0.024704 0.000000 0.000000 0.000000 0.025138 0.000000 0.000000 0.000000 0.016644 0.00000 0.00000 0.00000 CIS PROLINE - PRO 76 Saarinen, M. Gleason, F.K. Eklund, H. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 4 90.00 90.00 90.00 40.480 39.780 60.080 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 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 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 UK Structure STRUE6 2005 0969-2126 3 1097 1108 10.1016/S0969-2126(01)00245-3 8590004 Crystal structure of thioredoxin-2 from Anabaena. 1995 US J.Bacteriol. JOBAAY 0767 0021-9193 174 2592 Activities of Two Dissimilar Thioredoxins from the Cyanobacterium Anabaena Sp. Pcc 7120 1992 US J.Bacteriol. JOBAAY 0767 0021-9193 171 162 Isolation, Sequence, and Expression in Escherichia Coli of an Unusual Thioredoxin Gene from the Cyanobacterium Anabaena Sp. Strain Pcc 7120 1989 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 IMAGE PLATE 1993-11-22 RIGAKU RAXIS IIC M x-ray 1 1.5418 1.0 1.5418 12811.778 THIOREDOXIN 1 man polymer 18.015 water 74 nat water THIOREDOXIN 2 no no METAMSKGVITITDAEFESEVLKAEQPVLVYFWASWCGPCQLMSPLINLAANTYSDRLKVVKLEIDPNPTTVKKYKVEGV PALRLVKGEQILDSTEGVISKDKLLSFLDTHLNNN METAMSKGVITITDAEFESEVLKAEQPVLVYFWASWCGPCQLMSPLINLAANTYSDRLKVVKLEIDPNPTTVKKYKVEGV PALRLVKGEQILDSTEGVISKDKLLSFLDTHLNNN 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 Nostoc PCC 7120 Escherichia sample ATCC 27893 TRXA 103690 Nostoc sp. TRXA 562 Escherichia coli PAN673.2 2 1.89 34.81 repository Initial release Version format compliance Source and taxonomy Version format compliance 1 0 1995-10-15 1 1 2008-03-03 1 2 2011-07-13 Y 1995-07-07 REL REL HOH water HOH 1001 2 HOH HOH 1001 A HOH 1003 2 HOH HOH 1003 A HOH 1005 2 HOH HOH 1005 A HOH 1006 2 HOH HOH 1006 A HOH 1007 2 HOH HOH 1007 A HOH 1009 2 HOH HOH 1009 A HOH 1012 2 HOH HOH 1012 A HOH 1014 2 HOH HOH 1014 A HOH 1022 2 HOH HOH 1022 A HOH 1023 2 HOH HOH 1023 A HOH 1027 2 HOH HOH 1027 A HOH 1028 2 HOH HOH 1028 A HOH 1031 2 HOH HOH 1031 A HOH 1037 2 HOH HOH 1037 A HOH 1038 2 HOH HOH 1038 A HOH 1039 2 HOH HOH 1039 A HOH 1041 2 HOH HOH 1041 A HOH 1048 2 HOH HOH 1048 A HOH 1049 2 HOH HOH 1049 A HOH 1050 2 HOH HOH 1050 A HOH 1051 2 HOH HOH 1051 A HOH 1054 2 HOH HOH 1054 A HOH 1056 2 HOH HOH 1056 A HOH 1057 2 HOH HOH 1057 A HOH 1059 2 HOH HOH 1059 A HOH 1060 2 HOH HOH 1060 A HOH 1061 2 HOH HOH 1061 A HOH 1062 2 HOH HOH 1062 A HOH 1063 2 HOH HOH 1063 A HOH 1072 2 HOH HOH 1072 A HOH 1074 2 HOH HOH 1074 A HOH 1076 2 HOH HOH 1076 A HOH 1077 2 HOH HOH 1077 A HOH 1078 2 HOH HOH 1078 A HOH 1079 2 HOH HOH 1079 A HOH 1080 2 HOH HOH 1080 A HOH 1081 2 HOH HOH 1081 A HOH 1082 2 HOH HOH 1082 A HOH 1083 2 HOH HOH 1083 A HOH 1085 2 