data_wwPDB_remediated_restraints_file_for_PDB_entry_2k9a # This wwPDB archive file contains, for PDB entry 2k9a: # # - Sequence information from the PDB mmCIF file # - NMR restraints from the PDB MR file # # In this file, the NMR restraints share the same atom names as in the coordinate # file, and in this way can differ from the data deposited at the wwPDB. To achieve # this aim, the NMR restraints were parsed from their original format files, and # the coordinates and NMR restraints information were subsequently harmonized. # # Due to the complexity of this harmonization process, minor modifications could # have occurred to the NMR restraints information, or data could have been lost # because of parsing or conversion errors. The PDB file remains the # authoritative reference for the atomic coordinates and the originally deposited # restraints files remain the primary reference for these data. # # This file is generated as part of the wwPDB at the BioMagResBank (BMRB) in # collaboration with the PDBe (formerly MSD) group at the European # Bioinformatics Institute (EBI) and the CMBI/IMM group at the Radboud # University of Nijmegen. # # Several software packages were used to produce this file: # # - Wattos (BMRB and CMBI/IMM). # - FormatConverter and NMRStarExport (PDBe). # - CCPN framework (http://www.ccpn.ac.uk/). # # More information about this process can be found in the references below. # Please cite the original reference for this PDB entry. # # JF Doreleijers, A Nederveen, W Vranken, J Lin, AM Bonvin, R Kaptein, JL # Markley, and EL Ulrich (2005). BioMagResBank databases DOCR and FRED # containing converted and filtered sets of experimental NMR restraints and # coordinates from over 500 protein PDB structures. J. Biomol. NMR 32, 1-12. # # WF Vranken, W Boucher, TJ Stevens, RH Fogh, A Pajon, M Llinas, EL Ulrich, JL # Markley, J Ionides, ED Laue (2005). The CCPN data model for NMR spectroscopy: # development of a software pipeline. Proteins 59, 687-696. # # JF Doreleijers, WF Vranken, C Schulte, J Lin, JR Wedell, CJ Penkett, GW Vuister, # G Vriend, JL Markley, and EL Ulrich (2009). The NMR Restraints Grid at BMRB for # 5,266 Protein and Nucleic Acid PDB Entries. J Biomol. NMR 45, 389–396. save_entry_information _Entry.Sf_category entry_information _Entry.Sf_framecode entry_information _Entry.ID rr_2k9a _Entry.Title "wwPDB remediated NMR restraints for PDB entry 2k9a" _Entry.NMR_STAR_version 3.1 _Entry.Experimental_method NMR _Entry.Experimental_method_subtype solution _Entry.Details "Contains the remediated restraint lists and coordinates for PDB entry 2k9a" save_ save_assembly _Assembly.Sf_category assembly _Assembly.Sf_framecode assembly _Assembly.Entry_ID rr_2k9a _Assembly.ID 1 _Assembly.Name 2k9a _Assembly.Number_of_components 1 _Assembly.Organic_ligands 