1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Galer, P. Wang, B. Sket, P. Plavec, J. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 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 GE Angew.Chem.Int.Ed.Engl. ACIEAY 0179 1521-3773 55 1993 1997 10.1002/anie.201507569 26836334 Reversible pH Switch of Two-Quartet G-Quadruplexes Formed by Human Telomere. 2016 6958.484 DNA (5'-D(*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*G)-3') 1 syn polymer no no (DT)(DA)(DG)(DG)(DG)(DT)(DT)(DA)(DG)(DG)(DG)(DT)(DT)(DA)(DG)(DG)(DG)(DT)(DT)(DA) (DG)(DG) TAGGGTTAGGGTTAGGGTTAGG A polydeoxyribonucleotide n n n n n n n n n n n n n n n n n n n n n n -28.047 1 20 A 8 A 19 -4.772 A_DA8:DT19_A 1 10.023 0.345 -0.759 0.061 -19.428 3 23 A 20 A 18 69.723 A_DA20:DT18_A 2 14.141 0.541 0.584 -3.543 -6.376 3 6 A 4 A 17 -91.116 A_DG4:DG17_A 3 0.798 1.990 0.179 3.179 -3.809 3 6 A 9 A 21 90.070 A_DG9:DG21_A 4 -1.681 -1.951 0.047 -3.216 -6.666 3 6 A 10 A 3 90.712 A_DG10:DG3_A 5 -6.283 -2.212 0.137 -3.020 21.375 1 A 11 A 15 -59.707 A_DG11:DG15_A 6 -6.931 3.916 0.033 1.166 -3.108 179.394 A A 8 20 6.622 A A 19 18 -3.099 13.244 -0.585 2.920 AA_DA8DA20:DT18DT19_AA 1 159.676 -79.843 176.469 1.464 0.246 -2.743 -104.518 A A 20 4 2.503 A A 18 17 -2.779 -3.958 -0.312 1.433 AA_DA20DG4:DG17DT18_AA 2 -1.554 -0.982 -104.457 -0.953 -0.179 -0.341 179.781 A A 4 9 1.841 A A 17 21 -0.341 3.682 -2.222 -2.976 AA_DG4DG9:DG21DG17_AA 3 -5.320 2.660 179.780 -1.488 1.111 -0.782 -176.976 A A 9 10 -26.864 A A 21 3 -1.041 53.574 1.563 2.642 AA_DG9DG10:DG3DG21_AA 4 -161.777 -81.121 -143.173 -1.275 0.921 2.914 122.382 A A 10 11 2.435 A A 3 15 2.915 4.266 0.155 0.127 AA_DG10DG11:DG15DG3_AA 5 -3.353 1.914 122.311 0.039 -0.115 pdbx_nmr_spectrometer pdbx_nmr_software pdbx_seq_map_depositor_info citation citation_author repository Initial release Data collection Data collection Data collection Database references 1 0 2018-01-17 1 1 2018-02-14 1 2 2019-05-08 1 3 2019-08-07 _pdbx_nmr_spectrometer.manufacturer _pdbx_nmr_software.name _pdbx_seq_map_depositor_info.one_letter_code_mod _citation.country _citation.journal_abbrev _citation.journal_id_ASTM _citation.journal_id_CSD _citation.journal_id_ISSN _citation.journal_volume _citation.page_first _citation.page_last _citation.pdbx_database_id_DOI _citation.pdbx_database_id_PubMed _citation.title _citation.year _citation_author.name A two-quartet G-quadruplex formed by human telomere in KCl solution at pH 5.0 N PDBE Y PDBE 2016-08-17 REL REL REL 9606 Human Homo sapiens sample 1 22 structures with the least restraint violations 100 10 anisotropic 1 1D 1H-15N HSQC anisotropic 1 2D 1H-15N HSQC NH2 only anisotropic 1 2D 1H-13C HSQC aromatic anisotropic 1 2D 1H-1H TOCSY anisotropic 1 2D 1H-1H TOCSY anisotropic 2 2D NOESY anisotropic 2 2D NOESY anisotropic 1 2D ROESY anisotropic 1 2D DQF-COSY 1 mM 8% 13C, 8% 15N 70 mM natural abundance 1 mM natural abundance 70 mM natural abundance 1 mM natural abundance 70 mM natural abundance 70 mM conditions_1 5.0 pH 1 atm 278 K simulated annealing 1 lowest energy 1 mM 8% 13C, 8% 15N DNA (5'-D(*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*G)-3'), 70 mM potassium chloride, 90% H2O/10% D2O 13C15N_sample 90% H2O/10% D2O solution 1 mM DNA (5'-D(*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*G)-3'), 