1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Kuryavyi, V.V. Kettani, A. Wang, W. Jones, R. Patel, D.J. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 90.00 90.00 90.00 1.000 1.000 1.000 C10 H14 N5 O6 P 331.222 y 2'-DEOXYADENOSINE-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 UK J.Mol.Biol. JMOBAK 0070 0022-2836 295 455 469 10.1006/jmbi.1999.3345 10623538 A diamond-shaped zipper-like DNA architecture containing triads sandwiched between mismatches and tetrads. 2000 10.2210/pdb1d6d/pdb pdb_00001d6d 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 3741.464 5'-D(*AP*AP*GP*GP*TP*TP*TP*TP*AP*AP*GP*G)-3' 2 syn polymer no no (DA)(DA)(DG)(DG)(DT)(DT)(DT)(DT)(DA)(DA)(DG)(DG) AAGGTTTTAAGG A,B polydeoxyribonucleotide n n n n n n n n n n n n -6.182 4 24 A 2 B 7 -92.383 A_DA2:DT7_B 1 -27.634 -4.434 -1.442 -2.953 -11.365 6 A 3 B 11 93.516 A_DG3:DG11_B 2 0.796 -1.241 0.381 -3.574 -11.368 6 B 3 A 11 93.512 B_DG3:DG11_A 3 0.800 -1.231 0.384 -3.568 6.165 4 24 A 7 B 2 -92.397 A_DT7:DA2_B 4 -27.632 4.437 -1.441 -2.964 -2.364 4 24 A 5 A 9 -98.166 A_DT5:DA9_A 5 -25.838 4.473 -0.561 -2.843 2.351 4 24 B 5 B 9 98.176 B_DT5:DA9_B 6 -25.847 -4.474 0.561 -2.843 -0.592 174.088 A A 2 3 -51.509 B B 7 11 0.414 -101.657 2.648 5.835 AA_DA2DG3:DG11DT7_BB 1 137.801 -69.823 95.043 2.901 -1.354 0.000 -179.997 A B 3 3 40.202 B A 11 11 -0.001 -80.404 0.342 4.604 AB_DG3DG3:DG11DG11_AB 2 -142.659 -71.329 -179.975 -2.302 0.171 6.098 -73.281 B A 3 7 5.411 A B 11 2 6.268 -6.447 0.593 -1.263 BA_DG3DT7:DA2DG11_BA 3 5.900 4.952 -72.831 1.451 0.857 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 2000-01-17 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-16 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name RCSB Y RCSB 1999-10-13 REL REL THIS SEQUENCE OCCURS NATURALLY IN HUMAN TELOMERIC DNA, HUMAN IG SUPERFAMILY CYTOTOXIC T-LYMPHOCYTE-ASSOCIATED PROTEIN GENE AND 16S RRNA OF HENRICA NIPONICA. sample BACK CALCULATED DATA AGREE WITH EXPERIMENTAL NOESY SPECTRUM,STRUCTURES WITH ACCEPTABLE COVALENT GEOMETRY,STRUCTURES WITH FAVORABLE NON-BOND ENERGY, STRUCTURES WITH THE LEAST RESTRAINT VIOLATIONS,STRUCTURES WITH THE LOWEST ENERGY 100 8 NOESY TOCSY DQF-COSY COSY-45 1H-31P COSY ON ORIGINAL AND SITE-SPECIFIC SUBSTITUTED SAMPLES CONTAINING 8BR-A, 8BR-G,DU,5BR-DU,2,6-DA ANALOGS. 150mM NACL 6.9 1 atm 278 K A TOTAL OF 100 INITIAL DNA STRUCTURES WERE GENERATED USING THE METRIC MATRIX DISTANCE GEOMETRY PROTOCOL OF X-PLOR WITH THE DISTANCE RESTRAINTS OBTAINED EXPERIMENTALLY SPECIFIED AS NOE WITH THE "SUM" AVERAGING OPTION.TEN BEST STRUCTURES SELECTED ON THE BASIS OF GOOD COVALENT GEOMETRY, LOW DISTANCE RESTRAINT VIOLATION AND FAVOURABLE NON-BONDED ENERGY WERE FURTHER OPTIMIZED WITH RESTRAINED MOLECULAR DYNAMICS, MOLECULAR MECHANICS AND RELAXATION MATRIX INTENSITY REFINEMENT.THE PROTOCOLS ARE AS FOLLOWS. THE DYNAMICS WAS INITIATED AT 300K AND THE TEMPERATURE WAS INCREASED TO 1000K DURING 7PS. AFTER 0.5 PS THE FORCE CONSTANTS WERE GRADUALLY SCALED DURING 17.5 PSEC IN THE PROPORTION 1: 4:8 FOR THREE CLASSES OF NOE: EXCHANGEABLE, NONEXCHANGEABLE AND HYDROGEN BONDS, RESP. THE STRUCTURES WERE THEN SLOWLY COOLED TO 300K IN 2.8 PS AND EQUILIBRATED AT 300K FOR 12 PS. THE COORDINATES SAVED EVERY 0.5 PS DURING THE LAST 4.0 PS WERE AVERAGED AND THE AVERAGE STRUCTURE WAS SUBJECTED TO 3000 STEPS OF MINIMIZATION. THE HYDROGEN BONDS OF THE GGGG TETRADS, AND NON- CRYSTALLOGRAPHIC SYMMETRY RESTRAINTS WERE MAINTAINED THROUGHOUT. THE OBTAINED STRUCTURES WERE SUBJECTED TO RELAXATION MATRIX INTENSITY REFINEMENT. THE INTENSIY VOLUMES WERE USED AS RESTRAINTS. THE RELAXATION PATHWAYS WERE CALCULATED USING CUTOFF 4.5 ANGSTROM AND 7.25 NS ISOTROPIC CORRELATION TIME. THE STRUCTURES EXHIBIT PAIRWISE R.M.S.D. VALUE OF 1.16 A. IN TWO STRUCTURES THE RESIDUES T6 AND T8 DEVIATE FROM TWO CLUSTERS FORMED BY