data_6UHW # _entry.id 6UHW # _audit_conform.dict_name mmcif_pdbx.dic _audit_conform.dict_version 5.371 _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 6UHW pdb_00006uhw 10.2210/pdb6uhw/pdb WWPDB D_1000244639 ? ? BMRB 30677 ? ? # loop_ _pdbx_database_related.db_name _pdbx_database_related.details _pdbx_database_related.db_id _pdbx_database_related.content_type BMRB 'The BMRB entry contained a 21-residue N-terminal tag that was removed here.' 16144 unspecified BMRB ;Solution structure of an organic hydroperoxide resistance protein from Burkholderia pseudomallei. Seattle Structural Genomics Center for Infectious Disease target BupsA.00074.a. ; 30677 unspecified TargetTrack . SSGCID-BupsA.00074.a unspecified # _pdbx_database_status.status_code REL _pdbx_database_status.status_code_sf ? _pdbx_database_status.status_code_mr REL _pdbx_database_status.entry_id 6UHW _pdbx_database_status.recvd_initial_deposition_date 2019-09-29 _pdbx_database_status.SG_entry Y _pdbx_database_status.deposit_site RCSB _pdbx_database_status.process_site RCSB _pdbx_database_status.status_code_cs REL _pdbx_database_status.methods_development_category ? _pdbx_database_status.pdb_format_compatible Y _pdbx_database_status.status_code_nmr_data REL # loop_ _audit_author.name _audit_author.pdbx_ordinal _audit_author.identifier_ORCID 'Buchko, G.W.' 1 0000-0002-3639-1061 'Seattle Structural Genomics Center for Infectious Disease (SSGCID)' 2 ? # _citation.abstract ? _citation.abstract_id_CAS ? _citation.book_id_ISBN ? _citation.book_publisher ? _citation.book_publisher_city ? _citation.book_title ? _citation.coordinate_linkage ? _citation.country NE _citation.database_id_Medline ? _citation.details ? _citation.id primary _citation.journal_abbrev 'Biomol.Nmr Assign.' _citation.journal_id_ASTM ? _citation.journal_id_CSD ? _citation.journal_id_ISSN 1874-270X _citation.journal_full ? _citation.journal_issue ? _citation.journal_volume 3 _citation.language ? _citation.page_first 163 _citation.page_last 166 _citation.title ;Backbone and side chain (1)H, (13)C, and (15)N NMR assignments for the organic hydroperoxide resistance protein (Ohr) from Burkholderia pseudomallei. ; _citation.year 2009 _citation.database_id_CSD ? _citation.pdbx_database_id_DOI 10.1007/s12104-009-9165-5 _citation.pdbx_database_id_PubMed 19888681 _citation.unpublished_flag ? # loop_ _citation_author.citation_id _citation_author.name _citation_author.ordinal _citation_author.identifier_ORCID primary 'Buchko, G.W.' 1 ? primary 'Hewitt, S.N.' 2 ? primary 'Napuli, A.J.' 3 ? primary 'Van Voorhis, W.C.' 4 ? primary 'Myler, P.J.' 5 ? # _entity.id 1 _entity.type polymer _entity.src_method man _entity.pdbx_description 'Organic hydroperoxide resistance protein' _entity.formula_weight 14413.182 _entity.pdbx_number_of_molecules 2 _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 ;MNILYKTAATSTGGRDGRATSHDQKLDVKLSAPRELGGAGAEGTNPEQLFAAGYSACFLSAMKFVAGQNKQTLPADTTVT AEVGIGPNEEGGFALDVELRVALPGLDAAAAKTLVDRAHHVCPYSNATRNNVAVRLVVA ; _entity_poly.pdbx_seq_one_letter_code_can ;MNILYKTAATSTGGRDGRATSHDQKLDVKLSAPRELGGAGAEGTNPEQLFAAGYSACFLSAMKFVAGQNKQTLPADTTVT AEVGIGPNEEGGFALDVELRVALPGLDAAAAKTLVDRAHHVCPYSNATRNNVAVRLVVA ; _entity_poly.pdbx_strand_id A,B _entity_poly.pdbx_target_identifier SSGCID-BupsA.00074.a # loop_ _entity_poly_seq.entity_id _entity_poly_seq.num _entity_poly_seq.mon_id _entity_poly_seq.hetero 1 1 MET n 1 2 ASN n 1 3 ILE n 1 4 LEU n 1 5 TYR n 1 6 LYS n 1 7 THR n 1 8 ALA n 1 9 ALA n 1 10 THR n 1 11 SER n 1 12 THR n 1 13 GLY n 1 14 GLY n 1 15 ARG n 1 16 ASP n 1 17 GLY n 1 18 ARG n 1 19 ALA n 1 20 THR n 1 21 SER n 1 22 HIS n 1 23 ASP n 1 24 GLN n 1 25 LYS n 1 26 LEU n 1 27 ASP n 1 28 VAL n 1 29 LYS n 1 30 LEU n 1 31 SER n 1 32 ALA n 1 33 PRO n 1 34 ARG n 1 35 GLU n 1 36 LEU n 1 37 GLY n 1 38 GLY n 1 39 ALA n 1 40 GLY n 1 41 ALA n 1 42 GLU n 1 43 GLY n 1 44 THR n 1 45 ASN n 1 46 PRO n 1 47 GLU n 1 48 GLN n 1 49 LEU n 1 50 PHE n 1 51 ALA n 1 52 ALA n 1 53 GLY n 1 54 TYR n 1 55 SER n 1 56 ALA n 1 57 CYS n 1 58 PHE n 1 59 LEU n 1 60 SER n 1 61 ALA n 1 62 MET n 1 63 LYS n 1 64 PHE n 1 65 VAL n 1 66 ALA n 1 67 GLY n 1 68 GLN n 1 69 ASN n 1 70 LYS n 1 71 GLN n 1 72 THR n 1 73 LEU n 1 74 PRO n 1 75 ALA n 1 76 ASP n 1 77 THR n 1 78 THR n 1 79 VAL n 1 80 THR n 1 81 ALA n 1 82 GLU n 1 83 VAL n 1 84 GLY n 1 85 ILE n 1 86 GLY n 1 87 PRO n 1 88 ASN