data_1BDS # _entry.id 1BDS # _audit_conform.dict_name mmcif_pdbx.dic _audit_conform.dict_version 5.398 _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 1BDS pdb_00001bds 10.2210/pdb1bds/pdb WWPDB D_1000171634 ? ? # 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 1989-01-09 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 2024-10-30 # _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' 7 5 'Structure model' 'Structure summary' # 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 8 5 'Structure model' pdbx_entry_details 9 5 'Structure model' pdbx_modification_feature # 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 1BDS _pdbx_database_status.recvd_initial_deposition_date 1988-11-14 _pdbx_database_status.deposit_site ? _pdbx_database_status.process_site BNL _pdbx_database_status.SG_entry . _pdbx_database_status.pdb_format_compatible Y _pdbx_database_status.status_code_mr ? _pdbx_database_status.status_code_sf ? _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 2BDS _pdbx_database_related.details . _pdbx_database_related.content_type ensemble # loop_ _audit_author.name _audit_author.pdbx_ordinal 'Clore, G.M.' 1 'Driscoll, P.C.' 2 'Gronenborn, A.M.' 3 # 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 ;Determination of the three-dimensional solution structure of the antihypertensive and antiviral protein BDS-I from the sea anemone Anemonia sulcata: a study using nuclear magnetic resonance and hybrid distance geometry-dynamical simulated annealing. ; Biochemistry 28 2188 2198 1989 BICHAW US 0006-2960 0033 ? 2566326 10.1021/bi00431a033 1 ;A Proton Nuclear Magnetic Resonance Study of the Antihypertensive and Antiviral Protein Bds-I from the Sea Anemone Anemonia Sulcata. Sequential and Stereospecific Resonance Assignment and Secondary Structure ; Biochemistry 28 2178 ? 1989 BICHAW US 0006-2960 0033 ? ? ? 2 ;The Influence of Stereospecific Assignments on the Determination of Three-Dimensional Structures of Proteins by Nuclear Magnetic Resonance Spectroscopy. Application to the Sea Anemone Protein Bds-I ; 'FEBS Lett.' 243 223 ? 1989 FEBLAL NE 0014-5793 0165 ? ? ? # loop_ _citation_author.citation_id _citation_author.name _citation_author.ordinal _citation_author.identifier_ORCID primary 'Driscoll, P.C.' 1 ? primary 'Gronenborn, A.M.' 2 ? primary 'Beress, L.' 3 ? primary 'Clore, G.M.' 4 ? 1 'Driscoll, P.C.' 5 ? 1 'Clore, G.M.' 6 ? 1 'Beress, L.' 7 ? 1 'Gronenborn, A.M.' 8 ? 2 'Driscoll, P.C.' 9 ? 2 'Gronenborn, A.M.' 10 ? 2 'Clore, G.M.' 11 ? # _entity.id 1 _entity.type polymer _entity.src_method man _entity.pdbx_description BDS-I _entity.formula_weight 4719.434 _entity.pdbx_number_of_molecules 1 _entity.pdbx_ec ? _entity.pdbx_mutation ? _entity.pdbx_fragment ? _entity.details ? # _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 AAPCFCSGKPGRGDLWILRGTCPGGYGYTSNCYKWPNICCYPH _entity_poly.pdbx_seq_one_letter_code_can AAPCFCSGKPGRGDLWILRGTCPGGYGYTSNCYKWPNICCYPH _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 ALA n 1 2 ALA n 1 3 PRO n 1 4 CYS n 1 5 PHE n 1 6 CYS n 1 7 SER n 1 8 GLY n 1 9 LYS n 1 10 PRO n 1 11 GLY n 1 12 ARG n 1 13 GLY n 1 14 ASP n 1 15 LEU n 1 16 TRP n 1 17 ILE n 1 18 LEU n 1 19 ARG n 1 20 GLY n 1 21 THR n 1 22 CYS n 1 23 PRO n 1 24 GLY n 1 25 GLY n 1 26 TYR n 1 27 GLY n 1 28 TYR n 1 29 THR n 1 30 SER n 1 31 ASN n 1 32 CYS n 1 33 TYR n 1 34 LYS n 1 35 TRP n 1 36 PRO n 1 37 ASN n 1 38 ILE n 1 39 CYS n 1 40 CYS n 1 41 TYR n 1 42 PRO n 1 43 HIS 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 