REST OF 8 STRUCTURES, AND THESE TWO STRUCTURES WERE OMITTED FROM DEPOSITION. DISTANCE GEOMETRY AND SIMULATED ANNEALING, DISTANCE RESTRAINED MOLECULAR DYNAMICS REFINEMENT AND RELAXATION MATRIX INTENSITY REFINEMENT 3 fewest violations,lowest energy 5-10 MM DNA (SINGLE STRANDS); 5MM SODIUM PHOSPHATE BUFFER 5-10 MM DNA (SINGLE STRANDS); 5MM SODIUM PHOSPHATE BUFFER 5-10 MM DNA (SINGLE STRANDS); 5MM SODIUM PHOSPHATE BUFFER;SINGLE BASE SUBSTITUTED FOR 8-BRDG, 8-BRDA, DU, 5BRDU OR 2,6DA. 5-10 MM DNA (SINGLE STRANDS); 5MM SODIUM PHOSPHATE BUFFER;SINGLE BASE SUBSTITUTED FOR 8-BRDG, 8-BRDA, DU, 5BRDU OR 2,6DA. A.BRUNGER refinement X-PLOR 3.1 VARIAN collection VNMR 5.0 BIOSYM data analysis Felix 97.0 A.BRUNGER structure solution X-PLOR 3.1 600 Varian VARIAN UNITY INOVA A 1 n 1 DA 1 A A 2 n 2 DA 2 A G 3 n 3 DG 3 A G 4 n 4 DG 4 A T 5 n 5 DT 5 A T 6 n 6 DT 6 A T 7 n 7 DT 7 A T 8 n 8 DT 8 A A 9 n 9 DA 9 A A 10 n 10 DA 10 A G 11 n 11 DG 11 A G 12 n 12 DG 12 A A 1 n 1 DA 1 B A 2 n 2 DA 2 B G 3 n 3 DG 3 B G 4 n 4 DG 4 B T 5 n 5 DT 5 B T 6 n 6 DT 6 B T 7 n 7 DT 7 B T 8 n 8 DT 8 B A 9 n 9 DA 9 B A 10 n 10 DA 10 B G 11 n 11 DG 11 B G 12 n 12 DG 12 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 4 A B OP2 H3 DG DT 12 6 1.51 4 A B H3 OP2 DT DG 6 12 1.51 7 A B H3 OP2 DT DG 6 12 1.58 7 A B OP2 H3 DG DT 12 6 1.58 1 2.87 0.30 108.30 111.17 A A A O4' C1' N9 DA DA DA 1 1 1 N 1 4.15 0.50 113.80 117.95 A A A N7 C8 N9 DA DA DA 1 1 1 N 1 3.33 0.30 108.30 111.63 A A A O4' C1' N9 DA DA DA 2 2 2 N 1 3.55 0.50 113.80 117.35 A A A N7 C8 N9 DA DA DA 2 2 2 N 1 3.35 0.30 108.30 111.65 A A A O4' C1' N9 DG DG DG 3 3 3 N 1 4.61 0.50 113.10 117.71 A A A N7 C8 N9 DG DG DG 3 3 3 N 1 -2.47 0.40 106.40 103.93 A A A C8 N9 C4 DG DG DG 3 3 3 N 1 3.81 0.30 108.30 112.11 A A A O4' C1' N9 DG DG DG 4 4 4 N 1 4.82 0.50 113.10 117.92 A A A N7 C8 N9 DG DG DG 4 4 4 N 1 -2.62 0.40 106.40 103.78 A A A C8 N9 C4 DG DG DG 4 4 4 N 1 3.07 0.30 108.30 111.37 A A A O4' C1' N1 DT DT DT 5 5 5 N 1 2.96 0.30 108.30 111.26 A A A O4' C1' N1 DT DT DT 6 6 6 N 1 3.35 0.30 108.30 111.65 A A A O4' C1' N1 DT DT DT 7 7 7 N 1 3.26 0.30 108.30 111.56 A A A O4' C1' N1 DT DT DT 8 8 8 N 1 3.03 0.30 108.30 111.33 A A A O4' C1' N9 DA DA DA 9 9 9 N 1 3.95 0.50 113.80 117.75 A A A N7 C8 N9 DA DA DA 9 9 9 N 1 2.84 0.30 108.30 111.14 A A A O4' C1' N9 DA DA DA 10 10 10 N 1 4.03 0.50 113.80 117.83 A A A N7 C8 N9 DA DA DA 10 10 10 N 1 3.81 0.30 108.30 112.11 A A A O4' C1' N9 DG DG DG 11 11 11 N 1 4.83 0.50 113.10 117.93 A A A N7 C8 N9 DG DG DG 11 11 11 N 1 -2.41 0.40 106.40 103.99 A A A C8 N9 C4 DG DG DG 11 11 11 N 1 2.18 0.30 108.30 110.48 A A A O4' C1' N9 DG DG DG 12 12 12 N 1 4.59 0.50 113.10 117.69 A A A N7 C8 N9 DG DG DG 12 12 12 N 1 -2.83 0.40 106.40 103.57 A A A C8 N9 C4 DG DG DG 12 12 12 N 1 2.90 0.30 108.30 111.20 B B B O4' C1' N9 DA DA DA 1 1 1 N 1 4.19 0.50 113.80 117.99 B B B N7 C8 N9 DA DA DA 1 1 1 N 1 3.35 0.30 108.30 111.65 B B B O4' C1' N9 DA DA DA 2 2 2 N 1 3.54 0.50 113.80 117.34 B B B N7 C8 N9 DA DA DA 2 2 2 N 1 3.33 0.30 108.30 111.63 B B B O4' C1' N9 DG DG DG 3 3 3 N 1 4.55 0.50 113.10 117.65 B B B N7 C8 N9 DG DG DG 3 3 3 N 1 -2.46 0.40 106.40 103.94 B B B C8 N9 C4 DG DG DG 3 3 3 N 1 3.88 0.30 108.30 112.18 B B B O4' C1' N9 DG DG DG 4 4 4 N 1 4.84 0.50 113.10 117.94 B B B N7 C8 N9 DG DG DG 4 4 4 N 1 -2.66 0.40 106.40 103.74 B B B C8 N9 C4 DG DG DG 4 4 4 N 1 3.08 0.30 108.30 111.38 B B B O4' C1' N1 DT DT DT 5 5 5 N 1 2.97 0.30 108.30 111.27 B B B O4' C1' N1 DT DT DT 6 6 6 N 1 3.39 0.30 108.30 111.69 B B B O4' C1' N1 DT DT DT 7 7 7 N 1 3.26 0.30 108.30 111.56 B B B O4' C1' N1 DT DT DT 8 8 8 N 1 3.01 0.30 108.30 111.31 B B B O4' C1' N9 DA DA DA 9 9 9 N 1 3.94 0.50 113.80 117.74 B B B N7 C8 N9 DA DA DA 9 9 9 N 1 2.82 0.30 108.30 111.12 B B B O4' C1' N9 DA DA DA 10 10 10 N 1 4.12 0.50 113.80 117.92 B B B N7 C8 N9 DA DA DA 10 10 