQTGECKLVISMTFADDAGEYTIVVRNKHGETS ASASLLEEADYELLMKSQQEMLYQTQVTAFVQEPEVGETAPGFVYSEYEKEYEKEQALIRKKMAKDTVVVRTYVEDQEFH ISSFEERLIKEIEYRIIKTTLEELLEEDGEEKMAVDISESEAVESGFDLRIKNYRILEGMGVTFHCKMSGYPLPKIAWYK DGKRIKHGERYQMDFLQDGRASLRIPVVLPEDEGIYTAFASNIKGNAICSGKLYVEPAAPLGAPTYIPTLEPVSRIRSLS PRSVSRSPIRMSPARMSPARMSPARMSPARMSPGRRLEETDESQLERLYKPVFVLKPVSFKCLEGANCRFDLKVVGRPMP ETFWFHDGQQIVNDYTHKVVIKEDGTQSLIIVPATPSDSGEWTVVAQNRAGRSSISVILTVEAVEHQVKPMFVEKLKNVN IKEGSRLEMKVRATGNPNPDIVWLKNSDIIVPHKYPKIRIEGTKGEAALKIDSTVSQDSAWYTATAINKAGRDTTRCKVN VEVEFAEPEPERKLIIPRGTYRAKEIAAPELEPLHLRYGQEQWEEGDLYDKEKQQKPFFKKKLTSLRLKRFGPAHFECRL TPISDPTMVVEWLHDGKPLEAANRLRMINEFGYCSLDYGVAYSRDSGIITCRATNKYGTDHTSATLIVKDEKSLVEESQL PEGRKGLQRIEELERMAHEGALTGVTTDQKEKQKPDIVLYPEPVRVLEGETARFRCRVTGYPQPKVNWYLNGQLIRKSKR FRVRYDGIHYLDIVDCKSYDTGEVKVTAENPEGVIEHKVKLEIQQREDFRSVLRRAPEPRPEFHVHEPGKLQFEVQKVDR PVDTTETKEVVKLKRAERITHEKVPEESEELRSKFKRRTEEGYYEAITAVELKSRKKDESYEELLRKTKDELLHWTKELT EEEKKALAEEGKITIPTFKPDKIELSPSMEAPKIFERIQSQTVGQGSDAHFRVRVVGKPDPECEWYKNGVKIERSDRIYW YWPEDNVCELVIRDVTAEDSASIMVKAINIAGETSSHAFLLVQAKQLITFTQELQDVVAKEKDTMATFECETSEPFVKVK WYKDGMEVHEGDKYRMHSDRKVHFLSILTIDTSDAEDYSCVLVEDENVKTTAKLIVEGAVVEFVKELQDIEVPESYSGEL ECIVSPENIEGKWYHNDVELKSNGKYTITSRRGRQNLTVKDVTKEDQGEYSFVIDGKKTTCKLKMKPRPIAILQGLSDQK VCEGDIVQLEVKVSLESVEGVWMKDGQEVQPSDRVHIVIDKQSHMLLIEDMTKEDAGNYSFTIPALGLSTSGRVSVYSVD VITPLKDVNVIEGTKAVLECKVSVPDVTSVKWYLNDEQIKPDDRVQAIVKGTKQRLVINRTHASDEGPYKLIVGRVETNC NLSVEKIKIIRGLRDLTCTETQNVVFEVELSHSGIDVLWNFKDKEIKPSSKYKIEAHGKIYKLTVLNMMKDDEGKYTFYA GENMTSGKLTVAGGAISKPLTDQTVAESQEAVFECEVANPDSKGEWLRDGKHLPLTNNIRSESDGHKRRLIIAATKLDDI GEYTYKVATSKTSAKLKVEAVKIKKTLKNLTVTETQDAVFTVELTHPNVKGVQWIKNGVVLESNEKYAISVKGTIYSLRI KNCAIVDESVYGFRLGRLGASARLHVETVKIIKKPKDVTALENATVAFEVSVSHDTVPVKWFHKSVEIKPSDKHRLVSER KVHKLMLQNISPSDAGEYTAVVGQLECKAKLFVETLHITKTMKNIEVPETKTASFECEVSHFNVPSMWLKNGVEIEMSEK FKIVVQGKLHQLIIMNTSTEDSAEYTFVCGNDQVSATLTVTPIMITSMLKDINAEEKDTITFEVTVNYEGISYKWLKNGV EIKSTDKCQMRTKKLTHSLNIRNVHFGDAADYTFVAGKATSTATLYVEARHIEFRKHIKDIKVLEKKRAMFECEVSEPDI TVQWMKDDQELQITDRIKIQKEKYVHRLLIPSTRMSDAGKYTVVAGGNVSTAKLFVEGRDVRIRSIKKEVQVIEKQRAVV EFEVNEDDVDAHWYKDGIEINFQVQERHKYVVERRIHRMFISETRQSDAGEYTFVAGRNRSSVTLYVNAPEPPQVLQELQ PVTVQSGKPARFCAMISGRPQPKISWYKEEQLLSTGFKCKFLHDGQEYTLLLIEAFPEDAAVYTCEAKNDYGVATTSASL SVEVPEVVSPDQEMPVYPPAIITPLQDTVTSEGQPARFQCRVSGTDLKVSWYSKDKKIKPSRFFRMTQFEDTYQLEIAEA YPEDEGTYTFVANNAVGQVSSTANLSLEAPESILHERIEQEIEMEMKEFSSSFLSAEEEGLHSAELQLSKINETLELLSE SPVYPTKFDSEKEGTGPIFIKEVSNADISMGDVATLSVTVIGIPKPKIQWFFNGVLLTPSADYKFVFDGDDHSLIILFTK LEDEGEYTCMASNDYGKTICSAYLKINSKGEGHKDTETESAVAKSLEKLGGPCPPHFLKELKPIRCAQGLPAIFEYTVVG EPAPTVTWFKENKQLCTSVYYTIIHNPNGSGTFIVNDPQREDSGLYICKAENMLGESTCAAELLVLLEDTDMTDTPCKAK STPEAPEDFPQTPLKGPAVEALDSEQEIATFVKDTILKAALITEENQQLSYEHIAKANELSSQLPLGAQELQSILEQDKL TPESTREFLCINGSIHFQPLKEPSPNLQLQIVQSQKTFSKEGILMPEEPETQAVLSDTEKIFPSAMSIEQINSLTVEPLK TLLAEPEGNYPQSSIEPPMHSYLTSVAEEVLSLKEKTVSDTNREQRVTLQKQEAQSALILSQSLAEGHVESLQSPDVMIS QVNYEPLVPSEHSCTEGGKILIESANPLENAGQDSAVRIEEGKSLRFPLALEEKQVLLKEEHSDNVVMPPDQIIESKREP VAIKKVQEVQGRDLLSKESLLSGIPEEQRLNLKIQICRALQAAVASEQPGLFSEWLRNIEKVEVEAVNITQEPRHIMCMY LVTSAKSVTEEVTIIIEDVDPQMANLKMELRDALCAIIYEEIDILTAEGPRIQQGAKTSLQEEMDSFSGSQKVEPITEPE VESKYLISTEEVSYFNVQSRVKYLDATPVTKGVASAVVSDEKQDESLKPSEEKEESSSESGTEEVATVKIQEAEGGLIKE DGPMIHTPLVDTVSEEGDIVHLTTSITNAKEVNWYFENKLVPSDEKFKCLQDQNTYTLVIDKVNTEDHQGEYVCEALNDS GKTATSAKLTVVKRAAPVIKRKIEPLEVALGHLAKFTCEIQSAPNVRFQWFKAGREIYESDKCSIRSSKYISSLEILRTQ VVDCGEYTCKASNEYGSVSCTATLTVTVPGGEKKVRKLLPERKPEPKEEVVLKSVLRKRPEEEEPKVEPKKLEKVKKPAV PEPPPPKPVEEVEVPTVTKRERKIPEPTKVPEIKPAIPLPAPEPKPKPEAEVKTIKPPPVEPEPTPIAAPVTVPVVGKKA EAKAPKEEAAKPKGPIKGVPKKTPSPIEAERRKLRPGSGGEKPPDEAPFTYQLKAVPLKFVKEIKDIILTESEFVGSSAI FECLVSPSTAITTWMKDGSNIRESPKHRFIADGKDRKLHIIDVQLSDAGEYTCVLRLGNKEKTSTAKLVVEELPVRFVKT LEEEVTVVKGQPLYLSCELNKERDVVWRKDGKIVVEKPGRIVPGVIGLMRALTINDADDTDAGTYTVTVENANNLECSSC VKVVEVIRDWLVKPIRDQHVKPKGTAIFACDIAKDTPNIKWFKGYDEIPAEPNDKTEILRDGNHLYLKIKNAMPEDIAEY AVEIEGKRYPAKLTLGEREVELLKPIEDVTIYEKESASFDAEISEADIPGQWKLKGELLRPSPTCEIKAEGGKRFLTLHK VKLDQAGEVLYQALNAITTAILTVKEIELDFAVPLKDVTVPERRQARFECVLTREANVIWSKGPDIIKSSDKFDIIADGK KHILVINDSQFDDEGVYTAEVEGKKTSARLFVTGIRLKFMSPLEDQTVKEGETATFVCELSHEKMHVVWFKNDAKLHTSR TVLISSEGKTHKLEMKEVTLDDISQIKAQVKELSSTAQLKVLEADPYFTVKLHDKTAVEKDEITLKCEVSKDVPVKWFKD GEEIVPSPKYSIKADGLRRILKIKKADLKDKGEYVCDCGTDKTKANVTVEARLIEVEKPLYGVEVFVGETAHFEIELSEP DVHGQWKLKGQPLTASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANAKSAANLKVKELPLIFITPLSDVKVFEKDEA KFECEVSREPKTFRWLKGTQEITGDDRFELIKDGTKHSMVIKSAAFEDEAKYMFEAEDKHTSGKLIIEGIRLKFLTPLKD VTAKEKESAVFTVELSHDNIRVKWFKNDQRLHTTRSVSMQDEGKTHSITFKDLSIDDTSQIRVEAMGMSSEAKLTVLEGD PYFTGKLQDYTGVEKDEVILQCEISKADAPVKWFKDGKEIKPSKNAVIKTDGKKRMLILKKALKSDIGQYTCDCGTDKTS GKLDIEDREIKLVRPLHSVEVMETETARFETEISEDDIHANWKLKGEALLQTPDCEIKEEGKIHSLVLHNCRLDQTGGVD FQAANVKSSAHLRVKPRVIGLLRPLKDVTVTAGETATFDCELSYEDIPVEWYLKGKKLEPSDKVVPRSEGKVHTLTLRDV KLEDAGEVQLTAKDFKTHANLFVKEPPVEFTKPLEDQTVEEGATAVLECEVSRENAKVKWFKNGTEILKSKKYEIVADGR VRKLVIHDCTPEDIKTYTCDAKDFKTSCNLNVVPPHVEFLRPLTDLQVREKEMARFECELSRENAKVKWFKDGAEIKKGK KYDIISKGAVRILVINKCLLDDEAEYSCEVRTARTSGMLTVLEEEAVFTKNLANIEVSETDTIKLVCEVSKPGAEVIWYK GDEEIIETGRYEILTEGRKRILVIQNAHLEDAGNYNCRLPSSRTDGKVKVHELAAEFISKPQNLEILEGEKAEFVCSISK ESFPVQWKRDDKTLESGDKYDVIADGKKRVLVVKDATLQDMGTYVVMVGAARAAAHLTVIEKLRIVVPLKDTRVKEQQEV VFNCEVNTEGAKAKWFRNEEAIFDSSKYIILQKDLVYTLRIRDAHLDDQANYNVSLTNHRGENVKSAANLIVEEEDLRIV EPLKDIETMEKKSVTFWCKVNRLNVTLKWTKNGEEVPFDNRVSYRVDKYKHMLTIKDCGFPDEGEYIVTAGQDKSVAELL IIEAPTEFVEHLEDQTVTEFDDAVFSCQLSREKANVKWYRNGREIKEGKKYKFEKDGSIHRLIIKDCRLDDECEYACGVE DRKSRARLFVEEIPVEIIRPPQDILEAPGADVVFLAELNKDKVEVQWLRNNMVVVQGDKHQMMSEGKIHRLQICDIKPRD QGEYRFIAKDKEARAKLELAAAPKIKTADQDLVVDVGKPLTMVVPYDAYPKAEAEWFKENEPLSTKTIDTTAEQTSFRIL EAKKGDKGRYKIVLQNKHGKAEGFINLKVIDVPGPVRNLEVTETFDGEVSLAWEEPLTDGGSKIIGYVVERRDIKRKTWV LATDRAESCEFTVTGLQKGGVEYLFRVSARNRVGTGEPVETDNPVEARSKYDVPGPPLNVTITDVNRFGVSLTWEPPEYD GGAEITNYVIELRDKTSIRWDTAMTVRAEDLSATVTDVVEGQEYSFRVRAQNRIGVGKPSAATPFVKVADPIERPSPPVN LTSSDQTQSSVQLKWEPPLKDGGSPILGYIIERCEEGKDNWIRCNMKLVPELTYKVTGLEKGNKYLYRVSAENKAGVSDP SEILGPLTADDAFVEPTMDLSAFKDGLEVIVPNPITILVPSTGYPRPTATWCFGDKVLETGDRVKMKTLSAYAELVISPS ERSDKGIYTLKLENRVKTISGEIDVNVIARPSAPKELKFGDITKDSVHLTWEPPDDDGGSPLTGYVVEKREVSRKTWTKV MDFVTDLEFTVPDLVQGKEYLFKVCARNKCGPGEPAYVDEPVNMSTPATVPDPPENVKWRDRTANSIFLTWDPPKNDGGS RIKGYIVERCPRGSDKWVACGEPVAETKMEVTGLEEGKWYAYRVKTLNRQGASKPSRPTEEIQAVDTQEAPEIFLDVKLL AGLTVKAGTKIELPATVTGKPEPKITWTKADMILKQDKRITIENVPKKSTVTIVDSKRSDTGTYIIEAVNVCGRATAVVE VNVLDKPGPPAAFDITDVTNESCLLTWNPPRDDGGSKITNYVVERRATDSEVWHKLSSTVKDTNFKATKLIPNKEYIFRV AAENMYGAGEPVQASPITAKYQFDPPGPPTRLEPSDITKDAVTLTWCEPDDDGGSPITGYWVERLDPDTDKWVRCNKMPV KDTTYRVKGLTNKKKYRFRVLAENLAGPGKPSKSTEPILIKDPIDPPWPPGKPTVKDVGKTSVRLNWTKPEHDGGAKIES YVIEMLKTGTDEWVRVAEGVPTTQHLLPGLMEGQEYSFRVRAVNKAGESEPSEPSDPVLCREKLYPPSPPRWLEVINITK NTADLKWTVPEKDGGSPITNYIVEKRDVRRKGWQTVDTTVKDTKCTVTPLTEGSLYVFRVAAENAIGQSDYTEIEDSVLA KDTFTTPGPPYALAVVDVTKRHVDLKWEPPKNDGGRPIQRYVIEKKERLGTRWVKAGKTAGPDCNFRVTDVIEGTEVQFQ VRAENEAGVGHPSEPTEILSIEDPTSPPSPPLDLHVTDAGRKHIAIAWKPPEKNGGSPIIGYHVEMCPVGTEKWMRVNSR PIKDLKFKVEEGVVPDKEYVLRVRAVNAIGVSEPSEISENVVAKDPDCKPTIDLETHDIIVIEGEKLSIPVPFRAVPVPT VSWHKDGKEVKASDRLTMKNDHISAHLEVPKSVRADAGIYTITLENKLGSATASINVKVIGLPGPCKDIKASDITKSSCK LTWEPPEFDGGTPILHYVLERREAGRRTYIPVMSGENKLSWTVKDLIPNGEYFFRVKAVNKVGGGEYIELKNPVIAQDPK QPPDPPVDVEVHNPTAEAMTITWKPPLYDGGSKIMGYIIEKIAKGEERWKRCNEHLVPILTYTAKGLEEGKEYQFRVRAE NAAGISEPSRATPPTKAVDPIDAPKVILRTSLEVKRGDEIALDASISGSPYPTITWIKDENVIVPEEIKKRAAPLVRRRK GEVQEEEPFVLPLTQRLSIDNSKKGESQLRVRDSLRPDHGLYMIKVENDHGIAKAPCTVSVLDTPGPPINFVFEDIRKTS VLCKWEPPLDDGGSEIINYTLEKKDKTKPDSEWIVVTSTLRHCKYSVTKLIEGKEYLFRVRAENRFGPGPPCVSKPLVAK DPFGPPDAPDKPIVEDVTSNSMLVKWNEPKDNGSPILGYWLEKREVNSTHWSRVNKSLLNALKANVDGLLEGLTYVFRVC AENAAGPGKFSPPSDPKTAHDPISPPGPPIPRVTDTSSTTIELEWEPPAFNGGGEIVGYFVDKQLVGTNKWSRCTEKMIK VRQYTVKEIREGADYKLRVSAVNAAGEGPPGETQPVTVAEPQEPPAVELDVSVKGGIQIMAGKTLRIPAVVTGRPVPTKV WTKEEGELDKDRVVIDNVGTKSELIIKDALRKDHGRYVITATNSCGSKFAAARVEVFDVPGPVLDLKPVVTNRKMCLLNW SDPEDDGGSEITGFIIERKDAKMHTWRQPIETERSKCDITGLLEGQEYKFRVIAKNKFGCGPPVEIGPILAVDPLGPPTS PERLTYTERQRSTITLDWKEPRSNGGSPIQGYIIEKRRHDKPDFERVNKRLCPTTSFLVENLDEHQMYEFRVKAVNEIGE SEPSLPLNVVIQDDEVPPTIKLRLSVRGDTIKVKAGEPVHIPADVTGLPMPKIEWSKNETVIEKPTDALQITKEEVSRSE AKTELSIPKAVREDKGTYTVTASNRLGSVFRNVHVEVYDRPSPPRNLAVTDIKAESCYLTWDAPLDNGGSEITHYVIDKR DASRKKAEWEEVTNTAVEKRYGIWKLIPNGQYEFRVRAVNKYGISDECKSDKVVIQDPYRLPGPPGKPKVLARTKGSMLV SWTPPLDNGGSPITGYWLEKREEGSPYWSRVSRAPITKVGLKGVEFNVPRLLEGVKYQFRAMAINAAGIGPPSEPSDPEV AGDPIFPPGPPSCPEVKDKTKSSISLGWKPPAKDGGSPIKGYIVEMQEEGTTDWKRVNEPDKLITTCECVVPNLKELRKY RFRVKAVNEAGESEPSDTTGEIPATDIQEEPEVFIDIGAQDCLVCKAGSQIRIPAVIKGRPTPKSSWEFDGKAKKAMKDG VHDIPEDAQLETAENSSVIIIPECKRSHTGKYSITAKNKAGQKTANCRVKVMDVPGPPKDLKVSDITRGSCRLSWKMPDD DGGDRIKGYVIEKRTIDGKAWTKVNPDCGSTTFVVPDLLSEQQYFFRVRAENRFGIGPPVETIQRTTARDPIYPPDPPIK LKIGLITKNTVHLSWKPPKNDGGSPVTHYIVECLAWDPTGTKKEAWRQCNKRDVEELQFTVEDLVEGGEYEFRVKAVNAA GVSKPSATVGPCDCQRPDMPPSIDLKEFMEVEEGTNVNIVAKIKGVPFPTLTWFKAPPKKPDNKEPVLYDTHVNKLVVDD TCTLVIPQSRRSDTGLYTITAVNNLGTASKEMRLNVLGRPGPPVGPIKFESVSADQMTLSWFPPKDDGGSKITNYVIEKR EANRKTWVHVSSEPKECTYTIPKLLEGHEYVFRIMAQNKYGIGEPLDSEPETARNLFSVPGAPDKPTVSSVTRNSMTVNW