1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Clore, G.M.
Omichinski, J.G.
Gronenborn, A.M.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.00
90.00
90.00
1.000
1.000
1.000
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
C3 H7 N O2 S
121.158
y
CYSTEINE
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
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
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
Zn 2
65.409
ZINC ION
non-polymer
US
Science
SCIEAS
0038
0036-8075
261
438
446
10.1021/bi00131a004
8332909
NMR structure of a specific DNA complex of Zn-containing DNA binding domain of GATA-1.
1993
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
2443.657
DNA (5'-D(P*AP*GP*AP*TP*AP*AP*AP*C)3')
1
syn
polymer
2407.601
DNA (5'-D(P*GP*TP*TP*TP*AP*TP*CP*T)-3')
1
syn
polymer
6798.865
ERYTHROID TRANSCRIPTION FACTOR GATA-1
1
man
polymer
65.409
ZINC ION
1
syn
non-polymer
no
no
(DA)(DG)(DA)(DT)(DA)(DA)(DA)(DC)
AGATAAAC
B
polydeoxyribonucleotide
no
no
(DG)(DT)(DT)(DT)(DA)(DT)(DC)(DT)
GTTTATCT
C
polydeoxyribonucleotide
no
no
KRAGTVCSNCQTSTTTLWRRSPMGDPVCNACGLYYKLHQVNRPLTMRKDGIQTRNRKVSS
KRAGTVCSNCQTSTTTLWRRSPMGDPVCNACGLYYKLHQVNRPLTMRKDGIQTRNRKVSS
A
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
chicken
Gallus
Escherichia
sample
9031
Gallus gallus
562
Escherichia coli
-21.560
1
20
B
106
C
127
-2.698
B_DA106:DT127_C
1
-15.393
0.781
-0.630
0.048
-13.054
1
19
B
107
C
126
-7.467
B_DG107:DC126_C
2
-26.950
-0.334
-0.286
-0.345
-18.848
1
20
B
108
C
125
-17.884
B_DA108:DT125_C
3
-19.182
1.221
-0.117
-0.057
-12.545
1
20
B
109
C
124
-11.930
B_DT109:DA124_C
4
-11.693
-0.825
0.119
0.018
2.147
1
20
B
110
C
123
-5.245
B_DA110:DT123_C
5
7.837
0.722
0.278
0.028
2.003
1
20
B
111
C
122
-1.528
B_DA111:DT122_C
6
-6.471
0.396
-0.266
0.038
12.994
1
20
B
112
C
121
-0.604
B_DA112:DT121_C
7
-15.660
0.888
-0.071
-0.005
4.894
1
19
B
113
C
120
-0.723
B_DC113:DG120_C
8
-1.418
0.170
-0.031
-0.049
2.693
26.527
B
B
106
107
15.831
C
C
127
126
2.825
7.135
0.080
0.124
BB_DA106DG107:DC126DT127_CC
1
-4.943
10.968
25.091
-1.364
-1.307
3.183
49.395
B
B
107
108
-7.883
C
C
126
125
3.192
-6.569
-0.475
0.002
BB_DG107DA108:DT125DC126_CC
2
-2.093
2.512
48.941
0.481
0.416
2.884
26.508
B
B
108
109
-14.967
C
C
125
124
2.904
-6.788
0.051
-0.301
BB_DA108DT109:DA124DT125_CC
3
-0.639
1.408
25.631
0.959
-0.262
3.082
40.286
B
B
109
110
-9.145
C
C
124
123
3.211
-6.275
0.898
0.683
BB_DT109DA110:DT123DA124_CC
4
0.422
-0.615
39.812
1.678
-1.258
3.911
37.100
B
B
110
111
-24.149
C
C
123
122
4.374
-14.957
0.240
0.288
BB_DA110DA111:DT122DT123_CC
5
-0.319
0.515
34.048
3.105
-0.433
3.243
35.413
B
B
111
112
6.283
C
C
122
121
3.224
3.814
0.367
0.301
BB_DA111DA112:DT121DT122_CC
6
0.606
-0.998
35.208
-0.061
-0.516
3.095
32.515
B
B
112
113
14.330
C
C
121
120
3.269
7.945
-0.960
-0.481
BB_DA112DC113:DG120DT121_CC
7
-1.268
2.287
31.530
-2.233
1.496
repository
Initial release
Version format compliance
Version format compliance
Database references
1
0
1993-10-31
1
1
2008-03-24
1
2
2011-07-13
1
3
2012-09-05
ENSEMBLE OF 30 STRUCTURES
Y
1993-06-28
REL
ZN
ZINC ION
CHEMICALLY SYNTHESIZED
sample
THE COORDINATES OF THE RESTRAINED MINIMIZED STRUCTURE ARE PRESENTED IN THIS ENTRY. THE (SA)R RESTRAINED MINIMIZED MEAN STRUCTURE WAS DERIVED BY AVERAGING THE COORDINATES OF THE INDIVIDUAL SA STRUCTURES (BEST FITTED TO RESIDUES 2 - 59 OF THE PROTEIN AND BASE PAIRS 6 - 13 OF THE DNA), AND SUBJECTING THE RESULTING COORDINATES TO RESTRAINED MINIMIZATION. THE QUANTITY PRESENTED IN COLUMNS 61 - 66 OF THE MEAN STRUCTURE, PRESENTED IN THIS ENTRY, REPRESENTS THE ATOMIC RMS DEVIATIONS OF THE 30 INDIVIDUAL SA STRUCTURES ABOUT THE MEAN STRUCTURE.
