1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Cave, J.W. Cho, H.S. Batchelder, A.M. Kim, R. Yokota, H. Wemmer, D.E. Berkeley Structural Genomics Center (BSGC) 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 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 US Protein Sci. PRCIEI 0795 0961-8368 10 384 396 10.1110/ps.35101 11266624 Solution nuclear magnetic resonance structure of a protein disulfide oxidoreductase from Methanococcus jannaschii. 2001 10.2210/pdb1fo5/pdb pdb_00001fo5 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 9414.073 THIOREDOXIN 1 man polymer MJ0307 PROTEIN DISULFIDE OXIDOREDUCTASE no no MSKVKIELFTSPMCPHCPAAKRVVEEVANEMPDAVEVEYINVMENPQKAMEYGIMAVPTIVINGDVEFIGAPTKEALVEA IKKRL MSKVKIELFTSPMCPHCPAAKRVVEEVANEMPDAVEVEYINVMENPQKAMEYGIMAVPTIVINGDVEFIGAPTKEALVEA IKKRL A BSGCAIR30506 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 Methanocaldococcus Escherichia sample 2190 Methanocaldococcus jannaschii 562 Escherichia coli PET21A Berkeley Structural Genomics Center BSGC PSI, Protein Structure Initiative database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2001-04-11 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 Y RCSB Y RCSB 2000-08-24 REL The structure was determined using 2D homonuclear techniques and triple-resonance NMR spectroscopy target function 60 20 HMQC-J 2D NOESY 3D_15N-separated_NOESY 3D_13C-separated_NOESY 4D_13C-separated_NOESY 35mM sodium phosphate 6.3 ambient 308 K 35mM sodium phosphate 6.3 ambient 298 K 505 upper limit distance constraints 52 backbone phi torsion angle constraints 30 hydrogen bond constraints torsion angle dynamics (DYANA) restrained energy minimization (OPAL) 1 lowest energy 1.5mM Mj0307 U-15N; 35mM Sodium Phosphate pH 6.3, 5 mM DTT, 0.02% Sodium Azide 90% H2O/10% D2O 1.5mM Mj0307 U-(15N,13C); 35mM Sodium Phosphate pH 6.3, 5 mM DTT, 0.02% Sodium Azide 100% D2O 1.5mM Mj0307; 35mM Sodium Phosphate pH 6.3, 5 mM DTT, 0.02% Sodium Azide 100% D2O Bruker collection UXNMR 910901 Bruker collection XwinNMR 2.0 MSI Biosym processing Felix 98 Guntert et al. structure solution DYANA 1.5 Luginbuhl et al. refinement OPAL 2.6 600 Bruker AMX 500 Bruker DRX MET 0 n 1 MET 0 A SER 1 n 2 SER 1 A LYS 2 n 3 LYS 2 A VAL 3 n 4 VAL 3 A LYS 4 n 5 LYS 4 A ILE 5 n 6 ILE 5 A GLU 6 n 7 GLU 6 A LEU 7 n 8 LEU 7 A PHE 8 n 9 PHE 8 A THR 9 n 10 THR 9 A SER 10 n 11 SER 10 A PRO 11 n 12 PRO 11 A MET 12 n 13 MET 12 A CYS 13 n 14 CYS 13 A PRO 14 n 15 PRO 14 A HIS 15 n 16 HIS 15 A CYS 16 n 17 CYS 16 A PRO 17 n 18 PRO 17 A ALA 18 n 19 ALA 