0.012860 0.000000 0.000000 0.000000 0.012860 0.000000 0.000000 0.000000 0.026008 0.00000 0.00000 0.00000 De la Mora, E. Carmichael, I. Garman, E.F. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 8 90.00 90.00 90.00 77.760 77.760 38.450 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 N O3 -1 62.005 NITRATE ION non-polymer 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 N 1 N N N 2 S C N 3 N C N 4 N O N 5 N C N 6 N O N 7 N H N 8 N H N 9 N H N 10 N H N 11 N H N 12 N H N 13 N H N 14 N N N 15 S C N 16 N C N 17 N O N 18 N C N 19 N C N 20 N C N 21 N N N 22 N C N 23 N N N 24 N N N 25 N O N 26 N H N 27 N H N 28 N H N 29 N H N 30 N H N 31 N H N 32 N H N 33 N H N 34 N H N 35 N H N 36 N H N 37 N H N 38 N H N 39 N H N 40 N H N 41 N N N 42 S C N 43 N C N 44 N O N 45 N C N 46 N C N 47 N O N 48 N N N 49 N O N 50 N H N 51 N H N 52 N H N 53 N H N 54 N H N 55 N H N 56 N H N 57 N H N 58 N N N 59 S C N 60 N C N 61 N O N 62 N C N 63 N C N 64 N O N 65 N O N 66 N O N 67 N H N 68 N H N 69 N H N 70 N H N 71 N H N 72 N H N 73 N H N 74 N N N 75 R C N 76 N C N 77 N O N 78 N C N 79 N S N 80 N O N 81 N H N 82 N H N 83 N H N 84 N H N 85 N H N 86 N H N 87 N H N 88 N N N 89 S C N 90 N C N 91 N O N 92 N C N 93 N C N 94 N C N 95 N O N 96 N N N 97 N O N 98 N H N 99 N H N 100 N H N 101 N H N 102 N H N 103 N H N 104 N H N 105 N H N 106 N H N 107 N H N 108 N N N 109 S C N 110 N C N 111 N O N 112 N C N 113 N C N 114 N C N 115 N O N 116 N O N 117 N O N 118 N H N 119 N H N 120 N H N 121 N H N 122 N H N 123 N H N 124 N H N 125 N H N 126 N H N 127 N N N 128 N C N 129 N C N 130 N O N 131 N O N 132 N H N 133 N H N 134 N H N 135 N H N 136 N H N 137 N N N 138 S C N 139 N C N 140 N O N 141 N C Y 142 N C Y 143 N N Y 144 N C Y 145 N C Y 146 N N N 147 N O N 148 N H N 149 N H N 150 N H N 151 N H N 152 N H N 153 N H N 154 N H N 155 N H N 156 N H N 157 N H N 158 N O N 159 N H N 160 N H N 161 N N N 162 S C N 163 N C N 164 N O N 165 S C N 166 N C N 167 N C N 168 N C N 169 N O N 170 N H N 171 N H N 172 N H N 173 N H N 174 N H N 175 N H N 176 N H N 177 N H N 178 N H N 179 N H N 180 N H N 181 N H N 182 N H N 183 N N N 184 S C N 185 N C N 186 N O N 187 N C N 188 N C N 189 N C N 190 N C N 191 N O N 192 N H N 193 N H N 194 N H N 195 N H N 196 N H N 197 N H N 198 N H N 199 N H N 200 N H N 201 N H N 202 N H N 203 N H N 204 N H N 205 N N N 206 S C N 207 N C N 208 N O N 209 N C N 210 N C N 211 N C N 212 N C N 213 N N N 214 N O N 215 N H N 216 N H N 217 N H N 218 N H N 219 N H N 220 N H N 221 N H N 222 N H N 223 N H N 224 N H N 225 N H N 226 N H N 227 N H N 228 N H N 229 N H N 230 N N N 231 S C N 232 N C N 233 N O N 234 N C N 235 N C N 236 N S N 237 N C N 238 N O N 239 N H N 240 N H N 241 N H N 242 N H N 243 N H N 244 N H N 245 N H N 246 N H N 247 N H N 248 N H N 249 N H N 250 N N N 251 N O N 252 N O N 253 N O N 254 N N N 255 S C N 256 N C N 257 N O N 258 N C Y 259 N C Y 260 N C Y 261 N C Y 262 N C Y 263 N C Y 264 N C N 265 N O N 266 N H N 267 N H N 268 N H N 269 N H N 270 N H N 271 N H N 272 N H N 273 N H N 274 N H N 275 N H N 276 N H N 277 N N N 278 S C N 279 N C N 280 N O N 281 N C N 282 N C N 283 N C N 284 N O N 285 N H N 286 N H N 287 N H N 288 N H N 289 N H N 290 N H N 291 N H N 292 N H N 293 N H N 294 N N N 295 S C N 296 N C N 297 N O N 298 N C N 299 N O N 300 N O N 301 N H N 302 N H N 303 N H N 304 N H N 305 N H N 306 N H N 307 N H N 308 N N N 309 S C N 310 N C N 311 N O N 312 R C N 313 N O N 314 N C N 315 N O N 316 N H N 317 N H N 318 N H N 319 N H N 320 N H N 321 N H N 322 N H N 323 N H N 324 N H N 325 N N N 326 S C N 327 N C N 328 N O N 329 N C Y 330 N C Y 331 N C Y 332 N C Y 333 N N Y 334 N C Y 335 N C Y 336 N C Y 337 N C Y 338 N C N 339 N O N 340 N H N 341 N H N 342 N H N 343 N H N 344 N H N 345 N H N 346 N H N 347 N H N 348 N H N 349 N H N 350 N H N 351 N H N 352 N N N 353 S C N 354 N C N 355 N O N 356 N C Y 357 N C Y 358 N C Y 359 N C Y 360 N C Y 361 N C Y 362 N C N 363 N O N 364 N O N 365 N H N 366 N H N 367 N H N 368 N H N 369 N H N 370 N H N 371 N H N 372 N H N 373 N H N 374 N H N 375 N H N 376 N N N 377 S C N 378 N C N 379 N O N 380 N C N 381 N C N 382 N C N 383 N O N 384 N H N 385 N H N 386 N H N 387 N H N 388 N H N 389 N H N 390 N H N 391 N H N 392 N H N 393 N H N 394 N H N 1 N sing N 2 N sing N 3 N sing N 4 N sing N 5 N sing N 6 N sing N 7 N doub N 8 N