1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Wu, Z. Delaglio, F. Tjandra, N. Zhurkin, V. Bax, A. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 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 NE J.Biomol.Nmr JBNME9 0800 0925-2738 26 297 315 10.1023/A:1024047103398 12815257 Overall structure and sugar dynamics of a DNA dodecamer from homo- and heteronuclear dipolar couplings and (31)P chemical shift anisotropy. 2003 10.2210/pdb1naj/pdb pdb_00001naj 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 3663.392 5'-D(*CP*GP*CP*GP*AP*AP*TP*TP*CP*GP*CP*G)-3' 2 syn polymer no no (DC)(DG)(DC)(DG)(DA)(DA)(DT)(DT)(DC)(DG)(DC)(DG) CGCGAATTCGCG A,B polydeoxyribonucleotide n n n n n n n n n n n n -10.607 1 19 A 1 B 24 3.168 A_DC1:DG24_B 1 -17.869 0.445 -0.347 -0.514 -3.957 1 19 A 2 B 23 0.592 A_DG2:DC23_B 2 -16.799 -0.201 0.337 -0.370 -3.438 1 19 A 3 B 22 2.920 A_DC3:DG22_B 3 -17.186 0.551 -0.246 -0.511 -0.317 1 19 A 4 B 21 0.647 A_DG4:DC21_B 4 -15.544 -0.348 -0.052 -0.394 -4.448 1 20 A 5 B 20 0.298 A_DA5:DT20_B 5 -19.861 -0.309 -0.251 -0.336 -3.428 1 20 A 6 B 19 -1.784 A_DA6:DT19_B 6 -22.919 -0.065 -0.334 -0.309 3.300 1 20 A 7 B 18 -1.631 A_DT7:DA18_B 7 -23.095 0.102 -0.335 -0.329 4.793 1 20 A 8 B 17 0.830 A_DT8:DA17_B 8 -20.085 0.301 -0.287 -0.350 -0.060 1 19 A 9 B 16 0.472 A_DC9:DG16_B 9 -15.355 0.311 -0.033 -0.388 2.687 1 19 A 10 B 15 2.489 A_DG10:DC15_B 10 -17.359 -0.534 -0.191 -0.496 3.026 1 19 A 11 B 14 0.691 A_DC11:DG14_B 11 -16.262 0.130 0.328 -0.345 9.505 1 19 A 12 B 13 2.796 A_DG12:DC13_B 12 -18.114 -0.424 -0.401 -0.506 3.102 32.598 A A 1 2 18.847 B B 24 23 3.220 10.389 0.318 0.270 AA_DC1DG2:DC23DG24_BB 1 -3.003 5.449 30.798 -1.319 -1.087 3.072 39.776 A A 2 3 -0.128 B B 23 22 3.085 -0.087 0.042 -0.200 AA_DG2DC3:DG22DC23_BB 2 4.543 -6.690 39.526 -0.284 0.436 3.324 32.778 A A 3 4 14.892 B B 22 21 3.396 8.315 0.265 0.102 AA_DC3DG4:DC21DG22_BB 3 1.228 -2.199 31.710 -1.315 -0.249 3.118 37.345 A A 4 5 8.739 B B 21 20 3.157 5.576 -0.293 -0.085 AA_DG4DA5:DT20DC21_BB 4 -0.886 1.388 36.931 -0.843 0.345 3.127 38.164 A A 5 6 1.584 B B 20 19 3.125 1.035 -0.429 -0.225 AA_DA5DA6:DT19DT20_BB 5 -0.829 1.269 38.142 -0.469 0.556 2.900 34.512 A A 6 7 -5.984 B B 19 18 2.849 -3.544 -0.032 -0.658 AA_DA6DT7:DA18DT19_BB 6 0.105 -0.178 34.335 -0.625 0.069 3.120 38.201 A A 7 8 1.615 B B 18 17 3.114 1.057 0.399 -0.150 