data_2CPS # _entry.id 2CPS # _audit_conform.dict_name mmcif_pdbx.dic _audit_conform.dict_version 5.356 _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 2CPS pdb_00002cps 10.2210/pdb2cps/pdb WWPDB D_1000177944 ? ? # _pdbx_database_status.status_code REL _pdbx_database_status.entry_id 2CPS _pdbx_database_status.recvd_initial_deposition_date 1998-04-16 _pdbx_database_status.deposit_site ? _pdbx_database_status.process_site BNL _pdbx_database_status.status_code_sf ? _pdbx_database_status.status_code_mr REL _pdbx_database_status.SG_entry ? _pdbx_database_status.pdb_format_compatible Y _pdbx_database_status.status_code_cs ? _pdbx_database_status.status_code_nmr_data ? _pdbx_database_status.methods_development_category ? # loop_ _audit_author.name _audit_author.pdbx_ordinal 'Papavoine, C.H.M.' 1 'Christiaans, B.E.C.' 2 'Folmer, R.H.A.' 3 'Konings, R.N.H.' 4 'Hilbers, C.W.' 5 # 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 ;Solution structure of the M13 major coat protein in detergent micelles: a basis for a model of phage assembly involving specific residues. ; J.Mol.Biol. 282 401 419 1998 JMOBAK UK 0022-2836 0070 ? 9735296 10.1006/jmbi.1998.1860 1 ;Backbone Dynamics of the Major Coat Protein of Bacteriophage M13 in Detergent Micelles by 15N Nuclear Magnetic Resonance Relaxation Measurements Using the Model-Free Approach and Reduced Spectral Density Mapping ; Biochemistry 36 4015 ? 1997 BICHAW US 0006-2960 0033 ? ? ? 2 'NMR Studies of the Major Coat Protein of Bacteriophage M13. Structural Information of Gviiip in Dodecylphosphocholine Micelles' Eur.J.Biochem. 232 490 ? 1995 EJBCAI IX 0014-2956 0262 ? ? ? 3 'Location of M13 Coat Protein in Sodium Dodecyl Sulfate Micelles as Determined by NMR' Biochemistry 33 12990 ? 1994 BICHAW US 0006-2960 0033 ? ? ? 4 ;Assignment of 1H, 15N, and Backbone 13C Resonances in Detergent-Solubilized M13 Coat Protein Via Multinuclear Multidimensional NMR: A Model for the Coat Protein Monomer ; Biochemistry 32 8322 ? 1993 BICHAW US 0006-2960 0033 ? ? ? # loop_ _citation_author.citation_id _citation_author.name _citation_author.ordinal _citation_author.identifier_ORCID primary 'Papavoine, C.H.' 1 ? primary 'Christiaans, B.E.' 2 ? primary 'Folmer, R.H.' 3 ? primary 'Konings, R.N.' 4 ? primary 'Hilbers, C.W.' 5 ? 1 'Papavoine, C.H.' 6 ? 1 'Remerowski, M.L.' 7 ? 1 'Horstink, L.M.' 8 ? 1 'Konings, R.N.' 9 ? 1 'Hilbers, C.W.' 10 ? 1 'Van De Ven, F.J.' 11 ? 2 'Papavoine, C.H.' 12 ? 2 'Aelen, J.M.' 13 ? 2 'Konings, R.N.' 14 ? 2 'Hilbers, C.W.' 15 ? 2 'Van De Ven, F.J.' 16 ? 3 'Papavoine, C.H.' 17 ? 3 'Konings, R.N.' 18 ? 3 'Hilbers, C.W.' 19 ? 3 'Van De Ven, F.J.' 20 ? 4 'Van De Ven, F.J.' 21 ? 4 'Van Os, J.W.' 22 ? 4 'Aelen, J.M.' 23 ? 4 'Wymenga, S.S.' 24 ? 4 'Remerowski, M.L.' 25 ? 4 'Konings, R.N.' 26 ? 