1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Bartalesi, I. Bertini, I. Hajieva, P. Rosato, A. Vasos, P.R. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 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 C34 H34 Fe N4 O4 618.503 HEME C non-polymer 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 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 41 5112 5119 10.1021/bi015984z 11955059 Solution structure of a monoheme ferrocytochrome c from Shewanella putrefaciens and structural analysis of sequence-similar proteins: functional implications. 2002 10.2210/pdb1kx7/pdb pdb_00001kx7 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 1 SINGLE WAVELENGTH M 1 1.0 8600.770 mono-heme c-type cytochrome ScyA 1 man polymer 618.503 HEME C 1 syn non-polymer MONO-HEME FERROCYTOCHROME C no no ADLQDAEAIYNKACTVCHSMGVAGAPKSHNTADWEPRLAKGVDNLVKSVKTGLNAMPPGGMCTDCTDEDYKAAIEFMSKA K ADLQDAEAIYNKACTVCHSMGVAGAPKSHNTADWEPRLAKGVDNLVKSVKTGLNAMPPGGMCTDCTDEDYKAAIEFMSKA K 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 Shewanella Escherichia sample ScyA 24 Shewanella putrefaciens 562 Escherichia coli BL21(DE3)C41 plasmid pPB10ScyA database_2 pdbx_nmr_software pdbx_nmr_spectrometer pdbx_struct_assembly pdbx_struct_oper_list struct_conn struct_conn_type struct_ref_seq_dif struct_site repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2002-02-13 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _pdbx_nmr_spectrometer.model _struct_conn.conn_type_id _struct_conn.id _struct_conn.pdbx_dist_value _struct_conn.pdbx_leaving_atom_flag _struct_conn.ptnr1_auth_comp_id _struct_conn.ptnr1_auth_seq_id _struct_conn.ptnr1_label_asym_id _struct_conn.ptnr1_label_atom_id _struct_conn.ptnr1_label_comp_id _struct_conn.ptnr1_label_seq_id _struct_conn.ptnr2_auth_comp_id _struct_conn.ptnr2_auth_seq_id _struct_conn.ptnr2_label_asym_id _struct_conn.ptnr2_label_atom_id _struct_conn.ptnr2_label_comp_id _struct_conn.ptnr2_label_seq_id _struct_conn_type.id _struct_ref_seq_dif.details _struct_site.pdbx_auth_asym_id _struct_site.pdbx_auth_comp_id _struct_site.pdbx_auth_seq_id minimized AVERAGE structure of S. putrefaciens MONO-HEME C-TYPE CYTOCHROME SCYA SEQUENCE Recombinant protein, without the signaling peptide. The first three amino-acids (Ala Asp Leu) have been added for protein expression purposes. RCSB Y RCSB 2002-01-31 REL REL HEC HEME C target function 250 