1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Ishida, H. Vogel, H. 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 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 NE Biochim.Biophys.Acta BBACAQ 0113 0006-3002 1838 3014 3024 10.1016/j.bbamem.2014.08.008 25135663 The periplasmic domain of Escherichia coli outer membrane protein A can undergo a localized temperature dependent structural transition. 2014 10.2210/pdb2mqe/pdb pdb_00002mqe 15712.669 OmpA domain protein transmembrane region-containing protein 1 man polymer no no APAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQS VVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA APAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQS VVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA 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 K12 sample ompA, EcDH1_2686, ECDH1ME8569_0908 536056 Escherichia coli 511693 Escherichia coli BL21 pE-SUMO database_2 pdbx_database_status pdbx_nmr_software pdbx_nmr_spectrometer repository Initial release Database references Data collection Database references Other 1 0 2014-09-03 1 1 2014-10-01 1 2 2023-06-14 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.status_code_nmr_data _pdbx_nmr_software.name _pdbx_nmr_spectrometer.model BMRB Y RCSB 2014-06-19 REL REL REL REL structures with the lowest energy 200 30 2D 1H-15N HSQC 3D HNCACB 3D CBCA(CO)NH 3D HNCO 3D HN(CA)CO 3D HBHA(CO)NH 3D H(CCO)NH 3D C(CO)NH 3D 1H-15N NOESY 3D 1H-13C NOESY 0.5 mM [U-100% 15N] 20 mM 0.03 % 0.5 mM 0.5 mM [U-100% 13C; U-100% 15N] 20 mM 0.03 % 0.5 mM 0.5 mM [U-100% 13C; U-100% 15N] 20 mM 0.03 % 0.5 mM 0 6 ambient 298 K torsion angle dynamics, simulated annealing 1 lowest energy 0.5 mM [U-100% 15N] protein, 20 mM sodium phosphate, 0.03 % sodium azide, 0.5 mM DSS, 90% H2O/10% D2O 90% H2O/10% D2O 0.5 mM [U-100% 13C; U-100% 15N] protein, 20 mM sodium phosphate, 0.03 % sodium azide, 0.5 mM DSS, 90% H2O/10% D2O 90% H2O/10% D2O 0.5 mM [U-100% 13C; U-100% 15N] protein, 20 mM sodium phosphate, 0.03 % sodium azide, 0.5 mM DSS, 100% D2O 100% D2O Guntert, Mumenthaler and Wuthrich chemical shift assignment CYANA 2.0 Guntert, Mumenthaler and Wuthrich structure solution CYANA 2.0 Schwieters, Kuszewski, Tjandra and Clore structure solution X-PLOR NIH 2.20 Schwieters, Kuszewski, Tjandra and Clore refinement X-PLOR NIH 2.20 Guntert, Mumenthaler and Wuthrich refinement CYANA 2.0 500 Bruker AVANCE Bruker Avance 700 Bruker AVANCE Bruker Avance ALA 180 n 1 ALA 180 A PRO 181 n 2 PRO 181 A ALA 182 n 3 ALA 