'snake-locks sea anemone' _entity_src_gen.gene_src_genus Anemonia _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 ? _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 'Anemonia sulcata' _entity_src_gen.pdbx_gene_src_ncbi_taxonomy_id 6108 _entity_src_gen.pdbx_gene_src_variant ? _entity_src_gen.pdbx_gene_src_cell_line ? _entity_src_gen.pdbx_gene_src_atcc ? _entity_src_gen.pdbx_gene_src_organ ? _entity_src_gen.pdbx_gene_src_organelle ? _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 ? _entity_src_gen.pdbx_host_org_ncbi_taxonomy_id ? _entity_src_gen.host_org_genus ? _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 ? _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 ? _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 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 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 # 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 ALA 1 1 1 ALA ALA A . n A 1 2 ALA 2 2 2 ALA ALA A . n A 1 3 PRO 3 3 3 PRO PRO A . n A 1 4 CYS 4 4 4 CYS CYS A . n A 1 5 PHE 5 5 5 PHE PHE A . n A 1 6 CYS 6 6 6 CYS CYS A . n A 1 7 SER 7 7 7 SER SER A . n A 1 8 GLY 8 8 8 GLY GLY A . n A 1 9 LYS 9 9 9 LYS LYS A . n A 1 10 PRO 10 10 10 PRO PRO A . n A 1 11 GLY 11 11 11 GLY GLY A . n A 1 12 ARG 12 12 12 ARG ARG A . n A 1 13 GLY 13 13 13 GLY GLY A . n A 1 14 ASP 14 14 14 ASP ASP A . n A 1 15 LEU 15 15 15 LEU LEU A . n A 1 16 TRP 16 16 16 TRP TRP A . n A 1 17 ILE 17 17 17 ILE ILE A . n A 1 18 LEU 18 18 18 LEU LEU A . n A 1 19 ARG 19 19 19 ARG ARG A . n A 1 20 GLY 20 20 20 GLY GLY A . n A 1 21 THR 21 21 21 THR THR A . n A 1 22 CYS 22 22 22 CYS CYS A . n A 1 23 PRO 23 23 23 PRO PRO A . n A 1 24 GLY 24 24 24 GLY GLY A . n A 1 25 GLY 25 25 25 GLY GLY A . n A 1 26 TYR 26 26 26 TYR TYR A . n A 1 27 GLY 27 27 27 GLY GLY A . n A 1 28 TYR 28 28 28 TYR TYR A . n A 1 29 THR 29 29 29 THR THR A . n A 1 30 SER 30 30 30 SER SER A . n A 1 31 ASN 31 31 31 ASN ASN A . n A 1 32 CYS 32 32 32 CYS CYS A . n A 1 33 TYR 33 33 33 TYR TYR A . n A 1 34 LYS 34 34 34 LYS LYS A . n A 1 35 TRP 35 35 35 TRP TRP A . n A 1 36 PRO 36 36 36 PRO PRO A . n A 1 37 ASN 37 37 37 ASN ASN A . n A 1 38 ILE 38 38 38 ILE ILE A . n A 1 39 CYS 39 39 39 CYS CYS A . n A 1 40 CYS 40 40 40 CYS CYS A . n A 1 41 TYR 41 41 41 TYR TYR A . n A 1 42 PRO 42 42 42 PRO PRO A . n A 1 43 HIS 43 43 43 HIS HIS A . n # loop_ _software.name _software.classification _software.version _software.citation_id _software.pdbx_ordinal X-PLOR 'model building' . ? 1 X-PLOR refinement . ? 2 X-PLOR phasing . ? 3 # _cell.entry_id 1BDS _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 1BDS _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 1BDS _exptl.method 'SOLUTION NMR' _exptl.crystals_number ? # _database_PDB_matrix.entry_id 1BDS _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 1BDS _struct.title ;DETERMINATION OF THE THREE-DIMENSIONAL SOLUTION STRUCTURE OF THE ANTIHYPERTENSIVE AND ANTIVIRAL PROTEIN BDS-I FROM THE SEA ANEMONE ANEMONIA SULCATA. A STUDY USING NUCLEAR MAGNETIC RESONANCE AND HYBRID DISTANCE GEOMETRY-DYNAMICAL SIMULATED ANNEALING ; _struct.pdbx_model_details ? _struct.pdbx_CASP_flag ? _struct.pdbx_model_type_details ? # _struct_keywords.entry_id 1BDS _struct_keywords.pdbx_keywords 'ANTI-HYPERTENSIVE, ANTI-VIRAL PROTEIN' _struct_keywords.text 'ANTI-HYPERTENSIVE, ANTI-VIRAL 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 BDS1_ANESU _struct_ref.entity_id 1 _struct_ref.pdbx_db_accession P11494 _struct_ref.pdbx_align_begin 