30 3D_15N-separated_NOESY 3D_15N-separated_TOCSY 2D_NOESY 2D_TOCSY HNHA HNHB 15N-HSQC 7.0 ambient 298 K simulated annealing in the dihedral angle space in dyana in 15000 steps; 30 structures with the lowest target function out of a total number of 250 generated structures constitute the REM family - subject to restrained energy minimization in AMBER 1.5 mM Cytochrome c: 100 mM phosphate buffer; reduced with dithyonite 90% H2O/10% D2O Guntert, P., Mumenthaler, C., Wuthrich, K. structure solution DYANA 1.5 Case refinement Amber 6 800 Bruker AVANCE 700 Bruker AVANCE 600 Bruker AVANCE HEC 90 2 HEC HEC 90 A ALA -3 n 1 ALA -3 A ASP -2 n 2 ASP -2 A LEU -1 n 3 LEU -1 A GLN 1 n 4 GLN 1 A ASP 2 n 5 ASP 2 A ALA 3 n 6 ALA 3 A GLU 4 n 7 GLU 4 A ALA 5 n 8 ALA 5 A ILE 6 n 9 ILE 6 A TYR 7 n 10 TYR 7 A ASN 8 n 11 ASN 8 A LYS 9 n 12 LYS 9 A ALA 10 n 13 ALA 10 A CYS 11 n 14 CYS 11 A THR 12 n 15 THR 12 A VAL 13 n 16 VAL 13 A CYS 14 n 17 CYS 14 A HIS 15 n 18 HIS 15 A SER 16 n 19 SER 16 A MET 17 n 20 MET 17 A GLY 18 n 21 GLY 18 A VAL 19 n 22 VAL 19 A ALA 20 n 23 ALA 20 A GLY 21 n 24 GLY 21 A ALA 22 n 25 ALA 22 A PRO 23 n 26 PRO 23 A LYS 24 n 27 LYS 24 A SER 25 n 28 SER 25 A HIS 26 n 29 HIS 26 A ASN 27 n 30 ASN 27 A THR 28 n 31 THR 28 A ALA 29 n 32 ALA 29 A ASP 30 n 33 ASP 30 A TRP 31 n 34 TRP 31 A GLU 32 n 35 GLU 32 A PRO 33 n 36 PRO 33 A ARG 34 n 37 ARG 34 A LEU 35 n 38 LEU 35 A ALA 36 n 39 ALA 36 A LYS 37 n 40 LYS 37 A GLY 38 n 41 GLY 38 A VAL 39 n 42 VAL 39 A ASP 40 n 43 ASP 40 A ASN 41 n 44 ASN 41 A LEU 42 n 45 LEU 42 A VAL 43 n 46 VAL 43 A LYS 44 n 47 LYS 44 A SER 45 n 48 SER 45 A VAL 46 n 49 VAL 46 A LYS 47 n 50 LYS 47 A THR 48 n 51 THR 48 A GLY 49 n 52 GLY 49 A LEU 50 n 53 LEU 50 A ASN 51 n 54 ASN 51 A ALA 52 n 55 ALA 52 A MET 53 n 56 MET 53 A PRO 54 n 57 PRO 54 A PRO 55 n 58 PRO 55 A GLY 56 n 59 GLY 56 A GLY 57 n 60 GLY 57 A MET 58 n 61 MET 58 A CYS 59 n 62 CYS 59 A THR 60 n 63 THR 60 A ASP 61 n 64 ASP 61 A CYS 62 n 65 CYS 62 A THR 63 n 66 THR 63 A ASP 64 n 67 ASP 64 A GLU 65 n 68 GLU 65 A ASP 66 n 69 ASP 66 A TYR 67 n 70 TYR 67 A LYS 68 n 71 LYS 68 A ALA 69 n 72 ALA 69 A ALA 70 n 73 ALA 70 A ILE 71 n 74 ILE 71 A GLU 72 n 75 GLU 72 A PHE 73 n 76 PHE 73 A MET 74 n 77 MET 74 A SER 75 n 78 SER 75 A LYS 76 n 79 LYS 76 A ALA 77 n 80 ALA 77 A LYS 78 n 81 LYS 78 A author_defined_assembly 1 monomeric A HIS 15 A NE2 HIS 18 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B