182 A PRO 183 n 4 PRO 183 A ALA 184 n 5 ALA 184 A PRO 185 n 6 PRO 185 A ALA 186 n 7 ALA 186 A PRO 187 n 8 PRO 187 A GLU 188 n 9 GLU 188 A VAL 189 n 10 VAL 189 A GLN 190 n 11 GLN 190 A THR 191 n 12 THR 191 A LYS 192 n 13 LYS 192 A HIS 193 n 14 HIS 193 A PHE 194 n 15 PHE 194 A THR 195 n 16 THR 195 A LEU 196 n 17 LEU 196 A LYS 197 n 18 LYS 197 A SER 198 n 19 SER 198 A ASP 199 n 20 ASP 199 A VAL 200 n 21 VAL 200 A LEU 201 n 22 LEU 201 A PHE 202 n 23 PHE 202 A ASN 203 n 24 ASN 203 A PHE 204 n 25 PHE 204 A ASN 205 n 26 ASN 205 A LYS 206 n 27 LYS 206 A ALA 207 n 28 ALA 207 A THR 208 n 29 THR 208 A LEU 209 n 30 LEU 209 A LYS 210 n 31 LYS 210 A PRO 211 n 32 PRO 211 A GLU 212 n 33 GLU 212 A GLY 213 n 34 GLY 213 A GLN 214 n 35 GLN 214 A ALA 215 n 36 ALA 215 A ALA 216 n 37 ALA 216 A LEU 217 n 38 LEU 217 A ASP 218 n 39 ASP 218 A GLN 219 n 40 GLN 219 A LEU 220 n 41 LEU 220 A TYR 221 n 42 TYR 221 A SER 222 n 43 SER 222 A GLN 223 n 44 GLN 223 A LEU 224 n 45 LEU 224 A SER 225 n 46 SER 225 A ASN 226 n 47 ASN 226 A LEU 227 n 48 LEU 227 A ASP 228 n 49 ASP 228 A PRO 229 n 50 PRO 229 A LYS 230 n 51 LYS 230 A ASP 231 n 52 ASP 231 A GLY 232 n 53 GLY 232 A SER 233 n 54 SER 233 A VAL 234 n 55 VAL 234 A VAL 235 n 56 VAL 235 A VAL 236 n 57 VAL 236 A LEU 237 n 58 LEU 237 A GLY 238 n 59 GLY 238 A TYR 239 n 60 TYR 239 A THR 240 n 61 THR 240 A ASP 241 n 62 ASP 241 A ARG 242 n 63 ARG 242 A ILE 243 n 64 ILE 243 A GLY 244 n 65 GLY 244 A SER 245 n 66 SER 245 A ASP 246 n 67 ASP 246 A ALA 247 n 68 ALA 247 A TYR 248 n 69 TYR 248 A ASN 249 n 70 ASN 249 A GLN 250 n 71 GLN 250 A GLY 251 n 72 GLY 251 A LEU 252 n 73 LEU 252 A SER 253 n 74 SER 253 A GLU 254 n 75 GLU 254 A ARG 255 n 76 ARG 255 A ARG 256 n 77 ARG 256 A ALA 257 n 78 ALA 257 A GLN 258 n 79 GLN 258 A SER 259 n 80 SER 259 A VAL 260 n 81 VAL 260 A VAL 261 n 82 VAL 261 A ASP 262 n 83 ASP 262 A TYR 263 n 84 TYR 263 A LEU 264 n 85 LEU 264 A ILE 265 n 86 ILE 265 A SER 266 n 87 SER 266 A LYS 267 n 88 LYS 267 A GLY 268 n 89 GLY 268 A ILE 269 n 90 ILE 269 A PRO 270 n 91 PRO 270 A ALA 271 n 92 ALA 271 A ASP 272 n 93 ASP 272 A LYS 273 n 94 LYS 273 A ILE 274 n 95 ILE 274 A SER 275 n 96 SER 275 A ALA 276 n 97 ALA 276 A ARG 277 n 98 ARG 277 A GLY 278 n 99 GLY 278 A MET 279 n 100 MET 279 A GLY 280 n 101 GLY 280 A GLU 281 n 102 GLU 281 A SER 282 n 103 SER 282 A ASN 283 n 104 ASN 283 A PRO 284 n 105 PRO 284 A VAL 285 n 106 VAL 285 A THR 286 n 107 THR 286 A GLY 287 n 108 GLY 287 A ASN 288 n 109 ASN 288 A THR 289 n 110 THR 289 A CYS 290 n 111 CYS 290 A ASP 291 n 112 ASP 291 A ASN 