70 mM potassium chloride, 90% H2O/10% D2O unlabel_sample 90% H2O/10% D2O solution 1 mM DNA (5'-D(*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*G)-3'), 70 mM potassium chloride, 100% D2O unlabel_sample_100d2o 100% D2O solution Varian collection VNMR Varian processing VNMR Varian chemical shift assignment VNMR Goddard peak picking Sparky Case, Darden, Cheatham III, Simmerling, Wang, Duke, Luo, ... and Kollman chemical shift calculation Amber 14 Case, Darden, Cheatham III, Simmerling, Wang, Duke, Luo, ... and Kollman refinement Amber 14 600 Varian Uniform NMR System 800 Varian Uniform NMR System DT 1 n 1 DT 1 A DA 2 n 2 DA 2 A DG 3 n 3 DG 3 A DG 4 n 4 DG 4 A DG 5 n 5 DG 5 A DT 6 n 6 DT 6 A DT 7 n 7 DT 7 A DA 8 n 8 DA 8 A DG 9 n 9 DG 9 A DG 10 n 10 DG 10 A DG 11 n 11 DG 11 A DT 12 n 12 DT 12 A DT 13 n 13 DT 13 A DA 14 n 14 DA 14 A DG 15 n 15 DG 15 A DG 16 n 16 DG 16 A DG 17 n 17 DG 17 A DT 18 n 18 DT 18 A DT 19 n 19 DT 19 A DA 20 n 20 DA 20 A DG 21 n 21 DG 21 A DG 22 n 22 DG 22 A author_and_software_defined_assembly PISA 1 monomeric 0 0 3830 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 identity operation 0.0000000000 0.0000000000 0.0000000000 1 A DG 5 0.066 SIDE CHAIN 1 A DG 9 0.080 SIDE CHAIN 1 A DG 10 0.062 SIDE CHAIN 1 A DT 12 0.081 SIDE CHAIN 1 A DG 16 0.062 SIDE CHAIN 2 A DG 5 0.073 SIDE CHAIN 2 A DG 9 0.082 SIDE CHAIN 2 A DG 10 0.067 SIDE CHAIN 2 A DT 12 0.079 SIDE CHAIN 3 A DG 3 0.087 SIDE CHAIN 3 A DG 9 0.064 SIDE CHAIN 3 A DG 10 0.059 SIDE CHAIN 3 A DG 15 0.060 SIDE CHAIN 3 A DG 16 0.052 SIDE CHAIN 3 A DT 18 0.084 SIDE CHAIN 3 A DG 21 0.054 SIDE CHAIN 4 A DG 5 0.057 SIDE CHAIN 4 A DG 9 0.089 SIDE CHAIN 5 A DG 3 0.068 SIDE CHAIN 5 A DG 5 0.056 SIDE CHAIN 5 A DG 9 0.093 SIDE CHAIN 5 A DG 15 0.068 SIDE CHAIN 6 A DG 3 0.070 SIDE CHAIN 6 A DG 5 0.062 SIDE CHAIN 6 A DG 9 0.084 SIDE CHAIN 6 A DG 10 0.061 SIDE CHAIN 6 A DT 12 0.070 SIDE CHAIN 7 A DG 3 0.075 SIDE CHAIN 7 A DG 5 0.064 SIDE CHAIN 7 A DG 9 0.082 SIDE CHAIN 7 A DG 10 0.060 SIDE CHAIN 7 A DT 18 0.080 SIDE CHAIN 8 A DG 3 0.093 SIDE CHAIN 8 A DG 5 0.084 SIDE CHAIN 8 A DG 9 0.053 SIDE CHAIN 8 A DT 12 0.065 SIDE CHAIN 8 A DG 15 0.054 SIDE CHAIN 8 A DG 21 0.065 SIDE CHAIN 9 A DG 5 0.068 SIDE CHAIN 9 A DG 9 0.092 SIDE CHAIN 9 A DG 10 0.059 SIDE CHAIN 9 A DT 18 0.069 SIDE CHAIN 10 A DG 3 0.078 SIDE CHAIN 10 A DG 5 0.069 SIDE CHAIN 10 A DG 9 0.082 SIDE CHAIN 10 A DT 18 0.057 SIDE CHAIN 10 A DG 21 0.053 SIDE CHAIN 1 3.08 0.30 108.30 111.38 A A A O4' C1' N1 DT DT DT 1 1 1 N 1 -3.66 0.60 122.90 119.24 A A A C6 C5 C7 DT DT DT 1 1 1 N 1 1.89 0.30 108.30 110.19 A A A O4' C1' N9 DA DA DA 2 2 2 N 1 -3.71 0.50 117.00 113.29 A A A C4 C5 C6 DA DA DA 2 2 2 N 1 3.94 0.50 117.70 121.64 A A A C5 C6 N1 DA DA DA 2 2 2 N 1 -6.13 0.60 118.60 112.47 A A A N1 C6 N6 DA DA DA 2 2 2 N 1 4.12 0.30 108.30 112.42 A A A O4' C1' N9 DG DG DG 3 3 3 N 1 -3.24 0.50 128.60 125.36 A A A N3 C4 C5 DG DG DG 3 3 3 N 1 2.30 0.30 108.30 110.60 A A A O4' C1' N9 DG DG DG 4 4 4 N 1 4.69 0.30 108.30 112.99 A A A O4' C1' N9 DG DG DG 5 5 5 N 1 -3.65 0.60 122.90 119.25 A A A C6 C5 C7 DT DT DT 6 6 6 N 1 5.03 0.30 108.30 113.33 A A A O4' C1' N1 DT DT DT 7 7 7 N 1 -3.61 0.60 122.90 119.29 A A A C6 C5 C7 DT DT DT 7 7 7 N 1 1.98 0.30 108.30 110.28 A A A