1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Brennan, L. Turner, D.L. Fareleira, P. Santos, H. 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 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 C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking UK J.Mol.Biol. JMOBAK 0070 0022-2836 308 353 10.1006/JMBI.2001.4600 11327772 Solution Structure of Methylophilus Methylotrophus Cytochrome C": Insights Into the Structural Basis of Haem-Ligand Detachment 2001 IX Eur.J.Biochem. EJBCAI 0262 0014-2956 215 817 10.1111/J.1432-1033.1993.TB18097.X 8394812 Characterization of the Haem Environment in Methylophilus Methylotrophus Ferricytochrome C'' by 1H-NMR 1993 IX Eur.J.Biochem. EJBCAI 0262 0014-2956 208 427 10.1111/J.1432-1033.1992.TB17204.X 1325909 Involvement of a Labile Axial Histidine in Coupling Electron and Proton Transfer in Methylophilus Methylotrophus Cytochrome C'' 1992 NE Biochim.Biophys.Acta BBACAQ 0113 0006-3002 954 277 Characterization and NMR Studies of a Novel Cytochrome C Isolated from Methylophilus Methylotrophus which Shows a Redox-Linked Change Os Spin-State 1988 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 C-TYPE CYTOCHROME, FULLY OXIDISED FORM 13699.490 CYTOCHROME C'' 1 nat polymer 618.503 HEME C 1 syn non-polymer no no DVTNAEKLVYKYTNIAHSANPMYEAPSITDGKIFFNRKFKTPSGKEAACASCHTNNPANVGKNIVTGKEIPPLAPRVNTK RFTDIDKVEDEFTKHCNDILGADCSPSEKANFIAYLLTETKPTK DVTNAEKLVYKYTNIAHSANPMYEAPSITDGKIFFNRKFKTPSGKEAACASCHTNNPANVGKNIVTGKEIPPLAPRVNTK RFTDIDKVEDEFTKHCNDILGADCSPSEKANFIAYLLTETKPTK 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 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 BACTERIUM W3A1 sample 17 METHYLOPHILUS METHYLOTROPHUS pdbx_database_status struct_conn repository Initial release Version format compliance Version format compliance Derived calculations Other 1 0 2001-09-20 1 1 2011-05-08 1 2 2011-07-13 1 3 2020-01-15 _pdbx_database_status.status_code_cs _pdbx_database_status.status_code_mr _struct_conn.pdbx_leaving_atom_flag PDBE Y PDBE 2000-09-20 REL REL REL HEC HEME C LEAST RESTRAINT VIOLATION 400 20 2D-1H-NOESY 2D-1H-TOCSY 2D-1H-COSY 3D(15N 1H)-TOCSY-HSQC 3D(15N 1H)-NOESY-HSQC 5.6 pH 298 K DIPOLAR SHIFTS WERE USED AS RESTRAINTS IN AN EXTENDED VERSION OF DYANA CALLED PARADYANA. D.L.TURNER,L,BRENNAN,S.G.CHAMBERLIN, R.O.LOURO,A.V.XAVIER (1998)DETERMINATION OF SOLUTION STRUCTURES OF PARAMAGNETIC PROTEINS BY NMR.EUR.BIOPHYS.J.27,367-375. TORSION ANGLE DYNAMICS WITH SIMULATED ANNEALING 1 10 MM PHOSPATE BUFFER D.L.TURNER,L.BRENNAN,S.G.CHAMBERLIN, R.O.LOURO, A.V.XAVIER