4 'Hilbers, C.W.' 27 ? # _cell.entry_id 2CPS _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 2CPS _symmetry.space_group_name_H-M 'P 1' _symmetry.pdbx_full_space_group_name_H-M ? _symmetry.cell_setting ? _symmetry.Int_Tables_number 1 # _entity.id 1 _entity.type polymer _entity.src_method man _entity.pdbx_description 'M13 MAJOR COAT PROTEIN' _entity.formula_weight 5243.014 _entity.pdbx_number_of_molecules 1 _entity.pdbx_ec ? _entity.pdbx_mutation ? _entity.pdbx_fragment ? _entity.details ? # _entity_name_com.entity_id 1 _entity_name_com.name 'M13 GENE-VIII-PROTEIN OR M13 GVIIIP' # _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 AEGDDPAKAAFNSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS _entity_poly.pdbx_seq_one_letter_code_can AEGDDPAKAAFNSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS _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 GLU n 1 3 GLY n 1 4 ASP n 1 5 ASP n 1 6 PRO n 1 7 ALA n 1 8 LYS n 1 9 ALA n 1 10 ALA n 1 11 PHE n 1 12 ASN n 1 13 SER n 1 14 LEU n 1 15 GLN n 1 16 ALA n 1 17 SER n 1 18 ALA n 1 19 THR n 1 20 GLU n 1 21 TYR n 1 22 ILE n 1 23 GLY n 1 24 TYR n 1 25 ALA n 1 26 TRP n 1 27 ALA n 1 28 MET n 1 29 VAL n 1 30 VAL n 1 31 VAL n 1 32 ILE n 1 33 VAL n 1 34 GLY n 1 35 ALA n 1 36 THR n 1 37 ILE n 1 38 GLY n 1 39 ILE n 1 40 LYS n 1 41 LEU n 1 42 PHE n 1 43 LYS n 1 44 LYS n 1 45 PHE n 1 46 THR n 1 47 SER n 1 48 LYS n 1 49 ALA n 1 50 SER 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 ? _entity_src_gen.gene_src_genus Inovirus _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 'Enterobacteria phage M13' _entity_src_gen.pdbx_gene_src_ncbi_taxonomy_id 10870 _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 '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 ? _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 M13 _entity_src_gen.plasmid_details ? _entity_src_gen.pdbx_description ? # _struct_ref.id 1 _struct_ref.db_name UNP _struct_ref.db_code COATB_BPM13 _struct_ref.entity_id 1 _struct_ref.pdbx_db_accession P69541 _struct_ref.pdbx_align_begin 1 _struct_ref.pdbx_seq_one_letter_code MKKSLVLKASVAVATLVPMLSFAAEGDDPAKAAFNSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS _struct_ref.pdbx_db_isoform ? # _struct_ref_seq.align_id 1 _struct_ref_seq.ref_id 1 _struct_ref_seq.pdbx_PDB_id_code 2CPS _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 50 _struct_ref_seq.pdbx_seq_align_end_ins_code ? _struct_ref_seq.pdbx_db_accession P69541 _struct_ref_seq.db_align_beg 24 _struct_ref_seq.pdbx_db_align_beg_ins_code ? _struct_ref_seq.db_align_end 73 _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 50 # 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 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 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 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_nmr_exptl.experiment_id _pdbx_nmr_exptl.conditions_id _pdbx_nmr_exptl.type _pdbx_nmr_exptl.solution_id 1 1 DQF-COSY 1 2 1 