O4' C1' N9 DA DA DA 8 8 8 N 1 3.44 0.50 117.70 121.14 A A A C5 C6 N1 DA DA DA 8 8 8 N 1 -4.13 0.60 118.60 114.47 A A A N1 C6 N6 DA DA DA 8 8 8 N 1 3.27 0.30 108.30 111.57 A A A O4' C1' N1 DT DT DT 12 12 12 N 1 -3.68 0.60 122.30 118.62 A A A N3 C2 O2 DT DT DT 12 12 12 N 1 2.88 0.30 108.30 111.18 A A A O4' C1' N1 DT DT DT 13 13 13 N 1 -3.66 0.60 122.90 119.24 A A A C6 C5 C7 DT DT DT 13 13 13 N 1 -3.38 0.50 117.00 113.62 A A A C4 C5 C6 DA DA DA 14 14 14 N 1 3.60 0.50 117.70 121.30 A A A C5 C6 N1 DA DA DA 14 14 14 N 1 -6.64 0.60 118.60 111.96 A A A N1 C6 N6 DA DA DA 14 14 14 N 1 3.34 0.30 108.30 111.64 A A A O4' C1' N9 DG DG DG 15 15 15 N 1 2.96 0.30 108.30 111.26 A A A O4' C1' N9 DG DG DG 16 16 16 N 1 3.82 0.30 108.30 112.12 A A A O4' C1' N1 DT DT DT 18 18 18 N 1 -3.99 0.60 122.30 118.31 A A A N3 C2 O2 DT DT DT 18 18 18 N 1 4.04 0.30 108.30 112.34 A A A O4' C1' N1 DT DT DT 19 19 19 N 1 2.38 0.30 108.30 110.68 A A A O4' C1' N9 DA DA DA 20 20 20 N 1 2.86 0.30 108.30 111.16 A A A O4' C1' N9 DG DG DG 21 21 21 N 1 4.19 0.30 108.30 112.49 A A A O4' C1' N9 DG DG DG 22 22 22 N 2 -3.81 0.60 122.90 119.09 A A A C6 C5 C7 DT DT DT 1 1 1 N 2 -3.69 0.50 117.00 113.31 A A A C4 C5 C6 DA DA DA 2 2 2 N 2 4.06 0.50 117.70 121.76 A A A C5 C6 N1 DA DA DA 2 2 2 N 2 -5.93 0.60 118.60 112.67 A A A N1 C6 N6 DA DA DA 2 2 2 N 2 4.77 0.30 108.30 113.07 A A A O4' C1' N9 DG DG DG 3 3 3 N 2 -3.32 0.50 128.60 125.28 A A A N3 C4 C5 DG DG DG 3 3 3 N 2 2.62 0.30 108.30 110.92 A A A O4' C1' N9 DG DG DG 4 4 4 N 2 4.38 0.30 108.30 112.68 A A A O4' C1' N9 DG DG DG 5 5 5 N 2 2.15 0.30 108.30 110.45 A A A O4' C1' N1 DT DT DT 6 6 6 N 2 3.03 0.30 108.30 111.33 A A A O4' C1' N1 DT DT DT 7 7 7 N 2 -3.63 0.60 122.90 119.27 A A A C6 C5 C7 DT DT DT 7 7 7 N 2 3.91 0.30 108.30 112.21 A A A O4' C1' N9 DA DA DA 8 8 8 N 2 3.59 0.50 117.70 121.29 A A A C5 C6 N1 DA DA DA 8 8 8 N 2 -5.34 0.60 118.60 113.26 A A A N1 C6 N6 DA DA DA 8 8 8 N 2 2.56 0.30 108.30 110.86 A A A O4' C1' N9 DG DG DG 9 9 9 N 2 3.25 0.30 108.30 111.55 A A A O4' C1' N9 DG DG DG 11 11 11 N 2 3.10 0.30 108.30 111.40 A A A O4' C1' N1 DT DT DT 12 12 12 N 2 4.00 0.30 108.30 112.30 A A A O4' C1' N1 DT DT DT 13 13 13 N 2 -3.32 0.50 117.00 113.68 A A A C4 C5 C6 DA DA DA 14 14 14 N 2 3.77 0.50 117.70 121.47 A A A C5 C6 N1 DA DA DA 14 14 14 N 2 -5.87 0.60 118.60 112.73 A A A N1 C6 N6 DA DA DA 14 14 14 N 2 2.17 0.30 108.30 110.47 A A A O4' C1' N9 DG DG DG 16 16 16 N 2 1.91 0.30 108.30 110.21 A A A O4' C1' N9 DG DG DG 17 17 17 N 2 4.57 0.30 108.30 112.87 A A A O4' C1' N1 DT DT DT 18 18 18 N 2 -3.96 0.60 122.30 118.34 A A A N3 C2 O2 DT DT DT 18 18 18 N 2 4.12 0.30 108.30 112.42 A A A O4' C1' N1 DT DT DT 19 19 19 N 2 -3.65 0.60 122.90 119.25 A A A C6 C5 C7 DT DT DT 19 19 19 N 2 3.27 0.30 108.30 111.57 A A A O4' C1' N9 DG DG DG 21 21 21 N 2 3.76 0.30 108.30 112.06 A A A O4' C1' N9 DG DG DG 22 22 22 N 3 3.22 0.30 108.30 111.52 A A A O4' C1' N1 DT DT DT 1 1 1 N 3 -3.60 0.60 122.30 118.70 A A A N3 C2 O2 DT DT DT 1 1 1 N 3 -3.50 0.50 117.00 113.50 A A A C4 C5 C6 DA DA DA 2 2 2 N 3 3.62 0.50 117.70 121.32 A A A C5 C6 N1 DA DA DA 2 2 2 N 3 -6.70 0.60 118.60 111.90 A A A N1 C6 N6 DA DA DA 2 2 2 N 3 2.21 0.30 108.30 110.51 A A A O4' C1' N9 DG DG DG 3 3 3 N 3 -3.01 0.50 128.60 125.59 A A A N3 C4 C5 DG DG DG 3 3 3 N 3 3.61 