1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Boudet, J. Duval, V. Van Melckebeke, H. Blackledge, M. Amoroso, A. Joris, B. Simorre, J.-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 C10 H14 N5 O6 P 331.222 y 2'-DEOXYADENOSINE-5'-MONOPHOSPHATE DNA linking C9 H14 N3 O7 P 307.197 y 2'-DEOXYCYTIDINE-5'-MONOPHOSPHATE DNA linking C10 H14 N5 O7 P 347.221 y 2'-DEOXYGUANOSINE-5'-MONOPHOSPHATE DNA linking C10 H15 N2 O8 P 322.208 y THYMIDINE-5'-MONOPHOSPHATE DNA 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 UK Nucleic Acids Res. NARHAD 0389 0305-1048 35 4384 4395 10.1093/nar/gkm448 17576674 Conformational and thermodynamic changes of the repressor/DNA operator complex upon monomerization shed new light on regulation mechanisms of bacterial resistance against beta-lactam antibiotics. 2007 10.2210/pdb2p7c/pdb pdb_00002p7c 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 3669.442 Strand 1 of Twelve base-pair DNA 1 syn polymer 3651.414 Strand 2 of Twelve base-pair DNA 1 syn polymer 9512.079 Penicillinase repressor N-TERMINAL DOMAIN 1 man polymer Regulatory protein blaI, Beta-lactamase repressor protein no no (DA)(DA)(DA)(DG)(DT)(DA)(DT)(DT)(DA)(DC)(DA)(DT) AAAGTATTACAT A polydeoxyribonucleotide no no (DA)(DT)(DG)(DT)(DA)(DA)(DT)(DA)(DC)(DT)(DT)(DT) ATGTAATACTTT C polydeoxyribonucleotide no no MKKIPQISDAELEVMKVIWKHSSINTNEVIKELSKTSTWSPKTIQTMLLRLIKKGALNHHKEGRVFVYTPNIDESDYIEV KS MKKIPQISDAELEVMKVIWKHSSINTNEVIKELSKTSTWSPKTIQTMLLRLIKKGALNHHKEGRVFVYTPNIDESDYIEV KS B 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 Bacillus bacillus licheniformis 749/I Escherichia sample blaI, penI 1402 Bacillus licheniformis 562 Escherichia coli BL21(DE3) pLys PLASMID pET22B 15.515 1 20 A 1 C 24 -3.194 A_DA1:DT24_C 1 -10.386 -0.465 0.241 -0.065 12.691 1 20 A 2 C 23 -4.316 A_DA2:DT23_C 2 -13.470 -0.115 0.349 -0.003 11.547 1 20 A 3 C 22 -3.367 A_DA3:DT22_C 3 -10.897 0.365 0.824 -0.072 -3.827 1 19 A 4 C 21 1.072 A_DG4:DC21_C 4 -14.618 0.406 0.094 0.045 -9.659 1 20 A 5 C 20 -1.973 A_DT5:DA20_C 5 -10.410 0.636 0.173 -0.120 -9.941 1 20 A 6 C 19 6.115 A_DA6:DT19_C 6 2.400 0.524 0.532 -0.100 -15.951 1 20 A 7 C 18 2.453 A_DT7:DA18_C 7 4.566 0.538 1.040 -0.273 -1.644 1 20 A 8 C 17 -0.724 A_DT8:DA17_C 8 7.058 0.619 0.216 -0.081 13.991 1 20 A 9 C 16 -3.928 A_DA9:DT16_C 9 6.164 0.479 0.361 0.044 7.123 1 19 A 10 C 15 -1.760 A_DC10:DG15_C 10 5.124 0.675 -0.256 -0.117 -3.895 1 20 A 11 C 14 -0.989 A_DA11:DT14_C 11 -5.090 0.561 -0.481 -0.057 -7.985 1 20 A 12 C 13 -2.038 A_DT12:DA13_C 12 -3.039 0.297 -0.273 -0.017 3.171 38.999 A A 1 2 2.008 C C 24 23 3.147 1.339 -0.691 -0.475 AA_DA1DA2:DT23DT24_CC 1 -2.964 4.444 38.869 -0.869 0.689 3.131 36.053 A A 2 3 -4.997 C C 23 22 3.135 -3.083 -0.006 -0.307 AA_DA2DA3:DT22DT23_CC 2 -4.136 6.704 35.694 -0.075 -0.555 3.756 35.936 A A 3 4 -0.420 C C 22 21 3.716 -0.259 0.513 -0.671 AA_DA3DG4:DC21DT22_CC 3 5.086 -8.269 35.585 -1.044 0.001 3.363 37.576 A A 4 5 -7.085 C C 21 20 3.329 -4.553 0.089 -0.471 AA_DG4DT5:DA20DC21_CC 4 0.582 -0.905 37.305 -0.122 -0.060 3.150 37.579 A A 5 6 -6.306 C C 20 19 3.084 -4.051 0.368 -1.165 AA_DT5DA6:DT19DA20_CC 5 -3.089 4.810 37.244 -1.303 -0.957 3.823 30.656 A A 6 7 -9.275 C C 19 18 3.622 -4.879 -0.432 -1.435 AA_DA6DT7:DA18DT19_CC 6 -2.313 4.396 30.188 -1.611 0.295 3.104 31.023 A A 7 8 -11.091 C C 18 17 3.039 -5.860 -0.106 -1.059 AA_DT7DT8:DA17DA18_CC 7 6.124 -11.590 29.870 -0.900 1.326 3.149 34.454 A A 8 9 -12.820 C C 17 16 2.901 -7.529 -0.569 -1.331 AA_DT8DA9:DT16DA17_CC 8 -2.442 4.158 33.559 -1.150 0.604 3.705 31.880 A A 9 10 -6.395 C C 16 15 3.647 -3.500 -0.200 -1.067 