EEPEYDGGSPVTGYWLEMKDTTSKRWKRVNRDPIKAMTLGVSYKVTGLIEGSDYQFRVYAINAAGVGPASLPSDPATARD PIAPPGPPFPKVTDWTKSSADLEWSPPLKDGGSKVTGYIVEYKEEGKEEWEKGKDKEVRGTKLVVTGLKEGAFYKFRVSA VNIAGIGEPGEVTDVIEMKDRLVSPDLQLDASVRDRIVVHAGGVIRIIAYVSGKPPPTVTWNMNERTLPQEATIETTAIS SSMVIKNCQRSHQGVYSLLAKNEAGERKKTIIVDVLDVPGPVGTPFLAHNLTNESCKLTWFSPEDDGGSPITNYVIEKRE SDRRAWTPVTYTVTRQNATVQGLIQGKAYFFRIAAENSIGMGPFVETSEALVIREPITVPERPEDLEVKEVTKNTVTLTW NPPKYDGGSEIINYVLESRLIGTEKFHKVTNDNLLSRKYTVKGLKEGDTYEYRVSAVNIVGQGKPSFCTKPITCKDELAP PTLHLDFRDKLTIRVGEAFALTGRYSGKPKPKVSWFKDEADVLEDDRTHIKTTPATLALEKIKAKRSDSGKYCVVVENST GSRKGFCQVNVVDHPGPPVGPVSFDEVTKDYMVISWKPPLDDGGSKITNYIIEKKEVGKDVWMPVTSASAKTTCKVSKLL EGKDYIFRIHAENLYGISDPLVSDSMKAKDRFRVPDAPDQPIVTEVTKDSALVTWNKPHDGGKPITNYILEKRETMSKRW ARVTKDPIHPYTKFRVPDLLEGCQYEFRVSAENEIGIGDPSPPSKPVFAKDPIAKPSPPVNPEAIDTTCNSVDLTWQPPR HDGGSKILGYIVEYQKVGDEEWRRANHTPESCPETKYKVTGLRDGQTYKFRVLAVNAAGESDPAHVPEPVLVKDRLEPPE LILDANMAREQHIKVGDTLRLSAIIKGVPFPKVTWKKEDRDAPTKARIDVTPVGSKLEIRNAAHEDGGIYSLTVENPAGS KTVSVKVLVLDKPGPPRDLEVSEIRKDSCYLTWKEPLDDGGSVITNYVVERRDVASAQWSPLSATSKKKSHFAKHLNEGN QYLFRVAAENQYGRGPFVETPKPIKALDPLHPPGPPKDLHHVDVDKTEVSLVWNKPDRDGGSPITGYLVEYQEEGTQDWI KFKTVTNLECVVTGLQQGKTYRFRVKAENIVGLGLPDTTIPIECQEKLVPPSVELDVKLIEGLVVKAGTTVRFPAIIRGV PVPTAKWTTDGSEIKTDEHYTVETDNFSSVLTIKNCLRRDTGEYQITVSNAAGSKTVAVHLTVLDVPGPPTGPINILDVT PEHMTISWQPPKDDGGSPVINYIVEKQDTRKDTWGVVSSGSSKTKLKIPHLQKGCEYVFRVRAENKIGVGPPLDSTPTVA KHKFSPPSPPGKPVVTDITENAATVSWTLPKSDGGSPITGYYMERREVTGKWVRVNKTPIADLKFRVTGLYEGNTYEFRV FAENLAGLSKPSPSSDPIKACRPIKPPGPPINPKLKDKSRETADLVWTKPLSDGGSPILGYVVECQKPGTAQWNRINKDE LIRQCAFRVPGLIEGNEYRFRIKAANIVGEGEPRELAESVIAKDILHPPEVELDVTCRDVITVRVGQTIRILARVKGRPE PDITWTKEGKVLVREKRVDLIQDLPRVELQIKEAVRADHGKYIISAKNSSGHAQGSAIVNVLDRPGPCQNLKVTNVTKEN CTISWENPLDNGGSEITNFIVEYRKPNQKGWSIVASDVTKRLIKANLLANNEYYFRVCAENKVGVGPTIETKTPILAINP IDRPGEPENLHIADKGKTFVYLKWRRPDYDGGSPNLSYHVERRLKGSDDWERVHKGSIKETHYMVDRCVENQIYEFRVQT KNEGGESDWVKTEEVVVKEDLQKPVLDLKLSGVLTVKAGDTIRLEAGVRGKPFPEVAWTKDKDATDLTRSPRVKIDTRAD SSKFSLTKAKRSDGGKYVVTATNTAGSFVAYATVNVLDKPGPVRNLKIVDVSSDRCTVCWDPPEDDGGCEIQNYILEKCE TKRMVWSTYSATVLTPGTTVTRLIEGNEYIFRVRAENKIGTGPPTESKPVIAKTKYDKPGRPDPPEVTKVSKEEMTVVWN PPEYDGGKSITGYFLEKKEKHSTRWVPVNKSAIPERRMKVQNLLPDHEYQFRVKAENEIGIGEPSLPSRPVVAKDPIEPP GPPTNFRVVDTTKHSITLGWGKPVYDGGAPIIGYVVEMRPKIADASPDEGWKRCNAAAQLVRKEFTVTSLDENQEYEFRV CAQNQVGIGRPAELKEAIKPKEILEPPEIDLDASMRKLVIVRAGCPIRLFAIVRGRPAPKVTWRKVGIDNVVRKGQVDLV DTMAFLVIPNSTRDDSGKYSLTLVNPAGEKAVFVNVRVLDTPGPVSDLKVSDVTKTSCHVSWAPPENDGGSQVTHYIVEK READRKTWSTVTPEVKKTSFHVTNLVPGNEYYFRVTAVNEYGPGVPTDVPKPVLASDPLSEPDPPRKLEATEMTKNSATL AWLPPLRDGGAKIDGYIISYREEEQPADRWTEYSVVKDLSLVVTGLKEGKKYKFRVAARNAVGVSLPREAEGVYEAKEQL LPPKILMPEQITIKAGKKLRIEAHVYGKPHPTCKWKKGEDEVVTSSHLAVHKADSSSILIIKDVTRKDSGYYSLTAENSS GTDTQKIKVVVMDAPGPPQPPFDISDIDADACSLSWHIPLEDGGSNITNYIVEKCDVSRGDWVTALASVTKTSCRVGKLI PGQEYIFRVRAENRFGISEPLTSPKMVAQFPFGVPSEPKNARVTKVNKDCIFVAWDRPDSDGGSPIIGYLIERKERNSLL WVKANDTLVRSTEYPCAGLVEGLEYSFRIYALNKAGSSPPSKPTEYVTARMPVDPPGKPEVIDVTKSTVSLIWARPKHDG GSKIIGYFVEACKLPGDKWVRCNTAPHQIPQEEYTATGLEEKAQYQFRAIARTAVNISPPSEPSDPVTILAENVPPRIDL SVAMKSLLTVKAGTNVCLDATVFGKPMPTVSWKKDGTLLKPAEGIKMAMQRNLCTLELFSVNRKDSGDYTITAENSSGSK SATIKLKVLDKPGPPASVKINKMYSDRAMLSWEPPLEDGGSEITNYIVDKRETSRPNWAQVSATVPITSCSVEKLIEGHE YQFRICAENKYGVGDPVFTEPAIAKNPYDPPGRCDPPVISNITKDHMTVSWKPPADDGGSPITGYLLEKRETQAVNWTKV NRKPIIERTLKATGLQEGTEYEFRVTAINKAGPGKPSDASKAAYARDPQYPPAPPAFPKVYDTTRSSVSLSWGKPAYDGG SPIIGYLVEVKRADSDNWVRCNLPQNLQKTRFEVTGLMEDTQYQFRVYAVNKIGYSDPSDVPDKHYPKDILIPPEGEHDA DLRKTLILRAGVTMRLYVPVKGRPPPKITWSKPNVNLRDRIGLDIKSTDFDTFLRCENVNKYDAGKYILTLENSCGKKEY TIVVKVLDTPGPPINVTVKEISKDSAYVTWEPPIIDGGSPIINYVVQKRDAERKSWSTVTTECSKTSFRVPNLEEGKSYF FRVFAENEYGIGDPGETRDAVKASQTPGPVVDLKVRSVSKSSCSIGWKKPHSDGGSRIIGYVVDFLTEENKWQRVMKSLS LQYSAKDLTEGKEYTFRVSAENENGEGTPSEITVVARDDVVAPDLDLKGLPDLCYLAKENSNFRLKIPIKGKPAPSVSWK KGEDPLATDTRVSVESSAVNTTLIVYDCQKSDAGKYTITLKNVAGTKEGTISIKVVGKPGIPTGPIKFDEVTAEAMTLKW APPKDDGGSEITNYILEKRDSVNNKWVTCASAVQKTTFRVTRLHEGMEYTFRVSAENKYGVGEGLKSEPIVARHPFDVPD APPPPNIVDVRHDSVSLTWTDPKKTGGSPITGYHLEFKERNSLLWKRANKTPIRMRDFKVTGLTEGLEYEFRVMAINLAG VGKPSLPSEPVVALDPIDPPGKPEVINITRNSVTLIWTEPKYDGGHKLTGYIVEKRDLPSKSWMKANHVNVPECAFTVTD LVEGGKYEFRIRAKNTAGAISAPSESTETIICKDEYEAPTIVLDPTIKDGLTIKAGDTIVLNAISILGKPLPKSSWSKAG KDIRPSDITQITSTPTSSMLTIKYATRKDAGEYTITATNPFGTKVEHVKVTVLDVPGPPGPVEISNVSAEKATLTWTPPL EDGGSPIKSYILEKRETSRLLWTVVSEDIQSCRHVATKLIQGNEYIFRVSAVNHYGKGEPVQSEPVKMVDRFGPPGPPEK PEVSNVTKNTATVSWKRPVDDGGSEITGYHVERREKKSLRWVRAIKTPVSDLRCKVTGLQEGSTYEFRVSAENRAGIGPP SEASDSVLMKDAAYPPGPPSNPHVTDTTKKSASLAWGKPHYDGGLEITGYVVEHQKVGDEAWIKDTTGTALRITQFVVPD LQTKEKYNFRISAINDAGVGEPAVIPDVEIVEREMAPDFELDAELRRTLVVRAGLSIRIFVPIKGRPAPEVTWTKDNINL KNRANIENTESFTLLIIPECNRYDTGKFVMTIENPAGKKSGFVNVRVLDTPGPVLNLRPTDITKDSVTLHWDLPLIDGGS RITNYIVEKREATRKSYSTATTKCHKCTYKVTGLSEGCEYFFRVMAENEYGIGEPTETTEPVKASEAPSPPDSLNIMDIT KSTVSLAWPKPKHDGGSKITGYVIEAQRKGSDQWTHITTVKGLECVVRNLTEGEEYTFQVMAVNSAGRSAPRESRPVIVK EQTMLPELDLRGIYQKLVIAKAGDNIKVEIPVLGRPKPTVTWKKGDQILKQTQRVNFETTATSTILNINECVRSDSGPYP LTARNIVGEVGDVITIQVHDIPGPPTGPIKFDEVSSDFVTFSWDPPENDGGVPISNYVVEMRQTDSTTWVELATTVIRTT YKATRLTTGLEYQFRVKAQNRYGVGPGITSAWIVANYPFKVPGPPGTPQVTAVTKDSMTISWHEPLSDGGSPILGYHVER KERNGILWQTVSKALVPGNIFKSSGLTDGIAYEFRVIAENMAGKSKPSKPSEPMLALDPIDPPGKPVPLNITRHTVTLKW AKPEYTGGFKITSYIVEKRDLPNGRWLKANFSNILENEFTVSGLTEDAAYEFRVIAKNAAGAISPPSEPSDAITCRDDVE APKIKVDVKFKDTVILKAGEAFRLEADVSGRPPPTMEWSKDGKELEGTAKLEIKIADFSTNLVNKDSTRRDSGAYTLTAT NPGGFAKHIFNVKVLDRPGPPEGPLAVTEVTSEKCVLSWFPPLDDGGAKIDHYIVQKRETSRLAWTNVASEVQVTKLKVT KLLKGNEYIFRVMAVNKYGVGEPLESEPVLAVNPYGPPDPPKNPEVTTITKDSMVVCWGHPDSDGGSEIINYIVERRDKA GQRWIKCNKKTLTDLRYKVSGLTEGHEYEFRIMAENAAGISAPSPTSPFYKACDTVFKPGPPGNPRVLDTSRSSISIAWN KPIYDGGSEITGYMVEIALPEEDEWQIVTPPAGLKATSYTITGLTENQEYKIRIYAMNSEGLGEPALVPGTPKAEDRMLP PEIELDADLRKVVTIRACCTLRLFVPIKGRPDPEVKWARDHGESLDKASIESASSYTLLIVGNVNRFDSGKYILTVENSS GSKSAFVNVRVLDTPGPPQDLKVKEVTKTSVTLTWDPPLLDGGSKIKNYIVEKRESTRKAYSTVATNCHKTSWKVDQLQE GCSYYFRVLAENEYGIGLPAETAESVKASERPLPPGKITLMDVTRNSVSLSWEKPEHDGGSRILGYIVEMQTKGSDKWAT CATVKVTEATITGLIQGEEYSFRVSAQNEKGISDPRQLSVPVIAKDLVIPPAFKLLFNTFTVLAGEDLKVDVPFIGRPTP AVTWHKDNVPLKQTTRVNAESTENNSLLTIKDACREDVGHYVVKLTNSAGEAIETLNVIVLDKPGPPTGPVKMDEVTADS ITLSWGPPKYDGGSSINNYIVEKRDTSTTTWQIVSATVARTTIKACRLKTGCEYQFRIAAENRYGKSTYLNSEPTVAQYP FKVPGPPGTPVVTLSSRDSMEVQWNEPISDGGSRVIGYHLERKERNSILWVKLNKTPIPQTKFKTTGLEEGVEYEFRVSA ENIVGIGKPSKVSECYVARDPCDPPGRPEAIIVTRNSVTLQWKKPTYDGGSKITGYIVEKKELPEGRWMKASFTNIIDTH FEVTGLVEDHRYEFRVIARNAAGVFSEPSESTGAITARDEVDPPRISMDPKYKDTIVVHAGESFKVDADIYGKPIPTIQW IKGDQELSNTARLEIKSTDFATSLSVKDAVRVDSGNYILKAKNVAGERSVTVNVKVLDRPGPPEGPVVISGVTAEKCTLA WKPPLQDGGSDIINYIVERRETSRLVWTVVDANVQTLSCKVTKLLEGNEYTFRIMAVNKYGVGEPLESEPVVAKNPFVVP DAPKAPEVTTVTKDSMIVVWERPASDGGSEILGYVLEKRDKEGIRWTRCHKRLIGELRLRVTGLIENHDYEFRVSAENAA GLSEPSPPSAYQKACDPIYKPGPPNNPKVIDITRSSVFLSWSKPIYDGGCEIQGYIVEKCDVNVGEWTMCTPPTGINKTN IEVEKLLEKHEYNFRICAINKAGVGEHADVPGPIIVEEKLEAPDIDLDLELRKIINIRAGGSLRLFVPIKGRPTPEVKWG KVDGEIRDAAIIDVTSSFTSLVLDNVNRYDSGKYTLTLENSSGTKSAFVTVRVLDTPSPPVNLKVTEITKDSVSITWEPP LLDGGSKIKNYIVEKREATRKSYAAVVTNCHKNSWKIDQLQEGCSYYFRVTAENEYGIGLPAQTADPIKVAEVPQPPGKI TVDDVTRNSVSLSWTKPEHDGGSKIIQYIVEMQAKHSEKWSECARVKSLQAVITNLTQGEEYLFRVVAVNEKGRSDPRSL AVPIVAKDLVIEPDVKPAFSSYSVQVGQDLKMEVPISGRPKPTITWTKDGLPLKQTTRINVTDSLDLTTLSIKETHKDDG GQYGITVANVVGQKTASIEIVTLDKPDPPKGPVKFDDVSAESITLSWNPPLYTGGCQITNYIVQKRDTTTTVWDVVSATV ARTTLKVTKLKTGTEYQFRIFAENRYGQSFALESDPIVAQYPYKEPGPPGTPFATAISKDSMVIQWHEPVNNGGSPVIGY HLERKERNSILWTKVNKTIIHDTQFKAQNLEEGIEYEFRVYAENIVGVGKASKNSECYVARDPCDPPGTPEPIMVKRNEI TLQWTKPVYDGGSMITGYIVEKRDLPDGRWMKASFTNVIETQFTVSGLTEDQRYEFRVIAKNAAGAISKPSDSTGPITAK DEVELPRISMDPKFRDTIVVNAGETFRLEADVHGKPLPTIEWLRGDKEIEESARCEIKNTDFKALLIVKDAIRIDGGQYI LRASNVAGSKSFPVNVKVLDRPGPPEGPVQVTGVTSEKCSLTWSPPLQDGGSDISHYVVEKRETSRLAWTVVASEVVTNS LKVTKLLEGNEYVFRIMAVNKYGVGEPLESAPVLMKNPFVLPGPPKSLEVTNIAKDSMTVCWNRPDSDGGSEIIGYIVEK RDRSGIRWIKCNKRRITDLRLRVTGLTEDHEYEFRVSAENAAGVGEPSPATVYYKACDPVFKPGPPTNAHIVDTTKNSIT LAWGKPIYDGGSEILGYVVEICKADEEEWQIVTPQTGLRVTRFEISKLTEHQEYKIRVCALNKVGLGEATSVPGTVKPED KLEAPELDLDSELRKGIVVRAGGSARIHIPFKGRPMPEITWSREEGEFTDKVQIEKGVNYTQLSIDNCDRNDAGKYILKL ENSSGSKSAFVTVKVLDTPGPPQNLAVKEVRKDSAFLVWEPPIIDGGAKVKNYVIDKRESTRKAYANVSSKCSKTSFKVE NLTEGAIYYFRVMAENEFGVGVPVETVDAVKAAEPPSPPGKVTLTDVSQTSASLMWEKPEHDGGSRVLGYVVEMQPKGTE KWSIVAESKVCNAVVTGLSSGQEYQFRVKAYNEKGKSDPRVLGVPVIAKDLTIQPSLKLPFNTYSIQAGEDLKIEIPVIG RPRPNISWVKDGEPLKQTTRVNVEETATSTVLHIKEGNKDDFGKYTVTATNSAGTATENLSVIVLEKPGPPVGPVRFDEV SADFVVISWEPPAYTGGCQISNYIVEKRDTTTTTWHMVSATVARTTIKITKLKTGTEYQFRIFAENRYGKSAPLDSKAVI VQYPFKEPGPPGTPFVTSISKDQMLVQWHEPVNDGGTKIIGYHLEQKEKNSILWVKLNKTPIQDTKFKTTGLDEGLEYEF KVSAENIVGIGKPSKVSECFVARDPCDPPGRPEAIVITRNNVTLKWKKPAYDGGSKITGYIVEKKDLPDGRWMKASFTNV LETEFTVSGLVEDQRYEFRVIARNAAGNFSEPSDSSGAITARDEIDAPNASLDPKYKDVIVVHAGETFVLEADIRGKPIP DVVWSKDGKELEETAARMEIKSTIQKTTLVVKDCIRTDGGQYILKLSNVGGTKSIPITVKVLDRPGSPEGPLKVTGVTAE KCYLAWNPPLQDGGANISHYIIEKRETSRLSWTQVSTEVQALNYKVTKLLPGNEYIFRVMAVNKYGIGEPLESGPVTACN PYKPPGPPSTPEVSAITKDSMVVTWARPVDDGGTEIEGYILEKRDKEGVRWTKCNKKTLTDLRLRVTGLTEGHSYEFRVA AENAAGVGEPSEPSVFYRACDALYPPGPPSNPKVTDTSRSSVSLAWSKPIYDGGAPVKGYVVEVKEAAADEWTTCTPPTG LQGKQFTVTKLKENTEYNFRICAINSEGVGEPATLPGSVVAQERIEPPEIELDADLRKVVVLRASATLRLFVTIKGRPEP