18 A ALA 19 n 20 ALA 19 A LYS 20 n 21 LYS 20 A ARG 21 n 22 ARG 21 A VAL 22 n 23 VAL 22 A VAL 23 n 24 VAL 23 A GLU 24 n 25 GLU 24 A GLU 25 n 26 GLU 25 A VAL 26 n 27 VAL 26 A ALA 27 n 28 ALA 27 A ASN 28 n 29 ASN 28 A GLU 29 n 30 GLU 29 A MET 30 n 31 MET 30 A PRO 31 n 32 PRO 31 A ASP 32 n 33 ASP 32 A ALA 33 n 34 ALA 33 A VAL 34 n 35 VAL 34 A GLU 35 n 36 GLU 35 A VAL 36 n 37 VAL 36 A GLU 37 n 38 GLU 37 A TYR 38 n 39 TYR 38 A ILE 39 n 40 ILE 39 A ASN 40 n 41 ASN 40 A VAL 41 n 42 VAL 41 A MET 42 n 43 MET 42 A GLU 43 n 44 GLU 43 A ASN 44 n 45 ASN 44 A PRO 45 n 46 PRO 45 A GLN 46 n 47 GLN 46 A LYS 47 n 48 LYS 47 A ALA 48 n 49 ALA 48 A MET 49 n 50 MET 49 A GLU 50 n 51 GLU 50 A TYR 51 n 52 TYR 51 A GLY 52 n 53 GLY 52 A ILE 53 n 54 ILE 53 A MET 54 n 55 MET 54 A ALA 55 n 56 ALA 55 A VAL 56 n 57 VAL 56 A PRO 57 n 58 PRO 57 A THR 58 n 59 THR 58 A ILE 59 n 60 ILE 59 A VAL 60 n 61 VAL 60 A ILE 61 n 62 ILE 61 A ASN 62 n 63 ASN 62 A GLY 63 n 64 GLY 63 A ASP 64 n 65 ASP 64 A VAL 65 n 66 VAL 65 A GLU 66 n 67 GLU 66 A PHE 67 n 68 PHE 67 A ILE 68 n 69 ILE 68 A GLY 69 n 70 GLY 69 A ALA 70 n 71 ALA 70 A PRO 71 n 72 PRO 71 A THR 72 n 73 THR 72 A LYS 73 n 74 LYS 73 A GLU 74 n 75 GLU 74 A ALA 75 n 76 ALA 75 A LEU 76 n 77 LEU 76 A VAL 77 n 78 VAL 77 A GLU 78 n 79 GLU 78 A ALA 79 n 80 ALA 79 A ILE 80 n 81 ILE 80 A LYS 81 n 82 LYS 81 A LYS 82 n 83 LYS 82 A ARG 83 n 84 ARG 83 A LEU 84 n 85 LEU 84 A author_defined_assembly 1 monomeric 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 GLU 35 A N GLU 36 A O VAL 3 A O VAL 4 A N PHE 8 A N PHE 9 A O THR 58 A O THR 59 A O ILE 61 A O ILE 62 A N ASP 64 A N ASP 65 1 A A O HG1 PHE THR 8 9 1.60 3 A A HG1 OE1 THR GLU 72 74 1.55 7 A A HG1 OE1 THR GLU 72 74 1.59 11 A A HG1 OE1 THR GLU 72 74 1.60 19 A A HG1 OE1 THR GLU 72 74 1.60 20 A A HG1 OE2 THR GLU 72 74 1.59 16 A A MET SER 0 1 -142.87 3 A TYR 51 0.081 SIDE CHAIN 4 A TYR 51 0.115 SIDE CHAIN 5 A TYR 51 0.115 SIDE CHAIN 6 A ARG 83 0.082 SIDE CHAIN 7 A ARG 21 0.084 SIDE CHAIN 12 A ARG 21 0.106 SIDE CHAIN 12 A ARG 83 0.128 SIDE CHAIN 13 A ARG 21 0.122 SIDE CHAIN 16 A ARG 21 0.078 SIDE CHAIN 16 A ARG 83 0.084 SIDE CHAIN 17 A TYR 51 0.108 SIDE CHAIN 19 A TYR 51 0.117 SIDE CHAIN 20 A ARG 21 0.123 SIDE CHAIN 2 -3.62 0.60 121.00 117.38 A A A CB CG CD2 TYR TYR TYR 38 38 38 N 3 3.23 0.50 120.30 123.53 A A A NE CZ NH1 ARG ARG ARG 21 21 21 N 3 -3.51 0.50 120.30 116.79 A A A NE CZ NH2 ARG ARG ARG 21 21 21 N 6 -3.25 0.50 120.30 117.05 A A A NE CZ NH2 ARG ARG ARG 21 21 21 N 13 -3.95 0.60 121.00 117.05 A A A CB CG CD2 TYR TYR TYR 38 38 