sing N 9 N sing N 10 N sing N 11 N sing N 12 N sing N 13 N sing N 14 N sing N 15 N sing N 16 N sing N 17 N sing N 18 N sing N 19 N doub N 20 N sing N 21 N sing N 22 N sing N 23 N sing N 24 N sing N 25 N sing N 26 N sing N 27 N sing N 28 N sing N 29 N sing N 30 N sing N 31 N sing N 32 N sing N 33 N doub N 34 N sing N 35 N sing N 36 N sing N 37 N sing N 38 N sing N 39 N sing N 40 N sing N 41 N sing N 42 N sing N 43 N sing N 44 N sing N 45 N doub N 46 N sing N 47 N sing N 48 N sing N 49 N sing N 50 N doub N 51 N sing N 52 N sing N 53 N sing N 54 N sing N 55 N sing N 56 N sing N 57 N sing N 58 N sing N 59 N sing N 60 N sing N 61 N doub N 62 N sing N 63 N sing N 64 N sing N 65 N sing N 66 N doub N 67 N sing N 68 N sing N 69 N sing N 70 N sing N 71 N sing N 72 N sing N 73 N sing N 74 N sing N 75 N sing N 76 N doub N 77 N sing N 78 N sing N 79 N sing N 80 N sing N 81 N sing N 82 N sing N 83 N sing N 84 N sing N 85 N sing N 86 N sing N 87 N sing N 88 N sing N 89 N doub N 90 N sing N 91 N sing N 92 N sing N 93 N sing N 94 N sing N 95 N sing N 96 N sing N 97 N doub N 98 N sing N 99 N sing N 100 N sing N 101 N sing N 102 N sing N 103 N sing N 104 N sing N 105 N sing N 106 N sing N 107 N sing N 108 N doub N 109 N sing N 110 N sing N 111 N sing N 112 N sing N 113 N sing N 114 N sing N 115 N sing N 116 N doub N 117 N sing N 118 N sing N 119 N sing N 120 N sing N 121 N sing N 122 N sing N 123 N sing N 124 N sing N 125 N sing N 126 N doub N 127 N sing N 128 N sing N 129 N sing N 130 N sing N 131 N sing N 132 N sing N 133 N sing N 134 N sing N 135 N doub N 136 N sing N 137 N sing N 138 N sing N 139 N sing Y 140 N sing Y 141 N doub Y 142 N doub N 143 N sing Y 144 N sing N 145 N sing Y 146 N sing N 147 N sing N 148 N sing N 149 N sing N 150 N sing N 151 N sing N 152 N sing N 153 N sing N 154 N sing N 155 N sing N 156 N sing N 157 N sing N 158 N doub N 159 N sing N 160 N sing N 161 N sing N 162 N sing N 163 N sing N 164 N sing N 165 N sing N 166 N sing N 167 N sing N 168 N sing N 169 N sing N 170 N sing N 171 N sing N 172 N sing N 173 N sing N 174 N sing N 175 N sing N 176 N sing N 177 N sing N 178 N sing N 179 N doub N 180 N sing N 181 N sing N 182 N sing N 183 N sing N 184 N sing N 185 N sing N 186 N sing N 187 N sing N 188 N sing N 189 N sing N 190 N sing N 191 N sing N 192 N sing N 193 N sing N 194 N sing N 195 N sing N 196 N sing N 197 N sing N 198 N sing N 199 N sing N 200 N doub N 201 N sing N 202 N sing N 203 N sing N 204 N sing N 205 N sing N 206 N sing N 207 N sing N 208 N sing N 209 N sing N 210 N sing N 211 N sing N 212 N sing N 213 N sing N 214 N sing N 215 N sing N 216 N sing N 217 N sing N 218 N sing N 219 N sing N 220 N sing N 221 N sing N 222 N sing N 223 N sing N 224 N doub N 225 N sing N 226 N sing N 227 N sing N 228 N sing N 229 N sing N 230 N sing N 231 N sing N 232 N sing N 233 N sing N 234 N sing N 235 N sing N 236 N sing N 237 N doub N 238 N sing N 239 N sing N 240 N sing N 241 N sing N 242 N sing N 243 N sing N 244 N sing N 245 N sing N 246 N doub N 247 N sing N 248 N sing N 249 N sing N 250 N sing Y 251 N doub Y 252 N sing Y 253 N sing N 254 N sing Y 255 N doub N 256 N sing Y 257 N doub N 258 N sing Y 259 N sing N 260 N sing N 261 N sing N 262 N sing N 263 N sing N 264 N sing N 265 N sing N 266 N sing N 267 N sing N 268 N sing N 269 N doub N 270 N sing N 271 N sing N 272 N sing N 273 N sing N 274 N sing N 275 N sing N 276 N sing N 277 N sing N 278 N sing N 279 N sing N 280 N sing N 281 N sing N 282 N sing N 283 N sing N 284 N sing N 285 N sing N 286 N doub N 287 N sing N 288 N sing N 289 N sing N 290 N sing N 291 N sing N 292 N sing N 293 N sing N 294 N sing N 295 N sing N 296 N sing N 297 N sing N 298 N sing N 299 N doub N 300 N sing N 301 N sing N 302 N sing N 303 N sing N 304 N sing N 305 N sing N 306 N sing N 307 N sing N 308 N sing N 309 N sing N 310 N sing N 311 N sing N 312 N sing N 313 N sing N 314 N sing N 315 N doub N 316 N sing N 317 N sing N 318 N sing N 319 N sing Y 320 N doub Y 321 N sing Y 322 N sing N 323 N sing Y 324 N doub Y 325 N sing Y 326 N sing N 327 N sing Y 328 N sing Y 329 N doub N 330 N sing Y 331 N doub N 332 N sing Y 333 N sing N 334 N sing N 335 N sing N 336 N sing N 337 N sing N 338 N sing N 339 N sing N 340 N sing N 341 N sing N 342 N sing N 343 N doub N 344 N sing N 345 N sing N 346 N sing N 347 N sing Y 348 N doub Y 349 N sing Y 350 N sing N 351 N sing Y 352 N doub N 353 N sing Y 354 N doub N 355 N sing Y 356 N sing N 357 N sing N 358 N sing N 359 N sing N 360 N sing N 361 N sing N 362 N sing N 363 N sing N 364 N sing N 365 N sing N 366 N sing N 367 N doub N 368 N sing N 369 N sing N 370 N sing N 371 N sing N 372 N sing N 373 N sing N 374 N sing N 375 N sing N 376 N sing N 377 N sing N 378 N sing DK J.Synchrotron.Radiat. JSYRES 1210 0909-0495 18 346 10.1107/S0909049511007163 21525642 Effective Scavenging at Cryotemperatures: Further Increasing the Dose Tolerance of Protein Crystals. 