AA_DA9DC10:DG15DT16_CC 9 3.064 -5.597 31.548 -1.223 0.994 3.294 34.716 A A 10 11 8.398 C C 15 14 3.413 4.982 0.252 -0.653 AA_DC10DA11:DT14DG15_CC 10 4.409 -7.433 34.092 -1.884 0.276 3.393 34.586 A A 11 12 -3.958 C C 14 13 3.301 -2.351 0.343 -1.399 AA_DA11DT12:DA13DT14_CC 11 0.808 -1.361 34.499 -1.982 -0.449 database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2007-06-12 1 1 2008-05-01 1 2 2011-07-13 1 3 2022-03-16 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name RCSB Y RCSB 2007-03-20 REL REL Chemically synthetized bacillus licheniformis blaP half-operator sample Chemically synthetized bacillus licheniformis blaP half-operator sample The structure was determined using a de novo docking approach. structures with the lowest energy 250 10 2D_isotopically_doubly_filtered_13C_15N_NOESY_HSQC 3D_isotopically_doubly_filtered_13C_15N_NOESY_HSQC 2D_filtered_NOESY methyl_selective_13C_HSQC 15N_HSQC 200mM 7.6 ambient 298 K structures used for refinement were generated from the docking procedure started with intermolecular nOe and ambiguous distance restraints proceeding from chemical shift mapping. simulated annealing from randomized coordinates followed by restrained molecular dynamics. 1 lowest energy 2mM 13C,15N BlaI-NTD repressor in complex with blaP half-operator; 50mM NaH2PO4/Na2HPO4, 200mM KCl, 1mM EDTA, 1mM NaN3 90% H2O/10% D2O 2mM 13C,15N BlaI-NTD repressor in complex with blaP half-operator; 50mM NaH2PO4/Na2HPO4, 200mM KCl, 1mM EDTA, 1mM NaN3 100% D2O 0.1mM 13C,15N BlaI-NTD repressor; 50mM NaH2PO4/Na2HPO4, 200mM KCl, 1mM EDTA, 1mM NaN3 90% H2O/10% D2O Accelrys structure solution Discover 2.98 Accelrys refinement Discover 2.98 Delaglio processing NMRPipe 2.3 Varian collection VnmrJ 2.1 Johnson data analysis NMRView 5.2.2 600 Varian INOVA 800 Varian INOVA A 1 n 1 DA 1 A A 2 n 2 DA 2 A A 3 n 3 DA 3 A G 4 n 4 DG 4 A T 5 n 5 DT 5 A A 6 n 6 DA 6 A T 7 n 7 DT 7 A T 8 n 8 DT 8 A A 9 n 9 DA 9 A C 10 n 10 DC 10 A A 11 n 11 DA 11 A T 12 n 12 DT 12 A A 13 n 1 DA 13 C T 14 n 2 DT 14 C G 15 n 3 DG 15 C T 16 n 4 DT 16 C A 17 n 5 DA 17 C A 18 n 6 DA 18 C T 19 n 7 DT 19 C A 20 n 8 DA 20 C C 21 n 9 DC 21 C T 22 n 10 DT 22 C T 23 n 11 DT 23 C T 24 n 12 DT 24 C MET 1 n 1 MET 1 B LYS 2 n 2 LYS 2 B LYS 3 n 3 LYS 3 B ILE 4 n 4 ILE 4 B PRO 5 n 5 PRO 5 B GLN 6 n 6 GLN 6 B ILE 7 n 7 ILE 7 B SER 8 n 8 SER 8 B ASP 9 n 9 ASP 9 B ALA 10 n 10 ALA 10 B GLU 11 n 11 GLU 11 B LEU 12 n 12 LEU 12 B GLU 13 n 13 GLU 13 B VAL 14 n 14 VAL 14 B MET 15 n 15 MET 15 B LYS 16 n 16 LYS 16 B VAL 17 n 17 VAL 17 B ILE 18 n 18 ILE 18 B TRP 19 n 19 TRP 19 B LYS 20 n 20 LYS 20 B HIS 21 n 21 HIS 21 B SER 22 n 22 SER 22 B SER 23 n 23 SER 23 B ILE 24 n 24 ILE 24 B ASN 25 n 25 ASN 25 B THR 26 n 26 THR 26 B ASN 27 n 27 ASN 27 B GLU 28 n 28 GLU 28 B VAL 29 n 29 VAL 29 B ILE 30 n 30 ILE 30 B LYS 31 n 31 LYS 31 B GLU 32 n 32 GLU 32 B LEU 33 n 33 LEU 33 B SER 34 n 34 SER 34 B LYS 35 n 35 LYS 35 B THR 36 n 36 THR 36 B SER 37 n 37 SER 37 B THR 38 n 38 THR 38 B TRP 39 n 39 TRP 39 B SER 40 n 40 SER 40 B PRO 41 n 41 PRO 41 B LYS 42 n 42 LYS 42 B THR 43 n 43 THR 43 B ILE 44 n 44 ILE 44 B GLN 45 n 45 GLN 45 B THR 46 n 46 THR 46 B MET 47 n 47 MET 47 B LEU 48 n 48 LEU 48 B LEU 49 n 49 LEU 49 B ARG 50 n 50 ARG 50 B LEU 51 n 51 LEU 51 B ILE 52 n 52 ILE 52 B LYS 53 n 53 LYS 53 B LYS 54 n 54 LYS 54 B GLY 55 n 55 GLY 55 B ALA 56 n 56 ALA 56 B LEU 57 n 57 LEU 57 B ASN 58 n 58 ASN 58 B HIS 59 n 59 HIS 59 B HIS 60 n 60 HIS 60 B LYS 61 n 61 LYS 61 B GLU 62 n 62 GLU 62 B GLY 63 n 63 GLY 63 B ARG 64 n 64 ARG 64 B VAL 65 n 65 VAL 65 B PHE 66 n 66 PHE 66 B VAL 67 n 67 VAL 67 B TYR 68 n 68 TYR 