0 _Assembly.Metal_ions 0 _Assembly.Non_standard_bonds no _Assembly.Paramagnetic no _Assembly.Thiol_state "not present" _Assembly.Molecular_mass 16131.8886 loop_ _Entity_assembly.ID _Entity_assembly.Entity_assembly_name _Entity_assembly.Entity_ID _Entity_assembly.Entity_label _Entity_assembly.Asym_ID _Entity_assembly.PDB_chain_ID _Entity_assembly.Experimental_data_reported _Entity_assembly.Physical_state _Entity_assembly.Conformational_isomer _Entity_assembly.Chemical_exchange_state _Entity_assembly.Magnetic_equivalence_group_code _Entity_assembly.Role _Entity_assembly.Details _Entity_assembly.Entry_ID _Entity_assembly.Assembly_ID 1 "ADP ribosylation factor like protein 2 binding protein" 1 $ADP_ribosylation_factor_like_protein_2_binding_protein A . no . . . . . . rr_2k9a 1 stop_ save_ save_ADP_ribosylation_factor_like_protein_2_binding_protein _Entity.Sf_category entity _Entity.Sf_framecode ADP_ribosylation_factor_like_protein_2_binding_protein _Entity.Entry_ID rr_2k9a _Entity.ID 1 _Entity.Name ADP_ribosylation_factor_like_protein_2_binding_protein _Entity.Type polymer _Entity.Polymer_type polypeptide(L) _Entity.Polymer_strand_ID A _Entity.Polymer_seq_one_letter_code ; HMDALEGESFALSFSSASDA EFDAVVGYLEDIIMDDEFQL LQRNFMDKYYLEFEDTEENK LIYTPIFNEYISLVEKYIEE QLLQRIPEFNMAAFTTTLQH HKDEVAGDIFDMLLTFTDFL AFKEMFLDYRAEKEGRG ; _Entity.Ambiguous_conformational_states no _Entity.Ambiguous_chem_comp_sites no _Entity.Nstd_monomer no _Entity.Nstd_chirality no _Entity.Nstd_linkage no _Entity.Number_of_monomers 137 _Entity.Paramagnetic no _Entity.Thiol_state "not present" _Entity.Parent_entity_ID 1 _Entity.Formula_weight 16131.8886 loop_ _Entity_comp_index.ID _Entity_comp_index.Auth_seq_ID _Entity_comp_index.Comp_ID _Entity_comp_index.Comp_label _Entity_comp_index.Entry_ID _Entity_comp_index.Entity_ID 1 . HIS . rr_2k9a 1 2 . MET . rr_2k9a 1 3 . ASP . rr_2k9a 1 4 . ALA . rr_2k9a 1 5 . LEU . rr_2k9a 1 6 . GLU . rr_2k9a 1 7 . GLY . rr_2k9a 1 8 . GLU . rr_2k9a 1 9 . SER . rr_2k9a 1 10 . PHE . rr_2k9a 1 11 . ALA . rr_2k9a 1 12 . LEU . rr_2k9a 1 13 . SER . rr_2k9a 1 14 . PHE . rr_2k9a 1 15 . SER . rr_2k9a 1 16 . SER . rr_2k9a 1 17 . ALA . rr_2k9a 1 18 . SER . rr_2k9a 1 19 . ASP . rr_2k9a 1 20 . ALA . rr_2k9a 1 21 . GLU . rr_2k9a 1 22 . PHE . rr_2k9a 1 23 . ASP . rr_2k9a 1 24 . ALA . rr_2k9a 1 25 . VAL . rr_2k9a 1 26 . VAL . rr_2k9a 1 27 . GLY . rr_2k9a 1 28 . TYR . rr_2k9a 1 29 . LEU . rr_2k9a 1 30 . GLU . rr_2k9a 1 31 . ASP . rr_2k9a 1 32 . ILE . rr_2k9a 1 33 . ILE . rr_2k9a 1 34 . MET . rr_2k9a 1 35 . ASP . rr_2k9a 1 36 . ASP . rr_2k9a 1 37 . GLU . rr_2k9a 1 38 . PHE . rr_2k9a 1 39 . GLN . rr_2k9a 1 40 . LEU . rr_2k9a 1 41 . LEU . rr_2k9a 1 42 . GLN . rr_2k9a 1 43 . ARG . rr_2k9a 1 44 . ASN . rr_2k9a 1 45 . PHE . rr_2k9a 1 46 . MET . rr_2k9a 1 47 . ASP . rr_2k9a 1 48 . LYS . rr_2k9a 