2011 10.2210/pdb2ybh/pdb pdb_00002ybh 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 100 1 MIRRORS CCD 2010-05-10 ADSC QUANTUM 210 EMG-T5 KOHZU DOUBLE CRYSTAL MONOCHROMATOR SINGLE WAVELENGTH M x-ray 1 0.939 1.0 ID14-4 ESRF 0.939 SYNCHROTRON ESRF BEAMLINE ID14-4 14331.160 LYSOZYME C 3.2.1.17 1 nat polymer 62.005 NITRATE ION 4 syn non-polymer 18.015 water 74 nat water HEN EGG WHITE LYSOZYME, 1,4-BETA-N-ACETYLMURAMIDASE C, ALLERGEN GAL D IV, GAL D 4 no no KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPC SALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPC SALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 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 CHICKEN sample 9031 GALLUS GALLUS 1 2 38.62 NONE 4.7 200 MM SODIUM ACETATE BUFFER PH 4.7, 10% W/V NACL. chem_comp_atom chem_comp_bond database_2 pdbx_database_status pdbx_initial_refinement_model struct_site repository Initial release Data collection Database references Derived calculations Other Refinement description 1 0 2011-07-20 1 1 2023-12-20 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.status_code_sf _struct_site.pdbx_auth_asym_id _struct_site.pdbx_auth_comp_id _struct_site.pdbx_auth_seq_id HIGH ENERGY TATRAGONAL LYSOZYME X-RAY STRUCTURE ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS CROSS-LINKED CHICKEN LYSOZYME CRYSTAL IN NEAT ACETONITRILE, THEN BACK-SOAKED IN WATER CROSS-LINKED CHICKEN LYSOZYME CRYSTAL IN 95% ACETONITRILE-WATER FV MUTANT Y(B 32)A (VH DOMAIN) OF MOUSE MONOCLONAL ANTIBODY D1.3 COMPLEXED WITH HEN EGG WHITE LYSOZYME CRYSTAL STRUCTURE ANALYSIS OF THE NURSE SHARK NEW ANTIGENRECEPTOR (NAR) VARIABLE DOMAIN IN COMPLEX WITH LYSOZYME THE CRYSTAL STRUCTURE OF THE TETRAGONAL FORM OF HEN EGGWHITE LYSOZYME AT 1.6 ANGSTROMS RESOLUTION IN SPACE CRYSTAL STRUCTURE OF HYHEL-10 FV MUTANT(HD32A99A)- HENLYSOZYME COMPLEX LYSOZYME , TRICLINIC CRYSTAL FORM FV MUTANT Y(A 50)S (VL DOMAIN) OF MOUSE MONOCLONAL ANTIBODY D1.3 COMPLEXED WITH HEN EGG WHITE LYSOZYME RAMAN CRYSTALLOGRAPHY OF HEN WHITE EGG LYSOZYME - LOW X-RAY DOSE (0.2 MGY) LYSOZYME LYSOZYME NMR SOLUTION STRUCTURE OF HEN LYSOZYME THE 1.8 A STRUCTURE OF MICROGRAVITY GROWN TETRAGONAL HEN EGG WHITE LYSOZYME STRUCTURE OF HEN EGG WHITE LYSOZYME SOAKED WITH CU2- XYLYLBICYCLAM LYSOZYME MUTANT WITH ILE 55 REPLACED BY VAL (I55V) BINDING OF HEXA-N-ACETYLCHITOHEXAOSE: A POWDER DIFFRACTIONSTUDY ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS MPD-LYSOZYME STRUCTURE AT 55.5 KEV USING A TRIXXEL CSI-ASI BASED DIGITAL IMAGER AND THE NEW ESRF U22 UNDULATOR SOURCE AT ID15 LYSOZYME (1SEC) AND UV LASR EXCITED FLUORESCENCE CRYSTAL STRUCTURE OF HEN EGG WHITE LYSOZYME (HEL) COMPLEXEDWITH THE MUTANT ANTI-HEL MONOCLONAL ANTIBODY D1 .3 (VLW92S) EFFECT OF ALCOHOLS ON PROTEIN HYDRATION BINDING OF N,N'-DIACETYLCHITOBIOSE TO HEW LYSOZYME: APOWDER DIFFRACTION STUDY STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY- FILLINGMUTATION GADOLINIUM DERIVATIVE OF TETRAGONAL HEN EGG-WHITE LYSOZYME AT 1.7 A RESOLUTION CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCEOF 5% GLYCEROL LYSOZYME (100 KELVIN) STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY- FILLINGMUTATION STRUCTURE OF HEN EGG-WHITE LYSOZYME TRICLINIC HEN LYSOZYME CRYSTALLIZED AT 313K FROM A D2OSOLUTION BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME : APOWDER DIFFRACTION STUDY CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN AT PH 4 .6 IM MUTANT OF LYSOZYME THE INTERDEPENDENCE OF WAVELENGTH, REDUNDANCY AND DOSE IN SULFUR SAD EXPERIMENTS: 2.070 A WAVELENGTH WITH 2THETA 30 DEGREES DATA ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS EFFECT OF ALCOHOLS ON PROTEIN HYDRATION STRUCTURE FOR ANTIBODY HYHEL-63 