1 _struct_ref.pdbx_seq_one_letter_code AAPCFCSGKPGRGDLWILRGTCPGGYGYTSNCYKWPNICCYPH _struct_ref.pdbx_db_isoform ? # _struct_ref_seq.align_id 1 _struct_ref_seq.ref_id 1 _struct_ref_seq.pdbx_PDB_id_code 1BDS _struct_ref_seq.pdbx_strand_id A _struct_ref_seq.seq_align_beg 1 _struct_ref_seq.pdbx_seq_align_beg_ins_code ? _struct_ref_seq.seq_align_end 43 _struct_ref_seq.pdbx_seq_align_end_ins_code ? _struct_ref_seq.pdbx_db_accession P11494 _struct_ref_seq.db_align_beg 1 _struct_ref_seq.pdbx_db_align_beg_ins_code ? _struct_ref_seq.db_align_end 43 _struct_ref_seq.pdbx_db_align_end_ins_code ? _struct_ref_seq.pdbx_auth_seq_align_beg 1 _struct_ref_seq.pdbx_auth_seq_align_end 43 # _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 # loop_ _struct_conn.id _struct_conn.conn_type_id _struct_conn.pdbx_leaving_atom_flag _struct_conn.pdbx_PDB_id _struct_conn.ptnr1_label_asym_id _struct_conn.ptnr1_label_comp_id _struct_conn.ptnr1_label_seq_id _struct_conn.ptnr1_label_atom_id _struct_conn.pdbx_ptnr1_label_alt_id _struct_conn.pdbx_ptnr1_PDB_ins_code _struct_conn.pdbx_ptnr1_standard_comp_id _struct_conn.ptnr1_symmetry _struct_conn.ptnr2_label_asym_id _struct_conn.ptnr2_label_comp_id _struct_conn.ptnr2_label_seq_id _struct_conn.ptnr2_label_atom_id _struct_conn.pdbx_ptnr2_label_alt_id _struct_conn.pdbx_ptnr2_PDB_ins_code _struct_conn.ptnr1_auth_asym_id _struct_conn.ptnr1_auth_comp_id _struct_conn.ptnr1_auth_seq_id _struct_conn.ptnr2_auth_asym_id _struct_conn.ptnr2_auth_comp_id _struct_conn.ptnr2_auth_seq_id _struct_conn.ptnr2_symmetry _struct_conn.pdbx_ptnr3_label_atom_id _struct_conn.pdbx_ptnr3_label_seq_id _struct_conn.pdbx_ptnr3_label_comp_id _struct_conn.pdbx_ptnr3_label_asym_id _struct_conn.pdbx_ptnr3_label_alt_id _struct_conn.pdbx_ptnr3_PDB_ins_code _struct_conn.details _struct_conn.pdbx_dist_value _struct_conn.pdbx_value_order _struct_conn.pdbx_role disulf1 disulf ? ? A CYS 4 SG ? ? ? 1_555 A CYS 39 SG ? ? A CYS 4 A CYS 39 1_555 ? ? ? ? ? ? ? 2.017 ? ? disulf2 disulf ? ? A CYS 6 SG ? ? ? 1_555 A CYS 32 SG ? ? A CYS 6 A CYS 32 1_555 ? ? ? ? ? ? ? 2.026 ? ? disulf3 disulf ? ? A CYS 22 SG ? ? ? 1_555 A CYS 40 SG ? ? A CYS 22 A CYS 40 1_555 ? ? ? ? ? ? ? 2.023 ? ? # _struct_conn_type.id disulf _struct_conn_type.criteria ? _struct_conn_type.reference ? # loop_ _pdbx_modification_feature.ordinal _pdbx_modification_feature.label_comp_id _pdbx_modification_feature.label_asym_id _pdbx_modification_feature.label_seq_id _pdbx_modification_feature.label_alt_id _pdbx_modification_feature.modified_residue_label_comp_id _pdbx_modification_feature.modified_residue_label_asym_id _pdbx_modification_feature.modified_residue_label_seq_id _pdbx_modification_feature.modified_residue_label_alt_id _pdbx_modification_feature.auth_comp_id _pdbx_modification_feature.auth_asym_id _pdbx_modification_feature.auth_seq_id _pdbx_modification_feature.PDB_ins_code _pdbx_modification_feature.symmetry _pdbx_modification_feature.modified_residue_auth_comp_id _pdbx_modification_feature.modified_residue_auth_asym_id _pdbx_modification_feature.modified_residue_auth_seq_id _pdbx_modification_feature.modified_residue_PDB_ins_code _pdbx_modification_feature.modified_residue_symmetry _pdbx_modification_feature.comp_id_linking_atom _pdbx_modification_feature.modified_residue_id_linking_atom _pdbx_modification_feature.modified_residue_id _pdbx_modification_feature.ref_pcm_id _pdbx_modification_feature.ref_comp_id _pdbx_modification_feature.type _pdbx_modification_feature.category 1 CYS A 4 ? CYS A 39 ? CYS A 4 ? 