1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Banci, L. Bertini, I. Dikiy, A. Kastrau, D.H.W. Luchinat, C. Sompornpisut, P. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 90.00 90.00 90.00 1.000 1.000 1.000 C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE L-peptide linking C5 H10 N2 O3 146.144 y GLUTAMINE L-peptide linking C5 H9 N O4 147.129 y GLUTAMIC ACID L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C6 H10 N3 O2 1 156.162 y HISTIDINE L-peptide linking C6 H13 N O2 131.173 y ISOLEUCINE L-peptide linking C6 H13 N O2 131.173 y LEUCINE L-peptide linking C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C5 H11 N O2 S 149.211 y METHIONINE L-peptide linking C9 H11 N O2 165.189 y PHENYLALANINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H7 N O3 105.093 y SERINE L-peptide linking Fe4 S4 351.640 IRON/SULFUR CLUSTER non-polymer C4 H9 N O3 119.119 y THREONINE L-peptide linking C11 H12 N2 O2 204.225 y TRYPTOPHAN L-peptide linking C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking US Biochemistry BICHAW 0033 0006-2960 34 206 219 10.1021/bi00001a025 7819198 The three-dimensional solution structure of the reduced high-potential iron-sulfur protein from Chromatium vinosum through NMR. 1995 US Biochemistry BICHAW 0033 0006-2960 31 5632 Sequence-Specific Assignments of the 1H Nuclear Magnetic Resonance Spectra of Reduced High-Potential Ferredoxin (Hipip) from Chromatium Vinosum 1992 US J.Am.Chem.Soc. JACSAT 0004 0002-7863 9 3332 Identification of the Iron Ions of High Potential Iron Protein from Chromatium Vinosum within the Protein Frame Through Two-Dimensional NMR Experiments 1992 US J.Biol.Chem. JBCHA3 0071 0021-9258 249 4212 Two-Angstrom Crystal Structure of Oxidized Chromatium High Potential Iron Protein 1974 10.2210/pdb1hrr/pdb pdb_00001hrr 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 NMR, 15 STRUCTURES 8912.928 REDUCED HIGH POTENTIAL IRON SULFUR PROTEIN 1 nat polymer 351.640 IRON/SULFUR CLUSTER 1 syn non-polymer HIPIP no no SAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASW TLKAG SAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASW TLKAG A polypeptide(L) n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n Allochromatium sample 1049 Allochromatium vinosum database_2 pdbx_database_status pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_site repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations Other 1 0 1995-07-31 1 1 2008-03-24 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site _pdbx_nmr_software.name _struct_site.pdbx_auth_asym_id _struct_site.pdbx_auth_comp_id _struct_site.pdbx_auth_seq_id Y BNL 1995-01-17 REL SF4 IRON/SULFUR CLUSTER 15 GUENTERT,BRAUN,WUTHRICH