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