refinement PARADYANA structure solution PARADYANA 750 Varian UNITYPLUS HEC 125 2 HEC HEC 125 A ASP 1 n 1 ASP 1 A VAL 2 n 2 VAL 2 A THR 3 n 3 THR 3 A ASN 4 n 4 ASN 4 A ALA 5 n 5 ALA 5 A GLU 6 n 6 GLU 6 A LYS 7 n 7 LYS 7 A LEU 8 n 8 LEU 8 A VAL 9 n 9 VAL 9 A TYR 10 n 10 TYR 10 A LYS 11 n 11 LYS 11 A TYR 12 n 12 TYR 12 A THR 13 n 13 THR 13 A ASN 14 n 14 ASN 14 A ILE 15 n 15 ILE 15 A ALA 16 n 16 ALA 16 A HIS 17 n 17 HIS 17 A SER 18 n 18 SER 18 A ALA 19 n 19 ALA 19 A ASN 20 n 20 ASN 20 A PRO 21 n 21 PRO 21 A MET 22 n 22 MET 22 A TYR 23 n 23 TYR 23 A GLU 24 n 24 GLU 24 A ALA 25 n 25 ALA 25 A PRO 26 n 26 PRO 26 A SER 27 n 27 SER 27 A ILE 28 n 28 ILE 28 A THR 29 n 29 THR 29 A ASP 30 n 30 ASP 30 A GLY 31 n 31 GLY 31 A LYS 32 n 32 LYS 32 A ILE 33 n 33 ILE 33 A PHE 34 n 34 PHE 34 A PHE 35 n 35 PHE 35 A ASN 36 n 36 ASN 36 A ARG 37 n 37 ARG 37 A LYS 38 n 38 LYS 38 A PHE 39 n 39 PHE 39 A LYS 40 n 40 LYS 40 A THR 41 n 41 THR 41 A PRO 42 n 42 PRO 42 A SER 43 n 43 SER 43 A GLY 44 n 44 GLY 44 A LYS 45 n 45 LYS 45 A GLU 46 n 46 GLU 46 A ALA 47 n 47 ALA 47 A ALA 48 n 48 ALA 48 A CYS 49 n 49 CYS 49 A ALA 50 n 50 ALA 50 A SER 51 n 51 SER 51 A CYS 52 n 52 CYS 52 A HIS 53 n 53 HIS 53 A THR 54 n 54 THR 54 A ASN 55 n 55 ASN 55 A ASN 56 n 56 ASN 56 A PRO 57 n 57 PRO 57 A ALA 58 n 58 ALA 58 A ASN 59 n 59 ASN 59 A VAL 60 n 60 VAL 60 A GLY 61 n 61 GLY 61 A LYS 62 n 62 LYS 62 A ASN 63 n 63 ASN 63 A ILE 64 n 64 ILE 64 A VAL 65 n 65 VAL 65 A THR 66 n 66 THR 66 A GLY 67 n 67 GLY 67 A LYS 68 n 68 LYS 68 A GLU 69 n 69 GLU 69 A ILE 70 n 70 ILE 70 A PRO 71 n 71 PRO 71 A PRO 72 n 72 PRO 72 A LEU 73 n 73 LEU 73 A ALA 74 n 74 ALA 74 A PRO 75 n 75 PRO 75 A ARG 76 n 76 ARG 76 A VAL 77 n 77 VAL 77 A ASN 78 n 78 ASN 78 A THR 79 n 79 THR 79 A LYS 80 n 80 LYS 80 A ARG 81 n 81 ARG 81 A PHE 82 n 82 PHE 82 A THR 83 n 83 THR 83 A ASP 84 n 84 ASP 84 A ILE 85 n 85 ILE 85 A ASP 86 n 86 ASP 86 A LYS 87 n 87 LYS 87 A VAL 88 n 88 VAL 88 A GLU 89 n 89 GLU 89 A ASP 90 n 90 ASP 90 A GLU 91 n 91 GLU 91 A PHE 92 n 92 PHE 92 A THR 93 n 93 THR 93 A LYS 94 n 94 LYS 94 A HIS 95 n 95 HIS 95 A CYS 96 n 96 CYS 96 A ASN 97 n 97 ASN 97 A ASP 98 n 98 ASP 98 A ILE 99 n 99 ILE 99 A LEU 100 n 100 LEU 100 A GLY 101 n 101 GLY 101 A ALA 102 n 102 ALA 102 A ASP 103 n 103 ASP 103 A CYS 104 n 104 CYS 104 A SER 105 n 105 SER 105 A PRO 106 n 106 PRO 106 A SER 107 n 107 SER 107 A GLU 108 n 108 GLU 108 A LYS 109 n 109 LYS 109 A ALA 110 n 110 ALA 110 A ASN 111 n 111 ASN 111 A PHE 112 n 112 PHE 112 A ILE 113 n 113 ILE 113 A ALA 114 n 114 ALA 