Y33V MUTANT COMPLEXED WITHHEN EGG LYSOZYME ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS HEN EGG WHITE LYSOZYME E35Q CHITOPENTAOSE COMPLEX CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE10% SORBITOL CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN AT PH 4.6 STRUCTURE OF HEN EGG-WHITE LYSOZYME IN COMPLEX WITH MPD LYSOZYME IODINE-INACTIVATED THE 1.8 A STRUCTURE OF MICROBATCH OIL DROP GROWN TETRAGONAL HEN EGG WHITE LYSOZYME IGG1 FAB FRAGMENT (HYHEL-5) COMPLEXED WITH LYSOZYME MUTANT WITH ARG 68 REPLACED BY LYS (R68K) CROSS-LINKED CHICKEN LYSOZYME CRYSTAL IN 90% ACETONITRILE-WATER CRYSTAL STRUCTURE OF HEN EGG WHITE LYSOZYME (HEL) COMPLEXEDWITH THE MUTANT ANTI-HEL MONOCLONAL ANTIBODY D1 .3(VLW92A) HEN EGG WHITE LYSOZYME NITRATE CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN IN PRESENCEOF 30% SUCROSE ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS LYSOZYME (100 KELVIN) BINDING OF PENTA-N-ACETYLCHITOPENTAOSE TO HEW LYSOZYME : APOWDER DIFFRACTION STUDY CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN IN PRESENCE20% SORBITOL IM MUTANT OF LYSOZYME STRUCTURE OF TETRAGONAL HEN EGG WHITE LYSOZYME AT 0. 94 AFROM CRYSTALS GROWN BY THE COUNTER-DIFFUSION METHOD THE CRYSTAL STRUCTURES OF LYSOZYME AT VERY LOW LEVELS OF HYDRATION HEN EGG-WHITE LYSOZYME WILD TYPE THE CRYSTAL STRUCTURES OF LYSOZYME AT VERY LOW LEVELS OF HYDRATION HEN EGG WHITE LYSOZYME WITH A ISOASPARTATE RESIDUE CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCEOF 10% SUCROSE MONOCLONAL ANTIBODY FAB D44.1 RAISED AGAINST CHICKEN EGG-WHITE LYSOZYME COMPLEXED WITH LYSOZYME HEN LYSOZYME CHEMICALLY GLYCOSYLATED CRYSTAL STRUCTURE OF ORTHORHOMBIC LYSOZYME GROWN AT PH 6.5 AT 88% RELATIVE HUMIDITY LYSOZYME MUTANT WITH ASP 52 REPLACED BY SER (D52S) COMPLEXED WITH GLCNAC4 (TETRA-N-ACETYL CHITOTETRAOSE) THE 1.33 A STRUCTURE OF TETRAGONAL HEN EGG WHITE LYSOZYME CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCEOF 15% TREHALOSE LYSOZYME (298 KELVIN) CRYSTAL STRUCTURE ANALYSIS OF THE NURSE SHARK NEW ANTIGENRECEPTOR (NAR) VARIABLE DOMAIN IN COMPLEX WITH LYXOZYME THE CRYSTAL STRUCTURE OF THE ORTHORHOMBIC FORM OF HEN EGGWHITE LYSOZYME AT 1.5 ANGSTROMS RESOLUTION CABBCII-10 VHH FRAMEWORK WITH CDR LOOPS OF CABLYS3 GRAFTEDON IT AND IN COMPLEX WITH HEN EGG WHITE LYSOZYME CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCEOF 10% SUCROSE K2PTBR6 BINDING TO LYSOZYME STRUCTURE OF HYPER-VIL-LYSOZYME LYSOZYME MUTANT WITH TRP 62 REPLACED BY TYR (W62Y) CO-CRYSTALLIZED WITH TRI-N-ACETYL-CHITOTRIOSE (PH 4.7) STRUCTURAL EFFECTS OF MONOVALENT ANIONS ON POLYMORPHIC LYSOZYME CRYSTALS THE STRUCTURE OF THE ORTHORHOMBIC FORM OF HEN EGG- WHITE LYSOZYME AT 1.5 ANGSTROMS RESOLUTION ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS LYSOZYME MUTANT WITH ILE 55 REPLACED BY VAL AND SER 91 REPLACED BY THR (I55V,S91T) STRUCTURE OF HEN EGG WHITE LYSOZYME SOAKED WITH CU- CYCLAM CRYSTAL STRUCTURE OF THE CDR2 GERMLINE REVERSION MUTANT OFCAB-LYS3 IN COMPLEX WITH HEN EGG WHITE LYSOZYME NOVEL BROMATE SPECIES TRAPPED WITHIN A PROTEIN CRYSTAL CRYSTAL STRUCTURE OF FAB FRAGMENT OF ANTIBODY HYHEL- 8COMPLEXED WITH ITS ANTIGEN LYSOZYME HEW LYSOZYME: TRP...NA CATION-PI INTERACTION LYSOZYME (280 K) HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FORGLYCINE HEWL BEFORE A HIGH DOSE X-RAY "BURN" LYSOZYME CRYSTAL STRUCTURE OF HYHEL-63 COMPLEXED WITH HEL MUTANT K96A MOL_ID: 1; MOLECULE: LYSOZYME MODIFIED WITH HUMAN FIBRINOGEN GAMMA; CHAIN: NULL; ENGINEERED; THE 14- RESIDUE C-TERMINUS (RESIDUES 398 - 411) OF THE HUMAN FIBRINOGEN GAMMA CHAIN FUSED TO THE C-TERMINUS OF CHICKEN EGG WHITE LYSOZYME; MUTATION: N-TERM MET LYSOZYME (298 KELVIN) IGG1 FAB FRAGMENT (HYHEL-10) AND LYSOZYME COMPLEX THE CRYSTAL STRUCTURE OF THE ORTHORHOMBIC FORM OF HEN EGGWHITE LYSOZYME AT 1.9 ANGSTROMS RESOLUTION IN SPACE CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN IN PRESENCE30% TREHALOSE NEUTRON STRUCTURE OF HEN EGG-WHITE LYSOZYME THE STRUCTURE OF HEW LYSOZYME ORTHORHOMBIC CRYSTAL GROWTHUNDER A HIGH MAGNETIC FIELD BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME : APOWDER DIFFRACTION STUDY IVY:A NEW FAMILY OF PROTEIN LYSOZYME MONOCLINIC HEN EGG-WHITE LYSOZYME CRYSTALLIZED AT PH4. 