refinement DIANA PEARLMAN,CASE,CALDWELL,SIEBEL,SINGH,WEINER,KOLLMAN refinement Amber 4.0 FS4 86 2 SF4 SF4 86 A SER 1 n 1 SER 1 A ALA 2 n 2 ALA 2 A PRO 3 n 3 PRO 3 A ALA 4 n 4 ALA 4 A ASN 5 n 5 ASN 5 A ALA 6 n 6 ALA 6 A VAL 7 n 7 VAL 7 A ALA 8 n 8 ALA 8 A ALA 9 n 9 ALA 9 A ASP 10 n 10 ASP 10 A ASP 11 n 11 ASP 11 A ALA 12 n 12 ALA 12 A THR 13 n 13 THR 13 A ALA 14 n 14 ALA 14 A ILE 15 n 15 ILE 15 A ALA 16 n 16 ALA 16 A LEU 17 n 17 LEU 17 A LYS 18 n 18 LYS 18 A TYR 19 n 19 TYR 19 A ASN 20 n 20 ASN 20 A GLN 21 n 21 GLN 21 A ASP 22 n 22 ASP 22 A ALA 23 n 23 ALA 23 A THR 24 n 24 THR 24 A LYS 25 n 25 LYS 25 A SER 26 n 26 SER 26 A GLU 27 n 27 GLU 27 A ARG 28 n 28 ARG 28 A VAL 29 n 29 VAL 29 A ALA 30 n 30 ALA 30 A ALA 31 n 31 ALA 31 A ALA 32 n 32 ALA 32 A ARG 33 n 33 ARG 33 A PRO 34 n 34 PRO 34 A GLY 35 n 35 GLY 35 A LEU 36 n 36 LEU 36 A PRO 37 n 37 PRO 37 A PRO 38 n 38 PRO 38 A GLU 39 n 39 GLU 39 A GLU 40 n 40 GLU 40 A GLN 41 n 41 GLN 41 A HIS 42 n 42 HIS 42 A CYS 43 n 43 CYS 43 A ALA 44 n 44 ALA 44 A ASN 45 n 45 ASN 45 A CYS 46 n 46 CYS 46 A GLN 47 n 47 GLN 47 A PHE 48 n 48 PHE 48 A MET 49 n 49 MET 49 A GLN 50 n 50 GLN 50 A ALA 51 n 51 ALA 51 A ASP 52 n 52 ASP 52 A ALA 53 n 53 ALA 53 A ALA 54 n 54 ALA 54 A GLY 55 n 55 GLY 55 A ALA 56 n 56 ALA 56 A THR 57 n 57 THR 57 A ASP 58 n 58 ASP 58 A GLU 59 n 59 GLU 59 A TRP 60 n 60 TRP 60 A LYS 61 n 61 LYS 61 A GLY 62 n 62 GLY 62 A CYS 63 n 63 CYS 63 A GLN 64 n 64 GLN 64 A LEU 65 n 65 LEU 65 A PHE 66 n 66 PHE 66 A PRO 67 n 67 PRO 67 A GLY 68 n 68 GLY 68 A LYS 69 n 69 LYS 69 A LEU 70 n 70 LEU 70 A ILE 71 n 71 ILE 71 A ASN 72 n 72 ASN 72 A VAL 73 n 73 VAL 73 A ASN 74 n 74 ASN 74 A GLY 75 n 75 GLY 75 A TRP 76 n 76 TRP 76 A CYS 77 n 77 CYS 77 A ALA 78 n 78 ALA 78 A SER 79 n 79 SER 79 A TRP 80 n 80 TRP 80 A THR 81 n 81 THR 81 A LEU 82 n 82 LEU 82 A LYS 83 n 83 LYS 83 A ALA 84 n 84 ALA 84 A GLY 85 n 85 GLY 85 A author_defined_assembly 1 monomeric A CYS 43 A SG CYS 43 1_555 A SF4 86 B FE1 SF4 1_555 A SF4 86 B S2 SF4 1_555 113.7 A CYS 43 A SG CYS 43 1_555 A SF4 86 B FE1 SF4 1_555 A SF4 86 B S3 SF4 1_555 111.1 A SF4 86 B S2 SF4 1_555 A SF4 86 B FE1 SF4 1_555 A SF4 86 B S3 SF4 1_555 105.7 A CYS 43 A SG CYS 43 1_555 A SF4 86 B FE1 SF4 1_555 A SF4 86 B S4 SF4 1_555 112.9 A SF4 86 B S2 SF4 1_555 A SF4 86 B FE1 SF4 1_555 A SF4 86 B S4 SF4 1_555 105.2 A SF4 86 B S3 SF4 1_555 A SF4 86 B FE1 SF4 1_555 A SF4 86 B S4 SF4 1_555 107.7 A CYS 46 A SG CYS 46 1_555 A SF4 86 B FE2 SF4 1_555 A SF4 86 B S1 SF4 1_555 113.4 A CYS 46 A SG CYS 46 1_555 A SF4 86 B FE2 SF4 1_555 A SF4 86 B S3 SF4 1_555 112.3 A SF4 86 B S1 SF4 1_555 A SF4 86 B FE2 SF4 1_555 A SF4 86 B S3 SF4 1_555 105.8 A CYS 46 A SG CYS 46 1_555 A SF4 86 B FE2 SF4 