TOCSY 1 3 1 NOESY 1 4 1 'NOESY-HMQC (15N AND 13C)' 1 5 1 'TOCSY-HMQC (15N)' 1 6 1 HCCH-TOCSY 1 7 1 ROESY-GHSQC 1 8 1 HMQC-NOESY-GHSQC 1 9 1 HMQC-J 1 10 1 HNHA 1 11 1 HACACB-COSY 1 12 1 HNHB 1 13 1 'HSQC(3J CGN)' 1 14 1 "HSQC(3JCGC')" 1 # _pdbx_nmr_exptl_sample_conditions.conditions_id 1 _pdbx_nmr_exptl_sample_conditions.temperature 311 _pdbx_nmr_exptl_sample_conditions.pressure ? _pdbx_nmr_exptl_sample_conditions.pH 4.9 _pdbx_nmr_exptl_sample_conditions.ionic_strength ? _pdbx_nmr_exptl_sample_conditions.pressure_units . _pdbx_nmr_exptl_sample_conditions.temperature_units K # _pdbx_nmr_sample_details.solution_id 1 _pdbx_nmr_sample_details.contents H2O # loop_ _pdbx_nmr_spectrometer.spectrometer_id _pdbx_nmr_spectrometer.model _pdbx_nmr_spectrometer.manufacturer _pdbx_nmr_spectrometer.field_strength 1 UNITY Varian 400 2 AM Bruker 500 3 AMX Bruker 600 # _pdbx_nmr_refine.entry_id 2CPS _pdbx_nmr_refine.method 'RESTRAINED MOLECULAR DYNAMICS, SIMULATED ANNEALING, THIS VERSION OF X-PLOR WAS EXTENDED FOR FLOATING CHIRALITY' _pdbx_nmr_refine.details ? _pdbx_nmr_refine.software_ordinal 1 # _pdbx_nmr_details.entry_id 2CPS _pdbx_nmr_details.text ;THE STRUCTURE WAS DETERMINED USING TRIPLE-RESONANCE NMR SPECTROSCOPY ON 13C, 15N -LABELED M13 COAT PROTEIN SOLUBILIZED IN DEUTERATED SODIUM DODECYL SULPHATE MICELLES (CONCENTRATION COAT PROTEIN/SDS = 1:250) ; # _pdbx_nmr_ensemble.entry_id 2CPS _pdbx_nmr_ensemble.conformers_calculated_total_number 80 _pdbx_nmr_ensemble.conformers_submitted_total_number 25 _pdbx_nmr_ensemble.conformer_selection_criteria 'LOWEST ENERGY, DISTANCE RESTRAINTS SMALLER THAN 0.5 A, DIHEDRAL VIOLATIONS SMALLER THAN 5 DEGREES' # loop_ _pdbx_nmr_software.classification _pdbx_nmr_software.name _pdbx_nmr_software.version _pdbx_nmr_software.authors _pdbx_nmr_software.ordinal refinement X-PLOR 3.1 BRUNGER 1 'structure solution' X-PLOR 3.1 ? 2 # _exptl.entry_id 2CPS _exptl.method 'SOLUTION NMR' _exptl.crystals_number ? # _struct.entry_id 2CPS _struct.title ;SOLUTION NMR STRUCTURES OF THE MAJOR COAT PROTEIN OF FILAMENTOUS BACTERIOPHAGE M13 SOLUBILIZED IN SODIUM DODECYL SULPHATE MICELLES, 25 LOWEST ENERGY STRUCTURES ; _struct.pdbx_model_details ? _struct.pdbx_CASP_flag ? _struct.pdbx_model_type_details ? # _struct_keywords.entry_id 2CPS _struct_keywords.pdbx_keywords 'VIRAL PROTEIN' _struct_keywords.text 'MAJOR COAT PROTEIN, BACTERIOPHAGE M13, ASSEMBLY, MICELLE, MEMBRANE, 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_biol.id 1 # loop_ _struct_conf.conf_type_id _struct_conf.id _struct_conf.pdbx_PDB_helix_id _struct_conf.beg_label_comp_id _struct_conf.beg_label_asym_id _struct_conf.beg_label_seq_id _struct_conf.pdbx_beg_PDB_ins_code _struct_conf.end_label_comp_id _struct_conf.end_label_asym_id _struct_conf.end_label_seq_id _struct_conf.pdbx_end_PDB_ins_code _struct_conf.beg_auth_comp_id _struct_conf.beg_auth_asym_id _struct_conf.beg_auth_seq_id _struct_conf.end_auth_comp_id _struct_conf.end_auth_asym_id _struct_conf.end_auth_seq_id _struct_conf.pdbx_PDB_helix_class _struct_conf.details _struct_conf.pdbx_PDB_helix_length HELX_P HELX_P1 1 LYS A 8 ? GLN A 15 ? LYS A 8 GLN A 15 1 ? 