114 A TYR 115 n 115 TYR 115 A LEU 116 n 116 LEU 116 A LEU 117 n 117 LEU 117 A THR 118 n 118 THR 118 A GLU 119 n 119 GLU 119 A THR 120 n 120 THR 120 A LYS 121 n 121 LYS 121 A PRO 122 n 122 PRO 122 A THR 123 n 123 THR 123 A LYS 124 n 124 LYS 124 A author_defined_assembly 1 monomeric A HIS 53 A NE2 HIS 53 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B NA HEC 1_555 91.6 A HIS 53 A NE2 HIS 53 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B NB HEC 1_555 90.3 A HEC 125 B NA HEC 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B NB HEC 1_555 90.1 A HIS 53 A NE2 HIS 53 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B NC HEC 1_555 91.0 A HEC 125 B NA HEC 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B NC HEC 1_555 177.4 A HEC 125 B NB HEC 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B NC HEC 1_555 90.5 A HIS 53 A NE2 HIS 53 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B ND HEC 1_555 87.1 A HEC 125 B NA HEC 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B ND HEC 1_555 89.5 A HEC 125 B NB HEC 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B ND HEC 1_555 177.4 A HEC 125 B NC HEC 1_555 A HEC 125 B FE HEC 1_555 A HEC 125 B ND HEC 1_555 90.0 A HIS 53 A NE2 HIS 53 1_555 A HEC 125 B FE HEC 1_555 A HIS 95 A NE2 HIS 95 1_555 178.8 A HEC 125 B NA HEC 1_555 A HEC 125 B FE HEC 1_555 A HIS 95 A NE2 HIS 95 1_555 88.4 A HEC 125 B NB HEC 1_555 A HEC 125 B FE HEC 1_555 A HIS 95 A NE2 HIS 95 1_555 90.9 A HEC 125 B NC HEC 1_555 A HEC 125 B FE HEC 1_555 A HIS 95 A NE2 HIS 95 1_555 89.0 A HEC 125 B ND HEC 1_555 A HEC 125 B FE HEC 1_555 A HIS 95 A NE2 HIS 95 1_555 91.7 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 O PHE 39 A O PHE 39 A N ALA 47 A N ALA 47 1 A A O H ALA ASN 16 20 1.51 1 A A O H VAL GLU 2 6 1.52 2 A A O H ALA ASN 16 20 1.52 3 A A O H ILE ASN 33 36 1.59 4 A A O H ALA ASN 16 20 1.51 4 A A O H VAL GLU 2 6 1.55 6 A A O H ALA ARG 74 76 1.60 7 A A O H HIS ASP 95 98 1.57 8 A A O HG1 SER THR 27 29 1.54 8 A A HG1 OD1 THR ASP 93 103 1.60 9 A A O H ALA ASN 16 20 1.51 9 A A O H HIS ASP 95 98 1.56 9 A A H O THR LYS 41 45 1.57 9 A A O H VAL GLU 2 6 1.58 9 A A O HD21 LYS ASN 32 36 1.58 10 A A O H ALA ARG 74 76 1.58 10 A A O H HIS ASP 95 98 1.58 10 A A H O THR LYS 41 45 1.59 11 A A HG1 OD1 THR ASP 93 103 1.50 11 A A O H LYS GLU 87 91 1.60 12 A A OD1 H ASN LYS 78 80 1.60 12 A A O H HIS ASP 95 98 1.60 13 A A O H VAL GLU 2 6 1.50 13 A A O HG1 SER THR 27 29 1.53 13 A A H O THR LYS 41 45 1.58 14 A A H O THR LYS 41 45 1.56 14 A A O H CYS LYS 52 62 1.60 