68 B THR 69 n 69 THR 69 B PRO 70 n 70 PRO 70 B ASN 71 n 71 ASN 71 B ILE 72 n 72 ILE 72 B ASP 73 n 73 ASP 73 B GLU 74 n 74 GLU 74 B SER 75 n 75 SER 75 B ASP 76 n 76 ASP 76 B TYR 77 n 77 TYR 77 B ILE 78 n 78 ILE 78 B GLU 79 n 79 GLU 79 B VAL 80 n 80 VAL 80 B LYS 81 n 81 LYS 81 B SER 82 n 82 SER 82 B author_defined_assembly 3 trimeric 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 B N ASN 58 C N ASN 58 B O THR 69 C O THR 69 2 C B H72 HA DT THR 16 43 1.06 3 C B H72 HA DT THR 16 43 0.93 3 A B H71 HZ DT PHE 8 66 1.07 3 A B H73 HG22 DT THR 7 26 1.14 3 C B H72 HA DT ARG 14 50 1.29 3 B B HD2 O HIS SER 21 23 1.32 3 B B CD2 O HIS SER 21 23 2.10 4 C B H72 HA DT THR 16 43 1.08 8 C B H72 HA DT THR 16 43 0.95 8 C B H72 HD2 DT ARG 14 50 1.14 9 C B H72 HA DT THR 16 43 1.11 9 C B H71 HG2 DT ARG 14 50 1.31 9 C B H5'' O DA GLN 13 6 1.48 1 C DA 13 0.066 SIDE CHAIN 1 B PHE 66 0.149 SIDE CHAIN 1 B TYR 68 0.111 SIDE CHAIN 2 A DA 2 0.056 SIDE CHAIN 2 A DA 6 0.090 SIDE CHAIN 2 A DT 8 0.065 SIDE CHAIN 2 A DT 12 0.082 SIDE CHAIN 2 C DA 13 0.064 SIDE CHAIN 2 C DT 16 0.109 SIDE CHAIN 2 C DC 21 0.087 SIDE CHAIN 2 B PHE 66 0.123 SIDE CHAIN 2 B TYR 68 0.109 SIDE CHAIN 3 A DG 4 0.052 SIDE CHAIN 3 A DA 6 0.073 SIDE CHAIN 3 A DT 7 0.088 SIDE CHAIN 3 A DT 8 0.080 SIDE CHAIN 3 C DT 16 0.130 SIDE CHAIN 3 C DA 20 0.054 SIDE CHAIN 3 B TYR 68 0.245 SIDE CHAIN 4 A DT 7 0.078 SIDE CHAIN 4 C DA 13 0.067 SIDE CHAIN 4 C DT 14 0.115 SIDE CHAIN 4 C DT 16 0.105 SIDE CHAIN 4 C DA 20 0.056 SIDE CHAIN 4 B PHE 66 0.078 SIDE CHAIN 5 A DT 12 0.060 SIDE CHAIN 5 C DA 13 0.053 SIDE CHAIN 5 B PHE 66 0.156 SIDE CHAIN 5 B TYR 68 0.148 SIDE CHAIN 6 A DT 12 0.071 SIDE CHAIN 6 C DT 16 0.104 SIDE CHAIN 6 B PHE 66 0.105 SIDE CHAIN 6 B TYR 68 0.067 SIDE CHAIN 7 A DT 7 0.069 SIDE CHAIN 7 C DT 16 0.110 SIDE CHAIN 7 B PHE 66 0.162 SIDE CHAIN 8 A DT 7 0.077 SIDE CHAIN 8 C DT 16 0.074 SIDE CHAIN 8 C DC 21 0.061 SIDE CHAIN 8 B PHE 66 0.336 SIDE CHAIN 8 B TYR 68 0.081 SIDE CHAIN 9 A DA 2 0.057 SIDE CHAIN 9 C DA 13 0.063 SIDE CHAIN 9 C DT 16 0.149 SIDE CHAIN 9 B PHE 66 0.200 SIDE CHAIN 9 B TYR 68 0.080 SIDE CHAIN 10 A DA 2 0.052 SIDE CHAIN 10 C DT 14 0.065 SIDE CHAIN 10 C DC 21 0.071 SIDE CHAIN 10 B PHE 66 0.150 SIDE CHAIN 10 B TYR 68 0.120 SIDE CHAIN 1 2.42 0.30 108.30 110.72 A A A O4' C1' N9 DA DA DA 1 1 1 N 1 2.02 0.30 108.30 110.32 A A A O4' C1' N9 DA DA DA 3 3 3 N 1 5.40 0.30 108.30 113.70 A A A O4' C1' N1 DT DT DT 5 5 5 N 1 -4.40 0.70 102.20 97.80 A A A C4' C3' C2' DA DA DA 6 6 6 N 1 5.81 0.30 108.30 114.11 A A A O4' C1' N9 DA DA DA 6 6 6 N 1 3.50 0.30 108.30 111.80 A A A O4' C1' N1 DT DT DT 7 7 7 N 1 3.51 0.30 108.30 111.81 A A A O4' C1' N1 DT DT DT 8 8 8 N 1 3.48 0.30 108.30 111.78 A A A O4' C1' N9 DA DA DA 11 11 11 N 1 5.08 0.30 108.30 113.38 A A A O4' C1' N1 DT DT DT 12 12 12 N 1 4.06 0.30 108.30 112.36 C C C O4' C1' N9 DA DA DA 13 13 13 N 1 3.98 0.60 106.00 109.98 C C C O4' C4' C3' DT DT DT 14 14 14 N 1 -4.42 0.60 122.90 118.48 C C C C6 C5 C7 DT DT DT 14 14 14 N 1 2.29 0.30 108.30 110.59 C C C O4' C1' N9 DG DG DG 15 15 15 N 1 7.04 0.30 108.30 115.34 C C C O4' C1' N1 DT DT DT 16 16 16 N 1 3.98 0.30 108.30 112.28 C C C O4' C1' N9 DA DA DA 17 17 17 N 1 3.75 0.60 106.00 109.75 C C C O4' C4' C3' DA DA DA 18 18 18 N 1 1.90 0.30 108.30 110.20 C C C O4' C1' N9 DA DA DA 18 18 18 N 1 3.81 0.60 106.00 109.81 C C C O4' C4' C3' DT DT DT 19 19 19 N 1 4.69 0.30 108.30 112.99 C C C O4' C1' N1 DT DT DT 19 19 19 N 1 3.78 0.60 106.00 109.78 C C C O4' C4' C3' DA DA DA 20 20 20 N 1 4.73 0.30 108.30 113.03 C C C O4' C1' N1 DC DC DC 21 21 21 N 1 1.95 0.30 108.30 110.25 C C C O4' C1' N1 DT DT DT 