1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 RESIDUE 60 IS A CIS PROLINE. Sodano, P. Xia, T.-H. Bushweller, J.H. Bjornberg, O. Holmgren, A. Billeter, M. Wuthrich, K. 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 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 J.Mol.Biol. JMOBAK 0070 0022-2836 221 1311 1324 10.1016/0022-2836(91)90935-Y 1942053 Sequence-specific 1H n.m.r. assignments and determination of the three-dimensional structure of reduced Escherichia coli glutaredoxin. 1991 US Protein Sci. PRCIEI 0795 0961-8368 1 310 The NMR Structure of Oxidized E. Coli Glutaredoxin. Comparison with Reduced E. Coli Glutaredoxin and Functionally Related Proteins 1992 IX Eur.J.Biochem. EJBCAI 0262 0014-2956 200 369 Nuclear Magnetic Resonance Studies of Recombinant Escherichia Coli Glutaredoxin: Sequence-Specific Assignments and Secondary Structure Determination for the Oxidized Form 1991 US Protein Expr.Purif. PEXPEJ 0757 1046-5928 2 287 Characterization of Homogeneous Recombinant Glutaredoxin from Escherichia Coli: Purification from an Inducible Lambda-P(L) Expression System and Properties of a Novel Elongated Form Protein Expression and Purification 1991 10.2210/pdb1egr/pdb pdb_00001egr 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 9695.823 GLUTAREDOXIN 1 man polymer no no MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVK ENLDA MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVK ENLDA 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 Escherichia sample 562 Escherichia coli database_2 pdbx_database_status pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Database references Derived calculations Other 1 0 1993-10-31 1 1 2008-03-24 1 2 2011-07-13 1 3 2022-02-16 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site Y BNL 1991-10-08 REL REL 20 BRAUN,WUTHRICH refinement DIANA BRUNGER refinement X-PLOR MET 1 n 1 MET 1 A GLN 2 n 2 GLN 2 A THR 3 n 3 THR 3 A VAL 4 n 4 VAL 4 A ILE 5 n 5 ILE 5 A PHE 6 n 6 PHE 6 A GLY 7 n 7 GLY 7 A ARG 8 n 8 ARG 8 A SER 9 n 9 SER 9 A GLY 10 n 10 GLY 10 A CYS 11 n 11 CYS 11 A PRO 12 n 12 PRO 12 A TYR 13 n 13 TYR 13 A CYS 14 n 14 CYS 14 A VAL 15 n 15 VAL 15 A ARG 16 n 16 ARG 16 A ALA 17 n 17 ALA 17 A LYS 18 n 18 LYS 18 A ASP 19 n 19 ASP 19 A LEU 20 n 20 LEU 20 A ALA 21 n 21 ALA 21 A GLU 22 n 22 GLU 22 A LYS 23 n 23 LYS 23 A LEU 24 n 24 LEU 24 A SER 25 n 25 SER 25 