1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Chang, X. Connelly, G. Yee, A. Kennedy, M.A. Edwards, A.M. Arrowsmith, C.H. Northeast Structural Genomics Consortium (NESG) http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 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 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 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 US Proc.Natl.Acad.Sci.USA PNASA6 0040 0027-8424 99 1825 1830 10.1073/pnas.042684599 11854485 An NMR approach to structural proteomics. 2002 10.2210/pdb1jw3/pdb pdb_00001jw3 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 SINGLE WAVELENGTH M 1 1.0 16202.257 Conserved Hypothetical Protein MTH1598 1 nat polymer no no MKGFEFFDVTADAGFWAYGHDLEEVFENAALAMFEVMTDTSLVEAAEERRVEITSEDRVSLLYDWLDELLFIHDTEFILF SKFKVKIDEKDDGLHLTGTAMGEEIKEGHERRDEVKAVTFHMMEILDEDGLIKARVILDL MKGFEFFDVTADAGFWAYGHDLEEVFENAALAMFEVMTDTSLVEAAEERRVEITSEDRVSLLYDWLDELLFIHDTEFILF SKFKVKIDEKDDGLHLTGTAMGEEIKEGHERRDEVKAVTFHMMEILDEDGLIKARVILDL A TT6 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 n n n n n n n n n n n n n n n n Methanothermobacter sample 145262 Methanothermobacter thermautotrophicus PET15B Northeast Structural Genomics Consortium NESG PSI, Protein Structure Initiative database_2 pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Database references Derived calculations 1 0 2002-02-27 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession Y RCSB Y RCSB 2001-09-02 REL REL structures with the lowest energy 50 10 4D_13C-separated_NOESY 3D_13C-separated_NOESY 3D_15N-separated_NOESY 300 mM NaCl 6.5 ambient 298 K The structures are based on a total of 1347 restraints, 1157 are NOE-derived distance constraints, 190 dihedral angle restraints. distance geometry simulated annealing 2mM MTH1598 U-15N,13C 300 mM NaCl,10 mM Phosphate, 10% D2O, pH 6.5 Delagio processing NMRPipe 2000.02.14 Goddard data analysis Sparky 3.95 Brunger structure solution CNS 1.0 Brunger refinement CNS 1.0 800 Varian INOVA 750 Varian INOVA 600 Varian INOVA 500 Varian INOVA MET 1 n 1 MET 1 A LYS 2 n 2 LYS 2 A GLY 3 n 3 GLY 3 A PHE 4 n 4 PHE 4 A GLU 5 n 5 GLU 5 A PHE 6 n 6 PHE 6 A PHE 7 n 7 PHE 7 A ASP 8 n 8 ASP 8 A VAL 9 n 9 VAL 9 A THR 10 n 10 THR 10 A ALA 11 n 11 ALA 11 A ASP 12 n 12 ASP 12 A ALA 13 n 13 ALA 13 A GLY 14 n 14 GLY 14 A PHE 15 n 15 PHE 15 A TRP 16 n 16 TRP 16 A ALA 17 n 17 ALA 17 A TYR 18 n 18 TYR 18 A GLY 19 n 19 GLY 19 A HIS 20 n 20 HIS 20 A ASP 21 n 21 ASP 21 A LEU 22 n 22 LEU 22 A GLU 23 n 23 GLU 23 A GLU 24 n 24 GLU 24 A VAL 25 n 25 VAL 25 A PHE 26 n 26 PHE 26 A GLU 