1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Simpson, P.J. Jamieson, S.J. Abou-Hachem, M. Nordberg-Karlsson, E. Gilbert, H.J. Holst, O. Williamson, M.P. 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 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 US Biochemistry BICHAW 0033 0006-2960 41 5712 5719 10.1021/bi012093i 11980475 The solution structure of the CBM4-2 carbohydrate binding module from a thermostable Rhodothermus marinus xylanase. 2002 10.2210/pdb1k42/pdb pdb_00001k42 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 18103.803 Xylanase 3.2.1.8 Second family 4 carbohydrate binding module (CBM4-2)(Residues 211-373) 1 man polymer no no MLVANINGGFESTPAGVVTDLAEGVEGWDLNVGSSVTNPPVFEVLETSDAPEGNKVLAVTVNGVGNNPWDIEATAFPVNV RPGVTYTYTIWARAEQDGAVVSFTVGNQSFQEYGRLHEQQITTEWQPFTFEFTVSDQETVIRAPIHFGYAANVGNTIYID GLAIASQP MLVANINGGFESTPAGVVTDLAEGVEGWDLNVGSSVTNPPVFEVLETSDAPEGNKVLAVTVNGVGNNPWDIEATAFPVNV RPGVTYTYTIWARAEQDGAVVSFTVGNQSFQEYGRLHEQQITTEWQPFTFEFTVSDQETVIRAPIHFGYAANVGNTIYID GLAIASQP 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 n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n Rhodothermus Escherichia Escherichia coli sample xyn10A 29549 Rhodothermus marinus 469008 Escherichia coli BL21(DE3) BL21(DE3) Plasmid pET-25b(+) database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2002-05-29 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 _struct_ref_seq_dif.details 1K45 CONTAINS THE MINIMIZED AVERAGE STRUCTURE FOR THIS PROTEIN RCSB Y RCSB 2001-10-05 REL REL structures with acceptable covalent geometry,structures with the least restraint violations,structures with the lowest energy 50 12 3D_13C-separated_NOESY 3D_15N-separated_NOESY HNHA 0.2 M 6.0 ambient 310 K The final set of restraints contained 1654 non-redundant unambiguous NOEs and 17 ambiguous NOEs, 93 dihedral angle restraints, 72 chi1 and 1 chi2 restraint, and 65 pairs of hydrogen bond restraints, plus 177 backbone dihedral restraints based on 13C shifts from TALOS. hybrid distance geometry/simulated annealing using XPLOR 1.5 mM CBM4-2 15N-labelled, and 13C,15N double labelled protein; 50 mM CaCl2, 50 mM sodium acetate-d3, pH 6.0, 10% D2O, 10 mM sodium azide, 0.1 mM sodium trimethylsilylpropionate (TSP) 90% H2O/10% D2O Molecular Simulations Inc. processing Felix 2000 Axel T. Brunger structure solution X-PLOR 3.1 Axel T. Brunger refinement X-PLOR 3.1 500 Bruker DRX 600 