0.011118 0.006419 0.000000 0.000000 0.012838 0.000000 0.000000 0.000000 0.021514 0.00000 0.00000 0.00000 Holton, J. Alber, T. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 18 90.00 90.00 120.00 89.943 89.943 46.481 C2 H4 O 44.053 ACETYL GROUP non-polymer 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 H2 O 18.015 WATER non-polymer 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 C3 H7 N O3 105.093 y SERINE 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 101 1537 1542 10.1073/pnas.0306241101 14752198 Automated protein crystal structure determination using ELVES. 2004 US Nat.Struct.Biol. NSBIEW 2024 1072-8368 3 510 515 An Engineered Allosteric Switch in Leucine-Zipper Oligomerization 1996 UK Nature NATUAS 0006 0028-0836 371 80 83 10.1038/371080a0 Crystal Structure of an Isoleucine-Zipper Trimer 1994 US Science SCIEAS 0038 0036-8075 262 1401 1407 A Switch between Two-, Three-, and Four-Stranded Coiled Coils in GCN4 Leucine Zipper Mutants 1993 US Science SCIEAS 0038 0036-8075 254 539 544 X-Ray Structure of the GCN4 Leucine Zipper, a two-stranded, parallel coiled coil. 1991 10.2210/pdb1rb5/pdb pdb_00001rb5 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 90.0 1 CCD 1997-12-05 ADSC SI(111) MAD M x-ray 1 1.0688 1.0 0.9800 1.0 0.9795 1.0 0.9322 1.0 BL1-5 SSRL 1.0688, 0.9800, 0.9795, 0.9322 SYNCHROTRON SSRL BEAMLINE BL1-5 3988.677 General control protein GCN4 LEUCINE-ZIPPER (RESIDUES 249-281) N16A 3 syn polymer 18.015 water 189 nat water Amino acid biosynthesis regulatory protein no yes (ACE)RMKQLEDKVEELLSKAYHLENEVARLKKLVGER XRMKQLEDKVEELLSKAYHLENEVARLKKLVGER A,B,C 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 1 4.54 75. VAPOR DIFFUSION, SITTING DROP 7.3 100mM bis-tris, pH 7.3, VAPOR DIFFUSION, SITTING DROP, temperature 298K 298 software database_2 struct_conn struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Refinement description Database references Derived calculations 1 0 2004-01-13 1 1 2008-04-29 1 2 2011-07-13 1 3 2017-10-11 1 4 2021-10-27 _database_2.pdbx_DOI _database_2.pdbx_database_accession _struct_conn.pdbx_leaving_atom_flag _struct_ref_seq_dif.details ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL AUTOMATIC SOLUTION ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL AUTOMATIC SOLUTION ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL FORM RCSB Y RCSB 2003-11-01 REL REL HOH water THE SEQUENCE OF THE PROTEIN IS NATURALLY