8 HELX_P HELX_P2 2 TYR A 24 ? THR A 46 ? TYR A 24 THR A 46 1 ? 23 # _struct_conf_type.id HELX_P _struct_conf_type.criteria ? _struct_conf_type.reference ? # _database_PDB_matrix.entry_id 2CPS _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 # _atom_sites.entry_id 2CPS _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_ _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 GLU 2 2 2 GLU GLU A . n A 1 3 GLY 3 3 3 GLY GLY A . n A 1 4 ASP 4 4 4 ASP ASP A . n A 1 5 ASP 5 5 5 ASP ASP A . n A 1 6 PRO 6 6 6 PRO PRO A . n A 1 7 ALA 7 7 7 ALA ALA A . n A 1 8 LYS 8 8 8 LYS LYS A . n A 1 9 ALA 9 9 9 ALA ALA A . n A 1 10 ALA 10 10 10 ALA ALA A . n A 1 11 PHE 11 11 11 PHE PHE A . n A 1 12 ASN 12 12 12 ASN ASN A . n A 1 13 SER 13 13 13 SER SER A . n A 1 14 LEU 14 14 14 LEU LEU A . n A 1 15 GLN 15 15 15 GLN GLN A . n A 1 16 ALA 16 16 16 ALA ALA A . n A 1 17 SER 17 17 17 SER SER A . n A 1 18 ALA 18 18 18 ALA ALA A . n A 1 19 THR 19 19 19 THR THR A . n A 1 20 GLU 20 20 20 GLU GLU A . n A 1 21 TYR 21 21 21 TYR TYR A . n A 1 22 ILE 22 22 22 ILE ILE A . n A 1 23 GLY 23 23 23 GLY GLY A . n A 1 24 TYR 24 24 24 TYR TYR A . n A 1 25 ALA 25 25 25 ALA ALA A . n A 1 26 TRP 26 26 26 TRP TRP A . n A 1 27 ALA 27 27 27 ALA ALA A . n A 1 28 MET 28 28 28 MET MET A . n A 1 29 VAL 29 29 29 VAL VAL A . n A 1 30 VAL 30 30 30 VAL VAL A . n A 1 31 VAL 31 31 31 VAL VAL A . n A 1 32 ILE 32 32 32 ILE ILE A . n A 1 33 VAL 33 33 33 VAL VAL A . n A 1 34 GLY 34 34 34 GLY GLY A . n A 1 35 ALA 35 35 35 ALA ALA A . n A 1 36 THR 36 36 36 THR THR A . n A 1 37 ILE 37 37 37 ILE ILE A . n A 1 38 GLY 38 38 38 GLY GLY A . n A 1 39 ILE 39 39 39 ILE ILE A . n A 1 40 LYS 40 40 40 LYS LYS A . n A 1 41 LEU 41 41 41 LEU LEU A . n A 1 42 PHE 42 42 42 PHE PHE A . n A 1 43 LYS 43 43 43 LYS LYS A . n A 1 44 LYS 44 44 44 LYS LYS A . n A 1 45 PHE 45 45 45 PHE PHE A . n A 1 46 THR 46 46 46 THR THR A . n A 1 47 SER 47 47 47 SER SER A . n A 1 48 LYS 48 48 48 LYS LYS A . n A 1 49 ALA 49 49 49 ALA ALA A . n A 1 50 SER 50 50 50 SER SER A . n # _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 x,y,z _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 # 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 1998-11-11 2 'Structure model' 1 1 2008-03-24 3 'Structure model' 1 2 2011-07-13 4 'Structure model' 1 3 2022-03-09 # _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' 'Database references' 4 4 'Structure model' 'Derived calculations' 5 4 'Structure model' Other # 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' database_2 2 4 'Structure model' pdbx_database_status 3 4 'Structure model' pdbx_struct_assembly 