38 N 14 -4.64 0.60 121.00 116.36 A A A CB CG CD2 TYR TYR TYR 38 38 38 N 19 9.91 1.60 110.90 120.81 A A A CG1 CB CG2 VAL VAL VAL 26 26 26 N 1 A LYS 2 66.06 162.62 1 A MET 12 -134.62 -31.13 1 A CYS 13 -77.25 -79.36 1 A ALA 18 46.88 -118.46 1 A PRO 31 -80.01 39.02 1 A ASP 32 -178.19 -49.70 1 A ALA 33 -77.70 48.02 1 A VAL 41 -68.13 99.86 1 A GLU 43 36.69 54.56 1 A GLN 46 -78.96 25.72 1 A GLU 50 -69.29 -119.23 1 A TYR 51 60.59 -171.68 1 A ASN 62 45.77 -42.96 1 A THR 72 -58.14 -173.73 1 A LYS 73 -70.41 39.65 1 A ARG 83 -178.53 81.43 2 A PHE 8 -105.81 76.41 2 A MET 12 -122.57 -57.73 2 A HIS 15 46.98 15.51 2 A ALA 18 -50.35 -74.84 2 A GLU 29 -121.51 -57.53 2 A ASP 32 -177.78 -26.88 2 A MET 42 -140.84 -56.17 2 A ASN 44 35.98 58.71 2 A MET 54 55.15 -19.92 2 A ASN 62 51.61 -36.90 2 A THR 72 -65.33 -163.17 2 A LYS 73 -70.79 27.82 2 A GLU 74 -29.30 -53.30 2 A ARG 83 -177.62 -55.70 3 A SER 1 -156.91 62.48 3 A CYS 13 -80.22 -71.70 3 A HIS 15 57.82 -61.37 3 A CYS 16 58.73 168.69 3 A ALA 18 41.37 -125.41 3 A GLU 25 -52.09 -71.98 3 A ASP 32 -179.14 -63.00 3 A VAL 36 -152.52 57.41 3 A MET 42 -153.01 -62.98 3 A GLU 43 -145.19 11.18 3 A GLN 46 -69.25 19.26 3 A ASN 62 47.23 -50.24 3 A THR 72 -60.93 -173.20 3 A GLU 74 -29.35 -49.57 3 A ARG 83 171.25 133.41 4 A SER 1 -143.28 -29.70 4 A LYS 2 36.54 50.28 4 A CYS 13 132.89 -60.03 4 A PRO 14 -64.77 -73.04 4 A CYS 16 -146.61 -49.63 4 A ALA 18 18.79 -99.85 4 A ASP 32 -178.83 -65.54 4 A VAL 41 -66.40 85.20 4 A GLU 43 53.91 18.25 4 A ILE 53 44.23 13.46 4 A MET 54 35.97 59.09 4 A ASN 62 54.03 -75.30 4 A PHE 67 -173.01 130.63 4 A THR 72 -54.17 177.21 4 A LYS 73 -71.41 43.62 4 A ARG 83 -178.23 -39.51 5 A SER 1 -143.28 -29.70 5 A LYS 2 36.54 50.28 5 A CYS 13 132.89 -60.03 5 A PRO 14 -64.77 -73.04 5 A CYS 16 -146.61 -49.63 5 A ALA 18 18.79 -99.85 5 A ASP 32 -178.83 -65.54 5 A VAL 41 -66.40 85.20 5 A GLU 43 53.91 18.25 5 A ILE 53 44.23 13.46 5 A MET 54 35.97 59.09 5 A ASN 62 54.03 -75.30 5 A PHE 67 -173.01 130.63 5 A THR 72 -54.17 177.21 5 A LYS 73 -71.41 43.62 5 A ARG 83 -178.23 -39.51 6 A SER 1 74.47 93.07 6 A SER 10 -165.09 -42.46 6 A PRO 11 -63.79 90.83 6 A CYS 13 110.40 -63.56 6 A PRO 14 -73.19 40.14 6 A ALA 18 -178.83 -143.11 6 A PRO 31 -73.67 43.86 6 A ASP 32 -178.27 -53.77 6 A MET 42 -160.41 -113.14 6 A GLN 46 -64.62 19.25 6 A MET 54 51.25 -8.94 6 A ALA 55 -69.84 -172.15 6 A VAL 56 -178.05 144.66 6 A ASN 62 51.00 -77.52 6 A PRO 71 -73.63 -127.91 6 A THR 72 -115.84 -114.54 6 A ARG 83 -160.98 -71.40 7 A SER 1 -167.11 87.31 7 A PRO 14 -74.74 38.98 7 A HIS 15 -150.23 -48.81 7 A ALA 18 -51.02 -76.06 7 A GLU 29 -132.38 -31.69 7 A PRO 31 -70.52 32.69 7 A ASP 32 -178.15 -57.15 7 A MET 42 -178.97 -61.21 7 A ILE 53 60.33 -23.81 7 A MET 54 60.80 -62.10 7 A ALA 55 57.76 -68.84 7 A VAL 56 77.85 125.03 7 A ASN 62 52.63 -31.13 7 A THR 72 -65.47 -177.47 7 A LYS 73 -74.49 30.44 7 A ARG 83 147.96 107.60 8 A HIS 15 -65.46 86.73 8 A ALA 18 -90.17 -86.27 8 A MET 30 -117.60 79.48 8 A PRO 31 -69.63 26.68 8 A ASP 32 -149.14 -57.11 8 A MET 42 -178.46 -94.36 8 A ASN 44 53.91 78.88 8 A ALA 55 -56.75 -81.81 8 A ILE 61 -107.76 -119.33 8 A PRO 71 -76.28 -158.21 8 A THR 72 -66.20 -171.71 8 A LYS 73 -77.17 49.06 8 A ARG 83 34.31 13.45 9 A LYS 2 68.41 92.29 9 A LEU 7 -102.14 69.56 9 A SER 10 175.42 -63.81 9 A PRO 14 -71.26 46.16 9 A PRO 17 -64.85 72.80 9 A ALA 18 -48.25 -80.60 9 A PRO 31 -71.55 29.63 9 A ASP 32 -178.31 -48.39 9 A MET 42 -140.03 -67.68 9 A GLN 46 -73.17 39.33 9 A MET 54 59.08 -39.00 9 A ALA 55 -63.21 99.97 9 A ASN 62 48.16 -75.64 9 A PHE 67 -164.61 115.58 9 A PRO 71 -78.08 -100.33 9 A THR 72 -134.95 -127.99 9 A ARG 83 -178.18 -73.73 10 A SER 1 38.34 -123.84 10 A LYS 2 27.72 73.60 10 A SER 10 178.75 -56.92 10 A PRO 11 -66.38 93.40 10 A CYS 13 -131.48 -72.59 10 A ALA 18 -103.52 -94.42 10 A PRO 31 -77.88 45.47 10 A ASP 32 -178.00 -66.77 10 A ALA 33 -69.87 1.11 10 A MET 42 -178.59 -87.05 10 A MET 54 47.08 -11.42 10 A VAL 56 50.98 166.72 10 A ILE 61 -101.42 -157.81 10 A ASN 62 -23.23 -51.34 10 A THR 72 -70.55 -159.77 10 A LYS 73 -77.29 23.26 10 A ARG 83 -159.54 49.24 11 A CYS 13 113.18 -58.42 11 A ALA 18 43.08 -117.00 11 A PRO 31 -68.85 8.81 11 A ASP 32 -150.70 -40.69 11 A MET 42 -178.59 -63.73 11 A GLU 43 -143.67 51.35 11 A GLU 50 -66.83 -143.44 11 A TYR 51 67.60 -168.03 11 A ALA 55 -69.02 0.84 11 A VAL 56 70.31 164.07 11 A ASN 62 48.08 -42.46 11 A LYS 73 -77.26 21.50 11 A ARG 83 53.29 -58.39 12 A THR 9 -178.91 -177.25 12 A SER 10 -158.23 69.71 12 A MET 12 -55.88 105.89 12 A CYS 13 108.23 -76.11 12 A PRO 14 -68.44 3.78 12 A HIS 15 -66.16 47.75 12 A CYS 16 -138.46 -64.48 12 A ALA 18 -50.73 -81.21 12 A PRO 31 -76.41 27.27 12 A ASP 32 -151.67 -68.33 12 A MET 42 -178.94 -72.26 12 A LYS 47 -52.15 -4.07 12 A ALA 48 -91.42 -63.89 12 A TYR 51 -52.58 175.39 12 A ILE 53 60.12 -24.06 12 A MET 54 62.24 -73.08 12 A ALA 55 36.27 -130.95 12 A PRO 57 -63.93 -179.87 12 A ASN 62 -20.17 -56.36 12 A THR 72 -62.85 -175.95 12 A LYS 73 -70.45 32.99 13 A LYS 2 108.86 104.61 13 A CYS 13 -79.11 -73.05 13 A ALA 18 -52.92 -77.50 13 A PRO 31 -75.25 41.40 13 A ASP 32 -151.56 -66.36 13 A ALA 