5FORM HEAVY WATER SOLUTION RAMAN CRYSTALLOGRAPHY OF HEN WHITE EGG LYSOZYME - HIGH X-RAY DOSE (16 MGY) CRYSTAL STRUCTURE ANALYSIS OF HEXAGONAL LYSOZYME IGG1 FAB FRAGMENT (ANTI-LYSOZYME ANTIBODY D1.3, KAPPA ) - LYSOZYME COMPLEX LYSOZYME (1 ATMOSPHERE, 1.4 M NACL) SOLUTION STRUCTURE OF LYSOZYME AT LOW AND HIGH PRESSURE ANOMALOUS SIGNAL OF SOLVENT BROMINES USED FOR PHASING OF LYSOZYME LYSOZYME (295 K) LYSOZYME (MONOCLINIC) LYSOZYME MUTANT WITH ILE 55 REPLACED BY LEU, SER 91 REPLACED BY THR, AND ASP 101 REPLACED BY SER (I55L ,S91T,D101S) CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN AT PH 4.6 LYSOZYME TRICLINIC CRYSTAL FORM LYSOZYME (1000 ATMOSPHERES, 1.4 M NACL) EFFECT OF ALCOHOLS ON PROTEIN HYDRATION FV MUTANT Y(B 101)F (VH DOMAIN) OF MOUSE MONOCLONAL ANTIBODY D1.3 COMPLEXED WITH HEN EGG WHITE LYSOZYME HALF-SANDWICH ARENE RUTHENIUM(II)-ENZYME COMPLEX LYSOZYME MUTANT WITH THR 40 REPLACED BY SER AND SER 91 REPLACED BY THR (T40S,S91T) LYSOZYME (ORTHORHOMBIC) ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS THE INTERDEPENDENCE OF WAVELENGTH, REDUNDANCY AND DOSE IN SULFUR SAD EXPERIMENTS: 0.979 A WAVELENGTH 991 IMAGES DATA CRYSTAL STRUCTURE OF HEN EGG WHITE LYSOZYME (HEL) COMPLEXEDWITH THE MUTANT ANTI-HEL MONOCLONAL ANTIBODY D1 .3 (VLW92H) STRUCTURAL EFFECTS OF MONOVALENT ANIONS ON POLYMORPHIC LYSOZYME CRYSTALS HEWL AFTER A HIGH DOSE X-RAY "BURN" LYSOZYME MUTANT WITH THR 40 REPLACED BY SER (T40S) LOW TEMPERATURE MIDDLE RESOLUTION STRUCTURE OF HEN EGG WHITE LYSOZYME FROM MASC DATA X-RAY STRUCTURE OF HEW LYSOZYME ORTHORHOMBIC CRYSTAL FORMEDIN THE EARTH'S MAGNETIC FIELD CRYSTAL STRUCTURE OF HYHEL-63 COMPLEXED WITH HEL MUTANT K96A STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY- FILLINGMUTATION LYSOZYME MUTANT WITH THR 40 REPLACED BY SER, ILE 55 REPLACED BY VAL, AND SER 91 REPLACED BY THR (T40S ,I55V,S91T) DEGENERATE INTERFACES IN ANTIGEN-ANTIBODY COMPLEXES SPECIFIC CHEMICAL AND STRUCTURAL DAMAGE CAUSED BY INTENSE SYNCHROTRON RADIATION TO HEN EGG WHITE LYSOZYME LYSOZYME STRUCTURE FOR ANTIBODY HYHEL-63 Y33A MUTANT COMPLEXED WITHHEN EGG LYSOZYME STRUCTURE OF THE MONOCLINIC C2 FORM OF HEN EGG- WHITELYSOZYME AT 2.0 ANGSTROMS RESOLUTION TRI-IODIDE DERIVATIVE OF HEN EGG-WHITE LYSOZYME LOW TEMPERATURE ORTHORHOMBIC LYSOZYME TRICLINIC LYSOZYME WITH LOW SOLVENT CONTENT OBTAINED BYPHASE TRANSITION COVALENT GLYCOSYL-ENZYME INTERMEDIATE OF HEN EGG WHITE LYSOZYME CRYSTAL STRUCTURE OF THE ANTI-LYSOZYME ANTIBODY HYHEL- 63 COMPLEXED WITH HEN EGG WHITE LYSOZYME CRYSTAL STRUCTURE OF HYHEL-10 FV MUTANT LS91A COMPLEXEDWITH HEN EGG WHITE LYSOZYME ON THE ROUTINE USE OF SOFT X-RAYS IN MACROMOLECULARCRYSTALLOGRAPHY, PART III- THE OPTIMAL DATA COLLECTIONWAVELENGTH CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCEOF 10% TREHALOSE EFFECT OF ALCOHOLS ON PROTEIN HYDRATION LYSOZYME (60SEC) AND UV LASER EXCITED FLUORESCENCE LYSOZYME (180 K) CRYSTAL STRUCTURE OF ORTHORHOMBIC LYSOZYME GROWN AT PH 6.5 THE INTERDEPENDENCE OF WAVELENGTH, REDUNDANCY AND DOSE IN SULFUR SAD EXPERIMENTS: 1.284 A WAVELENGTH 360 IMAGES DATA HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FORGLYCINE LYSOZYME MUTANT WITH TRP 62 REPLACED BY PHE (W62F) CO-CRYSTALLIZED WITH TRI-N-ACETYL-CHITOTRIOSE (PH 4. 7) LYSOZYME CO-CRYSTALLIZED WITH TETRA-N-ACETYL- CHITOTETRAOSE (PH 4.7) CRYSTAL STRUCTURE OF ORTHORHOMBIC LYSOZYME GROWN AT PH 4.6IN PRESENCE OF 5% SORBITOL LYSOZYME (PARTIALLY REDUCED, CARBOXYMETHYLATED (6,127-RCM )) ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS THE CRYSTAL STRUCTURE OF THE ANTIBODY FAB HYHEL5 COMPLEXWITH LYSOZYME AT 1.7A RESOLUTION ORTHORHOMBIC LYSOZYME CRYSTALLIZED AT HIGH TEMPERATURE ( 310K) LYSOZYME GROWN AT BASIC PH AND ITS LOW HUMIDITY VARIANT LYSOZYME MUTANT WITH TRP 62 REPLACED BY TYR (W62Y) MONOCLINIC HEN EGG WHITE LYSOZYME, THIOCYANATE COMPLEX LYSOZYME COMPLEXED WITH THE INHIBITOR TRI-N- ACETYLCHITOTRIOSE LYSOZYME HEWL AT 0.65 ANGSTROM RESOLUTION LYSOZYME STRUCTURE DERIVED FROM THIN-FILM-BASED CRYSTALS ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS STRUCTURAL EFFECTS OF MONOVALENT ANIONS ON POLYMORPHIC LYSOZYME CRYSTALS CRYSTAL STRUCTURE OF HYHEL-10 FV MUTANT LS93A COMPLEXEDWITH HEN EGG WHITE LYSOZYME STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY- FILLINGMUTATION CRYSTAL STRUCTURE OF THE CAMELID SINGLE DOMAIN ANTIBODY CAB-LYS2 IN COMPLEX WITH HEN EGG WHITE LYSOZYME SIRAS STRUCTURE OF TETRAGONAL LYSOSYME USING