n 1 89 GLU n 1 90 GLU n 1 91 GLY n 1 92 GLY n 1 93 PHE n 1 94 ALA n 1 95 LEU n 1 96 ASP n 1 97 VAL n 1 98 GLU n 1 99 LEU n 1 100 ARG n 1 101 VAL n 1 102 ALA n 1 103 LEU n 1 104 PRO n 1 105 GLY n 1 106 LEU n 1 107 ASP n 1 108 ALA n 1 109 ALA n 1 110 ALA n 1 111 ALA n 1 112 LYS n 1 113 THR n 1 114 LEU n 1 115 VAL n 1 116 ASP n 1 117 ARG n 1 118 ALA n 1 119 HIS n 1 120 HIS n 1 121 VAL n 1 122 CYS n 1 123 PRO n 1 124 TYR n 1 125 SER n 1 126 ASN n 1 127 ALA n 1 128 THR n 1 129 ARG n 1 130 ASN n 1 131 ASN n 1 132 VAL n 1 133 ALA n 1 134 VAL n 1 135 ARG n 1 136 LEU n 1 137 VAL n 1 138 VAL n 1 139 ALA 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 'Biological sequence' _entity_src_gen.pdbx_beg_seq_num 1 _entity_src_gen.pdbx_end_seq_num 139 _entity_src_gen.gene_src_common_name ? _entity_src_gen.gene_src_genus ? _entity_src_gen.pdbx_gene_src_gene 'ohr, BURPS1710b_A0863' _entity_src_gen.gene_src_species ? _entity_src_gen.gene_src_strain 1710b _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 'Burkholderia pseudomallei (strain 1710b)' _entity_src_gen.pdbx_gene_src_ncbi_taxonomy_id 320372 _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 ? _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 ? # _struct_ref.id 1 _struct_ref.db_name UNP _struct_ref.db_code Q3JK82_BURP1 _struct_ref.pdbx_db_accession Q3JK82 _struct_ref.pdbx_db_isoform ? _struct_ref.entity_id 1 _struct_ref.pdbx_seq_one_letter_code ;MNILYKTAATSTGGRDGRATSHDQKLDVKLSAPRELGGAGAEGTNPEQLFAAGYSACFLSAMKFVAGQNKQTLPADTTVT AEVGIGPNEEGGFALDVELRVALPGLDAAAAKTLVDRAHHVCPYSNATRNNVAVRLVVA ; _struct_ref.pdbx_align_begin 1 # loop_ _struct_ref_seq.align_id _struct_ref_seq.ref_id _struct_ref_seq.pdbx_PDB_id_code _struct_ref_seq.pdbx_strand_id _struct_ref_seq.seq_align_beg _struct_ref_seq.pdbx_seq_align_beg_ins_code _struct_ref_seq.seq_align_end _struct_ref_seq.pdbx_seq_align_end_ins_code _struct_ref_seq.pdbx_db_accession _struct_ref_seq.db_align_beg _struct_ref_seq.pdbx_db_align_beg_ins_code _struct_ref_seq.db_align_end _struct_ref_seq.pdbx_db_align_end_ins_code _struct_ref_seq.pdbx_auth_seq_align_beg _struct_ref_seq.pdbx_auth_seq_align_end 1 1 6UHW A 1 ? 139 ? Q3JK82 1 ? 139 ? 1 139 2 1 6UHW B 1 ? 139 ? Q3JK82 1 ? 139 ? 1 139 # loop_ _chem_comp.id _chem_comp.type _chem_comp.mon_nstd_flag _chem_comp.name _chem_comp.pdbx_synonyms _chem_comp.formula _chem_comp.formula_weight ALA 'L-peptide linking' y ALANINE ? 'C3 H7 N O2' 89.093 ARG 'L-peptide linking' y ARGININE ? 'C6 H15 N4 O2 1' 175.209 ASN 'L-peptide linking' y ASPARAGINE ? 'C4 H8 N2 O3' 132.118 ASP 'L-peptide linking' y 'ASPARTIC ACID' ? 'C4 H7 N O4' 133.103 CYS 'L-peptide linking' y CYSTEINE ? 'C3 H7 N O2 S' 121.158 GLN 'L-peptide linking' y GLUTAMINE ? 'C5 H10 N2 O3' 146.144 GLU 'L-peptide linking' y 'GLUTAMIC ACID' ? 'C5 H9 N O4' 147.129 GLY 'peptide linking' y GLYCINE ? 'C2 H5 N O2' 75.067 HIS 'L-peptide linking' y HISTIDINE ? 'C6 H10 N3 O2 1' 156.162 ILE 'L-peptide linking' y ISOLEUCINE ? 'C6 H13 N O2' 131.173 LEU 'L-peptide linking' y LEUCINE ? 'C6 H13 N O2' 131.173 LYS 'L-peptide linking' y LYSINE ? 'C6 H15 N2 O2 1' 147.195 MET 'L-peptide linking' y METHIONINE ? 'C5 H11 N O2 S' 149.211 PHE 'L-peptide linking' y PHENYLALANINE ? 'C9 H11 N O2' 165.189 PRO 'L-peptide linking' y PROLINE ? 'C5 H9 N O2' 115.130 SER 'L-peptide linking' y SERINE ? 'C3 H7 N O3' 105.093 THR 'L-peptide linking' y THREONINE ? 'C4 H9 N O3' 119.119 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.solution_id _pdbx_nmr_exptl.type _pdbx_nmr_exptl.spectrometer_id _pdbx_nmr_exptl.sample_state 1 1 1 '2D 1H-15N HSQC' 2 isotropic 2 1 1 '2D 1H-13C HSQC aliphatic' 1 isotropic 3 1 3 '2D 1H-15N HSQC' 1 isotropic 4 1 2 '3D C(CO)NH' 2 isotropic 5 1 2 '3D HNCACB' 2 isotropic 12 1 2 '3D HCCH-TOCSY' 4 isotropic 11 1 1 '3D 1H-15N NOESY' 2 isotropic 10 1 1 '3D 1H-13C NOESY aromatic' 2 isotropic 9 1 3 '3D 1H-13C NOESY aliphatic' 1 isotropic 8 1 1 '3D 1H-13C NOESY aliphatic' 2 isotropic 7 1 1 '3D HNCO' 4 isotropic 6 1 2 '3D HNCA' 4 isotropic 13 1 3 '2D 1H-15N HSQC' 1 isotropic 14 1 2 '3D H(CCO)NH' 4 isotropic 15 1 4 '2D 1H-13C HSQC aliphatic' 1 isotropic 16 1 1 '2D 1H-13C HSQC aromatic' 2 isotropic # _pdbx_nmr_exptl_sample_conditions.conditions_id 1 _pdbx_nmr_exptl_sample_conditions.temperature 298 _pdbx_nmr_exptl_sample_conditions.pressure_units atm _pdbx_nmr_exptl_sample_conditions.pressure 