33 -79.64 45.45 13 A MET 42 -143.60 -52.99 13 A MET 54 40.90 7.74 13 A ALA 55 -64.60 -178.44 13 A ASN 62 30.33 -81.07 13 A ASP 64 -73.49 -86.52 13 A VAL 65 114.78 134.81 13 A PRO 71 -71.15 -165.75 13 A THR 72 -64.23 -172.47 13 A LYS 73 -71.59 47.34 14 A SER 10 -165.95 47.71 14 A MET 12 -156.44 -115.72 14 A CYS 13 50.74 -172.00 14 A PRO 14 -67.71 2.63 14 A HIS 15 69.28 -32.01 14 A ALA 18 -156.19 -100.21 14 A PRO 31 -70.90 25.28 14 A ASP 32 -178.02 -45.39 14 A MET 42 -178.66 -70.01 14 A ALA 55 28.66 -116.67 14 A ASN 62 57.17 -62.22 14 A THR 72 -60.67 -176.22 14 A LYS 73 -71.96 36.90 14 A ARG 83 -161.11 101.30 15 A SER 1 -148.12 -43.93 15 A LYS 2 57.65 91.76 15 A SER 10 -158.95 87.24 15 A PRO 11 -77.70 35.67 15 A MET 12 56.63 -58.88 15 A CYS 13 -78.15 -84.92 15 A CYS 16 -132.63 -57.55 15 A ALA 18 -148.10 -91.72 15 A ASP 32 -160.67 -63.95 15 A MET 42 135.34 174.32 15 A GLU 43 29.82 55.97 15 A GLN 46 -66.30 4.48 15 A ILE 53 47.82 16.45 15 A MET 54 48.14 7.02 15 A ASN 62 37.99 -89.36 15 A THR 72 -65.03 -177.62 15 A LYS 73 -73.16 21.97 16 A SER 1 153.06 -169.41 16 A LYS 2 14.46 80.58 16 A THR 9 -156.91 -157.51 16 A SER 10 120.08 93.33 16 A PRO 11 -66.97 -70.42 16 A MET 12 -162.68 -37.99 16 A PRO 14 -69.12 -80.65 16 A CYS 16 -172.03 -59.59 16 A PRO 17 -75.16 -99.90 16 A ALA 18 47.37 -92.71 16 A PRO 31 -67.92 11.62 16 A ASP 32 -151.62 -59.25 16 A GLU 35 -102.03 72.85 16 A VAL 41 -48.89 150.80 16 A MET 42 54.35 -172.97 16 A GLU 43 63.77 -17.73 16 A GLN 46 -68.69 0.45 16 A ILE 53 -110.24 73.39 16 A MET 54 -73.76 24.90 16 A VAL 56 67.41 133.52 16 A ASN 62 45.27 -67.25 16 A PRO 71 -73.99 -162.72 16 A THR 72 -78.20 -150.60 16 A LYS 73 -79.06 34.37 16 A ARG 83 -110.44 -92.34 17 A SER 1 -62.83 0.68 17 A PRO 11 -67.98 -176.50 17 A MET 12 -54.85 85.00 17 A CYS 13 50.25 177.72 17 A PRO 14 -64.04 1.22 17 A ALA 18 37.87 -104.18 17 A PRO 31 -79.76 34.21 17 A ASP 32 -178.30 -51.67 17 A ASN 40 -60.51 92.05 17 A VAL 41 39.25 -67.66 17 A TYR 51 -80.74 -154.98 17 A MET 54 36.99 35.89 17 A ASN 62 45.69 -92.22 17 A GLU 66 -178.70 -178.68 17 A PHE 67 -139.13 -36.48 17 A ILE 68 49.71 -74.36 17 A LYS 73 -68.05 64.84 17 A ARG 83 -155.09 -77.22 18 A SER 1 -148.12 -43.93 18 A LYS 2 57.65 91.76 18 A SER 10 -158.95 87.24 18 A PRO 11 -77.70 35.67 18 A MET 12 56.63 -58.88 18 A CYS 13 -78.15 -84.92 18 A CYS 16 -132.63 -57.55 18 A ALA 18 -148.10 -91.72 18 A ASP 32 -160.67 -63.95 18 A MET 42 135.34 174.32 18 A GLU 43 29.82 55.97 18 A GLN 46 -66.30 4.48 18 A ILE 53 47.82 16.45 18 A MET 54 48.14 7.02 18 A ASN 62 37.99 -89.36 