NA HEC 1_555 93.4 A HIS 15 A NE2 HIS 18 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B NB HEC 1_555 87.8 A HEC 90 B NA HEC 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B NB HEC 1_555 90.2 A HIS 15 A NE2 HIS 18 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B NC HEC 1_555 88.8 A HEC 90 B NA HEC 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B NC HEC 1_555 177.2 A HEC 90 B NB HEC 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B NC HEC 1_555 91.7 A HIS 15 A NE2 HIS 18 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B ND HEC 1_555 88.6 A HEC 90 B NA HEC 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B ND HEC 1_555 89.5 A HEC 90 B NB HEC 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B ND HEC 1_555 176.4 A HEC 90 B NC HEC 1_555 A HEC 90 B FE HEC 1_555 A HEC 90 B ND HEC 1_555 88.8 A HIS 15 A NE2 HIS 18 1_555 A HEC 90 B FE HEC 1_555 A MET 53 A SD MET 56 1_555 170.6 A HEC 90 B NA HEC 1_555 A HEC 90 B FE HEC 1_555 A MET 53 A SD MET 56 1_555 83.7 A HEC 90 B NB HEC 1_555 A HEC 90 B FE HEC 1_555 A MET 53 A SD MET 56 1_555 101.1 A HEC 90 B NC HEC 1_555 A HEC 90 B FE HEC 1_555 A MET 53 A SD MET 56 1_555 93.8 A HEC 90 B ND HEC 1_555 A HEC 90 B FE HEC 1_555 A MET 53 A SD MET 56 1_555 82.5 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 13 A A ALA ASP -3 -2 -149.35 25 A A ALA ASP -3 -2 -144.42 1 A TYR 7 0.104 SIDE CHAIN 2 A TYR 7 0.092 SIDE CHAIN 3 A TYR 7 0.096 SIDE CHAIN 3 A ARG 34 0.145 SIDE CHAIN 3 A TYR 67 0.104 SIDE CHAIN 4 A TYR 7 0.119 SIDE CHAIN 4 A TYR 67 0.096 SIDE CHAIN 5 A TYR 7 0.077 SIDE CHAIN 5 A TYR 67 0.159 SIDE CHAIN 6 A TYR 7 0.067 SIDE CHAIN 6 A TYR 67 0.069 SIDE CHAIN 7 A TYR 7 0.097 SIDE CHAIN 7 A TYR 67 0.079 SIDE CHAIN 8 A TYR 7 0.074 SIDE CHAIN 8 A TYR 67 0.121 SIDE CHAIN 9 A TYR 7 0.086 SIDE CHAIN 9 A TYR 67 0.148 SIDE CHAIN 10 A TYR 7 0.089 SIDE CHAIN 10 A TYR 67 0.064 SIDE CHAIN 11 A TYR 7 0.116 SIDE CHAIN 12 A TYR 7 0.105 SIDE CHAIN 13 A TYR 7 0.088 SIDE CHAIN 14 A TYR 7 0.092 SIDE CHAIN 15 A TYR 7 0.083 SIDE CHAIN 15 A TYR 67 0.137 SIDE CHAIN 16 A TYR 7 0.119 SIDE CHAIN 17 A TYR 7 0.081 SIDE CHAIN 17 A TYR 67 0.077 SIDE CHAIN 18 A TYR 7 0.104 SIDE CHAIN 18 A ARG 34 0.088 SIDE CHAIN 18 A TYR 67 0.077 SIDE CHAIN 19 A TYR 7 0.090 SIDE CHAIN 19 A ARG 34 0.146 SIDE CHAIN 19 A TYR 67 0.104 SIDE CHAIN 20 A TYR 7 0.102 SIDE CHAIN 21 A TYR 7 0.081 SIDE CHAIN 21 A ARG 34 