1_555 CYS A 39 ? 1_555 SG SG . . . None 'Disulfide bridge' 2 CYS A 6 ? CYS A 32 ? CYS A 6 ? 1_555 CYS A 32 ? 1_555 SG SG . . . None 'Disulfide bridge' 3 CYS A 22 ? CYS A 40 ? CYS A 22 ? 1_555 CYS A 40 ? 1_555 SG SG . . . None 'Disulfide bridge' # 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 TRP 35 A . ? TRP 35 A PRO 36 A ? PRO 36 A 1 -7.56 2 TYR 41 A . ? TYR 41 A PRO 42 A ? PRO 42 A 1 6.48 # _struct_sheet.id A _struct_sheet.type ? _struct_sheet.number_strands 3 _struct_sheet.details ? # 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 A 1 2 ? anti-parallel A 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 A 1 ASP A 14 ? ILE A 17 ? ASP A 14 ILE A 17 A 2 ASN A 37 ? TYR A 41 ? ASN A 37 TYR A 41 A 3 SER A 30 ? LYS A 34 ? SER A 30 LYS A 34 # _pdbx_entry_details.entry_id 1BDS _pdbx_entry_details.compound_details ? _pdbx_entry_details.source_details ? _pdbx_entry_details.nonpolymer_details ? _pdbx_entry_details.sequence_details ? _pdbx_entry_details.has_ligand_of_interest ? _pdbx_entry_details.has_protein_modification Y # loop_ _pdbx_validate_rmsd_bond.id _pdbx_validate_rmsd_bond.PDB_model_num _pdbx_validate_rmsd_bond.auth_atom_id_1 _pdbx_validate_rmsd_bond.auth_asym_id_1 _pdbx_validate_rmsd_bond.auth_comp_id_1 _pdbx_validate_rmsd_bond.auth_seq_id_1 _pdbx_validate_rmsd_bond.PDB_ins_code_1 _pdbx_validate_rmsd_bond.label_alt_id_1 _pdbx_validate_rmsd_bond.auth_atom_id_2 _pdbx_validate_rmsd_bond.auth_asym_id_2 _pdbx_validate_rmsd_bond.auth_comp_id_2 _pdbx_validate_rmsd_bond.auth_seq_id_2 _pdbx_validate_rmsd_bond.PDB_ins_code_2 _pdbx_validate_rmsd_bond.label_alt_id_2 _pdbx_validate_rmsd_bond.bond_value _pdbx_validate_rmsd_bond.bond_target_value _pdbx_validate_rmsd_bond.bond_deviation _pdbx_validate_rmsd_bond.bond_standard_deviation _pdbx_validate_rmsd_bond.linker_flag 1 1 CG A TRP 16 ? ? CD2 A TRP 16 ? ? 1.303 1.432 -0.129 0.017 N 2 1 CG A TRP 35 ? ? CD2 A TRP 35 ? ? 1.318 1.432 -0.114 0.017 N 3 1 CG A HIS 43 ? ? ND1 A HIS 43 ? ? 1.244 1.369 -0.125 0.015 N # loop_ _pdbx_validate_rmsd_angle.id _pdbx_validate_rmsd_angle.PDB_model_num _pdbx_validate_rmsd_angle.auth_atom_id_1 _pdbx_validate_rmsd_angle.auth_asym_id_1 _pdbx_validate_rmsd_angle.auth_comp_id_1 _pdbx_validate_rmsd_angle.auth_seq_id_1 _pdbx_validate_rmsd_angle.PDB_ins_code_1 _pdbx_validate_rmsd_angle.label_alt_id_1 _pdbx_validate_rmsd_angle.auth_atom_id_2 _pdbx_validate_rmsd_angle.auth_asym_id_2 _pdbx_validate_rmsd_angle.auth_comp_id_2 _pdbx_validate_rmsd_angle.auth_seq_id_2 _pdbx_validate_rmsd_angle.PDB_ins_code_2 _pdbx_validate_rmsd_angle.label_alt_id_2 _pdbx_validate_rmsd_angle.auth_atom_id_3 _pdbx_validate_rmsd_angle.auth_asym_id_3 _pdbx_validate_rmsd_angle.auth_comp_id_3 _pdbx_validate_rmsd_angle.auth_seq_id_3 _pdbx_validate_rmsd_angle.PDB_ins_code_3 _pdbx_validate_rmsd_angle.label_alt_id_3 _pdbx_validate_rmsd_angle.angle_value _pdbx_validate_rmsd_angle.angle_target_value _pdbx_validate_rmsd_angle.angle_deviation _pdbx_validate_rmsd_angle.angle_standard_deviation _pdbx_validate_rmsd_angle.linker_flag 1 1 CD1 A TRP 16 ? ? CG A TRP 16 ? ? CD2 A TRP 16 ? ? 111.30 106.30 5.00 0.80 N 2 1 CG A TRP 16 ? ? CD1 A TRP 16 ? ? NE1 A TRP 16 ? ? 102.85 110.10 -7.25 1.00 N 3 1 CD1 A TRP 16 ? ? NE1 A TRP 16 ? ? CE2 A TRP 16 ? ? 114.40 109.00 5.40 0.90 N 4 1 NE1 A TRP 16 ? ? CE2 A TRP 16 ? ? CZ2 A TRP 16 ? ? 140.53 130.40 10.13 1.10 N 5 1 NE1 A TRP 16 ? ? CE2 A TRP 16 ? ? CD2 A TRP 16 ? ? 99.88 107.30 -7.42 1.00 N 6 1 CG A TRP 16 ? ? CD2 A TRP 16 ? ? CE3 A TRP 16 ? ? 