EVKWEKAEGILTDRAQIEVTSSFTMLVIDNVTRFDSGRYNLTLENNSGSKTAFVNVRVLDSPSAPVNLTIREVKKDSVTL SWEPPLIDGGAKITNYIVEKRETTRKAYATITNNCTKTTFRIENLQEGCSYYFRVLASNEYGIGLPAETTEPVKVSEPPL PPGRVTLVDVTRNTATIKWEKPESDGGSKITGYVVEMQTKGSEKWSTCTQVKTLEATISGLTAGEEYVFRVAAVNEKGRS DPRQLGVPVIARDIEIKPSVELPFHTFNVKAREQLKIDVPFKGRPQATVNWRKDGQTLKETTRVNVSSSKTVTSLSIKEA SKEDVGTYELCVSNSAGSITVPITIIVLDRPGPPGPIRIDEVSCDSITISWNPPEYDGGCQISNYIVEKKETTSTTWHIV SQAVARTSIKIVRLTTGSEYQFRVCAENRYGKSSYSESSAVVAEYPFSPPGPPGTPKVVHATKSTMLVTWQVPVNDGGSR VIGYHLEYKERSSILWSKANKILIADTQVKVSGLDEGLMYEYRVYAENIAGIGKCSKSCEPVPARDPCDPPGQPEVTNIT RKSVSLKWSKPHYDGGAKITGYIVERRELPDGRWLKCNYTNIQETYFEVTELTEDQRYEFRVFARNAADSVSEPSESTGP IIVKDDVEPPRVMMDVKFRDVIVVKAGEVLKINADIAGRPLPVISWAKDGIEIEERARTEIISTDNHTLLTVKDCIRRDT GQYVLTLKNVAGTRSVAVNCKVLDKPGPPAGPLEINGLTAEKCSLSWGRPQEDGGADIDYYHRKKRETSHLAWTICEGEL QMTSCKVTKLLKGNEYIFRVTGVNKYGVGEPLESVAIKALDPFTVPSPPTSLEITSVTKESMTLCWSRPESDGGSEISGY IIERREKNSLRWVRVNKKPVYDLRVKSTGLREGCEYEYRVYAENAAGLSLPSETSPLIRAEDPVFLPSPPSKPKIVDSGK TTITIAWVKPLFDGGAPITGYTVEYKKSDDTDWKTSIQSLRGTEYTISGLTTGAEYVFRVKSVNKVGASDPSDSSDPQIA KEREEEPLFDIDSEMRKTLIVKAGASFTMTVPFRGRPVPNVLWSKPDTDLRTRAYVDTTDSRTSLTIENANRNDSGKYTL TIQNVLSAASLTLVVKVLDTPGPPTNITVQDVTKESAVLSWDVPENDGGAPVKNYHIEKREASKKAWVSVTNNCNRLSYK VTNLQEGAIYYFRVSGENEFGVGIPAETKEGVKITEKPSPPEKLGVTSISKDSVSLTWLKPEHDGGSRIVHYVVEALEKG QKNWVKCAVAKSTHHVVSGLRENSEYFFRVFAENQAGLSDPRELLLPVLIKEQLEPPEIDMKNFPSHTVYVRAGSNLKVD IPISGKPLPKVTLSRDGVPLKATMRFNTEITAENLTINLKESVTADAGRYEITAANSSGTTKAFINIVVLDRPGPPTGPV VISDITEESVTLKWEPPKYDGGSQVTNYILLKRETSTAVWTEVSATVARTMMKVMKLTTGEEYQFRIKAENRFGISDHID SACVTVKLPYTTPGPPSTPWVTNVTRESITVGWHEPVSNGGSAVVGYHLEMKDRNSILWQKANKLVIRTTHFKVTTISAG LIYEFRVYAENAAGVGKPSHPSEPVLAIDACEPPRNVRITDISKNSVSLSWQQPAFDGGSKITGYIVERRDLPDGRWTKA SFTNVTETQFTISGLTQNSQYEFRVFARNAVGSISNPSEVVGPITCIDSYGGPVIDLPLEYTEVVKYRAGTSVKLRAGIS GKPAPTIEWYKDDKELQTNALVCVENTTDLASILIKDADRLNSGCYELKLRNAMASASATIRVQILDKPGPPGGPIEFKT VTAEKITLLWRPPADDGGAKITHYIVEKRETSRVVWSMVSEHLEECIITTTKIIKGNEYIFRVRAVNKYGIGEPLESDSV VAKNAFVTPGPPGIPEVTKITKNSMTVVWSRPIADGGSDISGYFLEKRDKKSLGWFKVLKETIRDTRQKVTGLTENSDYQ YRVCAVNAAGQGPFSEPSEFYKAADPIDPPGPPAKIRIADSTKSSITLGWSKPVYDGGSAVTGYVVEIRQGEEEEWTTVS TKGEVRTTEYVVSNLKPGVNYYFRVSAVNCAGQGEPIEMNEPVQAKDILEAPEIDLDVALRTSVIAKAGEDVQVLIPFKG RPPPTVTWRKDEKNLGSDARYSIENTDSSSLLTIPQVTRNDTGKYILTIENGVGEPKSSTVSVKVLDTPAACQKLQVKHV SRGTVTLLWDPPLIDGGSPIINYVIEKRDATKRTWSVVSHKCSSTSFKLIDLSEKTPFFFRVLAENEIGIGEPCETTEPV KAAEVPAPIRDLSMKDSTKTSVILSWTKPDFDGGSVITEYVVERKGKGEQTWSHAGISKTCEIEVSQLKEQSVLEFRVFA KNEKGLSDPVTIGPITVKELIITPEVDLSDIPGAQVTVRIGHNVHLELPYKGKPKPSISWLKDGLPLKESEFVRFSKTEN KITLSIKNAKKEHGGKYTVILDNAVCRIAVPITVITLGPPSKPKGPIRFDEIKADSVILSWDVPEDNGGGEITCYSIEKR ETSQTNWKMVCSSVARTTFKVPNLVKDAEYQFRVRAENRYGVSQPLVSSIIVAKHQFRIPGPPGKPVIYNVTSDGMSLTW DAPVYDGGSEVTGFHVEKKERNSILWQKVNTSPISGREYRATGLVEGLDYQFRVYAENSAGLSSPSDPSKFTLAVSPVDP PGTPDYIDVTRETITLKWNPPLRDGGSKIVGYSIEKRQGNERWVRCNFTDVSECQYTVTGLSPGDRYEFRIIARNAVGTI SPPSQSSGIIMTRDENVPPIVEFGPEYFDGLIIKSGESLRIKALVQGRPVPRVTWFKDGVEIEKRMNMEITNVLGSTSLF VRDATRDHRGVYTVEAKNASGSAKAEIKVKVQDTPGKVVGPIRFTNITGEKMTLWWDAPLNDGCAPITHYIIEKRETSRL AWALIEDKCEAQSYTAIKLINGNEYQFRVSAVNKFGVGRPLDSDPVVAQIQYTVPDAPGIPEPSNITGNSITLTWARPES DGGSEIQQYILERREKKSTRWVKVISKRPISETRFKVTGLTEGNEYEFHVMAENAAGVGPASGISRLIKCREPVNPPGPP TVVKVTDTSKTTVSLEWSKPVFDGGMEIIGYIIEMCKTDLGDWHKVNAEACVKTRYTVTDLQAGEEYKFRVSAINGAGKG DSCEVTGTIKAVDRLTAPELDIDANFKQTHVVRAGASIRLFIAYQGRPTPTAVWSKPDSNLSLRADIHTTDSFSTLTVEN CNRNDAGKYTLTVENNSGSKSITFTVKVLDTPGPPGPITFKDVTRGSATLMWDAPLLDGGARIHHYVVEKREASRRSWQV ISEKCTRQIFKVNDLAEGVPYYFRVSAVNEYGVGEPYEMPEPIVATEQPAPPRRLDVVDTSKSSAVLAWLKPDHDGGSRI TGYLLEMRQKGSDLWVEAGHTKQLTFTVERLVEKTEYEFRVKAKNDAGYSEPREAFSSVIIKEPQIEPTADLTGITNQLI TCKAGSPFTIDVPISGRPAPKVTWKLEEMRLKETDRVSITTTKDRTTLTVKDSMRGDSGRYFLTLENTAGVKTFSVTVVV IGRPGPVTGPIEVSSVSAESCVLSWGEPKDGGGTEITNYIVEKRESGTTAWQLVNSSVKRTQIKVTHLTKYMEYSFRVSS ENRFGVSKPLESAPIIAEHPFVPPSAPTRPEVYHVSANAMSIRWEEPYHDGGSKIIGYWVEKKERNTILWVKENKVPCLE CNYKVTGLVEGLEYQFRTYALNAAGVSKASEASRPIMAQNPVDAPGRPEVTDVTRSTVSLIWSAPAYDGGSKVVGYIIER KPVSEVGDGRWLKCNYTIVSDNFFTVTALSEGDTYEFRVLAKNAAGVISKGSESTGPVTCRDEYAPPKAELDARLHGDLV TIRAGSDLVLDAAVGGKPEPKIIWTKGDKELDLCEKVSLQYTGKRATAVIKFCDRSDSGKYTLTVKNASGTKAVSVMVKV LDSPGPCGKLTVSRVTQEKCTLAWSLPQEDGGAEITHYIVERRETSRLNWVIVEGECPTLSYVVTRLIKNNEYIFRVRAV NKYGPGVPVESEPIVARNSFTIPSPPGIPEEVGTGKEHIIIQWTKPESDGGNEISNYLVDKREKESLRWTRVNKDYVVYD TRLKVTSLMEGCDYQFRVTAVNAAGNSEPSERSNFISCREPSYTPGPPSAPRVVDTTKHSISLAWTKPMYDGGTDIVGYV LEMQEKDTDQWYRVHTNATIRNTEFTVPDLKMGQKYSFRVAAVNVKGMSEYSESIAEIEPVERIEIPDLELADDLKKTVT IRAGASLRLMVSVSGRPPPVITWSKQGIDLASRAIIDTTESYSLLIVDKVNRYDAGKYTIEAENQSGKKSATVLVKVYDT PGPCPSVKVKEVSRDSVTITWEIPTIDGGAPINNYIVEKREAAMRAFKTVTTKCSKTLYRISGLVEGTMHYFRVLPENIY GIGEPCETSDAVLVSEVPLVPAKLEVVDVTKSTVTLAWEKPLYDGGSRLTGYVLEACKAGTERWMKVVTLKPTVLEHTVT SLNEGEQYLFRIRAQNEKGVSEPRETVTAVTVQDLRVLPTIDLSTMPQKTIHVPAGRPVELVIPIAGRPPPAASWFFAGS KLRESERVTVETHTKVAKLTIRETTIRDTGEYTLELKNVTGTTSETIKVIILDKPGPPTGPIKIDEIDATSITISWEPPE LDGGAPLSGYVVEQRDAHRPGWLPVSESVTRSTFKFTRLTEGNEYVFRVAATNRFGIGSYLQSEVIECRSSIRIPGPPET LQIFDVSRDGMTLTWYPPEDDGGSQVTGYIVERKEVRADRWVRVNKVPVTMTRYRSTGLTEGLEYEHRVTAINARGSGKP SRPSKPIVAMDPIAPPGKPQNPRVTDTTRTSVSLAWSVPEDEGGSKVTGYLIEMQKVDQHEWTKCNTTPTKIREYTLTHL PQGAEYRFRVLACNAGGPGEPAEVPGTVKVTEMLEYPDYELDERYQEGIFVRQGGVIRLTIPIKGKPFPICKWTKEGQDI SKRAMIATSETHTELVIKEADRGDSGTYDLVLENKCGKKAVYIKVRVIGSPNSPEGPLEYDDIQVRSVRVSWRPPADDGG ADILGYILERREVPKAAWYTIDSRVRGTSLVVKGLKENVEYHFRVSAENQFGISKPLKSEEPVTPKTPLNPPEPPSNPPE VLDVTKSSVSLSWSRPKDDGGSRVTGYYIERKETSTDKVVRHNKTQITTTMYTVTGLVPDAEYQFRIIAQNDVGLSETSP ASEPVVCKDPFDKPSQPGELEILSISKDSVTLQWEKPECDGGKEILGYWVEYRQSGDSAWKKSNKERIKDKQFTIGGLLE ATEYEFRVFAENETGLSRPRRTAMSIKTKLTSGEAPGIRKEMKDVTTKLGEAAQLSCQIVGRPLPDIKWYRFGKELIQSR KYKMSSDGRTHTLTVMTEEQEDEGVYTCIATNEVGEVETSSKLLLQATPQFHPGYPLKEKYYGAVGSTLRLHVMYIGRPV PAMTWFHGQKLLQNSENITIENTEHYTHLVMKNVQRKTHAGKYKVQLSNVFGTVDAILDVEIQDKPDKPTGPIVIEALLK NSAVISWKPPADDGGSWITNYVVEKCEAKEGAEWQLVSSAISVTTCRIVNLTENAGYYFRVSAQNTFGISDPLEVSSVVI IKSPFEKPGAPGKPTITAVTKDSCVVAWKPPASDGGAKIRNYYLEKREKKQNKWISVTTEEIRETVFSVKNLIEGLEYEF RVKCENLGGESEWSEISEPITPKSDVPIQAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRI QEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDP VITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVADVPDPPRGVKVSDASRDS VNLTWTEPASDGGSKITNYIVEKCATTAERWLRVGQARETRYTVINLFGKTSYQFRVIAENKFGLSKPSEPSEPTITKED KTRAMNYDEEVDETREVSMTKASHSSTKELYEKYMIAEDLGRGEFGIVHRCVETSSKKTYMAKFVKVKGTDQVLVKKEIS ILNIARHRNILHLHESFESMEELVMIFEFISGLDIFERINTSAFELNEREIVSYVHQVCEALQFLHSHNIGHFDIRPENI IYQTRRSSTIKIIEFGQARQLKPGDNFRLLFTAPEYYAPEVHQHDVVSTATDMWSLGTLVYVLLSGINPFLAETNQQIIE NIMNAEYTFDEEAFKEISIEAMDFVDRLLVKERKSRMTASEALQHPWLKQKIERVSTKVIRTLKHRRYYHTLIKKDLNMV VSAARISCGGAIRSQKGVSVAKVKVASIEIGPVSGQIMHAVGEEGGHVKYVCKIENYDQSTQVTWYFGVRQLENSEKYEI TYEDGVAILYVKDITKLDDGTYRCKVVNDYGEDSSYAELFVKGVREVYDYYCRRTMKKIKRRTDTMRLLERPPEFTLPLY NKTAYVGENVRFGVTITVHPEPHVTWYKSGQKIKPGDNDKKYTFESDKGLYQLTINSVTTDDDAEYTVVARNKYGEDSCK AKLTVTLHPPPTDSTLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRD TLPEDTGYYRVTATNTAGSTSCQAHLQVERLRYKKQEFKSKEEHERHVQKQIDKTLRMAEILSGTESVPLTQVAKEALRE AAVLYKPAVSTKTVKGEFRLEIEEKKEERKLRMPYDVPEPRKYKQTTIEEDQRIKQFVPMSDMKWYKKIRDQYEMPGKLD RVVQKRPKRIRLSRWEQFYVMPLPRITDQYRPKWRIPKLSQDDLEIVRPARRRTPSPDYDFYYRPRRRSLGDISDEELLL PIDDYLAMKRTEEERLRLEEELELGFSASPPSRSPPHFELSSLRYSSPQAHVKVEETRKNFRYSTYHIPTKAEASTSYAE LRERHAQAAYRQPKQRQRIMAEREDEELLRPVTTTQHLSEYKSELDFMSKEEKSRKKSRRQREVTEITEIEEEYEISKHA QRESSSSASRLLRRRRSLSPTYIELMRPVSELIRSRPQPAEEYEDDTERRSPTPERTRPRSPSPVSSERSLSRFERSARF DIFSRYESMKAALKTQKTSERKYEVLSQQPFTLDHAPRITLRMRSHRVPCGQNTRFILNVQSKPTAEVKWYHNGVELQES SKIHYTNTSGVLTLEILDCHTDDSGTYRAVCTNYKGEASDYATLDVTGGDYTTYASQRRDEEVPRSVFPELTRTEAYAVP SFKKTSEMEASSSVREVKSQMTETRESLSSYEHSASAEMKSAALEEKSLEEKSTTRKIKTTLAARILTKPRSMTVYEGES ARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQASDEGNYSVVVENSEGKQEAEFTLTIQKARVTE KAVTSPPRVKSPEPRVKSPEAVKSPKRVKSPEPSHPKAVSPTETKPTPREKVQHLPVSAPPKITQFLKAEASKEIAKLTC VVESSVLRAKEVTWYKDGKKLKENGHFQFHYSADGTYELKINNLTESDQGEYVCEISGEGGTSKTNLQFMGQAFKSIHEK VSKISETKKSDQKTTESTVTRKTEPKAPEPISSKPVIVTGLQDTTVSSDSVAKFAVKATGEPRPTAIWTKDGKAITQGGK YKLSEDKGGFFLEIHKTDTSDSGLYTCTVKNSAGSVSSSCKLTIKAIKDTEAQKVSTQKTSEITPQKKAVVQEEISQKAL RSEEIKMSEAKSQEKLALKEEASKVLISEEVKKSAATSLEKSIVHEEITKTSQASEEVRTHAEIKAFSTQMSINEGQRLV LKANIAGATDVKWVLNGVELTNSEEYRYGVSGSDQTLTIKQASHRDEGILTCISKTKEGIVKCQYDLTLSKELSDAPAFI SQPRSQNINEGQNVLFTCEISGEPSPEIEWFKNNLPISISSNVSISRSRNVYSLEIRNASVSDSGKYTIKAKNFRGQCSA TASLMVLPLVEEPSREVVLRTSGDTSLQGSFSSQSVQMSASKQEASFSSFSSSSASSMTEMKFASMSAQSMSSMQESFVE MSSSSFMGISNMTQLESSTSKMLKAGIRGIPPKIEALPSDISIDEGKVLTVACAFTGEPTPEVTWSCGGRKIHSQEQGRF HIENTDDLTTLIIMDVQKQDGGLYTLSLGNEFGSDSATVNIHIRSI ; _struct_ref.pdbx_db_isoform ? # _struct_ref_seq.align_id 1 _struct_ref_seq.ref_id 1 _struct_ref_seq.pdbx_PDB_id_code 1NCU _struct_ref_seq.pdbx_strand_id A _struct_ref_seq.seq_align_beg 10 _struct_ref_seq.pdbx_seq_align_beg_ins_code ? _struct_ref_seq.seq_align_end 106 _struct_ref_seq.pdbx_seq_align_end_ins_code ? _struct_ref_seq.pdbx_db_accession Q10466 _struct_ref_seq.db_align_beg 26059 _struct_ref_seq.pdbx_db_align_beg_ins_code ? _struct_ref_seq.db_align_end 26155 _struct_ref_seq.pdbx_db_align_end_ins_code ? _struct_ref_seq.pdbx_auth_seq_align_beg -5 _struct_ref_seq.pdbx_auth_seq_align_end 91 # _pdbx_struct_assembly.id 1 _pdbx_struct_assembly.details author_defined_assembly _pdbx_struct_assembly.method_details ? _pdbx_struct_assembly.oligomeric_details monomeric _pdbx_struct_assembly.oligomeric_count 1 # _pdbx_struct_assembly_gen.assembly_id 1 _pdbx_struct_assembly_gen.oper_expression 1 _pdbx_struct_assembly_gen.asym_id_list A # _pdbx_struct_oper_list.id 1 _pdbx_struct_oper_list.type 'identity operation' _pdbx_struct_oper_list.name 1_555 _pdbx_struct_oper_list.symmetry_operation ? _pdbx_struct_oper_list.matrix[1][1] 1.0000000000 _pdbx_struct_oper_list.matrix[1][2] 0.0000000000 _pdbx_struct_oper_list.matrix[1][3] 0.0000000000 _pdbx_struct_oper_list.vector[1] 0.0000000000 _pdbx_struct_oper_list.matrix[2][1] 0.0000000000 _pdbx_struct_oper_list.matrix[2][2] 1.0000000000 _pdbx_struct_oper_list.matrix[2][3] 0.0000000000 _pdbx_struct_oper_list.vector[2] 0.0000000000 _pdbx_struct_oper_list.matrix[3][1] 0.0000000000 _pdbx_struct_oper_list.matrix[3][2] 0.0000000000 _pdbx_struct_oper_list.matrix[3][3] 1.0000000000 _pdbx_struct_oper_list.vector[3] 0.0000000000 # _struct_biol.id 1 _struct_biol.details ? # loop_ _struct_mon_prot_cis.pdbx_id _struct_mon_prot_cis.label_comp_id _struct_mon_prot_cis.label_seq_id _struct_mon_prot_cis.label_asym_id _struct_mon_prot_cis.label_alt_id _struct_mon_prot_cis.pdbx_PDB_ins_code _struct_mon_prot_cis.auth_comp_id _struct_mon_prot_cis.auth_seq_id _struct_mon_prot_cis.auth_asym_id _struct_mon_prot_cis.pdbx_label_comp_id_2 _struct_mon_prot_cis.pdbx_label_seq_id_2 _struct_mon_prot_cis.pdbx_label_asym_id_2 _struct_mon_prot_cis.pdbx_PDB_ins_code_2 _struct_mon_prot_cis.pdbx_auth_comp_id_2 _struct_mon_prot_cis.pdbx_auth_seq_id_2 _struct_mon_prot_cis.pdbx_auth_asym_id_2 _struct_mon_prot_cis.pdbx_PDB_model_num _struct_mon_prot_cis.pdbx_omega_angle 1 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 1 -0.66 2 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 2 0.01 3 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 3 -0.66 4 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 4 0.28 5 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 5 0.08 6 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 6 -0.43 7 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 7 -0.39 8 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 8 0.85 9 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 9 0.18 10 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 10 0.78 11 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 11 -1.09 12 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 12 -0.74 13 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 13 0.36 14 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 14 0.02 15 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 15 -0.36 16 GLU 41 A . ? GLU 26 A PRO 42 A ? PRO 27 A 16 0.37 # loop_ _struct_sheet.id _struct_sheet.type _struct_sheet.number_strands _struct_sheet.details S1 ? 4 ? S2 ? 3 ? # loop_ _struct_sheet_order.sheet_id _struct_sheet_order.range_id_1 _struct_sheet_order.range_id_2 _struct_sheet_order.offset _struct_sheet_order.sense S1 1 2 ? anti-parallel S1 2 3 ? anti-parallel S1 3 4 ? anti-parallel S2 1 2 ? parallel S2 2 3 ? anti-parallel # loop_ _struct_sheet_range.sheet_id _struct_sheet_range.id _struct_sheet_range.beg_label_comp_id _struct_sheet_range.beg_label_asym_id _struct_sheet_range.beg_label_seq_id _struct_sheet_range.pdbx_beg_PDB_ins_code _struct_sheet_range.end_label_comp_id _struct_sheet_range.end_label_asym_id _struct_sheet_range.end_label_seq_id _struct_sheet_range.pdbx_end_PDB_ins_code _struct_sheet_range.beg_auth_comp_id _struct_sheet_range.beg_auth_asym_id _struct_sheet_range.beg_auth_seq_id _struct_sheet_range.end_auth_comp_id _struct_sheet_range.end_auth_asym_id _struct_sheet_range.end_auth_seq_id S1 1 ALA A 14 ? LYS A 20 ? ALA A -1 LYS A 5 S1 2 ARG A 33 ? GLU A 41 ? ARG A 18 GLU A 26 S1 3 LYS A 69 ? ILE A 74 ? LYS A 54 ILE A 59 S1 4 HIS A 61 ? THR A 66 ? HIS A 46 THR A 51 S2 1 SER A 23 ? TYR A 27 ? SER A 8 TYR A 12 S2 2 GLY A 94 ? GLN A 105 ? GLY A 79 GLN A 90 S2 3 GLY A 83 ? ASN A 91 ? GLY A 68 ASN A 76 # loop_ _pdbx_struct_sheet_hbond.sheet_id _pdbx_struct_sheet_hbond.range_id_1 _pdbx_struct_sheet_hbond.range_id_2 _pdbx_struct_sheet_hbond.range_1_label_atom_id _pdbx_struct_sheet_hbond.range_1_label_comp_id _pdbx_struct_sheet_hbond.range_1_label_asym_id _pdbx_struct_sheet_hbond.range_1_label_seq_id _pdbx_struct_sheet_hbond.range_1_PDB_ins_code _pdbx_struct_sheet_hbond.range_1_auth_atom_id _pdbx_struct_sheet_hbond.range_1_auth_comp_id _pdbx_struct_sheet_hbond.range_1_auth_asym_id _pdbx_struct_sheet_hbond.range_1_auth_seq_id _pdbx_struct_sheet_hbond.range_2_label_atom_id _pdbx_struct_sheet_hbond.range_2_label_comp_id _pdbx_struct_sheet_hbond.range_2_label_asym_id _pdbx_struct_sheet_hbond.range_2_label_seq_id _pdbx_struct_sheet_hbond.range_2_PDB_ins_code _pdbx_struct_sheet_hbond.range_2_auth_atom_id _pdbx_struct_sheet_hbond.range_2_auth_comp_id _pdbx_struct_sheet_hbond.range_2_auth_asym_id _pdbx_struct_sheet_hbond.range_2_auth_seq_id S1 1 2 O THR A 19 ? O THR A 4 N ASP A 37 ? N ASP A 22 S1 2 3 O CYS A 36 ? O CYS A 21 N SER A 70 ? N SER A 55 S1 3 4 N THR A 71 ? N THR A 56 O THR A 64 ? O THR A 49 S2 1 2 O MET A 24 ? O MET A 9 N THR A 103 ? N THR A 88 S2 2 3 O ALA A 98 ? O ALA A 83 N VAL A 87 ? N VAL A 72 # loop_ _pdbx_validate_torsion.id _pdbx_validate_torsion.PDB_model_num _pdbx_validate_torsion.auth_comp_id _pdbx_validate_torsion.auth_asym_id _pdbx_validate_torsion.auth_seq_id _pdbx_validate_torsion.PDB_ins_code _pdbx_validate_torsion.label_alt_id _pdbx_validate_torsion.phi _pdbx_validate_torsion.psi 1 1 LYS A -5 ? ? -174.43 29.69 2 1 THR A -4 ? ? -153.67 -42.32 3 1 THR A -3 ? ? -165.97 36.57 4 1 ALA A -1 ? ? -130.94 -137.39 5 1 LYS A 5 ? ? -45.62 172.27 6 1 GLU A 13 ? ? -160.22 -121.64 7 1 GLU A 15 ? ? -68.27 -82.74 8 1 SER A 16 ? ? -151.23 51.57 9 1 ARG A 35 ? ? -162.46 -36.96 10 1 LYS A 36 ? ? 176.41 -26.54 11 1 GLN A 38 ? ? 66.78 73.11 12 1 VAL A 39 ? ? 33.15 34.24 13 1 LEU A 40 ? ? 41.97 -86.52 14 1 SER A 41 ? ? -6.91 93.21 15 1 THR A 42 ? ? 26.73 53.58 16 1 ALA A 44 ? ? -177.51 -33.81 17 1 THR A 51 ? ? -114.67 -149.43 18 1 SER A 60 ? ? -151.43 13.38 19 1 VAL A 62 ? ? -39.04 151.10 20 1 GLN A 63 ? ? -94.27 -81.34 21 1 ALA A 64 ? ? -168.83 31.30 22 1 SER A 65 ? ? -160.30 41.63 23 1 GLU A 67 ? ? 27.79 -139.67 24 1 ASN A 76 ? ? -128.72 -159.69 25 1 GLU A 78 ? ? -166.68 21.45 26 1 LYS A 80 ? ? -176.63 77.80 27 2 LYS A -5 ? ? -167.14 -33.71 28 2 THR A -3 ? ? 56.14 103.12 29 2 ALA A -1 ? ? -77.41 -147.00 30 2 THR A 4 ? ? -150.14 79.36 31 2 LYS A 5 ? ? -49.47 176.87 32 2 ARG A 7 ? ? -89.86 -150.58 33 2 GLU A 13 ? ? -162.42 -123.28 34 2 GLU A 15 ? ? -56.20 -72.66 35 2 SER A 16 ? ? 173.46 51.64 36 2 PRO A 27 ? ? -70.93 -166.62 37 2 VAL A 28 ? ? -39.65 132.14 38 2 ARG A 35 ? ? -161.34 23.50 39 2 GLN A 38 ? ? -179.43 45.52 40 2 VAL A 39 ? ? 37.45 26.97 41 2 LEU A 40 ? ? 42.68 -95.10 42 2 SER A 41 ? ? 35.51 31.48 43 2 THR A 42 ? ? 34.42 38.55 44 2 ALA A 44 ? ? 175.85 -27.18 45 2 LYS A 52 ? ? -49.93 -79.17 46 2 SER A 60 ? ? -151.26 11.82 47 2 GLN A 63 ? ? -72.83 -78.87 48 2 ALA A 64 ? ? -157.88 30.07 49 2 ASP A 66 ? ? -148.77 18.02 50 2 GLU A 67 ? ? 55.53 -167.34 51 2 GLU A 78 ? ? -158.88 9.76 52 2 LYS A 80 ? ? -175.71 50.38 53 3 LEU A -2 ? ? -171.07 -173.65 54 3 ALA A -1 ? ? -105.80 -146.88 55 3 LEU A 3 ? ? -100.88 -64.81 56 3 THR A 4 ? ? -113.72 69.58 57 3 LYS A 5 ? ? -46.87 172.34 58 3 GLU A 13 ? ? -168.78 -94.10 59 3 GLU A 15 ? ? -54.63 -89.94 60 3 SER A 16 ? ? 176.26 64.47 61 3 ARG A 35 ? ? -161.12 62.35 62 3 GLN A 38 ? ? 60.67 122.39 63 3 VAL A 39 ? ? -33.13 111.28 64 3 SER A 41 ? ? -39.13 94.81 65 3 THR A 42 ? ? 26.02 45.53 66 3 ALA A 44 ? ? 175.86 -32.79 67 3 THR A 51 ? ? -120.01 -139.85 68 3 LYS A 52 ? ? -59.67 -87.98 69 3 SER A 60 ? ? -151.92 10.48 70 3 GLN A 63 ? ? -56.55 -86.17 71 3 ALA A 64 ? ? -175.50 33.25 72 3 SER A 65 ? ? -142.95 40.88 73 3 GLU A 67 ? ? 38.30 -130.04 74 3 ASN A 76 ? ? -147.67 -152.76 75 3 GLU A 78 ? ? -169.42 26.94 76 3 LYS A 80 ? ? -172.34 64.60 77 3 GLN A 90 ? ? -55.07 -162.87 78 4 LYS A -5 ? ? -48.82 167.64 79 4 LEU A -2 ? ? -60.22 -151.83 80 4 ALA A -1 ? ? -162.07 -96.64 81 4 LYS A 5 ? ? -45.29 171.09 82 4 GLU A 13 ? ? -160.32 -121.33 83 4 SER A 16 ? ? -47.36 160.55 84 4 ALA A 17 ? ? -89.87 -159.57 85 4 ARG A 35 ? ? -162.29 -37.77 86 4 LYS A 36 ? ? -179.15 -25.47 87 4 GLN A 38 ? ? 51.77 94.64 88 4 VAL A 39 ? ? 27.19 100.60 89 4 SER A 41 ? ? -41.65 92.35 90 4 THR A 42 ? ? 25.77 45.21 91 4 ALA A 44 ? ? -166.58 29.55 92 4 ARG A 45 ? ? 176.81 -29.80 93 4 THR A 51 ? ? -146.98 48.33 94 4 LYS A 52 ? ? 69.77 -82.28 95 4 VAL A 62 ? ? -48.72 155.91 96 4 GLN A 63 ? ? -93.78 -158.21 97 4 ALA A 64 ? ? -96.31 31.37 98 4 GLU A 67 ? ? 