A ASN 26 n 26 ASN 26 A GLU 27 n 27 GLU 27 A ARG 28 n 28 ARG 28 A ASP 29 n 29 ASP 29 A ASP 30 n 30 ASP 30 A PHE 31 n 31 PHE 31 A GLN 32 n 32 GLN 32 A TYR 33 n 33 TYR 33 A GLN 34 n 34 GLN 34 A TYR 35 n 35 TYR 35 A VAL 36 n 36 VAL 36 A ASP 37 n 37 ASP 37 A ILE 38 n 38 ILE 38 A ARG 39 n 39 ARG 39 A ALA 40 n 40 ALA 40 A GLU 41 n 41 GLU 41 A GLY 42 n 42 GLY 42 A ILE 43 n 43 ILE 43 A THR 44 n 44 THR 44 A LYS 45 n 45 LYS 45 A GLU 46 n 46 GLU 46 A ASP 47 n 47 ASP 47 A LEU 48 n 48 LEU 48 A GLN 49 n 49 GLN 49 A GLN 50 n 50 GLN 50 A LYS 51 n 51 LYS 51 A ALA 52 n 52 ALA 52 A GLY 53 n 53 GLY 53 A LYS 54 n 54 LYS 54 A PRO 55 n 55 PRO 55 A VAL 56 n 56 VAL 56 A GLU 57 n 57 GLU 57 A THR 58 n 58 THR 58 A VAL 59 n 59 VAL 59 A PRO 60 n 60 PRO 60 A GLN 61 n 61 GLN 61 A ILE 62 n 62 ILE 62 A PHE 63 n 63 PHE 63 A VAL 64 n 64 VAL 64 A ASP 65 n 65 ASP 65 A GLN 66 n 66 GLN 66 A GLN 67 n 67 GLN 67 A HIS 68 n 68 HIS 68 A ILE 69 n 69 ILE 69 A GLY 70 n 70 GLY 70 A GLY 71 n 71 GLY 71 A TYR 72 n 72 TYR 72 A THR 73 n 73 THR 73 A ASP 74 n 74 ASP 74 A PHE 75 n 75 PHE 75 A ALA 76 n 76 ALA 76 A ALA 77 n 77 ALA 77 A TRP 78 n 78 TRP 78 A VAL 79 n 79 VAL 79 A LYS 80 n 80 LYS 80 A GLU 81 n 81 GLU 81 A ASN 82 n 82 ASN 82 A LEU 83 n 83 LEU 83 A ASP 84 n 84 ASP 84 A ALA 85 n 85 ALA 85 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 GLN 34 A O GLN 34 A N ILE 5 A N ILE 5 A O VAL 4 A O VAL 4 A N PHE 63 A N PHE 63 A O ILE 62 A O ILE 62 A N ILE 69 A N ILE 69 4 A A LYS PRO 54 55 138.15 8 A A LYS PRO 54 55 -138.78 9 A A LYS PRO 54 55 143.41 11 A A LYS PRO 54 55 96.83 12 A A LYS PRO 54 55 128.16 13 A A LYS PRO 54 55 146.22 14 A A CYS PRO 11 12 -122.27 14 A A LYS PRO 54 55 147.85 15 A A CYS PRO 11 12 -127.22 15 A A LYS PRO 54 55 131.96 16 A A LYS PRO 54 55 137.34 17 A A LYS PRO 54 55 -143.09 19 A A CYS PRO 11 12 -147.36 20 A A LYS PRO 54 55 127.18 1 A ARG 8 0.293 SIDE CHAIN 1 A ARG 16 0.189 SIDE CHAIN 1 A ARG 28 0.321 SIDE CHAIN 1 A ARG 39 0.274 SIDE CHAIN 2 A ARG 8 0.292 SIDE CHAIN 2 A ARG 16 0.224 SIDE CHAIN 2 A ARG 28 0.262 SIDE CHAIN 2 A ARG 39 0.252 SIDE CHAIN 3 A ARG 8 0.322 SIDE CHAIN 3 A ARG 16 0.187 SIDE CHAIN 3 A ARG 28 0.218 SIDE CHAIN 3 A ARG 39 0.304 SIDE CHAIN 4 A ARG 8 0.190 SIDE CHAIN 4 A ARG 16 0.190 SIDE CHAIN 4 A ARG 28 0.261 SIDE CHAIN 4 A ARG 39 0.293 SIDE CHAIN 5 A ARG 8 0.303 SIDE CHAIN 5 A ARG 16 0.236 SIDE CHAIN 5 A ARG 28 0.140 SIDE CHAIN 5 A ARG 39 