1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 O'Brien, E.S. Nucci, N.V. Fuglestad, B. Tommos, C. Wand, A. 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 H2 O 18.015 WATER non-polymer 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 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 J.Biol.Chem. JBCHA3 0071 0021-9258 290 30879 30887 10.1074/jbc.M115.689406 26487716 Defining the Apoptotic Trigger: THE INTERACTION OF CYTOCHROME c AND CARDIOLIPIN. 2015 11725.598 Cytochrome c 1 man polymer 618.503 HEME C 1 syn non-polymer 18.015 water 4 nat water no no GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKM IFAGIKKKTEREDLIAYLKKATNE GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKM IFAGIKKKTEREDLIAYLKKATNE 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 domestic horse,equine sample CYCS, CYC 9796 Equus caballus 469008 Escherichia coli BL21 (DE3) pJRhrsN2 repository Initial release Database references Database references 1 0 2015-10-28 1 1 2015-12-09 1 2 2016-02-03 Entry for the same protein system encapsulated within reverse micelles incorporating pseudocontact shifts BMRB Y RCSB 2015-05-27 REL REL REL HEC HEME C HOH water 2054 441 291 280 427 72 73 structures with the lowest energy 1000 32 0 1.917 0.287 0.0302 2D 1H-15N HSQC 2D 1H-13C HSQC 3D HNCA 3D HN(CO)CA 3D HCCH-TOCSY 3D H(CCO)NH 3D C(CO)NH 3D 1H-15N NOESY 3D 1H-13C NOESY aliphatic 4D 1H-15N-13C-1H NOESY 3D HNCO 2D 1H-15N HSQC 2D 1H-13C HSQC 0.15 mM [U-100% 13C; U-100% 15N] 1.5 M 25 mM 105 mM 45 mM 8 mM 8.67 M [U-99% 2H] 0.15 mM [U-100% 15N] 1.5 M 25 mM 105 mM 45 mM 8 mM 8.67 M [U-99% 2H] 7.4 ambient 298 K simulated annealing 1 closest to the average 0.15 mM [U-100% 13C; U-100% 15N] protein, 1.5 M H2O, 25 mM sodium phosphate, 105 mM 1-decanoyl-rac-glycerol, 45 mM lauryldimethylamine-N-oxide, 8 mM hexanol, 8.67 M [U-99% 2H] pentane, Deuterated pentane Deuterated pentane 0.15 mM [U-100% 15N] protein, 1.5 M H2O, 25 mM sodium phosphate, 105 mM 1-decanoyl-rac-glycerol, 45 mM lauryldimethylamine-N-oxide, 8 mM hexanol, 8.67 M [U-99% 2H] pentane, Deuterated pentane Deuterated pentane Accelrys Software Inc. processing Felix Delaglio, Grzesiek, Vuister, Zhu, Pfeifer and Bax processing NMRPipe Goddard peak picking SPARKY Goddard data analysis SPARKY Bruker Biospin collection TOPSPIN Schwieters, Kuszewski, Tjandra and Clore