27 n 27 GLU 27 A ASN 28 n 28 ASN 28 A ALA 29 n 29 ALA 29 A ALA 30 n 30 ALA 30 A LEU 31 n 31 LEU 31 A ALA 32 n 32 ALA 32 A MET 33 n 33 MET 33 A PHE 34 n 34 PHE 34 A GLU 35 n 35 GLU 35 A VAL 36 n 36 VAL 36 A MET 37 n 37 MET 37 A THR 38 n 38 THR 38 A ASP 39 n 39 ASP 39 A THR 40 n 40 THR 40 A SER 41 n 41 SER 41 A LEU 42 n 42 LEU 42 A VAL 43 n 43 VAL 43 A GLU 44 n 44 GLU 44 A ALA 45 n 45 ALA 45 A ALA 46 n 46 ALA 46 A GLU 47 n 47 GLU 47 A GLU 48 n 48 GLU 48 A ARG 49 n 49 ARG 49 A ARG 50 n 50 ARG 50 A VAL 51 n 51 VAL 51 A GLU 52 n 52 GLU 52 A ILE 53 n 53 ILE 53 A THR 54 n 54 THR 54 A SER 55 n 55 SER 55 A GLU 56 n 56 GLU 56 A ASP 57 n 57 ASP 57 A ARG 58 n 58 ARG 58 A VAL 59 n 59 VAL 59 A SER 60 n 60 SER 60 A LEU 61 n 61 LEU 61 A LEU 62 n 62 LEU 62 A TYR 63 n 63 TYR 63 A ASP 64 n 64 ASP 64 A TRP 65 n 65 TRP 65 A LEU 66 n 66 LEU 66 A ASP 67 n 67 ASP 67 A GLU 68 n 68 GLU 68 A LEU 69 n 69 LEU 69 A LEU 70 n 70 LEU 70 A PHE 71 n 71 PHE 71 A ILE 72 n 72 ILE 72 A HIS 73 n 73 HIS 73 A ASP 74 n 74 ASP 74 A THR 75 n 75 THR 75 A GLU 76 n 76 GLU 76 A PHE 77 n 77 PHE 77 A ILE 78 n 78 ILE 78 A LEU 79 n 79 LEU 79 A PHE 80 n 80 PHE 80 A SER 81 n 81 SER 81 A LYS 82 n 82 LYS 82 A PHE 83 n 83 PHE 83 A LYS 84 n 84 LYS 84 A VAL 85 n 85 VAL 85 A LYS 86 n 86 LYS 86 A ILE 87 n 87 ILE 87 A ASP 88 n 88 ASP 88 A GLU 89 n 89 GLU 89 A LYS 90 n 90 LYS 90 A ASP 91 n 91 ASP 91 A ASP 92 n 92 ASP 92 A GLY 93 n 93 GLY 93 A LEU 94 n 94 LEU 94 A HIS 95 n 95 HIS 95 A LEU 96 n 96 LEU 96 A THR 97 n 97 THR 97 A GLY 98 n 98 GLY 98 A THR 99 n 99 THR 99 A ALA 100 n 100 ALA 100 A MET 101 n 101 MET 101 A GLY 102 n 102 GLY 102 A GLU 103 n 103 GLU 103 A GLU 104 n 104 GLU 104 A ILE 105 n 105 ILE 105 A LYS 106 n 106 LYS 106 A GLU 107 n 107 GLU 107 A GLY 108 n 108 GLY 108 A HIS 109 n 109 HIS 109 A GLU 110 n 110 GLU 110 A ARG 111 n 111 ARG 111 A ARG 112 n 112 ARG 112 A ASP 113 n 113 ASP 113 A GLU 114 n 114 GLU 114 A VAL 115 n 115 VAL 115 A LYS 116 n 116 LYS 116 A ALA 117 n 117 ALA 117 A VAL 118 n 118 VAL 118 A THR 119 n 119 THR 119 A PHE 120 n 120 PHE 120 A HIS 121 n 121 HIS 121 A MET 122 n 122 MET 122 A MET 123 n 123 MET 123 A GLU 124 n 124 GLU 124 A ILE 125 n 125 ILE 125 A LEU 126 n 126 LEU 126 A ASP 127 n 127 ASP 127 A GLU 128 n 128 GLU 128 A ASP 129 n 129 ASP 129 A GLY 130 n 130 GLY 130 A LEU 131 n 131 LEU 131 A ILE 132 n 132 ILE 132 A LYS 133 n 133 LYS 133 A ALA 134 n 134 ALA 134 A ARG 135 n 135 ARG 135 A VAL 136 n 136 VAL 136 A ILE 137 n 137 ILE 137 A LEU 138 n 138 LEU 138 A ASP 139 n 139 ASP 139 A LEU 140 n 140 LEU 140 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 5 A