FOUND IN SACCHAROMYCES CEREVISIAE. THE PROTEIN WAS CHEMICALLY SYNTHESIZED. sample WAT 2 2 HOH HOH 202 A WAT 4 2 HOH HOH 203 A WAT 8 2 HOH HOH 204 A WAT 9 2 HOH HOH 205 A WAT 10 2 HOH HOH 206 A WAT 11 2 HOH HOH 207 A WAT 15 2 HOH HOH 208 A WAT 17 2 HOH HOH 209 A WAT 21 2 HOH HOH 210 A WAT 29 2 HOH HOH 211 A WAT 30 2 HOH HOH 212 A WAT 33 2 HOH HOH 213 A WAT 34 2 HOH HOH 214 A WAT 39 2 HOH HOH 215 A WAT 41 2 HOH HOH 216 A WAT 43 2 HOH HOH 217 A WAT 47 2 HOH HOH 218 A WAT 48 2 HOH HOH 219 A WAT 49 2 HOH HOH 220 A WAT 50 2 HOH HOH 221 A WAT 51 2 HOH HOH 222 A WAT 52 2 HOH HOH 223 A WAT 53 2 HOH HOH 224 A WAT 54 2 HOH HOH 225 A WAT 60 2 HOH HOH 226 A WAT 62 2 HOH HOH 227 A WAT 63 2 HOH HOH 228 A WAT 67 2 HOH HOH 229 A WAT 71 2 HOH HOH 230 A WAT 75 2 HOH HOH 231 A WAT 76 2 HOH HOH 232 A WAT 77 2 HOH HOH 233 A WAT 79 2 HOH HOH 234 A WAT 80 2 HOH HOH 235 A WAT 83 2 HOH HOH 236 A WAT 84 2 HOH HOH 237 A WAT 85 2 HOH HOH 238 A WAT 89 2 HOH HOH 239 A WAT 96 2 HOH HOH 240 A WAT 99 2 HOH HOH 241 A WAT 101 2 HOH HOH 242 A WAT 104 2 HOH HOH 243 A WAT 115 2 HOH HOH 244 A WAT 116 2 HOH HOH 245 A WAT 119 2 HOH HOH 246 A WAT 121 2 HOH HOH 247 A WAT 124 2 HOH HOH 248 A WAT 126 2 HOH HOH 249 A WAT 127 2 HOH HOH 250 A WAT 129 2 HOH HOH 251 A WAT 132 2 HOH HOH 252 A WAT 133 2 HOH HOH 253 A WAT 134 2 HOH HOH 254 A WAT 137 2 HOH HOH 255 A WAT 138 2 HOH HOH 256 A WAT 140 2 HOH HOH 257 A WAT 144 2 HOH HOH 258 A WAT 147 2 HOH HOH 259 A WAT 149 2 HOH HOH 260 A WAT 151 2 HOH HOH 261 A WAT 153 2 HOH HOH 262 A WAT 155 2 HOH HOH 263 A WAT 157 2 HOH HOH 264 A WAT 159 2 HOH HOH 265 A WAT 161 2 HOH HOH 266 A WAT 162 2 HOH HOH 267 A WAT 170 2 HOH HOH 268 A WAT 174 2 HOH HOH 269 A WAT 7 2 HOH HOH 207 B WAT 1 2 HOH HOH 208 B WAT 2 2 HOH HOH 209 B WAT 3 2 HOH HOH 210 B WAT 4 2 HOH HOH 211 B WAT 5 2 HOH HOH 212 B WAT 6 2 HOH HOH 213 B WAT 7 2 HOH HOH 214 B WAT 9 2 HOH HOH 215 B WAT 10 2 HOH HOH 216 B WAT 16 2 HOH HOH 217 B WAT 18 2 HOH HOH 218 B WAT 22 2 HOH HOH 219 B WAT 23 2 HOH HOH 220 B WAT 25 2 HOH HOH 221 B WAT 26 2 HOH HOH 222 B WAT 31 2 HOH HOH 223 B WAT 32 2 HOH HOH 224 B WAT 35 2 HOH HOH 225 B WAT 37 2 HOH HOH 226 B WAT 38 2 HOH HOH 227 B WAT 44 2 HOH HOH 228 B WAT 45 2 HOH HOH 229 B WAT 46 2 HOH HOH 230 B WAT 56 2 HOH HOH 231 B WAT 58 2 HOH HOH 232 B WAT 61 2 HOH HOH 233 B WAT 64 2 HOH HOH 234 B WAT 66 2 HOH HOH 235 B WAT 69 2 HOH HOH 236 B WAT 78 2 HOH HOH 237 B WAT 81 2 HOH HOH 238 B WAT 86 2 HOH HOH 239 B WAT 