1 49 . TYR . rr_2k9a 1 50 . TYR . rr_2k9a 1 51 . LEU . rr_2k9a 1 52 . GLU . rr_2k9a 1 53 . PHE . rr_2k9a 1 54 . GLU . rr_2k9a 1 55 . ASP . rr_2k9a 1 56 . THR . rr_2k9a 1 57 . GLU . rr_2k9a 1 58 . GLU . rr_2k9a 1 59 . ASN . rr_2k9a 1 60 . LYS . rr_2k9a 1 61 . LEU . rr_2k9a 1 62 . ILE . rr_2k9a 1 63 . TYR . rr_2k9a 1 64 . THR . rr_2k9a 1 65 . PRO . rr_2k9a 1 66 . ILE . rr_2k9a 1 67 . PHE . rr_2k9a 1 68 . ASN . rr_2k9a 1 69 . GLU . rr_2k9a 1 70 . TYR . rr_2k9a 1 71 . ILE . rr_2k9a 1 72 . SER . rr_2k9a 1 73 . LEU . rr_2k9a 1 74 . VAL . rr_2k9a 1 75 . GLU . rr_2k9a 1 76 . LYS . rr_2k9a 1 77 . TYR . rr_2k9a 1 78 . ILE . rr_2k9a 1 79 . GLU . rr_2k9a 1 80 . GLU . rr_2k9a 1 81 . GLN . rr_2k9a 1 82 . LEU . rr_2k9a 1 83 . LEU . rr_2k9a 1 84 . GLN . rr_2k9a 1 85 . ARG . rr_2k9a 1 86 . ILE . rr_2k9a 1 87 . PRO . rr_2k9a 1 88 . GLU . rr_2k9a 1 89 . PHE . rr_2k9a 1 90 . ASN . rr_2k9a 1 91 . MET . rr_2k9a 1 92 . ALA . rr_2k9a 1 93 . ALA . rr_2k9a 1 94 . PHE . rr_2k9a 1 95 . THR . rr_2k9a 1 96 . THR . rr_2k9a 1 97 . THR . rr_2k9a 1 98 . LEU . rr_2k9a 1 99 . GLN . rr_2k9a 1 100 . HIS . rr_2k9a 1 101 . HIS . rr_2k9a 1 102 . LYS . rr_2k9a 1 103 . ASP . rr_2k9a 1 104 . GLU . rr_2k9a 1 105 . VAL . rr_2k9a 1 106 . ALA . rr_2k9a 1 107 . GLY . rr_2k9a 1 108 . ASP . rr_2k9a 1 109 . ILE . rr_2k9a 1 110 . PHE . rr_2k9a 1 111 . ASP . rr_2k9a 1 112 . MET . rr_2k9a 1 113 . LEU . rr_2k9a 1 114 . LEU . rr_2k9a 1 115 . THR . rr_2k9a 1 116 . PHE . rr_2k9a 1 117 . THR . rr_2k9a 1 118 . ASP . rr_2k9a 1 119 . PHE . rr_2k9a 1 120 . LEU . rr_2k9a 1 121 . ALA . rr_2k9a 1 122 . PHE . rr_2k9a 1 123 . LYS . rr_2k9a 1 124 . GLU . rr_2k9a 1 125 . MET . rr_2k9a 1 126 . PHE . rr_2k9a 1 127 . LEU . rr_2k9a 1 128 . ASP . rr_2k9a 1 129 . TYR . rr_2k9a 1 130 . ARG . rr_2k9a 1 131 . ALA . rr_2k9a 1 132 . GLU . rr_2k9a 1 133 . LYS . rr_2k9a 1 134 . GLU . rr_2k9a 1 135 . GLY . rr_2k9a 1 136 . ARG . rr_2k9a 1 137 . GLY . rr_2k9a 1 stop_ loop_ _Entity_poly_seq.Hetero _Entity_poly_seq.Mon_ID _Entity_poly_seq.Num _Entity_poly_seq.Comp_index_ID _Entity_poly_seq.Entry_ID _Entity_poly_seq.Entity_ID . HIS 1 1 rr_2k9a 1 . MET 2 2 rr_2k9a 1 . ASP 3 3 rr_2k9a 1 . ALA 4 4 rr_2k9a 1 . LEU 5 5 rr_2k9a 1 . GLU 6 6 rr_2k9a 1 . GLY 7 7 rr_2k9a 1 . GLU 8 8 rr_2k9a 1 . SER 9 9 rr_2k9a 1 . PHE 10 10 rr_2k9a 1 . ALA 11 11 rr_2k9a 1 . LEU 12 12 rr_2k9a 1 . SER 13 13 rr_2k9a 1 . PHE 14 14 rr_2k9a 1 . SER 15 15 rr_2k9a 1 . SER 16 16 rr_2k9a 1 . ALA 17 17 rr_2k9a 1 . SER 18 18 rr_2k9a 1 . ASP 19 19 rr_2k9a 1 . ALA 20 20 rr_2k9a 1 . GLU 21 21 rr_2k9a 1 . PHE 22 22 rr_2k9a 1 . ASP 23 23 rr_2k9a 1 . ALA 24 24 rr_2k9a 1 . VAL 25 25 rr_2k9a 1 . VAL 26 26 rr_2k9a 1 . GLY 27 27 rr_2k9a 1 . TYR 28 28 rr_2k9a 1 . LEU 29 29 rr_2k9a 1 . GLU 30 30 rr_2k9a 1 . ASP 31 31 rr_2k9a 1 . ILE 32 32 rr_2k9a 1 . ILE 33 33 rr_2k9a 1 . MET 34 34 rr_2k9a 1 . ASP 35 