structure solution X-PLOR_NIH Cornilescu, Delaglio and Bax data analysis TALOS Schwieters, Kuszewski, Tjandra and Clore refinement X-PLOR_NIH 500 Bruker Avance Bruker Avance HEC 105 2 HEC HEC 201 A HOH 200 3 HOH HOH 301 A HOH 201 3 HOH HOH 302 A HOH 202 3 HOH HOH 303 A HOH 203 3 HOH HOH 304 A GLY 1 n 1 GLY 1 A ASP 2 n 2 ASP 2 A VAL 3 n 3 VAL 3 A GLU 4 n 4 GLU 4 A LYS 5 n 5 LYS 5 A GLY 6 n 6 GLY 6 A LYS 7 n 7 LYS 7 A LYS 8 n 8 LYS 8 A ILE 9 n 9 ILE 9 A PHE 10 n 10 PHE 10 A VAL 11 n 11 VAL 11 A GLN 12 n 12 GLN 12 A LYS 13 n 13 LYS 13 A CYS 14 n 14 CYS 14 A ALA 15 n 15 ALA 15 A GLN 16 n 16 GLN 16 A CYS 17 n 17 CYS 17 A HSD 18 n 18 HIS 18 A THR 19 n 19 THR 19 A VAL 20 n 20 VAL 20 A GLU 21 n 21 GLU 21 A LYS 22 n 22 LYS 22 A GLY 23 n 23 GLY 23 A GLY 24 n 24 GLY 24 A LYS 25 n 25 LYS 25 A HIS 26 n 26 HIS 26 A LYS 27 n 27 LYS 27 A THR 28 n 28 THR 28 A GLY 29 n 29 GLY 29 A PRO 30 n 30 PRO 30 A ASN 31 n 31 ASN 31 A LEU 32 n 32 LEU 32 A HIS 33 n 33 HIS 33 A GLY 34 n 34 GLY 34 A LEU 35 n 35 LEU 35 A PHE 36 n 36 PHE 36 A GLY 37 n 37 GLY 37 A ARG 38 n 38 ARG 38 A LYS 39 n 39 LYS 39 A THR 40 n 40 THR 40 A GLY 41 n 41 GLY 41 A GLN 42 n 42 GLN 42 A ALA 43 n 43 ALA 43 A PRO 44 n 44 PRO 44 A GLY 45 n 45 GLY 45 A PHE 46 n 46 PHE 46 A THR 47 n 47 THR 47 A TYR 48 n 48 TYR 48 A THR 49 n 49 THR 49 A ASP 50 n 50 ASP 50 A ALA 51 n 51 ALA 51 A ASN 52 n 52 ASN 52 A LYS 53 n 53 LYS 53 A ASN 54 n 54 ASN 54 A LYS 55 n 55 LYS 55 A GLY 56 n 56 GLY 56 A ILE 57 n 57 ILE 57 A THR 58 n 58 THR 58 A TRP 59 n 59 TRP 59 A LYS 60 n 60 LYS 60 A GLU 61 n 61 GLU 61 A GLU 62 n 62 GLU 62 A THR 63 n 63 THR 63 A LEU 64 n 64 LEU 64 A MET 65 n 65 MET 65 A GLU 66 n 66 GLU 66 A TYR 67 n 67 TYR 67 A LEU 68 n 68 LEU 68 A GLU 69 n 69 GLU 69 A ASN 70 n 70 ASN 70 A PRO 71 n 71 PRO 71 A LYS 72 n 72 LYS 72 A LYS 73 n 73 LYS 73 A TYR 74 n 74 TYR 74 A ILE 75 n 75 ILE 75 A PRO 76 n 76 PRO 76 A GLY 77 n 77 GLY 77 A THR 78 n 78 THR 78 A LYS 79 n 79 LYS 79 A MET 80 n 80 MET 80 A ILE 81 n 81 ILE 81 A PHE 82 n 82 PHE 82 A ALA 83 n 83 ALA 83 A GLY 84 n 84 GLY 84 A ILE 85 n 85 ILE 85 A LYS 86 n 86 LYS 86 A LYS 87 n 87 LYS 87 A LYS 88 n 88 LYS 88 A THR 89 n 89 THR 89 A GLU 90 n 90 GLU 90 A ARG 91 n 91 ARG 91 A GLU 92 n 92 GLU 92 A ASP 93 n 93 ASP 93 A LEU 94 n 94 LEU 94 A ILE 95 n 95 ILE 95 A ALA 96 n 96 ALA 96 A TYR 97 n 97 TYR 97 A LEU 98 n 98 LEU 98 A LYS 99 n 99 