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NMR Restraints Grid |
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Result table
(Save to zip file containing files for each block)
image | mrblock_id | pdb_id | bmrb_id | cing | stage | program | type | subtype |
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37527 |
1pra ![]() ![]() |
2539 | cing | 2-parsed | STAR | entry | full |
data_1pra_MR_file_constraints save_Conversion_project _Study_list.Sf_category study_list _Study_list.Entry_ID parsed_1pra _Study_list.ID 1 loop_ _Study.ID _Study.Name _Study.Type _Study.Details _Study.Entry_ID _Study.Study_list_ID 1 "Conversion project" NMR . parsed_1pra 1 stop_ save_ save_entry_information _Entry.Sf_category entry_information _Entry.ID parsed_1pra _Entry.Title "Original constraint list(s)" _Entry.Version_type original _Entry.Submission_date . _Entry.Accession_date . _Entry.Last_release_date . _Entry.Original_release_date . _Entry.Origination . _Entry.NMR_STAR_version 3.1 _Entry.Original_NMR_STAR_version . _Entry.Experimental_method NMR _Entry.Experimental_method_subtype . loop_ _Related_entries.Database_name _Related_entries.Database_accession_code _Related_entries.Relationship _Related_entries.Entry_ID PDB 1pra "Master copy" parsed_1pra stop_ save_ save_global_Org_file_characteristics _Constraint_stat_list.Sf_category constraint_statistics _Constraint_stat_list.Entry_ID parsed_1pra _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 1pra.mr . . "MR format" 1 comment "Not applicable" "Not applicable" 0 parsed_1pra 1 1 1pra.mr . . n/a 2 "chemical shift" "Not applicable" "format 3" 0 parsed_1pra 1 1 1pra.mr . . "MR format" 3 "coupling constant" "Not applicable" "Not applicable" 0 parsed_1pra 1 1 1pra.mr . . "MR format" 4 distance NOE simple 0 parsed_1pra 1 1 1pra.mr . . "MR format" 5 distance "general distance" simple 0 parsed_1pra 1 1 1pra.mr . . "MR format" 6 distance NOE simple 0 parsed_1pra 1 1 1pra.mr . . "MR format" 7 distance "hydrogen bond" simple 0 parsed_1pra 1 1 1pra.mr . . "MR format" 8 "dihedral angle" "Not applicable" "Not applicable" 0 parsed_1pra 1 1 1pra.mr . . n/a 9 comment "Not applicable" "Not applicable" 0 parsed_1pra 1 1 1pra.mr . . "MR format" 10 "nomenclature mapping" "Not applicable" "Not applicable" 0 parsed_1pra 1 stop_ save_ save_MR_file_comment_1 _Org_constr_file_comment.Sf_category org_constr_file_comment _Org_constr_file_comment.Entry_ID parsed_1pra _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 GENE REGULATING PROTEIN 18-NOV-91 1PRA *COMPND REPRESSOR PROTEIN FROM BACTERIOPHAGE 434 (DNA-BINDING *COMPND 2 DOMAIN, RESIDUES 1-69) (NMR, 20 STRUCTURES) *SOURCE BACTERIOPHAGE 434 *AUTHOR D.NERI,M.BILLETER,K.WUTHRICH *REVDAT 1 31-OCT-93 1PRA 0 REMARK 1 1REP 8 REMARK 1 THIS FILE CONTAINS DATA THAT WAS USED IN THE DETERMINATION 1REP 9 REMARK 1 OF THE THREE-DIMENSIONAL STRUCTURE OF THE 434 REPRESSOR 1REP 10 REMARK 1 (1-69) BY NUCLEAR MAGNETIC RESONANCE IN SOLUTION. 