DERIVATIVE DATA COLLECTED AT THE HIGH ENERGY REMOTE HOLMIUM KEDGE IM MUTANT OF LYSOZYME CRYSTAL STRUCTURE OF WILD-TYPE HEN-EGG WHITE LYSOZYMESINGLY LABELED WITH 2',3'-EPOXYPROPYL BETA- GLYCOSIDE OF N-ACETYLLACTOSAMINE CHICKEN EGG WHITE LYSOZYME CRYSTAL GROWN IN BROMIDE SOLUTION CRYSTAL STRUCTURE OF HYHEL-10 FV MUTANT(HD32A)-HEN LYSOZYMECOMPLEX CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCEOF 5% GLYCEROL LYSOZYME STRUCTURE OF IVY COMPLEXED WITH ITS TARGET, HEWL PH EVOLUTION OF TETRAGONAL HEWL AT 4 DEGREES CELCIUS. MONOCLINIC HEN EGG-WHITE LYSOZYME CRYSTALLIZED AT 313K THE CRYSTAL STRUCTURES OF LYSOZYME AT VERY LOW LEVELS OF HYDRATION BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME : APOWDER DIFFRACTION STUDY CRYSTAL STRUCTURE OF A CAMEL SINGLE-DOMAIN VH ANTIBODY FRAGMENT IN COMPLEX WITH LYSOZYME CRYSTAL STRUCTURE OF THE CAMELID SINGLE DOMAIN ANTIBODY1D2L19 IN COMPLEX WITH HEN EGG WHITE LYSOZYME ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS THE 1.8 A STRUCTURE OF GEL GROWN TETRAGONAL HEN EGG WHITE LYSOZYME CRYSTAL STRUCTURE OF HEW LYSOZYME UNDER PRESSURE OF KRYPTON (55 BAR) CRYSTAL STRUCTURE OF HEW LYSOZYME UNDER PRESSURE OF XENON (8 BAR) MONOCLINIC HEN EGG WHITE LYSOZYME IODIDE LYSOZYME-CO RELEASING MOLECULE ADDUCT CROSS-LINKED LYSOZYME CRYSTAL IN NEAT WATER PARA-ARSANILATE DERIVATIVE OF HEN EGG-WHITE LYSOZYME LYSOZYME (MUCOPEPTIDE N-ACETYLMURAMYL HYDROLASE) CRYSTAL STRUCTURE OF HEN EGG WHITE LYSOZYME (HEL) COMPLEXEDWITH THE MUTANT ANTI-HEL MONOCLONAL ANTIBODY D1 .3 (VLW92V) THE INTERDEPENDENCE OF WAVELENGTH, REDUNDANCY AND DOSE IN SULFUR SAD EXPERIMENTS: 1.540 A WAVELENGTH 180 IMAGES DATA DEGENERATE INTERFACES IN ANTIGEN-ANTIBODY COMPLEXES BINDING OF TETRA-N-ACETYLCHITOTETRAOSE TO HEW LYSOZYME : APOWDER DIFFRACTION STUDY LYSOZYME (95 K) HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FORGLYCINE TRANSFORMED MONOCLINIC CRYSTAL OF HEN EGG-WHITE LYSOZYMEFROM A HEAVY WATER SOLUTION LYSOZYME REFINEMENT OF TRICLINIC LYSOZYME AT ATOMIC RESOLUTION CRYSTAL STRUCTURE OF HYHEL-10 FV-HEN LYSOZYME COMPLEX CRYSTAL STRUCTURE OF FAB FRAGMENT OF ANTIBODY HYHEL- 26COMPLEXED WITH LYSOZYME BINDING OF N,N',N"-TRIACETYLCHITOTRIOSE TO HEW LYSOZYME: APOWDER DIFFRACTION STUDY LYSOZYME HUMANIZED ANTI-LYSOZYME FV COMPLEXED WITH LYSOZYME ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS XENON DERIVATIVE OF HEN EGG-WHITE LYSOZYME LYSOZYME LYSOZYME (88 PERCENT HUMIDITY) HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FORGLYCINE STRUCTURE OF LYSOZYME WITH PERIODATE CRYSTAL STRUCTURE OF HYHEL-10 FV MUTANT LY50F COMPLEXEDWITH HEN EGG WHITE LYSOZYME EFFECT OF ALCOHOLS ON PROTEIN HYDRATION LYSOZYME , TRICLINIC CRYSTAL FORM HEN EGG WHITE LYSOZYME, D18A MUTANT, IN COMPLEX WITH MOUSE MONOCLONAL ANTIBODY D1.3 ATOMIC RESOLUTION REFINEMENT OF TRICLINIC HEW LYSOZYME AT 295K LYSOZYME MUTANT WITH ASP 52 REPLACED BY SER (D52S) HEN EGG-WHITE LYSOZYME, LOW HUMIDITY FORM SOLUTION STRUCTURE OF LYSOZYME AT LOW AND HIGH PRESSURE CRYSTAL STRUCTURE OF HYHEL-10 FV MUTANT(HD99A)-HEN LYSOZYMECOMPLEX LYSOZYME (120 K) CRYSTAL STRUCTURE ANALYSIS OF AN ANTI-LYSOZYME ANTIBODY MOL_ID: 1; MOLECULE: LYSOZYME; CHAIN: A, B; EC: 3.2.1.17 CRYSTAL STRUCTURE OF HYHEL-10 FV MUTANT SFSF COMPLEXED WITHHEN EGG WHITE LYSOZYME COMPLEX HEN EGG WHITE LYSOZYME WITH A SUCCINIMIDE RESIDUE IODINE DERIVATIVE OF HEN EGG-WHITE LYSOZYME CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN AT PH 4.6 HISTOCOMPATIBILITY ANTIGEN I-AG7 LYSOZYME MUTANT WITH SER 91 REPLACED BY THR (S91T) FV FRAGMENT OF MOUSE MONOCLONAL ANTIBODY D1.3 COMPLEXED WITH HEN EGG LYSOZYME BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME : APOWDER DIFFRACTION STUDY ON THE ROUTINE USE OF SOFT X-RAYS IN MACROMOLECULARCRYSTALLOGRAPHY, PART III- THE OPTIMAL DATA COLLECTIONWAVELENGTH LYSOZYME (MUCOPEPTIDE N-ACETYLMURAMYL HYDROLASE) THE 1.40 A STRUCTURE OF SPACEHAB-01 HEN EGG WHITE LYSOZYME HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FORGLYCINE LYSOZYME PHASED ON ANOMALOUS SIGNAL OF SULFURS AND CHLORINES EFFECT OF ALCOHOLS ON PROTEIN HYDRATION THE CRYSTAL STRUCTURE OF THE TETRAGONAL FORM OF HEN EGGWHITE LYSOZYME AT 1.7 ANGSTROMS RESOLUTION UNDER BASICCONDITIONS IN SPACE IGG1 FV FRAGMENT (HYHEL-10) AND LYSOZYME COMPLEX ( THEORETICAL MODEL) THE 1.8 A STRUCTURE OF GROUND CONTROL GROWN