22 22 22 N 1 3.84 0.30 108.30 112.14 C C C O4' C1' N1 DT DT DT 23 23 23 N 1 3.50 0.30 108.30 111.80 C C C O4' C1' N1 DT DT DT 24 24 24 N 2 2.05 0.30 108.30 110.35 A A A O4' C1' N9 DA DA DA 3 3 3 N 2 2.89 0.30 108.30 111.19 A A A O4' C1' N9 DG DG DG 4 4 4 N 2 2.13 0.30 108.30 110.43 A A A O4' C1' N1 DT DT DT 5 5 5 N 2 -4.50 0.60 122.90 118.40 A A A C6 C5 C7 DT DT DT 5 5 5 N 2 -4.39 0.70 102.20 97.81 A A A C4' C3' C2' DA DA DA 6 6 6 N 2 3.01 0.30 108.30 111.31 A A A O4' C1' N9 DA DA DA 6 6 6 N 2 7.35 1.20 119.70 127.05 A A A C3' O3' P DA DA DT 6 6 7 Y 2 3.89 0.30 108.30 112.19 A A A O4' C1' N1 DT DT DT 7 7 7 N 2 6.45 0.30 108.30 114.75 A A A O4' C1' N1 DT DT DT 8 8 8 N 2 -3.93 0.60 122.90 118.97 A A A C6 C5 C7 DT DT DT 8 8 8 N 2 2.42 0.30 108.30 110.72 A A A O4' C1' N1 DC DC DC 10 10 10 N 2 9.94 0.30 108.30 118.24 A A A O4' C1' N1 DT DT DT 12 12 12 N 2 2.53 0.30 108.30 110.83 C C C O4' C1' N9 DA DA DA 13 13 13 N 2 3.80 0.60 106.00 109.80 C C C O4' C4' C3' DT DT DT 14 14 14 N 2 -4.62 0.60 122.90 118.28 C C C C6 C5 C7 DT DT DT 14 14 14 N 2 4.17 0.60 106.00 110.17 C C C O4' C4' C3' DG DG DG 15 15 15 N 2 3.40 0.30 108.30 111.70 C C C O4' C1' N9 DG DG DG 15 15 15 N 2 7.80 0.30 108.30 116.10 C C C O4' C1' N1 DT DT DT 16 16 16 N 2 2.79 0.30 108.30 111.09 C C C O4' C1' N9 DA DA DA 17 17 17 N 2 4.69 0.30 108.30 112.99 C C C O4' C1' N9 DA DA DA 18 18 18 N 2 4.40 0.30 108.30 112.70 C C C O4' C1' N1 DT DT DT 19 19 19 N 2 1.89 0.30 108.30 110.19 C C C O4' C1' N9 DA DA DA 20 20 20 N 2 2.62 0.30 108.30 110.92 C C C O4' C1' N1 DC DC DC 21 21 21 N 2 4.62 0.30 108.30 112.92 C C C O4' C1' N1 DT DT DT 22 22 22 N 2 4.06 0.30 108.30 112.36 C C C O4' C1' N1 DT DT DT 23 23 23 N 2 2.65 0.30 108.30 110.95 C C C O4' C1' N1 DT DT DT 24 24 24 N 2 11.25 1.70 111.00 122.25 B B B CB CG CD2 LEU LEU LEU 48 48 48 N 3 6.60 0.30 108.30 114.90 A A A O4' C1' N9 DA DA DA 3 3 3 N 3 -3.82 0.60 122.90 119.08 A A A C6 C5 C7 DT DT DT 5 5 5 N 3 4.75 0.30 108.30 113.05 A A A O4' C1' N9 DA DA DA 6 6 6 N 3 3.69 0.30 108.30 111.99 A A A O4' C1' N1 DT DT DT 7 7 7 N 3 6.66 0.30 108.30 114.96 A A A O4' C1' N1 DT DT DT 8 8 8 N 3 -4.10 0.60 122.90 118.80 A A A C6 C5 C7 DT DT DT 8 8 8 N 3 3.07 0.30 108.30 111.37 A A A O4' C1' N9 DA DA DA 11 11 11 N 3 5.15 0.30 108.30 113.45 A A A O4' C1' N1 DT DT DT 12 12 12 N 3 2.49 0.30 108.30 110.79 C C C O4' C1' N9 DA DA DA 13 13 13 N 3 1.85 0.30 108.30 110.15 C C C O4' C1' N1 DT DT DT 14 14 14 N 3 4.02 0.60 106.00 110.02 C C C O4' C4' C3' DG DG DG 15 15 15 N 3 2.52 0.30 108.30 110.82 C C C O4' C1' N9 DG DG DG 15 15 15 N 3 8.23 0.30 108.30 116.53 C C C O4' C1' N1 DT DT DT 16 16 16 N 3 -4.03 0.60 122.90 118.87 C C C C6 C5 C7 DT DT DT 16 16 16 N 3 4.11 0.30 108.30 112.41 C C C O4' C1' N9 DA DA DA 17 17 17 N 3 1.92 0.30 108.30 110.22 C C C O4' C1' N9 DA DA DA 18 18 18 N 3 3.22 0.30 108.30 111.52 C C C O4' C1' N1 DT DT DT 19 19 19 N 3 3.61 0.60 106.00 109.61 C C C O4' C4' C3' DA DA DA 20 20 20 N 3 2.22 0.30 108.30 110.52 C C C O4' C1' N1 DC DC DC 21 21 21 N 3 4.06 0.30 108.30 112.36 C C C O4' C1' N1 DT DT DT 22 22 22 N 3 2.72 0.30 108.30 111.02 C C C O4' C1' N1 DT DT DT 23 23 23 N 3 8.04 0.30 108.30 116.34 C C C O4' C1' N1 DT DT DT 24 24 24 N 4 1.94 0.30 108.30 110.24 A A A O4' C1' N9 DA DA DA 2 2 2 N 4 3.61 0.30 108.30 111.91 A A A O4' C1' N9 DA DA DA 3 3 3 N 4 2.80 0.30 108.30 111.10 A A A O4' C1' N9 DG DG DG 4 4 4 N 4 2.46 0.30 108.30 110.76 A A A O4' C1' N1 DT DT DT 5 5 5 N 4 2.96 0.30 108.30 111.26 A A A O4' C1' N9 DA DA DA 6 6 6 N 4 5.59 0.30 108.30 113.89 A A A O4' C1' N1 DT DT DT 7 7 7 N 4 6.09 0.30 108.30 114.39 A A A O4' C1' N1 DT DT