data_9A9G # _entry.id 9A9G # loop_ _atom_type.symbol C H N O S # loop_ _audit_author.name _audit_author.pdbx_ordinal "Lesovoy, D." 1 "Sala, B.M." 2 "Sandalova, T." 3 "Achour, A." 4 "Orekhov, V." 5 "Roshchin, K." 6 "Agback, T." 7 "Agback, P." 8 # loop_ _audit_conform.dict_location _audit_conform.dict_name _audit_conform.dict_version https://mmcif.wwpdb.org/dictionaries/ascii/mmcif_ihm_ext.dic mmcif_ihm_ext.dic 1.28 http://mmcif.wwpdb.org/dictionaries/ascii/mmcif_pdbx_v50.dic mmcif_pdbx.dic 5.403 # _pdbx_database_status.status_code REL _pdbx_database_status.entry_id 9A9G _pdbx_database_status.deposit_site RCSB _pdbx_database_status.process_site RCSB _pdbx_database_status.recvd_initial_deposition_date 2025-01-24 # 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 2025-10-22 # _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 ? # loop_ _database_2.database_id _database_2.database_code _database_2.pdbx_database_accession _database_2.pdbx_DOI PDB 9A9G pdb_00009a9g 10.2210/pdb9a9g/pdb # loop_ _chem_comp.formula _chem_comp.formula_weight _chem_comp.id _chem_comp.mon_nstd_flag _chem_comp.name _chem_comp.pdbx_synonyms _chem_comp.type "C3 H7 N O2" 89.094 ALA . ALANINE . "L-peptide linking" "C6 H15 N4 O2 1" 175.212 ARG . ARGININE . "L-peptide linking" "C4 H8 N2 O3" 132.119 ASN . ASPARAGINE . "L-peptide linking" "C4 H7 N O4" 133.103 ASP . "ASPARTIC ACID" . "L-peptide linking" "C5 H10 N2 O3" 146.146 GLN . GLUTAMINE . "L-peptide linking" "C5 H9 N O4" 147.13 GLU . "GLUTAMIC ACID" . "L-peptide linking" "C2 H5 N O2" 75.067 GLY . GLYCINE . "peptide linking" "C6 H10 N3 O2 1" 156.165 HIS . HISTIDINE . "L-peptide linking" "C6 H13 N O2" 131.175 ILE . ISOLEUCINE . "L-peptide linking" "C6 H13 N O2" 131.175 LEU . LEUCINE . "L-peptide linking" "C6 H15 N2 O2 1" 147.198 LYS . LYSINE . "L-peptide linking" "C5 H11 N O2 S" 149.208 MET . METHIONINE . "L-peptide linking" "C9 H11 N O2" 165.192 PHE . PHENYLALANINE . "L-peptide linking" "C5 H9 N O2" 115.132 PRO . PROLINE . "L-peptide linking" "C3 H7 N O3" 105.093 SER . SERINE . "L-peptide linking" "C4 H9 N O3" 119.12 THR . THREONINE . "L-peptide linking" "C11 H12 N2 O2" 204.229 TRP . TRYPTOPHAN . "L-peptide linking" "C9 H11 N O3" 181.191 TYR . TYROSINE . "L-peptide linking" "C5 H11 N O2" 117.148 VAL . VALINE . "L-peptide linking" # _citation.country . _citation.id 1 _citation.journal_abbrev "Int J Mol Sci" _citation.journal_id_ASTM . _citation.journal_id_CSD . _citation.journal_id_ISSN . _citation.journal_issue . _citation.journal_volume 26 _citation.page_first . _citation.page_last . _citation.pdbx_database_id_DOI 10.3390/ijms26188917 _citation.pdbx_database_id_PubMed 41009484 _citation.title "Accurate Protein Dynamic Conformational Ensembles: Combining AlphaFold, MD, and Amide 15N(1H) NMR Relaxation" _citation.year 2025 # loop_ _citation_author.citation_id _citation_author.name _citation_author.ordinal 1 "Lesovoy, D." 1 1 "Roshchin, K." 2 1 "Sala, B.M." 3 1 "Sandalova, T." 4 1 "Achour, A." 5 1 "Agback, T." 6 1 "Agback, P." 7 1 "Orekhov, V." 8 # _entity.details . _entity.formula_weight 39922.562 _entity.id 1 _entity.pdbx_description "LCP Protein PsrSp" _entity.pdbx_number_of_molecules 1 _entity.src_method MAN _entity.type POLYMER # _entity_poly.entity_id 1 _entity_poly.nstd_chirality . _entity_poly.nstd_linkage NO _entity_poly.nstd_monomer NO _entity_poly.pdbx_seq_one_letter_code