0.175 SIDE CHAIN 6 A ARG 8 0.311 SIDE CHAIN 6 A ARG 16 0.316 SIDE CHAIN 6 A ARG 28 0.317 SIDE CHAIN 6 A ARG 39 0.273 SIDE CHAIN 7 A ARG 8 0.296 SIDE CHAIN 7 A ARG 16 0.256 SIDE CHAIN 7 A ARG 28 0.326 SIDE CHAIN 7 A ARG 39 0.276 SIDE CHAIN 8 A ARG 8 0.256 SIDE CHAIN 8 A ARG 16 0.318 SIDE CHAIN 8 A ARG 28 0.264 SIDE CHAIN 8 A ARG 39 0.254 SIDE CHAIN 9 A ARG 8 0.303 SIDE CHAIN 9 A ARG 16 0.272 SIDE CHAIN 9 A ARG 28 0.322 SIDE CHAIN 9 A ARG 39 0.304 SIDE CHAIN 10 A ARG 8 0.302 SIDE CHAIN 10 A ARG 16 0.304 SIDE CHAIN 10 A ARG 28 0.229 SIDE CHAIN 10 A ARG 39 0.311 SIDE CHAIN 11 A ARG 8 0.205 SIDE CHAIN 11 A ARG 16 0.306 SIDE CHAIN 11 A ARG 39 0.319 SIDE CHAIN 12 A ARG 8 0.241 SIDE CHAIN 12 A ARG 16 0.233 SIDE CHAIN 12 A ARG 28 0.191 SIDE CHAIN 12 A TYR 35 0.063 SIDE CHAIN 12 A ARG 39 0.291 SIDE CHAIN 13 A ARG 8 0.314 SIDE CHAIN 13 A ARG 16 0.231 SIDE CHAIN 13 A ARG 28 0.166 SIDE CHAIN 13 A ARG 39 0.308 SIDE CHAIN 14 A ARG 8 0.318 SIDE CHAIN 14 A ARG 16 0.319 SIDE CHAIN 14 A ARG 28 0.177 SIDE CHAIN 14 A ARG 39 0.299 SIDE CHAIN 15 A ARG 8 0.312 SIDE CHAIN 15 A ARG 16 0.269 SIDE CHAIN 15 A ARG 28 0.313 SIDE CHAIN 15 A ARG 39 0.316 SIDE CHAIN 16 A ARG 8 0.286 SIDE CHAIN 16 A ARG 16 0.258 SIDE CHAIN 16 A ARG 28 0.301 SIDE CHAIN 16 A ARG 39 0.314 SIDE CHAIN 17 A ARG 8 0.158 SIDE CHAIN 17 A ARG 16 0.266 SIDE CHAIN 17 A ARG 28 0.314 SIDE CHAIN 17 A ARG 39 0.316 SIDE CHAIN 18 A ARG 8 0.300 SIDE CHAIN 18 A ARG 16 0.315 SIDE CHAIN 18 A ARG 28 0.147 SIDE CHAIN 18 A TYR 35 0.064 SIDE CHAIN 18 A ARG 39 0.233 SIDE CHAIN 19 A ARG 8 0.311 SIDE CHAIN 19 A ARG 16 0.188 SIDE CHAIN 19 A ARG 28 0.297 SIDE CHAIN 19 A ARG 39 0.215 SIDE CHAIN 20 A ARG 8 0.209 SIDE CHAIN 20 A ARG 16 0.255 SIDE CHAIN 20 A ARG 28 0.210 SIDE CHAIN 20 A ARG 39 0.313 SIDE CHAIN 1 -5.58 0.90 133.90 128.32 A A A CG CD2 CE3 TRP TRP TRP 78 78 78 N 3 -3.31 0.50 120.30 116.99 A A A NE CZ NH2 ARG ARG ARG 28 28 28 N 7 -3.12 0.50 120.30 117.18 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 9 -3.03 0.50 120.30 117.27 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 10 -3.06 0.50 120.30 117.24 A A A NE CZ NH2 ARG ARG ARG 16 16 16 N 13 -3.08 0.50 120.30 117.22 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 13 -5.84 0.90 133.90 128.06 A A A CG CD2 CE3 TRP TRP TRP 78 78 78 N 15 -3.76 0.50 120.30 116.54 A A A NE CZ NH2 ARG ARG ARG 28 28 28 N 16 -3.31 0.50 120.30 116.99 A A A