292 n 113 ASN 292 A VAL 293 n 114 VAL 293 A LYS 294 n 115 LYS 294 A GLN 295 n 116 GLN 295 A ARG 296 n 117 ARG 296 A ALA 297 n 118 ALA 297 A ALA 298 n 119 ALA 298 A LEU 299 n 120 LEU 299 A ILE 300 n 121 ILE 300 A ASP 301 n 122 ASP 301 A CYS 302 n 123 CYS 302 A LEU 303 n 124 LEU 303 A ALA 304 n 125 ALA 304 A PRO 305 n 126 PRO 305 A ASP 306 n 127 ASP 306 A ARG 307 n 128 ARG 307 A ARG 308 n 129 ARG 308 A VAL 309 n 130 VAL 309 A GLU 310 n 131 GLU 310 A ILE 311 n 132 ILE 311 A GLU 312 n 133 GLU 312 A VAL 313 n 134 VAL 313 A LYS 314 n 135 LYS 314 A GLY 315 n 136 GLY 315 A ILE 316 n 137 ILE 316 A LYS 317 n 138 LYS 317 A ASP 318 n 139 ASP 318 A VAL 319 n 140 VAL 319 A VAL 320 n 141 VAL 320 A THR 321 n 142 THR 321 A GLN 322 n 143 GLN 322 A PRO 323 n 144 PRO 323 A GLN 324 n 145 GLN 324 A ALA 325 n 146 ALA 325 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 LYS 192 A N LYS 13 A O VAL 313 A O VAL 134 A O GLU 312 A O GLU 133 A N VAL 235 A N VAL 56 A N VAL 236 A N VAL 57 A O SER 275 A O SER 96 1 A A O H GLN ASP 258 262 1.60 2 A A HH HZ1 TYR LYS 263 267 1.34 2 A A O H GLY MET 238 279 1.56 2 A A H O VAL SER 236 275 1.59 3 A A HG H SER TYR 245 248 1.33 3 A A O H GLY MET 238 279 1.57 5 A A H O VAL SER 236 275 1.59 6 A A O OD1 SER ASP 259 262 2.15 7 A A O H THR CYS 286 290 1.56 7 A A H O ASP GLY 228 315 1.56 7 A A O OD1 ALA ASP 298 301 2.19 8 A A HG1 HH12 THR ARG 195 308 1.27 8 A A H O VAL SER 236 275 1.55 10 A A HG H SER GLN 222 223 1.33 10 A A O H GLY MET 238 279 1.53 11 A A O H ARG SER 255 259 1.57 12 A A H O VAL SER 236 275 1.57 13 A A HZ2 HG1 LYS THR 192 321 1.33 15 A A H O VAL SER 236 275 1.57 15 A A O H ARG SER 255 259 1.58 16 A A O H ARG SER 255 259 1.57 17 A A HG1 H THR ASP 240 241 1.34 18 A A O HH11 ALA ARG 304 307 1.55 18 A A H O VAL SER 236 275 1.58 19 A A HH HZ1 TYR LYS 263 267 1.27 19 A A H O ASP GLY 228 315 1.53 20 A A H O VAL SER 236 275 1.56 20 A A O H ARG SER 255 259 1.59 21 A A HG H SER GLY 253 280 1.30 21 A A O H THR CYS 286 290 1.56 22 A A HH22 HE ARG ARG 256 307 1.23 22 A A O H ARG SER 255 259 1.56 22 A A H O ASP GLY 228 315 1.58 23 A A H HZ2 SER LYS 233 314 1.33 23 A A H HD22 ILE ASN 243 249 1.33 23 A A HG1 H THR GLY 286 287 1.34 24 A A HD21 HH11 ASN ARG 203 307 1.25 25 A A O OD1 SER ASP 259 262 2.01 26 A A O H THR CYS 286 290 1.52 26 A A O H LEU LEU 299 303 1.58 26 A A O H ARG SER 255 259 1.58 29 A A H O VAL SER 236 275 1.54 30 A A H O VAL SER 236 275 1.55 30 A A O H ARG ILE 296 300 1.56 1 A ALA 182 -171.14 51.38 1 A ALA 184 178.97 74.62 1 A LEU 201 -79.77 -77.93 1 A ASN 