Bruker DRX MET 1 n 1 MET 1 A LEU 2 n 2 LEU 2 A VAL 3 n 3 VAL 3 A ALA 4 n 4 ALA 4 A ASN 5 n 5 ASN 5 A ILE 6 n 6 ILE 6 A ASN 7 n 7 ASN 7 A GLY 8 n 8 GLY 8 A GLY 9 n 9 GLY 9 A PHE 10 n 10 PHE 10 A GLU 11 n 11 GLU 11 A SER 12 n 12 SER 12 A THR 13 n 13 THR 13 A PRO 14 n 14 PRO 14 A ALA 15 n 15 ALA 15 A GLY 16 n 16 GLY 16 A VAL 17 n 17 VAL 17 A VAL 18 n 18 VAL 18 A THR 19 n 19 THR 19 A ASP 20 n 20 ASP 20 A LEU 21 n 21 LEU 21 A ALA 22 n 22 ALA 22 A GLU 23 n 23 GLU 23 A GLY 24 n 24 GLY 24 A VAL 25 n 25 VAL 25 A GLU 26 n 26 GLU 26 A GLY 27 n 27 GLY 27 A TRP 28 n 28 TRP 28 A ASP 29 n 29 ASP 29 A LEU 30 n 30 LEU 30 A ASN 31 n 31 ASN 31 A VAL 32 n 32 VAL 32 A GLY 33 n 33 GLY 33 A SER 34 n 34 SER 34 A SER 35 n 35 SER 35 A VAL 36 n 36 VAL 36 A THR 37 n 37 THR 37 A ASN 38 n 38 ASN 38 A PRO 39 n 39 PRO 39 A PRO 40 n 40 PRO 40 A VAL 41 n 41 VAL 41 A PHE 42 n 42 PHE 42 A GLU 43 n 43 GLU 43 A VAL 44 n 44 VAL 44 A LEU 45 n 45 LEU 45 A GLU 46 n 46 GLU 46 A THR 47 n 47 THR 47 A SER 48 n 48 SER 48 A ASP 49 n 49 ASP 49 A ALA 50 n 50 ALA 50 A PRO 51 n 51 PRO 51 A GLU 52 n 52 GLU 52 A GLY 53 n 53 GLY 53 A ASN 54 n 54 ASN 54 A LYS 55 n 55 LYS 55 A VAL 56 n 56 VAL 56 A LEU 57 n 57 LEU 57 A ALA 58 n 58 ALA 58 A VAL 59 n 59 VAL 59 A THR 60 n 60 THR 60 A VAL 61 n 61 VAL 61 A ASN 62 n 62 ASN 62 A GLY 63 n 63 GLY 63 A VAL 64 n 64 VAL 64 A GLY 65 n 65 GLY 65 A ASN 66 n 66 ASN 66 A ASN 67 n 67 ASN 67 A PRO 68 n 68 PRO 68 A TRP 69 n 69 TRP 69 A ASP 70 n 70 ASP 70 A ILE 71 n 71 ILE 71 A GLU 72 n 72 GLU 72 A ALA 73 n 73 ALA 73 A THR 74 n 74 THR 74 A ALA 75 n 75 ALA 75 A PHE 76 n 76 PHE 76 A PRO 77 n 77 PRO 77 A VAL 78 n 78 VAL 78 A ASN 79 n 79 ASN 79 A VAL 80 n 80 VAL 80 A ARG 81 n 81 ARG 81 A PRO 82 n 82 PRO 82 A GLY 83 n 83 GLY 83 A VAL 84 n 84 VAL 84 A THR 85 n 85 THR 85 A TYR 86 n 86 TYR 86 A THR 87 n 87 THR 87 A TYR 88 n 88 TYR 88 A THR 89 n 89 THR 89 A ILE 90 n 90 ILE 90 A TRP 91 n 91 TRP 91 A ALA 92 n 92 ALA 92 A ARG 93 n 93 ARG 93 A ALA 94 n 94 ALA 94 A GLU 95 n 95 GLU 95 A GLN 96 n 96 GLN 96 A ASP 97 n 97 ASP 97 A GLY 98 n 98 GLY 98 A ALA 99 n 99 ALA 99 A VAL 100 n 100 VAL 100 A VAL 101 n 101 VAL 101 A SER 102 n 102 SER 102 A PHE 103 n 103 PHE 103 A THR 104 n 104 THR 104 A VAL 105 n 105 VAL 105 A GLY 106 n 106 GLY 106 A ASN 107 n 107 ASN 107 A GLN 108 n 108 GLN 108 A SER 109 n 109 SER 109 A PHE 110 n 110 PHE 110 A GLN 111 n 111 GLN 111 A GLU 112 n 112 GLU 112 A TYR 113 n 113 TYR 113 A GLY 114 