NE CZ NH2 ARG ARG ARG 16 16 16 N 17 -3.11 0.50 120.30 117.19 A A A NE CZ NH2 ARG ARG ARG 8 8 8 N 1 A A NE2 CD2 HIS HIS 68 68 -0.072 0.011 1.373 1.301 N 2 A A NE2 CD2 HIS HIS 68 68 -0.075 0.011 1.373 1.298 N 3 A A NE2 CD2 HIS HIS 68 68 -0.074 0.011 1.373 1.299 N 4 A A NE2 CD2 HIS HIS 68 68 -0.073 0.011 1.373 1.300 N 5 A A NE2 CD2 HIS HIS 68 68 -0.078 0.011 1.373 1.295 N 6 A A NE2 CD2 HIS HIS 68 68 -0.075 0.011 1.373 1.298 N 7 A A NE2 CD2 HIS HIS 68 68 -0.077 0.011 1.373 1.296 N 8 A A NE2 CD2 HIS HIS 68 68 -0.073 0.011 1.373 1.300 N 9 A A NE2 CD2 HIS HIS 68 68 -0.077 0.011 1.373 1.296 N 10 A A NE2 CD2 HIS HIS 68 68 -0.074 0.011 1.373 1.299 N 11 A A NE2 CD2 HIS HIS 68 68 -0.075 0.011 1.373 1.298 N 12 A A NE2 CD2 HIS HIS 68 68 -0.080 0.011 1.373 1.293 N 13 A A NE2 CD2 HIS HIS 68 68 -0.079 0.011 1.373 1.294 N 14 A A NE2 CD2 HIS HIS 68 68 -0.077 0.011 1.373 1.296 N 15 A A NE2 CD2 HIS HIS 68 68 -0.075 0.011 1.373 1.298 N 16 A A NE2 CD2 HIS HIS 68 68 -0.078 0.011 1.373 1.295 N 17 A A NE2 CD2 HIS HIS 68 68 -0.083 0.011 1.373 1.290 N 18 A A NE2 CD2 HIS HIS 68 68 -0.077 0.011 1.373 1.296 N 19 A A NE2 CD2 HIS HIS 68 68 -0.076 0.011 1.373 1.297 N 20 A A NE2 CD2 HIS HIS 68 68 -0.078 0.011 1.373 1.295 N 1 A PRO 12 -69.77 51.27 1 A ASP 29 -63.88 3.68 1 A ALA 40 -39.09 -39.91 1 A LYS 54 37.20 76.03 1 A PRO 55 -90.35 33.79 1 A VAL 56 32.06 -102.17 1 A ASP 65 54.93 -79.37 2 A ARG 8 -113.62 -162.04 2 A TYR 13 -112.92 -73.54 2 A GLU 57 -26.14 -64.06 2 A THR 58 -116.79 -154.50 2 A ASP 65 57.41 -94.76 3 A ASP 29 -62.17 12.27 3 A THR 44 -118.70 -92.77 3 A LYS 45 -138.45 -55.16 3 A GLU 57 -133.65 -43.08 3 A THR 58 -114.54 -148.31 3 A GLN 66 -122.95 -56.40 3 A ASN 82 -143.68 -41.79 3 A ASP 84 -103.26 -134.70 4 A ARG 8 -135.88 -114.37 4 A SER 9 -113.58 -74.81 4 A GLU 27 -133.62 -48.47 4 A ASP 29 -80.90 35.04 4 A GLU 57 -101.65 -109.69 4 A THR 58 -120.26 -73.48 4 A ASP 65 70.90 -75.83 5 A CYS 11 108.82 165.44 5 A PRO 12 -54.76 75.99 5 A TYR 13 -113.82 -77.89 5 A ASP 30 -82.86 41.19 5 A PRO 55 -41.92 94.70 5 A VAL 56 33.32 -95.04 5 A GLU 57 109.14 -170.21 5 A THR 58 -104.03 -152.49 5 A ASP 65 51.08 -81.25 5 A GLU 81 -140.21 -45.47 5 A ASP 84 -89.08 46.62 6 A PRO 12 -72.55 48.53 6 A ASN 26 -98.30 40.36 6 A GLU 27 -142.53 -52.30 6 A ASP 29 71.51 -40.55 6 A THR 58 -116.08 -169.27 6 A ASP 65 65.50 -72.72 6 A TYR 72 -137.97 -55.85 6 A ASN 82 -147.50 -36.11 6 A