1_555 A SF4 86 B S4 SF4 1_555 110.9 A SF4 86 B S1 SF4 1_555 A SF4 86 B FE2 SF4 1_555 A SF4 86 B S4 SF4 1_555 106.0 A SF4 86 B S3 SF4 1_555 A SF4 86 B FE2 SF4 1_555 A SF4 86 B S4 SF4 1_555 108.1 A CYS 63 A SG CYS 63 1_555 A SF4 86 B FE3 SF4 1_555 A SF4 86 B S1 SF4 1_555 108.2 A CYS 63 A SG CYS 63 1_555 A SF4 86 B FE3 SF4 1_555 A SF4 86 B S2 SF4 1_555 112.8 A SF4 86 B S1 SF4 1_555 A SF4 86 B FE3 SF4 1_555 A SF4 86 B S2 SF4 1_555 108.1 A CYS 63 A SG CYS 63 1_555 A SF4 86 B FE3 SF4 1_555 A SF4 86 B S4 SF4 1_555 115.1 A SF4 86 B S1 SF4 1_555 A SF4 86 B FE3 SF4 1_555 A SF4 86 B S4 SF4 1_555 106.0 A SF4 86 B S2 SF4 1_555 A SF4 86 B FE3 SF4 1_555 A SF4 86 B S4 SF4 1_555 106.3 A CYS 77 A SG CYS 77 1_555 A SF4 86 B FE4 SF4 1_555 A SF4 86 B S1 SF4 1_555 107.1 A CYS 77 A SG CYS 77 1_555 A SF4 86 B FE4 SF4 1_555 A SF4 86 B S2 SF4 1_555 112.2 A SF4 86 B S1 SF4 1_555 A SF4 86 B FE4 SF4 1_555 A SF4 86 B S2 SF4 1_555 108.1 A CYS 77 A SG CYS 77 1_555 A SF4 86 B FE4 SF4 1_555 A SF4 86 B S3 SF4 1_555 116.9 A SF4 86 B S1 SF4 1_555 A SF4 86 B FE4 SF4 1_555 A SF4 86 B S3 SF4 1_555 105.5 A SF4 86 B S2 SF4 1_555 A SF4 86 B FE4 SF4 1_555 A SF4 86 B S3 SF4 1_555 106.5 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 x,y,z identity operation 0.0000000000 0.0000000000 0.0000000000 A N LYS 61 A N LYS 61 A O ILE 71 A O ILE 71 1 A TYR 19 0.145 SIDE CHAIN 2 A TYR 19 0.123 SIDE CHAIN 3 A TYR 19 0.075 SIDE CHAIN 4 A TYR 19 0.139 SIDE CHAIN 5 A TYR 19 0.155 SIDE CHAIN 6 A TYR 19 0.138 SIDE CHAIN 7 A TYR 19 0.137 SIDE CHAIN 7 A ARG 33 0.077 SIDE CHAIN 8 A TYR 19 0.130 SIDE CHAIN 9 A TYR 19 0.143 SIDE CHAIN 10 A TYR 19 0.135 SIDE CHAIN 12 A TYR 19 0.144 SIDE CHAIN 12 A ARG 33 0.082 SIDE CHAIN 13 A TYR 19 0.140 SIDE CHAIN 14 A TYR 19 0.125 SIDE CHAIN 15 A TYR 19 0.130 SIDE CHAIN 1 A ASN 5 -82.81 49.93 1 A ALA 32 38.57 55.19 1 A ALA 54 61.52 159.75 1 A THR 57 -107.11 -136.00 1 A ASP 58 -76.76 -72.05 1 A GLN 64 31.41 -94.15 1 A PHE 66 -109.34 79.79 1 A LYS 83 -45.57 100.64 2 A ALA 32 39.82 56.56 2 A PHE 48 67.67 -94.98 2 A MET 49 72.36 112.85 2 A ASP 52 -85.07 49.80 2 A ALA 54 66.13 140.46 2 A THR 57 -126.45 -169.16 2 A LEU 82 -39.67 107.03 2 A LYS 83 -35.98 103.56 3 A ASN 5 -81.47 47.42 3 A THR 57 -107.85 -139.29 3 A ASP 58 -67.23 -74.24 4 A ALA 54 63.53 160.07 4 A ALA 56 -36.43 128.93 4 A THR 57 -114.10 -136.93 4 A ASP 58 -72.63 -76.83 4 A ASN 74 -66.15 -94.54 4 A TRP 76 110.44 139.25 4 A LYS 83 -33.04 104.85 5 A ALA 23 -27.27 -46.32 5 A ALA 53 -33.66 96.53 5 A THR 57 -110.72 -135.39 5 A ASP 58 -70.27 -74.18 5 A ASN 74 -60.69 -88.84 5 A TRP 76 159.85 -30.84 5 A CYS 77 -7.23 139.42 5 A TRP 80 16.84 -100.12 5 A THR 81 78.68 118.20 5 A LYS 83 -54.09 87.73 5 A ALA 84 -100.80 