MHHHHHHENLYFQGQVEVFNGQDTRDGVNILIMGTDGRIGQNSVETRTDSIMVLNVGGSDKKMKLVSFMRDNLVYIDGYSQVINGRKQTDNKLNVAYELGEQEGQKGAEMVRQVLKDNFDLDIKYYALVDFQAFATAIDTLFPDGVTIDAQFSTLNGRPLTEATVGDDLYATETESPTQTIKVGKQQMNGSTLLNYARFRDDDEADYGRTKRQQQVLTAILEQIKDPTKLFTGSEALGKVFAMTSTNVPYTFLLTNGLSVLDGAKNGIEKLTIPELGDWVDAYDVYGGLGLLVDQNKYQTKLAQMGLR _entity_poly.pdbx_seq_one_letter_code_can MHHHHHHENLYFQGQVEVFNGQDTRDGVNILIMGTDGRIGQNSVETRTDSIMVLNVGGSDKKMKLVSFMRDNLVYIDGYSQVINGRKQTDNKLNVAYELGEQEGQKGAEMVRQVLKDNFDLDIKYYALVDFQAFATAIDTLFPDGVTIDAQFSTLNGRPLTEATVGDDLYATETESPTQTIKVGKQQMNGSTLLNYARFRDDDEADYGRTKRQQQVLTAILEQIKDPTKLFTGSEALGKVFAMTSTNVPYTFLLTNGLSVLDGAKNGIEKLTIPELGDWVDAYDVYGGLGLLVDQNKYQTKLAQMGLR _entity_poly.pdbx_sequence_evidence_code . _entity_poly.pdbx_strand_id A _entity_poly.type polypeptide(L) # loop_ _entity_poly_seq.entity_id _entity_poly_seq.hetero _entity_poly_seq.mon_id _entity_poly_seq.num 1 . MET 1 1 . HIS 2 1 . HIS 3 1 . HIS 4 1 . HIS 5 1 . HIS 6 1 . HIS 7 1 . GLU 8 1 . ASN 9 1 . LEU 10 1 . TYR 11 1 . PHE 12 1 . GLN 13 1 . GLY 14 1 . GLN 15 1 . VAL 16 1 . GLU 17 1 . VAL 18 1 . PHE 19 1 . ASN 20 1 . GLY 21 1 . GLN 22 1 . ASP 23 1 . THR 24 1 . ARG 25 1 . ASP 26 1 . GLY 27 1 . VAL 28 1 . ASN 29 1 . ILE 30 1 . LEU 31 1 . ILE 32 1 . MET 33 1 . GLY 34 1 . THR 35 1 . ASP 36 1 . GLY 37 1 . ARG 38 1 . ILE 39 1 . GLY 40 1 . GLN 41 1 . ASN 42 1 . SER 43 1 . VAL 44 1 . GLU 45 1 . THR 46 1 . ARG 47 1 . THR 48 1 . ASP 49 1 . SER 50 1 . ILE 51 1 . MET 52 1 . VAL 53 1 . LEU 54 1 . ASN 55 1 . VAL 56 1 . GLY 57 1 . GLY 58 1 . SER 59 1 . ASP 60 1 . LYS 61 1 . LYS 62 1 . MET 63 1 . LYS 64 1 . LEU 65 1 . VAL 66 1 . SER 67 1 . PHE 68 1 . MET 69 1 . ARG 70 1 . ASP 71 1 . ASN 72 1 . LEU 73 1 . VAL 74 1 . TYR 75 1 . ILE 76 1 . ASP 77 1 . GLY 78 1 . TYR 79 1 . SER 80 1 . GLN 81 1 . VAL 82 1 . ILE 83 1 . ASN 84 1 . GLY 85 1 . ARG 86 1 . LYS 87 1 . GLN 88 1 . THR 89 1 . ASP 90 1 . ASN 91 1 . LYS 92 1 . LEU 93 1 . ASN 94 1 . VAL 95 1 . ALA 96 1 . TYR 97 1 . GLU 98 1 . LEU 99 1 . GLY 100 1 . GLU 101 1 . GLN 102 1 . GLU 103 1 . GLY 104 1 . GLN 105 1 . LYS 106 1 . GLY 107 1 . ALA 108 1 . GLU 109 1 . MET 110 1 . VAL 111 1 . ARG 112 1 . GLN 113 1 . VAL 114 1 . LEU 115 1 . LYS 116 1 . ASP 117 1 . ASN 118 1 . PHE 119 1 . ASP 120 1 . LEU 121 1 . ASP 122 1 . ILE 123 1 . LYS 124 1 . TYR 125 1 . TYR 126 1 . ALA 127 1 . LEU 128 1 . VAL 129 1 . ASP 130 1 . PHE 131 1 . GLN 132 1 . ALA 133 1 . PHE 134 1 . ALA 135 1 . THR 136 1 . ALA 137 1 . ILE 138 1 . ASP 139 1 . THR 140 1 . LEU 141 1 . PHE 142 1 . PRO 143 1 . ASP 144 1 . GLY 145 1 . VAL 146 1 . THR 147 1 . ILE 148 1 . ASP 149 1 . ALA 150 1 . GLN 151 1 . PHE 152 1 . SER 153 1 . THR 154 1 . LEU 155 1 . ASN 156 1 . GLY 157 1 . ARG 158 1 . PRO 159 1 . LEU 160 1 . THR 161 1 . GLU 162 1 . ALA 163 1 . THR 164 1 . VAL 165 1 . GLY 166 1 . ASP 167 1 . ASP 168 1 . LEU 169 1 . TYR 170 1 . ALA 171 1 . THR 172 1 . GLU 173 1 . THR 174 1 . GLU 175 1 . SER 176 1 . PRO 177 1 . THR 178 1 . GLN 179 1 . THR 180 1 . ILE 181 1 . LYS 182 1 . VAL 183 1 . GLY 184 1 . LYS 185 1 . GLN 186 1 . GLN 187 1 . MET 188 1 . ASN 189 1 . GLY 190 1 . SER 191 1 . THR 192 1 . LEU 193 1 . LEU 194 1 . ASN 195 1 . TYR 196 1 . ALA 197 1 . ARG 198 1 . PHE 199 1 . ARG 200 1 . ASP 201 1 . ASP 202 1 . ASP 203 1 . GLU 204 1 . ALA 205 1 . ASP 206 1 . TYR 207 1 . GLY 208 1 . ARG 209 1 . THR 210 1 . LYS 211 1 . ARG 212 1 . GLN 213 1 . GLN 214 1 . GLN 215 1 . VAL 216 1 . LEU 217 1 . THR 218 1 . ALA 219 1 . ILE 220 1 . LEU 221 1 . GLU 222 1 . GLN 223 1 . ILE 224 1 . LYS 225 1 . ASP 226 1 . PRO 227 1 . THR 228 1 . LYS 229 1 . LEU 230 1 . PHE 231 1 . THR 232 1 . GLY 233 1 . SER 234 1 . GLU 235 1 . ALA 236 1 . LEU 237 1 . GLY 238 1 . LYS 239 1 . VAL 240 1 . PHE 241 1 . ALA 242 1 . MET 243 1 . THR 244 1 . SER 245 1 . THR 246 1 . ASN 247 1 . VAL 248 1 . PRO 249 1 . TYR 250 1 . THR 251 1 . PHE 252 1 . LEU 253 1 . LEU 254 1 . THR 255 1 . ASN 256 1 . GLY 257 1 . LEU 258 1 . SER 259 1 . VAL 260 1 . LEU 261 1 . ASP 262 1 . GLY 263 1 . ALA 264 1 . LYS 265 1 . ASN 266 1 . GLY 267 1 . ILE 268 1 . GLU 269 1 . LYS 270 1 . LEU 271 1 . THR 272 1 . ILE 273 1 . PRO 274 1 . GLU 275 1 . LEU 276 1 . GLY 277 1 . ASP 278 1 . TRP 279 1 . VAL 280 1 . ASP 281 1 . ALA 282 1 . TYR 283 1 . ASP 284 1 . VAL 285 1 . TYR 286 1 . GLY 287 1 . GLY 288 1 . LEU 289 1 . GLY 290 1 . LEU 291 1 . LEU 292 1 . VAL 293 1 . ASP 294 1 . GLN 295 1 . ASN 296 1 . LYS 297 1 . TYR 298 1 . GLN 299 1 . THR 300 1 . LYS 301 1 . LEU 302 1 . ALA 303 1 . GLN 304 1 . MET 305 1 . GLY 306 1 . LEU 307 1 . ARG 308 # loop_ _ihm_dataset_group.application _ihm_dataset_group.details _ihm_dataset_group.id _ihm_dataset_group.name modeling . 1 . validation . 2 . # loop_ _ihm_dataset_group_link.dataset_list_id _ihm_dataset_group_link.group_id 1 1 2 2 # loop_ _ihm_dataset_list.data_type _ihm_dataset_list.database_hosted _ihm_dataset_list.details _ihm_dataset_list.id "De Novo model" NO "The starting structure was modeled by AlphaFold3" 1 "NMR data" YES "Relaxation data were used to verify conformational ensembles" 2 # _ihm_dataset_related_db_reference.accession_code 52556 _ihm_dataset_related_db_reference.dataset_list_id 2 _ihm_dataset_related_db_reference.db_name BMRB _ihm_dataset_related_db_reference.details . _ihm_dataset_related_db_reference.id 1 _ihm_dataset_related_db_reference.version . # _ihm_ensemble_info.details "1000 trajectory frames with 500 ps steps for trajectory region were partitioned into array of 20 clusters each using the Gromos algorithm. The structure from each cluster was included in the ensemble. Population of clusters 1 - 52.9%, 2 - 9.3%, 3 - 5.8% 4 - 5.0%, 5 - 4.6%, 6 - 4.3%, 7 - 3.8%, 8 - 2.3%, 9 - 2.0%, 10 - 1.4%, 11 - 1.0%, 12 - 0.8%, 13 - 0.7%, 14 - 0.7%, 15 - 0.7%, 16 - 0.5%, 17 - 0.5%, 18 - 0.5%, 19 - 0.5%, 20 - 0.4%." _ihm_ensemble_info.ensemble_clustering_feature RMSD _ihm_ensemble_info.ensemble_clustering_method Other _ihm_ensemble_info.ensemble_file_id . _ihm_ensemble_info.ensemble_id 1 _ihm_ensemble_info.ensemble_name "conformational ensemble" _ihm_ensemble_info.ensemble_precision_value . _ihm_ensemble_info.model_group_id 1 _ihm_ensemble_info.model_group_superimposed_flag YES _ihm_ensemble_info.num_ensemble_models 1000 _ihm_ensemble_info.num_ensemble_models_deposited 20 _ihm_ensemble_info.post_process_id 1 _ihm_ensemble_info.sub_sample_flag NO _ihm_ensemble_info.sub_sampling_type . # _ihm_entity_poly_segment.comp_id_begin MET _ihm_entity_poly_segment.comp_id_end ARG _ihm_entity_poly_segment.entity_id 1 _ihm_entity_poly_segment.id 1 _ihm_entity_poly_segment.seq_id_begin 1 _ihm_entity_poly_segment.seq_id_end 308 # _ihm_model_group.details . _ihm_model_group.id 1 _ihm_model_group.name . # loop_ _ihm_model_group_link.group_id _ihm_model_group_link.model_id 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 1 10 1 11 1 12 1 13 1 14 1 15 1 16 1 17 1 18 1 19 1 20 # loop_ _ihm_model_list.assembly_id _ihm_model_list.model_id _ihm_model_list.model_name _ihm_model_list.protocol_id _ihm_model_list.representation_id 1 1 . 