10 N 1 3.83 0.30 108.30 112.13 B B B O4' C1' N9 DG DG DG 11 11 11 N 1 4.84 0.50 113.10 117.94 B B B N7 C8 N9 DG DG DG 11 11 11 N 1 -2.44 0.40 106.40 103.96 B B B C8 N9 C4 DG DG DG 11 11 11 N 1 2.20 0.30 108.30 110.50 B B B O4' C1' N9 DG DG DG 12 12 12 N 1 4.66 0.50 113.10 117.76 B B B N7 C8 N9 DG DG DG 12 12 12 N 1 -2.88 0.40 106.40 103.52 B B B C8 N9 C4 DG DG DG 12 12 12 N 2 3.46 0.30 108.30 111.76 A A A O4' C1' N9 DA DA DA 1 1 1 N 2 4.11 0.50 113.80 117.91 A A A N7 C8 N9 DA DA DA 1 1 1 N 2 3.11 0.30 108.30 111.41 A A A O4' C1' N9 DA DA DA 2 2 2 N 2 3.64 0.50 113.80 117.44 A A A N7 C8 N9 DA DA DA 2 2 2 N 2 3.15 0.30 108.30 111.45 A A A O4' C1' N9 DG DG DG 3 3 3 N 2 4.72 0.50 113.10 117.82 A A A N7 C8 N9 DG DG DG 3 3 3 N 2 -2.68 0.40 106.40 103.72 A A A C8 N9 C4 DG DG DG 3 3 3 N 2 3.23 0.30 108.30 111.53 A A A O4' C1' N9 DG DG DG 4 4 4 N 2 4.62 0.50 113.10 117.72 A A A N7 C8 N9 DG DG DG 4 4 4 N 2 -2.45 0.40 106.40 103.95 A A A C8 N9 C4 DG DG DG 4 4 4 N 2 5.86 0.30 108.30 114.16 A A A O4' C1' N1 DT DT DT 5 5 5 N 2 2.38 0.30 108.30 110.68 A A A O4' C1' N1 DT DT DT 6 6 6 N 2 3.66 0.30 108.30 111.96 A A A O4' C1' N1 DT DT DT 7 7 7 N 2 3.24 0.30 108.30 111.54 A A A O4' C1' N1 DT DT DT 8 8 8 N 2 3.23 0.30 108.30 111.53 A A A O4' C1' N9 DA DA DA 9 9 9 N 2 4.13 0.50 113.80 117.93 A A A N7 C8 N9 DA DA DA 9 9 9 N 2 2.83 0.30 108.30 111.13 A A A O4' C1' N9 DA DA DA 10 10 10 N 2 4.13 0.50 113.80 117.93 A A A N7 C8 N9 DA DA DA 10 10 10 N 2 3.09 0.30 108.30 111.39 A A A O4' C1' N9 DG DG DG 11 11 11 N 2 4.94 0.50 113.10 118.04 A A A N7 C8 N9 DG DG DG 11 11 11 N 2 -2.41 0.40 106.40 103.99 A A A C8 N9 C4 DG DG DG 11 11 11 N 2 2.46 0.30 108.30 110.76 A A A O4' C1' N9 DG DG DG 12 12 12 N 2 4.61 0.50 113.10 117.71 A A A N7 C8 N9 DG DG DG 12 12 12 N 2 -2.74 0.40 106.40 103.66 A A A C8 N9 C4 DG DG DG 12 12 12 N 2 3.42 0.30 108.30 111.72 B B B O4' C1' N9 DA DA DA 1 1 1 N 2 4.12 0.50 113.80 117.92 B B B N7 C8 N9 DA DA DA 1 1 1 N 2 3.14 0.30 108.30 111.44 B B B O4' C1' N9 DA DA DA 2 2 2 N 2 3.58 0.50 113.80 117.38 B B B N7 C8 N9 DA DA DA 2 2 2 N 2 3.07 0.30 108.30 111.37 B B B O4' C1' N9 DG DG DG 3 3 3 N 2 4.75 0.50 113.10 117.85 B B B N7 C8 N9 DG DG DG 3 3 3 N 2 -2.68 0.40 106.40 103.72 B B B C8 N9 C4 DG DG DG 3 3 3 N 2 3.22 0.30 108.30 111.52 B B B O4' C1' N9 DG DG DG 4 4 4 N 2 4.59 0.50 113.10 117.69 B B B N7 C8 N9 DG DG DG 4 4 4 N 2 -2.46 0.40 106.40 103.94 B B B C8 N9 C4 DG DG DG 4 4 4 N 2 5.87 0.30 108.30 114.17 B B B O4' C1' N1 DT DT DT 5 5 5 N 2 2.41 0.30 108.30 110.71 B B B O4' C1' N1 DT DT DT 6 6 6 N 2 3.66 0.30 108.30 111.96 B B B O4' C1' N1 DT DT DT 7 7 7 N 2 3.15 0.30 108.30 111.45 B B B O4' C1' N1 DT DT DT 8 8 8 N 2 3.22 0.30 108.30 111.52 B B B O4' C1' N9 DA DA DA 9 9 9 N 2 4.13 0.50 113.80 117.93 B B B N7 C8 N9 DA DA DA 9 9 9 N 2 2.85 0.30 108.30 111.15 B B B O4' C1' N9 DA DA DA 10 10 10 N 2 4.13 0.50 113.80 117.93 B B B N7 C8 N9 DA DA DA 10 10 10 N 2 2.98 0.30 108.30 111.28 B B B O4' C1' N9 DG DG DG 11 11 11 N 2 4.90 0.50 113.10 118.00 B B B N7 C8 N9 DG DG DG 11 11 11 N 2 2.44 0.30 108.30 110.74 B B B O4' C1' N9 DG DG DG 12 12 12 N 2 4.58 0.50 113.10 117.68 B B B N7 C8 N9 DG DG DG 12 12 12 N 2 -2.80 0.40 106.40 103.60 B B B C8 N9 C4 DG DG DG 12 12 12 N 3 3.56 0.30 108.30 111.86 A A A O4' C1' N9 DA DA DA 1 1 1 N 3 4.06 0.50 113.80 117.86 A A A N7 C8 N9 DA DA DA 1 1 1 N 3 2.81 0.30 108.30 111.11 A A A O4' C1' N9 DA DA DA 2 2 2 N 3 3.69 0.50 113.80 117.49 A A A N7 C8 N9 DA DA DA 2 2 2 N 3 3.01 0.30 108.30 111.31 A A A O4' C1' N9 DG DG DG 3 3 3 N 3 4.73 0.50 113.10 117.83 A A A N7 C8 N9 DG DG DG 3 3 3 N 3 -2.56 0.40 106.40 103.84 A A A C8 N9 C4 DG DG DG 3 3 3 N 3 3.13 0.30 108.30 111.43 A A A O4' C1' N9 DG DG DG 4 4 4 N 3 4.73 0.50 113.10 117.83 A A A N7 C8 N9 DG DG DG 4 4 4 N 3 -2.60 0.40 106.40 103.80 A A A C8 N9 C4 DG DG DG 4 4 4 N 3 3.44 0.30 108.30 111.74 A A A