0.30 108.30 111.91 A A A O4' C1' N9 DG DG DG 5 5 5 N 3 2.48 0.30 108.30 110.78 A A A O4' C1' N1 DT DT DT 6 6 6 N 3 -3.76 0.60 122.90 119.14 A A A C6 C5 C7 DT DT DT 6 6 6 N 3 3.98 0.30 108.30 112.28 A A A O4' C1' N1 DT DT DT 7 7 7 N 3 -3.60 0.60 122.90 119.30 A A A C6 C5 C7 DT DT DT 7 7 7 N 3 2.26 0.30 108.30 110.56 A A A O4' C1' N9 DA DA DA 8 8 8 N 3 3.34 0.50 117.70 121.04 A A A C5 C6 N1 DA DA DA 8 8 8 N 3 -4.70 0.60 118.60 113.90 A A A N1 C6 N6 DA DA DA 8 8 8 N 3 2.31 0.30 108.30 110.61 A A A O4' C1' N9 DG DG DG 9 9 9 N 3 2.42 0.30 108.30 110.72 A A A O4' C1' N9 DG DG DG 11 11 11 N 3 3.54 0.30 108.30 111.84 A A A O4' C1' N1 DT DT DT 12 12 12 N 3 2.99 0.30 108.30 111.29 A A A O4' C1' N1 DT DT DT 13 13 13 N 3 -3.78 0.60 122.90 119.12 A A A C6 C5 C7 DT DT DT 13 13 13 N 3 -3.09 0.50 117.00 113.91 A A A C4 C5 C6 DA DA DA 14 14 14 N 3 3.70 0.50 117.70 121.40 A A A C5 C6 N1 DA DA DA 14 14 14 N 3 -5.16 0.60 118.60 113.44 A A A N1 C6 N6 DA DA DA 14 14 14 N 3 3.71 0.30 108.30 112.01 A A A O4' C1' N9 DG DG DG 15 15 15 N 3 2.60 0.30 108.30 110.90 A A A O4' C1' N9 DG DG DG 17 17 17 N 3 3.78 0.30 108.30 112.08 A A A O4' C1' N1 DT DT DT 18 18 18 N 3 2.04 0.30 108.30 110.34 A A A O4' C1' N1 DT DT DT 19 19 19 N 3 -3.74 0.60 122.90 119.16 A A A C6 C5 C7 DT DT DT 19 19 19 N 3 2.14 0.30 108.30 110.44 A A A O4' C1' N9 DA DA DA 20 20 20 N 3 2.80 0.30 108.30 111.10 A A A O4' C1' N9 DG DG DG 21 21 21 N 3 3.75 0.30 108.30 112.05 A A A O4' C1' N9 DG DG DG 22 22 22 N 4 -3.60 0.60 122.90 119.30 A A A C6 C5 C7 DT DT DT 1 1 1 N 4 -3.58 0.50 117.00 113.42 A A A C4 C5 C6 DA DA DA 2 2 2 N 4 3.94 0.50 117.70 121.64 A A A C5 C6 N1 DA DA DA 2 2 2 N 4 -6.26 0.60 118.60 112.34 A A A N1 C6 N6 DA DA DA 2 2 2 N 4 4.33 0.30 108.30 112.63 A A A O4' C1' N9 DG DG DG 3 3 3 N 4 -3.10 0.50 128.60 125.50 A A A N3 C4 C5 DG DG DG 3 3 3 N 4 2.03 0.30 108.30 110.33 A A A O4' C1' N9 DG DG DG 4 4 4 N 4 4.42 0.30 108.30 112.72 A A A O4' C1' N9 DG DG DG 5 5 5 N 4 2.07 0.30 108.30 110.37 A A A O4' C1' N1 DT DT DT 6 6 6 N 4 2.90 0.30 108.30 111.20 A A A O4' C1' N1 DT DT DT 7 7 7 N 4 -3.78 0.60 122.90 119.12 A A A C6 C5 C7 DT DT DT 7 7 7 N 4 2.62 0.30 108.30 110.92 A A A O4' C1' N9 DA DA DA 8 8 8 N 4 3.53 0.50 117.70 121.23 A A A C5 C6 N1 DA DA DA 8 8 8 N 4 -4.33 0.60 118.60 114.27 A A A N1 C6 N6 DA DA DA 8 8 8 N 4 3.10 0.30 108.30 111.40 A A A O4' C1' N9 DG DG DG 9 9 9 N 4 3.83 0.30 108.30 112.13 A A A O4' C1' N9 DG DG DG 10 10 10 N 4 3.39 0.30 108.30 111.69 A A A O4' C1' N9 DG DG DG 11 11 11 N 4 -3.60 0.60 122.30 118.70 A A A N3 C2 O2 DT DT DT 12 12 12 N 4 2.96 0.30 108.30 111.26 A A A O4' C1' N1 DT DT DT 13 13 13 N 4 -3.62 0.60 122.90 119.28 A A A C6 C5 C7 DT DT DT 13 13 13 N 4 -3.30 0.50 117.00 113.70 A A A C4 C5 C6 DA DA DA 14 14 14 N 4 3.67 0.50 117.70 121.37 A A A C5 C6 N1 DA DA DA 14 14 14 N 4 -5.98 0.60 118.60 112.62 A A A N1 C6 N6 DA DA DA 14 14 14 N 4 1.83 0.30 108.30 110.13 A A A O4' C1' N9 DG DG DG 15 15 15 N 4 2.29 0.30 108.30 110.59 A A A O4' C1' N9 DG DG DG 16 16 16 N 4 3.55 0.30 108.30 111.85 A A A O4' C1' N1 DT DT DT 18 18 18 N 4 -4.01 0.60 122.30 118.29 A A A N3 C2 O2 DT DT DT 18 18 18 N 4 4.20 0.30 108.30 112.50 A A A O4' C1' N1 DT DT DT 19 19 19 N 4 -3.71 0.60 122.90 119.19 A A A C6 C5 C7 DT DT DT 19 19 19 N 4 3.31 0.30 108.30 111.61 A A A