N GLU 5 A O TRP 16 A O TRP 16 A N ALA 17 A N ALA 17 A O ALA 134 A O ALA 134 A O LEU 131 A O LEU 131 A N GLU 128 A N GLU 128 A N ARG 49 A N ARG 49 A O ALA 100 A O ALA 100 A O THR 97 A O THR 97 A N LYS 86 A N LYS 86 2 A A O H LYS THR 86 97 1.50 2 A A O H ALA LEU 11 140 1.54 2 A A O H ILE LEU 53 96 1.55 2 A A H O LYS THR 86 97 1.58 2 A A HA2 O GLY VAL 14 136 1.59 2 A A O H LEU GLU 31 35 1.60 3 A A O H LYS THR 86 97 1.54 3 A A H O SER LEU 55 94 1.58 3 A A O H GLU TRP 5 16 1.60 4 A A O H ALA LEU 11 140 1.39 4 A A O H LYS THR 86 97 1.46 4 A A H O ALA LEU 13 138 1.55 4 A A O H GLU TRP 5 16 1.59 4 A A CG1 O VAL ASP 9 12 2.17 5 A A O H ALA LEU 11 140 1.38 5 A A O H LYS THR 86 97 1.50 5 A A H O ALA LEU 13 138 1.58 5 A A H O SER LEU 55 94 1.59 5 A A O H GLU TRP 5 16 1.59 5 A A H O VAL GLY 51 98 1.60 6 A A O H LYS THR 86 97 1.56 6 A A H O SER LEU 55 94 1.58 7 A A O H LYS THR 86 97 1.50 7 A A O H GLU TRP 5 16 1.52 7 A A O H ALA ASP 117 139 1.59 8 A A O H LYS THR 86 97 1.51 8 A A H O ASP HIS 88 95 1.54 8 A A O H ALA LEU 13 138 1.56 8 A A H O SER LEU 55 94 1.59 9 A A O H ALA LEU 11 140 1.51 9 A A O H GLU TRP 5 16 1.53 9 A A O H LYS THR 86 97 1.55 9 A A H O ARG ALA 49 100 1.55 9 A A H O VAL GLY 51 98 1.56 9 A A O H LEU LEU 66 70 1.59 9 A A H OXT LYS LEU 116 140 1.60 9 A A O N LYS ASP 90 92 2.13 10 A A H O LYS THR 86 97 1.55 10 A A O H LYS THR 86 97 1.56 10 A A O H ILE LEU 53 96 1.56 10 A A H O ALA LEU 13 138 1.57 1 A ALA 11 106.77 -45.88 1 A HIS 20 -179.36 -28.94 1 A ASP 21 -154.95 29.90 1 A LEU 22 76.79 -56.71 1 A THR 38 -165.88 -167.28 1 A SER 41 -62.25 78.19 1 A LEU 42 173.30 -35.92 1 A GLU 44 -80.80 -82.11 1 A ALA 45 175.89 103.68 1 A GLU 56 -149.27 41.05 1 A ASP 57 -166.30 5.67 1 A ARG 58 62.70 -70.52 1 A GLU 76 -167.32 68.11 1 A PHE 77 -62.89 95.72 1 A LYS 90 -75.02 -169.59 1 A ASP 91 -56.95 4.44 1 A ASP 92 171.29 -32.52 1 A GLU 104 175.54 86.67 1 A ARG 112 -114.60 -76.83 1 A ALA 117 171.29 173.73 1 A PHE 120 17.83 53.17 1 A MET 122 -169.26 -63.66 2 A LYS 2 -97.40 37.24 2 A ASP 8 -59.08 101.97 2 A THR 10 -106.01 56.93 2 A ALA 11 148.95 -60.90 2 A ASP 21 158.13 35.08 2 A LEU 22 72.57 -49.67 2 A THR 38 165.33 170.16 2 A SER 41 69.72 -62.17 2 A LEU 42 -154.05 32.36 2 A GLU 56 -140.02 35.13 2 A ASP 57 -166.17 13.90 2 A ARG 58 65.48 -66.09 2 A GLU 76 -165.66 71.99 2 A PHE 77 -57.88 92.83 2 A LEU 79 -65.03 -74.71 2 A LYS 90 -74.81 -169.78 2 A ASP 91 -58.25 7.55 2 A ASP 92 173.62 -36.79 2 A GLU 104 172.33 84.06 2 A LYS 116 -48.58 -19.78 2 A PHE 120 -66.23 69.69 2 A MET 122 -99.25 -67.49 2 A MET 123 32.31 71.95 3 A LYS 2 -146.17 -47.59 3 A