87 2 HOH HOH 240 B WAT 88 2 HOH HOH 241 B WAT 90 2 HOH HOH 242 B WAT 93 2 HOH HOH 243 B WAT 94 2 HOH HOH 244 B WAT 95 2 HOH HOH 245 B WAT 98 2 HOH HOH 246 B WAT 100 2 HOH HOH 247 B WAT 102 2 HOH HOH 248 B WAT 105 2 HOH HOH 249 B WAT 108 2 HOH HOH 250 B WAT 109 2 HOH HOH 251 B WAT 110 2 HOH HOH 252 B WAT 111 2 HOH HOH 253 B WAT 113 2 HOH HOH 254 B WAT 118 2 HOH HOH 255 B WAT 122 2 HOH HOH 256 B WAT 128 2 HOH HOH 257 B WAT 131 2 HOH HOH 258 B WAT 136 2 HOH HOH 259 B WAT 148 2 HOH HOH 260 B WAT 156 2 HOH HOH 261 B WAT 160 2 HOH HOH 262 B WAT 165 2 HOH HOH 263 B WAT 166 2 HOH HOH 264 B WAT 167 2 HOH HOH 265 B WAT 168 2 HOH HOH 266 B WAT 171 2 HOH HOH 267 B WAT 175 2 HOH HOH 268 B WAT 178 2 HOH HOH 269 B WAT 1 2 HOH HOH 201 C WAT 3 2 HOH HOH 202 C WAT 5 2 HOH HOH 203 C WAT 6 2 HOH HOH 204 C WAT 11 2 HOH HOH 205 C WAT 8 2 HOH HOH 206 C WAT 12 2 HOH HOH 207 C WAT 13 2 HOH HOH 208 C WAT 14 2 HOH HOH 209 C WAT 19 2 HOH HOH 210 C WAT 20 2 HOH HOH 211 C WAT 24 2 HOH HOH 212 C WAT 27 2 HOH HOH 213 C WAT 28 2 HOH HOH 214 C WAT 36 2 HOH HOH 215 C WAT 40 2 HOH HOH 216 C WAT 42 2 HOH HOH 217 C WAT 55 2 HOH HOH 218 C WAT 57 2 HOH HOH 219 C WAT 59 2 HOH HOH 220 C WAT 65 2 HOH HOH 221 C WAT 68 2 HOH HOH 222 C WAT 70 2 HOH HOH 223 C WAT 72 2 HOH HOH 224 C WAT 73 2 HOH HOH 225 C WAT 74 2 HOH HOH 226 C WAT 82 2 HOH HOH 227 C WAT 91 2 HOH HOH 228 C WAT 92 2 HOH HOH 229 C WAT 97 2 HOH HOH 230 C WAT 103 2 HOH HOH 231 C WAT 106 2 HOH HOH 232 C WAT 107 2 HOH HOH 233 C WAT 112 2 HOH HOH 234 C WAT 114 2 HOH HOH 235 C WAT 117 2 HOH HOH 236 C WAT 120 2 HOH HOH 237 C WAT 123 2 HOH HOH 238 C WAT 125 2 HOH HOH 239 C WAT 130 2 HOH HOH 240 C WAT 135 2 HOH HOH 241 C WAT 139 2 HOH HOH 242 C WAT 141 2 HOH HOH 243 C WAT 142 2 HOH HOH 244 C WAT 143 2 HOH HOH 245 C WAT 145 2 HOH HOH 246 C WAT 146 2 HOH HOH 247 C WAT 150 2 HOH HOH 248 C WAT 152 2 HOH HOH 249 C WAT 154 2 HOH HOH 250 C WAT 158 2 HOH HOH 251 C WAT 163 2 HOH HOH 252 C WAT 164 2 HOH HOH 253 C WAT 169 2 HOH HOH 254 C WAT 172 2 HOH HOH 255 C WAT 173 2 HOH HOH 256 C WAT 176 2 HOH HOH 257 C WAT 177 2 HOH HOH 258 C ARG 1 n 1 ACE 0 A ARG 1 n 2 ARG 1 A MET 2 n 3 MET 2 A LYS 3 n 4 LYS 3 A GLN 4 n 5 GLN 4 A LEU 5 n 6 LEU 5 A GLU 6 n 7 GLU 6 A ASP 7 n 8 ASP 7 A LYS 8 n 9 LYS 8 A VAL 9 n 10 VAL 9 A GLU 10 n 11 GLU 10 A GLU 11 n 12 GLU 11 A LEU 12 n 13 LEU 12 A LEU 13 n 14 LEU 13 A SER 14 n 15 SER 14 A LYS 15 n 16 LYS 15 A ALA 16 n 17 ALA 16 A TYR 17 n 18 TYR 17 A HIS 18 