O4' C1' N9 DG DG DG 21 21 21 N 4 4.61 0.30 108.30 112.91 A A A O4' C1' N9 DG DG DG 22 22 22 N 5 -3.71 0.60 122.30 118.59 A A A N3 C2 O2 DT DT DT 1 1 1 N 5 -3.68 0.60 122.90 119.22 A A A C6 C5 C7 DT DT DT 1 1 1 N 5 2.51 0.30 108.30 110.81 A A A O4' C1' N9 DA DA DA 2 2 2 N 5 -3.53 0.50 117.00 113.47 A A A C4 C5 C6 DA DA DA 2 2 2 N 5 3.91 0.50 117.70 121.61 A A A C5 C6 N1 DA DA DA 2 2 2 N 5 -6.21 0.60 118.60 112.39 A A A N1 C6 N6 DA DA DA 2 2 2 N 5 3.63 0.30 108.30 111.93 A A A O4' C1' N9 DG DG DG 3 3 3 N 5 -3.14 0.50 128.60 125.46 A A A N3 C4 C5 DG DG DG 3 3 3 N 5 1.88 0.30 108.30 110.18 A A A O4' C1' N9 DG DG DG 4 4 4 N 5 3.52 0.30 108.30 111.82 A A A O4' C1' N9 DG DG DG 5 5 5 N 5 -3.70 0.60 122.90 119.20 A A A C6 C5 C7 DT DT DT 6 6 6 N 5 -3.64 0.60 122.90 119.26 A A A C6 C5 C7 DT DT DT 7 7 7 N 5 4.01 0.30 108.30 112.31 A A A O4' C1' N9 DA DA DA 8 8 8 N 5 3.71 0.50 117.70 121.41 A A A C5 C6 N1 DA DA DA 8 8 8 N 5 -4.41 0.60 118.60 114.19 A A A N1 C6 N6 DA DA DA 8 8 8 N 5 2.01 0.30 108.30 110.31 A A A O4' C1' N9 DG DG DG 10 10 10 N 5 2.89 0.30 108.30 111.19 A A A O4' C1' N9 DG DG DG 11 11 11 N 5 -3.93 0.60 122.90 118.97 A A A C6 C5 C7 DT DT DT 12 12 12 N 5 2.49 0.30 108.30 110.79 A A A O4' C1' N1 DT DT DT 13 13 13 N 5 -3.21 0.50 117.00 113.79 A A A C4 C5 C6 DA DA DA 14 14 14 N 5 3.78 0.50 117.70 121.48 A A A C5 C6 N1 DA DA DA 14 14 14 N 5 -5.38 0.60 118.60 113.22 A A A N1 C6 N6 DA DA DA 14 14 14 N 5 2.61 0.30 108.30 110.91 A A A O4' C1' N9 DG DG DG 15 15 15 N 5 2.62 0.30 108.30 110.92 A A A O4' C1' N9 DG DG DG 16 16 16 N 5 4.60 0.30 108.30 112.90 A A A O4' C1' N1 DT DT DT 18 18 18 N 5 -4.05 0.60 122.30 118.25 A A A N3 C2 O2 DT DT DT 18 18 18 N 5 3.79 0.30 108.30 112.09 A A A O4' C1' N1 DT DT DT 19 19 19 N 5 -3.77 0.60 122.90 119.13 A A A C6 C5 C7 DT DT DT 19 19 19 N 5 3.54 0.30 108.30 111.84 A A A O4' C1' N9 DG DG DG 21 21 21 N 5 4.18 0.30 108.30 112.48 A A A O4' C1' N9 DG DG DG 22 22 22 N 6 -3.75 0.60 122.90 119.15 A A A C6 C5 C7 DT DT DT 1 1 1 N 6 2.02 0.30 108.30 110.32 A A A O4' C1' N9 DA DA DA 2 2 2 N 6 -3.39 0.50 117.00 113.61 A A A C4 C5 C6 DA DA DA 2 2 2 N 6 3.78 0.50 117.70 121.48 A A A C5 C6 N1 DA DA DA 2 2 2 N 6 -5.60 0.60 118.60 113.00 A A A N1 C6 N6 DA DA DA 2 2 2 N 6 4.21 0.30 108.30 112.51 A A A O4' C1' N9 DG DG DG 3 3 3 N 6 -3.08 0.50 128.60 125.52 A A A N3 C4 C5 DG DG DG 3 3 3 N 6 5.88 0.30 108.30 114.18 A A A O4' C1' N9 DG DG DG 5 5 5 N 6 -3.68 0.60 122.90 119.22 A A A C6 C5 C7 DT DT DT 6 6 6 N 6 3.90 0.30 108.30 112.20 A A A O4' C1' N1 DT DT DT 7 7 7 N 6 -3.76 0.60 122.90 119.14 A A A C6 C5 C7 DT DT DT 7 7 7 N 6 3.55 0.30 108.30 111.85 A A A O4' C1' N9 DA DA DA 8 8 8 N 6 3.38 0.50 117.70 121.08 A A A C5 C6 N1 DA DA DA 8 8 8 N 6 -3.79 0.60 118.60 114.81 A A A N1 C6 N6 DA DA DA 8 8 8 N 6 4.31 0.30 108.30 112.61 A A A O4' C1' N9 DG DG DG 11 11 11 N 6 -3.68 0.60 122.90 119.22 A A A C6 C5 C7 DT DT DT 12 12 12 N 6 3.26 0.30 108.30 111.56 A A A O4' C1' N1 DT DT DT 13 13 13 N 6 -3.19 0.50 117.00 113.81 A A A C4 C5 C6 DA DA DA 14 14 14 N 6 3.74 0.50 117.70 121.44 A A A C5 C6 N1 DA DA DA 14 14 14 N 6 -5.39 0.60 118.60 113.21 A A A N1 C6 N6 DA DA DA 14 14 14 N 6 2.47 0.30 108.30 110.77 A A A O4' C1' N9 DG DG DG 15 15 15 N 6 2.74 0.30 108.30 111.04 A A A O4' C1' N9 DG DG DG 16 16 16 N 6 3.08 0.30 108.30 