HOH HOH 1085 A HOH 1087 2 HOH HOH 1087 A HOH 1094 2 HOH HOH 1094 A HOH 1095 2 HOH HOH 1095 A HOH 1096 2 HOH HOH 1096 A HOH 1097 2 HOH HOH 1097 A HOH 1098 2 HOH HOH 1098 A HOH 1100 2 HOH HOH 1100 A HOH 1101 2 HOH HOH 1101 A HOH 1102 2 HOH HOH 1102 A HOH 1103 2 HOH HOH 1103 A HOH 1104 2 HOH HOH 1104 A HOH 1105 2 HOH HOH 1105 A HOH 1106 2 HOH HOH 1106 A HOH 1108 2 HOH HOH 1108 A HOH 1109 2 HOH HOH 1109 A HOH 1110 2 HOH HOH 1110 A HOH 1111 2 HOH HOH 1111 A HOH 1112 2 HOH HOH 1112 A HOH 1113 2 HOH HOH 1113 A HOH 1114 2 HOH HOH 1114 A HOH 1115 2 HOH HOH 1115 A HOH 1118 2 HOH HOH 1118 A HOH 1123 2 HOH HOH 1123 A HOH 1124 2 HOH HOH 1124 A HOH 1127 2 HOH HOH 1127 A HOH 1128 2 HOH HOH 1128 A HOH 1131 2 HOH HOH 1131 A HOH 1132 2 HOH HOH 1132 A HOH 2001 2 HOH HOH 2001 A HOH 2004 2 HOH HOH 2004 A HOH 2005 2 HOH HOH 2005 A HOH 2009 2 HOH HOH 2009 A HOH 2014 2 HOH HOH 2014 A HOH 2015 2 HOH HOH 2015 A n 1 -4 A n 2 -3 A n 3 -2 A n 4 -1 A n 5 0 A SER 1 n 6 SER 1 A LYS 2 n 7 LYS 2 A GLY 3 n 8 GLY 3 A VAL 4 n 9 VAL 4 A ILE 5 n 10 ILE 5 A THR 6 n 11 THR 6 A ILE 7 n 12 ILE 7 A THR 8 n 13 THR 8 A ASP 9 n 14 ASP 9 A ALA 10 n 15 ALA 10 A GLU 11 n 16 GLU 11 A PHE 12 n 17 PHE 12 A GLU 13 n 18 GLU 13 A SER 14 n 19 SER 14 A GLU 15 n 20 GLU 15 A VAL 16 n 21 VAL 16 A LEU 17 n 22 LEU 17 A LYS 18 n 23 LYS 18 A ALA 19 n 24 ALA 19 A GLU 20 n 25 GLU 20 A GLN 21 n 26 GLN 21 A PRO 22 n 27 PRO 22 A VAL 23 n 28 VAL 23 A LEU 24 n 29 LEU 24 A VAL 25 n 30 VAL 25 A TYR 26 n 31 TYR 26 A PHE 27 n 32 PHE 27 A TRP 28 n 33 TRP 28 A ALA 29 n 34 ALA 29 A SER 30 n 35 SER 30 A TRP 31 n 36 TRP 31 A CYS 32 n 37 CYS 32 A GLY 33 n 38 GLY 33 A PRO 34 n 39 PRO 34 A CYS 35 n 40 CYS 35 A GLN 36 n 41 GLN 36 A LEU 37 n 42 LEU 37 A MET 38 n 43 MET 38 A SER 39 n 44 SER 39 A PRO 40 n 45 PRO 40 A LEU 41 n 46 LEU 41 A ILE 42 n 47 ILE 42 A ASN 43 n 48 ASN 43 A LEU 44 n 49 LEU 44 A ALA 45 n 50 ALA 45 A ALA 46 n 51 ALA 46 A ASN 47 n 52 ASN 47 A THR 48 n 53 THR 48 A TYR 49 n 54 TYR 49 A SER 50 n 55 SER 50 A ASP 51 n 56 ASP 51 A ARG 52 n 57 ARG 52 A LEU 53 n 58 LEU 53 A LYS 54 n 59 LYS 54 A VAL 55 n 60 VAL 55 A VAL 56 n 61 VAL 56 A LYS 57 n 62 LYS 57 A LEU 58 n 63 LEU 58 A GLU 59 n 64 GLU 59 A ILE 60 n 65 ILE 60 A ASP 61 n 66 ASP 61 A PRO 62 n 67 PRO 62 A ASN 63 n 68 ASN 63 A PRO 64 n 69 PRO 64 A THR 65 n 70 THR 65 A THR 66 n 71 THR 66 A VAL 67 n 72 VAL 67 A LYS 68 n 73 LYS 68 A LYS 69 n 74 LYS 69 A TYR 70 n 75 TYR 70 A LYS 71 n 76 LYS 71 A VAL 72 n 77 VAL 72 A GLU 73 n 78 GLU 73 A GLY 74 n 79 GLY 74 A VAL 75 n 80 VAL 75 A PRO 76 n 81 PRO 76 A ALA 77 n 82 ALA 77 A LEU 78 n 83 LEU 78 A ARG 79 n 84 ARG 79 A LEU 80 n 85 LEU 80 A VAL 81 n 86 VAL 81 A LYS 82 n 87 LYS 82 A GLY 83 n 88 GLY 83 A GLU 84 n 89 GLU 84 A GLN 85 n 90 GLN 