0.095 SIDE CHAIN 21 A TYR 67 0.180 SIDE CHAIN 22 A ARG 34 0.163 SIDE CHAIN 23 A TYR 7 0.112 SIDE CHAIN 24 A TYR 7 0.107 SIDE CHAIN 24 A ARG 34 0.128 SIDE CHAIN 25 A TYR 7 0.097 SIDE CHAIN 27 A TYR 7 0.121 SIDE CHAIN 27 A TYR 67 0.075 SIDE CHAIN 28 A TYR 67 0.086 SIDE CHAIN 29 A TYR 7 0.098 SIDE CHAIN 29 A TYR 67 0.078 SIDE CHAIN 2 -6.76 0.90 118.30 111.54 A A A CB CG OD2 ASP ASP ASP 30 30 30 N 4 -6.28 0.90 118.30 112.02 A A A CB CG OD2 ASP ASP ASP 30 30 30 N 4 -3.73 0.60 121.00 117.27 A A A CB CG CD2 TYR TYR TYR 67 67 67 N 7 -6.78 0.90 118.30 111.52 A A A CB CG OD2 ASP ASP ASP 30 30 30 N 8 -4.27 0.60 121.00 116.73 A A A CB CG CD2 TYR TYR TYR 67 67 67 N 9 -3.85 0.60 121.00 117.15 A A A CB CG CD2 TYR TYR TYR 67 67 67 N 11 7.31 1.10 114.20 121.51 A A A CA CB SG CYS CYS CYS 62 62 62 N 12 -6.27 0.90 118.30 112.03 A A A CB CG OD2 ASP ASP ASP 30 30 30 N 13 6.66 1.10 114.20 120.86 A A A CA CB SG CYS CYS CYS 59 59 59 N 14 7.95 1.10 114.20 122.15 A A A CA CB SG CYS CYS CYS 62 62 62 N 16 -5.45 0.90 118.30 112.85 A A A CB CG OD2 ASP ASP ASP 30 30 30 N 29 -3.62 0.60 121.00 117.38 A A A CB CG CD2 TYR TYR TYR 67 67 67 N 1 A LEU -1 -109.11 58.11 1 A ALA 10 -109.48 -65.93 1 A CYS 11 -74.88 40.18 1 A CYS 14 -91.01 -63.98 1 A ALA 20 59.07 18.90 1 A LEU 35 -61.77 8.78 1 A VAL 39 -127.04 -60.45 1 A THR 60 -145.99 -67.62 1 A SER 75 -163.92 -87.41 1 A LYS 76 172.43 53.15 1 A ALA 77 -160.55 -85.27 2 A ALA 10 -106.62 -66.34 2 A CYS 11 -78.67 41.10 2 A ALA 20 59.23 16.89 2 A LEU 35 -66.18 2.18 2 A LYS 37 -125.42 -61.96 2 A VAL 39 -146.81 -55.74 2 A ASP 40 -69.13 26.62 2 A LEU 50 -78.49 -146.09 2 A MET 58 -174.44 -37.21 2 A THR 60 -128.10 -60.67 2 A GLU 65 -28.92 -64.29 2 A SER 75 -152.72 -89.91 2 A LYS 76 169.17 54.96 2 A ALA 77 -167.22 -87.72 3 A ASP -2 -164.06 82.68 3 A LEU -1 -77.18 36.11 3 A CYS 11 -75.56 40.63 3 A CYS 14 -104.06 -61.09 3 A ALA 20 -83.75 35.40 3 A VAL 39 -144.09 -57.97 3 A ASP 40 -63.89 6.73 3 A MET 58 77.58 44.97 3 A THR 60 -108.78 -88.14 3 A ASP 61 -106.14 74.93 3 A SER 75 -167.27 46.67 3 A LYS 76 37.88 60.71 3 A ALA 77 -162.31 -82.00 4 A ASP -2 -160.87 27.71 4 A ALA 10 -103.46 -67.73 4 A CYS 11 -76.54 38.73 4 A CYS 14 -99.46 -61.26 4 A VAL 39 -149.02 -55.82 4 A ASP 40 -71.76 28.88 4 A LEU 50 -78.02 -152.90 4 A MET 58 62.83 -0.85 4 A THR 60 65.54 -71.34 4 A SER 75 -164.07 33.81 4 A LYS 76 38.23 61.27 4 A ALA 77 -149.49 -55.57 5 A ASP -2 -161.38 