1 _pdbx_nmr_exptl_sample_conditions.pH 7 _pdbx_nmr_exptl_sample_conditions.ionic_strength 0.12 _pdbx_nmr_exptl_sample_conditions.details ? _pdbx_nmr_exptl_sample_conditions.ionic_strength_err ? _pdbx_nmr_exptl_sample_conditions.ionic_strength_units M _pdbx_nmr_exptl_sample_conditions.label Cond1 _pdbx_nmr_exptl_sample_conditions.pH_err 0.1 _pdbx_nmr_exptl_sample_conditions.pH_units pH _pdbx_nmr_exptl_sample_conditions.pressure_err ? _pdbx_nmr_exptl_sample_conditions.temperature_err 0.2 _pdbx_nmr_exptl_sample_conditions.temperature_units K # loop_ _pdbx_nmr_sample_details.solution_id _pdbx_nmr_sample_details.contents _pdbx_nmr_sample_details.solvent_system _pdbx_nmr_sample_details.label _pdbx_nmr_sample_details.type _pdbx_nmr_sample_details.details 1 '20 mM TRIS, 100 mM sodium chloride, 1 mM DTT, 1 mM [U-99% 13C; U-99% 15N] B74, 93% H2O/7% D2O' '93% H2O/7% D2O' B74_CN solution ? 2 '20 mM TRIS, 100 mM sodium chloride, 1 mM DTT, 1 mM 99% 13C; U-99% 15N; 50%-2H]] B74, 93% H2O/7% D2O' '93% H2O/7% D2O' B74_CN50D solution ? 3 '20 mM TRIS, 100 mM sodium chloride, 1 mM DTT, 1 mM 99% 13C; U-99% 15N] B74, 99% D2O' '99% D2O' B74_CN_D2O solution ? 4 '20 mM TRIS, 100 mM sodium chloride, 1 mM DTT, 1 mM [U-10% 13C; U-99% 15N] B74, 93% H2O/7% D2O' '93% H2O/7% D2O' B74_10C solution ? # loop_ _pdbx_nmr_spectrometer.spectrometer_id _pdbx_nmr_spectrometer.model _pdbx_nmr_spectrometer.type _pdbx_nmr_spectrometer.manufacturer _pdbx_nmr_spectrometer.field_strength _pdbx_nmr_spectrometer.details 1 'AVANCE II' ? Bruker 750 ? 2 VXRS ? Varian 750 ? 4 VXRS ? Varian 600 ? # _pdbx_nmr_refine.entry_id 6UHW _pdbx_nmr_refine.method 'torsion angle dynamics' _pdbx_nmr_refine.details ;Thirty-four pairs of intermolecular molecule distance restraints, identified with the assistance of homology models and confirmed in the NOE data, were introduced to coax the structure into a dimeric structure using CYANA. STRUCTURE DETERMINATION WAS PERFORMED ITERATIVELY USING CYANA (AUTOMATED NOESY ASSIGNMENTS). A TOTAL OF 20 STRUCTURES OUT OF 100 WITH LOWEST TARGET FUNCTION FROM THE FINAL CYANA CALCULATION WERE TAKEN AND REFINED BY RESTRAINED MOLECULAR DYNAMICS/ENERGY MINIMIZATION IN EXPLICIT WATER (CNS) AFTER ADDING 0% TO THE UPPER BOUNDARY LIMIT OF THE DISTANCE RESTRAINTS AND THE VDW ; _pdbx_nmr_refine.software_ordinal 2 # _pdbx_nmr_ensemble.entry_id 6UHW _pdbx_nmr_ensemble.conformers_calculated_total_number 100 _pdbx_nmr_ensemble.conformers_submitted_total_number 20 _pdbx_nmr_ensemble.conformer_selection_criteria 'target function' _pdbx_nmr_ensemble.representative_conformer ? _pdbx_nmr_ensemble.average_constraints_per_residue ? _pdbx_nmr_ensemble.average_constraint_violations_per_residue ? _pdbx_nmr_ensemble.maximum_distance_constraint_violation ? _pdbx_nmr_ensemble.average_distance_constraint_violation ? _pdbx_nmr_ensemble.maximum_upper_distance_constraint_violation ? _pdbx_nmr_ensemble.maximum_lower_distance_constraint_violation ? _pdbx_nmr_ensemble.distance_constraint_violation_method ? _pdbx_nmr_ensemble.maximum_torsion_angle_constraint_violation ? _pdbx_nmr_ensemble.average_torsion_angle_constraint_violation ? _pdbx_nmr_ensemble.torsion_angle_constraint_violation_method ? # _pdbx_nmr_representative.entry_id 6UHW _pdbx_nmr_representative.conformer_id 1 _pdbx_nmr_representative.selection_criteria 'closest to the average' # loop_ _pdbx_nmr_software.ordinal _pdbx_nmr_software.classification _pdbx_nmr_software.name _pdbx_nmr_software.version _pdbx_nmr_software.authors 1 processing Felix 2007 'Accelrys Software Inc.' 2 refinement CYANA 2.1 'Guntert, Mumenthaler and Wuthrich' 3 'chemical shift assignment' Sparky 3.115 Goddard 4 'peak picking' Sparky 3.115 Goddard 5 'data analysis' Sparky 3.115 Goddard 6 'data analysis' TALOS + 'Cornilescu, Delaglio and Bax' 7 'data analysis' PSVS 1.5 'Bhattacharya and Montelione' 8 'structure calculation' CYANA ? 