18 A THR 72 -65.03 -177.62 18 A LYS 73 -73.16 21.97 19 A SER 10 -164.36 -59.45 19 A CYS 13 119.33 -75.96 19 A HIS 15 -141.13 56.12 19 A ALA 18 -68.83 -81.45 19 A PRO 31 -75.13 34.77 19 A ASP 32 -178.97 -48.83 19 A TYR 38 -107.74 69.92 19 A MET 42 -177.98 -74.85 19 A GLN 46 -63.91 5.80 19 A ILE 53 -138.87 -52.37 19 A MET 54 58.51 -2.37 19 A ALA 55 -77.29 -161.06 19 A ASN 62 57.97 -45.96 19 A PRO 71 -77.13 -111.18 19 A THR 72 -126.00 -116.99 19 A LYS 82 -91.15 -67.50 19 A ARG 83 -142.17 -71.77 20 A LEU 7 -114.21 78.18 20 A THR 9 -141.75 -149.22 20 A SER 10 160.11 -65.81 20 A CYS 13 141.84 -72.31 20 A CYS 16 -115.65 -82.10 20 A ALA 18 44.18 -100.10 20 A ASP 32 -142.57 -55.02 20 A ALA 33 -84.23 48.46 20 A MET 42 -142.19 -82.23 20 A ASN 44 35.83 57.76 20 A GLU 50 -83.27 -143.67 20 A TYR 51 68.86 -167.67 20 A MET 54 49.70 13.27 20 A ASN 62 47.35 -69.81 20 A PRO 71 -82.93 -109.88 20 A THR 72 -114.72 -146.72 20 A LYS 73 -79.08 20.71 20 A LYS 81 -62.00 -79.08 SOLUTION STRUCTURE OF REDUCED MJ0307 1 N N A ALA 18 A ALA 19 HELX_P A MET 30 A MET 31 1 1 13 A LYS 73 A LYS 74 HELX_P A LEU 84 A LEU 85 1 2 12 OXIDOREDUCTASE disulfide oxidoreductase, thioredoxin fold, Structural Genomics, BSGC structure funded by NIH, Protein Structure Initiative, PSI, Berkeley Structural Genomics Center, OXIDOREDUCTASE A VAL 56 A VAL 57 1 A PRO 57 A PRO 58 -6.26 A VAL 56 A VAL 57 2 A PRO 57 A PRO 58 -8.23 A VAL 56 A VAL 57 3 A PRO 57 A PRO 58 -12.04 A VAL 56 A VAL 57 4 A PRO 57 A PRO 58 -6.82 A VAL 56 A VAL 57 5 A PRO 57 A PRO 58 -6.82 A VAL 56 A VAL 57 6 A PRO 57 A PRO 58 6.86 A VAL 56 A VAL 57 7 A PRO 57 A PRO 58 0.36 A VAL 56 A VAL 57 8 A PRO 57 A PRO 58 -20.70 A VAL 56 A VAL 57 9 A PRO 57 A PRO 58 1.38 A VAL 56 A VAL 57 10 A PRO 57 A PRO 58 -14.83 A VAL 56 A VAL 57 11 A PRO 57 A PRO 58 -9.62 A VAL 56 A VAL 57 12 A PRO 57 A PRO 58 -14.01 A VAL 56 A VAL 57 13 A PRO 57 A PRO 58 -10.28 A VAL 56 A VAL 57 14 A PRO 57 A PRO 58 -14.99 A VAL 56 A VAL 57 15 A PRO 57 A PRO 58 -4.34 A VAL 56 A VAL 57 16 A PRO 57 A PRO 58 -9.78 A VAL 56 A VAL 57 17 A PRO 57 A PRO 58 -20.71 A VAL 56 A VAL 57 18 A PRO 57 A PRO 58 -4.34 A VAL 56 A VAL 57 19 A PRO 57 A PRO 58 -9.10 A VAL 56 A VAL 57 20 A PRO 57 A PRO 58 -0.64 THIO_METJA UNP 1 1 Q57755 MSKVKIELFTSPMCPHCPAAKRVVEEVANEMPDAVEVEYINVMENPQKAMEYGIMAVPTIVINGDVEFIGAPTKEALVEA IKKRL 1 85 1FO5 0 84 Q57755 A 1 1 85 4 parallel anti-parallel anti-parallel A VAL 34 A VAL 35 A ASN 40 A ASN 41 A VAL 3 A VAL 4 A THR 9 A THR 10 A THR 58 A THR 59 A ILE 61 A ILE 62 A ASP 64 A ASP 65 A GLU 66 A GLU 67 1 P 1