n 114 GLY 114 A ARG 115 n 115 ARG 115 A LEU 116 n 116 LEU 116 A HIS 117 n 117 HIS 117 A GLU 118 n 118 GLU 118 A GLN 119 n 119 GLN 119 A GLN 120 n 120 GLN 120 A ILE 121 n 121 ILE 121 A THR 122 n 122 THR 122 A THR 123 n 123 THR 123 A GLU 124 n 124 GLU 124 A TRP 125 n 125 TRP 125 A GLN 126 n 126 GLN 126 A PRO 127 n 127 PRO 127 A PHE 128 n 128 PHE 128 A THR 129 n 129 THR 129 A PHE 130 n 130 PHE 130 A GLU 131 n 131 GLU 131 A PHE 132 n 132 PHE 132 A THR 133 n 133 THR 133 A VAL 134 n 134 VAL 134 A SER 135 n 135 SER 135 A ASP 136 n 136 ASP 136 A GLN 137 n 137 GLN 137 A GLU 138 n 138 GLU 138 A THR 139 n 139 THR 139 A VAL 140 n 140 VAL 140 A ILE 141 n 141 ILE 141 A ARG 142 n 142 ARG 142 A ALA 143 n 143 ALA 143 A PRO 144 n 144 PRO 144 A ILE 145 n 145 ILE 145 A HIS 146 n 146 HIS 146 A PHE 147 n 147 PHE 147 A GLY 148 n 148 GLY 148 A TYR 149 n 149 TYR 149 A ALA 150 n 150 ALA 150 A ALA 151 n 151 ALA 151 A ASN 152 n 152 ASN 152 A VAL 153 n 153 VAL 153 A GLY 154 n 154 GLY 154 A ASN 155 n 155 ASN 155 A THR 156 n 156 THR 156 A ILE 157 n 157 ILE 157 A TYR 158 n 158 TYR 158 A ILE 159 n 159 ILE 159 A ASP 160 n 160 ASP 160 A GLY 161 n 161 GLY 161 A LEU 162 n 162 LEU 162 A ALA 163 n 163 ALA 163 A ILE 164 n 164 ILE 164 A ALA 165 n 165 ALA 165 A SER 166 n 166 SER 166 A GLN 167 n 167 GLN 167 A PRO 168 n 168 PRO 168 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 GLY 16 A N GLY 16 A O VAL 44 A O VAL 44 A N LEU 45 A N LEU 45 A O VAL 56 A O VAL 56 A N LEU 57 A N LEU 57 A O ILE 159 A O ILE 159 A O ALA 163 A O ALA 163 A N THR 89 A N THR 89 A N ILE 90 A N ILE 90 A O PHE 128 A O PHE 128 A N ASP 29 A N ASP 29 A O THR 74 A O THR 74 A N ALA 73 A N ALA 73 A O ILE 145 A O ILE 145 A O ARG 142 A O ARG 142 A N GLY 106 A N GLY 106 A N VAL 101 A N VAL 101 A O GLN 119 A O GLN 119 1 A ARG 81 0.290 SIDE CHAIN 1 A ARG 93 0.228 SIDE CHAIN 1 A ARG 115 0.318 SIDE CHAIN 2 A ARG 81 0.194 SIDE CHAIN 2 A ARG 93 0.199 SIDE CHAIN 2 A ARG 115 0.306 SIDE CHAIN 2 A ARG 142 0.186 SIDE CHAIN 3 A ARG 81 0.317 SIDE CHAIN 3 A ARG 93 0.276 SIDE CHAIN 3 A ARG 115 0.227 SIDE CHAIN 3 A ARG 142 0.244 SIDE CHAIN 4 A ARG 81 0.318 SIDE CHAIN 4 A ARG 93 0.218 SIDE CHAIN 4 A ARG 115 0.249 SIDE CHAIN 4 A ARG 142 0.193 SIDE CHAIN 5 A ARG 81 0.280 SIDE CHAIN 5 A ARG 93 0.123 SIDE CHAIN 5 A ARG 115 0.307 SIDE CHAIN 5 A ARG 142 0.135 SIDE CHAIN 6 A ARG 81 0.225 SIDE CHAIN 6 A ARG 93 0.173 SIDE CHAIN 6 A ARG 115 0.146 SIDE CHAIN 6 A ARG 