91.52 5 A LEU -1 -144.68 30.74 5 A ALA 10 -108.05 -64.67 5 A CYS 11 -77.10 41.74 5 A ALA 20 -82.94 32.92 5 A HIS 26 -119.80 73.72 5 A LEU 35 -58.18 0.35 5 A LYS 37 -94.61 -64.68 5 A VAL 39 -38.59 116.06 5 A ASP 40 138.23 -19.99 5 A MET 58 77.18 37.92 5 A THR 60 -102.88 -64.06 5 A MET 74 -67.62 -75.01 5 A SER 75 -153.75 25.51 5 A LYS 76 34.39 61.35 5 A ALA 77 -142.84 -56.76 6 A ALA 10 -109.50 -65.03 6 A CYS 11 -75.82 41.43 6 A SER 25 -43.28 -70.02 6 A PRO 33 -69.12 1.16 6 A LEU 35 -59.50 5.31 6 A VAL 39 -138.40 -65.54 6 A ASP 40 -61.70 15.86 6 A MET 58 81.24 27.09 6 A THR 60 -100.71 -91.94 6 A ASP 61 -92.57 46.53 6 A SER 75 -154.20 -77.32 6 A LYS 76 157.99 58.22 6 A ALA 77 -174.14 -75.96 7 A ALA 10 -108.71 -68.87 7 A CYS 11 -76.54 45.05 7 A CYS 14 -102.57 -63.31 7 A ALA 20 59.84 19.29 7 A PRO 33 -67.99 2.40 7 A ASP 40 76.18 -34.04 7 A LEU 50 -67.61 -179.09 7 A MET 58 -171.26 -47.31 7 A THR 60 -103.60 -64.17 7 A MET 74 -87.36 -71.29 7 A SER 75 -160.13 36.49 7 A LYS 76 33.23 66.55 7 A ALA 77 -163.17 -49.18 8 A ALA 10 -110.69 -70.70 8 A CYS 11 -75.98 38.69 8 A LYS 37 -133.20 -45.30 8 A VAL 39 -129.75 -55.01 8 A ASP 40 -73.64 32.93 8 A MET 58 73.48 -59.51 8 A SER 75 -141.66 -93.84 8 A LYS 76 -174.89 56.11 8 A ALA 77 -161.71 -75.38 9 A ALA 10 -106.05 -67.27 9 A CYS 11 -77.73 43.05 9 A HIS 26 -146.54 -43.30 9 A LEU 35 -66.36 22.80 9 A VAL 39 -123.76 -54.53 9 A MET 58 80.12 -45.52 9 A SER 75 -166.80 -74.18 9 A LYS 76 164.10 43.58 9 A ALA 77 -161.63 -81.58 10 A ASP -2 -162.16 35.75 10 A CYS 11 -76.04 37.81 10 A ALA 20 58.97 17.16 10 A SER 25 -37.96 -35.30 10 A VAL 39 -141.61 -59.71 10 A SER 75 -163.08 32.23 10 A LYS 76 37.29 53.95 10 A ALA 77 -140.77 -54.64 11 A ALA 10 -109.65 -69.54 11 A CYS 11 -75.38 43.95 11 A ALA 20 -82.97 30.79 11 A HIS 26 -140.76 40.14 11 A ASN 41 -92.63 -62.14 11 A LEU 50 -72.56 -145.30 11 A MET 58 -171.98 40.16 11 A THR 60 -81.99 -98.77 11 A CYS 62 -60.75 86.07 11 A SER 75 -164.30 27.94 11 A ALA 77 -132.64 -84.66 12 A ASP -2 -178.60 115.13 12 A LEU -1 -145.79 32.86 12 A ALA 10 -108.11 -64.94 12 A CYS 11 -76.42 44.16 12 A CYS 14 -92.07 -63.68 12 A VAL 39 -134.63 -56.27 12 A MET 58 84.93 12.41 12 A THR 60 -131.19 -49.48 12 A SER 75 -154.15 -79.29 12 A LYS 76 161.48 47.05 12 A ALA 77 -161.20 -88.58 13 A ALA 10 -105.73 -67.77 13 A CYS 11 -77.04 41.86 13 A LEU 35 -59.41 0.96 13 A ASP 40 69.30 -27.51 13 A LEU 50 -74.60 -155.23 13 