DT 8 8 8 N 4 -4.02 0.60 122.90 118.88 A A A C6 C5 C7 DT DT DT 8 8 8 N 4 2.68 0.30 108.30 110.98 A A A O4' C1' N9 DA DA DA 9 9 9 N 4 2.69 0.30 108.30 110.99 A A A O4' C1' N1 DC DC DC 10 10 10 N 4 4.29 0.30 108.30 112.59 A A A O4' C1' N1 DT DT DT 12 12 12 N 4 2.01 0.30 108.30 110.31 C C C O4' C1' N9 DA DA DA 13 13 13 N 4 4.22 0.30 108.30 112.52 C C C O4' C1' N1 DT DT DT 14 14 14 N 4 -4.75 0.60 122.90 118.15 C C C C6 C5 C7 DT DT DT 14 14 14 N 4 8.93 0.30 108.30 117.23 C C C O4' C1' N9 DG DG DG 15 15 15 N 4 7.28 0.30 108.30 115.58 C C C O4' C1' N1 DT DT DT 16 16 16 N 4 -3.68 0.60 122.90 119.22 C C C C6 C5 C7 DT DT DT 16 16 16 N 4 3.20 0.30 108.30 111.50 C C C O4' C1' N9 DA DA DA 17 17 17 N 4 4.61 0.60 106.00 110.61 C C C O4' C4' C3' DA DA DA 18 18 18 N 4 3.47 0.30 108.30 111.77 C C C O4' C1' N9 DA DA DA 18 18 18 N 4 5.46 0.30 108.30 113.76 C C C O4' C1' N1 DT DT DT 19 19 19 N 4 3.43 0.30 108.30 111.73 C C C O4' C1' N1 DC DC DC 21 21 21 N 4 6.76 0.30 108.30 115.06 C C C O4' C1' N1 DT DT DT 23 23 23 N 5 3.87 0.60 106.00 109.87 A A A O4' C4' C3' DA DA DA 2 2 2 N 5 2.37 0.30 108.30 110.67 A A A O4' C1' N9 DA DA DA 2 2 2 N 5 1.82 0.30 108.30 110.12 A A A O4' C1' N9 DA DA DA 3 3 3 N 5 3.31 0.30 108.30 111.61 A A A O4' C1' N9 DG DG DG 4 4 4 N 5 4.86 0.30 108.30 113.16 A A A O4' C1' N1 DT DT DT 5 5 5 N 5 -3.67 0.60 122.90 119.23 A A A C6 C5 C7 DT DT DT 5 5 5 N 5 -4.99 0.70 102.20 97.21 A A A C4' C3' C2' DA DA DA 6 6 6 N 5 3.06 0.30 108.30 111.36 A A A O4' C1' N9 DA DA DA 6 6 6 N 5 3.05 0.30 108.30 111.35 A A A O4' C1' N1 DT DT DT 7 7 7 N 5 -4.32 0.60 122.90 118.58 A A A C6 C5 C7 DT DT DT 7 7 7 N 5 4.37 0.30 108.30 112.67 A A A O4' C1' N1 DT DT DT 8 8 8 N 5 3.54 0.30 108.30 111.84 A A A O4' C1' N1 DC DC DC 10 10 10 N 5 9.63 0.30 108.30 117.93 A A A O4' C1' N1 DT DT DT 12 12 12 N 5 3.67 0.30 108.30 111.97 C C C O4' C1' N9 DA DA DA 13 13 13 N 5 -4.80 0.60 122.90 118.10 C C C C6 C5 C7 DT DT DT 14 14 14 N 5 4.62 0.30 108.30 112.92 C C C O4' C1' N9 DG DG DG 15 15 15 N 5 4.10 0.30 108.30 112.40 C C C O4' C1' N1 DT DT DT 16 16 16 N 5 5.10 0.30 108.30 113.40 C C C O4' C1' N9 DA DA DA 17 17 17 N 5 4.40 0.30 108.30 112.70 C C C O4' C1' N9 DA DA DA 18 18 18 N 5 2.24 0.30 108.30 110.54 C C C O4' C1' N1 DT DT DT 19 19 19 N 5 4.55 0.30 108.30 112.85 C C C O4' C1' N9 DA DA DA 20 20 20 N 5 3.92 0.30 108.30 112.22 C C C O4' C1' N1 DC DC DC 21 21 21 N 5 4.96 0.30 108.30 113.26 C C C O4' C1' N1 DT DT DT 22 22 22 N 5 3.39 0.30 108.30 111.69 C C C O4' C1' N1 DT DT DT 23 23 23 N 5 2.88 0.30 108.30 111.18 C C C O4' C1' N1 DT DT DT 24 24 24 N 5 10.65 1.70 111.00 121.65 B B B CB CG CD2 LEU LEU LEU 48 48 48 N 6 2.35 0.30 108.30 110.65 A A A O4' C1' N9 DA DA DA 2 2 2 N 6 3.50 0.30 108.30 111.80 A A A O4' C1' N9 DA DA DA 3 3 3 N 6 5.80 0.30 108.30 114.10 A A A O4' C1' N1 DT DT DT 5 5 5 N 6 -3.88 0.60 122.90 119.02 A A A C6 C5 C7 DT DT DT 5 5 5 N 6 3.77 0.30 108.30 112.07 A A A O4' C1' N9 DA DA DA 6 6 6 N 6 2.21 0.30 108.30 110.51 A A A O4' C1' N1 DT DT DT 7 7 7 N 6 -3.89 0.60 122.90 119.01 A A A C6 C5 C7 DT DT DT 7 7 7 N 6 2.72 0.30 108.30 111.02 A A A O4' C1' N1 DT DT DT 8 8 8 N 6 -3.63 0.60 122.90 119.27 A A A C6 C5 C7 DT DT DT 8 8 8 N 6 5.09 0.60 106.00 111.09 A A A O4' C4' C3' DA DA DA 9 9 9 N 6 4.09 0.30 108.30 112.39 A A A O4' C1' N1 DC DC DC 10 10 10 N 6 9.74 0.30 108.30 118.04 A A A O4' C1' N1 DT DT DT 12 12 12 N 6 -4.89 0.60 122.90 118.01 C C C C6 C5 C7 DT DT DT 14 14 14 N 6 2.86 0.30 108.30 111.16 C C C O4' C1' N9 DG DG DG 15 15 15 N 6 6.51 0.30 108.30 114.81 C C C O4' C1' N1 DT DT DT 16 16 16 N 6 3.39 0.30 108.30 111.69 C C C O4' C1' N9 DA DA DA 