69.01 6 A ALA 2 -161.74 107.00 6 A ASN 20 -161.10 109.40 6 A CYS 43 -38.43 -37.72 6 A THR 57 -111.88 -136.62 6 A ASP 58 -69.74 -74.90 6 A ALA 84 -119.38 76.15 7 A ASN 5 -82.46 48.07 7 A THR 57 -124.35 -163.72 8 A PHE 48 72.44 -173.23 8 A MET 49 149.16 156.58 8 A THR 57 -99.77 -137.10 8 A LYS 83 -58.51 80.75 8 A ALA 84 -106.54 64.17 9 A ASN 5 -82.42 45.38 9 A LYS 18 30.25 39.73 9 A ALA 32 39.26 54.64 9 A PHE 48 49.20 29.62 9 A ALA 53 -57.61 104.81 9 A THR 57 -109.14 -130.92 9 A ASP 58 -78.21 -76.29 9 A PHE 66 -117.88 69.05 9 A TRP 80 28.79 -120.51 9 A THR 81 99.12 107.28 9 A LYS 83 -53.09 95.40 10 A ASN 5 -82.06 49.47 10 A THR 57 -108.01 -134.88 10 A ASP 58 -71.59 -73.51 10 A TRP 80 -35.82 120.37 11 A CYS 43 -39.30 -38.73 11 A THR 57 -110.20 -131.06 11 A ASP 58 -78.60 -76.38 11 A TRP 80 21.23 -111.08 11 A THR 81 85.65 131.88 12 A ASN 5 -81.10 45.37 12 A ALA 53 -53.98 105.24 12 A THR 57 -121.21 -140.00 12 A LYS 83 -45.79 91.04 13 A ASN 5 -83.92 39.06 13 A THR 57 -112.05 -139.02 13 A ASP 58 -67.83 -76.45 13 A ASN 74 -65.54 -96.59 13 A TRP 76 103.35 137.51 13 A TRP 80 8.09 -104.66 13 A THR 81 78.05 123.70 13 A LYS 83 -56.00 100.30 14 A ALA 53 -69.83 96.20 14 A THR 57 -119.91 -140.34 14 A ASP 58 -71.67 -70.74 14 A LYS 83 -58.07 98.60 14 A ALA 84 -95.08 54.18 15 A ASN 5 -79.93 43.38 15 A ALA 32 39.45 54.56 15 A PHE 48 77.06 -32.91 15 A THR 57 -106.62 -163.52 15 A TRP 80 4.45 -103.31 15 A THR 81 77.86 126.71 15 A LYS 83 -58.82 108.65 refinement AMBER THE THREE DIMENSIONAL STRUCTURE OF THE REDUCED HIGH POTENTIAL IRON-SULFUR PROTEIN FROM CHROMATIUM VINOSUM THROUGH NMR 1 Y N 2 N N A ALA 12 A ALA 12 HELX_P A LEU 17 A LEU 17 1 1 6 A ALA 23 A ALA 23 HELX_P A LYS 25 A LYS 25 5 2 3 A GLU 27 A GLU 27 HELX_P A ALA 31 A ALA 31 5 3 5 A PRO 38 A PRO 38 HELX_P A GLU 40 A GLU 40 5 4 3 A CYS 43 A CYS 43 HELX_P A ASN 45 A ASN 45 5 5 3 metalc 2.039 A CYS 43 A SG CYS 43 1_555 A SF4 86 B FE1 SF4 1_555 metalc 2.030 A CYS 46 A SG CYS 46 1_555 A SF4 86 B FE2 SF4 1_555 metalc 2.010 A CYS 63 A SG CYS 63 1_555 A SF4 86 B FE3 SF4 1_555 metalc 2.009 A CYS 77 A SG CYS 77 1_555 A SF4 86 B FE4 SF4 1_555 ELECTRON TRANSFER (IRON-SULFUR) ELECTRON TRANSFER (IRON-SULFUR) HIP_CHRVI UNP 1 1 P00260 MSDKPISKSRRDAVKVMLGTAAAIPMINLVGFGTARASAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHC ANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASWTLKAG 38 122 1HRR 1 85 P00260 A 1 1 85 2 anti-parallel A TRP 60 A TRP 60 A LYS 61 A LYS 61 A ILE 71 A ILE 71 A ASN 72 A ASN 72 BINDING SITE FOR RESIDUE SF4 A 86 A SF4 86 Software 6 A CYS 43 A CYS 43 6 1_555 A CYS 46 A CYS 46 6 1_555 A CYS 63 A CYS 63 6 1_555 A GLN 64 A GLN 64 6 1_555 A CYS 77 A CYS 77 6 1_555 A TRP 80 A TRP 80 6 1_555 1 P 1