4 4 'Structure model' pdbx_struct_oper_list # 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' '_database_2.pdbx_DOI' 2 4 'Structure model' '_database_2.pdbx_database_accession' 3 4 'Structure model' '_pdbx_database_status.process_site' # 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 # loop_ _pdbx_validate_close_contact.id _pdbx_validate_close_contact.PDB_model_num _pdbx_validate_close_contact.auth_atom_id_1 _pdbx_validate_close_contact.auth_asym_id_1 _pdbx_validate_close_contact.auth_comp_id_1 _pdbx_validate_close_contact.auth_seq_id_1 _pdbx_validate_close_contact.PDB_ins_code_1 _pdbx_validate_close_contact.label_alt_id_1 _pdbx_validate_close_contact.auth_atom_id_2 _pdbx_validate_close_contact.auth_asym_id_2 _pdbx_validate_close_contact.auth_comp_id_2 _pdbx_validate_close_contact.auth_seq_id_2 _pdbx_validate_close_contact.PDB_ins_code_2 _pdbx_validate_close_contact.label_alt_id_2 _pdbx_validate_close_contact.dist 1 3 O A LYS 43 ? ? HG1 A THR 46 ? ? 1.60 2 4 O A ALA 9 ? ? H A SER 13 ? ? 1.60 3 11 O A PHE 42 ? ? H A THR 46 ? ? 1.57 4 15 O A ILE 22 ? ? H A ALA 25 ? ? 1.60 5 19 O A ALA 9 ? ? H A SER 13 ? ? 1.60 6 20 O A THR 36 ? ? H A LYS 40 ? ? 1.59 7 21 O A ALA 18 ? ? H A TYR 21 ? ? 1.55 8 25 O A VAL 29 ? ? H A VAL 33 ? ? 1.57 # 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 GLU A 2 ? ? -67.91 63.64 2 1 ASP A 5 ? ? 47.83 94.18 3 1 ALA A 7 ? ? -86.75 -85.91 4 1 SER A 17 ? ? -93.24 42.38 5 1 ALA A 18 ? ? -100.36 69.62 6 2 ASP A 4 ? ? -158.77 -67.70 7 2 ASP A 5 ? ? -179.65 79.51 8 2 ALA A 18 ? ? -93.17 47.89 9 2 ALA A 49 ? ? -39.47 111.13 10 3 GLU A 2 ? ? 174.34 50.80 11 3 ASP A 4 ? ? -103.93 -62.70 12 3 SER A 17 ? ? -151.43 27.11 13 3 THR A 19 ? ? -97.63 30.57 14 3 ALA A 49 ? ? 68.27 124.72 15 4 GLU A 2 ? ? 67.39 119.32 16 4 ASP A 5 ? ? -46.37 101.92 17 4 SER A 17 ? ? -136.08 -54.41 18 4 ALA A 18 ? ? -100.66 63.81 19 5 ASP A 5 ? ? 63.20 140.11 20 5 ALA A 18 ? ? -96.18 49.92 21 6 GLU A 2 ? ? 176.01 130.45 22 6 ASP A 4 ? ? -107.86 44.05 23 6 ASP A 5 ? ? -176.35 79.48 24 6 ALA A 7 ? ? 85.96 -48.98 25 6 ALA A 18 ? ? -100.47 64.50 26 6 ALA A 49 ? ? 70.70 174.26 27 7 GLU A 2 ? ? 174.76 46.74 28 7 ASP A 4 ? ? -130.35 -68.01 29 7 ASP A 5 ? ? -169.77 116.29 30 7 THR A 19 ? ? -94.83 37.73 31 7 SER A 47 ? ? -159.23 40.01 32 7 ALA A 49 ? ? 53.63 87.89 33 8 GLU A 2 ? ? 66.76 99.18 34 8 ASP A 5 ? ? -42.62 99.47 35 8 ALA A 18 ? ? -100.34 66.39 36 8 SER A 47 ? ? -105.67 52.44 37 9 ASP A 4 ? ? -108.49 -73.80 38 9 ASP A 5 ? ? 62.10 120.93 39 9 LYS A 8 ? ? 33.82 74.59 40 9 ALA A 9 ? ? -64.35 -73.44 41 10 ASP A 4 ? ? -68.50 63.50 42 10 ALA A 9 ? ? -38.23 -78.65 43 10 THR A 19 ? ? -98.99 34.33 44 10 SER A 47 ? ? 49.03 24.85 45 10 ALA A 49 ? ? -43.54 156.23 46 11 GLU A 2 ? ? 177.94 42.51 47 11 ASP A 5 ? ? 179.50 84.35 48 11 ALA A 7 ? ? 