LYS 99 A LYS 100 n 100 LYS 100 A ALA 101 n 101 ALA 101 A THR 102 n 102 THR 102 A ASN 103 n 103 ASN 103 A GLU 104 n 104 GLU 104 A author_defined_assembly 1 monomeric A HIS 18 A NE2 HIS 18 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B NA HEC 1_555 90.3 A HIS 18 A NE2 HIS 18 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B NB HEC 1_555 89.7 A HEC 201 B NA HEC 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B NB HEC 1_555 89.9 A HIS 18 A NE2 HIS 18 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B NC HEC 1_555 89.8 A HEC 201 B NA HEC 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B NC HEC 1_555 179.9 A HEC 201 B NB HEC 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B NC HEC 1_555 90.1 A HIS 18 A NE2 HIS 18 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B ND HEC 1_555 89.9 A HEC 201 B NA HEC 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B ND HEC 1_555 90.0 A HEC 201 B NB HEC 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B ND HEC 1_555 179.6 A HEC 201 B NC HEC 1_555 A HEC 201 B FE HEC 1_555 A HEC 201 B ND HEC 1_555 90.0 A HIS 18 A NE2 HIS 18 1_555 A HEC 201 B FE HEC 1_555 A MET 80 A SD MET 80 1_555 179.8 A HEC 201 B NA HEC 1_555 A HEC 201 B FE HEC 1_555 A MET 80 A SD MET 80 1_555 89.9 A HEC 201 B NB HEC 1_555 A HEC 201 B FE HEC 1_555 A MET 80 A SD MET 80 1_555 90.3 A HEC 201 B NC HEC 1_555 A HEC 201 B FE HEC 1_555 A MET 80 A SD MET 80 1_555 90.0 A HEC 201 B ND HEC 1_555 A HEC 201 B FE HEC 1_555 A MET 80 A SD MET 80 1_555 90.1 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 5 A A OG1 H1 THR HOH 19 304 1.58 10 A A O H LEU ARG 35 38 1.58 12 A A HH O1A TYR HEC 48 201 1.60 17 A A O HE2 GLU HIS 21 33 1.59 18 A A O HH21 HIS ARG 33 38 1.55 20 A A HH O1A TYR HEC 48 201 1.59 30 A A HH O1A TYR HEC 48 201 1.58 31 A A HH O1A TYR HEC 48 201 1.58 1 A LYS 13 -100.94 -67.51 1 A THR 19 -139.66 -40.10 1 A VAL 20 41.98 26.85 1 A THR 28 41.59 27.46 1 A PHE 36 -54.50 92.34 1 A ASN 70 -175.00 67.92 1 A PRO 76 -39.61 124.43 1 A MET 80 -175.84 95.82 1 A PHE 82 -132.37 -72.86 1 A ALA 83 -176.60 127.00 1 A LYS 86 -98.81 -69.91 2 A LYS 13 -101.65 -63.64 2 A THR 19 -135.06 -37.96 2 A THR 28 39.47 27.40 2 A PHE 36 -55.55 90.51 2 A ASN 70 -173.29 69.55 2 A PRO 76 -41.12 150.43 2 A MET 80 -177.85 95.63 2 A LYS 86 -104.61 -67.60 3 A ASP 2 -151.64 87.97 3 A VAL 3 -47.91 -17.28 