O4' C1' N1 DT DT DT 5 5 5 N 3 2.65 0.30 108.30 110.95 A A A O4' C1' N1 DT DT DT 6 6 6 N 3 2.58 0.30 108.30 110.88 A A A O4' C1' N1 DT DT DT 7 7 7 N 3 3.32 0.30 108.30 111.62 A A A O4' C1' N1 DT DT DT 8 8 8 N 3 2.75 0.30 108.30 111.05 A A A O4' C1' N9 DA DA DA 9 9 9 N 3 3.98 0.50 113.80 117.78 A A A N7 C8 N9 DA DA DA 9 9 9 N 3 2.07 0.30 108.30 110.37 A A A O4' C1' N9 DA DA DA 10 10 10 N 3 4.24 0.50 113.80 118.04 A A A N7 C8 N9 DA DA DA 10 10 10 N 3 3.35 0.30 108.30 111.65 A A A O4' C1' N9 DG DG DG 11 11 11 N 3 5.03 0.50 113.10 118.13 A A A N7 C8 N9 DG DG DG 11 11 11 N 3 -2.69 0.40 106.40 103.71 A A A C8 N9 C4 DG DG DG 11 11 11 N 3 3.03 0.30 108.30 111.33 A A A O4' C1' N9 DG DG DG 12 12 12 N 3 4.66 0.50 113.10 117.76 A A A N7 C8 N9 DG DG DG 12 12 12 N 3 -2.80 0.40 106.40 103.60 A A A C8 N9 C4 DG DG DG 12 12 12 N 3 3.53 0.30 108.30 111.83 B B B O4' C1' N9 DA DA DA 1 1 1 N 3 4.04 0.50 113.80 117.84 B B B N7 C8 N9 DA DA DA 1 1 1 N 3 2.78 0.30 108.30 111.08 B B B O4' C1' N9 DA DA DA 2 2 2 N 3 3.70 0.50 113.80 117.50 B B B N7 C8 N9 DA DA DA 2 2 2 N 3 3.02 0.30 108.30 111.32 B B B O4' C1' N9 DG DG DG 3 3 3 N 3 4.72 0.50 113.10 117.82 B B B N7 C8 N9 DG DG DG 3 3 3 N 3 -2.55 0.40 106.40 103.85 B B B C8 N9 C4 DG DG DG 3 3 3 N 3 3.17 0.30 108.30 111.47 B B B O4' C1' N9 DG DG DG 4 4 4 N 3 4.75 0.50 113.10 117.85 B B B N7 C8 N9 DG DG DG 4 4 4 N 3 -2.64 0.40 106.40 103.76 B B B C8 N9 C4 DG DG DG 4 4 4 N 3 3.51 0.30 108.30 111.81 B B B O4' C1' N1 DT DT DT 5 5 5 N 3 2.64 0.30 108.30 110.94 B B B O4' C1' N1 DT DT DT 6 6 6 N 3 2.59 0.30 108.30 110.89 B B B O4' C1' N1 DT DT DT 7 7 7 N 3 3.30 0.30 108.30 111.60 B B B O4' C1' N1 DT DT DT 8 8 8 N 3 2.76 0.30 108.30 111.06 B B B O4' C1' N9 DA DA DA 9 9 9 N 3 3.97 0.50 113.80 117.77 B B B N7 C8 N9 DA DA DA 9 9 9 N 3 1.96 0.30 108.30 110.26 B B B O4' C1' N9 DA DA DA 10 10 10 N 3 4.28 0.50 113.80 118.08 B B B N7 C8 N9 DA DA DA 10 10 10 N 3 3.42 0.30 108.30 111.72 B B B O4' C1' N9 DG DG DG 11 11 11 N 3 5.03 0.50 113.10 118.13 B B B N7 C8 N9 DG DG DG 11 11 11 N 3 -2.59 0.40 106.40 103.81 B B B C8 N9 C4 DG DG DG 11 11 11 N 3 3.11 0.30 108.30 111.41 B B B O4' C1' N9 DG DG DG 12 12 12 N 3 4.49 0.50 113.10 117.59 B B B N7 C8 N9 DG DG DG 12 12 12 N 3 -2.72 0.40 106.40 103.68 B B B C8 N9 C4 DG DG DG 12 12 12 N 4 3.16 0.30 108.30 111.46 A A A O4' C1' N9 DA DA DA 1 1 1 N 4 4.14 0.50 113.80 117.94 A A A N7 C8 N9 DA DA DA 1 1 1 N 4 2.75 0.30 108.30 111.05 A A A O4' C1' N9 DA DA DA 2 2 2 N 4 3.61 0.50 113.80 117.41 A A A N7 C8 N9 DA DA DA 2 2 2 N 4 2.25 0.30 108.30 110.55 A A A O4' C1' N9 DG DG DG 3 3 3 N 4 4.70 0.50 113.10 117.80 A A A N7 C8 N9 DG DG DG 3 3 3 N 4 -2.57 0.40 106.40 103.83 A A A C8 N9 C4 DG DG DG 3 3 3 N 4 3.14 0.30 108.30 111.44 A A A O4' C1' N9 DG DG DG 4 4 4 N 4 4.68 0.50 113.10 117.78 A A A N7 C8 N9 DG DG DG 4 4 4 N 4 -2.53 0.40 106.40 103.87 A A A C8 N9 C4 DG DG DG 4 4 4 N 4 3.25 0.30 108.30 111.55 A A A O4' C1' N1 DT DT DT 5 5 5 N 4 2.93 0.30 108.30 111.23 A A A O4' C1' N1 DT DT DT 6 6 6 N 4 3.30 0.30 108.30 111.60 A A A O4' C1' N1 DT DT DT 7 7 7 N 4 3.39 0.30 108.30 111.69 A A A O4' C1' N1 DT DT DT 8 8 8 N 4 3.15 0.30 108.30 111.45 A A A O4' C1' N9 DA DA DA 9 9 9 N 4 4.01 0.50 113.80 117.81 A A A N7 C8 N9 DA DA DA 9 9 9 N 4 2.30 0.30 108.30 110.60 A A A O4' C1' N9 DA DA DA 10 10 10 N 4 4.21 0.50 113.80 118.01 A A A N7 C8 N9 DA DA DA 10 10 10 N 4 3.09 0.30 108.30 111.39 A A A O4' C1' N9 DG DG DG 11 11 11 N 4 5.03 0.50 113.10 118.13 A A A N7 C8 N9 DG DG DG 11 11 11 N 4 -2.52 0.40 106.40 103.88 A A A C8 N9 C4 DG DG DG 11 11 11 N 4 2.86 0.30 108.30 111.16 A A A O4' C1' N9 DG DG DG 12 12 12 N 4 4.47 0.50 113.10 117.57 A A A N7 C8 N9 DG DG DG 12 12 12 N 4 -2.67 0.40 106.40 103.73 A A A C8 N9 C4 DG DG DG 12 12 12 N 4 3.18 0.30 108.30 111.48 B B B O4' C1' N9 DA DA DA 1 1 1 N 4 4.06 0.50 113.80 117.86 B B B N7 C8 N9 DA DA DA 1 