AA_DT7DT8:DA17DA18_BB 7 1.193 -1.824 38.169 -0.355 -0.466 3.152 37.579 A A 8 9 9.427 B B 17 16 3.186 6.048 0.283 0.001 AA_DT8DC9:DG16DA17_BB 8 0.564 -0.879 37.102 -0.768 -0.368 3.358 32.984 A A 9 10 14.647 B B 16 15 3.426 8.230 -0.234 0.116 AA_DC9DG10:DC15DG16_BB 9 -1.372 2.441 31.940 -1.270 0.167 3.069 38.830 A A 10 11 -0.001 B B 15 14 3.089 -0.001 0.034 -0.214 AA_DG10DC11:DG14DC15_BB 10 -4.158 6.266 38.615 -0.323 -0.530 3.216 32.840 A A 11 12 17.840 B B 14 13 3.301 9.921 -0.402 0.393 AA_DC11DG12:DC13DG14_BB 11 3.225 -5.800 31.183 -1.046 1.277 database_2 pdbx_nmr_software pdbx_nmr_spectrometer pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2003-07-08 1 1 2008-04-28 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _pdbx_nmr_spectrometer.model RCSB Y RCSB 2002-11-27 REL REL structures with the lowest energy 20 5 H-31P-HSQC, HP-ctNOESY-DIF, COSY COSY,2D NOESY,13C-HSQC-J-MODULATED,13C-HSQC-F1-COUPLED, 15N-HSQC-F1-COUPLED 40mM 7.0 1 atm 308 K THE STRUCTURE IS BASED ON A TOTAL OF 162 NOE, 32 HYDROGEN BOND, AND 24 DIHEDRAL RESTRAINTS; AS WELL AS 262 CH AND 16 NH ONE-BOND DIPOLAR COUPLING RESTRAINTS, 200 APPROXIMATE PROTON-PROTON DIPOLAR COUPLINGS, 300 quantitative proton-proton dipolar restraints, 22 31P-1H dipolar couplings, and 22 31P chemical shift anisotropy restraints. THE COORDINATE OF THE ALIGNMENT TENSOR IS DEFINED BY molecule 500 and 501. SIMULATED ANNEALING, MOLECULAR DYNAMICS 3 lowest energy 0.5 MM unlabeled DUPLEX DNA, 40MM SODIUM PHOSPHATE, PH 7.0 100% D2O 0.5 MM U-13C/15N DUPLEX DNA, 40MM SODIUM PHOSPHATE, PH 7.0 90% H2O/10% D2O Delaglio, Frank data analysis NMRPipe 1.7 REV 1999.039.11.31 Bruker collection XwinNMR VERSION 2.4 and 2.6 BRUNGER refinement X-PLOR 3.841 Delaglio, Frank data analysis CosyView 600 Bruker DMX 800 Bruker AVANCE CYT 1 n 1 DC 1 A GUA 2 n 2 DG 2 A CYT 3 n 3 DC 3 A GUA 4 n 4 DG 4 A ADE 5 n 5 DA 5 A ADE 6 n 6 DA 6 A THY 7 n 7 DT 7 A THY 8 n 8 DT 8 A CYT 9 n 9 DC 9 A GUA 10 n 10 DG 10 A CYT 11 n 11 DC 11 A GUA 12 n 12 DG 12 A CYT 13 n 1 DC 13 B GUA 14 n 2 DG 14 B CYT 15 n 3 DC 15 B GUA 16 n 4 DG 16 B ADE 17 n 5 DA 17 B ADE 18 n 6 DA 18 B THY 19 n 7 DT 19 B THY 20 n 8 DT 20 B CYT 21 n 9 DC 21 B GUA 22 n 10 DG 22 B CYT 23 n 11 DC 23 B GUA 24 n 12 DG 24 B author_defined_assembly 2 dimeric 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 B H21 O2 DG DC 2 23 1.56 1 A B O2 H21 DC DG 11 14 1.57 