85 A ILE 86 n 91 ILE 86 A LEU 87 n 92 LEU 87 A ASP 88 n 93 ASP 88 A SER 89 n 94 SER 89 A THR 90 n 95 THR 90 A GLU 91 n 96 GLU 91 A GLY 92 n 97 GLY 92 A VAL 93 n 98 VAL 93 A ILE 94 n 99 ILE 94 A SER 95 n 100 SER 95 A LYS 96 n 101 LYS 96 A ASP 97 n 102 ASP 97 A LYS 98 n 103 LYS 98 A LEU 99 n 104 LEU 99 A LEU 100 n 105 LEU 100 A SER 101 n 106 SER 101 A PHE 102 n 107 PHE 102 A LEU 103 n 108 LEU 103 A ASP 104 n 109 ASP 104 A THR 105 n 110 THR 105 A HIS 106 n 111 HIS 106 A LEU 107 n 112 LEU 107 A ASN 108 n 113 ASN 108 A n 114 109 A n 115 110 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 O ILE 5 A O ILE 10 A N VAL 55 A N VAL 60 A O LYS 54 A O LYS 59 A N PRO 22 A N PRO 27 A O VAL 23 A O VAL 28 A N VAL 81 A N VAL 86 A O LEU 78 A O LEU 83 A N THR 90 A N THR 95 1 A MET -4 A MET 1 1 Y 1 A GLU -3 A GLU 2 1 Y 1 A THR -2 A THR 3 1 Y 1 A ALA -1 A ALA 4 1 Y 1 A MET 0 A MET 5 1 Y 1 A ASN 109 A ASN 114 1 Y 1 A ASN 110 A ASN 115 1 Y 1 A A H H1 GLY HOH 83 1023 1.10 1 A A HG1 H1 THR HOH 65 2004 1.25 1 A A H H2 SER HOH 30 1131 1.34 1 A A HZ3 H1 LYS HOH 57 1097 1.34 1 A A H2 H2 HOH HOH 1056 1057 1.35 1 A A HZ3 O LYS HOH 57 1097 1.46 1 A A H1 O HOH HOH 1108 1109 1.56 1 A A CD1 O ILE HOH 5 1060 1.66 B 1 A A HZ2 H1 LYS HOH 57 1077 1.17 1_555 3_546 1 A A OD1 H2 ASP HOH 61 1003 1.54 1_555 3_556 18.41 RESIDUES SER 1 AND LYS 2 COULD BE BUILT IN TWO ALTERNATE ORIENTATIONS ROTATED 180 DEGREES AROUND THE C-ALPHA - C BOND OF LYS 2. MOST OF THESE ATOMS HAVE GOOD ELECTRON DENSITY IN BOTH ORIENTATIONS, AND A POSITIVE DIFFERENCE FOURIER DENSITY SHOWS THE PRESENCE OF THE OTHER ORIENTATION, IN EITHER OF THE CASES. 0.229 0.175 0.175 1.6 7.0 10103 1 2.0 1.6 7.0 74 918 0 0 844 1THX 10467 0.035 1 3.3 78.6 data collection DENZO/CCP4 model building X-PLOR refinement X-PLOR data reduction DENZO data reduction CCP4 phasing X-PLOR THIOREDOXIN THIOREDOXIN-2 1 N N 2 N N A ASP 9 A ASP 14 HELX_P A GLU 15 A GLU 20 5 1 7 A GLY 33 A GLY 38 HELX_P A THR 48 A THR 53 1 2 16 A PRO 64 A PRO 69 HELX_P A LYS 69 A LYS 74 1 3 6 A LYS 96 A LYS 101 HELX_P A HIS 106 A HIS 111 1 4 11 disulf 2.037 A CYS 32 A SG CYS 37 1_555 A CYS 35 A SG CYS 40 1_555 ELECTRON TRANSPORT OXIDO-REDUCTASE, ELECTRON TRANSPORT A VAL 75 A VAL 80 1 A PRO 76 A PRO 81 -0.18 THIO2_ANASP UNP 1 1 P20857 SKGVITITDAEFESEVLKAEQPVLVYFWASWCGPCQLMSPLINLAANTYSDRLKVVKLEIDPNPTTVKKYKVEGVPALRL VKGEQILDSTEGVISKDKLLSFLDTHLNNN 1 110 1THX 1 110 P20857 A 1 6 115 5 parallel parallel anti-parallel anti-parallel A VAL 4 A VAL 9 A THR 6 A THR 11 A LEU 53 A LEU 58 A GLU 59 A GLU 64 A PRO 22 A PRO 27 A TRP 28 A TRP 33 A ALA 77 A ALA 82 A LYS 82 A LYS 87 A GLN 85 A GLN 90 A GLU 91 A GLU 96 Unknown 2 A CYS 32 A CYS 37 2 1_555 A CYS 35 A CYS 40 2 1_555 19 P 21 21 21