1 1 N 4 2.72 0.30 108.30 111.02 B B B O4' C1' N9 DA DA DA 2 2 2 N 4 3.60 0.50 113.80 117.40 B B B N7 C8 N9 DA DA DA 2 2 2 N 4 -2.41 0.40 105.80 103.39 B B B C8 N9 C4 DA DA DA 2 2 2 N 4 2.27 0.30 108.30 110.57 B B B O4' C1' N9 DG DG DG 3 3 3 N 4 4.62 0.50 113.10 117.72 B B B N7 C8 N9 DG DG DG 3 3 3 N 4 -2.48 0.40 106.40 103.92 B B B C8 N9 C4 DG DG DG 3 3 3 N 4 3.07 0.30 108.30 111.37 B B B O4' C1' N9 DG DG DG 4 4 4 N 4 4.64 0.50 113.10 117.74 B B B N7 C8 N9 DG DG DG 4 4 4 N 4 -2.50 0.40 106.40 103.90 B B B C8 N9 C4 DG DG DG 4 4 4 N 4 3.29 0.30 108.30 111.59 B B B O4' C1' N1 DT DT DT 5 5 5 N 4 2.79 0.30 108.30 111.09 B B B O4' C1' N1 DT DT DT 6 6 6 N 4 3.23 0.30 108.30 111.53 B B B O4' C1' N1 DT DT DT 7 7 7 N 4 3.44 0.30 108.30 111.74 B B B O4' C1' N1 DT DT DT 8 8 8 N 4 3.16 0.30 108.30 111.46 B B B O4' C1' N9 DA DA DA 9 9 9 N 4 3.99 0.50 113.80 117.79 B B B N7 C8 N9 DA DA DA 9 9 9 N 4 2.28 0.30 108.30 110.58 B B B O4' C1' N9 DA DA DA 10 10 10 N 4 4.18 0.50 113.80 117.98 B B B N7 C8 N9 DA DA DA 10 10 10 N 4 3.09 0.30 108.30 111.39 B B B O4' C1' N9 DG DG DG 11 11 11 N 4 4.96 0.50 113.10 118.06 B B B N7 C8 N9 DG DG DG 11 11 11 N 4 -2.48 0.40 106.40 103.92 B B B C8 N9 C4 DG DG DG 11 11 11 N 4 2.83 0.30 108.30 111.13 B B B O4' C1' N9 DG DG DG 12 12 12 N 4 4.49 0.50 113.10 117.59 B B B N7 C8 N9 DG DG DG 12 12 12 N 4 -2.74 0.40 106.40 103.66 B B B C8 N9 C4 DG DG DG 12 12 12 N 5 3.27 0.30 108.30 111.57 A A A O4' C1' N9 DA DA DA 1 1 1 N 5 4.14 0.50 113.80 117.94 A A A N7 C8 N9 DA DA DA 1 1 1 N 5 3.00 0.30 108.30 111.30 A A A O4' C1' N9 DA DA DA 2 2 2 N 5 3.67 0.50 113.80 117.47 A A A N7 C8 N9 DA DA DA 2 2 2 N 5 3.02 0.30 108.30 111.32 A A A O4' C1' N9 DG DG DG 3 3 3 N 5 4.60 0.50 113.10 117.70 A A A N7 C8 N9 DG DG DG 3 3 3 N 5 -2.63 0.40 106.40 103.77 A A A C8 N9 C4 DG DG DG 3 3 3 N 5 2.92 0.30 108.30 111.22 A A A O4' C1' N9 DG DG DG 4 4 4 N 5 4.68 0.50 113.10 117.78 A A A N7 C8 N9 DG DG DG 4 4 4 N 5 -2.60 0.40 106.40 103.80 A A A C8 N9 C4 DG DG DG 4 4 4 N 5 4.64 0.30 108.30 112.94 A A A O4' C1' N1 DT DT DT 5 5 5 N 5 2.99 0.30 108.30 111.29 A A A O4' C1' N1 DT DT DT 6 6 6 N 5 3.63 0.30 108.30 111.93 A A A O4' C1' N1 DT DT DT 7 7 7 N 5 2.89 0.30 108.30 111.19 A A A O4' C1' N1 DT DT DT 8 8 8 N 5 -3.65 0.60 122.90 119.25 A A A C6 C5 C7 DT DT DT 8 8 8 N 5 2.30 0.30 108.30 110.60 A A A O4' C1' N9 DA DA DA 9 9 9 N 5 3.95 0.50 113.80 117.75 A A A N7 C8 N9 DA DA DA 9 9 9 N 5 2.68 0.30 108.30 110.98 A A A O4' C1' N9 DA DA DA 10 10 10 N 5 4.08 0.50 113.80 117.88 A A A N7 C8 N9 DA DA DA 10 10 10 N 5 4.96 0.30 108.30 113.26 A A A O4' C1' N9 DG DG DG 11 11 11 N 5 4.97 0.50 113.10 118.07 A A A N7 C8 N9 DG DG DG 11 11 11 N 5 -2.44 0.40 106.40 103.96 A A A C8 N9 C4 DG DG DG 11 11 11 N 5 2.18 0.30 108.30 110.48 A A A O4' C1' N9 DG DG DG 12 12 12 N 5 4.41 0.50 113.10 117.51 A A A N7 C8 N9 DG DG DG 12 12 12 N 5 -3.03 0.40 106.40 103.37 A A A C8 N9 C4 DG DG DG 12 12 12 N 5 3.31 0.30 108.30 111.61 B B B O4' C1' N9 DA DA DA 1 1 1 N 5 4.17 0.50 113.80 117.97 B B B N7 C8 N9 DA DA DA 1 1 1 N 5 3.05 0.30 108.30 111.35 B B B O4' C1' N9 DA DA DA 2 2 2 N 5 3.71 0.50 113.80 117.51 B B B N7 C8 N9 DA DA DA 2 2 2 N 5 2.94 0.30 108.30 111.24 B B B O4' C1' N9 DG DG DG 3 3 3 N 5 4.59 0.50 113.10 117.69 B B B N7 C8 N9 DG DG DG 3 3 3 N 5 -2.65 0.40 106.40 103.75 B B B C8 N9 C4 DG DG DG 3 3 3 N 5 2.91 0.30 108.30 111.21 B B B O4' C1' N9 DG DG DG 4 4 4 N 5 4.63 0.50 113.10 117.73 B B B N7 C8 N9 DG DG DG 4 4 4 N 5 -2.55 0.40 106.40 103.85 B B B C8 N9 C4 DG DG DG 4 4 4 N 5 4.64 0.30 108.30 112.94 B B B O4' C1' N1 DT DT DT 5 5 5 N 5 2.97 0.30 108.30 111.27 B B B O4' C1' N1 DT DT DT 6 6 6 N 5 3.61 0.30 108.30 111.91 B B B O4' C1' N1 DT DT DT 7 7 7 N 5 2.87 0.30 108.30 111.17 B B B O4' C1' N1 DT DT DT 8 8 8 N 5 -3.65 0.60 122.90 119.25 B B B C6 C5 C7 DT DT DT 8 8 8 N 5 2.27 0.30 108.30 110.57 B B B O4' C1' N9 