1 1 1 2 . 1 1 1 3 . 1 1 1 4 . 1 1 1 5 . 1 1 1 6 . 1 1 1 7 . 1 1 1 8 . 1 1 1 9 . 1 1 1 10 . 1 1 1 11 . 1 1 1 12 . 1 1 1 13 . 1 1 1 14 . 1 1 1 15 . 1 1 1 16 . 1 1 1 17 . 1 1 1 18 . 1 1 1 19 . 1 1 1 20 . 1 1 # _ihm_model_representation.details . _ihm_model_representation.id 1 _ihm_model_representation.name . # _ihm_model_representation_details.description . _ihm_model_representation_details.entity_asym_id A _ihm_model_representation_details.entity_description "LCP Protein PsrSp" _ihm_model_representation_details.entity_id 1 _ihm_model_representation_details.entity_poly_segment_id 1 _ihm_model_representation_details.id 1 _ihm_model_representation_details.model_granularity by-atom _ihm_model_representation_details.model_mode flexible _ihm_model_representation_details.model_object_count . _ihm_model_representation_details.model_object_primitive atomistic _ihm_model_representation_details.representation_id 1 _ihm_model_representation_details.starting_model_id 1 # loop_ _ihm_modeling_post_process.analysis_id _ihm_modeling_post_process.dataset_group_id _ihm_modeling_post_process.details _ihm_modeling_post_process.feature _ihm_modeling_post_process.feature_name _ihm_modeling_post_process.id _ihm_modeling_post_process.num_models_begin _ihm_modeling_post_process.num_models_end _ihm_modeling_post_process.protocol_id _ihm_modeling_post_process.script_file_id _ihm_modeling_post_process.software_id _ihm_modeling_post_process.step_id _ihm_modeling_post_process.struct_assembly_id _ihm_modeling_post_process.type 1 2 "Cluster analysis was performed using the RMSD criterion for the trajectory section. Twenty clusters were obtained, and the most representative structure from each cluster was included in the final conformational ensemble file." RMSD . 1 . 20 1 . 1 1 1 cluster 2 2 "Verification was performed by backcalculating the relaxation parameters of the MD trajectory and comparing them with experimental NMR data. " other . 2 20 20 1 . 2 1 1 validation # _ihm_modeling_protocol.details "The starting structure was obtained by AlphaFold3. Full-atom molecular dynamics, Charm36 force field with kufix correction were performed. After minimization and NVT, free dynamics in the NPT ensemble was launched for 3 microseconds. Based on the results of the RMS analysis, a stable region at 500 ns was selected for further analysis. Relaxation parameters for the selected region were calculated. Experimental NMR relaxation data were also calculated. Based on this, the MD region was verified. Cluster analysis was performed and 20 most representative structures were identified." _ihm_modeling_protocol.id 1 _ihm_modeling_protocol.num_steps 6 _ihm_modeling_protocol.protocol_name modeling # loop_ _ihm_modeling_protocol_details.dataset_group_id _ihm_modeling_protocol_details.description _ihm_modeling_protocol_details.ensemble_flag _ihm_modeling_protocol_details.id _ihm_modeling_protocol_details.multi_scale_flag _ihm_modeling_protocol_details.multi_state_flag _ihm_modeling_protocol_details.num_models_begin _ihm_modeling_protocol_details.num_models_end _ihm_modeling_protocol_details.ordered_flag _ihm_modeling_protocol_details.protocol_id _ihm_modeling_protocol_details.script_file_id _ihm_modeling_protocol_details.software_id _ihm_modeling_protocol_details.step_id _ihm_modeling_protocol_details.step_method _ihm_modeling_protocol_details.step_name _ihm_modeling_protocol_details.struct_assembly_description _ihm_modeling_protocol_details.struct_assembly_id 1 "The starting structure was obtained by AlphaFold3. Full-atom molecular dynamics, Charm36 force field with cufix correction were performed. After minimization and NVT, free dynamics in the NPT ensemble was launched for 3 microseconds. Based on the results of the RMS analysis, a stable region at 500 ns was selected for further analysis. Cluster analysis was performed and 20 most representative structures were identified." YES 1 NO NO . . NO 1 . 