1REP 11 REMARK 1 THE DIFFERENT KINDS OF DATA TOGETHER WITH THE CORRESPONDING 1REP 12 REMARK 1 RECORD IDENTIFIERS ARE GIVEN IN THE FOLLOWING TABLE. SEE 1REP 13 REMARK 1 REMARK 2 FOR THE DETAILS. 1REP 14 REMARK 1 1REP 15 REMARK 1 RECORD CONTENT UNIT 1REP 16 REMARK 1 ------ ------------------------------------------- --------- 1REP 17 REMARK 1 SHIFTS CHEMICAL SHIFTS OF THE ASSIGNED PROTONS PPM 1REP 18 REMARK 1 JCOUPL VICINAL 1H-1H SCALAR COUPLING CONSTANTS HERTZ 1REP 19 REMARK 1 NOEUPP UPPER LIMITS FOR INTERATOMIC DISTANCES ANGSTROMS 1REP 20 REMARK 1 DETERMINED FROM NUCLEAR OVERHAUSER EFFECTS 1REP 21 REMARK 1 HBUPP UPPER LIMITS FOR INTERATOMIC DISTANCES ANGSTROMS 1REP 22 REMARK 1 FOR HYDROGEN BONDS 1REP 23 REMARK 1 NOELOW LOWER LIMITS FOR INTERATOMIC DISTANCES ANGSTROMS 1REP 26 REMARK 1 DETERMINED FROM NUCLEAR OVERHAUSER EFFECTS 1REP 27 REMARK 1 (NOT USED HERE) 1REP 28 REMARK 1 HBLOW LOWER LIMITS FOR INTERATOMIC DISTANCES ANGSTROMS 1REP 29 REMARK 1 FOR HYDROGEN BONDS 1REP 30 REMARK 1 ANGLE TORSION ANGLE CONSTRAINTS IN THE FORM OF DEGREES 1REP 33 REMARK 1 AN ALLOWED INTERVAL 1REP 34 REMARK 1 1REP 35 REMARK 1 ALL EXPERIMENTAL INPUT DATA (EXCEPT THE AMINO ACID SEQUENCE) 1REP 36 REMARK 1 FOR THE DISTANCE GEOMETRY CALCULATIONS WITH THE PROGRAM 1REP 37 REMARK 1 DISMAN AND REFINEMENT WITH AMBER IS GIVEN IN THE RECORDS 1REP 38 REMARK 1 NOEUPP, HBUPP, HBLOW AND ANGLE. 1REP 39 REMARK 2 1REP 41 REMARK 2 THE NEXT TABLE CONTAINS A DETAILED DESCRIPTION OF THE 1REP 42 REMARK 2 CONTENTS AND FORMATS OF THE VARIOUS DATA RECORDS AND THE 1REP 43 REMARK 2 MASTER RECORD. 1REP 44 REMARK 2 1REP 45 REMARK 2 RECORD CONTENTS (FORTRAN FORMAT) 1REP 46 REMARK 2 ------ ----------------------------------------------------- 1REP 47 REMARK 2 SHIFTS RESIDUE NAME, RESIDUE NUMBER, ATOM NAME, CHEMICAL 1REP 48 REMARK 2 SHIFT(S), ATOM NAME, CHEMICAL SHIFT(S), ATOM NAME, 1REP 49 REMARK 2 CHEMICAL SHIFT(S) 1REP 50 REMARK 2 ('SHIFTS',2X,A4,I4,2X,3(A4,2F6.2,2X)) 1REP 51 REMARK 2 JCOUPL RESIDUE NAME, RESIDUE NUMBER, FIRST AND SECOND ATOM 1REP 52 REMARK 2 NAME, J-COUPLING CONSTANT, FIRST AND SECOND ATOM 1REP 53 REMARK 2 NAME, J-COUPLING CONSTANT, FIRST AND SECOND ATOM 1REP 54 REMARK 2 NAME, J-COUPLING CONSTANT 1REP 55 REMARK 2 ('JCOUPL',2X,A4,I4,2X,3(A4,1X,A4,F6.2,3X)) 1REP 56 REMARK 2 NOEUPP FIRST RESIDUE NAME, FIRST RESIDUE NUMBER, FIRST ATOM 1REP 57 REMARK 2 NAME, SECOND RESIDUE NAME, SECOND RESIDUE NUMBER, 1REP 58 REMARK 2 SECOND ATOM NAME, UPPER DISTANCE LIMIT, FIRST ATOM 1REP 59 REMARK 2 NAME, SECOND RESIDUE NAME, SECOND RESIDUE NUMBER, 1REP 60 REMARK 2 SECOND ATOM NAME, UPPER DISTANCE LIMIT 1REP 61 REMARK 2 ('NOEUPP',2X,A4,I4,1X,2(A4,1X,A4,I4,1X,A4,F6.2,5X)) 1REP 62 REMARK 2 HBUPP SIMILAR TO NOEUPP 1REP 63 REMARK 2 NOELOW SIMILAR TO NOEUPP, BUT WITH LOWER DISTANCE LIMITS 1REP 65 REMARK 2 HBLOW SIMILAR TO NOELOW 1REP 66 REMARK 2 ANGLE RESIDUE NAME, RESIDUE NUMBER, ANGLE NAME, LOWER AND 1REP 68 REMARK 2 UPPER BOUND, ANGLE NAME, LOWER AND UPPER BOUND 1REP 69 REMARK 2 ('ANGLE',3X,A4,I4,1X,2(A5,2F8.2,8X)) 1REP 70 REMARK 2 MASTER NUMBER OF REMARK RECORDS, NUMBER OF FTNOTE RECORDS, 1REP 71 REMARK 2 