127.89 133.90 -6.01 0.90 N 7 1 CG A TRP 35 ? ? CD1 A TRP 35 ? ? NE1 A TRP 35 ? ? 103.75 110.10 -6.35 1.00 N 8 1 NE1 A TRP 35 ? ? CE2 A TRP 35 ? ? CZ2 A TRP 35 ? ? 139.80 130.40 9.40 1.10 N 9 1 NE1 A TRP 35 ? ? CE2 A TRP 35 ? ? CD2 A TRP 35 ? ? 100.17 107.30 -7.13 1.00 N # 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 PRO A 3 ? ? -78.66 20.70 2 1 PRO A 10 ? ? -67.48 -161.55 3 1 ILE A 17 ? ? -94.78 -153.52 4 1 LEU A 18 ? ? -67.72 78.73 5 1 THR A 29 ? ? -160.53 -38.20 6 1 PRO A 36 ? ? -78.66 39.10 # _pdbx_validate_peptide_omega.id 1 _pdbx_validate_peptide_omega.PDB_model_num 1 _pdbx_validate_peptide_omega.auth_comp_id_1 ALA _pdbx_validate_peptide_omega.auth_asym_id_1 A _pdbx_validate_peptide_omega.auth_seq_id_1 1 _pdbx_validate_peptide_omega.PDB_ins_code_1 ? _pdbx_validate_peptide_omega.label_alt_id_1 ? _pdbx_validate_peptide_omega.auth_comp_id_2 ALA _pdbx_validate_peptide_omega.auth_asym_id_2 A _pdbx_validate_peptide_omega.auth_seq_id_2 2 _pdbx_validate_peptide_omega.PDB_ins_code_2 ? _pdbx_validate_peptide_omega.label_alt_id_2 ? _pdbx_validate_peptide_omega.omega -149.71 # 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 12 ? ? 0.305 'SIDE CHAIN' 2 1 ARG A 19 ? ? 0.200 'SIDE CHAIN' # _pdbx_nmr_ensemble.entry_id 1BDS _pdbx_nmr_ensemble.conformers_calculated_total_number ? _pdbx_nmr_ensemble.conformers_submitted_total_number 1 _pdbx_nmr_ensemble.conformer_selection_criteria ? # _pdbx_nmr_refine.entry_id 1BDS _pdbx_nmr_refine.method ? _pdbx_nmr_refine.details ;REFINEMENT. THE METHOD USED TO DETERMINE AND REFINE THE STRUCTURE IS THE HYBRID METRIC MATRIX DISTANCE GEOMETRY-DYNAMICAL SIMULATED ANNEALING METHOD (M.NILGES, G.M.CLORE, A.M. GRONENBORN, FEBS LETT. 229, 317-324 (1988)) USING THE PROGRAM XPLOR (A.T. BRUENGER, YALE UNIVERSITY, CT 06511). STRUCTURAL STATISTICS RMS DEVIATION FROM EXPERIMENTAL RESTRAINTS *(1)* RESTRAINT TYPE NUMBER OF RESTRAINTS RMS (ANGSTROMS) ALL 513 0.079 INTERRESIDUE SHORT RANGE 150 0.086 INTERRESIDUE LONG RANGE 105 0.100 INTRARESIDUE 234 0.065 HBOND *(2)* 24 0.043 POTENTIAL ENERGY TERMS TYPE ENERGY (KCAL/MOL) F(NOE) *(3)* 160 F(TOR) *(4)* 24 F(REPEL) *(5)* 72 LENNARD-JONES VAN DER WAALS ENERGY (E(L-J)) CALCULATED USING THE *CHARMM* EMPIRICAL ENERGY FUNCTION IS -117 KCAL/MOL. DEVIATIONS FROM IDEALIZED GEOMETRY *(6)* TYPE TOTAL NUMBER RMS DEVIATION BONDS 646 0.013 (ANGSTROMS) ANGLES 1157 2.517 (DEGREES) IMPROPERS 242 0.797 (DEGREES) NOTES. *(1)* THE RMS DEVIATION FROM THE EXPERIMENTAL RESTRAINTS ARE CALCULATED WITH RESPECT TO THE UPPER AND LOWER LIMITS OF THE DISTANCE RESTRAINTS. NONE OF THE STRUCTURES EXHIBITED VIOLATIONS GREATER THAN 0.5 ANGSTROMS. *(2)* FOR EACH BACKBONE HYDROGEN BOND THERE ARE TWO RESTRAINTS - R(NH-O) .LT. 2.3 ANGSTROMS AND R(N-O) .LT. 3.3 ANGSTROMS. THE LOWER LIMITS ARE GIVEN BY THE SUM OF THE VAN DER WAALS RADII OF THE RELEVANT ATOMS. *(3)* THE VALUES OF THE SQUARE-WELL NOE POTENTIAL F(NOE) ARE CALCULATED WITH A FORCE CONSTANT OF 50 KCAL/MOL/ANGSTROM**2. *(4)* THE VALUES OF F(PHI) ARE CALCULATED WITH A FORCE CONSTANT OF 200 KCAL/MOL/RAD**2. F(PHI) IS A SQUARE-WELL DIHEDRAL POTENTIAL WHICH IS USED TO RESTRICT THE RANGES OF 23 PHI AND 21 CHI1 TORSION ANGLES, AND THE OMEGA PEPTIDE BOND TORSION ANGLES OF THE FIVE PROLINE RESIDUES (PRO 36 AND 42 BEING RESTRAINED TO THE CIS CONFORMATION AND THE OTHERS TO TRANS). *(5)* THE VALUE OF THE VAN DER WAALS REPULSION TERM F(REPEL) IS CALCULATED WITH A FORCE CONSTANT OF 4 KCAL/MOL/ANGSTROM**4 WITH THE HARD SPHERE VAN DER WAALS