'Guntert, Mumenthaler and Wuthrich' # _exptl.absorpt_coefficient_mu ? _exptl.absorpt_correction_T_max ? _exptl.absorpt_correction_T_min ? _exptl.absorpt_correction_type ? _exptl.absorpt_process_details ? _exptl.entry_id 6UHW _exptl.crystals_number ? _exptl.details ? _exptl.method 'SOLUTION NMR' _exptl.method_details ? # _struct.entry_id 6UHW _struct.title ;Solution structure of an organic hydroperoxide resistance protein from Burkholderia pseudomallei. Seattle Structural Genomics Center for Infectious Disease target BupsA.00074.a. ; _struct.pdbx_model_details ? _struct.pdbx_formula_weight ? _struct.pdbx_formula_weight_method ? _struct.pdbx_model_type_details ? _struct.pdbx_CASP_flag N # _struct_keywords.entry_id 6UHW _struct_keywords.text ;Melioidosis, infectious diseases, detoxification, biological warfare agent, Structural Genomics, Seattle Structural Genomics Center for Infectious Disease, SSGCID, OXIDOREDUCTASE ; _struct_keywords.pdbx_keywords OXIDOREDUCTASE # loop_ _struct_asym.id _struct_asym.pdbx_blank_PDB_chainid_flag _struct_asym.pdbx_modified _struct_asym.entity_id _struct_asym.details A N N 1 ? B N N 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 AA1 PRO A 33 ? GLY A 38 ? PRO A 33 GLY A 38 1 ? 6 HELX_P HELX_P2 AA2 ASN A 45 ? ASN A 69 ? ASN A 45 ASN A 69 1 ? 25 HELX_P HELX_P3 AA3 ASP A 107 ? CYS A 122 ? ASP A 107 CYS A 122 1 ? 16 HELX_P HELX_P4 AA4 ASN A 126 ? ASN A 131 ? ASN A 126 ASN A 131 1 ? 6 HELX_P HELX_P5 AA5 ASN B 45 ? LYS B 70 ? ASN B 45 LYS B 70 1 ? 26 HELX_P HELX_P6 AA6 ASP B 107 ? CYS B 122 ? ASP B 107 CYS B 122 1 ? 16 HELX_P HELX_P7 AA7 TYR B 124 ? ASN B 130 ? TYR B 124 ASN B 130 1 ? 7 # _struct_conf_type.id HELX_P _struct_conf_type.criteria ? _struct_conf_type.reference ? # loop_ _struct_sheet.id _struct_sheet.type _struct_sheet.number_strands _struct_sheet.details AA1 ? 6 ? AA2 ? 6 ? # 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 AA1 1 2 ? anti-parallel AA1 2 3 ? anti-parallel AA1 3 4 ? anti-parallel AA1 4 5 ? anti-parallel AA1 5 6 ? parallel AA2 1 2 ? parallel AA2 2 3 ? anti-parallel AA2 3 4 ? anti-parallel AA2 4 5 ? anti-parallel AA2 5 6 ? 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 AA1 1 LEU A 26 ? LEU A 30 ? LEU A 26 LEU A 30 AA1 2 GLY A 17 ? SER A 21 ? GLY A 17 SER A 21 AA1 3 TYR A 5 ? THR A 12 ? TYR A 5 THR A 12 AA1 4 THR B 78 ? PRO B 87 ? THR B 78 PRO B 87 AA1 5 PHE B 93 ? ALA B 102 ? PHE B 93 ALA B 102 AA1 6 VAL B 134 ? VAL B 138 ? VAL B 134 VAL B 138 AA2 1 ALA A 133 ? ALA A 139 ? ALA A 133 ALA A 139 AA2 2 PHE A 93 ? ALA A 102 ? PHE A 93 ALA A 102 AA2 3 THR A 78 ? PRO A 87 ? THR A 78 PRO A 87 AA2 4 TYR B 5 ? THR B 12 ? TYR B 5 THR B 12 AA2 5 GLY B 17 ? SER B 21 ? GLY B 17 SER B 21 AA2 6 LEU B 26 ? LEU B 30 ? LEU B 26 LEU B 30 # loop_ _pdbx_struct_sheet_hbond.sheet_id _pdbx_struct_sheet_hbond.range_id_1 _pdbx_struct_sheet_hbond.range_id_2 _pdbx_struct_sheet_hbond.range_1_label_atom_id _pdbx_struct_sheet_hbond.range_1_label_comp_id _pdbx_struct_sheet_hbond.range_1_label_asym_id _pdbx_struct_sheet_hbond.range_1_label_seq_id _pdbx_struct_sheet_hbond.range_1_PDB_ins_code _pdbx_struct_sheet_hbond.range_1_auth_atom_id _pdbx_struct_sheet_hbond.range_1_auth_comp_id _pdbx_struct_sheet_hbond.range_1_auth_asym_id _pdbx_struct_sheet_hbond.range_1_auth_seq_id _pdbx_struct_sheet_hbond.range_2_label_atom_id _pdbx_struct_sheet_hbond.range_2_label_comp_id _pdbx_struct_sheet_hbond.range_2_label_asym_id _pdbx_struct_sheet_hbond.range_2_label_seq_id _pdbx_struct_sheet_hbond.range_2_PDB_ins_code _pdbx_struct_sheet_hbond.range_2_auth_atom_id _pdbx_struct_sheet_hbond.range_2_auth_comp_id _pdbx_struct_sheet_hbond.range_2_auth_asym_id _pdbx_struct_sheet_hbond.range_2_auth_seq_id AA1 1 2 O VAL A 28 ? O VAL A 28 N ALA A 19 ? N ALA A 19 AA1 2 3 O THR A 20 ? O THR A 20 N THR A 10 ? N THR A 10 AA1 3 4 N ALA A 9 ? N ALA A 9 O ALA B 81 ? O ALA B 81 AA1 4 5 N GLY B 84 ? N GLY B 84 O ASP B 96 ? O ASP B 96 AA1 5 6 N LEU B 99 ? N LEU B 99 O VAL B 137 ? O VAL B 137 AA2 1 2 O ALA A 139 ? O ALA A 139 N VAL A 101 ? N VAL A 101 AA2 2 3 O ALA A 94 ? O ALA A 94 N GLY A 86 ? N GLY A 86 AA2 3 4 N VAL A 83 ? N VAL A 83 O THR B 7 ? O THR B 7 AA2 4 5 N THR B 10 ? N THR B 10 O THR B 20 ? O THR B 20 AA2 5 6 N ALA B 19 ? N ALA B 19 O VAL B 28 ? O VAL B 28 # _atom_sites.entry_id 6UHW _atom_sites.Cartn_transf_matrix[1][1] ? _atom_sites.Cartn_transf_matrix[1][2] ? _atom_sites.Cartn_transf_matrix[1][3] ? _atom_sites.Cartn_transf_matrix[2][1] ? _atom_sites.Cartn_transf_matrix[2][2] ? _atom_sites.Cartn_transf_matrix[2][3] ? _atom_sites.Cartn_transf_matrix[3][1] ? _atom_sites.Cartn_transf_matrix[3][2] ? _atom_sites.Cartn_transf_matrix[3][3] ? _atom_sites.Cartn_transf_vector[1] ? _atom_sites.Cartn_transf_vector[2] ? _atom_sites.Cartn_transf_vector[3] ? _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.solution_primary ? _atom_sites.solution_secondary ? _atom_sites.solution_hydrogens ? _atom_sites.special_details ? # 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 MET 1 1 1 MET MET A . n A 1 2 ASN 2 2 2 ASN ASN A . n A 1 3 ILE 3 3 3 ILE ILE A . n A 1 4 LEU 4 4 4 LEU LEU A . n A 1 5 TYR 5 5 5 TYR TYR A . n A 1 6 LYS 6 6 6 LYS LYS A . n A 1 7 THR 7 7 7 THR THR A . n A 1 8 ALA 8 8 8 ALA ALA A . n A 1 9 ALA 9 9 9 ALA ALA A . n A 1 10 THR 10 10 10 THR THR A . n A 1 11 SER 11 11 11 SER SER A . n A 1 12 THR 12 12 12 THR THR A . n A 1 13 GLY 13 13 13 GLY GLY A . n A 1 14 GLY 14 14 14 GLY GLY A . n A 1 15 ARG 15 15 15 ARG ARG A . n A 1 16 ASP 16 16 16 ASP ASP A . n A 1 17 GLY 17 17 17 GLY GLY A . n A 1 18 ARG 18 18 18 ARG ARG A . n A 1 19 ALA 19 19 19 ALA ALA A . n A 1 20 THR 20 20 20 THR THR A . n A 1 21 SER 21 21 21 SER SER A . n A 1 22 HIS 22 22 22 HIS HIS A . n A 1 23 ASP 23 23 23 ASP ASP A . n A 1 24 GLN 24 24 24 GLN GLN A . n A 1 25 LYS 25 25 25 LYS LYS A . n A 1 26 LEU 26 26 26 LEU LEU A . n A 1 27 ASP 27 27 27 ASP ASP A . n A 1 28 VAL 28 28 28 VAL VAL A . n A 1 29 LYS 29 29 29 LYS LYS A . n A 1 30 LEU 30 30 30 LEU LEU A . n A 1 31 SER 31 31 31 SER SER A . n A 1 32 ALA 32 32 32 ALA ALA A . n A 1 33 PRO 33 33 33 PRO PRO A . n A 1 34 ARG 34 34 34 ARG ARG A . n A 1 35 GLU 35 35 35 GLU GLU A . n A 1 36 LEU 36 36 36 LEU LEU A . n A 1 37 GLY 37 37 37 GLY GLY A . n A 1 38 GLY 38 38 38 GLY GLY A . n A 1 39 ALA 39 39 39 ALA ALA A . n A 1 40 GLY 40 40 40 GLY GLY A . n A 1 41 ALA 41 41 41 ALA ALA A . n A 1 42 GLU 42 42 42 GLU GLU A . n A 1 43 GLY 43 43 43 GLY GLY A . n A 1 44 THR 44 44 44 THR THR A . n A 1 45 ASN 45 45 45 ASN ASN A . n A 1 46 PRO 46 46 46 PRO PRO A . n A 1 47 GLU 47 47 47 GLU GLU A . n A 1 48 GLN 48 48 48 GLN GLN A . n A 1 49 LEU 49 49 49 LEU LEU A . n A 1 50 PHE 50 50 50 PHE PHE A . n A 1 51 ALA 51 51 51 ALA ALA A . n A 1 52 ALA 52 52 52 ALA ALA A . n A 1 53 GLY 53 53 53 GLY GLY A . n A 1 54 TYR 54 54 54 TYR TYR A . n A 1 55 SER 55 55 55 SER SER A . n A 1 56 ALA 56 56 56 ALA ALA A . n A 1 57 CYS 57 57 57 CYS CYS A . n A 1 58 PHE 58 58 58 PHE PHE A . n A 1 59 LEU 59 59 59 LEU LEU A . n A 1 60 SER 60 60 60 SER SER A . n A 1 61 ALA 61 61 61 ALA ALA A . n A 1 62 MET 62 62 62 MET MET A . n A 1 63 LYS 63 63 63 LYS LYS A . n A 1 64 PHE 64 64 64 PHE PHE A . n A 1 65 VAL 65 65 65 VAL VAL A . n A 1 66 ALA 66 66 66 ALA ALA A . n A 1 67 GLY 67 67 67 GLY GLY A . n A 1 68 GLN 68 68 68 GLN GLN A . n A 1 69 ASN 69 69 69 ASN ASN A . n A 1 70 LYS 70 70 70 LYS LYS A . n A 1 71 GLN 71 71 71 GLN GLN A . n A 1 72 THR 72 72 72 THR THR A . n A 1 73 LEU 73 73 73 LEU LEU A . n A 1 74 PRO 74 74 74 PRO PRO A . n A 1 75 ALA 75 75 75 ALA ALA A . n A 1 76 ASP 76 76 76 ASP ASP A . n A 1 77 THR 77 77 77 THR THR A . n A 1 78 THR 78 78 78 THR THR A . n A 1 79 VAL 79 79 79 VAL VAL A . n A 1 80 THR 80 80 80 THR THR A . n A 1 81 ALA 81 81 81 ALA ALA A . n A 1 82 GLU 82 82 82 GLU GLU A . n A 1 83 VAL 83 83 83 VAL VAL A . n A 1 84 GLY 84 84 84 GLY GLY A . n A 1 85 ILE 85 85 85 ILE ILE A . n A 1 86 GLY 86 86 86 GLY GLY A . n A 1 87 PRO 87 87 87 PRO PRO A . n A 1 88 ASN 88 88 88 ASN ASN A . n A 1 89 GLU 89 89 89 GLU GLU A . n A 1 90 GLU 90 90 90 GLU GLU A . n A 1 91 GLY 91 91 91 GLY GLY A . n A 1 92 GLY 92 92 92 GLY GLY A . n A 1 93 PHE 93 93 93 PHE PHE A . n A 1 94 ALA 94 94 94 ALA ALA A . n A 1 95 LEU 95 95 95 LEU LEU A . n A 1 96 ASP 96 96 96 ASP ASP A . n A 1 97 VAL 97 97 97 VAL VAL A . n A 1 98 GLU 98 98 98 GLU GLU A . n A 1 99 LEU 99 99 99 LEU LEU A . n A 1 100 ARG 100 100 100 ARG ARG A . n A 1 101 VAL 101 101 101 VAL VAL A . n A 1 102 ALA 102 102 102 ALA ALA A . n A 1 103 LEU 103 103 103 LEU LEU A . n A 1 104 PRO 104 104 104 PRO PRO A . n A 1 105 GLY 105 105 105 GLY GLY A . n A 1 106 LEU 106 106 106 LEU LEU A . n A 1 107 ASP 107 107 107 ASP ASP A . n A 1 108 ALA 108 108 108 ALA ALA A . n A 1 109 ALA 109 109 109 ALA ALA A . n A 1 110 ALA 110 110 110 ALA ALA A . n A 1 111 ALA 111 111 111 ALA ALA A . n A 1 112 LYS 112 112 112 LYS LYS A . n A 1 113 THR 113 113 113 THR THR A . n A 1 114 LEU 114 114 114 LEU LEU A . n A 1 115 VAL 115 115 115 VAL VAL A . n A 1 116 ASP 116 116 116 ASP ASP A . n A 1 117 ARG 117 117 117 ARG ARG A . n A 1 118 ALA 118 118 118 ALA ALA A . n A 1 119 HIS 119 119 119 HIS HIS A . n A 1 120 HIS 120 120 120 HIS HIS A . n A 1 121 VAL 121 121 121 VAL VAL A . n A 1 122 CYS 122 