111.38 A A A O4' C1' N1 DT DT DT 18 18 18 N 6 -3.73 0.60 122.30 118.57 A A A N3 C2 O2 DT DT DT 18 18 18 N 6 1.94 0.30 108.30 110.24 A A A O4' C1' N1 DT DT DT 19 19 19 N 6 -3.80 0.60 122.90 119.10 A A A C6 C5 C7 DT DT DT 19 19 19 N 6 2.45 0.30 108.30 110.75 A A A O4' C1' N9 DA DA DA 20 20 20 N 6 3.32 0.30 108.30 111.62 A A A O4' C1' N9 DG DG DG 21 21 21 N 6 3.99 0.30 108.30 112.29 A A A O4' C1' N9 DG DG DG 22 22 22 N 7 -3.76 0.60 122.90 119.14 A A A C6 C5 C7 DT DT DT 1 1 1 N 7 -3.39 0.50 117.00 113.61 A A A C4 C5 C6 DA DA DA 2 2 2 N 7 3.85 0.50 117.70 121.55 A A A C5 C6 N1 DA DA DA 2 2 2 N 7 -5.80 0.60 118.60 112.80 A A A N1 C6 N6 DA DA DA 2 2 2 N 7 3.83 0.30 108.30 112.13 A A A O4' C1' N9 DG DG DG 3 3 3 N 7 -3.08 0.50 128.60 125.52 A A A N3 C4 C5 DG DG DG 3 3 3 N 7 3.23 0.30 108.30 111.53 A A A O4' C1' N9 DG DG DG 4 4 4 N 7 4.81 0.30 108.30 113.11 A A A O4' C1' N9 DG DG DG 5 5 5 N 7 1.81 0.30 108.30 110.11 A A A O4' C1' N1 DT DT DT 6 6 6 N 7 -3.72 0.60 122.90 119.18 A A A C6 C5 C7 DT DT DT 6 6 6 N 7 4.16 0.30 108.30 112.46 A A A O4' C1' N1 DT DT DT 7 7 7 N 7 -3.77 0.60 122.90 119.13 A A A C6 C5 C7 DT DT DT 7 7 7 N 7 3.37 0.30 108.30 111.67 A A A O4' C1' N9 DA DA DA 8 8 8 N 7 3.42 0.50 117.70 121.12 A A A C5 C6 N1 DA DA DA 8 8 8 N 7 -4.15 0.60 118.60 114.45 A A A N1 C6 N6 DA DA DA 8 8 8 N 7 3.08 0.30 108.30 111.38 A A A O4' C1' N9 DG DG DG 10 10 10 N 7 2.50 0.30 108.30 110.80 A A A O4' C1' N9 DG DG DG 11 11 11 N 7 3.22 0.30 108.30 111.52 A A A O4' C1' N1 DT DT DT 13 13 13 N 7 -3.64 0.60 122.90 119.26 A A A C6 C5 C7 DT DT DT 13 13 13 N 7 1.89 0.30 108.30 110.19 A A A O4' C1' N9 DA DA DA 14 14 14 N 7 3.50 0.50 117.70 121.20 A A A C5 C6 N1 DA DA DA 14 14 14 N 7 -5.38 0.60 118.60 113.22 A A A N1 C6 N6 DA DA DA 14 14 14 N 7 7.51 1.20 119.70 127.21 A A A C3' O3' P DA DA DG 14 14 15 Y 7 2.92 0.30 108.30 111.22 A A A O4' C1' N9 DG DG DG 15 15 15 N 7 1.86 0.30 108.30 110.16 A A A O4' C1' N9 DG DG DG 16 16 16 N 7 -3.00 0.50 128.60 125.60 A A A N3 C4 C5 DG DG DG 16 16 16 N 7 1.83 0.30 108.30 110.13 A A A O4' C1' N9 DG DG DG 17 17 17 N 7 4.00 0.30 108.30 112.30 A A A O4' C1' N1 DT DT DT 18 18 18 N 7 -3.83 0.60 122.90 119.07 A A A C6 C5 C7 DT DT DT 19 19 19 N 7 2.90 0.30 108.30 111.20 A A A O4' C1' N9 DA DA DA 20 20 20 N 7 2.86 0.30 108.30 111.16 A A A O4' C1' N9 DG DG DG 21 21 21 N 7 4.14 0.30 108.30 112.44 A A A O4' C1' N9 DG DG DG 22 22 22 N 8 4.69 0.30 108.30 112.99 A A A O4' C1' N1 DT DT DT 1 1 1 N 8 -3.81 0.60 122.30 118.49 A A A N3 C2 O2 DT DT DT 1 1 1 N 8 -3.59 0.50 117.00 113.41 A A A C4 C5 C6 DA DA DA 2 2 2 N 8 3.94 0.50 117.70 121.64 A A A C5 C6 N1 DA DA DA 2 2 2 N 8 -6.45 0.60 118.60 112.15 A A A N1 C6 N6 DA DA DA 2 2 2 N 8 -3.18 0.50 128.60 125.42 A A A N3 C4 C5 DG DG DG 3 3 3 N 8 4.46 0.30 108.30 112.76 A A A O4' C1' N9 DG DG DG 5 5 5 N 8 2.67 0.30 108.30 110.97 A A A O4' C1' N1 DT DT DT 6 6 6 N 8 -3.68 0.60 122.90 119.22 A A A C6 C5 C7 DT DT DT 6 6 6 N 8 3.19 0.30 108.30 111.49 A A A O4' C1' N1 DT DT DT 7 7 7 N 8 -3.66 0.60 122.90 119.24 A A A C6 C5 C7 DT DT DT 7 7 7 N 8 -3.08 0.50 117.00 113.92 A A A C4 C5 C6 DA DA DA 8 8 8 N 8 3.43 0.50 117.70 121.13 A A A C5 C6 N1 DA DA DA 8 8 8 N 8 -4.76 0.60 118.60 113.84 A A A N1 C6 N6 DA DA DA 8 8 8 N 8 3.96 0.30 108.30 112.26 A A A O4' C1' N9 DG DG DG 9 9 9 N 8 1.89 