RADII SET TO 0.8 TIMES THE STANDARD VALUES USED IN THE *CHARMM* EMPIRICAL ENERGY FUNCTION. *(6)* THE IMPROPER TERMS SERVE TO MAINTAIN PLANARITY AND APPROPRIATE CHIRALITY. THEY ALSO MAINTAIN THE PEPTIDE BONDS OF ALL RESIDUES (WITH THE EXCEPTION OF PROLINES) IN THE TRANS CONFORMATION. IN THE DYNAMICAL SIMULATED ANNEALING CALCULATIONS, THE RESTRAINTS FOR THE DISULFIDE BRIDGES ARE INCLUDED IN THE BOND AND ANGLE TERMS. A TOTAL OF 42 STRUCTURES CONSISTENT WITH THE NMR DATA WERE CALCULATED. THIS ENTRY REPRESENTS THE COORDINATES OBTAINED BY AVERAGING THE COORDINATES OF THE INDIVIDUAL STRUCTURES AND SUBJECTING THE RESULTING COORDINATES TO FURTHER RESTRAINED MINIMIZATION. THE COORDINATES OF THESE 42 STRUCTURES ARE GIVEN IN THE PDB ENTRY *2BDS*. THE THERMAL PARAMETERS GIVEN IN THIS ENTRY REPRESENT THE ATOMIC RMS DEVIATION OF THE INDIVIDUAL STRUCTURES ABOUT THE MEAN COORDINATE POSITIONS. ALL THE INTERPROTON DISTANCE AND TORSION ANGLE RESTRAINTS ARE AVAILABLE IN THE PDB NMR RESTRAINT FILE. ; _pdbx_nmr_refine.software_ordinal 1 # _pdbx_nmr_software.classification refinement _pdbx_nmr_software.name XPLOR _pdbx_nmr_software.version ? _pdbx_nmr_software.authors BRUNGER _pdbx_nmr_software.ordinal 1 # 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 GLY N N N N 88 GLY CA C N N 89 GLY C C N N 90 GLY O O N N 91 GLY OXT O N N 92 GLY H H N N 93 GLY H2 H N N 94 GLY HA2 H N N 95 GLY HA3 H N N 96 GLY HXT H N N 97 HIS N N N N 98 HIS CA C N S 99 HIS C C N N 100 HIS O O N N 101 HIS CB C N N 102 HIS CG C Y N 103 HIS ND1 N Y N 104 HIS CD2 C Y N 105 HIS CE1 C Y N 106 HIS NE2 N Y N 107 HIS OXT O N N 108 HIS H H N N 109 HIS H2 H N N 110 HIS HA H N N 111 HIS HB2 H N N 112 HIS HB3 H N N 113 HIS HD1 H N N 114 HIS HD2 H N N 115 HIS HE1 H N N 116 HIS HE2 H N N 117 HIS HXT H N N 118 ILE N N N N 119 ILE CA C N S 120 ILE C C N N 121 ILE O O N N 122 ILE CB C N S 123 ILE CG1 C N N 124 ILE CG2 C N N 125 ILE CD1 C N N 126 ILE OXT O N N 127 ILE H H N N 128 ILE H2 H N N 129 ILE HA H N N 130 ILE HB H N N 131 ILE HG12 H N N 132 ILE HG13 H N N 133 ILE HG21 H N N 134 ILE HG22 H N N 135 ILE HG23 H N N 136 ILE HD11 H N N 137 ILE HD12 H N N 138 ILE HD13 H N N 139 ILE HXT H N N 140 LEU N N N N 141 LEU CA C N S 142 LEU C C N N 143 LEU O O N N 144 LEU CB C N N 145 LEU CG C N N 146 LEU CD1 C N N 147 LEU CD2 C N N 148 LEU OXT O N N 149 LEU H H N N 150 LEU H2 H N N 151 LEU HA H N N 152 LEU HB2 H N N 153 LEU HB3 H N N 154 LEU HG H N N 155 LEU HD11 H N N 156 LEU HD12 H N N 157 LEU HD13 H N N 158 LEU HD21 H N N 159 LEU HD22 H N N 160 LEU HD23 H N N 161 LEU HXT H N N 162 LYS N N N N 163 LYS CA C N S 164 LYS C C N N 165 LYS O O N N 166 LYS CB C N N 167 LYS CG C N N 168 LYS CD C N N 169 LYS CE C N N 170 LYS NZ N N N 171 LYS OXT O N N 172 LYS H H N N 173 LYS H2 H N N 174 LYS HA H N N 175 LYS HB2 H N N 176 LYS HB3 H N N 177 LYS HG2 H N N 178 LYS HG3 H N N 179 LYS HD2 H N N 180 LYS HD3 H N N 181 LYS HE2 H N N 182 LYS HE3 H N N 183 LYS HZ1 H N N 184 LYS HZ2 H N N 185 LYS HZ3 H N N 186 LYS HXT H N N 187 PHE N N N N 188 PHE CA C N S 189 PHE C C N N 190 PHE O O N N 191 PHE CB C N N 192 PHE CG C Y N 193 PHE CD1 C Y N 194 PHE CD2 C Y N 195 PHE CE1 C Y N 196 PHE CE2 C Y N 197 PHE CZ C Y N 198 PHE OXT O N N 199 PHE H H N N 200 PHE H2 H N N 201 PHE HA H N N 202 PHE HB2 H N N 203 PHE HB3 H N N 204 PHE HD1 H N N 205 PHE HD2 H N N 206 PHE HE1 H N N 207 PHE HE2 H N N 208 PHE HZ H N N 209 PHE HXT H N N 210 PRO N N N N 211 PRO CA C N S 212 PRO C C N N 213 PRO O O N N 214 PRO CB C N N 215 PRO CG C N N 216 PRO