35 rr_2k9a 1 . ASP 36 36 rr_2k9a 1 . GLU 37 37 rr_2k9a 1 . PHE 38 38 rr_2k9a 1 . GLN 39 39 rr_2k9a 1 . LEU 40 40 rr_2k9a 1 . LEU 41 41 rr_2k9a 1 . GLN 42 42 rr_2k9a 1 . ARG 43 43 rr_2k9a 1 . ASN 44 44 rr_2k9a 1 . PHE 45 45 rr_2k9a 1 . MET 46 46 rr_2k9a 1 . ASP 47 47 rr_2k9a 1 . LYS 48 48 rr_2k9a 1 . TYR 49 49 rr_2k9a 1 . TYR 50 50 rr_2k9a 1 . LEU 51 51 rr_2k9a 1 . GLU 52 52 rr_2k9a 1 . PHE 53 53 rr_2k9a 1 . GLU 54 54 rr_2k9a 1 . ASP 55 55 rr_2k9a 1 . THR 56 56 rr_2k9a 1 . GLU 57 57 rr_2k9a 1 . GLU 58 58 rr_2k9a 1 . ASN 59 59 rr_2k9a 1 . LYS 60 60 rr_2k9a 1 . LEU 61 61 rr_2k9a 1 . ILE 62 62 rr_2k9a 1 . TYR 63 63 rr_2k9a 1 . THR 64 64 rr_2k9a 1 . PRO 65 65 rr_2k9a 1 . ILE 66 66 rr_2k9a 1 . PHE 67 67 rr_2k9a 1 . ASN 68 68 rr_2k9a 1 . GLU 69 69 rr_2k9a 1 . TYR 70 70 rr_2k9a 1 . ILE 71 71 rr_2k9a 1 . SER 72 72 rr_2k9a 1 . LEU 73 73 rr_2k9a 1 . VAL 74 74 rr_2k9a 1 . GLU 75 75 rr_2k9a 1 . LYS 76 76 rr_2k9a 1 . TYR 77 77 rr_2k9a 1 . ILE 78 78 rr_2k9a 1 . GLU 79 79 rr_2k9a 1 . GLU 80 80 rr_2k9a 1 . GLN 81 81 rr_2k9a 1 . LEU 82 82 rr_2k9a 1 . LEU 83 83 rr_2k9a 1 . GLN 84 84 rr_2k9a 1 . ARG 85 85 rr_2k9a 1 . ILE 86 86 rr_2k9a 1 . PRO 87 87 rr_2k9a 1 . GLU 88 88 rr_2k9a 1 . PHE 89 89 rr_2k9a 1 . ASN 90 90 rr_2k9a 1 . MET 91 91 rr_2k9a 1 . ALA 92 92 rr_2k9a 1 . ALA 93 93 rr_2k9a 1 . PHE 94 94 rr_2k9a 1 . THR 95 95 rr_2k9a 1 . THR 96 96 rr_2k9a 1 . THR 97 97 rr_2k9a 1 . LEU 98 98 rr_2k9a 1 . GLN 99 99 rr_2k9a 1 . HIS 100 100 rr_2k9a 1 . HIS 101 101 rr_2k9a 1 . LYS 102 102 rr_2k9a 1 . ASP 103 103 rr_2k9a 1 . GLU 104 104 rr_2k9a 1 . VAL 105 105 rr_2k9a 1 . ALA 106 106 rr_2k9a 1 . GLY 107 107 rr_2k9a 1 . ASP 108 108 rr_2k9a 1 . ILE 109 109 rr_2k9a 1 . PHE 110 110 rr_2k9a 1 . ASP 111 111 rr_2k9a 1 . MET 112 112 rr_2k9a 1 . LEU 113 113 rr_2k9a 1 . LEU 114 114 rr_2k9a 1 . THR 115 115 rr_2k9a 1 . PHE 116 116 rr_2k9a 1 . THR 117 117 rr_2k9a 1 . ASP 118 118 rr_2k9a 1 . PHE 119 119 rr_2k9a 1 . LEU 120 120 rr_2k9a 1 . ALA 121 121 rr_2k9a 1 . PHE 122 122 rr_2k9a 1 . LYS 123 123 rr_2k9a 1 . GLU 124 124 rr_2k9a 1 . MET 125 125 rr_2k9a 1 . PHE 126 126 rr_2k9a 1 . LEU 127 127 rr_2k9a 1 . ASP 128 128 rr_2k9a 1 . TYR 129 129 rr_2k9a 1 . ARG 130 130 rr_2k9a 1 . ALA 131 131 rr_2k9a 1 . GLU 132 132 rr_2k9a 1 . LYS 133 133 rr_2k9a 1 . GLU 134 134 rr_2k9a 1 . GLY 135 135 rr_2k9a 1 . ARG 136 136 rr_2k9a 1 . GLY 137 137 rr_2k9a 1 stop_ save_ save_conformer_statistics _Conformer_stat_list.Sf_category conformer_statistics _Conformer_stat_list.Sf_framecode conformer_statistics _Conformer_stat_list.Entry_ID rr_2k9a _Conformer_stat_list.ID 1 _Conformer_stat_list.Conf_family_coord_set_ID 1 _Conformer_stat_list.Conf_family_coord_set_label $Original_constraints_and_structures _Conformer_stat_list.Conformer_submitted_total_num 50 save_ save_global_Org_file_characteristics _Constraint_stat_list.Sf_framecode