2 A B H21 O2 DG DC 2 23 1.51 2 A B O2 H21 DC DG 11 14 1.54 2 A B O6 H41 DG DC 12 13 1.56 2 A B H41 O6 DC DG 1 24 1.58 3 A B O2 H21 DC DG 11 14 1.53 3 A B H21 O2 DG DC 2 23 1.54 4 A B O2 H21 DC DG 11 14 1.54 4 A B H21 O2 DG DC 2 23 1.55 5 A B O2 H21 DC DG 11 14 1.58 5 A B H21 O2 DG DC 2 23 1.58 1 6.31 0.90 103.10 109.41 A A A C4' C3' C2' DC DC DC 1 1 1 N 1 5.73 0.90 103.10 108.83 A A A C4' C3' C2' DG DG DG 2 2 2 N 1 6.60 0.90 103.10 109.70 A A A C4' C3' C2' DC DC DC 3 3 3 N 1 5.81 0.90 103.10 108.91 A A A C4' C3' C2' DA DA DA 6 6 6 N 1 6.02 0.90 103.10 109.12 A A A C4' C3' C2' DT DT DT 7 7 7 N 1 -3.79 0.60 122.90 119.11 A A A C6 C5 C7 DT DT DT 7 7 7 N 1 6.49 0.90 103.10 109.59 A A A C4' C3' C2' DT DT DT 8 8 8 N 1 6.20 0.90 103.10 109.30 A A A C4' C3' C2' DC DC DC 9 9 9 N 1 6.62 0.90 103.10 109.72 A A A C4' C3' C2' DC DC DC 11 11 11 N 1 6.68 0.90 103.10 109.78 A A A C4' C3' C2' DG DG DG 12 12 12 N 1 7.18 0.90 103.10 110.28 B B B C4' C3' C2' DC DC DC 13 13 13 N 1 5.61 0.90 103.10 108.71 B B B C4' C3' C2' DG DG DG 14 14 14 N 1 6.70 0.90 103.10 109.80 B B B C4' C3' C2' DC DC DC 15 15 15 N 1 5.46 0.90 103.10 108.56 B B B C4' C3' C2' DG DG DG 16 16 16 N 1 5.91 0.90 103.10 109.01 B B B C4' C3' C2' DA DA DA 18 18 18 N 1 6.01 0.90 103.10 109.11 B B B C4' C3' C2' DT DT DT 19 19 19 N 1 -3.94 0.60 122.90 118.96 B B B C6 C5 C7 DT DT DT 19 19 19 N 1 6.42 0.90 103.10 109.52 B B B C4' C3' C2' DT DT DT 20 20 20 N 1 6.18 0.90 103.10 109.28 B B B C4' C3' C2' DC DC DC 21 21 21 N 1 6.72 0.90 103.10 109.82 B B B C4' C3' C2' DC DC DC 23 23 23 N 1 6.63 0.90 103.10 109.73 B B B C4' C3' C2' DG DG DG 24 24 24 N 2 7.10 0.90 103.10 110.20 A A A C4' C3' C2' DC DC DC 1 1 1 N 2 5.63 0.90 103.10 108.73 A A A C4' C3' C2' DG DG DG 2 2 2 N 2 6.74 0.90 103.10 109.84 A A A C4' C3' C2' DC DC DC 3 3 3 N 2 5.50 0.90 103.10 108.60 A A A C4' C3' C2' DG DG DG 4 4 4 N 2 6.06 0.90 103.10 109.16 A A A C4' C3' C2' DA DA DA 6 6 6 N 2 6.20 0.90 103.10 109.30 A A A C4' C3' C2' DT DT DT 7 7 7 N 2 -3.69 0.60 122.90 119.21 A A A C6 C5 C7 DT DT DT 7 7 7 N 2 6.43 0.90 103.10 109.53 A A A C4' C3' C2' DT DT DT 8 8 8 N 2 -3.62 0.60 122.90 119.28 A A A C6 C5 C7 DT DT DT 8 8 8 N 2 6.00 0.90 103.10 109.10 A A A C4' C3' C2' DC DC DC 9 9 9 N 2 5.43 0.90 103.10 108.53 A A A C4' C3' C2' DG DG DG 10 10 10 N 2 6.79 0.90 103.10 109.89 A A A C4' C3' C2' DC DC DC 11 11 11 N 2 6.69 0.90 103.10 