203 -107.43 -64.93 1 A ALA 207 -164.07 -2.04 1 A PRO 211 -34.10 -76.38 1 A GLU 212 -49.72 -19.17 1 A SER 266 -51.82 -8.51 1 A ASN 283 -167.61 79.20 1 A ASN 288 -122.74 -58.87 1 A ASN 292 -76.19 32.41 1 A ARG 296 -50.48 -70.11 1 A PRO 305 -59.14 7.96 1 A GLN 324 43.48 99.25 2 A ALA 182 176.32 55.84 2 A PRO 187 -47.78 76.60 2 A LEU 201 -74.69 -79.15 2 A ASN 203 -109.38 -76.65 2 A ALA 207 -164.61 1.15 2 A PRO 211 -34.32 -76.82 2 A SER 266 -50.05 -5.58 2 A SER 275 -170.94 132.96 2 A ASN 283 -154.14 65.52 2 A PRO 305 -62.76 9.35 3 A ALA 182 62.83 71.09 3 A ALA 184 -161.12 70.13 3 A GLU 188 -171.89 -114.71 3 A LEU 201 -79.94 -78.15 3 A ASN 203 -102.33 -68.40 3 A ALA 207 -165.92 -7.20 3 A PRO 211 -34.52 -76.96 3 A LYS 230 -29.79 -52.54 3 A ASN 288 -123.20 -58.53 3 A ARG 296 -82.90 -71.18 3 A PRO 305 -61.78 8.55 3 A LYS 317 -48.52 -147.52 4 A ALA 182 178.45 61.68 4 A ALA 184 -172.59 75.35 4 A PRO 185 -51.17 -171.65 4 A GLU 188 56.03 160.85 4 A LEU 201 -78.90 -78.33 4 A ASN 203 -111.93 -71.48 4 A LYS 206 -58.94 -82.41 4 A ALA 207 -148.65 56.55 4 A PRO 211 -34.63 -76.33 4 A LYS 230 -24.12 -50.06 4 A SER 266 -50.49 -6.29 4 A SER 275 -170.24 124.80 4 A PRO 284 -54.66 107.97 4 A ASN 288 -130.47 -56.02 4 A ASN 292 -98.87 32.17 4 A ARG 296 -52.61 -76.24 4 A PRO 305 -64.73 7.96 4 A LYS 317 -43.44 -156.78 5 A ALA 182 -172.25 72.25 5 A PRO 183 -53.57 93.77 5 A ALA 184 -170.50 53.93 5 A GLU 188 39.83 59.56 5 A LEU 201 -78.31 -77.73 5 A ASN 203 -101.35 -74.44 5 A LYS 206 -49.56 -83.13 5 A ALA 207 -156.43 58.96 5 A PRO 211 -34.01 -76.41 5 A LYS 230 -27.62 -46.46 5 A SER 266 -50.72 -4.79 5 A SER 275 -171.17 129.56 5 A ASN 283 -153.86 56.28 5 A ASN 288 -124.72 -57.19 5 A CYS 290 -94.22 34.78 5 A ARG 296 -86.26 -71.10 5 A PRO 305 -59.13 9.55 6 A ALA 186 174.82 -44.82 6 A LEU 201 -90.56 -81.28 6 A ASN 203 -71.99 -71.78 6 A LYS 206 -53.21 -81.70 6 A ALA 207 -161.86 54.20 6 A PRO 211 -32.75 -75.87 6 A GLU 212 -49.12 -19.27 6 A SER 266 -51.59 -7.96 6 A ASN 283 -160.98 70.72 6 A ASN 288 -129.77 -54.23 6 A ASN 292 -75.08 33.18 6 A PRO 305 -69.28 8.70 6 A ARG 308 -175.67 -171.31 6 A ILE 316 -56.47 176.73 6 A LYS 317 -54.81 -147.65 6 A GLN 324 -156.54 -64.55 7 A ALA 182 -173.85 61.41 7 A PRO 183 -76.89 43.22 7 A ALA 184 60.44 72.87 7 A ALA 186 -162.29 52.64 7 A LEU 201 -75.56 -76.34 7 A ASN 203 -129.77 -72.87 7 A ALA 207 -163.12 57.18 7 A PRO 211 -34.25 -77.15 7 A SER 222 -58.94 -6.71 7 A SER 266 -50.76 -8.51 7 A ASN 283 -176.42 80.21 7 A PRO 284 -56.14 107.64 7 A ASN 288 -27.61 -53.92 7 A CYS 290 -98.37 34.19 7 