14 A A O H HIS ASP 95 98 1.60 15 A A O H VAL GLU 2 6 1.49 16 A A O H VAL GLU 2 6 1.48 16 A A O H PHE ALA 39 47 1.51 16 A A O H GLU HIS 91 95 1.60 17 A A O H VAL GLU 2 6 1.52 17 A A O H HIS ASP 95 98 1.58 18 A A O H TYR GLU 115 119 1.57 18 A A O H VAL GLU 2 6 1.58 18 A A HG1 OD1 THR ASP 93 103 1.59 18 A A O H ILE ASN 33 36 1.60 19 A A O H ILE ASN 33 36 1.57 19 A A O H HIS ASP 95 98 1.58 1 A VAL 2 87.08 -41.47 1 A LYS 11 -96.28 -71.76 1 A LYS 32 -141.21 -66.55 1 A ASN 36 -140.21 22.62 1 A LYS 38 -56.42 96.24 1 A LYS 45 172.49 124.79 1 A THR 54 50.27 172.02 1 A LYS 68 -81.97 -94.44 1 A GLU 69 -177.99 123.13 1 A PRO 71 -48.94 167.83 1 A PRO 72 -37.76 131.46 1 A ALA 74 -37.89 98.42 1 A LYS 80 -107.82 43.72 1 A PHE 82 36.44 64.76 1 A THR 83 -101.51 -64.26 1 A ASP 90 178.39 -50.35 1 A ILE 99 -121.71 -51.63 1 A THR 118 -127.49 -67.61 2 A VAL 2 -145.91 49.10 2 A LYS 11 -100.20 -72.79 2 A ILE 28 -92.60 38.16 2 A THR 29 -148.47 34.68 2 A ASP 30 -137.23 -49.94 2 A LYS 32 -51.98 -72.16 2 A LYS 38 -51.66 94.27 2 A LYS 45 178.68 112.34 2 A THR 54 50.26 170.61 2 A LYS 68 -79.08 -94.54 2 A GLU 69 -179.47 123.94 2 A PRO 71 -49.00 167.08 2 A PRO 72 -37.18 132.05 2 A ALA 74 -39.28 113.41 2 A PHE 82 36.60 62.78 2 A ASP 84 -174.86 79.70 2 A ASP 90 176.69 -66.94 2 A LEU 117 -91.98 33.32 2 A THR 118 -141.62 -68.02 3 A VAL 2 87.35 -21.65 3 A LYS 11 -97.90 -72.72 3 A PRO 26 -75.25 -167.45 3 A THR 29 -162.21 35.82 3 A ASP 30 -143.99 -49.46 3 A LYS 32 -46.44 -74.02 3 A ASN 36 -140.99 28.37 3 A LYS 38 -44.50 95.69 3 A LYS 45 -175.22 123.13 3 A THR 54 50.25 170.39 3 A LYS 62 176.10 131.75 3 A ALA 74 -37.73 97.80 3 A LYS 80 -104.93 43.82 3 A PHE 82 39.09 64.90 3 A THR 83 -102.34 -61.39 3 A VAL 88 -39.93 -30.19 3 A ASP 90 167.08 -46.32 3 A ILE 99 -120.82 -50.60 3 A THR 118 -99.96 -67.54 3 A LYS 121 -176.87 145.70 4 A VAL 2 87.17 -41.53 4 A LYS 11 -102.73 -72.34 4 A THR 29 -160.78 36.82 4 A ASP 30 -142.39 -46.14 4 A ASN 36 -140.42 24.24 4 A LYS 38 -52.20 95.64 4 A SER 43 -99.52 32.53 4 A LYS 45 -176.43 135.73 4 A THR 54 49.55 171.40 4 A LYS 68 -77.83 -92.72 4 A GLU 69 176.35 120.62 4 A PRO 72 -36.89 131.85 4 A ALA 74 -39.99 99.63 4 A ARG 81 -143.56 -90.98 4 A PHE 82 -80.46 48.54 4 A ASP 86 -92.02 -76.89 4 A ASP 90 -174.96 -71.47 4 A THR 118 -97.34 -68.82 4 A THR 120 -99.53 43.76 4 A LYS 121 -176.37 149.94 5 A VAL 2 86.95 -38.86 5 A ASN 4 -106.01 -67.09 5 A LYS 11 -101.40 -72.96 5 A PRO 21 -77.20 48.55 5 A MET 22 -151.54 39.08 5 A PRO 26 -68.69 -172.97 5 A SER 27 -148.14 21.57 5 A THR 29 -127.94 -62.87 5 A LYS 32 -161.67 -62.02 5 A ASN 36 -142.21 27.89 5 A LYS 38 -45.41 94.64 5 A LYS 45 -174.88 129.46 5 A THR 54 50.07 170.86 5 A LYS 68 -83.63 -95.80 5 A GLU 69 -179.21 122.88 5 A PRO 71 -49.62 165.13 5 A ALA 74 -37.10 96.51 5 A PRO 75 -67.01 54.13 5 A ARG 76 -166.05 -53.27 5 A ASP 84 177.36 66.72 5 A VAL 88 173.82 -34.86 5 A LYS 109 -92.63 -64.48 5 A LYS 121 -166.56 113.34 5 A PRO 122 -47.10 174.50 6 A VAL 2 -90.84 42.77 6 A ASN 4 -105.02 -63.61 6 A LYS 11 -100.87 -72.04 6 A MET 22 -151.28 40.77 6 A THR 29 -149.76 36.55 6 A ASP 30 -145.62 -44.91 6 A ASN 36 -140.10 23.48 6 A LYS 38 -51.61 95.60 6 A LYS 45 176.31 95.70 6 A THR 54 50.72 170.83 6 A LYS 68 -84.26 -95.32 6 A GLU 69 -178.71 122.67 6 A PRO 71 -48.86 164.80 6 A ALA 74 -37.17 97.40 6 A PRO 75 -66.38 55.01 6 A ARG 76 -169.72 -51.25 6 A LYS 80 -93.03 46.37 6 A THR 83 -117.80 58.40 6 A ASP 84 176.20 65.17 6 A VAL 88 175.85 -35.08 6 A ALA 114 -60.26 -70.11 7 A LYS 11 -95.33 -73.81 7 A PRO 21 -78.78 42.92 7 A MET 22 -145.45 34.33 7 A PRO 26 -74.80 -169.16 7 A SER 27 -152.98 22.65 7 A LYS 32 -141.77 -66.72 7 A ASN 36 -140.21 23.23 7 A LYS 38 -57.64 93.51 7 A LYS 45 178.44 105.01 7 A THR 54 50.36 171.41 7 A LYS 68 -81.98 -95.78 7 A GLU 69 -178.85 123.92 7 A PRO 71 -49.83 167.38 7 A PRO 72 -37.58 135.31 7 A ALA 74 -36.80 98.50 7 A ARG 81 -147.01 43.06 7 A PHE 82 162.05 39.70 7 A ASP 84 177.45 71.09 7 A VAL 88 178.65 -36.01 7 A ALA 114 -65.47 -74.26 7 A LEU 117 -91.78 33.59 7 A THR 118 -136.62 -67.70 7 A LYS 121 -171.21 131.52 7 A PRO 122 -44.98 170.23 8 A LYS 11 -97.13 -73.67 8 A PRO 21 -78.87 38.81 8 A MET 22 -141.26 34.22 8 A PRO 26 -51.33 176.14 8 A SER 27 -142.10 20.58 8 A THR 29 -127.51 -70.39 8 A ASP 30 -39.90 -33.29 8 A LYS 32 -157.69 -63.57 8 A ASN 36 -145.86 26.73 8 A LYS 38 -49.31 94.71 8 A LYS 45 172.41 146.19 8 A THR 54 49.75 172.04 8 A LYS 68 -81.65 -93.99 8 A GLU 69 -178.51 122.46 8 A ALA 74 -39.12 99.60 8 A LYS 80 -106.09 40.52 8 A PHE 82 37.88 53.77 8 A THR 83 -100.89 -60.89 8 A VAL 88 175.68 -34.97 8 A LYS 109 -91.97 -64.19 8 A THR 120 -149.93 35.40 8 A THR 123 -153.26 44.95 9 A VAL 2 87.04 -39.82 9 A LYS 11 -101.28 -73.23 9 A THR 29 -162.56 37.44 9 A ASP 30 -143.26 -49.27 9 A LYS 32 -47.39 -72.04 9 A ASN 36 -140.28 23.04 9 A LYS 38 -58.04 87.08 9 A LYS 45 -176.60 134.81 9 A THR 54 51.02 170.17 9 A LYS 68 -82.28 -94.87 9 A GLU 69 -179.07 124.02 9 A ALA 74 -36.91 98.59 9 A PRO 75 -66.48 55.70 9 A ARG 76 -170.14 -52.56 9 A ASP 84 -174.99 67.07 9 A VAL 88 174.17 -34.63 9 A THR 118 -140.74 -68.39 9 A THR 123 -109.52 -60.86 10 A VAL 