NUMBER OF SHIFTS RECORDS, NUMBER OF JCOUPL RECORDS, 1REP 72 REMARK 2 NUMBER OF NOEUPP, HBUPP AND SSUPP RECORDS, NUMBER OF 1REP 73 REMARK 2 NOELOW, HBLOW AND SSLOW RECORDS, NUMBER OF ANGLE 1REP 74 REMARK 2 RECORDS 1REP 75 REMARK 2 ('MASTER',4X,7I5) 1REP 76 REMARK 3 1REP 77 REMARK 3 ATOM NAMES HAVE BEEN ASSIGNED FOLLOWING THE RECOMMENDATIONS 1REP 78 REMARK 3 OF THE IUPAC-IUB COMMISSION AS PUBLISHED IN BIOCHEMISTRY 1REP 79 REMARK 3 (1970) VOL. 9, 3471-3479, EXCEPT THAT BACKBONE AMIDE 1REP 80 REMARK 3 HYDROGENS ARE DENOTED BY HN INSTEAD OF H. THE HYDROGEN ATOM 1REP 81 REMARK 3 NUMBERS OF THOSE HYDROGEN ATOMS WHICH ARE CONNECTED TO THE 1REP 82 REMARK 3 SAME NON-HYDROGEN ATOM ARE WRITTEN AS THE FIRST CHARACTER 1REP 83 REMARK 3 RATHER THAN THE LAST CHARACTER OF THE ATOM NAMES. 1REP 84 REMARK 3 THEY ARE IDENTICAL WITH THE ATOM NAMES USED IN THE CO- 1REP 85 REMARK 3 ORDINATE FILE 1REP. 1REP 86 REMARK 4 1REP 87 REMARK 4 PSEUDO-ATOMS DESIGNATED AS Q ARE DIMENSIONLESS REFERENCE 1REP 88 REMARK 4 POINTS REPRESENTING A GROUP OF HYDROGEN ATOMS 1REP 89 REMARK 4 (K.WUTHRICH, M.BILLETER AND W.BRAUN, J. MOL. BIOL. (1983) 1REP 90 REMARK 4 VOL. 169, 949-961). THEY ARE USED TO DESCRIBE ALL METHYL 1REP 91 REMARK 4 GROUPS, AND THOSE GROUPS OF PROCHIRAL HYDROGEN ATOMS FOR 1REP 92 REMARK 4 WHICH NO STEREOSPECIFIC ASSIGNMENTS HAD BEEN OBTAINED. 1REP 93 REMARK 4 FOR ALL METHYLENE GROUPS, EVEN IN CASE OF IDENTICAL SHIFTS, 1REP 94 REMARK 4 TWO CHEMICAL SHIFTS ARE LISTED FOR THE TWO PROTONS. 1REP 95 REMARK 4 TWO CHEMICAL SHIFTS ARE ALSO ALWAYS GIVEN FOR THE TWO 1REP 96 REMARK 4 METHYLS IN THE ISOPROPYL GROUPS. 1REP 97 REMARK 5 1REP 98 REMARK 5 DETAILS OF THE NOMENCLATURE FOR THE PSEUDO-ATOMS ARE 1REP 99 REMARK 5 AS FOLLOWS: QA REPRESENTS THE TWO METHYLENE HYDROGEN 1REP 100 REMARK 5 ATOMS OF GLY. QB, QG, ... REPRESENT BETA, GAMMA, ... 1REP 101 REMARK 5 METHYLENE OR METHYL GROUPS IN THE SIDE CHAINS. IN CASE OF 1REP 102 REMARK 5 BRANCHES IN THE SIDE CHAINS THE NUMBERS OF THE PSEUDO-ATOMS 1REP 103 REMARK 5 ARE THE SAME AS THE NUMBERS OF THE CARBONS TO WHICH THE 1REP 104 REMARK 5 HYDROGEN ATOMS ARE ATTACHED. 1REP 105 REMARK 5 QQG AND QQD DENOTE THE PSEUDO-ATOMS FOR THE 6 HYDROGEN 1REP 106 REMARK 5 ATOMS OF THE ISOPROPYL METHYL GROUPS OF VAL AND LEU, RESPEC- 1REP 107 REMARK 5 TIVELY. QR IS THE PSEUDO-ATOM FOR THE DELTA AND EPSILON 1REP 108 REMARK 5 HYDROGENS OF THE AROMATIC RINGS OF TYR AND PHE. IN THE CASE 1REP 109 REMARK 5 THE DELTA AND EPSILON PROTONS OF THE AROMATIC RINGS 1REP 110 REMARK 5 ARE DEGENERATE, THE CHEMICAL SHIFTS ARE LISTED UNDER CG 1REP 111 REMARK 5 AND CZ, RESPECTIVELY. 1REP 112 REMARK 5 1REP 113 ; save_ save_MR_file_comment_9 _Org_constr_file_comment.Sf_category org_constr_file_comment _Org_constr_file_comment.Entry_ID parsed_1pra _Org_constr_file_comment.ID 2 _Org_constr_file_comment.Constraint_file_ID 1 _Org_constr_file_comment.Block_ID 9 _Org_constr_file_comment.Details "Generated by Wattos" _Org_constr_file_comment.Comment ; END NOV 848 ; save_
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