1 1 . . . 1 2 "Relaxation parameters for the MD trajectory are calculated." YES 2 NO NO . . NO 1 . 2 2 . . . 1 2 "Relaxation parameters for the MD trajectory are calculated." YES 3 NO NO . . NO 1 . 3 3 . . . 1 2 "NMR data processed" YES 4 NO NO . . NO 1 . 4 4 . . . 1 2 "NMR data analysis" YES 5 NO NO . . NO 1 . 5 5 . . . 1 2 "NMR data analysis" YES 6 NO NO . . NO 1 . 6 6 . . . 1 # _ihm_starting_computational_models.script_file_id . _ihm_starting_computational_models.software_id 7 _ihm_starting_computational_models.starting_model_id 1 # _ihm_starting_model_details.asym_id A _ihm_starting_model_details.dataset_list_id 1 _ihm_starting_model_details.description "The starting structure was obtained by AlphaFold3" _ihm_starting_model_details.entity_description "LCP Protein PsrSp" _ihm_starting_model_details.entity_id 1 _ihm_starting_model_details.entity_poly_segment_id 1 _ihm_starting_model_details.starting_model_auth_asym_id A _ihm_starting_model_details.starting_model_id 1 _ihm_starting_model_details.starting_model_sequence_offset 0 _ihm_starting_model_details.starting_model_source "ab initio model" # _ihm_struct_assembly.description "LCP Protein PsrSp modeled using an AlphaFold3 starting model, molecular dynamics (MD) simulations, and verified by NMR." _ihm_struct_assembly.id 1 _ihm_struct_assembly.name "LCP Protein PsrSp" # _ihm_struct_assembly_details.assembly_id 1 _ihm_struct_assembly_details.asym_id A _ihm_struct_assembly_details.entity_description "LCP Protein PsrSp" _ihm_struct_assembly_details.entity_id 1 _ihm_struct_assembly_details.entity_poly_segment_id 1 _ihm_struct_assembly_details.id 1 _ihm_struct_assembly_details.parent_assembly_id 1 # loop_ _software.citation_id _software.classification _software.description _software.location _software.name _software.pdbx_ordinal _software.type _software.version . "model building" . https://www.gromacs.org/ Gromacs 1 program 2022.4 . "data processing and validation" . https://www.wolfram.com/mathematica/ "wolfram mathematica" 2 package . . "data processing" . https://www.python.org/ Python 3 program . . "data processing" . https://www.bruker.com/en/products-and-solutions/mr/nmr-software/topspin.html TopSpin 4 program 4.06 . other Analysis https://ccpn.ac.uk/ " CcpNmr" 5 package 2.4.2.62 . other Analysis https://www.bruker.com/en/products-and-solutions/mr/nmr-software/dynamics-center.html "Dynamics Center" 6 program 2.8 . "model building" . https://alphafold.ebi.ac.uk/ AlphaFold 7 program 3 # _struct.entry_id 9A9G _struct.pdbx_CASP_flag . _struct.pdbx_descriptor . _struct.pdbx_details . _struct.pdbx_model_details . _struct.pdbx_model_type_details . _struct.pdbx_structure_determination_methodology integrative _struct.title "Biologically relevant conformational ensembles of the extracellular region of Streptococcus pneumoniae PsrSp" # _struct_asym.details . _struct_asym.entity_id 1 _struct_asym.id A _struct_asym.pdbx_PDB_id . _struct_asym.pdbx_alt_id . _struct_asym.pdbx_blank_PDB_chainid_flag . _struct_asym.pdbx_modified . _struct_asym.pdbx_order . _struct_asym.pdbx_type . # _struct_ref.db_code Q8DPD6_STRR6 _struct_ref.db_name UNP _struct_ref.details . _struct_ref.entity_id 1 _struct_ref.id 1 _struct_ref.pdbx_align_begin 131 _struct_ref.pdbx_align_end . _struct_ref.pdbx_db_accession Q8DPD6 _struct_ref.pdbx_db_isoform . _struct_ref.pdbx_seq_one_letter_code . # _struct_ref_seq.align_id 1 _struct_ref_seq.db_align_beg 131 _struct_ref_seq.db_align_end 424 _struct_ref_seq.ref_id 1 _struct_ref_seq.seq_align_beg 15 _struct_ref_seq.seq_align_end 308 # 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.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 A 1 1 MET 1 1 MET MET A . A 1 2 HIS 2 2 HIS HIS A . A 1 3 HIS 3 3 HIS HIS A . A 1 4 HIS 4 4 HIS HIS A . A 1 5 HIS 5 5 HIS HIS A . A 1 6 HIS 6 6 HIS HIS A . A 1 7 HIS 7 7 HIS HIS A . A 1 8 GLU 8 8 GLU GLU A . A 1 9 ASN 9 9 ASN ASN A . A 1 10 LEU 10 10 LEU LEU A . A 1 11 TYR 11 11 TYR TYR A . A 1 12 PHE 12 12 PHE PHE A . A 1 13 GLN 13 13 GLN GLN A . A 1 14 GLY 14 14 GLY GLY A . A 1 15 GLN 15 15 GLN GLN A . A 1 16 VAL 16 16 VAL VAL A . A 1 17 GLU 17 17 GLU GLU A . A 1 18 VAL 18 18 VAL VAL A . A 1 19 PHE 19 19 PHE PHE A . A 1 20 ASN 20 20 ASN ASN A . A 1 21 GLY 21 21 GLY GLY A . A 1 22 GLN 22 22 GLN GLN A . A 1 23 ASP 23 23 ASP ASP A . A 1 24 THR 24 24 THR THR A . A 1 25 ARG 25 25 ARG ARG A . A 1 26 ASP 26 26 ASP ASP A . A 1 27 GLY 27 27 GLY GLY A . A 1 28 VAL 28 28 VAL VAL A . A 1 29 ASN 29 29 ASN ASN A . A 1 30 ILE 30 30 ILE ILE A . A 1 31 LEU 31 31 LEU LEU A . A 1 32 ILE 32 32 ILE ILE A . A 1 33 MET 33 33 MET MET A . A 1 34 GLY 34 34 GLY GLY A . A 1 35 THR 35 35 THR THR A . A 1 36 ASP 36 36 ASP ASP A . A 1 37 GLY 37 37 GLY GLY A . A 1 38 ARG 38 38 ARG ARG A . A 1 39 ILE 39 39 ILE ILE A . A 1 40 GLY 40 40 GLY GLY A . A 1 41 GLN 41 41 GLN GLN A . A 1 42 ASN 42 42 ASN ASN A . A 1 43 SER 43 43 SER SER A . A 1 44 VAL 44 44 VAL VAL A . A 1 45 GLU 45 45 GLU GLU A . A 1 46 THR 46 46 THR THR A . A 1 47 ARG 47 47 ARG ARG A . A 1 48 THR 48 48 THR THR A . A 1 49 ASP 49 49 ASP ASP A . A 1 50 SER 50 50 SER SER A . A 1 51 ILE 51 51 ILE ILE A . A 1 52 MET 52 52 MET MET A . A 1 53 VAL 53 53 VAL VAL A . A 1 54 LEU 54 54 LEU LEU A . A 1 55 ASN 55 55 ASN ASN A . A 1 56 VAL 56 56 VAL VAL A . A 1 57 GLY 57 57 GLY GLY A . A 1 58 GLY 58 58 GLY GLY A . A 1 59 SER 59 59 SER SER A . A 1 60 ASP 60 60 ASP ASP A . A 1 61 LYS 61 61 LYS LYS A . A 1 62 LYS 62 62 LYS LYS A . A 1 63 MET 63 63 MET MET A . A 1 64 LYS 64 64 LYS LYS A . A 1 65 LEU 65 65 LEU LEU A . A 1 66 VAL 66 66 VAL VAL A . A 1 67 SER 67 67 SER SER A . A 1 68 PHE 68 68 PHE PHE A . A 1 69 MET 69 69 MET MET A . A 1 70 ARG 70 70 ARG ARG A . A 1 71 ASP 71 71 ASP ASP A . A 1 72 ASN 72 72 ASN ASN A . A 1 73 LEU 73 73 LEU LEU A . A 1 74 VAL 74 74 VAL VAL A . A 1 75 TYR 75 75 TYR TYR A . A 1 76 ILE 76 76 ILE ILE A . A 1 77 ASP 77 77 ASP ASP A . A 1 78 GLY 78 78 GLY GLY A . A 1 79 TYR 79 79 TYR TYR A . A 1 80 SER 80 80 SER SER A . A 1 81 GLN 81 81 GLN GLN A . A 1 82 VAL 82 82 VAL VAL A . A 1 83 ILE 83 83 ILE ILE A . A 1 84 ASN 84 84 ASN ASN A . A 1 85 GLY 85 85 GLY GLY A . A 1 86 ARG 86 86 ARG ARG A . A 1 87 LYS 87 87 LYS LYS A . A 1 88 GLN 88 88 GLN GLN A . A 1 89 THR 89 89 THR THR A . A 1 90 ASP 90 90 ASP ASP A . A 1 91 ASN 91 91 ASN ASN A . A 1 92 LYS 92 92 LYS LYS A . A 1 93 LEU 93 93 LEU LEU A . A 1 94 ASN 94 94 ASN