122 122 CYS CYS A . n A 1 123 PRO 123 123 123 PRO PRO A . n A 1 124 TYR 124 124 124 TYR TYR A . n A 1 125 SER 125 125 125 SER SER A . n A 1 126 ASN 126 126 126 ASN ASN A . n A 1 127 ALA 127 127 127 ALA ALA A . n A 1 128 THR 128 128 128 THR THR A . n A 1 129 ARG 129 129 129 ARG ARG A . n A 1 130 ASN 130 130 130 ASN ASN A . n A 1 131 ASN 131 131 131 ASN ASN A . n A 1 132 VAL 132 132 132 VAL VAL A . n A 1 133 ALA 133 133 133 ALA ALA A . n A 1 134 VAL 134 134 134 VAL VAL A . n A 1 135 ARG 135 135 135 ARG ARG A . n A 1 136 LEU 136 136 136 LEU LEU A . n A 1 137 VAL 137 137 137 VAL VAL A . n A 1 138 VAL 138 138 138 VAL VAL A . n A 1 139 ALA 139 139 139 ALA ALA A . n B 1 1 MET 1 1 1 MET MET B . n B 1 2 ASN 2 2 2 ASN ASN B . n B 1 3 ILE 3 3 3 ILE ILE B . n B 1 4 LEU 4 4 4 LEU LEU B . n B 1 5 TYR 5 5 5 TYR TYR B . n B 1 6 LYS 6 6 6 LYS LYS B . n B 1 7 THR 7 7 7 THR THR B . n B 1 8 ALA 8 8 8 ALA ALA B . n B 1 9 ALA 9 9 9 ALA ALA B . n B 1 10 THR 10 10 10 THR THR B . n B 1 11 SER 11 11 11 SER SER B . n B 1 12 THR 12 12 12 THR THR B . n B 1 13 GLY 13 13 13 GLY GLY B . n B 1 14 GLY 14 14 14 GLY GLY B . n B 1 15 ARG 15 15 15 ARG ARG B . n B 1 16 ASP 16 16 16 ASP ASP B . n B 1 17 GLY 17 17 17 GLY GLY B . n B 1 18 ARG 18 18 18 ARG ARG B . n B 1 19 ALA 19 19 19 ALA ALA B . n B 1 20 THR 20 20 20 THR THR B . n B 1 21 SER 21 21 21 SER SER B . n B 1 22 HIS 22 22 22 HIS HIS B . n B 1 23 ASP 23 23 23 ASP ASP B . n B 1 24 GLN 24 24 24 GLN GLN B . n B 1 25 LYS 25 25 25 LYS LYS B . n B 1 26 LEU 26 26 26 LEU LEU B . n B 1 27 ASP 27 27 27 ASP ASP B . n B 1 28 VAL 28 28 28 VAL VAL B . n B 1 29 LYS 29 29 29 LYS LYS B . n B 1 30 LEU 30 30 30 LEU LEU B . n B 1 31 SER 31 31 31 SER SER B . n B 1 32 ALA 32 32 32 ALA ALA B . n B 1 33 PRO 33 33 33 PRO PRO B . n B 1 34 ARG 34 34 34 ARG ARG B . n B 1 35 GLU 35 35 35 GLU GLU B . n B 1 36 LEU 36 36 36 LEU LEU B . n B 1 37 GLY 37 37 37 GLY GLY B . n B 1 38 GLY 38 38 38 GLY GLY B . n B 1 39 ALA 39 39 39 ALA ALA B . n B 1 40 GLY 40 40 40 GLY GLY B . n B 1 41 ALA 41 41 41 ALA ALA B . n B 1 42 GLU 42 42 42 GLU GLU B . n B 1 43 GLY 43 43 43 GLY GLY B . n B 1 44 THR 44 44 44 THR THR B . n B 1 45 ASN 45 45 45 ASN ASN B . n B 1 46 PRO 46 46 46 PRO PRO B . n B 1 47 GLU 47 47 47 GLU GLU B . n B 1 48 GLN 48 48 48 GLN GLN B . n B 1 49 LEU 49 49 49 LEU LEU B . n B 1 50 PHE 50 50 50 PHE PHE B . n B 1 51 ALA 51 51 51 ALA ALA B . n B 1 52 ALA 52 52 52 ALA ALA B . n B 1 53 GLY 53 53 53 GLY GLY B . n B 1 54 TYR 54 54 54 TYR TYR B . n B 1 55 SER 55 55 55 SER SER B . n B 1 56 ALA 56 56 56 ALA ALA B . n B 1 57 CYS 57 57 57 CYS CYS B . n B 1 58 PHE 58 58 58 PHE PHE B . n B 1 59 LEU 59 59 59 LEU LEU B . n B 1 60 SER 60 60 60 SER SER B . n B 1 61 ALA 61 61 61 ALA ALA B . n B 1 62 MET 62 62 62 MET MET B . n B 1 63 LYS 63 63 63 LYS LYS B . n B 1 64 PHE 64 64 64 PHE PHE B . n B 1 65 VAL 65 65 65 VAL VAL B . n B 1 66 ALA 66 66 66 ALA ALA B . n B 1 67 GLY 67 67 67 GLY GLY B . n B 1 68 GLN 68 68 68 GLN GLN B . n B 1 69 ASN 69 69 69 ASN ASN B . n B 1 70 LYS 70 70 70 LYS LYS B . n B 1 71 GLN 71 71 71 GLN GLN B . n B 1 72 THR 72 72 72 THR THR B . n B 1 73 LEU 73 73 73 LEU LEU B . n B 1 74 PRO 74 74 74 PRO PRO B . n B 1 75 ALA 75 75 75 ALA ALA B . n B 1 76 ASP 76 76 76 ASP ASP B . n B 1 77 THR 77 77 77 THR THR B . n B 1 78 THR 78 78 78 THR THR B . n B 1 79 VAL 79 79 79 VAL VAL B . n B 1 80 THR 80 80 80 THR THR B . n B 1 81 ALA 81 81 81 ALA ALA B . n B 1 82 GLU 82 82 82 GLU GLU B . n B 1 83 VAL 83 83 83 VAL VAL B . n B 1 84 GLY 84 84 84 GLY GLY B . n B 1 85 ILE 85 85 85 ILE ILE B . n B 1 86 GLY 86 86 86 GLY GLY B . n B 1 87 PRO 87 87 87 PRO PRO B . n B 1 88 ASN 88 88 88 ASN ASN B . n B 1 89 GLU 89 89 89 GLU GLU B . n B 1 90 GLU 90 90 90 GLU GLU B . n B 1 91 GLY 91 91 91 GLY GLY B . n B 1 92 GLY 92 92 92 GLY GLY B . n B 1 93 PHE 93 93 93 PHE PHE B . n B 1 94 ALA 94 94 94 ALA ALA B . n B 1 95 LEU 95 95 95 LEU LEU B . n B 1 96 ASP 96 96 96 ASP ASP B . n B 1 97 VAL 97 97 97 VAL VAL B . n B 1 98 GLU 98 98 98 GLU GLU B . n B 1 99 LEU 99 99 99 LEU LEU B . n B 1 100 ARG 100 100 100 ARG ARG B . n B 1 101 VAL 101 101 101 VAL VAL B . n B 1 102 ALA 102 102 102 ALA ALA B . n B 1 103 LEU 103 103 103 LEU LEU B . n B 1 104 PRO 104 104 104 PRO PRO B . n B 1 105 GLY 105 105 105 GLY GLY B . n B 1 106 LEU 106 106 106 LEU LEU B . n B 1 107 ASP 107 107 107 ASP ASP B . n B 1 108 ALA 108 108 108 ALA ALA