A MET 58 72.34 -51.98 13 A SER 75 -177.09 129.45 13 A LYS 76 -49.02 74.16 13 A ALA 77 -163.99 -65.40 14 A ALA 10 -107.72 -66.72 14 A CYS 11 -76.04 39.64 14 A HIS 26 -142.01 57.78 14 A VAL 39 -137.86 -54.02 14 A ASP 40 -74.38 34.50 14 A LEU 50 -105.77 -145.74 14 A MET 58 76.39 -45.54 14 A MET 74 -82.50 -70.43 14 A SER 75 -161.34 32.48 14 A LYS 76 36.94 57.74 14 A ALA 77 -143.05 -52.65 15 A ASP 2 -144.47 -153.39 15 A CYS 11 -75.74 41.20 15 A ALA 20 -83.10 33.23 15 A HIS 26 -145.82 45.65 15 A PRO 33 -76.47 21.57 15 A VAL 39 -144.01 -56.64 15 A ASP 40 -68.49 17.17 15 A MET 58 71.15 45.58 15 A CYS 59 -125.50 -52.60 15 A THR 60 70.20 -69.47 15 A SER 75 -166.53 35.37 15 A LYS 76 37.29 51.65 15 A ALA 77 -141.30 -82.93 16 A LEU -1 -74.56 38.81 16 A ALA 10 -104.98 -70.67 16 A CYS 11 -76.49 42.07 16 A ALA 20 -82.55 32.01 16 A SER 25 -19.58 -51.26 16 A HIS 26 -144.68 53.10 16 A VAL 39 -138.62 -64.57 16 A MET 58 -174.13 -48.27 16 A MET 74 -80.45 -71.97 16 A SER 75 -162.96 45.59 16 A LYS 76 36.11 57.98 16 A ALA 77 -161.21 -80.01 17 A ASP -2 -161.25 98.66 17 A LEU -1 -145.90 31.45 17 A ALA 10 -109.03 -67.70 17 A CYS 11 -76.78 45.07 17 A CYS 14 -107.40 -64.12 17 A ALA 20 58.11 19.00 17 A VAL 39 -134.05 -58.03 17 A ASP 40 -68.87 19.09 17 A MET 58 73.59 -7.08 17 A ASP 61 -101.31 77.18 17 A SER 75 -150.84 -75.37 17 A LYS 76 155.60 50.95 17 A ALA 77 -164.26 -82.37 18 A ASP -2 -161.88 109.00 18 A ALA 10 -109.47 -64.27 18 A CYS 11 -73.92 29.13 18 A CYS 14 -95.85 -63.43 18 A LEU 35 -57.51 3.91 18 A VAL 39 -131.50 -58.48 18 A ASP 40 -75.73 35.54 18 A LEU 50 -73.29 -150.87 18 A THR 60 -116.15 -77.93 18 A ASP 61 -79.10 46.30 18 A THR 63 -112.17 -103.33 18 A ASP 64 -139.74 -48.42 18 A SER 75 -157.56 -71.79 18 A LYS 76 152.21 57.87 18 A ALA 77 -170.56 -75.52 19 A LEU -1 -111.92 72.75 19 A CYS 11 -75.94 45.58 19 A ALA 20 57.70 18.16 19 A SER 25 0.84 -82.39 19 A VAL 39 -147.54 -61.62 19 A ASP 40 -76.71 36.44 19 A LEU 50 -71.44 -163.18 19 A MET 58 70.13 -4.04 19 A THR 60 67.38 -60.65 19 A SER 75 -177.65 121.21 19 A LYS 76 -54.57 83.10 19 A ALA 77 -157.76 -69.58 20 A CYS 11 -74.39 31.90 20 A CYS 14 -92.44 -64.24 20 A LEU 35 -55.06 -4.30 20 A VAL 39 -140.39 -56.92 20 A ASP 40 -69.88 11.19 20 A LEU 50 -74.42 -152.48 20 A ALA 52 -101.39 44.19 20 A MET 58 -175.00 38.93 20 A MET 74 -81.65 -73.14 20 A SER 75 -160.20 33.87 20 A ALA 77 -150.97 -92.71 21 A ASP 2 -139.69 -137.44 21 A