n 19 HIS 18 A LEU 19 n 20 LEU 19 A GLU 20 n 21 GLU 20 A ASN 21 n 22 ASN 21 A GLU 22 n 23 GLU 22 A VAL 23 n 24 VAL 23 A ALA 24 n 25 ALA 24 A ARG 25 n 26 ARG 25 A LEU 26 n 27 LEU 26 A LYS 27 n 28 LYS 27 A LYS 28 n 29 LYS 28 A LEU 29 n 30 LEU 29 A VAL 30 n 31 VAL 30 A GLY 31 n 32 GLY 31 A GLU 32 n 33 GLU 32 A ARG 33 n 34 ARG 33 A ARG 1 n 1 ACE 0 B ARG 1 n 2 ARG 1 B MET 2 n 3 MET 2 B LYS 3 n 4 LYS 3 B GLN 4 n 5 GLN 4 B LEU 5 n 6 LEU 5 B GLU 6 n 7 GLU 6 B ASP 7 n 8 ASP 7 B LYS 8 n 9 LYS 8 B VAL 9 n 10 VAL 9 B GLU 10 n 11 GLU 10 B GLU 11 n 12 GLU 11 B LEU 12 n 13 LEU 12 B LEU 13 n 14 LEU 13 B SER 14 n 15 SER 14 B LYS 15 n 16 LYS 15 B ALA 16 n 17 ALA 16 B TYR 17 n 18 TYR 17 B HIS 18 n 19 HIS 18 B LEU 19 n 20 LEU 19 B GLU 20 n 21 GLU 20 B ASN 21 n 22 ASN 21 B GLU 22 n 23 GLU 22 B VAL 23 n 24 VAL 23 B ALA 24 n 25 ALA 24 B ARG 25 n 26 ARG 25 B LEU 26 n 27 LEU 26 B LYS 27 n 28 LYS 27 B LYS 28 n 29 LYS 28 B LEU 29 n 30 LEU 29 B VAL 30 n 31 VAL 30 B GLY 31 n 32 GLY 31 B GLU 32 n 33 GLU 32 B ARG 33 n 34 ARG 33 B ARG 1 n 1 ACE 0 C ARG 1 n 2 ARG 1 C MET 2 n 3 MET 2 C LYS 3 n 4 LYS 3 C GLN 4 n 5 GLN 4 C LEU 5 n 6 LEU 5 C GLU 6 n 7 GLU 6 C ASP 7 n 8 ASP 7 C LYS 8 n 9 LYS 8 C VAL 9 n 10 VAL 9 C GLU 10 n 11 GLU 10 C GLU 11 n 12 GLU 11 C LEU 12 n 13 LEU 12 C LEU 13 n 14 LEU 13 C SER 14 n 15 SER 14 C LYS 15 n 16 LYS 15 C ALA 16 n 17 ALA 16 C TYR 17 n 18 TYR 17 C HIS 18 n 19 HIS 18 C LEU 19 n 20 LEU 19 C GLU 20 n 21 GLU 20 C ASN 21 n 22 ASN 21 C GLU 22 n 23 GLU 22 C VAL 23 n 24 VAL 23 C ALA 24 n 25 ALA 24 C ARG 25 n 26 ARG 25 C LEU 26 n 27 LEU 26 C LYS 27 n 28 LYS 27 C LYS 28 n 29 LYS 28 C LEU 29 n 30 LEU 29 C VAL 30 n 31 VAL 30 C GLY 31 n 32 GLY 31 C GLU 32 n 33 GLU 32 C n 34 33 C author_and_software_defined_assembly PISA 3 trimeric 4190 -42 6560 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 1 A CG GLN 4 A CG GLN 5 1 Y 1 A CD GLN 4 A CD GLN 5 1 Y 1 A OE1 GLN 4 A OE1 GLN 5 1 Y 1 A NE2 GLN 4 A NE2 GLN 5 1 Y 1 A CD LYS 28 A CD LYS 29 1 Y 1 A CE LYS 28 A CE LYS 29 1 Y 1 A NZ LYS 28 A NZ LYS 29 1 Y 1 A O ARG 33 A O ARG 34 1 Y 1 A CB ARG 33 A CB ARG 34 1 Y 1 A CG ARG 33 A CG ARG 34 1 Y 1 A CD ARG 33 A CD ARG 34 1 Y 1 B CD GLU 32 B CD GLU 33 1 Y 1 B OE1 GLU 32 B OE1 GLU 33 1 Y 1 B OE2 GLU 32 B OE2 GLU 33 1 Y 1 B C ARG 33 B C ARG 34 1 Y 1 B O ARG 33 B O ARG 34 1 Y 1 B CB ARG 33 B CB ARG 34 1 Y 1 B CG ARG 33 B CG ARG 34 1 Y 1 B CD ARG 33 B CD ARG 34 1 Y 1 B NE ARG 33 B NE ARG 34 1 Y 1 B CZ ARG 33 B CZ ARG 