109.79 A A A C4' C3' C2' DG DG DG 12 12 12 N 2 7.10 0.90 103.10 110.20 B B B C4' C3' C2' DC DC DC 13 13 13 N 2 5.56 0.90 103.10 108.66 B B B C4' C3' C2' DG DG DG 14 14 14 N 2 6.66 0.90 103.10 109.76 B B B C4' C3' C2' DC DC DC 15 15 15 N 2 5.47 0.90 103.10 108.57 B B B C4' C3' C2' DG DG DG 16 16 16 N 2 6.05 0.90 103.10 109.15 B B B C4' C3' C2' DA DA DA 18 18 18 N 2 6.28 0.90 103.10 109.38 B B B C4' C3' C2' DT DT DT 19 19 19 N 2 -3.67 0.60 122.90 119.23 B B B C6 C5 C7 DT DT DT 19 19 19 N 2 6.37 0.90 103.10 109.47 B B B C4' C3' C2' DT DT DT 20 20 20 N 2 -3.76 0.60 122.90 119.14 B B B C6 C5 C7 DT DT DT 20 20 20 N 2 5.96 0.90 103.10 109.06 B B B C4' C3' C2' DC DC DC 21 21 21 N 2 5.42 0.90 103.10 108.52 B B B C4' C3' C2' DG DG DG 22 22 22 N 2 6.87 0.90 103.10 109.97 B B B C4' C3' C2' DC DC DC 23 23 23 N 2 6.54 0.90 103.10 109.64 B B B C4' C3' C2' DG DG DG 24 24 24 N 3 6.93 0.90 103.10 110.03 A A A C4' C3' C2' DC DC DC 1 1 1 N 3 5.40 0.90 103.10 108.50 A A A C4' C3' C2' DG DG DG 2 2 2 N 3 6.53 0.90 103.10 109.63 A A A C4' C3' C2' DC DC DC 3 3 3 N 3 5.42 0.90 103.10 108.52 A A A C4' C3' C2' DG DG DG 4 4 4 N 3 5.89 0.90 103.10 108.99 A A A C4' C3' C2' DA DA DA 6 6 6 N 3 6.10 0.90 103.10 109.20 A A A C4' C3' C2' DT DT DT 7 7 7 N 3 6.35 0.90 103.10 109.45 A A A C4' C3' C2' DT DT DT 8 8 8 N 3 5.88 0.90 103.10 108.98 A A A C4' C3' C2' DC DC DC 9 9 9 N 3 6.60 0.90 103.10 109.70 A A A C4' C3' C2' DC DC DC 11 11 11 N 3 6.77 0.90 103.10 109.87 A A A C4' C3' C2' DG DG DG 12 12 12 N 3 7.06 0.90 103.10 110.16 B B B C4' C3' C2' DC DC DC 13 13 13 N 3 5.42 0.90 103.10 108.52 B B B C4' C3' C2' DG DG DG 14 14 14 N 3 6.56 0.90 103.10 109.66 B B B C4' C3' C2' DC DC DC 15 15 15 N 3 5.96 0.90 103.10 109.06 B B B C4' C3' C2' DA DA DA 18 18 18 N 3 6.05 0.90 103.10 109.15 B B B C4' C3' C2' DT DT DT 19 19 19 N 3 6.45 0.90 103.10 109.55 B B B C4' C3' C2' DT DT DT 20 20 20 N 3 5.92 0.90 103.10 109.02 B B B C4' C3' C2' DC DC DC 21 21 21 N 3 6.72 0.90 103.10 109.82 B B B C4' C3' C2' DC DC DC 23 23 23 N 3 6.78 0.90 103.10 109.88 B B B C4' C3' C2' DG DG DG 24 24 24 N 4 7.10 0.90 103.10 110.20 A A A C4' C3' C2' DC DC DC 1 1 1 N 4 5.60 0.90 103.10 108.70 A A A C4' C3' C2' DG DG DG 2 2 2 N 4 6.65 0.90 103.10 109.75 A A A C4' C3' C2' DC DC DC 3 3 3 N 4 5.93 0.90 103.10 109.03 A A A C4' C3' C2' DA DA DA 6 6 6 N 4 6.11 0.90 103.10 109.21 A A A C4' C3' C2' DT DT DT 