A ASN 292 -75.43 32.32 7 A PRO 305 -58.94 7.18 7 A GLN 324 -67.66 61.93 8 A ALA 182 -52.28 175.10 8 A ALA 186 176.28 -46.40 8 A LEU 201 -84.41 -80.59 8 A ASN 203 -104.27 -71.11 8 A LYS 206 -52.49 -78.16 8 A ALA 207 -162.19 4.11 8 A PRO 211 -34.10 -74.81 8 A SER 266 -51.22 -5.11 8 A SER 275 -171.61 132.49 8 A ASN 283 -169.50 76.66 8 A ASN 292 -99.89 33.41 8 A ARG 296 -80.02 -74.89 8 A PRO 305 -61.81 9.80 9 A ALA 186 -173.55 89.68 9 A LEU 201 -78.35 -79.48 9 A ASN 203 -91.32 -78.09 9 A ALA 207 -168.71 57.18 9 A PRO 211 -33.85 -76.64 9 A LYS 230 -28.03 -49.22 9 A SER 266 -54.47 -1.83 9 A ASN 283 -168.16 75.88 9 A PRO 305 -62.47 9.35 10 A ALA 182 -155.82 75.18 10 A PRO 183 -50.80 85.42 10 A PRO 187 -75.23 -77.05 10 A LEU 201 -80.78 -78.36 10 A ASN 203 -67.40 -70.38 10 A LYS 206 -55.90 -75.87 10 A ALA 207 -163.59 49.74 10 A PRO 211 -33.12 -76.56 10 A SER 266 -50.61 -4.78 10 A ASN 288 -126.13 -58.25 10 A ARG 296 -81.01 -75.70 10 A PRO 305 -59.12 7.52 10 A VAL 320 -52.27 98.29 10 A PRO 323 -68.93 -82.70 10 A GLN 324 43.91 91.07 11 A LEU 201 -89.43 -79.54 11 A LYS 206 -50.85 -80.52 11 A ALA 207 -164.49 53.00 11 A PRO 211 -36.89 -75.19 11 A PRO 229 -44.45 -19.22 11 A LYS 230 -24.51 -47.57 11 A SER 266 -49.95 -6.23 11 A ASN 283 -172.96 78.93 11 A ARG 296 -82.65 -78.24 11 A PRO 305 -64.15 8.70 11 A LYS 317 -44.01 -160.74 12 A PRO 181 -71.12 43.43 12 A ALA 182 -152.38 59.09 12 A ALA 184 -167.98 -61.79 12 A PRO 187 -75.70 25.48 12 A GLU 188 57.43 -140.78 12 A LEU 201 -85.62 -81.82 12 A ASN 203 -111.65 -81.06 12 A ALA 207 -162.49 61.14 12 A PRO 211 -32.34 -77.05 12 A ASP 228 -50.66 107.38 12 A LYS 230 -21.42 -50.99 12 A SER 266 -49.81 -4.78 12 A SER 275 -170.08 130.18 12 A ASN 283 -157.73 68.66 12 A ASN 288 -122.62 -57.82 12 A ARG 296 -80.91 -73.85 12 A PRO 305 -62.71 9.84 12 A ARG 308 -171.32 -171.14 12 A LYS 317 -46.36 79.14 12 A ASP 318 -56.81 175.81 12 A VAL 320 -51.93 173.26 13 A ALA 182 169.83 152.14 13 A ALA 184 170.86 131.93 13 A ALA 186 -162.15 72.30 13 A LEU 201 -78.63 -78.25 13 A ASN 203 -96.30 -70.92 13 A ALA 207 -163.12 -0.11 13 A PRO 211 -34.47 -75.14 13 A SER 266 -49.82 -5.47 13 A SER 275 -171.05 127.63 13 A MET 279 -81.59 31.83 13 A ASN 283 -155.95 60.67 13 A ASN 288 -123.83 -57.78 13 A ARG 296 -82.01 -72.62 13 A PRO 305 -59.47 10.69 13 A LYS 317 -43.04 -150.98 13 A GLN 324 -68.56 -137.10 14 A ALA 182 -161.23 47.35 14 A ALA 184 70.89 74.59 14 A ALA 186 -178.48 -44.06 14 A LEU 201 -88.12 -80.00 14 A ASN 203 -90.84 -72.09 14 A LYS 206 -53.54 -83.33 14 A ALA 207 -164.04 53.69 14 A