B . n B 1 109 ALA 109 109 109 ALA ALA B . n B 1 110 ALA 110 110 110 ALA ALA B . n B 1 111 ALA 111 111 111 ALA ALA B . n B 1 112 LYS 112 112 112 LYS LYS B . n B 1 113 THR 113 113 113 THR THR B . n B 1 114 LEU 114 114 114 LEU LEU B . n B 1 115 VAL 115 115 115 VAL VAL B . n B 1 116 ASP 116 116 116 ASP ASP B . n B 1 117 ARG 117 117 117 ARG ARG B . n B 1 118 ALA 118 118 118 ALA ALA B . n B 1 119 HIS 119 119 119 HIS HIS B . n B 1 120 HIS 120 120 120 HIS HIS B . n B 1 121 VAL 121 121 121 VAL VAL B . n B 1 122 CYS 122 122 122 CYS CYS B . n B 1 123 PRO 123 123 123 PRO PRO B . n B 1 124 TYR 124 124 124 TYR TYR B . n B 1 125 SER 125 125 125 SER SER B . n B 1 126 ASN 126 126 126 ASN ASN B . n B 1 127 ALA 127 127 127 ALA ALA B . n B 1 128 THR 128 128 128 THR THR B . n B 1 129 ARG 129 129 129 ARG ARG B . n B 1 130 ASN 130 130 130 ASN ASN B . n B 1 131 ASN 131 131 131 ASN ASN B . n B 1 132 VAL 132 132 132 VAL VAL B . n B 1 133 ALA 133 133 133 ALA ALA B . n B 1 134 VAL 134 134 134 VAL VAL B . n B 1 135 ARG 135 135 135 ARG ARG B . n B 1 136 LEU 136 136 136 LEU LEU B . n B 1 137 VAL 137 137 137 VAL VAL B . n B 1 138 VAL 138 138 138 VAL VAL B . n B 1 139 ALA 139 139 139 ALA ALA B . n # _pdbx_SG_project.id 1 _pdbx_SG_project.project_name 'NIAID, National Institute of Allergy and Infectious Diseases' _pdbx_SG_project.full_name_of_center 'Seattle Structural Genomics Center for Infectious Disease' _pdbx_SG_project.initial_of_center SSGCID # _pdbx_struct_assembly.id 1 _pdbx_struct_assembly.details author_defined_assembly _pdbx_struct_assembly.method_details ? _pdbx_struct_assembly.oligomeric_details dimeric _pdbx_struct_assembly.oligomeric_count 2 # _pdbx_struct_assembly_gen.assembly_id 1 _pdbx_struct_assembly_gen.oper_expression 1 _pdbx_struct_assembly_gen.asym_id_list A,B # loop_ _pdbx_struct_assembly_prop.biol_id _pdbx_struct_assembly_prop.type _pdbx_struct_assembly_prop.value _pdbx_struct_assembly_prop.details 1 'ABSA (A^2)' 5580 ? 1 MORE -40 ? 1 'SSA (A^2)' 13700 ? # _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 # 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 2019-10-16 2 'Structure model' 1 1 2019-11-13 3 'Structure model' 1 2 2019-12-18 4 'Structure model' 1 3 2023-06-14 # _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' 'Database references' 2 3 'Structure model' 'Author supporting evidence' 3 4 'Structure model' 'Database references' 4 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 2 'Structure model' citation 2 3 'Structure model' pdbx_audit_support 3 4 'Structure model' database_2 4 4 'Structure model' pdbx_database_status # 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 2 'Structure model' '_citation.journal_abbrev' 2 2 'Structure model' '_citation.pdbx_database_id_PubMed' 3 3 'Structure model' '_pdbx_audit_support.funding_organization' 4 4 'Structure model' '_database_2.pdbx_DOI' 5 4 'Structure model' '_database_2.pdbx_database_accession' 6 4 'Structure model' '_pdbx_database_status.status_code_nmr_data' # loop_ _pdbx_nmr_exptl_sample.solution_id _pdbx_nmr_exptl_sample.component _pdbx_nmr_exptl_sample.concentration _pdbx_nmr_exptl_sample.concentration_range _pdbx_nmr_exptl_sample.concentration_units _pdbx_nmr_exptl_sample.isotopic_labeling 1 TRIS 20 ? mM 'natural abundance' 1 'sodium chloride' 100 ? mM 'natural abundance' 1 DTT 1 ? mM 'natural abundance' 1 B74 1 ? mM '[U-99% 13C; U-99% 15N]' 2 TRIS 20 ? mM 'natural abundance' 2 'sodium chloride' 100 ? mM 'natural abundance' 2 DTT 1 ? mM 'natural abundance' 2 B74 1 ? mM '99% 13C; U-99% 15N; 50%-2H]]' 3 TRIS 20 ? mM 'natural abundance' 3 'sodium chloride' 100 ? mM 'natural abundance' 3 DTT 1 ? mM 'natural abundance' 3 B74 1 ? mM '99% 13C; U-99% 15N]' 4 TRIS 20 ? mM 'natural abundance' 4 'sodium chloride' 100 ? mM 'natural abundance' 4 DTT 1 ? mM 'natural abundance' 4 B74 1 ? mM '[U-10% 13C; U-99% 15N]' # 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 11 HA B LEU 30 ? ? H B THR 44 ? ? 1.31 2 14 HA B LEU 30 ? ? H B THR 44 ? ? 1.31 3 16 HD21 B ASN 130 ? ? H B ASN 131 ? ? 1.31 4 19 HA A LEU 30 ? ? H A THR 44 ? ? 1.32 # 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 33 ? ? -59.09 82.79 2 1 GLU A 42 ? ? -103.43 66.12 3 1 PRO A 123 ? ? -91.83 -78.19 4 1 TYR A 124 ? ? 165.14 -34.44 5 1 SER B 31 ? ? -170.89 128.27 6 1 TYR B 124 ? ? 