DA DA DA 9 9 9 N 5 3.99 0.50 113.80 117.79 B B B N7 C8 N9 DA DA DA 9 9 9 N 5 2.67 0.30 108.30 110.97 B B B O4' C1' N9 DA DA DA 10 10 10 N 5 4.20 0.50 113.80 118.00 B B B N7 C8 N9 DA DA DA 10 10 10 N 5 4.94 0.30 108.30 113.24 B B B O4' C1' N9 DG DG DG 11 11 11 N 5 5.02 0.50 113.10 118.12 B B B N7 C8 N9 DG DG DG 11 11 11 N 5 -2.40 0.40 106.40 104.00 B B B C8 N9 C4 DG DG DG 11 11 11 N 5 2.15 0.30 108.30 110.45 B B B O4' C1' N9 DG DG DG 12 12 12 N 5 4.44 0.50 113.10 117.54 B B B N7 C8 N9 DG DG DG 12 12 12 N 5 -3.11 0.40 106.40 103.29 B B B C8 N9 C4 DG DG DG 12 12 12 N 6 3.12 0.30 108.30 111.42 A A A O4' C1' N9 DA DA DA 1 1 1 N 6 4.03 0.50 113.80 117.83 A A A N7 C8 N9 DA DA DA 1 1 1 N 6 2.90 0.30 108.30 111.20 A A A O4' C1' N9 DA DA DA 2 2 2 N 6 3.68 0.50 113.80 117.48 A A A N7 C8 N9 DA DA DA 2 2 2 N 6 3.29 0.30 108.30 111.59 A A A O4' C1' N9 DG DG DG 3 3 3 N 6 4.69 0.50 113.10 117.79 A A A N7 C8 N9 DG DG DG 3 3 3 N 6 -2.51 0.40 106.40 103.89 A A A C8 N9 C4 DG DG DG 3 3 3 N 6 2.61 0.30 108.30 110.91 A A A O4' C1' N9 DG DG DG 4 4 4 N 6 4.56 0.50 113.10 117.66 A A A N7 C8 N9 DG DG DG 4 4 4 N 6 -2.55 0.40 106.40 103.85 A A A C8 N9 C4 DG DG DG 4 4 4 N 6 2.89 0.30 108.30 111.19 A A A O4' C1' N1 DT DT DT 5 5 5 N 6 3.60 0.30 108.30 111.90 A A A O4' C1' N1 DT DT DT 6 6 6 N 6 2.64 0.30 108.30 110.94 A A A O4' C1' N1 DT DT DT 7 7 7 N 6 3.03 0.30 108.30 111.33 A A A O4' C1' N1 DT DT DT 8 8 8 N 6 -3.65 0.60 122.90 119.25 A A A C6 C5 C7 DT DT DT 8 8 8 N 6 2.63 0.30 108.30 110.93 A A A O4' C1' N9 DA DA DA 9 9 9 N 6 4.24 0.50 113.80 118.04 A A A N7 C8 N9 DA DA DA 9 9 9 N 6 4.31 0.50 113.80 118.11 A A A N7 C8 N9 DA DA DA 10 10 10 N 6 3.35 0.30 108.30 111.65 A A A O4' C1' N9 DG DG DG 11 11 11 N 6 4.97 0.50 113.10 118.07 A A A N7 C8 N9 DG DG DG 11 11 11 N 6 -2.53 0.40 106.40 103.87 A A A C8 N9 C4 DG DG DG 11 11 11 N 6 3.12 0.30 108.30 111.42 A A A O4' C1' N9 DG DG DG 12 12 12 N 6 4.55 0.50 113.10 117.65 A A A N7 C8 N9 DG DG DG 12 12 12 N 6 -2.76 0.40 106.40 103.64 A A A C8 N9 C4 DG DG DG 12 12 12 N 6 3.10 0.30 108.30 111.40 B B B O4' C1' N9 DA DA DA 1 1 1 N 6 4.02 0.50 113.80 117.82 B B B N7 C8 N9 DA DA DA 1 1 1 N 6 2.84 0.30 108.30 111.14 B B B O4' C1' N9 DA DA DA 2 2 2 N 6 3.74 0.50 113.80 117.54 B B B N7 C8 N9 DA DA DA 2 2 2 N 6 3.28 0.30 108.30 111.58 B B B O4' C1' N9 DG DG DG 3 3 3 N 6 4.64 0.50 113.10 117.74 B B B N7 C8 N9 DG DG DG 3 3 3 N 6 -2.52 0.40 106.40 103.88 B B B C8 N9 C4 DG DG DG 3 3 3 N 6 2.65 0.30 108.30 110.95 B B B O4' C1' N9 DG DG DG 4 4 4 N 6 4.61 0.50 113.10 117.71 B B B N7 C8 N9 DG DG DG 4 4 4 N 6 -2.52 0.40 106.40 103.88 B B B C8 N9 C4 DG DG DG 4 4 4 N 6 2.86 0.30 108.30 111.16 B B B O4' C1' N1 DT DT DT 5 5 5 N 6 3.63 0.30 108.30 111.93 B B B O4' C1' N1 DT DT DT 6 6 6 N 6 2.62 0.30 108.30 110.92 B B B O4' C1' N1 DT DT DT 7 7 7 N 6 3.02 0.30 108.30 111.32 B B B O4' C1' N1 DT DT DT 8 8 8 N 6 -3.68 0.60 122.90 119.22 B B B C6 C5 C7 DT DT DT 8 8 8 N 6 2.66 0.30 108.30 110.96 B B B O4' C1' N9 DA DA DA 9 9 9 N 6 4.27 0.50 113.80 118.07 B B B N7 C8 N9 DA DA DA 9 9 9 N 6 4.29 0.50 113.80 118.09 B B B N7 C8 N9 DA DA DA 10 10 10 N 6 3.31 0.30 108.30 111.61 B B B O4' C1' N9 DG DG DG 11 11 11 N 6 4.96 0.50 113.10 118.06 B B B N7 C8 N9 DG DG DG 11 11 11 N 6 -2.51 0.40 106.40 103.89 B B B C8 N9 C4 DG DG DG 11 11 11 N 6 3.18 0.30 108.30 111.48 B B B O4' C1' N9 DG DG DG 12 12 12 N 6 4.51 0.50 113.10 117.61 B B B N7 C8 N9 DG DG DG 12 12 12 N 6 -2.74 0.40 106.40 103.66 B B B C8 N9 C4 DG DG DG 12 12 12 N 7 3.46 0.30 108.30 111.76 A A A O4' C1' N9 DA DA DA 1 1 1 N 7 4.05 0.50 113.80 117.85 A A A N7 C8 N9 DA DA DA 1 1 1 N 7 3.78 0.30 108.30 112.08 A A A O4' C1' N9 DA DA DA 2 2 2 N 7 3.64 0.50 113.80 117.44 A A A N7 C8 N9 DA DA DA 2 2 2 N 7 2.63 0.30 108.30 110.93 A A A O4' C1' N9 DG DG DG 3 3 3 N 7 4.76 0.50 113.10 117.86 A A A N7 C8 N9 DG DG DG 3 3 3 N 7 -2.61 0.40 106.40 