TETRAGONAL HEN EGG WHITE LYSOZYME HYDROGEN AND HYDRATION OF HEN EGG-WHITE LYSOZYME DETERMINEDBY NEUTRON DIFFRACTION LYSOZYME MUTANT WITH SER 91 REPLACED BY ALA (S91A) LYSOZYME CO-CRYSTALLIZED WITH TRI-N-ACETYL-CHITOTRIOSE (PH 4.7) THE KEDGE HOLMIUM DERIVATIVE OF HEN EGG-WHITE LYSOZYME AT HIGH RESOLUTION FROM SINGLE WAVELENGTH ANOMALOUS DIFFRACTION CRYSTAL STRUCTURE OF HEN EGG WHITE LYSOZYME (HEL) COMPLEXEDWITH THE MUTANT ANTI-HEL MONOCLONAL ANTIBODY D1 .3 (VLW92F) LYSOZYME (250 K) THE CRYSTAL STRUCTURE OF THE MONOCLINIC FORM OF HEN EGGWHITE LYSOZYME AT 1.7 ANGSTROMS RESOLUTION IN SPACE NITRATE X-RAY INDUCED REDUCTION ON HEWL CRYSTALS (17.9 MGY) NITRATE X-RAY INDUCED REDUCTION ON HEWL CRYSTALS (12.31 MGY). NITRATE X-RAY INDUCED REDUCTION ON HEWL CRYSTALS (28.6 MGY) NITRATE X-RAY INDUCED REDUCTION ON HEWL CRYSTALS (6.62 MGY) NITRATE X-RAY INDUCED REDUCTION ON HEWL CRYSTALS (23.3 MGY) ASCORBATE CO-CRYSTALLIZED HEWL. PDBE Y PDBE 2011-03-08 REL REL NO3 NITRATE ION HOH water 2W1L PDB ENTRY 2W1L PDB experimental model NO3 1130 2 NO3 NO3 1130 A NO3 1131 2 NO3 NO3 1131 A NO3 1132 2 NO3 NO3 1132 A NO3 1133 2 NO3 NO3 1133 A HOH 2001 3 HOH HOH 2001 A HOH 2002 3 HOH HOH 2002 A HOH 2003 3 HOH HOH 2003 A HOH 2004 3 HOH HOH 2004 A HOH 2005 3 HOH HOH 2005 A HOH 2006 3 HOH HOH 2006 A HOH 2007 3 HOH HOH 2007 A HOH 2008 3 HOH HOH 2008 A HOH 2009 3 HOH HOH 2009 A HOH 2010 3 HOH HOH 2010 A HOH 2011 3 HOH HOH 2011 A HOH 2012 3 HOH HOH 2012 A HOH 2013 3 HOH HOH 2013 A HOH 2014 3 HOH HOH 2014 A HOH 2015 3 HOH HOH 2015 A HOH 2016 3 HOH HOH 2016 A HOH 2017 3 HOH HOH 2017 A HOH 2018 3 HOH HOH 2018 A HOH 2019 3 HOH HOH 2019 A HOH 2020 3 HOH HOH 2020 A HOH 2021 3 HOH HOH 2021 A HOH 2022 3 HOH HOH 2022 A HOH 2023 3 HOH HOH 2023 A HOH 2024 3 HOH HOH 2024 A HOH 2025 3 HOH HOH 2025 A HOH 2026 3 HOH HOH 2026 A HOH 2027 3 HOH HOH 2027 A HOH 2028 3 HOH HOH 2028 A HOH 2029 3 HOH HOH 2029 A HOH 2030 3 HOH HOH 2030 A HOH 2031 3 HOH HOH 2031 A HOH 2032 3 HOH HOH 2032 A HOH 2033 3 HOH HOH 2033 A HOH 2034 3 HOH HOH 2034 A HOH 2035 3 HOH HOH 2035 A HOH 2036 3 HOH HOH 2036 A HOH 2037 3 HOH HOH 2037 A HOH 2038 3 HOH HOH 2038 A HOH 2039 3 HOH HOH 2039 A HOH 2040 3 HOH HOH 2040 A HOH 2041 3 HOH HOH 2041 A HOH 2042 3 HOH HOH 2042 A HOH 2043 3 HOH HOH 2043 A HOH 2044 3 HOH HOH 2044 A HOH 2045 3 HOH HOH 2045 A HOH 2046 3 HOH HOH 2046 A HOH 2047 3 HOH HOH 2047 A HOH 2048 3 HOH HOH 2048 A HOH 2049 3 HOH HOH 2049 A HOH 2050 3 HOH HOH 2050 A HOH 2051 3 HOH HOH 2051 A HOH 2052 3 HOH HOH 2052 A HOH 2053 3 HOH HOH 2053 A HOH 2054 3 HOH HOH 2054 A HOH 2055 3 HOH HOH 2055 A HOH 2056 3 HOH HOH 2056 A HOH 2057 3 HOH HOH 2057 A HOH 2058 3 HOH HOH 2058 A HOH 2059 3 HOH HOH 2059 A HOH 2060 3 HOH HOH 2060 A HOH 2061 3 HOH HOH 2061 A HOH 2062 3 HOH HOH 2062 A HOH 2063 3 HOH HOH 2063 A HOH 2064 3 HOH HOH 2064 A HOH 2065 3 HOH HOH 2065 A HOH 2066 3 HOH HOH 2066 A HOH 2067 3 HOH HOH 2067 A HOH 2068 3 HOH HOH 2068 A HOH 2069 3 HOH HOH 2069 A HOH 2070 3 HOH HOH 2070 A HOH 2071 3 HOH HOH 2071 A HOH 2072 3 HOH HOH 2072 A HOH 2073 3 HOH HOH 2073 A HOH 2074 3 HOH HOH 2074 A LYS 1 n 1 LYS 1 A VAL 2 n 2 VAL 2 A PHE 3 n 3 PHE 3 A GLY 4 n 4 GLY 4 A ARG 5 n 5 ARG 5 A CYS 6 n 6 CYS 6 A GLU 7 n 7 GLU 7 A LEU 8 n 8 LEU 8 A ALA 9 n 9 ALA 9 A ALA 10 n 10 ALA 10 A ALA 11 n 11 ALA 11 A MET 12 n 12 MET 12 A LYS 13 n 13 LYS 13 A ARG 14 n 14 ARG 14 A HIS 15 n 15 HIS 15 A GLY 16 n 16 GLY 16 A LEU 17 n 17 LEU 17 A ASP 18 n 18 ASP 18 A ASN 19 n 19 ASN 19 A TYR 20 n 20 TYR 20 A ARG 21 n 21 ARG 21 A GLY 22 n 22 GLY 22 A TYR 23 n 23 TYR 23 A SER 24 n 24 SER 24 A LEU 25 n 25 LEU 25 A GLY 26 n 26 GLY 26 A ASN 27 n 27 ASN 27 A TRP 28 n 28 TRP 28 A VAL 29 n 29 VAL 29 A CYS 30 n 30 CYS 30 A ALA 31 n 31 ALA 31 A ALA 32 n 32 ALA 32 A LYS 33 n 33 LYS 33 A PHE 34 n 34 PHE 34 A GLU 35 n 35 GLU 35 A SER 36 n 36 SER 36 A ASN 37 n 37 ASN 37 A PHE 38 n 38 PHE 38 A ASN 39 n 39 ASN 39 A THR 40 n 40 THR 40 A GLN 41 n 41 GLN 41 A ALA 42 n 42 ALA 42 A THR 43 n 43 THR 43 A ASN 44 n 44 ASN 44 A ARG 45 n 45 ARG 45 A ASN 46 n 46 ASN 46 A THR 47 n 47 THR 47 A ASP 48 n 48 ASP 48 A GLY 49 n 49 GLY 49 A SER 50 n 50 SER 50 A THR 51 n 51 THR 51 A ASP 52 n 52 ASP 52 A TYR 53 n 53 TYR 53 A GLY 54 n 54 GLY 54 A ILE 55 n 55 ILE 55 A LEU 56 n 56 LEU 56 A GLN 57 n 57 GLN 57 A ILE 58 n 58 ILE 58 A ASN 59 n 59 ASN 59 A SER 60 n 60 SER 60 A ARG 61 n 61 ARG 