29.84 -153.88 99 4 SER A 77 ? ? -34.51 -39.65 100 4 GLU A 78 ? ? -162.58 20.30 101 4 GLN A 90 ? ? -55.42 -165.44 102 5 THR A -4 ? ? -137.99 -87.27 103 5 THR A -3 ? ? -177.70 -33.21 104 5 ALA A -1 ? ? -106.26 -129.93 105 5 VAL A 11 ? ? -150.57 -156.64 106 5 GLU A 13 ? ? -145.69 -129.67 107 5 GLU A 15 ? ? -45.65 -76.11 108 5 SER A 16 ? ? -162.70 43.97 109 5 ARG A 35 ? ? -161.26 -52.85 110 5 LYS A 36 ? ? -175.02 -38.11 111 5 GLN A 38 ? ? -161.63 66.25 112 5 VAL A 39 ? ? 39.59 24.76 113 5 LEU A 40 ? ? 42.27 -97.02 114 5 SER A 41 ? ? 26.70 84.21 115 5 THR A 42 ? ? 25.02 45.45 116 5 ALA A 44 ? ? 166.85 -26.51 117 5 LYS A 52 ? ? -51.02 -80.53 118 5 SER A 60 ? ? -150.60 10.14 119 5 SER A 61 ? ? -177.96 -32.63 120 5 VAL A 62 ? ? 39.20 66.27 121 5 GLN A 63 ? ? -44.72 -74.70 122 5 SER A 65 ? ? 69.54 142.70 123 5 ASP A 66 ? ? -114.54 -82.18 124 5 GLU A 67 ? ? 175.18 -161.01 125 5 ASN A 76 ? ? -175.25 -139.67 126 5 SER A 77 ? ? -19.14 -59.12 127 5 GLU A 78 ? ? -163.98 22.92 128 5 ILE A 89 ? ? -150.86 67.55 129 5 GLN A 90 ? ? -176.27 63.22 130 6 THR A -4 ? ? -165.69 -68.94 131 6 THR A -3 ? ? 37.31 35.55 132 6 LEU A -2 ? ? -48.84 172.21 133 6 ALA A -1 ? ? -78.37 -144.04 134 6 SER A 8 ? ? -71.00 -168.56 135 6 GLU A 13 ? ? -165.20 -123.74 136 6 SER A 16 ? ? -179.73 53.09 137 6 PRO A 27 ? ? -72.31 -167.32 138 6 ARG A 35 ? ? -161.75 -41.10 139 6 LYS A 36 ? ? 176.98 -33.15 140 6 GLN A 38 ? ? 63.49 127.84 141 6 VAL A 39 ? ? -26.25 103.79 142 6 LEU A 40 ? ? -38.60 -33.47 143 6 SER A 41 ? ? -48.05 93.36 144 6 THR A 42 ? ? 34.87 70.74 145 6 ARG A 45 ? ? -174.63 -38.47 146 6 THR A 51 ? ? -119.31 -123.29 147 6 LYS A 52 ? ? -77.12 -85.67 148 6 VAL A 62 ? ? -38.08 152.97 149 6 GLN A 63 ? ? -122.04 -71.56 150 6 ALA A 64 ? ? -150.53 18.53 151 6 SER A 77 ? ? -38.68 -27.86 152 6 GLU A 78 ? ? -174.51 19.82 153 6 ILE A 89 ? ? -142.21 58.02 154 7 LYS A -5 ? ? -147.55 16.44 155 7 THR A -4 ? ? -153.80 -41.30 156 7 THR A -3 ? ? -120.94 -78.38 157 7 LEU A -2 ? ? -171.75 -175.76 158 7 ALA A -1 ? ? -87.48 -102.76 159 7 GLU A 13 ? ? -164.72 -128.22 160 7 SER A 16 ? ? -177.58 54.88 161 7 PRO A 27 ? ? -72.60 -163.63 162 7 VAL A 28 ? ? -38.75 124.16 163 7 ARG A 35 ? ? -160.80 66.46 164 7 LYS A 36 ? ? 58.07 19.64 165 7 GLN A 38 ? ? 53.32 78.98 166 7 VAL A 39 ? ? 36.74 97.76 167 7 SER A 41 ? ? -33.10 91.17 168 7 THR A 42 ? ? 29.55 43.54 169 7 SER A 43 ? ? -46.71 -75.96 170 7 ARG A 45 ? ? -155.28 15.38 171 7 GLN A 47 ? ? -150.18 85.20 172 7 THR A 51 ? ? -112.53 -140.55 173 7 LYS A 52 ? ? -74.27 -71.99 174 7 SER A 60 ? ? -151.06 -54.04 175 7 VAL A 62 ? ? -37.68 138.73 176 7 GLN A 63 ? ? -115.46 -93.32 177 7 GLU A 67 ? ? 71.67 -161.76 178 7 SER A 77 ? ? -34.05 -29.84 179 7 GLU A 78 ? ? -171.87 9.99 180 7 GLN A 90 ? ? -5.68 78.23 181 8 LYS A -5 ? ? -62.35 -151.08 182 8 ALA A -1 ? ? -90.41 -143.21 183 8 GLU A 13 ? ? -154.04 -123.75 184 8 SER A 16 ? ? -60.66 -151.02 185 8 PRO A 27 ? ? -65.08 -171.82 186 8 ARG A 35 ? ? -161.40 -41.58 187 8 LYS A 36 ? ? 179.02 -26.13 188 8 GLN A 38 ? ? 58.12 77.65 189 8 VAL A 39 ? ? 43.02 -171.99 190 8 LEU A 40 ? ? -131.80 -40.73 191 8 SER A 41 ? ? -38.50 91.89 192 8 THR A 42 ? ? 35.53 43.66 193 8 ALA A 44 ? ? -178.97 -36.23 194 8 THR A 51 ? ? -120.45 -139.78 195 8 LYS A 52 ? ? -61.05 -89.43 196 8 SER A 61 ? ? -139.08 -37.74 197 8 VAL A 62 ? ? 38.74 44.63 198 8 GLN A 63 ? ? -71.87 -151.20 199 8 SER A 65 ? ? 60.43 115.87 200 8 ASP A 66 ? ? -142.05 39.17 201 8 GLU A 67 ? ? 30.02 -155.73 202 8 ASN A 76 ? ? -174.69 -141.49 203 8 SER A 77 ? ? -19.23 -60.04 204 8 GLU A 78 ? ? -159.69 18.42 205 8 ILE A 89 ? ? -128.62 -155.99 206 8 GLN A 90 ? ? 179.81 135.40 207 9 THR A -3 ? ? 37.49 31.90 208 9 ALA A -1 ? ? -97.63 -87.38 209 9 GLU A 13 ? ? -165.85 -131.27 210 9 GLU A 15 ? ? -55.92 -88.99 211 9 SER A 16 ? ? 177.78 61.11 212 9 ARG A 35 ? ? -161.47 84.22 213 9 GLN A 38 ? ? 73.43 -81.42 214 9 SER A 41 ? ? -52.41 96.38 215 9 THR A 42 ? ? 31.92 42.49 216 9 ALA A 44 ? ? -178.68 34.98 217 9 ARG A 45 ? ? -177.45 -27.60 218 9 THR A 51 ? ? -127.80 -162.71 219 9 LYS A 52 ? ? -52.61 -73.41 220 9 SER A 60 ? ? -150.71 9.83 221 9 GLN A 63 ? ? -79.48 -83.35 222 9 ALA A 64 ? ? -166.12 27.92 223 9 SER A 65 ? ? -146.89 51.11 224 9 GLU A 67 ? ? 57.07 -171.58 225 9 SER A 77 ? ? -32.39 -31.24 226 9 GLU A 78 ? ? -159.21 -2.67 227 9 ILE A 89 ? ? -125.49 -143.25 228 9 GLN A 90 ? ? -27.45 90.18 229 10 LYS A -5 ? ? -50.00 -90.46 230 10 THR A -4 ? ? -153.49 61.27 231 10 LEU A -2 ? ? -158.72 9.28 232 10 ALA A -1 ? ? 55.78 -101.52 233 10 SER A 8 ? ? 47.55 -165.68 234 10 MET A 9 ? ? -175.01 -178.88 235 10 GLU A 13 ? ? -162.04 -128.16 236 10 SER A 16 ? ? -177.80 55.28 237 10 PRO A 27 ? ? -65.40 -168.26 238 10 VAL A 28 ? ? -38.82 130.36 239 10 ARG A 35 ? ? -160.61 -56.19 240 10 LYS A 36 ? ? -144.81 -32.02 241 10 GLN A 38 ? ? 70.84 -80.23 242 10 SER A 41 ? ? -41.62 93.92 243 10 THR A 42 ? ? 37.02 35.34 244 10 ALA A 44 ? ? 176.62 -32.71 245 10 ARG A 45 ? ? -140.35 13.50 246 10 THR A 51 ? ? -117.90 -137.79 247 10 LYS A 52 ? ? -56.11 -90.60 248 10 VAL A 62 ? ? -48.07 158.68 249 10 ALA A 64 ? ? -93.16 35.15 250 10 GLU A 67 ? ? 49.66 -173.91 251 10 ASN A 69 ? ? -162.20 67.71 252 10 ASN A 76 ? ? -175.40 -139.45 253 10 SER A 77 ? ? -21.94 -58.00 254 10 GLU A 78 ? ? -160.81 20.66 255 10 LYS A 80 ? ? -168.13 62.78 256 11 LYS A -5 ? ? -172.27 -48.12 257 11 THR A -3 ? ? -111.18 -87.99 258 11 LEU A -2 ? ? -172.14 -174.23 259 11 ALA A -1 ? ? -87.71 -107.68 260 11 LYS A 5 ? ? -47.91 172.51 261 11 GLU A 13 ? ? -159.78 -124.38 262 11 SER A 16 ? ? -176.15 57.66 263 11 ARG A 35 ? ? -160.74 -43.07 264 11 LYS A 36 ? ? 178.50 -25.07 265 11 GLN A 38 ? ? 60.09 70.82 266 11 VAL A 39 ? ? 42.73 -174.28 267 11 LEU A 40 ? ? -131.61 -30.78 268 11 SER A 41 ? ? -48.28 92.37 269 11 THR A 42 ? ? 33.46 48.01 270 11 ALA A 44 ? ? 176.48 -27.77 271 11 THR A 51 ? ? -126.44 -134.16 272 11 LYS A 52 ? ? -50.71 -95.79 273 11 SER A 60 ? ? -150.72 15.63 274 11 SER A 61 ? ? -167.79 -43.09 275 11 VAL A 62 ? ? 45.03 -176.22 276 11 ALA A 64 ? ? -92.51 31.09 277 11 SER A 65 ? ? -151.49 19.75 278 11 GLU A 67 ? ? 39.17 -140.69 279 11 ASN A 76 ? ? -174.50 -143.27 280 11 SER A 77 ? ? -20.87 -56.80 281 11 GLU A 78 ? ? -159.27 14.51 282 11 LYS A 80 ? ? -161.22 60.81 283 11 GLN A 90 ? ? -59.93 -165.33 284 12 THR A -4 ? ? -142.92 -62.30 285 12 THR A -3 ? ? -135.94 -48.34 286 12 LEU A -2 ? ? -172.03 -166.87 287 12 ALA A -1 ? ? -103.43 -98.45 288 12 SER A 8 ? ? 47.91 -167.55 289 12 GLU A 13 ? ? -172.14 -131.48 290 12 GLU A 15 ? ? -65.54 -87.43 291 12 SER A 16 ? ? -179.44 67.95 292 12 GLN A 38 ? ? -163.05 82.78 293 12 VAL A 39 ? ? 27.45 102.50 294 12 SER A 41 ? ? -48.45 91.90 295 12 THR A 42 ? ? 26.37 50.48 296 12 ALA A 44 ? ? 170.14 -28.39 297 12 THR A 51 ? ? -100.02 -146.51 298 12 SER A 60 ? ? -151.60 15.52 299 12 GLN A 63 ? ? -89.00 -83.87 300 12 ALA A 64 ? ? -178.20 34.33 301 12 SER A 65 ? ? -152.24 25.10 302 12 GLU A 67 ? ? 28.61 -152.38 303 12 ASN A 69 ? ? -163.34 53.07 304 12 ASN A 76 ? ? -160.40 -143.30 305 12 SER A 77 ? ? -20.21 -59.48 306 12 GLU A 78 ? ? -166.39 25.88 307 12 ILE A 89 ? ? -140.68 38.45 308 13 LYS A -5 ? ? -63.39 -142.73 309 13 THR A -3 ? ? 55.74 101.98 310 13 ALA A -1 ? ? -87.37 -130.79 311 13 GLU A 13 ? ? -148.42 -114.79 312 13 ALA A 17 ? ? -90.12 -153.89 313 13 PRO A 27 ? ? -68.37 -166.84 314 13 ARG A 35 ? ? -161.16 -51.02 315 13 LYS A 36 ? ? -177.26 30.76 316 13 GLN A 38 ? ? 54.14 75.79 317 13 VAL A 39 ? ? 46.84 135.04 318 13 SER A 41 ? ? -42.06 91.92 319 13 THR A 42 ? ? 32.38 39.41 320 13 ALA A 44 ? ? -174.94 -41.54 321 13 THR A 51 ? ? -100.99 -113.82 322 13 LYS A 52 ? ? -103.20 -69.52 323 13 VAL A 62 ? ? -46.68 172.23 324 13 GLN A 63 ? ? -102.18 -80.77 325 13 ALA A 64 ? ? -177.97 39.94 326 13 SER A 65 ? ? -173.17 65.92 327 13 GLU A 67 ? ? 60.97 -179.63 328 13 ASN A 76 ? ? -162.73 -139.52 329 13 GLU A 78 ? ? -153.84 22.09 330 13 LYS A 80 ? ? -157.55 54.61 331 14 THR A -4 ? ? -152.12 -48.37 332 14 THR A -3 ? ? 54.31 95.81 333 14 LEU A -2 ? ? -103.73 -97.06 334 14 ALA A -1 ? ? 161.84 155.53 335 14 LYS A 5 ? ? -45.67 171.52 336 14 GLU A 13 ? ? -169.85 -94.45 337 14 GLU A 15 ? ? -55.01 -79.30 338 14 SER A 16 ? ? 175.79 59.50 339 14 PRO A 27 ? ? -70.07 -166.09 340 14 ARG A 35 ? ? -162.18 -40.93 341 14 LYS A 36 ? ? 178.93 -25.53 342 14 GLN A 38 ? ? 44.93 70.54 343 14 VAL A 39 ? ? 48.72 175.39 344 14 SER A 41 ? ? -45.11 92.40 345 14 THR A 42 ? ? 25.15 52.61 346 14 ALA A 44 ? ? 179.97 43.51 347 14 ARG A 45 ? ? 176.88 -25.55 348 14 THR A 51 ? ? -114.37 -136.75 349 14 LYS A 52 ? ? -82.29 -70.56 350 14 SER A 60 ? ? -151.60 13.25 351 14 VAL A 62 ? ? -34.95 122.19 352 14 GLN A 63 ? ? -63.08 -142.99 353 14 SER A 65 ? ? 171.65 153.21 354 14 ASP A 66 ? ? -117.78 -75.80 355 14 GLU A 67 ? ? -179.18 -179.80 356 14 GLU A 75 ? ? -178.34 -167.90 357 14 ASN A 76 ? ? -171.10 -155.82 358 14 SER A 77 ? ? -59.87 -9.60 359 14 GLU A 78 ? ? -170.28 23.50 360 14 GLN A 90 ? ? -9.93 88.29 361 15 LYS A -5 ? ? 56.05 -129.27 362 15 THR A -4 ? ? -151.39 38.10 363 15 ALA A -1 ? ? -96.78 -146.61 364 15 VAL A 11 ? ? -150.32 -155.04 365 15 GLU A 13 ? ? -149.92 -110.32 366 15 GLU A 15 ? ? -63.99 -86.45 367 15 PRO A 27 ? ? -74.28 -168.00 368 15 ARG A 35 ? ? -155.35 -44.71 369 15 LYS A 36 ? ? 