103.79 A A A C8 N9 C4 DG DG DG 3 3 3 N 7 3.44 0.30 108.30 111.74 A A A O4' C1' N9 DG DG DG 4 4 4 N 7 4.55 0.50 113.10 117.65 A A A N7 C8 N9 DG DG DG 4 4 4 N 7 -2.50 0.40 106.40 103.90 A A A C8 N9 C4 DG DG DG 4 4 4 N 7 4.14 0.30 108.30 112.44 A A A O4' C1' N1 DT DT DT 5 5 5 N 7 2.05 0.30 108.30 110.35 A A A O4' C1' N1 DT DT DT 6 6 6 N 7 3.75 0.30 108.30 112.05 A A A O4' C1' N1 DT DT DT 7 7 7 N 7 3.59 0.30 108.30 111.89 A A A O4' C1' N1 DT DT DT 8 8 8 N 7 3.31 0.30 108.30 111.61 A A A O4' C1' N9 DA DA DA 9 9 9 N 7 4.04 0.50 113.80 117.84 A A A N7 C8 N9 DA DA DA 9 9 9 N 7 2.11 0.30 108.30 110.41 A A A O4' C1' N9 DA DA DA 10 10 10 N 7 3.95 0.50 113.80 117.75 A A A N7 C8 N9 DA DA DA 10 10 10 N 7 2.87 0.30 108.30 111.17 A A A O4' C1' N9 DG DG DG 11 11 11 N 7 5.23 0.50 113.10 118.33 A A A N7 C8 N9 DG DG DG 11 11 11 N 7 -2.59 0.40 106.40 103.81 A A A C8 N9 C4 DG DG DG 11 11 11 N 7 3.06 0.30 108.30 111.36 A A A O4' C1' N9 DG DG DG 12 12 12 N 7 4.54 0.50 113.10 117.64 A A A N7 C8 N9 DG DG DG 12 12 12 N 7 -2.92 0.40 106.40 103.48 A A A C8 N9 C4 DG DG DG 12 12 12 N 7 3.55 0.30 108.30 111.85 B B B O4' C1' N9 DA DA DA 1 1 1 N 7 3.99 0.50 113.80 117.79 B B B N7 C8 N9 DA DA DA 1 1 1 N 7 3.78 0.30 108.30 112.08 B B B O4' C1' N9 DA DA DA 2 2 2 N 7 3.72 0.50 113.80 117.52 B B B N7 C8 N9 DA DA DA 2 2 2 N 7 2.60 0.30 108.30 110.90 B B B O4' C1' N9 DG DG DG 3 3 3 N 7 4.77 0.50 113.10 117.87 B B B N7 C8 N9 DG DG DG 3 3 3 N 7 -2.61 0.40 106.40 103.79 B B B C8 N9 C4 DG DG DG 3 3 3 N 7 3.42 0.30 108.30 111.72 B B B O4' C1' N9 DG DG DG 4 4 4 N 7 4.59 0.50 113.10 117.69 B B B N7 C8 N9 DG DG DG 4 4 4 N 7 -2.59 0.40 106.40 103.81 B B B C8 N9 C4 DG DG DG 4 4 4 N 7 4.03 0.30 108.30 112.33 B B B O4' C1' N1 DT DT DT 5 5 5 N 7 2.01 0.30 108.30 110.31 B B B O4' C1' N1 DT DT DT 6 6 6 N 7 3.70 0.30 108.30 112.00 B B B O4' C1' N1 DT DT DT 7 7 7 N 7 3.57 0.30 108.30 111.87 B B B O4' C1' N1 DT DT DT 8 8 8 N 7 3.30 0.30 108.30 111.60 B B B O4' C1' N9 DA DA DA 9 9 9 N 7 4.01 0.50 113.80 117.81 B B B N7 C8 N9 DA DA DA 9 9 9 N 7 2.14 0.30 108.30 110.44 B B B O4' C1' N9 DA DA DA 10 10 10 N 7 4.03 0.50 113.80 117.83 B B B N7 C8 N9 DA DA DA 10 10 10 N 7 2.92 0.30 108.30 111.22 B B B O4' C1' N9 DG DG DG 11 11 11 N 7 5.26 0.50 113.10 118.36 B B B N7 C8 N9 DG DG DG 11 11 11 N 7 -2.54 0.40 106.40 103.86 B B B C8 N9 C4 DG DG DG 11 11 11 N 7 3.01 0.30 108.30 111.31 B B B O4' C1' N9 DG DG DG 12 12 12 N 7 4.48 0.50 113.10 117.58 B B B N7 C8 N9 DG DG DG 12 12 12 N 7 -2.78 0.40 106.40 103.62 B B B C8 N9 C4 DG DG DG 12 12 12 N 8 3.33 0.30 108.30 111.63 A A A O4' C1' N9 DA DA DA 1 1 1 N 8 4.02 0.50 113.80 117.82 A A A N7 C8 N9 DA DA DA 1 1 1 N 8 3.00 0.30 108.30 111.30 A A A O4' C1' N9 DA DA DA 2 2 2 N 8 3.76 0.50 113.80 117.56 A A A N7 C8 N9 DA DA DA 2 2 2 N 8 2.56 0.30 108.30 110.86 A A A O4' C1' N9 DG DG DG 3 3 3 N 8 4.57 0.50 113.10 117.67 A A A N7 C8 N9 DG DG DG 3 3 3 N 8 -2.52 0.40 106.40 103.88 A A A C8 N9 C4 DG DG DG 3 3 3 N 8 2.99 0.30 108.30 111.29 A A A O4' C1' N9 DG DG DG 4 4 4 N 8 4.86 0.50 113.10 117.96 A A A N7 C8 N9 DG DG DG 4 4 4 N 8 -2.64 0.40 106.40 103.76 A A A C8 N9 C4 DG DG DG 4 4 4 N 8 3.33 0.30 108.30 111.63 A A A O4' C1' N1 DT DT DT 5 5 5 N 8 3.62 0.30 108.30 111.92 A A A O4' C1' N1 DT DT DT 6 6 6 N 8 2.68 0.30 108.30 110.98 A A A O4' C1' N1 DT DT DT 7 7 7 N 8 3.20 0.30 108.30 111.50 A A A O4' C1' N1 DT DT DT 8 8 8 N 8 -3.62 0.60 122.90 119.28 A A A C6 C5 C7 DT DT DT 8 8 8 N 8 1.99 0.30 108.30 110.29 A A A O4' C1' N9 DA DA DA 9 9 9 N 8 4.14 0.50 113.80 117.94 A A A N7 C8 N9 DA DA DA 9 9 9 N 8 2.47 0.30 108.30 110.77 A A A O4' C1' N9 DA DA DA 10 10 10 N 8 4.20 0.50 113.80 118.00 A A A N7 C8 N9 DA DA DA 10 10 10 N 8 3.05 0.30 108.30 111.35 A A A O4' C1' N9 DG DG DG 11 11 11 N 8 4.88 0.50 113.10 117.98 A A A N7 C8 N9 DG DG DG 11 11 11 N 8 2.92 0.30 108.30 111.22 A A A O4' C1' N9 DG DG DG 