61 A TRP 62 n 62 TRP 62 A TRP 63 n 63 TRP 63 A CYS 64 n 64 CYS 64 A ASN 65 n 65 ASN 65 A ASP 66 n 66 ASP 66 A GLY 67 n 67 GLY 67 A ARG 68 n 68 ARG 68 A THR 69 n 69 THR 69 A PRO 70 n 70 PRO 70 A GLY 71 n 71 GLY 71 A SER 72 n 72 SER 72 A ARG 73 n 73 ARG 73 A ASN 74 n 74 ASN 74 A LEU 75 n 75 LEU 75 A CYS 76 n 76 CYS 76 A ASN 77 n 77 ASN 77 A ILE 78 n 78 ILE 78 A PRO 79 n 79 PRO 79 A CYS 80 n 80 CYS 80 A SER 81 n 81 SER 81 A ALA 82 n 82 ALA 82 A LEU 83 n 83 LEU 83 A LEU 84 n 84 LEU 84 A SER 85 n 85 SER 85 A SER 86 n 86 SER 86 A ASP 87 n 87 ASP 87 A ILE 88 n 88 ILE 88 A THR 89 n 89 THR 89 A ALA 90 n 90 ALA 90 A SER 91 n 91 SER 91 A VAL 92 n 92 VAL 92 A ASN 93 n 93 ASN 93 A CYS 94 n 94 CYS 94 A ALA 95 n 95 ALA 95 A LYS 96 n 96 LYS 96 A LYS 97 n 97 LYS 97 A ILE 98 n 98 ILE 98 A VAL 99 n 99 VAL 99 A SER 100 n 100 SER 100 A ASP 101 n 101 ASP 101 A GLY 102 n 102 GLY 102 A ASN 103 n 103 ASN 103 A GLY 104 n 104 GLY 104 A MET 105 n 105 MET 105 A ASN 106 n 106 ASN 106 A ALA 107 n 107 ALA 107 A TRP 108 n 108 TRP 108 A VAL 109 n 109 VAL 109 A ALA 110 n 110 ALA 110 A TRP 111 n 111 TRP 111 A ARG 112 n 112 ARG 112 A ASN 113 n 113 ASN 113 A ARG 114 n 114 ARG 114 A CYS 115 n 115 CYS 115 A LYS 116 n 116 LYS 116 A GLY 117 n 117 GLY 117 A THR 118 n 118 THR 118 A ASP 119 n 119 ASP 119 A VAL 120 n 120 VAL 120 A GLN 121 n 121 GLN 121 A ALA 122 n 122 ALA 122 A TRP 123 n 123 TRP 123 A ILE 124 n 124 ILE 124 A ARG 125 n 125 ARG 125 A GLY 126 n 126 GLY 126 A CYS 127 n 127 CYS 127 A ARG 128 n 128 ARG 128 A LEU 129 n 129 LEU 129 A author_and_software_defined_assembly PISA 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 ASN 44 A N ASN 44 A O ASP 52 A O ASP 52 A N TYR 53 A N TYR 53 A O ILE 58 A O ILE 58 1 A HOH 2024 F HOH 1 A ARG 68 -147.76 17.23 1 A THR 69 -115.67 78.27 14.025 -0.92 0.00 0.00 -0.92 0.00 1.83 0.930 0.913 HYDROGENS HAVE BEEN ADDED IN THE RIDING POSITIONS. 0.23584 0.19827 0.20006 2.00 35.00 384 7913 4.6 98.93 4.083 0.116 RANDOM 1 THROUGHOUT MOLECULAR REPLACEMENT 0.224 0.179 0.80 0.80 1.40 PDB ENTRY 2W1L MAXIMUM LIKELIHOOD MASK 2.00 35.00 74 1091 16 0 1001 0.007 0.021 1037 0.976 1.912 1401 5.208 5.000 128 34.280 23.000 50 12.732 15.000 166 16.150 15.000 11 0.077 0.200 144 0.002 0.020 810 0.352 1.500 647 0.710 2.000 1008 1.091 3.000 390 1.884 4.500 393 0.220 0.180 2.052 24 566 20 98.99 12.786 2.00 35.00 2YBH 8348 4.0 0.06 1 7.60 6.2 99.4 0.07 2.00 2.10 8.80 1 6.2 99.8 refinement REFMAC 5.5.0110 data reduction MOSFLM data scaling SCALEPACK phasing MOLREP Nitrate X-ray induced reduction on HEWL crystals (2.31 MGy). 1 N N 2 N N 2 N N 2 N N 2 N N 3 N N A GLY 4 A GLY 4 HELX_P A HIS 15 A HIS 15 1 1 12 A SER 24 A SER 24 HELX_P A ASN 37 A ASN 37 1 2 14 A CYS 80 A CYS 80 HELX_P A SER 85 A SER 85 5 3 6 A ILE 88 A ILE 88 HELX_P A SER 100 A SER 100 1 4 13 A ASN 103 A ASN 103 HELX_P A ALA 107 A ALA 107 5 5 5 A TRP 108 A TRP 108 HELX_P A CYS 115 A CYS 115 1 6 8 A ASP 119 A ASP 119 HELX_P A ARG 125 A ARG 125 5 7 7 disulf 2.030 A CYS 6 A SG CYS 6 1_555 A CYS 127 A SG CYS 127 1_555 disulf 2.025 A CYS 30 A SG CYS 30 1_555 A CYS 115 A SG CYS 115 1_555 disulf 2.038 A CYS 64 A SG CYS 64 1_555 A CYS 80 A SG CYS 80 1_555 disulf 2.030 A CYS 76 A SG CYS 76 1_555 A CYS 94 A SG CYS 94 1_555 HYDROLASE HYDROLASE, NITRATE REDUCTION LYSC_CHICK UNP 1 P00698 19 147 2YBH 1 129 P00698 A 1 1 129 3 anti-parallel anti-parallel A THR 43 A THR 43 A ARG 45 A ARG 45 A THR 51 A THR 51 A TYR 53 A TYR 53 A ILE 58 A ILE 58 A ASN 59 A ASN 59 BINDING SITE FOR RESIDUE NO3 A 1130 A NO3 1130 Software 8 BINDING SITE FOR RESIDUE NO3 A 1131 A NO3 1131 Software 4 BINDING SITE FOR RESIDUE NO3 A 1132 A NO3 1132 Software 6 BINDING SITE FOR RESIDUE NO3 A 1133 A NO3 1133 Software 6 A CYS 64 A CYS 64 8 1_555 A ASN 65 A ASN 65 8 1_555 A ASP 66 A ASP 66 8 1_555 A GLY 67 A GLY 67 8 1_555 A ARG 68 A ARG 68 8 1_555 A THR 69 A THR 69 8 1_555 A SER 72 A SER 72 8 1_555 A HOH 2035 F HOH 8 1_555 A GLY 4 A GLY 4 4 1_555 A ARG 5 A ARG 5 4 1_555 A CYS 6 A CYS 6 4 1_555 A GLU 7 A GLU 7 4 1_555 A PHE 3 A PHE 3 6 1_555 A ARG 14 A ARG 14 6 1_555 A HIS 15 A HIS 15 6 1_555 A SER 86 A SER 86 6 1_555 A ASP 87 A ASP 87 6 1_555 A ILE 88 A ILE 88 6 1_555 A SER 24 A SER 24 6 1_555 A LEU 25 A LEU 25 6 1_555 A GLY 26 A GLY 26 6 1_555 A VAL 120 A VAL 120 6 1_555 A GLN 121 A GLN 121 6 1_555 A ILE 124 A ILE 124 6 1_555 96 P 43 21 2