17 17 17 N 6 4.08 0.60 106.00 110.08 C C C O4' C4' C3' DA DA DA 18 18 18 N 6 5.35 0.30 108.30 113.65 C C C O4' C1' N9 DA DA DA 18 18 18 N 6 4.16 0.30 108.30 112.46 C C C O4' C1' N1 DT DT DT 19 19 19 N 6 3.33 0.30 108.30 111.63 C C C O4' C1' N1 DC DC DC 21 21 21 N 6 3.43 0.30 108.30 111.73 C C C O4' C1' N1 DT DT DT 22 22 22 N 6 4.35 0.60 106.00 110.35 C C C O4' C4' C3' DT DT DT 23 23 23 N 6 2.57 0.30 108.30 110.87 C C C O4' C1' N1 DT DT DT 23 23 23 N 6 3.31 0.30 108.30 111.61 C C C O4' C1' N1 DT DT DT 24 24 24 N 7 2.40 0.30 108.30 110.70 A A A O4' C1' N9 DA DA DA 1 1 1 N 7 2.76 0.30 108.30 111.06 A A A O4' C1' N9 DA DA DA 2 2 2 N 7 2.15 0.30 108.30 110.45 A A A O4' C1' N9 DA DA DA 3 3 3 N 7 3.13 0.30 108.30 111.43 A A A O4' C1' N9 DG DG DG 4 4 4 N 7 4.99 0.30 108.30 113.29 A A A O4' C1' N1 DT DT DT 5 5 5 N 7 -4.49 0.60 122.90 118.41 A A A C6 C5 C7 DT DT DT 5 5 5 N 7 2.03 0.30 108.30 110.33 A A A O4' C1' N9 DA DA DA 6 6 6 N 7 4.44 0.30 108.30 112.74 A A A O4' C1' N1 DT DT DT 7 7 7 N 7 -4.19 0.60 122.90 118.71 A A A C6 C5 C7 DT DT DT 7 7 7 N 7 4.06 0.30 108.30 112.36 A A A O4' C1' N1 DT DT DT 8 8 8 N 7 -3.80 0.60 122.90 119.10 A A A C6 C5 C7 DT DT DT 8 8 8 N 7 3.09 0.30 108.30 111.39 A A A O4' C1' N9 DA DA DA 9 9 9 N 7 3.40 0.30 108.30 111.70 A A A O4' C1' N9 DA DA DA 11 11 11 N 7 5.11 0.30 108.30 113.41 A A A O4' C1' N1 DT DT DT 12 12 12 N 7 2.12 0.30 108.30 110.42 C C C O4' C1' N9 DA DA DA 13 13 13 N 7 -4.70 0.60 122.90 118.20 C C C C6 C5 C7 DT DT DT 14 14 14 N 7 3.83 0.30 108.30 112.13 C C C O4' C1' N9 DG DG DG 15 15 15 N 7 6.96 0.30 108.30 115.26 C C C O4' C1' N1 DT DT DT 16 16 16 N 7 -4.35 0.60 122.90 118.55 C C C C6 C5 C7 DT DT DT 16 16 16 N 7 3.41 0.30 108.30 111.71 C C C O4' C1' N9 DA DA DA 17 17 17 N 7 4.73 0.30 108.30 113.03 C C C O4' C1' N9 DA DA DA 18 18 18 N 7 6.44 0.30 108.30 114.74 C C C O4' C1' N1 DT DT DT 19 19 19 N 7 2.15 0.30 108.30 110.45 C C C O4' C1' N1 DC DC DC 21 21 21 N 7 4.68 0.30 108.30 112.98 C C C O4' C1' N1 DT DT DT 22 22 22 N 7 4.07 0.30 108.30 112.37 C C C O4' C1' N1 DT DT DT 23 23 23 N 7 4.57 0.30 108.30 112.87 C C C O4' C1' N1 DT DT DT 24 24 24 N 8 4.05 0.60 106.00 110.05 A A A O4' C4' C3' DA DA DA 2 2 2 N 8 2.35 0.30 108.30 110.65 A A A O4' C1' N9 DA DA DA 2 2 2 N 8 2.07 0.30 108.30 110.37 A A A O4' C1' N1 DT DT DT 5 5 5 N 8 -4.29 0.60 122.90 118.61 A A A C6 C5 C7 DT DT DT 5 5 5 N 8 -7.33 0.70 102.20 94.87 A A A C4' C3' C2' DA DA DA 6 6 6 N 8 8.70 0.30 108.30 117.00 A A A O4' C1' N9 DA DA DA 6 6 6 N 8 6.61 0.30 108.30 114.91 A A A O4' C1' N1 DT DT DT 7 7 7 N 8 3.80 0.30 108.30 112.10 A A A O4' C1' N1 DT DT DT 8 8 8 N 8 -4.34 0.60 122.90 118.56 A A A C6 C5 C7 DT DT DT 8 8 8 N 8 1.94 0.30 108.30 110.24 A A A O4' C1' N1 DC DC DC 10 10 10 N 8 1.89 0.30 108.30 110.19 A A A O4' C1' N9 DA DA DA 11 11 11 N 8 3.27 0.30 108.30 111.57 A A A O4' C1' N1 DT DT DT 12 12 12 N 8 2.34 0.30 108.30 110.64 C C C O4' C1' N9 DA DA DA 13 13 13 N 8 2.75 0.30 108.30 111.05 C C C O4' C1' N1 DT DT DT 14 14 14 N 8 2.24 0.30 108.30 110.54 C C C O4' C1' N9 DG DG DG 15 15 15 N 8 6.53 0.30 108.30 114.83 C C C O4' C1' N1 DT DT DT 16 16 16 N 8 3.59 0.30 108.30 111.89 C C C O4' C1' N9 DA DA DA 17 17 17 N 8 4.87 0.30 108.30 113.17 C C C O4' C1' N1 DT DT DT 19 19 19 N 8 2.90 0.30 108.30 111.20 C C C O4' C1' N9 DA DA DA 20 20 20 N 8 3.86 0.30 108.30 112.16 C C C O4' C1' N1 DC DC DC 21 21 21 N 8 2.62 0.30 108.30 110.92 C C C O4' C1' N1 DT DT DT 22 22 22 N 8 4.08 0.60 106.00 110.08 C C C O4' C4' C3' DT DT DT 23 23 23 N 8 3.32 0.30 108.30 111.62 C C C O4' C1' N1 DT DT DT 23 23 23 N 8 3.08 0.30 108.30 111.38 C C C O4' C1' N1 DT