ALA 3 -147.94 -49.45 21 A CYS 11 -76.20 42.84 21 A ALA 20 59.68 19.66 21 A HIS 26 -146.96 -45.59 21 A VAL 39 -139.61 -57.53 21 A LEU 50 -68.90 -170.48 21 A THR 60 -69.75 -82.22 21 A THR 63 -97.66 -83.49 21 A ASP 64 -156.08 -53.75 21 A MET 74 -90.09 -72.72 21 A SER 75 -158.49 37.73 21 A ALA 77 -159.72 -78.35 22 A ASP -2 -163.51 41.97 22 A ALA 10 -107.23 -63.84 22 A CYS 11 -76.40 35.60 22 A ALA 20 59.63 16.17 22 A VAL 39 -153.83 -61.58 22 A ASP 40 -72.60 24.52 22 A LEU 50 -75.71 -154.79 22 A MET 58 83.02 -41.02 22 A THR 60 -125.17 -73.59 22 A ASP 64 -39.59 -38.41 22 A MET 74 -87.59 -78.05 22 A SER 75 -153.37 37.61 22 A LYS 76 32.78 66.14 22 A ALA 77 -160.09 -53.86 23 A ASP -2 -163.34 55.68 23 A ALA 10 -102.40 -68.23 23 A CYS 11 -77.82 41.12 23 A ALA 20 -82.05 31.22 23 A SER 25 -17.33 -74.04 23 A PRO 33 -69.70 9.75 23 A LEU 35 -63.43 9.01 23 A VAL 39 -132.75 -63.15 23 A ASP 40 -65.66 10.15 23 A LEU 50 -57.44 172.38 23 A THR 60 -81.54 -75.03 23 A SER 75 -141.66 -87.40 23 A LYS 76 174.34 49.27 23 A ALA 77 -168.40 -83.97 24 A ASP -2 -163.12 85.38 24 A CYS 11 -76.01 42.05 24 A ALA 20 -82.91 33.72 24 A PRO 33 -69.65 22.13 24 A LEU 35 -54.81 -5.45 24 A ASP 40 73.45 -42.15 24 A MET 58 91.55 -27.13 24 A THR 63 -100.54 -91.09 24 A ASP 64 -152.45 -50.03 24 A MET 74 -69.19 -74.05 24 A SER 75 -161.00 37.76 24 A ALA 77 -158.86 -87.40 25 A ASP -2 -164.47 105.11 25 A CYS 11 -75.51 40.32 25 A HIS 26 -146.72 -39.71 25 A PRO 33 -69.35 14.97 25 A VAL 39 -136.29 -58.84 25 A ASP 40 -64.67 11.08 25 A MET 58 80.25 55.15 25 A THR 60 -118.02 -89.28 25 A GLU 65 -28.58 -62.04 25 A MET 74 -75.32 -70.70 25 A SER 75 -161.71 32.59 25 A LYS 76 39.42 55.36 25 A ALA 77 -140.08 -61.85 26 A ASP -2 -160.85 44.60 26 A CYS 11 -75.15 43.24 26 A ALA 20 -82.47 30.74 26 A LEU 35 -65.72 16.76 26 A ASP 40 70.79 -45.04 26 A LEU 50 -71.91 -163.68 26 A THR 60 11.55 -96.42 26 A ASP 64 -39.27 -37.11 26 A SER 75 -164.28 -78.18 26 A LYS 76 163.09 45.03 26 A ALA 77 -152.45 -81.05 27 A ALA 10 -103.26 -68.35 27 A CYS 11 -76.65 41.99 27 A ALA 20 -83.05 32.83 27 A SER 25 -37.13 -35.84 27 A LEU 35 -65.89 22.10 27 A VAL 39 62.03 165.36 27 A ASP 40 77.41 -50.96 27 A MET 58 70.19 44.42 27 A THR 60 -112.16 -91.97 27 A SER 75 -162.59 -71.48 27 A LYS 76 160.43 50.11 27 A ALA 77 -160.10 -80.95 28 A ASP 2 -134.81 -129.49 28 A ALA 3 -149.70 -52.20 28 A CYS 11 -76.28 43.83 28 A ALA 20 57.53 19.84 28 A VAL 39 -151.40 -56.42 28 A ASP 40 -58.07 1.78 28 A THR 60 65.00 -127.97 28 A CYS 62 -60.90 96.34 28 A ASP 64 -38.83 -38.50 28 A MET 74 -68.64 -70.37 28 A SER 75 -162.45 31.56 28 A LYS 76 35.58 51.10 28 A ALA 77 -132.17 -49.82 29 A ASP -2 -161.06 119.95 29 A CYS 11 -74.46 39.74 29 A SER 25 -35.63 -37.79 29 A ASP 40 73.80 -43.55 29 A LEU 50 -125.43 -157.54 29 A ALA 52 56.29 18.86 29 A GLU 65 -28.35 -60.85 29 A MET 74 -86.43 -72.48 29 A SER 75 -158.34 34.16 29 A ALA 77 -158.94 -81.73 30 A ALA 10 -107.99 -72.30 30 A CYS 11 -75.74 37.30 30 A CYS 14 -101.09 -63.53 30 A HIS 26 -141.05 51.48 30 A LEU 35 -57.00 0.16 30 A LYS 37 -106.16 -63.45 30 A ASP 40 -64.49 10.42 30 A LEU 50 -69.28 -157.33 30 A MET 58 -171.84 -39.05 30 A THR 60 72.76 -62.40 30 A MET 74 -76.61 -78.97 30 A SER 75 -151.62 37.06 30 A LYS 76 39.74 58.02 30 A ALA 77 -155.02 -75.82 Family of 30 conformers of a mono-heme ferrocytochrome c from Shewanella putrefaciens solved by NMR 1 N N 2 N N A ASP 2 A ASP 5 HELX_P A ALA 10 A ALA 13 1 1 9 A VAL 39 A VAL 42 HELX_P A GLY 49 A GLY 52 1 2 11 A THR 63 A THR 66 HELX_P A SER 75 A SER 78 1 3 13 disulf 2.097 A CYS 59 A SG CYS 62 1_555 A CYS 62 A SG CYS 65 1_555 covale 1.811 none A CYS 11 A SG CYS 14 1_555 A HEC 90 B CAB HEC 1_555 covale 1.830 none A CYS 14 A SG CYS 17 1_555 A HEC 90 B CAC HEC 1_555 metalc 1.973 A HIS 15 A NE2 HIS 18 1_555 A HEC 90 B FE HEC 1_555 metalc 2.363 A MET 53 A SD MET 56 1_555 A HEC 90 B FE HEC 1_555 OXYGEN STORAGE/TRANSPORT haem protein, ferrocytochrome, electron transport, gram negative, bacteria, ScyA Shewanella Putrefaciens, mono haem, all-alpha, OXYGEN STORAGE-TRANSPORT COMPLEX O52685_SHEPU UNP 1 22 O52685 QDAEAIYNKACTVCHSMGVAGAPKSHNTADWEPRLAKGVDNLVKSVKTGLNAMPPGGMCTDCTDEDYKAAIEFMSKAK 22 99 1KX7 1 78 O52685 A 1 4 81 1 cloning artifact ALA -3 1KX7 A O52685 UNP 1 1 cloning artifact ASP -2 1KX7 A O52685 UNP 2 1 cloning artifact LEU -1 1KX7 A O52685 UNP 3 BINDING SITE FOR RESIDUE HEC A 90 A HEC 90 Software 16 A ALA 10 A ALA 13 16 1_555 A CYS 11 A CYS 14 16 1_555 A CYS 14 A CYS 17 16 1_555 A HIS 15 A HIS 18 16 1_555 A ALA 20 A ALA 23 16 1_555 A ALA 22 A ALA 25 16 1_555 A PRO 23 A PRO 26 16 1_555 A ARG 34 A ARG 37 16 1_555 A LEU 42 A LEU 45 16 1_555 A VAL 46 A VAL 49 16 1_555 A LEU 50 A LEU 53 16 1_555 A ALA 52 A ALA 55 16 1_555 A MET 53 A MET 56 16 1_555 A GLY 57 A GLY 60 16 1_555 A ILE 71 A ILE 74 16 1_555 A LYS 78 A LYS 81 16 1_555