ASN A . A 1 95 VAL 95 95 VAL VAL A . A 1 96 ALA 96 96 ALA ALA A . A 1 97 TYR 97 97 TYR TYR A . A 1 98 GLU 98 98 GLU GLU A . A 1 99 LEU 99 99 LEU LEU A . A 1 100 GLY 100 100 GLY GLY A . A 1 101 GLU 101 101 GLU GLU A . A 1 102 GLN 102 102 GLN GLN A . A 1 103 GLU 103 103 GLU GLU A . A 1 104 GLY 104 104 GLY GLY A . A 1 105 GLN 105 105 GLN GLN A . A 1 106 LYS 106 106 LYS LYS A . A 1 107 GLY 107 107 GLY GLY A . A 1 108 ALA 108 108 ALA ALA A . A 1 109 GLU 109 109 GLU GLU A . A 1 110 MET 110 110 MET MET A . A 1 111 VAL 111 111 VAL VAL A . A 1 112 ARG 112 112 ARG ARG A . A 1 113 GLN 113 113 GLN GLN A . A 1 114 VAL 114 114 VAL VAL A . A 1 115 LEU 115 115 LEU LEU A . A 1 116 LYS 116 116 LYS LYS A . A 1 117 ASP 117 117 ASP ASP A . A 1 118 ASN 118 118 ASN ASN A . A 1 119 PHE 119 119 PHE PHE A . A 1 120 ASP 120 120 ASP ASP A . A 1 121 LEU 121 121 LEU LEU A . A 1 122 ASP 122 122 ASP ASP A . A 1 123 ILE 123 123 ILE ILE A . A 1 124 LYS 124 124 LYS LYS A . A 1 125 TYR 125 125 TYR TYR A . A 1 126 TYR 126 126 TYR TYR A . A 1 127 ALA 127 127 ALA ALA A . A 1 128 LEU 128 128 LEU LEU A . A 1 129 VAL 129 129 VAL VAL A . A 1 130 ASP 130 130 ASP ASP A . A 1 131 PHE 131 131 PHE PHE A . A 1 132 GLN 132 132 GLN GLN A . A 1 133 ALA 133 133 ALA ALA A . A 1 134 PHE 134 134 PHE PHE A . A 1 135 ALA 135 135 ALA ALA A . A 1 136 THR 136 136 THR THR A . A 1 137 ALA 137 137 ALA ALA A . A 1 138 ILE 138 138 ILE ILE A . A 1 139 ASP 139 139 ASP ASP A . A 1 140 THR 140 140 THR THR A . A 1 141 LEU 141 141 LEU LEU A . A 1 142 PHE 142 142 PHE PHE A . A 1 143 PRO 143 143 PRO PRO A . A 1 144 ASP 144 144 ASP ASP A . A 1 145 GLY 145 145 GLY GLY A . A 1 146 VAL 146 146 VAL VAL A . A 1 147 THR 147 147 THR THR A . A 1 148 ILE 148 148 ILE ILE A . A 1 149 ASP 149 149 ASP ASP A . A 1 150 ALA 150 150 ALA ALA A . A 1 151 GLN 151 151 GLN GLN A . A 1 152 PHE 152 152 PHE PHE A . A 1 153 SER 153 153 SER SER A . A 1 154 THR 154 154 THR THR A . A 1 155 LEU 155 155 LEU LEU A . A 1 156 ASN 156 156 ASN ASN A . A 1 157 GLY 157 157 GLY GLY A . A 1 158 ARG 158 158 ARG ARG A . A 1 159 PRO 159 159 PRO PRO A . A 1 160 LEU 160 160 LEU LEU A . A 1 161 THR 161 161 THR THR A . A 1 162 GLU 162 162 GLU GLU A . A 1 163 ALA 163 163 ALA ALA A . A 1 164 THR 164 164 THR THR A . A 1 165 VAL 165 165 VAL VAL A . A 1 166 GLY 166 166 GLY GLY A . A 1 167 ASP 167 167 ASP ASP A . A 1 168 ASP 168 168 ASP ASP A . A 1 169 LEU 169 169 LEU LEU A . A 1 170 TYR 170 170 TYR TYR A . A 1 171 ALA 171 171 ALA ALA A . A 1 172 THR 172 172 THR THR A . A 1 173 GLU 173 173 GLU GLU A . A 1 174 THR 174 174 THR THR A . A 1 175 GLU 175 175 GLU GLU A . A 1 176 SER 176 176 SER SER A . A 1 177 PRO 177 177 PRO PRO A . A 1 178 THR 178 178 THR THR A . A 1 179 GLN 179 179 GLN GLN A . A 1 180 THR 180 180 THR THR A . A 1 181 ILE 181 181 ILE ILE A . A 1 182 LYS 182 182 LYS LYS A . A 1 183 VAL 183 183 VAL VAL A . A 1 184 GLY 184 184 GLY GLY A . A 1 185 LYS 185 185 LYS LYS A . A 1 186 GLN 186 186 GLN GLN A . A 1 187 GLN 187 187 GLN GLN A . A 1 188 MET 188 188 MET MET A . A 1 189 ASN 189 189 ASN ASN A . A 1 190 GLY 190 190 GLY GLY A . A 1 191 SER 191 191 SER SER A . A 1 192 THR 192 192 THR THR A . A 1 193 LEU 193 193 LEU LEU A . A 1 194 LEU 194 194 LEU LEU A . A 1 195 ASN 195 195 ASN ASN A . A 1 196 TYR 196 196 TYR TYR A . A 1 197 ALA 197 197 ALA ALA A . A 1 198 ARG 198 198 ARG ARG A . A 1 199 PHE 199 199 PHE PHE A . A 1 200 ARG 200 200 ARG ARG A . A 1 201 ASP 201 201 ASP ASP A . A 1 202 