177.81 -33.97 370 15 GLN A 38 ? ? 74.98 157.65 371 15 VAL A 39 ? ? -73.63 28.08 372 15 LEU A 40 ? ? 47.38 -106.96 373 15 THR A 42 ? ? 56.66 105.23 374 15 ALA A 44 ? ? 170.85 -28.39 375 15 THR A 51 ? ? -132.49 -138.94 376 15 LYS A 52 ? ? -50.09 -90.07 377 15 SER A 60 ? ? -151.07 -64.42 378 15 GLN A 63 ? ? -119.05 -146.36 379 15 GLU A 67 ? ? 60.86 -171.26 380 15 ASN A 76 ? ? -156.38 -157.28 381 15 GLU A 78 ? ? -164.85 22.99 382 15 LYS A 80 ? ? -175.71 53.37 383 15 ILE A 89 ? ? -126.07 -154.57 384 15 GLN A 90 ? ? 174.82 136.64 385 16 THR A -4 ? ? -150.70 89.55 386 16 LEU A -2 ? ? -162.52 -163.92 387 16 ALA A -1 ? ? -110.26 -99.26 388 16 SER A 8 ? ? 52.26 174.63 389 16 GLU A 13 ? ? -174.46 -124.95 390 16 SER A 16 ? ? -59.94 -160.36 391 16 ALA A 17 ? ? -130.85 -148.65 392 16 PRO A 27 ? ? -69.42 -168.87 393 16 ARG A 35 ? ? -160.62 -45.59 394 16 LYS A 36 ? ? -167.81 -40.65 395 16 GLN A 38 ? ? -179.02 -96.47 396 16 VAL A 39 ? ? -144.81 14.05 397 16 LEU A 40 ? ? 50.25 -105.52 398 16 SER A 41 ? ? 27.18 87.66 399 16 THR A 42 ? ? 25.48 42.98 400 16 ALA A 44 ? ? 176.96 -32.86 401 16 THR A 51 ? ? -124.25 -136.17 402 16 LYS A 52 ? ? -48.26 -95.72 403 16 SER A 60 ? ? -151.67 13.50 404 16 GLN A 63 ? ? -77.46 -76.39 405 16 ALA A 64 ? ? -176.24 43.89 406 16 SER A 65 ? ? -173.24 79.82 407 16 ASP A 66 ? ? -132.50 -79.06 408 16 GLU A 67 ? ? 168.91 172.08 409 16 SER A 77 ? ? -39.90 -24.67 410 16 GLU A 78 ? ? -167.47 6.92 # loop_ _pdbx_validate_planes.id _pdbx_validate_planes.PDB_model_num _pdbx_validate_planes.auth_comp_id _pdbx_validate_planes.auth_asym_id _pdbx_validate_planes.auth_seq_id _pdbx_validate_planes.PDB_ins_code _pdbx_validate_planes.label_alt_id _pdbx_validate_planes.rmsd _pdbx_validate_planes.type 1 1 ARG A 1 ? ? 0.136 'SIDE CHAIN' 2 1 ARG A 7 ? ? 0.205 'SIDE CHAIN' 3 1 ARG A 18 ? ? 0.314 'SIDE CHAIN' 4 1 ARG A 35 ? ? 0.308 'SIDE CHAIN' 5 1 ARG A 45 ? ? 0.194 'SIDE CHAIN' 6 2 ARG A 1 ? ? 0.238 'SIDE CHAIN' 7 2 ARG A 7 ? ? 0.304 'SIDE CHAIN' 8 2 ARG A 18 ? ? 0.309 'SIDE CHAIN' 9 2 ARG A 35 ? ? 0.317 'SIDE CHAIN' 10 2 ARG A 45 ? ? 0.199 'SIDE CHAIN' 11 3 ARG A 1 ? ? 0.201 'SIDE CHAIN' 12 3 ARG A 7 ? ? 0.188 'SIDE CHAIN' 13 3 ARG A 18 ? ? 0.298 'SIDE CHAIN' 14 3 ARG A 35 ? ? 0.200 'SIDE CHAIN' 15 3 ARG A 45 ? ? 0.316 'SIDE CHAIN' 16 4 ARG A 1 ? ? 0.194 'SIDE CHAIN' 17 4 ARG A 7 ? ? 0.307 'SIDE CHAIN' 18 4 ARG A 18 ? ? 0.308 'SIDE CHAIN' 19 4 ARG A 35 ? ? 0.316 'SIDE CHAIN' 20 4 ARG A 45 ? ? 0.273 'SIDE CHAIN' 21 5 ARG A 1 ? ? 0.235 'SIDE CHAIN' 22 5 ARG A 7 ? ? 0.267 'SIDE CHAIN' 23 5 ARG A 18 ? ? 0.309 'SIDE CHAIN' 24 5 ARG A 35 ? ? 0.302 'SIDE CHAIN' 25 5 ARG A 45 ? ? 0.305 'SIDE CHAIN' 26 6 ARG A 1 ? ? 0.271 'SIDE CHAIN' 27 6 ARG A 7 ? ? 0.207 'SIDE CHAIN' 28 6 ARG A 18 ? ? 0.317 'SIDE CHAIN' 29 6 ARG A 35 ? ? 0.296 'SIDE CHAIN' 30 6 ARG A 45 ? ? 0.124 'SIDE CHAIN' 31 7 ARG A 1 ? ? 0.317 'SIDE CHAIN' 32 7 ARG A 7 ? ? 0.317 'SIDE CHAIN' 33 7 ARG A 18 ? ? 0.199 'SIDE CHAIN' 34 7 ARG A 35 ? ? 0.146 'SIDE CHAIN' 35 7 ARG A 45 ? ? 0.261 'SIDE CHAIN' 36 8 ARG A 1 ? ? 0.303 'SIDE CHAIN' 37 8 ARG A 7 ? ? 0.258 'SIDE CHAIN' 38 8 ARG A 18 ? ? 0.303 'SIDE CHAIN' 39 8 ARG A 35 ? ? 0.172 'SIDE CHAIN' 40 8 ARG A 45 ? ? 0.196 'SIDE CHAIN' 41 9 ARG A 1 ? ? 0.315 'SIDE CHAIN' 42 9 ARG A 7 ? ? 0.133 'SIDE CHAIN' 43 9 ARG A 18 ? ? 0.208 'SIDE CHAIN' 44 9 ARG A 35 ? ? 0.215 'SIDE CHAIN' 45 9 ARG A 45 ? ? 0.211 'SIDE CHAIN' 46 10 ARG A 1 ? ? 0.309 'SIDE CHAIN' 47 10 ARG A 7 ? ? 0.285 'SIDE CHAIN' 48 10 ARG A 18 ? ? 0.162 'SIDE CHAIN' 49 10 ARG A 35 ? ? 0.294 'SIDE CHAIN' 50 10 ARG A 45 ? ? 0.141 'SIDE CHAIN' 51 11 ARG A 1 ? ? 0.314 'SIDE CHAIN' 52 11 ARG A 7 ? ? 0.295 'SIDE CHAIN' 53 11 ARG A 18 ? ? 0.307 'SIDE CHAIN' 54 11 ARG A 35 ? ? 0.307 'SIDE CHAIN' 55 11 ARG A 45 ? ? 0.278 'SIDE CHAIN' 56 12 ARG A 1 ? ? 0.154 'SIDE CHAIN' 57 12 ARG A 7 ? ? 0.280 'SIDE CHAIN' 58 12 ARG A 18 ? ? 0.219 'SIDE CHAIN' 59 12 ARG A 35 ? ? 0.139 'SIDE CHAIN' 60 12 ARG A 45 ? ? 0.286 'SIDE CHAIN' 61 13 ARG A 1 ? ? 0.120 'SIDE CHAIN' 62 13 ARG A 7 ? ? 0.176 'SIDE CHAIN' 63 13 ARG A 18 ? ? 0.317 'SIDE CHAIN' 64 13 ARG A 35 ? ? 0.277 'SIDE CHAIN' 65 13 ARG A 45 ? ? 0.227 'SIDE CHAIN' 66 14 ARG A 1 ? ? 0.232 'SIDE CHAIN' 67 14 ARG A 7 ? ? 0.312 'SIDE CHAIN' 68 14 ARG A 18 ? ? 0.285 'SIDE CHAIN' 69 14 ARG A 35 ? ? 0.152 'SIDE CHAIN' 70 14 ARG A 45 ? ? 0.200 'SIDE CHAIN' 71 15 ARG A 1 ? ? 0.221 'SIDE CHAIN' 72 15 ARG A 7 ? ? 0.313 'SIDE CHAIN' 73 15 ARG A 18 ? ? 0.207 'SIDE CHAIN' 74 15 ARG A 35 ? ? 0.276 'SIDE CHAIN' 75 15 ARG A 45 ? ? 0.252 'SIDE CHAIN' 76 16 ARG A 1 ? ? 0.144 'SIDE CHAIN' 77 16 ARG A 7 ? ? 0.221 'SIDE CHAIN' 78 16 ARG A 18 ? ? 0.163 'SIDE CHAIN' 79 16 ARG A 35 ? ? 0.313 'SIDE CHAIN' 80 16 ARG A 45 ? ? 0.282 'SIDE CHAIN' # _pdbx_nmr_ensemble.entry_id 1NCU _pdbx_nmr_ensemble.conformers_calculated_total_number ? _pdbx_nmr_ensemble.conformers_submitted_total_number 16 _pdbx_nmr_ensemble.conformer_selection_criteria ? _pdbx_nmr_ensemble.average_constraints_per_residue ? _pdbx_nmr_ensemble.average_constraint_violations_per_residue ? _pdbx_nmr_ensemble.maximum_distance_constraint_violation ? _pdbx_nmr_ensemble.average_distance_constraint_violation ? _pdbx_nmr_ensemble.maximum_upper_distance_constraint_violation ? _pdbx_nmr_ensemble.maximum_lower_distance_constraint_violation ? _pdbx_nmr_ensemble.distance_constraint_violation_method ? _pdbx_nmr_ensemble.maximum_torsion_angle_constraint_violation ? _pdbx_nmr_ensemble.average_torsion_angle_constraint_violation ? _pdbx_nmr_ensemble.torsion_angle_constraint_violation_method ? # _pdbx_nmr_exptl_sample_conditions.conditions_id 1 _pdbx_nmr_exptl_sample_conditions.temperature 300 _pdbx_nmr_exptl_sample_conditions.pressure ? _pdbx_nmr_exptl_sample_conditions.pH 4.8 _pdbx_nmr_exptl_sample_conditions.ionic_strength ? _pdbx_nmr_exptl_sample_conditions.pressure_units . _pdbx_nmr_exptl_sample_conditions.temperature_units K # _pdbx_nmr_details.entry_id 1NCU _pdbx_nmr_details.text '20 MM ACETATE BUFFER, NO OTHER SALTS' # _pdbx_nmr_software.classification refinement _pdbx_nmr_software.name X-PLOR _pdbx_nmr_software.version 3.1 _pdbx_nmr_software.authors BRUNGER _pdbx_nmr_software.ordinal 1 # loop_ _pdbx_unobs_or_zero_occ_residues.id _pdbx_unobs_or_zero_occ_residues.PDB_model_num _pdbx_unobs_or_zero_occ_residues.polymer_flag _pdbx_unobs_or_zero_occ_residues.occupancy_flag _pdbx_unobs_or_zero_occ_residues.auth_asym_id _pdbx_unobs_or_zero_occ_residues.auth_comp_id _pdbx_unobs_or_zero_occ_residues.auth_seq_id _pdbx_unobs_or_zero_occ_residues.PDB_ins_code _pdbx_unobs_or_zero_occ_residues.label_asym_id _pdbx_unobs_or_zero_occ_residues.label_comp_id _pdbx_unobs_or_zero_occ_residues.label_seq_id 1 1 Y 1 A MET -14 ? A MET 1 2 1 Y 1 A HIS -13 ? A HIS 2 3 1 Y 1 A HIS -12 ? A HIS 3 4 1 Y 1 A HIS -11 ? A HIS 4 5 1 Y 1 A HIS -10 ? A HIS 5 6 1 Y 1 A HIS -9 ? A HIS 6 7 1 Y 1 A HIS -8 ? A HIS 7 8 1 Y 1 A SER -7 ? A SER 8 9 2 Y 1 A MET -14 ? A MET 1 10 2 Y 1 A HIS -13 ? A HIS 2 11 2 Y 1 A HIS -12 ? A HIS 3 12 2 Y 1 A HIS -11 ? A HIS 4 13 2 Y 1 A HIS -10 ? A HIS 5 14 2 Y 1 A HIS -9 ? A HIS 6 15 2 Y 1 A HIS -8 ? A HIS 7 16 2 Y 1 A SER -7 ? A SER 8 17 3 Y 1 A MET -14 ? A MET 1 18 3 Y 1 A HIS -13 ? A HIS 2 19 3 Y 1 A HIS -12 ? A HIS 3 20 3 Y 1 A HIS -11 ? A HIS 4 21 3 Y 1 A HIS -10 ? A HIS 5 22 3 Y 1 A HIS -9 ? A HIS 6 23 3 Y 1 A HIS -8 ? A HIS 7 24 3 Y 1 A SER -7 ? A SER 8 25 4 Y 1 A MET -14 ? A MET 1 26 4 Y 1 A HIS -13 ? A HIS 2 27 4 Y 1 A HIS -12 ? A HIS 3 28 4 Y 1 A HIS -11 ? A HIS 4 29 4 Y 1 A HIS -10 ? A HIS 5 30 4 Y 1 A HIS -9 ? A HIS 6 31 4 Y 1 A HIS -8 ? A HIS 7 32 4 Y 1 A SER -7 ? A SER 8 33 5 Y 1 A MET -14 ? A MET 1 34 5 Y 1 A HIS -13 ? A HIS 2 35 5 Y 1 A HIS -12 ? A HIS 3 36 5 Y 1 A HIS -11 ? A HIS 4 37 5 Y 1 A HIS -10 ? A HIS 5 38 5 Y 1 A HIS -9 ? A HIS 6 39 5 Y 1 A HIS -8 ? A HIS 7 40 5 Y 1 A SER -7 ? A SER 8 41 6 Y 1 A MET -14 ? A MET 1 42 6 Y 1 A HIS -13 ? A HIS 2 43 6 Y 1 A HIS -12 ? A HIS 3 44 6 Y 1 A HIS -11 ? A HIS 4 45 6 Y 1 A HIS -10 ? A HIS 5 46 6 Y 1 A HIS -9 ? A HIS 6 47 6 Y 1 A HIS -8 ? A HIS 7 48 6 Y 1 A SER -7 ? A SER 8 49 7 Y 1 A MET -14 ? A MET 1 50 7 Y 1 A HIS -13 ? A HIS 2 51 7 Y 1 A HIS -12 ? A HIS 3 52 7 Y 1 A HIS -11 ? A HIS 4 53 7 Y 1 A HIS -10 ? A HIS 5 54 7 Y 1 A HIS -9 ? A HIS 6 55 7 Y 1 A HIS -8 ? A HIS 7 56 7 Y 1 A SER -7 ? A SER 8 57 8 Y 1 A MET -14 ? A MET 1 58 8 Y 1 A HIS -13 ? A HIS 2 59 8 Y 1 A HIS -12 ? A HIS 3 60 8 Y 1 A HIS -11 ? A HIS 4 61 8 Y 1 A HIS -10 ? A HIS 5 62 8 Y 1 A HIS -9 ? A HIS 6 63 8 Y 1 A HIS -8 ? A HIS 7 64 8 Y 1 A SER -7 ? A SER 8 65 9 Y 1 A MET -14 ? A MET 1 66 9 Y 1 A HIS -13 ? A HIS 2 67 9 Y 1 A HIS -12 ? A HIS 3 68 9 Y 1 A HIS -11 ? A HIS 4 69 9 Y 1 A HIS -10 ? A HIS 5 70 9 Y 1 A HIS -9 ? A HIS 6 71 9 Y 1 A HIS -8 ? A HIS 7 72 9 Y 1 A SER -7 ? A SER 8 73 10 Y 1 A MET -14 ? A MET 1 74 10 Y 1 A HIS -13 ? A HIS 2 75 10 Y 1 A HIS -12 ? A HIS 3 76 10 Y 1 A HIS -11 ? A HIS 4 77 10 Y 1 A HIS -10 ? A HIS 5 78 10 Y 1 A HIS -9 ? A HIS 6 79 10 Y 1 A HIS -8 ? A HIS 7 80 10 Y 1 A SER -7 ? A SER 8 81 11 Y 1 A MET -14 ? A MET 1 82 11 Y 1 A HIS -13 ? A HIS 2 83 11 Y 1 A HIS -12 ? A HIS 3 84 11 Y 1 A HIS -11 ? A HIS 4 85 11 Y 1 A HIS -10 ? A HIS 5 86 11 Y 1 A HIS -9 ? A HIS 6 87 11 Y 1 A HIS -8 ? A HIS 7 88 11 Y 1 A SER -7 ? A SER 8 89 12 Y 1 A MET -14 ? A MET 1 90 12 Y 1 A HIS -13 ? A HIS 2 91 12 Y 1 A HIS -12 ? A HIS 3 92 12 Y 1 A HIS -11 ? A HIS 4 93 12 Y 1 A HIS -10 ? A HIS 5 94 12 Y 1 A HIS -9 ? A HIS 6 95 12 Y 1 A HIS -8 ? A HIS 7 96 12 Y 1 A SER -7 ? A SER 8 97 13 Y 1 A MET -14 ? A MET 1 98 13 Y 1 A HIS -13 ? A HIS 2 99 13 Y 1 A HIS -12 ? A HIS 3 100 13 Y 1 A HIS -11 ? A HIS 4 101 13 Y 1 A HIS -10 ? A HIS 5 102 13 Y 1 A HIS -9 ? A HIS 6 103 13 Y 1 A HIS -8 ? A HIS 7 104 13 Y 1 A SER -7 ? A SER 8 105 14 Y 1 A MET -14 ? A MET 1 106 14 Y 1 A HIS -13 ? A HIS 2 107 14 Y 1 A HIS -12 ? A HIS 3 108 14 Y 1 A HIS -11 ? A HIS 4 109 14 Y 1 A HIS -10 ? A HIS 5 110 14 Y 1 A HIS -9 ? A HIS 6 111 14 Y 1 A HIS -8 ? A HIS 7 112 14 Y 1 A SER -7 ? A SER 8 113 15 Y 1 A MET -14 ? A MET 1 114 15 Y 1 A HIS -13 ? A HIS 2 115 15 Y 1 A HIS -12 ? A HIS 3 116 15 Y 1 A HIS -11 ? A HIS 4 117 15 Y 1 A HIS -10 ? A HIS 5 118 15 Y 1 A HIS -9 ? A HIS 6 119 15 Y 1 A HIS -8 ? A HIS 7 120 15 Y 1 A SER -7 ? A SER 8 121 16 Y 1 A MET -14 ? A MET 1 122 16 Y 1 A HIS -13 ? A HIS 2 123 16 Y 1 A HIS -12 ? A HIS 3 124 16 Y 1 A HIS -11 ? A HIS 4 125 16 Y 1 A HIS -10 ? A HIS 5 126 16 Y 1 A HIS -9 ? A HIS 6 127 16 Y 1 A HIS -8 ? A HIS 7 128 16 Y 1 A SER -7 ? A SER 8 # loop_ _chem_comp_atom.comp_id _chem_comp_atom.atom_id _chem_comp_atom.type_symbol _chem_comp_atom.pdbx_aromatic_flag _chem_comp_atom.pdbx_stereo_config _chem_comp_atom.pdbx_ordinal ALA N N N N 1 ALA CA C N S 2 ALA C C N N 3 ALA O O N N 4 ALA CB C N N 5 ALA OXT O N N 6 ALA H H N N 7 ALA H2 H N N 8 ALA HA H N N 9 ALA HB1 H N N 10 ALA HB2 H N N 11 ALA HB3 H N N 12 ALA HXT H N N 13 ARG N N N N 14 ARG CA C N S 15 ARG C C N N 16 ARG O O N N 17 ARG CB C N N 18 ARG CG C N N 19 ARG CD C N N 20 ARG NE N N N 21 ARG CZ C N N 22 ARG NH1 N N N 23 ARG NH2 N N N 24 ARG OXT O N N 25 ARG H H N N 26 ARG H2 H N N 27 ARG HA H N N 28 ARG HB2 H N N 29 ARG HB3 H N N 30 ARG HG2 H N N 31 ARG HG3 H N N 32 ARG HD2 H N N 33 ARG HD3 H N N 34 ARG HE H N N 35 ARG HH11 H N N 36 ARG HH12 H N N 37 ARG HH21 H N N 38 ARG HH22 H N N 39 ARG HXT H N N 40 ASN N N N N 41 ASN CA C N S 42 ASN C C N N 43 ASN O O N N 44 ASN CB C N N 45 ASN CG C N N 46 ASN OD1 O N N 47 ASN ND2 N N N 48 ASN OXT O N N 49 ASN H H N N 50 ASN H2 H N N 51 ASN HA H N N 52 ASN HB2 H N N 53 ASN HB3 H N N 54 ASN HD21 H N N 55 ASN HD22 H N N 56 ASN HXT H N N 57 ASP N N N N 58 ASP CA C N S 59 ASP C C N N 60 ASP O O N N 61 ASP CB C N N 62 ASP CG C N N 63 ASP OD1 O N N 64 ASP OD2 O N N 65 ASP OXT O N N 66 ASP H H N N 67 ASP H2 H N N 68 ASP HA H N N 69 ASP HB2 H N N 70 ASP HB3 H N N 71 ASP HD2 H N N 72 ASP HXT H N N 73 CYS N N N N 74 CYS CA C N R 75 CYS C C N N 76 CYS O O N N 77 CYS CB C N N 78 CYS SG S N N 79 CYS OXT O N N 80 CYS H H N N 81 CYS H2 H N N 82 CYS HA H N N 83 CYS HB2 H N N 84 CYS HB3 H N N 85 CYS HG H N N 86 CYS HXT H N N 87 GLN N N N N 88 GLN CA C N S 89 GLN C C N N 90 GLN O O N N 91 GLN CB C N N 92 GLN CG C N N 93 GLN CD C N N 94 GLN OE1 O N N 95 GLN NE2 N N N 96 GLN OXT O N N 97 GLN H H N N 98 GLN H2 H N N 99 GLN HA H N N 100 GLN HB2 H N N 101 GLN HB3 H N N 102 GLN HG2 H N N 103 GLN HG3 H N N 104 GLN HE21 H N N 105 GLN HE22 H N N 106 GLN HXT H N N 107 GLU N N N N 108 GLU CA C N S 109 GLU C C N N 110 GLU O O N N 111 GLU CB C N N 112 GLU CG C N N 113 GLU CD C N N 114 GLU OE1 O N N 115 GLU OE2 O N N 116 GLU OXT O N N 117 GLU H H N N 118 GLU H2 H N N 119 GLU HA H N N 120 GLU HB2 H N N 121 GLU HB3 H N N 122 GLU HG2 H N N 123 GLU HG3 H N N 124 GLU HE2 H N N 125 GLU HXT H N N 126 GLY N N N N 127 GLY CA C N N 128 GLY C C N N 129 GLY O O N N 130 GLY OXT O N N 131 GLY H H N N 132 GLY H2 H N N 133 GLY HA2 H N N 134 GLY HA3 H N N 135 GLY HXT H N N 136 HIS N N N N 137 HIS CA C N S 138 HIS C C N N 139 HIS O O N N 140 HIS CB C N N 141 HIS CG C Y N 142 HIS ND1 N Y N 143 HIS CD2 C Y N 144 HIS CE1 C Y N 145 HIS NE2 N Y N 146 HIS OXT O N N 147 HIS H H N N 148 HIS H2 H N N 149 HIS HA H N N 150 HIS HB2 H N N 151 HIS HB3 H N N 152 HIS HD1 H N N 153 HIS HD2 H N N 154 HIS HE1 H N N 155 HIS HE2 H N N 156 HIS HXT H N N 157 ILE N N N N 158 ILE CA C N S 159 ILE C C N N 160 ILE O O N N 161 ILE CB C N S 162 ILE CG1 C N N 163 ILE CG2 C N N 164 ILE CD1 C N N 165 ILE OXT O N N 166 ILE H H N N 167 ILE H2 H N N 168 ILE HA H N N 169 ILE HB H N N 170 ILE HG12 H N N 171 ILE HG13 H N N 172 ILE HG21 H N N 173 ILE HG22 H N N 174 ILE HG23 H N N 175 ILE HD11 H N N 176 ILE HD12 H N N 177 ILE HD13 H N N 178 ILE HXT H N N 179 LEU N N N N 180 LEU CA C N S 181 LEU C C N N 182 LEU O O N N 183 LEU CB C N N 184 LEU CG C N N 185 LEU CD1 C N N 186 LEU CD2 C N N 187 LEU OXT O N N 188 LEU H H N N 189 LEU H2 H N N 190 LEU HA H N N 191 LEU HB2 H N N 192 LEU HB3 H N N 193 LEU HG H N N 194 LEU HD11 H N N 195 LEU HD12 H N N 196 LEU HD13 H N N 197 LEU HD21 H N N 198 LEU HD22 H N N 199 LEU HD23 H N N 200 LEU HXT H N N 201 LYS N N N N 202 LYS CA C N S 203 LYS C C N N 204 LYS O O N N 205 LYS CB C N N 206 LYS CG C N N 207 LYS CD C N N 208 LYS CE C N N 209 LYS NZ N N N 210 LYS OXT O N N 211 LYS H H N N 212 LYS H2 H N N 213 LYS HA H N N 214 LYS HB2 H N N 215 LYS HB3 H N N 216 LYS HG2 H N N 217 LYS HG3 H N N 218 LYS HD2 H N N 219 LYS HD3 H N N 220 LYS HE2 H N N 221 LYS HE3 H N N 222 LYS HZ1 H N N 223 LYS HZ2 H N N 224 LYS HZ3 H N N 225 LYS HXT H N N 226 MET N N N N 227 MET CA C N S 228 MET C C N N 229 MET O O N N 230 MET CB C N N 231 MET CG C N N 232 MET SD S N N 233 MET CE C N N 234 MET OXT O N N 235 MET H H N N 236 MET H2 H N N 237 MET HA H N N 238 MET HB2 H N N 239 MET HB3 H N N 240 MET HG2 H N N 241 MET HG3 H N N 242 MET HE1 H N N 243 MET HE2 H N N 244 MET HE3 H N N 245 MET HXT H N N 246 PHE N N N N 247 PHE CA C N S 248 PHE C C N N 249 PHE O O N N 250 PHE CB C N N 251 PHE CG C Y N 252 PHE CD1 C Y N 253 PHE CD2 C Y N 254 PHE CE1 C Y N 255 PHE CE2 C Y N 256 PHE CZ C Y N 257 PHE OXT O N N 258 PHE H H N N 259 PHE H2 H N N 260 PHE HA H N N 261 PHE HB2 H N N 262 PHE HB3 H N N 263 PHE HD1 H N N 264 PHE HD2 H N N 265 PHE HE1 H N N 266 PHE HE2 H N N 267 PHE HZ H N N 268 PHE HXT H N N 269 PRO N N N N 270 PRO CA C N S 271 PRO C C N N 272 PRO O O N N 273 PRO CB C N N 274 PRO CG C N N 275 PRO CD C N N 276 PRO OXT O N N 277 PRO H H N N 278 PRO HA H N N 279 PRO HB2 H N N 280 PRO HB3 H N N 281 PRO HG2 H N N 282 PRO HG3 H N N 283 PRO HD2 H N N 284 PRO HD3 H N N 285 PRO HXT H N N 286 SER N N N N 287 SER CA C N S 288 SER C C N N 289 SER O O N N 290 SER CB C N N 291 SER OG O N N 292 SER OXT O N N 293 SER H H N N 294 SER H2 H N N 295 SER HA H N N 296 SER HB2 H N N 297 SER HB3 H N N 298 SER HG H N N 299 SER HXT H N N 300 THR N N N N 301 THR CA C N S 302 THR C C N N 303 THR O O N N 304 THR CB C N R 305 THR OG1 O N N 306 THR CG2 C N N 307 THR OXT O N N 308 THR H H N N 309 THR H2 H N N 310 THR HA H N N 311 THR HB H N N 312 THR HG1 H N N 313 THR HG21 H N N 314 THR HG22 H N N 315 THR HG23 H N N 316 THR HXT H N N 317 TRP N N N N 318 TRP CA C N S 319 TRP C C N N 320 TRP O O N N 321 TRP CB C N N 322 TRP CG C Y N 323 TRP CD1 C Y N 324 TRP CD2 C Y N 325 TRP NE1 N Y N 326 TRP CE2 C Y N 327 TRP CE3 C Y N 328 TRP CZ2 C Y N 329 TRP CZ3 C Y N 330 TRP CH2 C Y N 331 TRP OXT O N N 332 TRP H H N N 333 TRP H2 H N N 334 TRP HA H N N 335 TRP HB2 H N N 336 TRP HB3 H N N 337 TRP HD1 H N N 338 TRP HE1 H N N 339 TRP HE3 H N N 340 TRP HZ2 H N N 341 TRP HZ3 H N N 342 TRP HH2 H N N 343 TRP HXT H N N 344 TYR N N N N 345 TYR CA C N S 346 TYR C C N N 347 TYR O O N N 348 TYR CB C N N 349 TYR CG C Y N 350 TYR CD1 C Y N 351 TYR CD2 C Y N 352 TYR CE1 C Y N 353 TYR CE2 C Y N 354 TYR CZ C Y N 355 TYR OH O N N 356 TYR OXT O N N 357 TYR H H N N 358 TYR H2 H N N 359 TYR HA H N N 360 TYR HB2 H N N 361 TYR HB3 H N N 362 TYR HD1 H N N 363 TYR HD2 H N N 364 TYR HE1 H N N 365 TYR HE2 H N N 366 TYR HH H N N 367 TYR HXT H N N 368 VAL N N N N 369 VAL CA C N S 370 VAL C C N N 371 VAL O O N N 372 VAL CB C N N 373 VAL CG1 C N N 374 VAL CG2 C N N 375 VAL OXT O N N 376 VAL H H N N 377 VAL H2 H N N 378 VAL HA H N N 379 VAL HB H N N 380 VAL HG11 H N N 381 VAL HG12 H N N 382 VAL HG13 H N N 383 VAL HG21 H N N 384 VAL HG22 H N N 385 VAL HG23 H N N 386 VAL HXT H N N 387 # loop_ _chem_comp_bond.comp_id _chem_comp_bond.atom_id_1 _chem_comp_bond.atom_id_2 _chem_comp_bond.value_order _chem_comp_bond.pdbx_aromatic_flag _chem_comp_bond.pdbx_stereo_config _chem_comp_bond.pdbx_ordinal ALA N CA sing N N 1 ALA N H sing N N 2 ALA N H2 sing N N 3 ALA CA C sing N N 4 ALA CA CB sing N N 5 ALA CA HA sing N N 6 ALA C O doub N N 7 ALA C OXT sing N N 8 ALA CB HB1 sing N N 9 ALA CB HB2 sing N N 10 ALA CB HB3 sing N N 11 ALA OXT HXT sing N N 12 ARG N CA sing N N 13 ARG N H sing N N 14 ARG N H2 sing N N 15 ARG CA C sing N N 16 ARG CA CB