PRO 211 -33.34 -76.23 14 A SER 266 -50.83 -5.20 14 A SER 275 -171.20 129.63 14 A ASN 283 -166.81 77.36 14 A ASN 292 -96.72 33.25 14 A PRO 305 -63.17 8.85 14 A LYS 317 -33.24 -141.74 14 A ASP 318 -165.31 111.21 15 A ALA 184 58.54 145.20 15 A ALA 186 169.87 -62.40 15 A PRO 187 -63.22 -166.40 15 A LEU 201 -67.29 -78.37 15 A ASN 203 -90.55 -82.56 15 A ALA 207 -164.17 60.12 15 A PRO 211 -30.86 -73.40 15 A LYS 230 -29.37 -53.16 15 A ASN 283 -167.49 79.25 15 A ASN 288 -127.98 -57.52 15 A ASN 292 -98.64 31.76 15 A PRO 305 -67.65 9.17 16 A ALA 182 176.80 58.23 16 A GLU 188 60.29 -109.39 16 A LEU 201 -79.49 -77.61 16 A ASN 203 -119.65 -72.75 16 A LYS 206 -58.37 -75.16 16 A ALA 207 -161.18 55.80 16 A PRO 211 -34.02 -76.72 16 A SER 266 -50.41 -4.91 16 A PRO 284 -54.23 108.04 16 A ASN 288 -125.07 -58.37 16 A CYS 290 -95.74 34.42 16 A ASN 292 -88.78 33.92 16 A ARG 296 -51.09 -76.36 16 A PRO 305 -61.75 8.29 16 A LYS 317 -42.65 -150.78 17 A ALA 182 -165.99 69.65 17 A ALA 184 -169.56 89.41 17 A ALA 186 51.33 85.44 17 A PRO 187 -53.01 -139.47 17 A LEU 201 -80.08 -79.36 17 A ASN 203 -111.04 -71.24 17 A LYS 206 -53.78 -74.64 17 A ALA 207 -160.09 3.01 17 A PRO 211 -33.11 -74.52 17 A SER 266 -55.07 -8.16 17 A PRO 284 -54.80 105.79 17 A ARG 296 -52.61 -74.07 17 A PRO 305 -55.10 8.74 17 A ILE 316 -53.24 171.48 17 A LYS 317 -45.34 -149.38 17 A GLN 324 -73.30 47.63 18 A ALA 182 -171.60 -62.62 18 A ALA 184 172.07 74.73 18 A ALA 186 163.76 155.17 18 A PRO 187 -65.71 -81.61 18 A GLU 188 55.34 162.39 18 A LEU 201 -78.68 -78.01 18 A ASN 203 -93.61 -74.17 18 A LYS 206 -54.81 -82.14 18 A ALA 207 -156.15 3.76 18 A PRO 211 -33.75 -74.68 18 A LYS 230 -29.21 -47.68 18 A SER 266 -50.34 -8.14 18 A SER 275 -170.94 131.91 18 A ASN 283 -162.89 74.71 18 A ASN 288 -127.22 -57.26 18 A ARG 296 -52.00 -70.32 18 A PRO 305 -53.70 9.40 18 A LYS 317 -40.68 -160.22 19 A PRO 181 -68.65 22.67 19 A ALA 182 66.45 76.86 19 A ALA 184 60.22 78.39 19 A GLU 188 -49.52 174.73 19 A LEU 201 -80.01 -77.98 19 A ASN 203 -88.30 -70.09 19 A LYS 206 -52.51 -77.82 19 A ALA 207 -163.67 56.80 19 A PRO 211 -36.14 -76.60 19 A LYS 230 -27.22 -40.48 19 A SER 266 -49.79 -6.80 19 A ASN 283 -157.33 66.27 19 A ASN 288 -125.49 -55.43 19 A ASN 292 -74.48 33.86 19 A ARG 296 -51.37 -72.07 19 A PRO 305 -58.18 10.76 19 A LYS 317 -43.18 -156.16 19 A GLN 324 59.11 149.88 20 A LEU 201 -79.80 -77.36 20 A ASN 203 -100.51 -76.45 20 A LYS 206 -51.12 -81.80 20 A ALA 207 -162.00 56.05 20 A PRO 211 -32.43 -76.98 20 A LYS 230 -23.98 -50.39 20 A SER 266 -49.31 -8.55 20 A SER 