85.78 -48.22 49 11 ALA A 9 ? ? -53.12 -73.20 50 11 SER A 17 ? ? -118.91 55.54 51 11 ILE A 32 ? ? -100.45 -62.63 52 11 SER A 47 ? ? -96.72 35.95 53 11 ALA A 49 ? ? 167.46 54.35 54 12 GLU A 2 ? ? 61.94 -179.61 55 12 ASP A 4 ? ? -140.07 58.82 56 12 ASP A 5 ? ? -178.85 94.84 57 12 LYS A 8 ? ? 37.07 81.37 58 12 THR A 46 ? ? 38.84 44.49 59 12 ALA A 49 ? ? -41.15 -84.73 60 13 ASP A 4 ? ? -116.21 75.74 61 13 SER A 17 ? ? -165.12 67.92 62 13 ALA A 18 ? ? -89.63 42.12 63 13 THR A 46 ? ? 39.58 34.51 64 13 ALA A 49 ? ? -43.98 160.50 65 14 GLU A 2 ? ? 176.92 110.12 66 14 ASP A 5 ? ? 71.68 123.29 67 14 ALA A 9 ? ? -58.66 -84.53 68 14 SER A 17 ? ? -158.02 69.05 69 14 LYS A 44 ? ? -92.97 -62.31 70 14 ALA A 49 ? ? 56.01 72.96 71 15 ASP A 4 ? ? -147.99 56.81 72 15 ASP A 5 ? ? -179.81 99.92 73 15 LYS A 8 ? ? -122.22 -54.63 74 15 ALA A 49 ? ? 54.73 72.83 75 16 GLU A 2 ? ? 57.99 76.18 76 16 ASP A 4 ? ? -122.88 -73.18 77 16 ASP A 5 ? ? -54.87 107.08 78 16 ALA A 7 ? ? 84.06 -46.73 79 16 LYS A 8 ? ? -135.57 -54.62 80 16 ALA A 9 ? ? -37.75 -82.55 81 16 SER A 17 ? ? -141.91 -58.05 82 16 ALA A 49 ? ? 53.27 -87.77 83 17 GLU A 2 ? ? 40.98 95.10 84 17 ASP A 4 ? ? -161.01 86.19 85 17 ASP A 5 ? ? -173.00 77.08 86 17 LYS A 8 ? ? 31.97 37.42 87 17 LYS A 44 ? ? -95.48 -74.12 88 18 ASP A 5 ? ? 61.31 120.96 89 18 SER A 47 ? ? -161.78 -52.65 90 18 LYS A 48 ? ? -64.34 69.54 91 18 ALA A 49 ? ? -171.81 143.13 92 19 GLU A 2 ? ? -49.39 156.28 93 19 ASP A 5 ? ? 58.54 97.96 94 19 ALA A 49 ? ? 164.74 160.27 95 20 GLU A 2 ? ? 53.83 95.88 96 20 ASP A 4 ? ? -97.19 -76.85 97 20 ASP A 5 ? ? -176.93 75.05 98 20 ALA A 7 ? ? -96.96 49.63 99 20 LYS A 8 ? ? 34.52 74.83 100 20 ALA A 18 ? ? -93.70 50.48 101 20 ALA A 49 ? ? -49.76 161.39 102 21 GLU A 2 ? ? -44.03 106.38 103 21 ASP A 4 ? ? -119.12 64.61 104 21 ASP A 5 ? ? -176.18 142.32 105 21 ALA A 18 ? ? -101.03 72.92 106 21 ALA A 49 ? ? 56.57 -176.67 107 22 GLU A 2 ? ? 172.30 125.39 108 22 ASP A 5 ? ? -155.86 71.30 109 22 ALA A 9 ? ? -75.88 -70.64 110 22 SER A 17 ? ? -78.96 -76.41 111 22 THR A 19 ? ? -95.48 35.09 112 22 SER A 47 ? ? -172.11 51.32 113 22 ALA A 49 ? ? -43.65 92.91 114 23 ASP A 4 ? ? -163.72 86.41 115 23 ASP A 5 ? ? 58.45 91.11 116 23 ALA A 7 ? ? -93.24 43.75 117 23 LYS A 8 ? ? 28.46 63.23 118 23 ALA A 9 ? ? -100.33 -85.70 119 23 TYR A 24 ? ? -140.36 -44.79 120 23 ALA A 49 ? ? 53.60 -87.20 121 24 ASP A 4 ? ? -114.41 79.07 122 24 ASP A 5 ? ? 57.05 95.20 123 24 ALA A 7 ? ? 82.63 -46.52 124 24 LYS A 8 ? ? -120.97 -66.77 125 24 ALA A 9 ? ? -43.25 -89.08 126 24 SER A 17 ? ? -146.74 28.63 127 24 TYR A 24 ? ? -142.17 -45.73 128 24 LYS A 44 ? ? -49.37 -70.37 129 24 ALA A 49 ? ? -43.75 -71.58 130 25 GLU A 2 ? ? 56.10 177.53 131 25 ASP A 5 ? ? 178.59 85.90 132 25 LYS A 8 ? ? 34.49 75.74 133 25 ALA A 9 ? ? -81.15 -73.21 134 25 ALA A 18 ? ? -99.71 39.57 135 25 TRP A 26 ? ? -90.85 -64.10 136 25 LYS A 44 ? ? -58.91 -75.41 137 25 THR A 46 ? ? -77.62 -71.62 138 25 ALA A 49 ? ? 43.58 -168.19 #