34 1 Y 1 B NH1 ARG 33 B NH1 ARG 34 1 Y 1 B NH2 ARG 33 B NH2 ARG 34 1 Y 1 C CD GLU 10 C CD GLU 11 1 Y 1 C OE1 GLU 10 C OE1 GLU 11 1 Y 1 C OE2 GLU 10 C OE2 GLU 11 1 Y 1 C C GLU 32 C C GLU 33 1 Y 1 C O GLU 32 C O GLU 33 1 Y 1 C CB GLU 32 C CB GLU 33 1 Y 1 C CG GLU 32 C CG GLU 33 1 Y 1 C CD GLU 32 C CD GLU 33 1 Y 1 C OE1 GLU 32 C OE1 GLU 33 1 Y 1 C OE2 GLU 32 C OE2 GLU 33 1 Y 1 C ARG 33 C ARG 34 1 Y 1 C C NE2 O GLN HOH 4 242 0.82 B 1 C C CD O GLN HOH 4 242 1.91 B 1 A ARG 25 10.15 B 1 -4.40 0.50 120.30 115.90 A A A NE CZ NH2 ARG ARG ARG 25 25 25 B B B N 1 13.45 1.60 122.70 136.15 B B B O C N ACE ACE ARG 0 0 1 Y 1 -4.21 0.50 120.30 116.09 B B B NE CZ NH2 ARG ARG ARG 25 25 25 N 1 18.36 1.60 122.70 141.06 C C C O C N ACE ACE ARG 0 0 1 Y 1 7.92 0.90 118.30 126.22 C C C CB CG OD2 ASP ASP ASP 7 7 7 N 1 4.80 0.60 121.00 125.80 C C C CB CG CD2 TYR TYR TYR 17 17 17 B B N 1 -4.01 0.60 121.00 116.99 C C C CB CG CD1 TYR TYR TYR 17 17 17 B B N 1 19.14 1.40 123.60 142.74 C C C CD NE CZ ARG ARG ARG 25 25 25 A A A N 1 8.82 1.40 123.60 132.42 C C C CD NE CZ ARG ARG ARG 25 25 25 B B B N 1 3.36 0.50 120.30 123.66 C C C NE CZ NH1 ARG ARG ARG 25 25 25 B B B N 1 3.63 0.50 120.30 123.93 C C C NE CZ NH2 ARG ARG ARG 25 25 25 A A A N 1 -4.55 0.50 120.30 115.75 C C C NE CZ NH2 ARG ARG ARG 25 25 25 B B B N 0.257 0.202 0.205 1.9 45 861 17327 5.2 RANDOM 1 THROUGHOUT 0 MAD Engh & Huber 1.9 45 189 1059 0 0 870 0.012 2 1.8 45 1RB5 20106 0 0 1 99.3 1.8 1.9 97.1 data reduction MOSFLM data scaling SCALA refinement REFMAC 26/11/99 data scaling CCP4 (SCALA) phasing CCP4 ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL FORM 1 N N 1 N N 1 N N 2 N N 2 N N 2 N N A ARG 1 A ARG 2 HELX_P A GLY 31 A GLY 32 1 1 31 B ARG 1 B ARG 2 HELX_P B GLY 31 B GLY 32 1 2 31 C ARG 1 C ARG 2 HELX_P C GLY 31 C GLY 32 1 3 31 covale 1.329 both A ACE 0 A C ACE 1 1_555 A ARG 1 A N ARG 2 1_555 covale 1.344 both B ACE 0 B C ACE 1 1_555 B ARG 1 B N ARG 2 1_555 covale 1.345 both C ACE 0 C C ACE 1 1_555 C ARG 1 C N ARG 2 1_555 DNA BINDING PROTEIN COILED COIL, LEUCINE ZIPPER, AUTOMATION, DNA BINDING PROTEIN GCN4_YEAST UNP 1 249 P03069 RMKQLEDKVEELLSKNYHLENEVARLKKLVGER 249 281 1RB5 1 33 P03069 A 1 2 34 249 281 1RB5 1 33 P03069 B 1 2 34 249 281 1RB5 1 33 P03069 C 1 2 34 1 ASN engineered mutation ALA 16 1RB5 A P03069 UNP 264 17 2 ASN engineered mutation ALA 16 1RB5 B P03069 UNP 264 17 3 ASN engineered mutation ALA 16 1RB5 C P03069 UNP 264 17 152 P 31 2 1