ASP 8 -58.29 103.52 3 A THR 10 -106.99 58.12 3 A ALA 11 147.82 -59.13 3 A ASP 21 -179.35 29.72 3 A LEU 22 73.23 -57.02 3 A THR 38 49.87 177.06 3 A GLU 44 -112.87 -73.27 3 A GLU 56 -143.43 31.48 3 A ASP 57 -176.02 18.41 3 A ARG 58 66.36 -60.20 3 A GLU 76 -164.90 77.13 3 A PHE 77 -55.89 92.85 3 A LEU 79 -79.40 -81.65 3 A LYS 90 -74.75 -169.19 3 A ASP 91 -53.42 2.49 3 A ASP 92 169.40 -28.85 3 A GLU 104 176.33 34.32 3 A GLU 110 56.95 98.55 3 A ALA 117 171.86 -176.08 3 A PHE 120 -37.29 101.90 3 A MET 122 176.92 -32.04 4 A ASP 8 -66.06 92.73 4 A ALA 11 115.29 -42.15 4 A ASP 21 155.68 44.46 4 A LEU 22 70.90 -57.81 4 A THR 38 -177.81 -164.80 4 A LEU 42 -113.43 61.18 4 A ALA 45 63.04 113.49 4 A GLU 56 -156.25 25.90 4 A ASP 57 -158.60 19.51 4 A ARG 58 65.87 -66.89 4 A GLU 76 -161.66 76.79 4 A PHE 77 -58.80 96.23 4 A LEU 79 -77.61 -71.71 4 A ASP 91 -58.84 6.36 4 A ASP 92 172.15 -37.60 4 A GLU 104 171.79 113.88 4 A GLU 110 57.06 83.67 4 A ALA 117 -177.59 121.72 4 A PHE 120 -69.58 67.04 4 A MET 122 -124.63 -65.08 5 A ALA 11 112.71 -45.15 5 A HIS 20 178.65 -24.96 5 A ASP 21 -165.27 29.38 5 A LEU 22 80.27 -51.70 5 A THR 38 176.70 -89.19 5 A ASP 39 175.39 107.91 5 A SER 41 -64.81 63.29 5 A LEU 42 177.89 -17.12 5 A GLU 44 -81.68 -82.00 5 A ALA 45 175.75 105.07 5 A GLU 56 -155.01 29.74 5 A ASP 57 -174.94 24.52 5 A ARG 58 63.83 -67.86 5 A GLU 76 -165.06 72.01 5 A PHE 77 -45.31 91.72 5 A ASP 91 -19.22 -37.06 5 A ASP 92 164.58 -33.12 5 A GLU 104 177.88 69.23 5 A GLU 107 -51.50 104.99 5 A GLU 110 61.18 113.94 5 A PHE 120 -69.53 69.67 5 A MET 122 -127.08 -64.22 5 A ASP 129 59.61 19.62 6 A LYS 2 -140.25 -42.31 6 A ASP 8 31.84 27.17 6 A ALA 11 -159.72 -43.01 6 A HIS 20 175.12 -29.23 6 A ASP 21 -150.37 33.04 6 A LEU 22 74.49 -58.75 6 A THR 38 48.53 -174.57 6 A ASP 39 81.79 -15.09 6 A GLU 44 -78.87 -80.92 6 A ALA 45 175.13 104.63 6 A GLU 56 -152.40 54.00 6 A ASP 57 -178.86 10.79 6 A ARG 58 63.92 -69.88 6 A GLU 76 -163.67 73.11 6 A PHE 77 -46.36 93.80 6 A ASP 91 -66.42 11.66 6 A GLU 104 92.81 89.25 6 A GLU 110 61.18 124.37 6 A ALA 117 -161.22 90.43 6 A MET 122 -121.67 -62.33 7 A ALA 11 105.39 -44.23 7 A ASP 21 -176.67 34.70 7 A LEU 22 67.69 -57.22 7 A THR 38 -160.75 -168.81 7 A ALA 45 63.73 103.30 7 A GLU 56 -151.93 40.10 7 A ASP 57 -175.95 19.84 7 A ARG 58 62.94 -69.35 7 A GLU 76 -166.05 70.21 7 A PHE 77 -49.40 92.35 7 A LEU 79 -49.91 -83.11 7 A LYS 90 -75.12 -169.56 7 A ASP 91 -56.65 5.75 7 A ASP 92 171.23 -33.27 7 A GLU 104 -179.78 98.66 7 A ARG 112 -95.69 -72.89 7 A ALA 117 171.09 -172.63 7 A PHE 120 -37.81 101.10 7 A MET 122 178.61 -33.28 8 A LYS 