70.36 -56.59 7 2 ASP A 23 ? ? -79.98 25.61 8 2 SER A 31 ? ? -168.04 101.58 9 2 ARG A 34 ? ? -43.39 -82.34 10 2 GLU A 35 ? ? 46.39 -72.99 11 2 GLU A 42 ? ? -99.93 35.03 12 2 SER A 125 ? ? -176.59 145.67 13 2 ARG A 129 ? ? -121.65 -52.78 14 3 GLU A 42 ? ? -66.17 79.32 15 3 ARG A 129 ? ? -135.66 -48.54 16 3 SER B 31 ? ? -162.87 118.18 17 3 TYR B 124 ? ? 73.70 -53.25 18 4 ASP A 27 ? ? -161.77 96.46 19 4 GLU A 42 ? ? -83.47 37.98 20 4 CYS A 122 ? ? -156.62 88.72 21 4 TYR A 124 ? ? 177.04 -41.73 22 5 ASP A 27 ? ? -161.32 91.44 23 5 PRO A 33 ? ? -67.04 14.69 24 5 ARG A 34 ? ? 71.80 -37.12 25 5 ALA A 39 ? ? -167.41 -42.93 26 5 SER A 125 ? ? -118.53 -81.01 27 5 ARG A 129 ? ? -128.22 -59.52 28 5 PRO B 33 ? ? -49.33 107.88 29 5 GLU B 42 ? ? -68.41 80.56 30 6 ASP A 27 ? ? -160.46 92.77 31 6 PRO A 33 ? ? -75.54 34.55 32 6 ARG A 34 ? ? 52.35 -92.17 33 6 GLU A 35 ? ? 56.34 -73.26 34 6 SER B 31 ? ? -170.91 144.39 35 6 TYR B 124 ? ? -64.81 87.77 36 6 SER B 125 ? ? 66.39 107.84 37 6 ALA B 127 ? ? -68.29 1.13 38 7 ALA A 39 ? ? 77.07 -0.65 39 7 SER A 125 ? ? 166.37 148.96 40 7 ARG A 129 ? ? -132.98 -46.66 41 7 ASP B 23 ? ? -79.97 25.82 42 7 PRO B 33 ? ? -58.24 4.93 43 7 ARG B 34 ? ? 60.74 -69.25 44 7 GLU B 35 ? ? -36.73 -37.82 45 8 PRO A 33 ? ? -62.28 93.74 46 8 ARG A 34 ? ? -69.77 77.30 47 8 GLU A 35 ? ? -136.59 -35.45 48 8 SER B 125 ? ? 178.29 147.90 49 9 ASP A 27 ? ? -164.40 90.52 50 9 ARG A 129 ? ? -125.55 -55.79 51 9 PRO B 33 ? ? -50.18 105.72 52 9 ALA B 41 ? ? -172.40 -171.85 53 9 GLU B 42 ? ? -107.60 55.22 54 10 ASN A 2 ? ? -69.80 76.54 55 10 ASP A 27 ? ? -161.26 99.78 56 10 SER A 31 ? ? -173.74 134.15 57 10 PRO A 33 ? ? -73.12 40.64 58 10 ARG A 34 ? ? 57.48 -88.73 59 10 GLU A 35 ? ? 51.27 -75.81 60 10 GLU B 42 ? ? -80.28 32.18 61 10 SER B 125 ? ? -64.32 -175.21 62 10 ALA B 127 ? ? -66.29 2.50 63 11 SER A 31 ? ? -171.07 146.02 64 11 GLU A 42 ? ? -68.83 87.33 65 11 ARG A 129 ? ? -153.06 -43.73 66 11 GLU B 42 ? ? -87.91 37.21 67 11 CYS B 122 ? ? -153.80 79.62 68 11 SER B 125 ? ? 75.87 144.11 69 12 GLU A 42 ? ? -65.12 82.77 70 12 SER A 125 ? ? 77.42 149.16 71 12 ALA A 127 ? ? -66.24 3.26 72 12 ARG A 129 ? ? -136.73 -46.50 73 12 PRO B 33 ? ? -65.81 -159.54 74 12 SER B 125 ? ? 77.50 168.02 75 12 ALA B 127 ? ? -63.09 6.81 76 13 CYS A 122 ? ? -141.71 57.12 77 13 PRO A 123 ? ? -100.03 -168.99 78 13 SER A 125 ? ? 171.20 164.30 79 13 PRO B 33 ? ? -66.27 65.18 80 13 ARG B 34 ? ? 50.48 -96.73 81 13 GLU B 35 ? ? 50.07 -74.55 82 13 SER B 125 ? ? -49.52 166.93 83 13 ALA B 127 ? ? -64.57 6.85 84 13 ARG B 129 ? ? -130.76 -47.46 85 13 ALA B 133 ? ? -65.62 97.57 86 14 SER A 31 ? ? -169.53 113.94 87 14 ASP B 27 ? ? -162.33 91.01 88 14 TYR B 124 ? ? -88.03 46.23 89 14 ARG B 129 ? ? -150.16 -60.11 90 15 PRO B 74 ? ? -55.66 105.74 91 15 TYR B 124 ? ? 72.25 -45.91 92 16 ALA A 39 ? ? -167.69 -61.10 93 16 CYS A 122 ? ? -150.15 84.94 94 16 SER A 125 ? ? 179.44 153.91 95 16 ARG B 129 ? ? -128.61 -58.15 96 16 ALA B 133 ? ? -69.40 88.71 97 17 SER A 125 ? ? 178.16 163.28 98 17 ALA A 127 ? ? -67.72 6.49 99 17 ARG A 129 ? ? -146.06 -46.64 100 17 PRO B 33 ? ? -68.26 4.83 101 17 ARG B 34 ? ? 76.23 -42.35 102 17 GLU B 42 ? ? -66.55 77.29 103 17 SER B 125 ? ? 173.53 164.20 104 18 ALA A 133 ? ? -68.18 93.32 105 18 ASP B 27 ? ? -161.09 90.77 106 18 ALA B 39 ? ? -166.71 -33.17 107 18 TYR B 124 ? ? 69.10 -62.55 108 19 ASP A 27 ? ? -162.85 95.39 109 19 PRO A 123 ? ? -101.71 -165.49 110 19 SER A 125 ? ? 176.90 165.04 111 19 ALA A 127 ? ? -65.07 6.54 112 19 SER B 125 ? ? 60.41 109.38 113 20 ALA A 39 ? ? -123.90 -57.54 114 20 SER B 125 ? ? 176.41 156.49 115 20 ALA B 127 ? ? -69.42 6.28 116 20 ARG B 129 ? ? -135.45 -52.46 117 20 ALA B 133 ? ? -69.26 83.33 # _pdbx_audit_support.funding_organization 'National Institutes of Health/National Human Genome Research Institute (NIH/NHGRI)' _pdbx_audit_support.country 'United States' _pdbx_audit_support.grant_number HHSN272201700059C _pdbx_audit_support.ordinal 1 # _pdbx_struct_assembly_auth_evidence.id 1 _pdbx_struct_assembly_auth_evidence.assembly_id 1 _pdbx_struct_assembly_auth_evidence.experimental_support 'gel filtration' _pdbx_struct_assembly_auth_evidence.details ;Other data showed the protein was a dimer in solution. This included an estimation of the overall rotational correlation time, poor magnetization transfer in 3D NMR experiments with full protonated samples, and intermolecular NOE identification. ; #