ASP 84 -93.29 -64.82 7 A SER 9 -54.98 73.35 7 A VAL 15 -44.75 -12.74 7 A GLU 27 -121.17 -65.70 7 A ARG 28 -122.26 -166.77 7 A PRO 55 -48.67 155.15 7 A GLU 57 63.58 -145.92 7 A ASP 65 63.01 -82.20 7 A THR 73 78.23 -64.69 7 A ASP 84 -93.89 30.08 8 A SER 9 -102.89 -65.15 8 A PRO 12 -57.04 67.05 8 A ASP 65 54.50 -79.65 8 A ASP 84 41.11 -69.46 9 A SER 9 -55.76 76.65 9 A ASP 29 28.81 52.76 9 A ASP 30 -155.18 -45.31 9 A PRO 55 -50.36 68.29 9 A VAL 56 -144.40 47.68 9 A ASP 65 64.67 -86.19 9 A LEU 83 -117.16 53.07 9 A ASP 84 -78.95 49.83 10 A ARG 8 -108.76 -141.60 10 A SER 9 -56.51 176.41 10 A TYR 13 -109.40 -94.60 10 A ASP 29 34.46 47.20 10 A PRO 55 -67.23 89.79 10 A THR 58 -144.39 -61.82 10 A ASP 65 50.95 -97.38 11 A PRO 12 -53.00 73.86 11 A TYR 13 -119.54 -85.09 11 A GLU 27 -140.73 -51.65 11 A GLU 41 -99.55 36.82 11 A LYS 54 60.10 126.85 11 A GLU 57 -79.08 33.00 11 A THR 58 39.27 -109.57 11 A ASP 65 65.98 -76.07 11 A GLN 66 -142.94 -9.11 11 A THR 73 67.73 -68.14 11 A LEU 83 -102.31 -73.12 11 A ASP 84 31.65 42.52 12 A PRO 12 -55.93 73.97 12 A GLU 27 -138.74 -35.44 12 A ASP 29 -80.16 32.56 12 A LYS 54 31.14 -147.39 12 A GLU 57 -115.40 -94.25 12 A THR 58 -142.86 -156.05 12 A VAL 59 -114.78 -169.05 12 A PRO 60 -68.57 -175.42 12 A ASP 65 54.44 -101.94 12 A ILE 69 -101.33 -99.81 12 A ASP 84 60.67 -65.92 13 A SER 9 -51.77 106.36 13 A PRO 12 -58.78 -3.57 13 A GLU 27 -130.11 -51.39 13 A GLU 41 -105.50 44.53 13 A PRO 55 -48.22 155.61 13 A ASP 65 65.49 -83.58 13 A ASN 82 -140.20 -36.68 14 A TYR 13 53.15 -68.73 14 A GLU 27 -120.82 -59.19 14 A ASP 30 -83.51 41.68 14 A PRO 55 -50.82 -157.87 14 A VAL 56 -114.16 70.51 14 A THR 58 41.26 -112.53 14 A ASP 65 53.94 -85.58 14 A ASP 84 32.27 80.03 15 A PHE 6 -107.81 73.41 15 A SER 9 -117.29 -168.19 15 A PRO 12 -17.74 -68.49 15 A TYR 13 47.36 -66.81 15 A ASN 26 -95.73 32.38 15 A GLU 27 -130.09 -66.06 15 A ASP 29 -74.50 30.06 15 A THR 44 -91.96 -144.16 15 A LYS 54 31.44 -162.61 15 A PRO 55 -103.75 -157.92 15 A THR 58 -92.07 -136.24 15 A ASP 65 55.02 -87.12 16 A SER 9 -78.11 -155.05 16 A PRO 12 -75.87 31.73 16 A TYR 13 -125.13 -63.78 16 A ASP 29 -74.05 31.03 16 A LYS 54 -143.84 55.64 16 A VAL 56 -122.18 -61.46 16 A ASP 65 53.55 -83.67 16 A TYR 72 -136.03 -50.61 16 A ASP 84 33.75 48.18 17 A PRO 12 -48.00 -13.82 17 A ASN 26 -91.96 41.51 17 A GLU 27 -128.29 -66.06 17 A ASP 29 -94.07 32.30 17 A PRO 55 -19.80 -131.97 17 A GLU 57 50.23 -160.36 17 A THR 58 -139.59 -151.39 17 A ASP 65 66.82 -74.50 17 A ASP 84 -100.12 41.56 18 A CYS 11 74.56 108.51 18 A PRO 12 -65.61 59.43 18 A ASN 26 -83.72 38.64 18 A GLU 27 -137.61 -50.30 18 A THR 44 -117.08 -89.02 18 A LYS 45 -140.87 -48.07 18 A ASP 65 50.81 -102.73 18 A ASP 84 31.58 70.22 19 A PRO 12 -62.85 64.26 19 A TYR 13 -121.69 -70.24 19 A GLU 27 -135.07 -65.96 19 A ASP 30 -84.45 44.82 19 A LYS 54 -155.22 56.24 19 A PRO 55 -98.66 42.95 19 A VAL 56 36.48 -118.50 19 A ASP 65 65.21 -74.41 19 A ASP 84 53.78 80.70 20 A ARG 8 -102.03 64.24 20 A SER 9 58.31 -77.48 20 A ASP 30 -109.63 53.46 20 A PRO 55 -33.46 82.70 20 A GLU 57 61.37 -108.39 20 A THR 58 -129.92 -86.51 20 A ASP 65 66.91 -72.60 20 A ASN 82 -141.05 -49.03 model building X-PLOR refinement X-PLOR phasing X-PLOR SEQUENCE-SPECIFIC 1H N.M.R. ASSIGNMENTS AND DETERMINATION OF THE THREE-DIMENSIONAL STRUCTURE OF REDUCED ESCHERICHIA COLI GLUTAREDOXIN 1 Y N A TYR 13 A TYR 13 HELX_P ALPHA HELIX A ARG 28 A ARG 28 1 H1 16 A THR 44 A THR 44 HELX_P ALPHA HELIX A GLY 53 A GLY 53 1 H2 10 A GLY 71 A GLY 71 HELX_P ALPHA HELIX A LEU 83 A LEU 83 1 H3 13 ELECTRON TRANSPORT ELECTRON TRANSPORT A VAL 59 A VAL 59 1 A PRO 60 A PRO 60 -7.27 A VAL 59 A VAL 59 2 A PRO 60 A PRO 60 -18.26 A VAL 59 A VAL 59 3 A PRO 60 A PRO 60 -11.45 A VAL 59 A VAL 59 4 A PRO 60 A PRO 60 -6.89 A VAL 59 A VAL 59 5 A PRO 60 A PRO 60 10.99 A VAL 59 A VAL 59 6 A PRO 60 A PRO 60 -7.86 A VAL 59 A VAL 59 7 A PRO 60 A PRO 60 17.09 A VAL 59 A VAL 59 8 A PRO 60 A PRO 60 -18.58 A VAL 59 A VAL 59 9 A PRO 60 A PRO 60 7.90 A VAL 59 A VAL 59 10 A PRO 60 A PRO 60 -25.67 A VAL 59 A VAL 59 11 A PRO 60 A PRO 60 0.13 A VAL 59 A VAL 59 12 A PRO 60 A PRO 60 -28.58 A VAL 59 A VAL 59 13 A PRO 60 A PRO 60 9.94 A VAL 59 A VAL 59 14 A PRO 60 A PRO 60 -20.23 A VAL 59 A VAL 59 15 A PRO 60 A PRO 60 2.41 A VAL 59 A VAL 59 16 A PRO 60 A PRO 60 -0.18 A VAL 59 A VAL 59 17 A PRO 60 A PRO 60 2.58 A VAL 59 A VAL 59 18 A PRO 60 A PRO 60 -8.95 A VAL 59 A VAL 59 19 A PRO 60 A PRO 60 -5.86 A VAL 59 A VAL 59 20 A PRO 60 A PRO 60 -9.29 GLRX1_ECOLI UNP 1 1 P68688 MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVK ENLDA 1 85 1EGR 1 85 P68688 A 1 1 85 4 parallel anti-parallel anti-parallel A GLN 32 A GLN 32 A ASP 37 A ASP 37 A GLN 2 A GLN 2 A GLY 7 A GLY 7 A GLN 61 A GLN 61 A VAL 64 A VAL 64 A GLN 67 A GLN 67 A ILE 69 A ILE 69 1 P 1