7 7 7 N 4 -3.70 0.60 122.90 119.20 A A A C6 C5 C7 DT DT DT 7 7 7 N 4 6.35 0.90 103.10 109.45 A A A C4' C3' C2' DT DT DT 8 8 8 N 4 6.00 0.90 103.10 109.10 A A A C4' C3' C2' DC DC DC 9 9 9 N 4 5.45 0.90 103.10 108.55 A A A C4' C3' C2' DG DG DG 10 10 10 N 4 6.79 0.90 103.10 109.89 A A A C4' C3' C2' DC DC DC 11 11 11 N 4 6.53 0.90 103.10 109.63 A A A C4' C3' C2' DG DG DG 12 12 12 N 4 7.22 0.90 103.10 110.32 B B B C4' C3' C2' DC DC DC 13 13 13 N 4 5.56 0.90 103.10 108.66 B B B C4' C3' C2' DG DG DG 14 14 14 N 4 6.54 0.90 103.10 109.64 B B B C4' C3' C2' DC DC DC 15 15 15 N 4 6.01 0.90 103.10 109.11 B B B C4' C3' C2' DA DA DA 18 18 18 N 4 6.21 0.90 103.10 109.31 B B B C4' C3' C2' DT DT DT 19 19 19 N 4 -3.69 0.60 122.90 119.21 B B B C6 C5 C7 DT DT DT 19 19 19 N 4 6.41 0.90 103.10 109.51 B B B C4' C3' C2' DT DT DT 20 20 20 N 4 5.99 0.90 103.10 109.09 B B B C4' C3' C2' DC DC DC 21 21 21 N 4 6.76 0.90 103.10 109.86 B B B C4' C3' C2' DC DC DC 23 23 23 N 4 6.69 0.90 103.10 109.79 B B B C4' C3' C2' DG DG DG 24 24 24 N 5 7.07 0.90 103.10 110.17 A A A C4' C3' C2' DC DC DC 1 1 1 N 5 5.55 0.90 103.10 108.65 A A A C4' C3' C2' DG DG DG 2 2 2 N 5 6.54 0.90 103.10 109.64 A A A C4' C3' C2' DC DC DC 3 3 3 N 5 6.04 0.90 103.10 109.14 A A A C4' C3' C2' DA DA DA 6 6 6 N 5 6.33 0.90 103.10 109.43 A A A C4' C3' C2' DT DT DT 7 7 7 N 5 -3.67 0.60 122.90 119.23 A A A C6 C5 C7 DT DT DT 7 7 7 N 5 6.43 0.90 103.10 109.53 A A A C4' C3' C2' DT DT DT 8 8 8 N 5 5.97 0.90 103.10 109.07 A A A C4' C3' C2' DC DC DC 9 9 9 N 5 5.41 0.90 103.10 108.51 A A A C4' C3' C2' DG DG DG 10 10 10 N 5 6.72 0.90 103.10 109.82 A A A C4' C3' C2' DC DC DC 11 11 11 N 5 6.77 0.90 103.10 109.87 A A A C4' C3' C2' DG DG DG 12 12 12 N 5 6.16 0.90 103.10 109.26 B B B C4' C3' C2' DC DC DC 13 13 13 N 5 5.62 0.90 103.10 108.72 B B B C4' C3' C2' DG DG DG 14 14 14 N 5 6.63 0.90 103.10 109.73 B B B C4' C3' C2' DC DC DC 15 15 15 N 5 5.95 0.90 103.10 109.05 B B B C4' C3' C2' DA DA DA 18 18 18 N 5 6.20 0.90 103.10 109.30 B B B C4' C3' C2' DT DT DT 19 19 19 N 5 -3.69 0.60 122.90 119.21 B B B C6 C5 C7 DT DT DT 19 19 19 N 5 6.43 0.90 103.10 109.53 B B B C4' C3' C2' DT DT DT 20 20 20 N 5 5.87 0.90 103.10 108.97 B B B C4' C3' C2' DC DC DC 21 21 21 N 5 6.78 0.90 103.10 109.88 B B B C4' C3' C2' DC DC DC 23 23 23 N 5 6.67 0.90 103.10 109.77 B B B C4' C3' C2' DG DG DG 24 24 24 N High resolution NMR Structure