DT DT 24 24 24 N 8 -5.79 0.70 120.80 115.01 B B B CB CG CD2 PHE PHE PHE 66 66 66 N 9 2.50 0.30 108.30 110.80 A A A O4' C1' N9 DA DA DA 3 3 3 N 9 4.39 0.30 108.30 112.69 A A A O4' C1' N1 DT DT DT 5 5 5 N 9 6.85 0.30 108.30 115.15 A A A O4' C1' N1 DT DT DT 7 7 7 N 9 2.50 0.30 108.30 110.80 A A A O4' C1' N1 DT DT DT 8 8 8 N 9 3.75 0.30 108.30 112.05 A A A O4' C1' N9 DA DA DA 9 9 9 N 9 5.34 0.30 108.30 113.64 A A A O4' C1' N1 DC DC DC 10 10 10 N 9 1.87 0.30 108.30 110.17 A A A O4' C1' N9 DA DA DA 11 11 11 N 9 4.35 0.30 108.30 112.65 A A A O4' C1' N1 DT DT DT 12 12 12 N 9 3.61 0.30 108.30 111.91 C C C O4' C1' N9 DA DA DA 13 13 13 N 9 2.43 0.30 108.30 110.73 C C C O4' C1' N1 DT DT DT 14 14 14 N 9 3.07 0.30 108.30 111.37 C C C O4' C1' N9 DG DG DG 15 15 15 N 9 5.04 0.30 108.30 113.34 C C C O4' C1' N1 DT DT DT 16 16 16 N 9 6.17 0.30 108.30 114.47 C C C O4' C1' N9 DA DA DA 17 17 17 N 9 4.12 0.30 108.30 112.42 C C C O4' C1' N1 DT DT DT 19 19 19 N 9 3.62 0.60 106.00 109.62 C C C O4' C4' C3' DA DA DA 20 20 20 N 9 2.35 0.30 108.30 110.65 C C C O4' C1' N1 DC DC DC 21 21 21 N 9 2.33 0.30 108.30 110.63 C C C O4' C1' N1 DT DT DT 22 22 22 N 9 3.13 0.30 108.30 111.43 C C C O4' C1' N1 DT DT DT 23 23 23 N 9 3.25 0.30 108.30 111.55 C C C O4' C1' N1 DT DT DT 24 24 24 N 10 2.42 0.30 108.30 110.72 A A A O4' C1' N9 DA DA DA 3 3 3 N 10 3.08 0.30 108.30 111.38 A A A O4' C1' N9 DG DG DG 4 4 4 N 10 4.54 0.30 108.30 112.84 A A A O4' C1' N1 DT DT DT 5 5 5 N 10 -4.20 0.60 122.90 118.70 A A A C6 C5 C7 DT DT DT 5 5 5 N 10 -5.03 0.70 102.20 97.17 A A A C4' C3' C2' DA DA DA 6 6 6 N 10 3.52 0.30 108.30 111.82 A A A O4' C1' N9 DA DA DA 6 6 6 N 10 3.86 0.60 106.00 109.86 A A A O4' C4' C3' DT DT DT 7 7 7 N 10 4.12 0.30 108.30 112.42 A A A O4' C1' N1 DT DT DT 7 7 7 N 10 -4.00 0.60 122.90 118.90 A A A C6 C5 C7 DT DT DT 7 7 7 N 10 3.56 0.30 108.30 111.86 A A A O4' C1' N1 DC DC DC 10 10 10 N 10 2.02 0.30 108.30 110.32 A A A O4' C1' N9 DA DA DA 11 11 11 N 10 7.90 0.30 108.30 116.20 A A A O4' C1' N1 DT DT DT 12 12 12 N 10 3.75 0.60 106.00 109.75 C C C O4' C4' C3' DA DA DA 13 13 13 N 10 3.07 0.30 108.30 111.37 C C C O4' C1' N1 DT DT DT 14 14 14 N 10 -4.89 0.60 122.90 118.01 C C C C6 C5 C7 DT DT DT 14 14 14 N 10 2.47 0.30 108.30 110.77 C C C O4' C1' N9 DG DG DG 15 15 15 N 10 3.99 0.30 108.30 112.29 C C C O4' C1' N1 DT DT DT 16 16 16 N 10 3.42 0.30 108.30 111.72 C C C O4' C1' N9 DA DA DA 17 17 17 N 10 4.29 0.30 108.30 112.59 C C C O4' C1' N9 DA DA DA 18 18 18 N 10 5.39 0.30 108.30 113.69 C C C O4' C1' N1 DT DT DT 19 19 19 N 10 6.17 0.30 108.30 114.47 C C C O4' C1' N9 DA DA DA 20 20 20 N 10 2.34 0.30 108.30 110.64 C C C O4' C1' N1 DT DT DT 22 22 22 N 10 5.08 0.30 108.30 113.38 C C C O4' C1' N1 DT DT DT 23 23 23 N 10 4.58 0.30 108.30 112.88 C C C O4' C1' N1 DT DT DT 24 24 24 N 10 -4.27 0.70 120.80 116.53 B B B CB CG CD2 PHE PHE PHE 66 66 66 N 2 A A C5 C7 DT DT 8 8 0.039 0.006 1.496 1.535 N 3 A A C5 C7 DT DT 8 8 0.047 0.006 1.496 1.543 N 8 A A C5 C7 DT DT 8 8 0.041 0.006 1.496 1.537 N 1 B SER 23 -129.84 -154.55 1 B TRP 39 -3.60 115.79 1 B ARG 64 -72.41 -79.39 1 B ASP 73 -150.56 -52.40 1 B SER 75 -69.08 -75.60 1 B TYR 77 65.92 105.90 2 B SER 8 -132.76 -134.75 2 B SER 23 -128.35 -154.50 2 B TRP 39 -15.92 119.86 2 B ARG 64 -68.72 -83.77 2 B ASP 73 -127.74 -53.13 2 B SER 75 179.58 -56.40 2 B ASP 76 59.32 -88.03 3 B LYS 2 -154.82 -37.06 3 B SER 23 -130.35 -154.84 3 B TRP 39 -11.14 97.62 3 B PRO 70 -56.56 96.70 3 B TYR 77 -132.40 -113.56 4 B LYS 2 79.04 -59.83 4 B SER 23 -129.35 -154.12 4 B TRP 39 -15.85 118.47 4 B ARG 64 -67.99 -84.12 4 B PRO 70 -59.83 107.22 4 B ASP 73 -127.71 -53.60 4 B SER 75 -119.65 61.71 5 B LYS 2 65.79 105.41 5 B LYS 3 57.94 71.78 5 B SER 23 -128.42 -155.31 5 B TRP 39 -22.54 123.14 5 B ARG 64 -64.28 -79.79 5 B PRO 70 -58.04 109.66 5 B SER 75 -112.21 59.92 6 B LYS 3 -80.27 -94.58 6 B ILE 4 -167.25 87.70 6 B SER 23 -128.81 -154.80 6 B TRP 39 -2.49 111.45 6 B ARG 64 -66.36 -85.83 6 B ASP 73 -140.73 -61.55 6 B SER 75 -101.45 57.98 6 B LYS 81 69.76 79.69 7 B LYS 2 72.90 79.00 7 B LYS 3 -82.43 -128.47 7 B SER 8 -129.55 -167.75 7 B SER 23 -129.74 -154.74 7 B TRP 39 -4.16 111.93 7 B ARG 64 -65.42 -78.39 7 B LYS 81 -155.47 -35.31 8 B LYS 2 -82.24 -73.31 8 B ILE 4 -151.63 58.85 8 B SER 23 -129.23 -154.77 8 B THR 38 -66.83 -106.66 8 B TRP 39 56.45 -131.05 8 B SER 40 177.02 156.01 8 B ARG 64 -69.78 -82.19 8 B PRO 70 -48.63 96.75 9 B SER 23 -130.87 -155.58 9 B TRP 39 -2.59 113.57 9 B ASP 73 -132.12 -40.13 9 B TYR 77 63.91 115.79 9 B LYS 81 -138.10 -60.86 10 B LYS 3 -163.94 113.16 10 B SER 23 -128.80 -155.08 10 B TRP 39 -11.02 118.98 10 B ARG 64 -65.57 -80.51 10 B PRO 70 -57.33 106.44 10 B ASP 73 -143.40 -52.79 10 B SER 75 -83.87 -71.64 10 B TYR 77 68.49 119.88 Solution structure of the bacillus licheniformis BlaI monomeric form in complex with the blaP half-operator. 1 N N 2 N N 3 N N B SER 8 C SER 8 HELX_P B HIS 21 C HIS 21 1 1 14 B ASN 25 C ASN 25 HELX_P B SER 37 C SER 37 1 2 13 B SER 40 C SER 40 HELX_P B GLY 55 C GLY 55 1 3 16 hydrog WATSON-CRICK A DA 1 A N1 DA 1 1_555 C DT 24 B N3 DT 12 1_555 hydrog WATSON-CRICK A DA 1 A N6 DA 1 1_555 C DT 24 B O4 DT 12 1_555 hydrog WATSON-CRICK A DA 2 A N1 DA 2 1_555 C DT 23 B N3 DT 11 1_555 hydrog WATSON-CRICK A DA 2 A N6 DA 2 1_555 C DT 23 B O4 DT 11 1_555 hydrog WATSON-CRICK A DA 3 A N1 DA 3 1_555 C DT 22 B N3 DT 10 1_555 hydrog WATSON-CRICK A DA 3 A N6 DA 3 1_555 C DT 22 B O4 DT 10 1_555 hydrog WATSON-CRICK A DG 4 A N1 DG 4 1_555 C DC 21 B N3 DC 9 1_555 hydrog WATSON-CRICK A DG 4 A N2 DG 4 1_555 C DC 21 B O2 DC 9 1_555 hydrog WATSON-CRICK A DG 4 A O6 DG 4 1_555 C DC 21 B N4 DC 9 1_555 hydrog WATSON-CRICK A DT 5 A N3 DT 5 1_555 C DA 20 B N1 DA 8 1_555 hydrog WATSON-CRICK A DT 5 A O4 DT 5 1_555 C DA 20 B N6 DA 8 1_555 hydrog WATSON-CRICK A DA 6 A N1 DA 6 1_555 C DT 19 B N3 DT 7 1_555 hydrog WATSON-CRICK A DA 6 A N6 DA 6 1_555 C DT 19 B O4 DT 7 1_555 hydrog WATSON-CRICK A DT 7 A N3 DT 7 1_555 C DA 18 B N1 DA 6 1_555 hydrog WATSON-CRICK A DT 7 A O4 DT 7 1_555 C DA 18 B N6 DA 6 1_555 hydrog WATSON-CRICK A DT 8 A N3 DT 8 1_555 C DA 17 B N1 DA 5 1_555 hydrog WATSON-CRICK A DT 8 A O4 DT 8 1_555 C DA 17 B N6 DA 5 1_555 hydrog WATSON-CRICK A DA 9 A N1 DA 9 1_555 C DT 16 B N3 DT 4 1_555 hydrog WATSON-CRICK A DA 9 A N6 DA 9 1_555 C DT 16 B O4 DT 4 1_555 hydrog WATSON-CRICK A DC 10 A N3 DC 10 1_555 C DG 15 B N1 DG 3 1_555 hydrog WATSON-CRICK A DC 10 A N4 DC 10 1_555 C DG 15 B O6 DG 3 1_555 hydrog WATSON-CRICK A DC 10 A O2 DC 10 1_555 C DG 15 B N2 DG 3 1_555 hydrog WATSON-CRICK A DA 11 A N1 DA 11 1_555 C DT 14 B N3 DT 2 1_555 hydrog WATSON-CRICK A DA 11 A N6 DA 11 1_555 C DT 14 B O4 DT 2 1_555 hydrog WATSON-CRICK A DT 12 A N3 DT 12 1_555 C DA 13 B N1 DA 1 1_555 hydrog WATSON-CRICK A DT 12 A O4 DT 12 1_555 C DA 13 B N6 DA 1 1_555 transcription regulator PROTEIN-DNA COMPLEX, REPRESSOR, MONOMER, OPERATOR, ANTIBIOTICS, transcription regulator BLAI_BACLI UNP 3 1 P06555 MKKIPQISDAELEVMKVIWKHSSINTNEVIKELSKTSTWSPKTIQTMLLRLIKKGALNHHKEGRVFVYTPNIDESDYIEV KS 2P7C PDB 1 2P7C 2P7C PDB 2 2P7C 1 82 2P7C 1 82 P06555 B 1 1 82 1 12 2P7C 1 12 2P7C A 2 1 12 13 24 2P7C 13 24 2P7C C 3 1 12 2 anti-parallel B LEU 57 C LEU 57 B HIS 60 C HIS 60 B VAL 67 C VAL 67 B PRO 70 C PRO 70