275 -170.48 127.09 20 A ASN 283 -155.87 67.93 20 A ASN 288 -124.65 -58.44 20 A ASN 292 -98.33 32.97 20 A PRO 305 -61.50 8.95 20 A LYS 317 -49.77 -150.24 20 A GLN 324 -168.33 -87.79 21 A PRO 183 -62.94 16.06 21 A ALA 186 -165.85 -62.47 21 A LEU 201 -72.14 -77.81 21 A ASN 203 -86.74 -73.78 21 A LYS 206 -52.13 -78.25 21 A ALA 207 -163.33 57.01 21 A PRO 211 -31.15 -73.47 21 A LYS 230 -28.60 -44.86 21 A MET 279 -66.19 3.90 21 A GLU 281 -142.62 58.21 21 A ASN 288 -123.45 -54.99 21 A ASN 292 -93.77 33.72 21 A PRO 305 -60.77 10.27 21 A LYS 317 -38.78 -163.94 22 A ALA 182 59.56 73.51 22 A ALA 186 -174.48 78.69 22 A GLU 188 57.04 114.89 22 A LEU 201 -75.93 -76.45 22 A ASN 203 -108.45 -76.18 22 A LYS 206 -54.93 -73.71 22 A ALA 207 -163.30 52.82 22 A PRO 211 -33.96 -77.52 22 A SER 266 -49.17 -6.97 22 A ASN 283 -163.02 75.60 22 A ASN 288 -122.16 -58.62 22 A ASN 292 -97.57 31.47 22 A PRO 305 -60.81 9.51 22 A ASP 318 -50.90 94.47 23 A ALA 182 59.44 78.73 23 A ALA 184 -179.47 -61.45 23 A ALA 186 -47.64 179.54 23 A GLU 188 -44.65 157.14 23 A LEU 201 -93.52 -81.75 23 A ASN 203 -98.70 -72.70 23 A LYS 206 -53.37 -92.26 23 A ALA 207 -151.29 59.38 23 A PRO 211 -34.01 -75.88 23 A LYS 230 -23.74 -51.97 23 A SER 266 -50.93 -5.40 23 A ASN 292 -96.60 33.02 23 A ARG 296 -53.26 -75.62 23 A PRO 305 -59.76 8.83 23 A ARG 308 -174.16 -172.38 23 A ILE 316 -47.07 150.53 23 A ASP 318 -65.16 92.76 23 A VAL 319 -59.25 176.80 23 A GLN 322 -48.86 151.89 23 A GLN 324 54.03 89.07 24 A ALA 186 70.86 73.48 24 A PRO 187 -55.77 178.30 24 A GLU 188 77.63 40.07 24 A LEU 201 -82.79 -78.76 24 A ASN 203 -119.49 -75.99 24 A LYS 206 -59.32 -82.82 24 A ALA 207 -153.67 54.23 24 A PRO 211 -32.97 -76.95 24 A PRO 229 -47.60 -19.57 24 A LYS 230 -27.13 -51.79 24 A SER 266 -52.43 -8.84 24 A ASN 292 -78.73 33.32 24 A PRO 305 -54.25 8.15 24 A GLN 324 68.27 -66.00 25 A ALA 182 -172.86 149.52 25 A ALA 184 168.26 81.13 25 A GLU 188 -68.59 -164.15 25 A LEU 201 -78.12 -79.10 25 A ASN 203 -94.44 -74.42 25 A LYS 206 -50.04 -73.21 25 A ALA 207 -164.09 2.52 25 A PRO 211 -34.44 -75.13 25 A SER 266 -49.33 -10.18 25 A SER 275 -170.82 137.27 25 A ASN 283 -159.82 74.82 25 A ASN 292 -94.89 32.58 25 A PRO 305 -56.41 10.09 25 A GLN 324 58.03 142.40 26 A ALA 184 64.21 179.24 26 A ALA 186 -38.04 103.30 26 A LEU 201 -86.45 -80.36 26 A LYS 206 -51.29 -70.29 26 A ALA 207 -166.62 -1.18 26 A PRO 211 -34.47 -76.21 26 A PRO 229 -46.90 -19.44 26 A LYS 230 -27.11 -52.07 26 A SER 266 -51.37 -6.34 26 A SER 275 -171.53 134.14 26 A GLU 281 -142.11 54.25 26 A ASN 283 -167.19 