Of DNA Dodecamer Determined In Aqueous Dilute Liquid Crystalline Phase 1 N N 1 N N hydrog WATSON-CRICK A DC 1 A N3 DC 1 1_555 B DG 24 B N1 DG 12 1_555 hydrog WATSON-CRICK A DC 1 A N4 DC 1 1_555 B DG 24 B O6 DG 12 1_555 hydrog WATSON-CRICK A DC 1 A O2 DC 1 1_555 B DG 24 B N2 DG 12 1_555 hydrog WATSON-CRICK A DG 2 A N1 DG 2 1_555 B DC 23 B N3 DC 11 1_555 hydrog WATSON-CRICK A DG 2 A N2 DG 2 1_555 B DC 23 B O2 DC 11 1_555 hydrog WATSON-CRICK A DG 2 A O6 DG 2 1_555 B DC 23 B N4 DC 11 1_555 hydrog WATSON-CRICK A DC 3 A N3 DC 3 1_555 B DG 22 B N1 DG 10 1_555 hydrog WATSON-CRICK A DC 3 A N4 DC 3 1_555 B DG 22 B O6 DG 10 1_555 hydrog WATSON-CRICK A DC 3 A O2 DC 3 1_555 B DG 22 B N2 DG 10 1_555 hydrog WATSON-CRICK A DG 4 A N1 DG 4 1_555 B DC 21 B N3 DC 9 1_555 hydrog WATSON-CRICK A DG 4 A N2 DG 4 1_555 B DC 21 B O2 DC 9 1_555 hydrog WATSON-CRICK A DG 4 A O6 DG 4 1_555 B DC 21 B N4 DC 9 1_555 hydrog WATSON-CRICK A DA 5 A N1 DA 5 1_555 B DT 20 B N3 DT 8 1_555 hydrog WATSON-CRICK A DA 5 A N6 DA 5 1_555 B DT 20 B O4 DT 8 1_555 hydrog WATSON-CRICK A DA 6 A N1 DA 6 1_555 B DT 19 B N3 DT 7 1_555 hydrog WATSON-CRICK A DA 6 A N6 DA 6 1_555 B DT 19 B O4 DT 7 1_555 hydrog WATSON-CRICK A DT 7 A N3 DT 7 1_555 B DA 18 B N1 DA 6 1_555 hydrog WATSON-CRICK A DT 7 A O4 DT 7 1_555 B DA 18 B N6 DA 6 1_555 hydrog WATSON-CRICK A DT 8 A N3 DT 8 1_555 B DA 17 B N1 DA 5 1_555 hydrog WATSON-CRICK A DT 8 A O4 DT 8 1_555 B DA 17 B N6 DA 5 1_555 hydrog WATSON-CRICK A DC 9 A N3 DC 9 1_555 B DG 16 B N1 DG 4 1_555 hydrog WATSON-CRICK A DC 9 A N4 DC 9 1_555 B DG 16 B O6 DG 4 1_555 hydrog WATSON-CRICK A DC 9 A O2 DC 9 1_555 B DG 16 B N2 DG 4 1_555 hydrog WATSON-CRICK A DG 10 A N1 DG 10 1_555 B DC 15 B N3 DC 3 1_555 hydrog WATSON-CRICK A DG 10 A N2 DG 10 1_555 B DC 15 B O2 DC 3 1_555 hydrog WATSON-CRICK A DG 10 A O6 DG 10 1_555 B DC 15 B N4 DC 3 1_555 hydrog WATSON-CRICK A DC 11 A N3 DC 11 1_555 B DG 14 B N1 DG 2 1_555 hydrog WATSON-CRICK A DC 11 A N4 DC 11 1_555 B DG 14 B O6 DG 2 1_555 hydrog WATSON-CRICK A DC 11 A O2 DC 11 1_555 B DG 14 B N2 DG 2 1_555 hydrog WATSON-CRICK A DG 12 A N1 DG 12 1_555 B DC 13 B N3 DC 1 1_555 hydrog WATSON-CRICK A DG 12 A N2 DG 12 1_555 B DC 13 B O2 DC 1 1_555 hydrog WATSON-CRICK A DG 12 A O6 DG 12 1_555 B DC 13 B N4 DC 1 1_555 DNA Dickerson Dodecamer, DNA 1NAJ PDB 1 1NAJ 1 12 1NAJ 1 12 1NAJ A 1 1 12 13 24 1NAJ 13 24 1NAJ B 1 1 12