CD C N N 217 PRO OXT O N N 218 PRO H H N N 219 PRO HA H N N 220 PRO HB2 H N N 221 PRO HB3 H N N 222 PRO HG2 H N N 223 PRO HG3 H N N 224 PRO HD2 H N N 225 PRO HD3 H N N 226 PRO HXT H N N 227 SER N N N N 228 SER CA C N S 229 SER C C N N 230 SER O O N N 231 SER CB C N N 232 SER OG O N N 233 SER OXT O N N 234 SER H H N N 235 SER H2 H N N 236 SER HA H N N 237 SER HB2 H N N 238 SER HB3 H N N 239 SER HG H N N 240 SER HXT H N N 241 THR N N N N 242 THR CA C N S 243 THR C C N N 244 THR O O N N 245 THR CB C N R 246 THR OG1 O N N 247 THR CG2 C N N 248 THR OXT O N N 249 THR H H N N 250 THR H2 H N N 251 THR HA H N N 252 THR HB H N N 253 THR HG1 H N N 254 THR HG21 H N N 255 THR HG22 H N N 256 THR HG23 H N N 257 THR HXT H N N 258 TRP N N N N 259 TRP CA C N S 260 TRP C C N N 261 TRP O O N N 262 TRP CB C N N 263 TRP CG C Y N 264 TRP CD1 C Y N 265 TRP CD2 C Y N 266 TRP NE1 N Y N 267 TRP CE2 C Y N 268 TRP CE3 C Y N 269 TRP CZ2 C Y N 270 TRP CZ3 C Y N 271 TRP CH2 C Y N 272 TRP OXT O N N 273 TRP H H N N 274 TRP H2 H N N 275 TRP HA H N N 276 TRP HB2 H N N 277 TRP HB3 H N N 278 TRP HD1 H N N 279 TRP HE1 H N N 280 TRP HE3 H N N 281 TRP HZ2 H N N 282 TRP HZ3 H N N 283 TRP HH2 H N N 284 TRP HXT H N N 285 TYR N N N N 286 TYR CA C N S 287 TYR C C N N 288 TYR O O N N 289 TYR CB C N N 290 TYR CG C Y N 291 TYR CD1 C Y N 292 TYR CD2 C Y N 293 TYR CE1 C Y N 294 TYR CE2 C Y N 295 TYR CZ C Y N 296 TYR OH O N N 297 TYR OXT O N N 298 TYR H H N N 299 TYR H2 H N N 300 TYR HA H N N 301 TYR HB2 H N N 302 TYR HB3 H N N 303 TYR HD1 H N N 304 TYR HD2 H N N 305 TYR HE1 H N N 306 TYR HE2 H N N 307 TYR HH H N N 308 TYR HXT H N N 309 # 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 GLY N CA sing N N 83 GLY N H sing N N 84 GLY N H2 sing N N 85 GLY CA C sing N N 86 GLY CA HA2 sing N N 87 GLY CA HA3 sing N N 88 GLY C O doub N N 89 GLY C OXT sing N N 90 GLY OXT HXT sing N N 91 HIS N CA sing N N 92 HIS N H sing N N 93 HIS N H2 sing N N 94 HIS CA C sing N N 95 HIS CA CB sing N N 96 HIS CA HA sing N N 97 HIS C O doub N N 98 HIS C OXT sing N N 99 HIS CB CG sing N N 100 HIS CB HB2 sing N N 101 HIS CB HB3 sing N N 102 HIS CG ND1 sing Y N 103 HIS CG CD2 doub Y N 104 HIS ND1 CE1 doub Y N 105 HIS ND1 HD1 sing N N 106 HIS CD2 NE2 sing Y N 107 HIS CD2 HD2 sing N N 108 HIS CE1 NE2 sing Y N 109 HIS CE1 HE1 sing N N 110 HIS NE2 HE2 sing N N 111 HIS OXT HXT sing N N 112 ILE N CA sing N N 113 ILE N H sing N N 114 ILE N H2 sing N N 115 ILE CA C sing N N 116 ILE CA CB sing N N 117 ILE CA HA sing N N 118 ILE C O doub N N 119 ILE C OXT sing N N 120 ILE CB CG1 sing N N 121 ILE CB CG2 sing N N 122 ILE CB HB sing N N 123 ILE CG1 CD1 sing N N 124 ILE CG1 HG12 sing N N 125 ILE CG1 HG13 sing N N 126 ILE CG2 HG21 sing N N 127 ILE CG2 HG22 sing N N 128 ILE CG2 HG23 sing N N 129 ILE CD1 HD11 sing N N 130 ILE CD1 HD12 sing N N 131 ILE CD1 HD13 sing N N 132 ILE OXT HXT sing N N 133 LEU N CA sing N N 134 LEU N H sing N N 135 LEU N H2 sing N N 136 LEU CA C sing N N 137 LEU CA CB sing N N 138 LEU CA HA sing N N 139 LEU C O doub N N 140 LEU C OXT sing N N 141 LEU CB CG sing N N 142 LEU CB HB2 sing N N 143 LEU CB HB3 sing N N 144 LEU CG CD1 sing N N 145 LEU CG CD2 sing N N 146 LEU CG HG sing N N 147 LEU CD1 HD11 sing N N 148 LEU CD1 HD12 sing N N 149 LEU CD1 HD13 sing N N 150 LEU CD2 HD21 sing N N 151 LEU CD2 HD22 sing N N 152 LEU CD2 HD23 sing N N 153 LEU OXT HXT sing N N 154 LYS N CA sing N N 155 LYS N H sing N N 156 LYS N H2 sing N N 157 LYS CA C sing N N 158 LYS CA CB sing N N 159 LYS CA HA sing N N 160 