12 12 12 N 8 4.72 0.50 113.10 117.82 A A A N7 C8 N9 DG DG DG 12 12 12 N 8 -2.93 0.40 106.40 103.47 A A A C8 N9 C4 DG DG DG 12 12 12 N 8 3.29 0.30 108.30 111.59 B B B O4' C1' N9 DA DA DA 1 1 1 N 8 4.10 0.50 113.80 117.90 B B B N7 C8 N9 DA DA DA 1 1 1 N 8 3.00 0.30 108.30 111.30 B B B O4' C1' N9 DA DA DA 2 2 2 N 8 3.73 0.50 113.80 117.53 B B B N7 C8 N9 DA DA DA 2 2 2 N 8 2.64 0.30 108.30 110.94 B B B O4' C1' N9 DG DG DG 3 3 3 N 8 4.62 0.50 113.10 117.72 B B B N7 C8 N9 DG DG DG 3 3 3 N 8 -2.51 0.40 106.40 103.89 B B B C8 N9 C4 DG DG DG 3 3 3 N 8 3.01 0.30 108.30 111.31 B B B O4' C1' N9 DG DG DG 4 4 4 N 8 4.81 0.50 113.10 117.91 B B B N7 C8 N9 DG DG DG 4 4 4 N 8 -2.61 0.40 106.40 103.79 B B B C8 N9 C4 DG DG DG 4 4 4 N 8 3.25 0.30 108.30 111.55 B B B O4' C1' N1 DT DT DT 5 5 5 N 8 3.64 0.30 108.30 111.94 B B B O4' C1' N1 DT DT DT 6 6 6 N 8 2.67 0.30 108.30 110.97 B B B O4' C1' N1 DT DT DT 7 7 7 N 8 3.23 0.30 108.30 111.53 B B B O4' C1' N1 DT DT DT 8 8 8 N 8 -3.66 0.60 122.90 119.24 B B B C6 C5 C7 DT DT DT 8 8 8 N 8 1.91 0.30 108.30 110.21 B B B O4' C1' N9 DA DA DA 9 9 9 N 8 4.10 0.50 113.80 117.90 B B B N7 C8 N9 DA DA DA 9 9 9 N 8 2.47 0.30 108.30 110.77 B B B O4' C1' N9 DA DA DA 10 10 10 N 8 4.19 0.50 113.80 117.99 B B B N7 C8 N9 DA DA DA 10 10 10 N 8 3.09 0.30 108.30 111.39 B B B O4' C1' N9 DG DG DG 11 11 11 N 8 4.85 0.50 113.10 117.95 B B B N7 C8 N9 DG DG DG 11 11 11 N 8 2.90 0.30 108.30 111.20 B B B O4' C1' N9 DG DG DG 12 12 12 N 8 4.68 0.50 113.10 117.78 B B B N7 C8 N9 DG DG DG 12 12 12 N 8 -2.94 0.40 106.40 103.46 B B B C8 N9 C4 DG DG DG 12 12 12 N 1 A A C5' C4' DA DA 10 10 0.045 0.007 1.512 1.557 N 1 B B C5' C4' DA DA 10 10 0.045 0.007 1.512 1.557 N 2 A A C5' C4' DA DA 10 10 0.048 0.007 1.512 1.560 N 2 B B C5' C4' DA DA 10 10 0.048 0.007 1.512 1.560 N 3 A A C5' C4' DA DA 10 10 0.042 0.007 1.512 1.554 N 4 A A C5' C4' DA DA 10 10 0.045 0.007 1.512 1.557 N 4 B B C5' C4' DA DA 10 10 0.046 0.007 1.512 1.558 N 5 A A C5' C4' DA DA 10 10 0.050 0.007 1.512 1.562 N 5 B B C5' C4' DA DA 10 10 0.050 0.007 1.512 1.562 N 6 A A C5' C4' DA DA 10 10 0.042 0.007 1.512 1.554 N 6 B B C5' C4' DA DA 10 10 0.042 0.007 1.512 1.554 N 8 A A C5' C4' DA DA 10 10 0.054 0.007 1.512 1.566 N 8 B B C5' C4' DA DA 10 10 0.054 0.007 1.512 1.566 N SOLUTION DNA STRUCTURE CONTAINING (A-A)-T TRIADS INTERDIGITATED BETWEEN A-T BASE PAIRS AND GGGG TETRADS; NMR, 8 STRUCT. 1 N N 1 N N hydrog REVERSED HOOGSTEEN A DA 2 A N6 DA 2 1_555 B DT 7 B O2 DT 7 1_555 hydrog REVERSED HOOGSTEEN A DA 2 A N7 DA 2 1_555 B DT 7 B N3 DT 7 1_555 hydrog TYPE_6_PAIR A DG 3 A N1 DG 3 1_555 B DG 4 B O6 DG 4 1_555 hydrog TYPE_6_PAIR A DG 3 A N2 DG 3 1_555 B DG 4 B N7 DG 4 1_555 hydrog TYPE_6_PAIR A DG 3 A N7 DG 3 1_555 B DG 11 B N2 DG 11 1_555 hydrog TYPE_6_PAIR A DG 3 A O6 DG 3 1_555 B DG 11 B N1 DG 11 1_555 hydrog TYPE_6_PAIR A DG 4 A N7 DG 4 1_555 B DG 3 B N2 DG 3 1_555 hydrog TYPE_6_PAIR A DG 4 A O6 DG 4 1_555 B DG 3 B N1 DG 3 1_555 hydrog REVERSED HOOGSTEEN A DT 5 A N3 DT 5 1_555 A DA 9 A N7 DA 9 1_555 hydrog REVERSED HOOGSTEEN A DT 5 A O2 DT 5 1_555 A DA 9 A N6 DA 9 1_555 hydrog DT-DA PAIR A DT 5 A O4 DT 5 1_555 A DA 10 A N6 DA 10 1_555 hydrog REVERSED HOOGSTEEN A DT 7 A N3 DT 7 1_555 B DA 2 B N7 DA 2 1_555 hydrog REVERSED HOOGSTEEN A DT 7 A O2 DT 7 1_555 B DA 2 B N6 DA 2 1_555 hydrog TYPE_6_PAIR A DG 11 A N1 DG 11 1_555 B DG 3 B O6 DG 3 1_555 hydrog TYPE_6_PAIR A DG 11 A N2 DG 11 1_555 B DG 3 B N7 DG 3 1_555 hydrog REVERSED HOOGSTEEN B DT 5 B N3 DT 5 1_555 B DA 9 B N7 DA 9 1_555 hydrog REVERSED HOOGSTEEN B DT 5 B O2 DT 5 1_555 B DA 9 B N6 DA 9 1_555 hydrog DT-DA PAIR B DT 5 B O4 DT 5 1_555 B DA 10 B N6 DA 10 1_555 DNA MULTI-STRANDED DNA ARCHITECTURE, G-TETRAD, T-(A-A) TRIAD, A(SYN)-A(ANTI) PLATFORM, ZIPPER MOTIF, BASE-SUGAR STACKING, DNA 1D6D PDB 1 1D6D 1 12 1D6D 1 12 1D6D A 1 1 12 1 12 1D6D 1 12 1D6D B 1 1 12 1 P 1