0.30 108.30 110.19 A A A O4' C1' N9 DG DG DG 11 11 11 N 8 -3.65 0.60 122.90 119.25 A A A C6 C5 C7 DT DT DT 12 12 12 N 8 1.85 0.30 108.30 110.15 A A A O4' C1' N1 DT DT DT 13 13 13 N 8 -3.71 0.60 122.90 119.19 A A A C6 C5 C7 DT DT DT 13 13 13 N 8 -3.37 0.50 117.00 113.63 A A A C4 C5 C6 DA DA DA 14 14 14 N 8 3.78 0.50 117.70 121.48 A A A C5 C6 N1 DA DA DA 14 14 14 N 8 -5.55 0.60 118.60 113.05 A A A N1 C6 N6 DA DA DA 14 14 14 N 8 2.85 0.30 108.30 111.15 A A A O4' C1' N9 DG DG DG 15 15 15 N 8 2.65 0.30 108.30 110.95 A A A O4' C1' N9 DG DG DG 16 16 16 N 8 -4.41 0.70 119.90 115.49 A A A N3 C2 N2 DG DG DG 16 16 16 N 8 2.54 0.30 108.30 110.84 A A A O4' C1' N9 DG DG DG 17 17 17 N 8 4.50 0.30 108.30 112.80 A A A O4' C1' N1 DT DT DT 18 18 18 N 8 -3.96 0.60 122.30 118.34 A A A N3 C2 O2 DT DT DT 18 18 18 N 8 4.46 0.30 108.30 112.76 A A A O4' C1' N1 DT DT DT 19 19 19 N 8 -3.61 0.60 122.90 119.29 A A A C6 C5 C7 DT DT DT 19 19 19 N 8 2.05 0.30 108.30 110.35 A A A O4' C1' N9 DG DG DG 21 21 21 N 8 3.82 0.30 108.30 112.12 A A A O4' C1' N9 DG DG DG 22 22 22 N 9 -3.79 0.60 122.90 119.11 A A A C6 C5 C7 DT DT DT 1 1 1 N 9 2.11 0.30 108.30 110.41 A A A O4' C1' N9 DA DA DA 2 2 2 N 9 -3.66 0.50 117.00 113.34 A A A C4 C5 C6 DA DA DA 2 2 2 N 9 3.96 0.50 117.70 121.66 A A A C5 C6 N1 DA DA DA 2 2 2 N 9 -6.06 0.60 118.60 112.54 A A A N1 C6 N6 DA DA DA 2 2 2 N 9 4.43 0.30 108.30 112.73 A A A O4' C1' N9 DG DG DG 3 3 3 N 9 -3.19 0.50 128.60 125.41 A A A N3 C4 C5 DG DG DG 3 3 3 N 9 2.21 0.30 108.30 110.51 A A A O4' C1' N9 DG DG DG 4 4 4 N 9 4.33 0.30 108.30 112.63 A A A O4' C1' N9 DG DG DG 5 5 5 N 9 -3.69 0.60 122.90 119.21 A A A C6 C5 C7 DT DT DT 6 6 6 N 9 2.74 0.30 108.30 111.04 A A A O4' C1' N1 DT DT DT 7 7 7 N 9 3.56 0.30 108.30 111.86 A A A O4' C1' N9 DA DA DA 8 8 8 N 9 3.58 0.50 117.70 121.28 A A A C5 C6 N1 DA DA DA 8 8 8 N 9 -5.10 0.60 118.60 113.50 A A A N1 C6 N6 DA DA DA 8 8 8 N 9 3.10 0.30 108.30 111.40 A A A O4' C1' N9 DG DG DG 11 11 11 N 9 2.24 0.30 108.30 110.54 A A A O4' C1' N1 DT DT DT 12 12 12 N 9 3.08 0.30 108.30 111.38 A A A O4' C1' N1 DT DT DT 13 13 13 N 9 -3.68 0.60 122.90 119.22 A A A C6 C5 C7 DT DT DT 13 13 13 N 9 -3.10 0.50 117.00 113.90 A A A C4 C5 C6 DA DA DA 14 14 14 N 9 3.56 0.50 117.70 121.26 A A A C5 C6 N1 DA DA DA 14 14 14 N 9 -5.75 0.60 118.60 112.85 A A A N1 C6 N6 DA DA DA 14 14 14 N 9 2.38 0.30 108.30 110.68 A A A O4' C1' N9 DG DG DG 15 15 15 N 9 2.69 0.30 108.30 110.99 A A A O4' C1' N9 DG DG DG 16 16 16 N 9 3.99 0.30 108.30 112.29 A A A O4' C1' N1 DT DT DT 18 18 18 N 9 -3.63 0.60 122.30 118.67 A A A N3 C2 O2 DT DT DT 18 18 18 N 9 1.84 0.30 108.30 110.14 A A A O4' C1' N1 DT DT DT 19 19 19 N 9 -3.84 0.60 122.90 119.06 A A A C6 C5 C7 DT DT DT 19 19 19 N 9 2.18 0.30 108.30 110.48 A A A O4' C1' N9 DG DG DG 21 21 21 N 9 -3.10 0.50 128.60 125.50 A A A N3 C4 C5 DG DG DG 21 21 21 N 9 4.16 0.30 108.30 112.46 A A A O4' C1' N9 DG DG DG 22 22 22 N 10 -3.65 0.60 122.90 119.25 A A A C6 C5 C7 DT DT DT 1 1 1 N 10 -3.54 0.50 117.00 113.46 A A A C4 C5 C6 DA DA DA 2 2 2 N 10 3.95 0.50 117.70 121.65 A A A C5 C6 N1 DA DA DA 2 2 2 N 10 -5.90 0.60 118.60 112.70 A A A N1 C6 N6 DA DA DA 2 2 2 N 10 3.87 0.30 108.30 112.17 A A A O4' C1' N9 DG DG DG 3 3 3 N 10 5.48 0.30 108.30 113.78 A A A O4' C1' N9 DG DG DG 5 5 5 N 10 1.90 0.30 108.30 