2 86.41 -42.69 10 A LYS 11 -98.40 -73.33 10 A PRO 21 -82.98 43.79 10 A MET 22 -144.35 34.53 10 A SER 27 -146.60 18.51 10 A LYS 32 -134.65 -65.58 10 A ASN 36 -142.35 25.28 10 A LYS 38 -47.82 94.94 10 A LYS 45 -176.19 135.78 10 A THR 54 50.71 170.57 10 A LYS 68 -79.13 -94.28 10 A GLU 69 -179.59 124.07 10 A PRO 71 -47.40 166.16 10 A PRO 72 -37.51 135.40 10 A ALA 74 -38.45 98.85 10 A PRO 75 -65.78 55.01 10 A ARG 76 -166.25 -52.58 10 A THR 83 -103.76 -61.53 10 A VAL 88 175.92 -33.53 10 A LYS 109 -82.87 -71.04 10 A ALA 114 -71.69 -70.06 10 A LEU 117 -91.49 30.55 10 A THR 120 -104.61 48.96 11 A LYS 11 -103.12 -72.07 11 A PRO 21 -78.61 42.92 11 A MET 22 -146.69 34.15 11 A THR 29 -162.29 38.72 11 A ASP 30 -148.22 -45.60 11 A PHE 35 -145.25 -41.67 11 A LYS 38 -48.37 101.73 11 A LYS 45 -171.83 138.90 11 A THR 54 50.81 171.27 11 A LYS 68 -77.72 -94.17 11 A GLU 69 179.25 120.57 11 A ALA 74 -36.58 96.83 11 A PRO 75 -68.05 54.89 11 A ARG 76 -171.29 -50.35 11 A TYR 115 -39.90 -39.48 11 A THR 120 -141.74 48.02 12 A THR 3 -93.75 -72.34 12 A LYS 11 -99.58 -74.75 12 A PRO 21 -82.86 35.65 12 A MET 22 -143.24 36.99 12 A PRO 26 -59.65 -161.76 12 A THR 29 -154.86 35.51 12 A ASP 30 -154.83 -44.02 12 A ASN 36 -142.52 27.43 12 A LYS 38 -43.61 95.75 12 A LYS 45 178.72 124.59 12 A THR 54 49.77 173.81 12 A LYS 62 -170.24 122.23 12 A LYS 68 -103.65 -166.35 12 A PRO 71 -46.65 163.77 12 A ALA 74 -39.61 100.30 12 A LYS 80 -88.28 43.19 12 A PHE 82 36.05 66.07 12 A THR 83 -96.46 -60.40 12 A VAL 88 174.54 -34.84 12 A ALA 102 -161.20 -169.98 12 A THR 120 -107.80 54.26 12 A LYS 121 -176.37 145.54 13 A LYS 11 -119.83 -74.05 13 A PRO 21 -83.18 31.82 13 A ILE 28 35.26 36.28 13 A THR 29 -126.64 -59.06 13 A LYS 32 -179.21 -47.35 13 A ASN 36 -145.90 26.92 13 A LYS 38 -46.68 93.75 13 A LYS 45 -175.03 135.23 13 A THR 54 50.63 169.73 13 A LYS 68 -80.27 -94.68 13 A GLU 69 -179.39 123.25 13 A PRO 71 -49.42 167.56 13 A PRO 72 -37.40 132.32 13 A ALA 74 -38.56 108.53 13 A PRO 75 -79.25 41.88 13 A ARG 76 -148.61 -56.44 13 A THR 83 -91.65 53.42 13 A ASP 84 177.93 90.74 13 A ILE 85 -89.45 40.06 13 A ASP 90 175.49 -48.76 13 A LYS 109 -92.08 -65.77 13 A ALA 114 -63.90 -70.69 13 A LEU 117 -92.16 30.29 13 A THR 118 -123.51 -63.49 13 A THR 120 -114.53 54.25 13 A LYS 121 -175.78 137.71 14 A VAL 2 87.05 -41.91 14 A LYS 11 -95.83 -72.01 14 A PRO 21 -85.12 46.02 14 A MET 22 -145.41 37.86 14 A THR 29 -139.29 -45.23 14 A LYS 32 -165.23 -61.62 14 A ASN 36 -142.36 25.59 14 A LYS 38 -49.72 92.90 14 A LYS 45 -176.88 140.69 14 A THR 54 49.28 171.54 14 A