LYS C O doub N N 161 LYS C OXT sing N N 162 LYS CB CG sing N N 163 LYS CB HB2 sing N N 164 LYS CB HB3 sing N N 165 LYS CG CD sing N N 166 LYS CG HG2 sing N N 167 LYS CG HG3 sing N N 168 LYS CD CE sing N N 169 LYS CD HD2 sing N N 170 LYS CD HD3 sing N N 171 LYS CE NZ sing N N 172 LYS CE HE2 sing N N 173 LYS CE HE3 sing N N 174 LYS NZ HZ1 sing N N 175 LYS NZ HZ2 sing N N 176 LYS NZ HZ3 sing N N 177 LYS OXT HXT sing N N 178 PHE N CA sing N N 179 PHE N H sing N N 180 PHE N H2 sing N N 181 PHE CA C sing N N 182 PHE CA CB sing N N 183 PHE CA HA sing N N 184 PHE C O doub N N 185 PHE C OXT sing N N 186 PHE CB CG sing N N 187 PHE CB HB2 sing N N 188 PHE CB HB3 sing N N 189 PHE CG CD1 doub Y N 190 PHE CG CD2 sing Y N 191 PHE CD1 CE1 sing Y N 192 PHE CD1 HD1 sing N N 193 PHE CD2 CE2 doub Y N 194 PHE CD2 HD2 sing N N 195 PHE CE1 CZ doub Y N 196 PHE CE1 HE1 sing N N 197 PHE CE2 CZ sing Y N 198 PHE CE2 HE2 sing N N 199 PHE CZ HZ sing N N 200 PHE OXT HXT sing N N 201 PRO N CA sing N N 202 PRO N CD sing N N 203 PRO N H sing N N 204 PRO CA C sing N N 205 PRO CA CB sing N N 206 PRO CA HA sing N N 207 PRO C O doub N N 208 PRO C OXT sing N N 209 PRO CB CG sing N N 210 PRO CB HB2 sing N N 211 PRO CB HB3 sing N N 212 PRO CG CD sing N N 213 PRO CG HG2 sing N N 214 PRO CG HG3 sing N N 215 PRO CD HD2 sing N N 216 PRO CD HD3 sing N N 217 PRO OXT HXT sing N N 218 SER N CA sing N N 219 SER N H sing N N 220 SER N H2 sing N N 221 SER CA C sing N N 222 SER CA CB sing N N 223 SER CA HA sing N N 224 SER C O doub N N 225 SER C OXT sing N N 226 SER CB OG sing N N 227 SER CB HB2 sing N N 228 SER CB HB3 sing N N 229 SER OG HG sing N N 230 SER OXT HXT sing N N 231 THR N CA sing N N 232 THR N H sing N N 233 THR N H2 sing N N 234 THR CA C sing N N 235 THR CA CB sing N N 236 THR CA HA sing N N 237 THR C O doub N N 238 THR C OXT sing N N 239 THR CB OG1 sing N N 240 THR CB CG2 sing N N 241 THR CB HB sing N N 242 THR OG1 HG1 sing N N 243 THR CG2 HG21 sing N N 244 THR CG2 HG22 sing N N 245 THR CG2 HG23 sing N N 246 THR OXT HXT sing N N 247 TRP N CA sing N N 248 TRP N H sing N N 249 TRP N H2 sing N N 250 TRP CA C sing N N 251 TRP CA CB sing N N 252 TRP CA HA sing N N 253 TRP C O doub N N 254 TRP C OXT sing N N 255 TRP CB CG sing N N 256 TRP CB HB2 sing N N 257 TRP CB HB3 sing N N 258 TRP CG CD1 doub Y N 259 TRP CG CD2 sing Y N 260 TRP CD1 NE1 sing Y N 261 TRP CD1 HD1 sing N N 262 TRP CD2 CE2 doub Y N 263 TRP CD2 CE3 sing Y N 264 TRP NE1 CE2 sing Y N 265 TRP NE1 HE1 sing N N 266 TRP CE2 CZ2 sing Y N 267 TRP CE3 CZ3 doub Y N 268 TRP CE3 HE3 sing N N 269 TRP CZ2 CH2 doub Y N 270 TRP CZ2 HZ2 sing N N 271 TRP CZ3 CH2 sing Y N 272 TRP CZ3 HZ3 sing N N 273 TRP CH2 HH2 sing N N 274 TRP OXT HXT sing N N 275 TYR N CA sing N N 276 TYR N H sing N N 277 TYR N H2 sing N N 278 TYR CA C sing N N 279 TYR CA CB sing N N 280 TYR CA HA sing N N 281 TYR C O doub N N 282 TYR C OXT sing N N 283 TYR CB CG sing N N 284 TYR CB HB2 sing N N 285 TYR CB HB3 sing N N 286 TYR CG CD1 doub Y N 287 TYR CG CD2 sing Y N 288 TYR CD1 CE1 sing Y N 289 TYR CD1 HD1 sing N N 290 TYR CD2 CE2 doub Y N 291 TYR CD2 HD2 sing N N 292 TYR CE1 CZ doub Y N 293 TYR CE1 HE1 sing N N 294 TYR CE2 CZ sing Y N 295 TYR CE2 HE2 sing N N 296 TYR CZ OH sing N N 297 TYR OH HH sing N N 298 TYR OXT HXT sing N N 299 # _atom_sites.entry_id 1BDS _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 # _atom_sites_footnote.id 1 _atom_sites_footnote.text 'RESIDUES PRO 36 AND PRO 42 ARE CIS PROLINES.' # loop_ _atom_type.symbol C H N O S # loop_ #