110.20 A A A O4' C1' N1 DT DT DT 6 6 6 N 10 -3.66 0.60 122.90 119.24 A A A C6 C5 C7 DT DT DT 6 6 6 N 10 4.43 0.30 108.30 112.73 A A A O4' C1' N1 DT DT DT 7 7 7 N 10 3.23 0.50 117.70 120.93 A A A C5 C6 N1 DA DA DA 8 8 8 N 10 -4.23 0.60 118.60 114.37 A A A N1 C6 N6 DA DA DA 8 8 8 N 10 2.21 0.30 108.30 110.51 A A A O4' C1' N9 DG DG DG 9 9 9 N 10 3.67 0.30 108.30 111.97 A A A O4' C1' N9 DG DG DG 10 10 10 N 10 3.94 0.30 108.30 112.24 A A A O4' C1' N9 DG DG DG 11 11 11 N 10 -3.60 0.60 122.30 118.70 A A A N3 C2 O2 DT DT DT 12 12 12 N 10 3.18 0.30 108.30 111.48 A A A O4' C1' N1 DT DT DT 13 13 13 N 10 -3.69 0.60 122.90 119.21 A A A C6 C5 C7 DT DT DT 13 13 13 N 10 -3.23 0.50 117.00 113.77 A A A C4 C5 C6 DA DA DA 14 14 14 N 10 3.54 0.50 117.70 121.24 A A A C5 C6 N1 DA DA DA 14 14 14 N 10 -6.37 0.60 118.60 112.23 A A A N1 C6 N6 DA DA DA 14 14 14 N 10 2.99 0.30 108.30 111.29 A A A O4' C1' N9 DG DG DG 15 15 15 N 10 2.56 0.30 108.30 110.86 A A A O4' C1' N9 DG DG DG 16 16 16 N 10 2.24 0.30 108.30 110.54 A A A O4' C1' N9 DG DG DG 17 17 17 N 10 4.95 0.30 108.30 113.25 A A A O4' C1' N1 DT DT DT 18 18 18 N 10 -3.97 0.60 122.30 118.33 A A A N3 C2 O2 DT DT DT 18 18 18 N 10 5.53 0.30 108.30 113.83 A A A O4' C1' N1 DT DT DT 19 19 19 N 10 2.71 0.30 108.30 111.01 A A A O4' C1' N9 DG DG DG 21 21 21 N 10 4.77 0.30 108.30 113.07 A A A O4' C1' N9 DG DG DG 22 22 22 N N DNA (5'-D(*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*GP*GP*TP*TP*AP*GP*G)-3') A two-quartet G-quadruplex formed by human telomere in KCl solution at pH 5.0 1 N N hydrog TYPE_6_PAIR A DG 3 A N1 DG 3 1_555 A DG 10 A O6 DG 10 1_555 hydrog TYPE_6_PAIR A DG 3 A N2 DG 3 1_555 A DG 10 A N7 DG 10 1_555 hydrog TYPE_6_PAIR A DG 3 A N7 DG 3 1_555 A DG 16 A N2 DG 16 1_555 hydrog TYPE_6_PAIR A DG 3 A O6 DG 3 1_555 A DG 16 A N1 DG 16 1_555 hydrog TYPE_6_PAIR A DG 4 A N7 DG 4 1_555 A DG 9 A N2 DG 9 1_555 hydrog TYPE_6_PAIR A DG 4 A O6 DG 4 1_555 A DG 9 A N1 DG 9 1_555 hydrog TYPE_6_PAIR A DG 4 A N1 DG 4 1_555 A DG 17 A O6 DG 17 1_555 hydrog TYPE_6_PAIR A DG 4 A N2 DG 4 1_555 A DG 17 A N7 DG 17 1_555 hydrog DG-DG MISPAIR A DG 5 A O6 DG 5 1_555 A DG 9 A N1 DG 9 1_555 hydrog DG-DA MISPAIR A DG 5 A N7 DG 5 1_555 A DA 20 A N6 DA 20 1_555 hydrog WATSON-CRICK A DA 8 A N1 DA 8 1_555 A DT 19 A N3 DT 19 1_555 hydrog WATSON-CRICK A DA 8 A N6 DA 8 1_555 A DT 19 A O4 DT 19 1_555 hydrog TYPE_6_PAIR A DG 9 A N7 DG 9 1_555 A DG 21 A N2 DG 21 1_555 hydrog TYPE_6_PAIR A DG 9 A O6 DG 9 1_555 A DG 21 A N1 DG 21 1_555 hydrog TYPE_6_PAIR A DG 10 A N1 DG 10 1_555 A DG 22 A O6 DG 22 1_555 hydrog TYPE_6_PAIR A DG 10 A N2 DG 10 1_555 A DG 22 A N7 DG 22 1_555 hydrog DG-DG MISPAIR A DG 11 A N1 DG 11 1_555 A DG 15 A O6 DG 15 1_555 hydrog DG-DG MISPAIR A DG 11 A N2 DG 11 1_555 A DG 15 A O6 DG 15 1_555 hydrog TYPE_6_PAIR A DG 16 A N7 DG 16 1_555 A DG 22 A N2 DG 22 1_555 hydrog TYPE_6_PAIR A DG 16 A O6 DG 16 1_555 A DG 22 A N1 DG 22 1_555 hydrog TYPE_6_PAIR A DG 17 A N1 DG 17 1_555 A DG 21 A O6 DG 21 1_555 hydrog TYPE_6_PAIR A DG 17 A N2 DG 17 1_555 A DG 21 A N7 DG 21 1_555 hydrog HOOGSTEEN A DT 18 A N3 DT 18 1_555 A DA 20 A N7 DA 20 1_555 hydrog HOOGSTEEN A DT 18 A O4 DT 18 1_555 A DA 20 A N6 DA 20 1_555 DNA human telomere repeat, G-quadruplex, topology, DNA 5LQH PDB 1 1 5LQH 1 22 5LQH 1 22 5LQH A 1 1 22