2 -133.70 -65.98 8 A ALA 11 109.70 -46.47 8 A ASP 21 -178.73 34.36 8 A LEU 22 72.50 -57.12 8 A THR 38 176.80 170.21 8 A SER 41 -62.22 76.41 8 A LEU 42 170.93 -8.39 8 A GLU 44 -79.04 -81.68 8 A ALA 45 178.47 101.38 8 A GLU 56 -141.58 29.94 8 A ASP 57 -175.45 26.43 8 A ARG 58 63.84 -67.39 8 A GLU 76 -168.70 65.25 8 A PHE 77 -55.24 94.48 8 A LYS 90 -120.67 -169.42 8 A ASP 91 -64.12 8.88 8 A GLU 104 168.41 98.52 8 A HIS 109 -59.27 106.72 8 A ARG 112 -90.24 -76.19 8 A PHE 120 -28.88 86.04 8 A MET 122 171.56 -58.63 9 A ALA 11 110.52 -43.59 9 A ASP 21 -177.46 27.21 9 A LEU 22 74.48 -55.83 9 A THR 38 171.57 148.47 9 A GLU 44 -79.81 -80.20 9 A ALA 45 174.11 104.18 9 A GLU 56 -152.74 23.55 9 A ASP 57 -164.11 16.29 9 A ARG 58 64.86 -65.79 9 A GLU 76 80.18 43.80 9 A PHE 77 -84.73 -77.69 9 A ASP 91 -4.13 -45.74 9 A ASP 92 167.31 -36.66 9 A GLU 104 173.61 65.53 9 A GLU 107 -53.09 106.20 9 A GLU 110 60.75 115.18 9 A ARG 112 -138.56 -67.17 9 A MET 122 -165.64 -35.39 9 A MET 123 51.55 70.96 10 A ALA 11 104.73 -44.79 10 A HIS 20 -150.62 1.75 10 A ASP 21 165.29 37.40 10 A LEU 22 71.66 -54.96 10 A THR 38 179.09 -172.74 10 A SER 41 68.95 -62.34 10 A LEU 42 -149.87 34.40 10 A ALA 45 79.25 75.42 10 A GLU 56 -140.45 56.45 10 A ASP 57 -179.47 22.37 10 A ARG 58 60.85 -74.32 10 A GLU 76 -164.31 72.32 10 A PHE 77 -58.77 92.25 10 A LEU 79 -54.58 -86.47 10 A LYS 90 -120.16 -169.49 10 A ASP 91 -64.19 9.26 10 A GLU 104 177.84 82.11 10 A ARG 112 -127.37 -63.97 10 A ALA 117 174.69 -177.23 10 A PHE 120 -40.95 106.85 10 A MET 122 -176.96 -34.49 Solution Structure of Methanobacterium Thermoautotrophicum Protein 1598. Ontario Centre for Structural Proteomics target MTH1598_1_140; Northeast Structural Genomics Target TT6 1 N N A LEU 22 A LEU 22 HELX_P A THR 38 A THR 38 1 1 17 A ARG 58 A ARG 58 HELX_P A GLU 76 A GLU 76 1 2 19 Structural Genomics, Unknown Function MTH1598, hypothetical protein, structural genomics, Protein Structure Initiative, OCSP, NESG, beta-alpha-beta sandwich fold, PSI, Northeast Structural Genomics Consortium, Unknown Function Y1598_METTH UNP 1 1 O27635 MKGFEFFDVTADAGFWAYGHDLEEVFENAALAMFEVMTDTSLVEAAEERRVEITSEDRVSLLYDWLDELLFIHDTEFILF SKFKVKIDEKDDGLHLTGTAMGEEIKEGHERRDEVKAVTFHMMEILDEDGLIKARVILDL 1 140 1JW3 1 140 O27635 A 1 1 140 4 3 anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel A PHE 4 A PHE 4 A PHE 6 A PHE 6 A ASP 12 A ASP 12 A TYR 18 A TYR 18 A LEU 131 A LEU 131 A ASP 139 A ASP 139 A GLU 124 A GLU 124 A GLU 128 A GLU 128 A GLU 48 A GLU 48 A SER 55 A SER 55 A LEU 94 A LEU 94 A MET 101 A MET 101 A LYS 84 A LYS 84 A GLU 89 A GLU 89