global_Org_file_characteristics _Constraint_stat_list.Sf_category constraint_statistics _Constraint_stat_list.Entry_ID rr_2k9a _Constraint_stat_list.ID 1 loop_ _Constraint_file.ID _Constraint_file.Constraint_filename _Constraint_file.Software_ID _Constraint_file.Software_label _Constraint_file.Software_name _Constraint_file.Block_ID _Constraint_file.Constraint_type _Constraint_file.Constraint_subtype _Constraint_file.Constraint_subsubtype _Constraint_file.Constraint_number _Constraint_file.Entry_ID _Constraint_file.Constraint_stat_list_ID 1 2k9a.mr . . "MR format" 1 comment "Not applicable" "Not applicable" 0 rr_2k9a 1 1 2k9a.mr . . n/a 2 comment "Not applicable" "Not applicable" 0 rr_2k9a 1 1 2k9a.mr . . STAR 3 distance NOE ambi 0 rr_2k9a 1 1 2k9a.mr . . STAR 4 unknown "Not applicable" "Not applicable" 0 rr_2k9a 1 1 2k9a.mr . . STAR 5 distance "general distance" simple 0 rr_2k9a 1 1 2k9a.mr . . STAR 6 unknown "Not applicable" "Not applicable" 0 rr_2k9a 1 1 2k9a.mr . . "MR format" 7 "nomenclature mapping" "Not applicable" "Not applicable" 0 rr_2k9a 1 stop_ save_ save_MR_file_comment_1 _Org_constr_file_comment.Sf_framecode MR_file_comment_1 _Org_constr_file_comment.Sf_category org_constr_file_comment _Org_constr_file_comment.Entry_ID rr_2k9a _Org_constr_file_comment.ID 1 _Org_constr_file_comment.Constraint_file_ID 1 _Org_constr_file_comment.Block_ID 1 _Org_constr_file_comment.Details "Generated by Wattos" _Org_constr_file_comment.Comment ; *HEADER PROTEIN BINDING 06-OCT-08 2K9A *TITLE THE SOLUTION STRUCTURE OF THE ARL2 EFFECTOR, BART *COMPND MOL_ID: 1; *COMPND 2 MOLECULE: ADP-RIBOSYLATION FACTOR-LIKE PROTEIN 2-BINDING *COMPND 3 PROTEIN; *COMPND 4 CHAIN: A; *COMPND 5 SYNONYM: ARF-LIKE 2-BINDING PROTEIN, BINDER OF ARF2 *COMPND 6 PROTEIN 1; *COMPND 7 ENGINEERED: YES *SOURCE MOL_ID: 1; *SOURCE 2 ORGANISM_SCIENTIFIC: HOMO SAPIENS; *SOURCE 3 ORGANISM_COMMON: HUMAN; *SOURCE 4 GENE: ARL2BP, BART, BART1; *SOURCE 5 EXPRESSION_SYSTEM: ESCHERICHIA COLI; *SOURCE 6 EXPRESSION_SYSTEM_VECTOR_TYPE: PLASMID; *SOURCE 7 EXPRESSION_SYSTEM_PLASMID: PET 16B *KEYWDS PROTEIN, EFFECTOR, NMR, SMALL G PROTEIN, ALTERNATIVE *KEYWDS 2 SPLICING, CYTOPLASM, MITOCHONDRION, PHOSPHOPROTEIN, PROTEIN *KEYWDS 3 BINDING *EXPDTA NMR, 50 STRUCTURES *AUTHOR L.K.BAILEY, L.J.CAMPBELL, K.A.EVETTS, K.LITTLEFIELD, *AUTHOR 2 E.RAJENDRA, D.NIETLISPACH, D.OWEN, H.R.MOTT *REVDAT 1 11-NOV-08 2K9A 0 ; save_ save_MR_file_comment_2 _Org_constr_file_comment.Sf_framecode MR_file_comment_2 _Org_constr_file_comment.Sf_category org_constr_file_comment _Org_constr_file_comment.Entry_ID rr_2k9a _Org_constr_file_comment.ID 2 _Org_constr_file_comment.Constraint_file_ID 1 _Org_constr_file_comment.Block_ID 2 _Org_constr_file_comment.Details "Generated by Wattos" _Org_constr_file_comment.Comment ; data_distance_constraints ; save_