LYS 68 -79.92 -95.13 14 A GLU 69 -178.38 122.19 14 A PRO 72 -38.50 130.65 14 A ALA 74 -36.93 97.07 14 A ARG 81 -125.30 -92.10 14 A PHE 82 -66.64 68.06 14 A ASP 84 -175.57 63.41 14 A VAL 88 174.16 -34.23 14 A THR 118 -105.36 -71.94 14 A LYS 121 -175.51 149.50 15 A LYS 11 -110.64 -72.36 15 A PRO 21 -80.13 41.05 15 A MET 22 -142.30 35.88 15 A SER 27 -155.99 24.47 15 A THR 29 -131.29 -52.01 15 A LYS 32 -154.18 -63.57 15 A ASN 36 -143.57 26.84 15 A LYS 38 -47.32 94.27 15 A LYS 45 -170.58 136.37 15 A THR 54 50.65 168.81 15 A LYS 68 -78.14 -92.94 15 A GLU 69 -179.01 119.68 15 A ALA 74 -30.48 108.39 15 A PRO 75 -79.32 44.25 15 A ARG 76 -157.19 -54.41 15 A VAL 88 -140.77 -39.49 15 A LYS 121 -173.98 149.97 15 A THR 123 -99.28 -60.24 16 A VAL 2 86.73 -41.21 16 A LYS 11 -97.73 -72.05 16 A SER 27 -145.09 18.46 16 A ILE 28 40.21 29.91 16 A LYS 32 -134.51 -65.98 16 A PRO 42 -80.54 45.47 16 A SER 43 179.69 57.35 16 A LYS 45 175.72 172.70 16 A GLU 46 -28.14 136.78 16 A ALA 48 -171.87 148.64 16 A THR 54 50.06 172.19 16 A LYS 68 -83.70 -95.34 16 A GLU 69 -178.62 122.86 16 A PRO 71 -49.84 165.76 16 A ALA 74 -37.98 98.28 16 A PHE 82 37.92 68.54 16 A THR 83 -108.32 -68.44 16 A ASP 86 -50.56 -70.95 16 A ASP 90 -174.46 -68.09 16 A ILE 99 -131.76 -44.95 16 A CYS 104 -43.41 164.91 16 A ALA 114 -60.13 -73.64 16 A TYR 115 -39.55 -29.02 16 A PRO 122 -47.49 175.02 17 A LYS 11 -102.14 -73.40 17 A PRO 21 -84.87 40.82 17 A MET 22 -141.39 32.56 17 A SER 27 -149.48 20.35 17 A THR 29 -151.94 35.82 17 A ASP 30 -142.24 -47.12 17 A PHE 35 -146.46 -40.66 17 A ARG 37 -68.15 96.48 17 A LYS 38 -55.41 100.55 17 A LYS 45 -179.84 88.76 17 A GLU 46 -45.67 153.51 17 A ALA 47 -160.93 -169.26 17 A THR 54 49.39 172.38 17 A LYS 68 -81.35 -95.12 17 A GLU 69 -179.95 123.51 17 A PRO 71 -45.73 164.82 17 A PRO 72 -34.20 134.41 17 A ALA 74 -35.88 115.67 17 A PRO 75 -80.32 45.26 17 A ARG 76 -154.37 -57.16 17 A LYS 80 -105.48 43.80 17 A PHE 82 39.08 57.81 17 A ASP 84 177.31 66.83 17 A VAL 88 -150.76 -49.85 17 A ASP 90 170.22 -45.93 17 A THR 118 -129.14 -76.89 17 A THR 123 -107.77 -63.14 18 A LYS 11 -104.71 -75.79 18 A PRO 21 -77.89 41.88 18 A MET 22 -144.49 33.02 18 A THR 29 -140.46 -53.51 18 A LYS 32 -156.01 -64.64 18 A ASN 36 -143.81 27.57 18 A LYS 38 -49.49 94.07 18 A LYS 45 179.53 82.22 18 A GLU 46 -41.68 153.36 18 A THR 54 50.20 172.29 18 A LYS 62 -176.72 132.53 18 A ALA 74 -36.50 114.58 18 A PRO 75 -79.48 47.76 18 A ARG 76 -159.73 -58.35 18 A VAL 88 -39.88 -30.01 18 A ALA 114 -57.93 -76.95 18 A THR 120 -147.63 49.49 18 A LYS 121 -176.01 