sing N N 17 ARG CA HA sing N N 18 ARG C O doub N N 19 ARG C OXT sing N N 20 ARG CB CG sing N N 21 ARG CB HB2 sing N N 22 ARG CB HB3 sing N N 23 ARG CG CD sing N N 24 ARG CG HG2 sing N N 25 ARG CG HG3 sing N N 26 ARG CD NE sing N N 27 ARG CD HD2 sing N N 28 ARG CD HD3 sing N N 29 ARG NE CZ sing N N 30 ARG NE HE sing N N 31 ARG CZ NH1 sing N N 32 ARG CZ NH2 doub N N 33 ARG NH1 HH11 sing N N 34 ARG NH1 HH12 sing N N 35 ARG NH2 HH21 sing N N 36 ARG NH2 HH22 sing N N 37 ARG OXT HXT sing N N 38 ASN N CA sing N N 39 ASN N H sing N N 40 ASN N H2 sing N N 41 ASN CA C sing N N 42 ASN CA CB sing N N 43 ASN CA HA sing N N 44 ASN C O doub N N 45 ASN C OXT sing N N 46 ASN CB CG sing N N 47 ASN CB HB2 sing N N 48 ASN CB HB3 sing N N 49 ASN CG OD1 doub N N 50 ASN CG ND2 sing N N 51 ASN ND2 HD21 sing N N 52 ASN ND2 HD22 sing N N 53 ASN OXT HXT sing N N 54 ASP N CA sing N N 55 ASP N H sing N N 56 ASP N H2 sing N N 57 ASP CA C sing N N 58 ASP CA CB sing N N 59 ASP CA HA sing N N 60 ASP C O doub N N 61 ASP C OXT sing N N 62 ASP CB CG sing N N 63 ASP CB HB2 sing N N 64 ASP CB HB3 sing N N 65 ASP CG OD1 doub N N 66 ASP CG OD2 sing N N 67 ASP OD2 HD2 sing N N 68 ASP OXT HXT sing N N 69 CYS N CA sing N N 70 CYS N H sing N N 71 CYS N H2 sing N N 72 CYS CA C sing N N 73 CYS CA CB sing N N 74 CYS CA HA sing N N 75 CYS C O doub N N 76 CYS C OXT sing N N 77 CYS CB SG sing N N 78 CYS CB HB2 sing N N 79 CYS CB HB3 sing N N 80 CYS SG HG sing N N 81 CYS OXT HXT sing N N 82 GLN N CA sing N N 83 GLN N H sing N N 84 GLN N H2 sing N N 85 GLN CA C sing N N 86 GLN CA CB sing N N 87 GLN CA HA sing N N 88 GLN C O doub N N 89 GLN C OXT sing N N 90 GLN CB CG sing N N 91 GLN CB HB2 sing N N 92 GLN CB HB3 sing N N 93 GLN CG CD sing N N 94 GLN CG HG2 sing N N 95 GLN CG HG3 sing N N 96 GLN CD OE1 doub N N 97 GLN CD NE2 sing N N 98 GLN NE2 HE21 sing N N 99 GLN NE2 HE22 sing N N 100 GLN OXT HXT sing N N 101 GLU N CA sing N N 102 GLU N H sing N N 103 GLU N H2 sing N N 104 GLU CA C sing N N 105 GLU CA CB sing N N 106 GLU CA HA sing N N 107 GLU C O doub N N 108 GLU C OXT sing N N 109 GLU CB CG sing N N 110 GLU CB HB2 sing N N 111 GLU CB HB3 sing N N 112 GLU CG CD sing N N 113 GLU CG HG2 sing N N 114 GLU CG HG3 sing N N 115 GLU CD OE1 doub N N 116 GLU CD OE2 sing N N 117 GLU OE2 HE2 sing N N 118 GLU OXT HXT sing N N 119 GLY N CA sing N N 120 GLY N H sing N N 121 GLY N H2 sing N N 122 GLY CA C sing N N 123 GLY CA HA2 sing N N 124 GLY CA HA3 sing N N 125 GLY C O doub N N 126 GLY C OXT sing N N 127 GLY OXT HXT sing N N 128 HIS N CA sing N N 129 HIS N H sing N N 130 HIS N H2 sing N N 131 HIS CA C sing N N 132 HIS CA CB sing N N 133 HIS CA HA sing N N 134 HIS C O doub N N 135 HIS C OXT sing N N 136 HIS CB CG sing N N 137 HIS CB HB2 sing N N 138 HIS CB HB3 sing N N 139 HIS CG ND1 sing Y N 140 HIS CG CD2 doub Y N 141 HIS ND1 CE1 doub Y N 142 HIS ND1 HD1 sing N N 143 HIS CD2 NE2 sing Y N 144 HIS CD2 HD2 sing N N 145 HIS CE1 NE2 sing Y N 146 HIS CE1 HE1 sing N N 147 HIS NE2 HE2 sing N N 148 HIS OXT HXT sing N N 149 ILE N CA sing N N 150 ILE N H sing N N 151 ILE N H2 sing N N 152 ILE CA C sing N N 153 ILE CA CB sing N N 154 ILE CA HA sing N N 155 ILE C O doub N N 156 ILE C OXT sing N N 157 ILE CB CG1 sing N N 158 ILE CB CG2 sing N N 159 ILE CB HB sing N N 160 ILE CG1 CD1 sing N N 161 ILE CG1 HG12 sing N N 162 ILE CG1 HG13 sing N N 163 ILE CG2 HG21 sing N N 164 ILE CG2 HG22 sing N N 165 ILE CG2 HG23 sing N N 166 ILE CD1 HD11 sing N N 167 ILE CD1 HD12 sing N N 168 ILE CD1 HD13 sing N N 169 ILE OXT HXT sing N N 170 LEU N CA sing N N 171 LEU N H sing N N 172 LEU N H2 sing N N 173 LEU CA C sing N N 174 LEU CA CB sing N N 175 LEU CA HA sing N N 176 LEU C O doub N N 177 LEU C OXT sing N N 178 LEU CB CG sing N N 179 LEU CB HB2 sing N N 180 LEU CB HB3 sing N N 181 LEU CG CD1 sing N N 182 LEU CG CD2 sing N N 183 LEU CG HG sing N N 184 LEU CD1 HD11 sing N N 185 LEU CD1 HD12 sing N N 186 LEU CD1 HD13 sing N N 187 LEU CD2 HD21 sing N N 188 LEU CD2 HD22 sing N N 189 LEU CD2 HD23 sing N N 190 LEU OXT HXT sing N N 191 LYS N CA sing N N 192 LYS N H sing N N 193 LYS N H2 sing N N 194 LYS CA C sing N N 195 LYS CA CB sing N N 196 LYS CA HA sing N N 197 LYS C O doub N N 198 LYS C OXT sing N N 199 LYS CB CG sing N N 200 LYS CB HB2 sing N N 201 LYS CB HB3 sing N N 202 LYS CG CD sing N N 203 LYS CG HG2 sing N N 204 LYS CG HG3 sing N N 205 LYS CD CE sing N N 206 LYS CD HD2 sing N N 207 LYS CD HD3 sing N N 208 LYS CE NZ sing N N 209 LYS CE HE2 sing N N 210 LYS CE HE3 sing N N 211 LYS NZ HZ1 sing N N 212 LYS NZ HZ2 sing N N 213 LYS NZ HZ3 sing N N 214 LYS OXT HXT sing N N 215 MET N CA sing N N 216 MET N H sing N N 217 MET N H2 sing N N 218 MET CA C sing N N 219 MET CA CB sing N N 220 MET CA HA sing N N 221 MET C O doub N N 222 MET C OXT sing N N 223 MET CB CG sing N N 224 MET CB HB2 sing N N 225 MET CB HB3 sing N N 226 MET CG SD sing N N 227 MET CG HG2 sing N N 228 MET CG HG3 sing N N 229 MET SD CE sing N N 230 MET CE HE1 sing N N 231 MET CE HE2 sing N N 232 MET CE HE3 sing N N 233 MET OXT HXT sing N N 234 PHE N CA sing N N 235 PHE N H sing N N 236 PHE N H2 sing N N 237 PHE CA C sing N N 238 PHE CA CB sing N N 239 PHE CA HA sing N N 240 PHE C O doub N N 241 PHE C OXT sing N N 242 PHE CB CG sing N N 243 PHE CB HB2 sing N N 244 PHE CB HB3 sing N N 245 PHE CG CD1 doub Y N 246 PHE CG CD2 sing Y N 247 PHE CD1 CE1 sing Y N 248 PHE CD1 HD1 sing N N 249 PHE CD2 CE2 doub Y N 250 PHE CD2 HD2 sing N N 251 PHE CE1 CZ doub Y N 252 PHE CE1 HE1 sing N N 253 PHE CE2 CZ sing Y N 254 PHE CE2 HE2 sing N N 255 PHE CZ HZ sing N N 256 PHE OXT HXT sing N N 257 PRO N CA sing N N 258 PRO N CD sing N N 259 PRO N H sing N N 260 PRO CA C sing N N 261 PRO CA CB sing N N 262 PRO CA HA sing N N 263 PRO C O doub N N 264 PRO C OXT sing N N 265 PRO CB CG sing N N 266 PRO CB HB2 sing N N 267 PRO CB HB3 sing N N 268 PRO CG CD sing N N 269 PRO CG HG2 sing N N 270 PRO CG HG3 sing N N 271 PRO CD HD2 sing N N 272 PRO CD HD3 sing N N 273 PRO OXT HXT sing N N 274 SER N CA sing N N 275 SER N H sing N N 276 SER N H2 sing N N 277 SER CA C sing N N 278 SER CA CB sing N N 279 SER CA HA sing N N 280 SER C O doub N N 281 SER C OXT sing N N 282 SER CB OG sing N N 283 SER CB HB2 sing N N 284 SER CB HB3 sing N N 285 SER OG HG sing N N 286 SER OXT HXT sing N N 287 THR N CA sing N N 288 THR N H sing N N 289 THR N H2 sing N N 290 THR CA C sing N N 291 THR CA CB sing N N 292 THR CA HA sing N N 293 THR C O doub N N 294 THR C OXT sing N N 295 THR CB OG1 sing N N 296 THR CB CG2 sing N N 297 THR CB HB sing N N 298 THR OG1 HG1 sing N N 299 THR CG2 HG21 sing N N 300 THR CG2 HG22 sing N N 301 THR CG2 HG23 sing N N 302 THR OXT HXT sing N N 303 TRP N CA sing N N 304 TRP N H sing N N 305 TRP N H2 sing N N 306 TRP CA C sing N N 307 TRP CA CB sing N N 308 TRP CA HA sing N N 309 TRP C O doub N N 310 TRP C OXT sing N N 311 TRP CB CG sing N N 312 TRP CB HB2 sing N N 313 TRP CB HB3 sing N N 314 TRP CG CD1 doub Y N 315 TRP CG CD2 sing Y N 316 TRP CD1 NE1 sing Y N 317 TRP CD1 HD1 sing N N 318 TRP CD2 CE2 doub Y N 319 TRP CD2 CE3 sing Y N 320 TRP NE1 CE2 sing Y N 321 TRP NE1 HE1 sing N N 322 TRP CE2 CZ2 sing Y N 323 TRP CE3 CZ3 doub Y N 324 TRP CE3 HE3 sing N N 325 TRP CZ2 CH2 doub Y N 326 TRP CZ2 HZ2 sing N N 327 TRP CZ3 CH2 sing Y N 328 TRP CZ3 HZ3 sing N N 329 TRP CH2 HH2 sing N N 330 TRP OXT HXT sing N N 331 TYR N CA sing N N 332 TYR N H sing N N 333 TYR N H2 sing N N 334 TYR CA C sing N N 335 TYR CA CB sing N N 336 TYR CA HA sing N N 337 TYR C O doub N N 338 TYR C OXT sing N N 339 TYR CB CG sing N N 340 TYR CB HB2 sing N N 341 TYR CB HB3 sing N N 342 TYR CG CD1 doub Y N 343 TYR CG CD2 sing Y N 344 TYR CD1 CE1 sing Y N 345 TYR CD1 HD1 sing N N 346 TYR CD2 CE2 doub Y N 347 TYR CD2 HD2 sing N N 348 TYR CE1 CZ doub Y N 349 TYR CE1 HE1 sing N N 350 TYR CE2 CZ sing Y N 351 TYR CE2 HE2 sing N N 352 TYR CZ OH sing N N 353 TYR OH HH sing N N 354 TYR OXT HXT sing N N 355 VAL N CA sing N N 356 VAL N H sing N N 357 VAL N H2 sing N N 358 VAL CA C sing N N 359 VAL CA CB sing N N 360 VAL CA HA sing N N 361 VAL C O doub N N 362 VAL C OXT sing N N 363 VAL CB CG1 sing N N 364 VAL CB CG2 sing N N 365 VAL CB HB sing N N 366 VAL CG1 HG11 sing N N 367 VAL CG1 HG12 sing N N 368 VAL CG1 HG13 sing N N 369 VAL CG2 HG21 sing N N 370 VAL CG2 HG22 sing N N 371 VAL CG2 HG23 sing N N 372 VAL OXT HXT sing N N 373 # _atom_sites.entry_id 1NCU _atom_sites.fract_transf_matrix[1][1] 1.000000 _atom_sites.fract_transf_matrix[1][2] 0.000000 _atom_sites.fract_transf_matrix[1][3] 0.000000 _atom_sites.fract_transf_matrix[2][1] 0.000000 _atom_sites.fract_transf_matrix[2][2] 1.000000 _atom_sites.fract_transf_matrix[2][3] 0.000000 _atom_sites.fract_transf_matrix[3][1] 0.000000 _atom_sites.fract_transf_matrix[3][2] 0.000000 _atom_sites.fract_transf_matrix[3][3] 1.000000 _atom_sites.fract_transf_vector[1] 0.00000 _atom_sites.fract_transf_vector[2] 0.00000 _atom_sites.fract_transf_vector[3] 0.00000 # loop_ _atom_type.symbol C H N O S # loop_