3 A LYS 13 -101.56 -65.08 3 A THR 19 -137.96 -41.79 3 A VAL 20 42.49 27.52 3 A THR 28 48.87 26.95 3 A LEU 32 -79.24 30.61 3 A PHE 36 -54.54 92.83 3 A ASN 70 -167.28 65.91 3 A MET 80 -175.82 95.94 3 A PHE 82 -126.04 -71.99 3 A ALA 83 -175.87 109.60 3 A LYS 86 -95.35 -68.45 4 A VAL 3 -49.12 -18.63 4 A LYS 13 -101.01 -64.89 4 A THR 19 -139.91 -41.54 4 A THR 28 42.73 27.45 4 A LEU 32 -76.97 31.55 4 A PHE 36 -53.03 93.69 4 A ASN 70 -168.16 65.86 4 A MET 80 -169.26 95.75 4 A PHE 82 -147.96 -82.92 4 A LYS 86 -102.67 -63.73 5 A VAL 3 -49.62 -17.28 5 A LYS 13 -101.29 -64.19 5 A THR 19 -141.23 -37.65 5 A VAL 20 42.04 29.62 5 A LEU 32 -80.33 32.86 5 A PHE 36 -52.89 87.71 5 A THR 40 -38.94 128.77 5 A ASN 70 -172.19 69.11 5 A MET 80 -176.29 95.77 5 A PHE 82 -125.90 -81.71 5 A ALA 83 -166.92 110.28 6 A ASP 2 -152.68 88.46 6 A VAL 3 -47.54 -19.36 6 A LYS 13 -101.18 -66.01 6 A THR 19 -139.94 -38.45 6 A THR 28 48.31 27.26 6 A PHE 36 -55.85 91.62 6 A ASN 70 -178.05 73.97 6 A MET 80 -176.90 96.23 6 A PHE 82 -112.44 -72.86 6 A ALA 83 -172.74 114.01 6 A LYS 86 -100.13 -70.40 7 A VAL 3 -46.61 -18.74 7 A LYS 13 -101.74 -64.10 7 A THR 19 -141.52 -41.13 7 A VAL 20 44.00 19.13 7 A THR 28 45.95 27.58 7 A PHE 36 -56.34 91.63 7 A LYS 55 60.95 64.12 7 A ASN 70 -171.66 64.34 7 A PRO 76 -39.67 159.24 7 A MET 80 -176.47 95.52 7 A LYS 86 -99.24 -71.38 8 A VAL 3 -49.94 -17.74 8 A LYS 13 -101.53 -64.11 8 A THR 19 -135.04 -38.24 8 A VAL 20 41.45 25.56 8 A THR 28 41.94 27.51 8 A PRO 30 -69.56 -179.33 8 A PHE 36 -53.83 91.76 8 A ASN 70 -168.83 70.38 8 A MET 80 -172.28 95.62 8 A PHE 82 -152.26 -79.25 8 A ALA 83 -172.14 110.37 8 A LYS 86 -101.99 -70.01 9 A VAL 3 -49.52 -17.40 9 A LYS 13 -101.21 -64.72 9 A THR 19 -142.34 -41.86 9 A VAL 20 43.68 27.17 9 A LEU 32 -77.06 34.67 9 A PHE 36 -53.49 92.44 9 A ASN 70 -174.22 63.11 9 A MET 80 -173.83 95.63 9 A LYS 86 -103.17 -69.10 10 A LYS 13 -101.71 -65.67 10 A THR 19 -139.91 -39.47 10 A THR 28 49.53 27.87 10 A LEU 32 -77.00 32.10 10 A PHE 36 -49.08 92.36 10 A THR 40 -38.13 131.63 10 A LYS 55 60.37 64.32 10 A ASN 70 -173.83 72.84 10 A MET 80 -176.77 95.57 10 A LYS 86 -98.01 -69.50 11 A LYS 13 -101.64 -63.58 11 A THR 19 -136.01 -42.17 11 A VAL 20 42.43 24.05 11 A THR 28 48.37 27.57 11 A LEU 32 -79.85 32.81 11 A PHE 36 -53.67 91.40 11 A ASN 70 -174.01 65.84 11 A MET 80 -173.70 95.63 11 A PHE 82 -137.93 -77.02 11 A ALA 83 -168.27 117.53 12 A VAL 3 -45.71 -18.93 12 A LYS 13 -101.67 -64.00 12 A THR 19 -142.25 -35.69 12 A THR 28 42.27 27.43 12 A PHE 36 -55.59 93.30 12 A ASN 70 -174.81 70.01 12 A MET 80 -172.43 96.00 12 A PHE 82 -136.71 -70.50 12 A ALA 83 -175.53 119.72 12 A LYS 86 -95.76 -72.37 13 A VAL 3 -48.19 -19.70 13 A LYS 13 -101.82 -65.00 13 A THR 19 -140.81 -39.09 13 A VAL 20 39.53 23.17 13 A LEU 32 -78.59 33.76 13 A PHE 36 -52.64 93.15 13 A ASN 70 -173.42 68.08 13 A MET 80 -176.39 100.75 13 A PHE 82 -114.52 -74.01 13 A ALA 83 -172.51 113.51 13 A LYS 86 -97.44 -70.52 14 A LYS 13 -101.46 -63.55 14 A THR 19 -133.07 -37.91 14 A THR 28 43.73 27.63 14 A PHE 36 -55.34 91.24 14 A ASN 70 -172.06 69.14 14 A MET 80 -178.23 95.63 14 A LYS 86 -99.19 -69.16 15 A VAL 3 -47.89 -18.82 15 A LYS 13 -101.26 -62.14 15 A THR 19 -136.77 -38.57 15 A THR 28 44.52 27.65 15 A PHE 36 -54.39 90.41 15 A ASN 70 -171.20 68.23 15 A PRO 76 -40.20 152.94 15 A MET 80 -176.86 95.95 15 A PHE 82 -144.48 -85.09 15 A ALA 83 -161.51 110.94 15 A LYS 86 -98.37 -70.64 16 A VAL 3 -44.70 -18.92 16 A LYS 13 -101.64 -64.67 16 A THR 19 -138.22 -40.08 16 A LEU 32 -79.36 34.59 16 A PHE 36 -53.86 91.29 16 A PRO 44 -74.58 -100.18 16 A ASN 70 -165.10 63.68 16 A MET 80 -175.25 98.84 16 A PHE 82 -127.18 -71.97 16 A ALA 83 -173.61 120.20 16 A LYS 86 -107.85 -68.11 17 A LYS 13 -101.58 -63.10 17 A THR 19 -137.20 -39.04 17 A LEU 32 -79.12 36.02 17 A PHE 36 -53.45 93.52 17 A PRO 44 -79.36 36.80 17 A ASN 70 -171.40 69.08 17 A MET 80 -176.71 95.90 17 A PHE 82 -116.90 -83.33 17 A LYS 86 -105.04 -69.10 18 A VAL 3 -47.72 -18.79 18 A LYS 13 -101.67 -64.97 18 A THR 19 -138.98 -43.24 18 A VAL 20 42.67 20.24 18 A THR 28 44.17 27.55 18 A PHE 36 -55.58 89.74 18 A LYS 55 64.73 64.12 18 A ASN 70 -171.39 66.40 18 A PRO 76 -40.31 156.89 18 A MET 80 -174.45 95.60 18 A PHE 82 -141.57 -76.56 18 A ALA 83 -173.24 120.44 18 A LYS 86 -102.69 -65.81 19 A VAL 3 -49.22 -18.26 19 A LYS 13 -101.53 -63.90 19 A THR 19 -141.69 -36.17 19 A THR 28 37.09 27.33 19 A LEU 32 -83.94 36.28 19 A PHE 36 -48.24 92.79 19 A ASN 70 -167.06 68.43 19 A MET 80 -169.54 95.76 19 A PHE 82 -160.32 -76.99 19 A ALA 83 -169.10 118.94 19 A LYS 86 -102.03 -68.44 20 A LYS 13 -101.62 -64.33 20 A THR 19 -143.60 -38.36 20 A THR 28 39.92 27.54 20 A PHE 36 -56.63 90.24 20 A ASN 70 -174.21 71.55 20 A MET 80 -173.96 95.90 20 A PHE 82 -125.21 -67.34 20 A ALA 83 -178.12 110.29 21 A VAL 3 -48.43 -18.56 21 A LYS 13 -101.68 -63.53 21 A THR 19 -139.18 -39.47 21 A THR 28 44.52 27.50 21 A LEU 32 -77.90 31.12 21 A PHE 36 -56.45 94.41 21 A ASN 70 178.16 74.67 21 A MET 80 -177.23 100.96 21 A PHE 82 -112.74 -71.05 21 A ALA 83 -174.84 114.56 21 A LYS 86 -98.96 -68.80 22 A VAL 3 -48.31 -17.65 22 A LYS 13 -101.39 -64.86 22 A THR 19 -137.22 -40.95 22 A VAL 20 44.81 20.70 22 A THR 28 40.31 27.46 22 A PHE 36 -55.50 90.54 22 A ASN 70 -173.95 67.52 22 A PRO 76 -39.54 158.50 22 A MET 80 -177.11 95.88 22 A PHE 82 -124.08 -72.33 22 A LYS 86 -102.45 -70.65 23 A VAL 3 -46.45 -19.39 23 A LYS 13 -101.37 -63.87 23 A THR 19 -142.68 -38.63 23 A THR 28 46.75 27.31 23 A LEU 32 -78.68 33.79 23 A PHE 36 -55.63 93.55 23 A ASN 70 -172.58 63.21 23 A MET 80 -172.50 95.83 23 A PHE 82 -112.21 -83.12 23 A LYS 86 -99.44 -69.63 24 A VAL 3 -47.38 -19.38 24 A LYS 13 -101.68 -63.90 24 A THR 19 -139.09 -38.16 24 A THR 28 45.53 27.26 24 A PHE 36 -55.60 92.93 24 A PRO 44 -75.40 -100.91 24 A ASN 70 -173.57 64.91 24 A MET 80 -171.19 96.30 24 A PHE 82 -150.71 -74.06 24 A ALA 83 -175.19 125.27 24 A LYS 86 -105.21 -63.36 25 A LYS 13 -101.59 -63.39 25 A THR 19 -136.85 -39.37 25 A THR 28 38.74 27.28 25 A PHE 36 -54.88 92.62 25 A ASN 70 -167.60 65.24 25 A MET 80 -176.45 99.88 25 A PHE 82 -113.36 -72.17 25 A ALA 83 -175.56 115.85 25 A LYS 86 -99.94 -70.62 26 A VAL 3 -47.09 -19.68 26 A LYS 13 -101.53 -64.15 26 A THR 19 -140.02 -39.09 26 A VAL 20 40.38 24.66 26 A THR 28 39.25 27.42 26 A PHE 36 -54.23 91.56 26 A ASN 70 -172.61 69.48 26 A MET 80 -177.54 96.12 26 A PHE 82 -121.28 -70.71 26 A ALA 83 -176.17 115.19 26 A LYS 86 -105.22 -68.15 27 A LYS 13 -101.70 -64.13 27 A THR 19 -139.80 -39.64 27 A THR 28 44.10 27.37 27 A PHE 36 -55.37 96.71 27 A ASN 70 -172.59 64.78 27 A MET 80 -172.92 97.65 27 A PHE 82 -130.45 -72.76 27 A ALA 83 -172.92 114.37 27 A LYS 86 -98.98 -71.29 28 A LYS 13 -101.54 -63.84 28 A THR 19 -138.22 -37.95 28 A VAL 20 41.33 21.28 28 A THR 28 43.38 27.44 28 A PHE 36 -54.92 92.16 28 A ASN 70 -173.36 72.11 28 A MET 80 -178.83 96.38 28 A PHE 82 -115.99 -79.02 28 A LYS 86 -103.27 -70.33 29 A ASP 2 -160.34 87.45 29 A LYS 13 -101.26 -62.85 29 A THR 19 -139.50 -37.67 29 A LYS 22 -38.88 135.07 29 A THR 28 44.49 27.20 29 A PHE 36 -54.61 93.04 29 A ASN 70 -167.10 58.47 29 A MET 80 -171.36 95.56 29 A LYS 86 -100.99 -71.11 30 A VAL 3 -49.35 -17.55 30 A LYS 13 -101.62 -64.75 30 A THR 19 -138.46 -37.64 30 A PHE 36 -56.52 90.30 30 A ASN 70 -168.97 66.65 30 A MET 80 -173.22 95.77 30 A LYS 86 -102.00 -70.08 31 A VAL 3 -46.83 -19.27 31 A LYS 13 -101.43 -64.67 31 A THR 19 -136.41 -38.27 31 A LEU 32 -79.99 34.07 31 A PHE 36 -53.25 92.12 31 A ASN 70 -171.73 69.44 31 A MET 80 -173.45 95.43 31 A PHE 82 -134.73 -74.04 31 A ALA 83 -172.30 117.02 31 A LYS 86 -103.94 -68.45 32 A VAL 3 -46.37 -19.27 32 A LYS 13 -101.71 -64.43 32 A THR 19 -136.13 -39.21 32 A VAL 20 42.71 29.44 32 A THR 28 42.70 27.35 32 A PHE 36 -56.76 91.79 32 A ASN 70 -175.04 70.24 32 A PRO 76 -40.72 152.72 32 A MET 80 -176.07 96.12 32 A ALA 83 -177.34 118.56 32 A LYS 86 -105.17 -66.74 Cytochrome c closest to the average, model9 Structure of oxidized horse heart cytochrome c encapsulated in reverse micelles 1 N N 2 N N 3 N N A ASP 2 A ASP 2 HELX_P A CYS 14 A CYS 14 1 1 13 A ALA 15 A ALA 15 HELX_P A HIS 18 A HIS 18 5 2 4 A THR 49 A THR 49 HELX_P A ASN 54 A ASN 54 1 3 6 A LYS 60 A LYS 60 HELX_P A GLU 69 A GLU 69 1 4 10 A ASN 70 A ASN 70 HELX_P A ILE 75 A ILE 75 1 5 6 A LYS 87 A LYS 87 HELX_P A GLU 104 A GLU 104 1 6 18 covale 1.816 A CYS 17 A SG CYS 17 1_555 A HEC 201 B CAC HEC 1_555 covale 1.818 A CYS 14 A SG CYS 14 1_555 A HEC 201 B CAB HEC 1_555 metalc 2.002 A HIS 18 A NE2 HIS 18 1_555 A HEC 201 B FE HEC 1_555 metalc 2.301 A MET 80 A SD MET 80 1_555 A HEC 201 B FE HEC 1_555 ELECTRON TRANSPORT reverse micelle, structural water, paramagnetic, ELECTRON TRANSPORT CYC_HORSE UNP 1 2 P00004 GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKM IFAGIKKKTEREDLIAYLKKATNE 2 105 2N3B 1 104 P00004 A 1 1 104 BINDING SITE FOR RESIDUE HEC A 201 Software 21 A LYS 13 A LYS 13 21 1_555 A CYS 14 A CYS 14 21 1_555 A GLN 16 A GLN 16 21 1_555 A CYS 17 A CYS 17 21 1_555 A HIS 18 A HIS 18 21 1_555 A PRO 30 A PRO 30 21 1_555 A LEU 35 A LEU 35 21 1_555 A GLY 41 A GLY 41 21 1_555 A PHE 46 A PHE 46 21 1_555 A TYR 48 A TYR 48 21 1_555 A THR 49 A THR 49 21 1_555 A ASN 52 A ASN 52 21 1_555 A TRP 59 A TRP 59 21 1_555 A TYR 67 A TYR 67 21 1_555 A LEU 68 A LEU 68 21 1_555 A THR 78 A THR 78 21 1_555 A LYS 79 A LYS 79 21 1_555 A MET 80 A MET 80 21 1_555 A PHE 82 A PHE 82 21 1_555 A LEU 94 A LEU 94 21 1_555 A LEU 98 A LEU 98 21 1_555