132.39 18 A PRO 122 -44.87 168.45 19 A VAL 2 -162.06 -66.20 19 A LYS 11 -105.46 -74.45 19 A PRO 21 -81.64 40.56 19 A MET 22 -145.28 37.57 19 A ILE 28 37.43 45.17 19 A THR 29 -162.11 33.52 19 A ASP 30 -133.30 -46.75 19 A ASN 36 -142.21 25.59 19 A LYS 38 -49.66 94.96 19 A LYS 45 170.95 111.39 19 A THR 54 49.98 174.06 19 A LYS 62 -175.54 118.79 19 A LYS 68 -98.28 -159.95 19 A PRO 71 -47.63 166.08 19 A PRO 72 -38.86 131.70 19 A ALA 74 -39.52 99.81 19 A ARG 81 -136.69 -94.24 19 A PHE 82 -67.30 67.47 19 A THR 83 -98.15 -60.00 19 A ILE 85 -102.34 58.13 19 A ASP 86 -150.18 -50.96 19 A ALA 102 -162.38 -168.50 19 A LYS 109 -96.50 -66.81 19 A THR 118 -123.22 -80.09 19 A THR 120 -98.13 58.68 19 A THR 123 -155.38 56.14 20 A LYS 11 -94.61 -73.71 20 A SER 27 -143.50 16.82 20 A THR 29 -163.08 38.09 20 A ASP 30 -144.61 -47.22 20 A LYS 32 -45.04 -73.10 20 A ASN 36 -143.00 23.42 20 A LYS 38 -63.83 96.70 20 A LYS 45 171.43 108.15 20 A THR 54 50.18 172.17 20 A GLU 69 -28.87 100.92 20 A PRO 72 -32.75 137.75 20 A ALA 74 -34.66 96.90 20 A PRO 75 -67.22 53.40 20 A ARG 76 -168.70 -51.54 20 A LYS 80 -97.72 45.50 20 A PHE 82 39.62 67.84 20 A ILE 99 -122.57 -51.42 20 A LYS 109 -90.66 -65.38 20 A THR 123 -155.09 56.50 CYTOCHROME C'' Solution Structure of Methylophilus methylotrophus Cytochrome c''. Insights into the Structural Basis of Haem-Ligand Detachment 1 N N 2 N N A VAL 2 A VAL 2 HELX_P A ASN 20 A ASN 20 1 1 19 A LYS 32 A LYS 32 HELX_P A ASN 36 A ASN 36 5 2 5 A LYS 87 A LYS 87 HELX_P A LEU 100 A LEU 100 1 3 14 A SER 105 A SER 105 HELX_P A LEU 117 A LEU 117 1 4 13 disulf 1.991 A CYS 96 A SG CYS 96 1_555 A CYS 104 A SG CYS 104 1_555 covale 1.883 none A CYS 49 A SG CYS 49 1_555 A HEC 125 B CAB HEC 1_555 covale 1.810 none A CYS 52 A SG CYS 52 1_555 A HEC 125 B CAC HEC 1_555 metalc 1.937 A HIS 53 A NE2 HIS 53 1_555 A HEC 125 B FE HEC 1_555 metalc 1.945 A HIS 95 A NE2 HIS 95 1_555 A HEC 125 B FE HEC 1_555 OXIDOREDUCTASE(CYTOCHROME) OXIDOREDUCTASE(CYTOCHROME), CYTOCHROME C'', LIGAND DETACHMENT, REDOX-BOHR EFFECT, PARAMAGNETIC Q9RQB9 UNP 1 Q9RQB9 21 144 1E8E 1 124 Q9RQB9 A 1 1 124 2 anti-parallel A PHE 39 A PHE 39 A THR 41 A THR 41 A LYS 45 A LYS 45 A ALA 47 A ALA 47 BINDING SITE FOR RESIDUE HEC A 125 Software 11 A ALA 48 A ALA 48 11 1_555 A CYS 49 A CYS 49 11 1_555 A SER 51 A SER 51 11 1_555 A CYS 52 A CYS 52 11 1_555 A HIS 53 A HIS 53 11 1_555 A ASN 63 A ASN 63 11 1_555 A ILE 70 A ILE 70 11 1_555 A LEU 73 A LEU 73 11 1_555 A PHE 92 A PHE 92 11 1_555 A HIS 95 A HIS 95 11 1_555 A PHE 112 A PHE 112 11 1_555 1 P 1