142 0.289 SIDE CHAIN 7 A ARG 81 0.193 SIDE CHAIN 7 A ARG 93 0.185 SIDE CHAIN 7 A ARG 115 0.285 SIDE CHAIN 7 A ARG 142 0.262 SIDE CHAIN 8 A ARG 81 0.178 SIDE CHAIN 8 A ARG 93 0.298 SIDE CHAIN 8 A ARG 115 0.257 SIDE CHAIN 8 A ARG 142 0.218 SIDE CHAIN 9 A ARG 81 0.313 SIDE CHAIN 9 A ARG 93 0.118 SIDE CHAIN 9 A ARG 115 0.312 SIDE CHAIN 9 A ARG 142 0.183 SIDE CHAIN 10 A ARG 81 0.318 SIDE CHAIN 10 A ARG 93 0.316 SIDE CHAIN 10 A ARG 115 0.304 SIDE CHAIN 10 A ARG 142 0.240 SIDE CHAIN 11 A ARG 81 0.241 SIDE CHAIN 11 A ARG 93 0.148 SIDE CHAIN 11 A ARG 115 0.255 SIDE CHAIN 11 A ARG 142 0.236 SIDE CHAIN 12 A ARG 81 0.223 SIDE CHAIN 12 A ARG 93 0.145 SIDE CHAIN 12 A ARG 115 0.236 SIDE CHAIN 12 A ARG 142 0.311 SIDE CHAIN 1 A LEU 2 -57.09 101.30 1 A ALA 15 -40.02 155.51 1 A VAL 36 -64.64 87.86 1 A ASN 54 -160.02 37.77 1 A ASN 62 -149.51 56.41 1 A PRO 68 -79.52 38.88 1 A TRP 69 -162.58 50.05 1 A ARG 93 -164.40 119.12 1 A ARG 115 -178.78 119.46 1 A GLU 118 79.42 66.32 1 A GLU 124 -106.65 -168.78 1 A PHE 130 -173.22 -172.69 1 A ASP 136 -102.91 -91.74 1 A GLN 137 -162.27 50.59 1 A ASP 160 -173.89 136.41 1 A LEU 162 -60.01 94.04 2 A VAL 3 43.85 -169.71 2 A ALA 15 -42.05 165.48 2 A VAL 36 -46.18 94.53 2 A ASN 54 -152.74 22.85 2 A ASN 62 -154.40 58.55 2 A PHE 76 179.53 162.86 2 A ARG 93 -164.14 118.49 2 A GLN 108 -68.34 3.81 2 A TYR 113 -96.17 -70.74 2 A GLU 118 77.28 58.56 2 A GLU 124 -108.42 -168.87 2 A PHE 130 -171.89 -177.64 2 A ASP 136 -106.74 -90.87 2 A GLN 137 -163.98 53.97 2 A ASP 160 -173.80 136.34 3 A ALA 15 -41.59 163.53 3 A VAL 36 -67.68 89.46 3 A PRO 40 -77.46 -165.74 3 A ALA 50 -44.31 155.18 3 A ASN 54 -156.63 35.64 3 A ASN 62 -160.11 60.34 3 A PHE 76 179.44 160.44 3 A TYR 113 -102.78 -69.88 3 A ARG 115 -164.42 109.65 3 A GLU 118 79.33 68.74 3 A GLU 124 -107.67 -169.00 3 A PHE 130 -173.41 -172.61 3 A GLN 137 86.97 27.28 3 A ASP 160 -173.82 136.01 3 A LEU 162 -59.43 91.29 4 A ALA 15 -42.11 166.00 4 A VAL 36 -67.35 88.55 4 A PRO 40 -77.44 -169.93 4 A ASN 54 -160.09 38.62 4 A ASN 62 -160.08 55.42 4 A TYR 113 -93.82 -75.88 4 A HIS 117 69.96 -153.73 4 A GLU 118 97.95 28.36 4 A GLU 124 -104.17 -169.79 4 A ASP 136 -108.09 -92.35 4 A GLN 137 -160.66 55.51 4 A ASP 160 -173.67 136.40 4 A LEU 162 -59.27 97.15 5 A ALA 15 -40.11 161.43 5 A VAL 36 -59.90 89.41 5 A ASN 54 -158.14 34.48 5 A ASN 62 -159.23 61.15 5 A PHE 76 178.21 161.94 5 A ARG 93 -160.68 118.02 5 A TYR 113 -94.80 -71.61 