ASP 202 202 ASP ASP A . A 1 203 ASP 203 203 ASP ASP A . A 1 204 GLU 204 204 GLU GLU A . A 1 205 ALA 205 205 ALA ALA A . A 1 206 ASP 206 206 ASP ASP A . A 1 207 TYR 207 207 TYR TYR A . A 1 208 GLY 208 208 GLY GLY A . A 1 209 ARG 209 209 ARG ARG A . A 1 210 THR 210 210 THR THR A . A 1 211 LYS 211 211 LYS LYS A . A 1 212 ARG 212 212 ARG ARG A . A 1 213 GLN 213 213 GLN GLN A . A 1 214 GLN 214 214 GLN GLN A . A 1 215 GLN 215 215 GLN GLN A . A 1 216 VAL 216 216 VAL VAL A . A 1 217 LEU 217 217 LEU LEU A . A 1 218 THR 218 218 THR THR A . A 1 219 ALA 219 219 ALA ALA A . A 1 220 ILE 220 220 ILE ILE A . A 1 221 LEU 221 221 LEU LEU A . A 1 222 GLU 222 222 GLU GLU A . A 1 223 GLN 223 223 GLN GLN A . A 1 224 ILE 224 224 ILE ILE A . A 1 225 LYS 225 225 LYS LYS A . A 1 226 ASP 226 226 ASP ASP A . A 1 227 PRO 227 227 PRO PRO A . A 1 228 THR 228 228 THR THR A . A 1 229 LYS 229 229 LYS LYS A . A 1 230 LEU 230 230 LEU LEU A . A 1 231 PHE 231 231 PHE PHE A . A 1 232 THR 232 232 THR THR A . A 1 233 GLY 233 233 GLY GLY A . A 1 234 SER 234 234 SER SER A . A 1 235 GLU 235 235 GLU GLU A . A 1 236 ALA 236 236 ALA ALA A . A 1 237 LEU 237 237 LEU LEU A . A 1 238 GLY 238 238 GLY GLY A . A 1 239 LYS 239 239 LYS LYS A . A 1 240 VAL 240 240 VAL VAL A . A 1 241 PHE 241 241 PHE PHE A . A 1 242 ALA 242 242 ALA ALA A . A 1 243 MET 243 243 MET MET A . A 1 244 THR 244 244 THR THR A . A 1 245 SER 245 245 SER SER A . A 1 246 THR 246 246 THR THR A . A 1 247 ASN 247 247 ASN ASN A . A 1 248 VAL 248 248 VAL VAL A . A 1 249 PRO 249 249 PRO PRO A . A 1 250 TYR 250 250 TYR TYR A . A 1 251 THR 251 251 THR THR A . A 1 252 PHE 252 252 PHE PHE A . A 1 253 LEU 253 253 LEU LEU A . A 1 254 LEU 254 254 LEU LEU A . A 1 255 THR 255 255 THR THR A . A 1 256 ASN 256 256 ASN ASN A . A 1 257 GLY 257 257 GLY GLY A . A 1 258 LEU 258 258 LEU LEU A . A 1 259 SER 259 259 SER SER A . A 1 260 VAL 260 260 VAL VAL A . A 1 261 LEU 261 261 LEU LEU A . A 1 262 ASP 262 262 ASP ASP A . A 1 263 GLY 263 263 GLY GLY A . A 1 264 ALA 264 264 ALA ALA A . A 1 265 LYS 265 265 LYS LYS A . A 1 266 ASN 266 266 ASN ASN A . A 1 267 GLY 267 267 GLY GLY A . A 1 268 ILE 268 268 ILE ILE A . A 1 269 GLU 269 269 GLU GLU A . A 1 270 LYS 270 270 LYS LYS A . A 1 271 LEU 271 271 LEU LEU A . A 1 272 THR 272 272 THR THR A . A 1 273 ILE 273 273 ILE ILE A . A 1 274 PRO 274 274 PRO PRO A . A 1 275 GLU 275 275 GLU GLU A . A 1 276 LEU 276 276 LEU LEU A . A 1 277 GLY 277 277 GLY GLY A . A 1 278 ASP 278 278 ASP ASP A . A 1 279 TRP 279 279 TRP TRP A . A 1 280 VAL 280 280 VAL VAL A . A 1 281 ASP 281 281 ASP ASP A . A 1 282 ALA 282 282 ALA ALA A . A 1 283 TYR 283 283 TYR TYR A . A 1 284 ASP 284 284 ASP ASP A . A 1 285 VAL 285 285 VAL VAL A . A 1 286 TYR 286 286 TYR TYR A . A 1 287 GLY 287 287 GLY GLY A . A 1 288 GLY 288 288 GLY GLY A . A 1 289 LEU 289 289 LEU LEU A . A 1 290 GLY 290 290 GLY GLY A . A 1 291 LEU 291 291 LEU LEU A . A 1 292 LEU 292 292 LEU LEU A . A 1 293 VAL 293 293 VAL VAL A . A 1 294 ASP 294 294 ASP ASP A . A 1 295 GLN 295 295 GLN GLN A . A 1 296 ASN 296 296 ASN ASN A . A 1 297 LYS 297 297 LYS LYS A . A 1 298 TYR 298 298 TYR TYR A . A 1 299 GLN 299 299 GLN GLN A . A 1 300 THR 300 300 THR THR A . A 1 301 LYS 301 301 LYS LYS A . A 1 302 LEU 302 302 LEU LEU A . A 1 303 ALA 303 303 ALA ALA A . A 1 304 GLN 304 304 GLN GLN A . A 1 305 MET 305 305 MET MET A . A 1 306 GLY 306 306 GLY GLY A . A 1 307 LEU 307 307 LEU LEU A . A 1 308 ARG 308 308 ARG ARG A . # # loop_ # #