85.43 26 A ASN 288 -28.53 -56.91 26 A ASN 292 -76.59 31.69 26 A PRO 305 -58.54 6.08 26 A LYS 317 -45.97 -147.62 26 A GLN 324 -86.84 -98.61 27 A ALA 182 177.68 -44.71 27 A ALA 186 -173.40 47.00 27 A LEU 201 -79.18 -79.39 27 A ASN 203 -87.24 -75.54 27 A LYS 206 -50.00 -87.49 27 A ALA 207 -154.78 5.97 27 A PRO 211 -34.94 -75.89 27 A SER 222 -54.44 -8.21 27 A LYS 230 -24.76 -52.35 27 A SER 266 -51.45 -6.87 27 A PRO 284 -56.18 105.76 27 A ASN 288 -125.46 -58.51 27 A ARG 296 -84.99 -70.47 27 A PRO 305 -55.80 10.22 27 A LYS 317 -44.50 -153.73 27 A GLN 324 49.05 93.50 28 A ALA 182 -176.27 -45.35 28 A PRO 183 -59.50 72.51 28 A ALA 184 62.23 146.76 28 A GLU 188 -160.07 2.07 28 A LEU 201 -66.87 -77.80 28 A ASN 203 -98.30 -78.81 28 A LYS 206 -53.79 -81.83 28 A ALA 207 -157.90 58.20 28 A PRO 211 -34.91 -77.90 28 A GLU 212 -48.41 -19.19 28 A SER 222 -57.14 -7.49 28 A SER 266 -49.78 -6.85 28 A ASN 283 -158.60 70.52 28 A ASN 288 -126.84 -56.57 28 A CYS 290 -98.60 36.44 28 A ARG 296 -51.43 -76.70 28 A PRO 305 -60.03 10.09 28 A ARG 308 -171.86 -173.74 28 A GLN 324 47.17 72.68 29 A GLU 188 46.79 -130.94 29 A LEU 201 -75.75 -78.75 29 A ASN 203 -94.62 -78.30 29 A LYS 206 -51.42 -71.47 29 A ALA 207 -159.77 56.54 29 A PRO 211 -33.22 -75.22 29 A SER 266 -50.34 -6.28 29 A SER 275 -172.40 129.76 29 A PRO 305 -60.97 9.24 29 A LYS 317 -42.45 -149.01 30 A GLU 188 -171.02 -147.56 30 A LEU 201 -77.60 -77.53 30 A ASN 203 -94.37 -80.25 30 A LYS 206 -53.15 -78.39 30 A ALA 207 -164.36 59.11 30 A PRO 211 -34.05 -76.77 30 A ASP 228 -52.40 108.19 30 A SER 266 -49.65 -7.86 30 A ASN 292 -99.75 32.06 30 A PRO 305 -59.63 8.20 30 A LYS 317 -39.87 -162.80 lowest energy, model1 Solution structure of Escherichia coli Outer membrane protein A C-terminal domain 1 N N A SER 198 A SER 19 HELX_P A PHE 202 A PHE 23 1 1 5 A LYS 210 A LYS 31 HELX_P A ASN 226 A ASN 47 1 2 17 A SER 245 A SER 66 HELX_P A SER 266 A SER 87 1 3 22 A VAL 285 A VAL 106 HELX_P A CYS 290 A CYS 111 1 4 6 A GLN 295 A GLN 116 HELX_P A LEU 303 A LEU 124 1 5 9 disulf 2.019 A CYS 290 A SG CYS 111 1_555 A CYS 302 A SG CYS 123 1_555 MEMBRANE PROTEIN Outer membrane protein A, OmpA, MEMBRANE PROTEIN C9QZB9_ECOD1 UNP 1 201 C9QZB9 APAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQS VVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA 201 346 2MQE 180 325 C9QZB9 A 1 1 146 4 anti-parallel anti-parallel parallel A LYS 192 A LYS 13 A LYS 197 A LYS 18 A ARG 308 A ARG 129 A LYS 314 A LYS 135 A SER 233 A SER 54 A TYR 239 A TYR 60 A ILE 274 A ILE 95 A GLY 280 A GLY 101