5 A ARG 115 -160.94 110.55 5 A GLU 118 77.98 44.34 5 A GLU 124 -110.91 -168.94 5 A ASP 136 -108.23 -91.70 5 A GLN 137 -163.23 54.74 5 A ASP 160 -173.90 135.95 5 A LEU 162 -59.81 109.13 6 A VAL 3 179.75 173.87 6 A ALA 15 -41.97 164.63 6 A VAL 36 -63.78 89.67 6 A ASN 54 -155.06 20.33 6 A ASN 62 -159.93 61.56 6 A PHE 76 177.42 162.95 6 A ARG 93 -162.16 118.06 6 A PHE 110 81.14 8.58 6 A TYR 113 -107.30 -65.53 6 A ARG 115 175.35 119.82 6 A GLU 118 79.66 72.74 6 A GLU 124 -111.64 -168.95 6 A ASP 136 -118.49 -91.71 6 A GLN 137 -159.70 57.37 6 A ASP 160 -174.08 136.26 7 A ALA 15 -40.21 154.46 7 A VAL 36 -62.41 89.39 7 A ALA 50 -45.91 154.62 7 A ASN 54 -160.02 30.16 7 A ASN 62 -153.91 58.66 7 A PHE 76 179.03 161.31 7 A ASN 107 -126.52 -169.37 7 A TYR 113 -95.95 -70.62 7 A GLU 118 77.22 53.31 7 A GLU 124 -110.06 -168.83 7 A PHE 130 -173.87 -178.29 7 A ASP 136 -110.51 -90.79 7 A GLN 137 -163.31 56.31 7 A ASP 160 -174.23 136.38 7 A LEU 162 -59.90 103.97 8 A ALA 15 -41.70 164.35 8 A VAL 36 -60.77 89.84 8 A GLU 52 -117.87 79.71 8 A ASN 54 -142.28 35.35 8 A ASN 62 -153.46 58.02 8 A PHE 76 177.99 160.48 8 A ARG 115 -157.81 74.61 8 A GLU 118 76.89 36.31 8 A VAL 134 -41.55 108.96 8 A ASP 136 -138.49 -90.79 8 A GLN 137 -158.35 56.05 8 A ASP 160 -174.14 136.24 8 A LEU 162 -60.29 100.00 8 A SER 166 -67.11 -174.80 9 A ALA 15 -44.62 170.76 9 A VAL 36 -47.63 102.57 9 A ASN 54 -160.06 29.87 9 A ASN 62 -151.07 57.00 9 A ALA 73 -162.37 106.48 9 A PHE 76 178.17 162.52 9 A TYR 113 -102.40 -70.11 9 A ARG 115 -175.28 129.45 9 A GLU 118 80.00 47.63 9 A PHE 130 -161.48 -169.67 9 A ASP 136 -101.77 -91.59 9 A GLN 137 -163.33 50.81 9 A PHE 147 -113.53 -168.37 9 A ASP 160 -174.18 135.58 9 A LEU 162 -59.73 97.78 10 A ALA 15 -40.32 161.01 10 A VAL 36 -67.03 86.82 10 A PRO 40 -77.38 -165.49 10 A ASN 54 -157.57 22.51 10 A ASN 62 -160.17 61.58 10 A PHE 76 178.98 160.56 10 A PHE 110 80.61 7.79 10 A TYR 113 -108.37 -68.56 10 A ARG 115 -171.03 110.11 10 A GLU 118 79.10 78.52 10 A GLN 137 86.32 28.38 10 A ASP 160 -174.38 136.37 10 A LEU 162 -59.62 97.19 11 A ALA 15 -39.31 153.88 11 A VAL 36 -62.97 89.29 11 A PRO 40 -77.30 -165.68 11 A ASN 54 -152.63 18.24 11 A ASN 62 -160.23 59.30 11 A PHE 76 179.36 161.57 11 A ARG 93 -162.34 119.68 11 A ASN 107 -76.98 -169.88 11 A TYR 113 -109.69 -69.02 11 A ARG 115 -177.87 135.83 11 A GLU 118 82.21 36.80 11 A GLU 124 -112.44 -168.73 11 A ASP 136 -110.65 -91.16 11 A GLN 137 -160.94 55.20 11 A ASP 160 -173.94 136.10 11 A LEU 162 -59.61 93.06 12 A LEU 2 -67.11 91.18 12 A VAL 3 -56.68 173.53 12 A ASN 7 76.83 43.80 12 A PHE 10 118.40 1.06 12 A ALA 15 -39.96 161.15 12 A PRO 40 -77.27 -164.08 12 A ASN 54 -160.16 36.28 12 A ASN 62 -160.09 60.96 12 A ARG 115 -162.78 117.31 12 A LEU 116 -150.62 74.31 12 A GLU 118 77.53 41.04 12 A GLU 124 -102.40 -168.91 12 A VAL 134 -43.57 109.24 12 A ASP 136 -129.81 -90.28 12 A GLN 137 -158.58 52.73 12 A ASP 160 -173.23 136.24 12 A LEU 162 -59.33 93.14 The Solution Structure of the CBM4-2 Carbohydrate Binding Module from a Thermostable Rhodothermus marinus Xylanase. 1 N N A ASP 20 A ASP 20 HELX_P A GLY 24 A GLY 24 5 1 5 A TYR 149 A TYR 149 HELX_P A VAL 153 A VAL 153 5 2 5 HYDROLASE beta-sandwich formed by 11 strands. Binding-site cleft. Solvent exposed aromatics (Trp69, Phe110) in binding cleft. Two helical twists. Two calcium binding sites., Hydrolase A PHE 76 A PHE 76 1 A PRO 77 A PRO 77 -0.75 A PHE 76 A PHE 76 2 A PRO 77 A PRO 77 -0.53 A PHE 76 A PHE 76 3 A PRO 77 A PRO 77 -0.50 A PHE 76 A PHE 76 4 A PRO 77 A PRO 77 -0.84 A PHE 76 A PHE 76 5 A PRO 77 A PRO 77 -0.68 A PHE 76 A PHE 76 6 A PRO 77 A PRO 77 -0.24 A PHE 76 A PHE 76 7 A PRO 77 A PRO 77 -0.15 A PHE 76 A PHE 76 8 A PRO 77 A PRO 77 -0.57 A PHE 76 A PHE 76 9 A PRO 77 A PRO 77 -0.36 A PHE 76 A PHE 76 10 A PRO 77 A PRO 77 -0.47 A PHE 76 A PHE 76 11 A PRO 77 A PRO 77 -0.36 A PHE 76 A PHE 76 12 A PRO 77 A PRO 77 -0.65 P96988_RHOMR UNP 1 211 P96988 LVANINGGFESTPAGVVTDLAEGVEGWDLNVGSSVTNPPVFEVLETSDAPEGNKVLAVTVNGVGNNPWDIEATAFPVNVR PGVTYTYTIWARAEQDGAVVSFTVGNQSFQEYGRLHEQQITTEWQPFTFEFTVSDQETVIRAPIHFGYAANVGNTIYIDG LAI 211 373 1K42 2 164 P96988 A 1 2 164 1 initiating methionine MET 1 1K42 A P96988 UNP 1 1 cloning artifact ALA 165 1K42 A P96988 UNP 165 1 cloning artifact SER 166 1K42 A P96988 UNP 166 1 cloning artifact GLN 167 1K42 A P96988 UNP 167 1 cloning artifact PRO 168 1K42 A P96988 UNP 168 6 5 anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel A GLY 16 A GLY 16 A VAL 17 A VAL 17 A VAL 41 A VAL 41 A GLU 46 A GLU 46 A LYS 55 A LYS 55 A VAL 61 A VAL 61 A ASN 155 A ASN 155 A ALA 165 A ALA 165 A THR 85 A THR 85 A ALA 94 A ALA 94 A GLN 126 A GLN 126 A THR 133 A THR 133 A TRP 28 A TRP 28 A VAL 32 A VAL 32 A ILE 71 A ILE 71 A ASN 79 A ASN 79 A VAL 140 A VAL 140 A PHE 147 A PHE 147 A ALA 99 A ALA 99 A GLY 106 A GLY 106 A GLU 112 A GLU 112 A ILE 121 A ILE 121