1
DETAILS OF THE STRUCTURE DETERMINATION AND ALL STRUCTURAL
STATISTICS ARE GIVEN IN THE REFERENCE CITED ON THE *JRNL*
RECORDS ABOVE (I.E. AGREEMENT WITH EXPERIMENTAL RESTRAINTS,
DEVIATIONS FROM IDEALITY FOR BOND LENGTHS, ANGLES, PLANES
AND CHIRALITY, NON-BONDED CONTACTS, ATOMIC RMS DIFFERENCES
BETWEEN THE CALCULATED STRUCTURES). THE STRUCTURES ARE
BASED ON A TOTAL OF 1740 EXPERIMENTAL NMR RESTRAINTS
COMPRISING: 1444 INTERPROTON DISTANCE RESTRAINTS DERIVED
FROM NOE MEASUREMENTS; AND 296 TORSION ANGLE RESTRAINTS.
THE NOE RESTRAINTS ARE SUBDIVIDED AS FOLLOWS: (A) WITHIN
THE PROTEIN: 242 INTERRESIDUE SEQUENTIAL (|I-J|=1); 161
INTERRESIDUE SHORT RANGE (1(LESS THAN)|I-J|(LESS THAN)=5);
182 INTERRESIDUE LONG RANGE (|I-J|(GREATER THAN)5); AND
334 INTRARESIDUE. (B) WITHIN THE DNA: 157 INTRARESIDUE;
180 SEQUENTIAL INTRASTRAND; 34 INTERSTRAND; AND 37
H-BONDS (C) BETWEEN PROTEIN AND DNA: 117. THE TORSION
ANGLE RESTRAINTS ARE SUBDIVIDED AS FOLLOWS: 144 ANGLES
FOR THE PROTEIN (58 PHI, 56 PSI, 26 CHI1 AND 4 CHI2) AND
152 FOR THE DNA. THE TORSION ANGLE RESTRAINTS FOR THE
DNA COMPRISE LOOSE RESTRAINTS ON THE BACKBONE TORSION
ANGLES ALPHA, BETA, GAMMA, EPSILON AND ZETA TO PREVENT
PROBLEMS ASSOCIATED WITH LOCAL MIRROR IMAGES.
THE METHOD USED TO DETERMINE THE STRUCTURES IS THE HYBRID
METRIC MATRIX DISTANCE GEOMETRY-DYNAMICAL SIMULATED
ANNEALING METHOD [M.NILGES, G.M.CLORE, AND A.M.GRONENBORN
FEBS LETT. 229, 317-324 (1988)].
A TOTAL OF 30 STRUCTURES WERE CALCULATED. THE ATOMIC RMS
DISTRIBUTION ABOUT THE MEAN COORDINATE POSITIONS FOR
RESIDUES 2 - 59 OF THE PROTEIN AND BASE PAIRS 6 - 13 OF THE
DNA IS 0.70 (+/-0.13) A FOR THE BACKBONE ATOMS OF THE
PROTEIN AND ALL ATOMS OF THE DNA, AND 1.13 (+/-0.08) A FOR
ALL ATOMS OF THE PROTEIN AND DNA. THE N-TERMINUS
(RESIDUE 1) AND C-TERMINUS (RESIDUES 60 - 66) ARE
DISORDERED. THE ORIENTATION OF THE FIRST 5 AND LAST 3 BASE
PAIRS OF THE 16MER DNA DUPLEX, WHICH ARE NOT IN CONTACT
WITH THE DNA, IS POORLY DEFINED WITH RESPECT TO THE CORE OF
THE COMPLEX. CONSEQUENTLY, ONLY THE COORDINATES OF THE
COMPLEX PROPER HAVE BEEN DEPOSITED: I.E. RESIDUES 1 - 60
OF THE PROTEIN AND BASE PAIRS 6 - 13 OF THE DNA.
THE COORDINATES OF THE 30 INDIVIDUAL SA STRUCTURES ARE
PRESENTED AS MODELS 1 TO 30 IN PROTEIN DATA BANK ENTRY
1GAU. THE QUANTITY IN COLUMNS 61 - 66 OF THESE MODELS HAS
NO MEANING.
THE COORDINATES OF THE RESTRAINED MINIMIZED STRUCTURE
ARE PRESENTED IN THIS ENTRY. THE (SA)R RESTRAINED
MINIMIZED MEAN STRUCTURE WAS DERIVED BY AVERAGING THE
COORDINATES OF THE INDIVIDUAL SA STRUCTURES (BEST FITTED TO
RESIDUES 2 - 59 OF THE PROTEIN AND BASE PAIRS 6 - 13 OF THE
DNA), AND SUBJECTING THE RESULTING COORDINATES TO
RESTRAINED MINIMIZATION. THE QUANTITY PRESENTED IN COLUMNS
61 - 66 OF THE MEAN STRUCTURE, PRESENTED IN THIS ENTRY,
REPRESENTS THE ATOMIC RMS DEVIATIONS OF THE 30 INDIVIDUAL
SA STRUCTURES ABOUT THE MEAN STRUCTURE.
ZN
67
4
ZN
ZN
67
A
A
106
n
1
DA
106
B
G
107
n
2
DG
107
B
A
108
n
3
DA
108
B
T
109
n
4
DT
109
B
A
110
n
5
DA
110
B
A
111
n
6
DA
111
B
A
112
n
7
DA
112
B
C
113
n
8
DC
113
B
G
120
n
1
DG
120
C
T
121
n
2
DT
121
C
T
122
n
3
DT
122
C
T
123
n
4
DT
123
C
A
124
n
5
DA
124
C
T
125
n
6
DT
125
C
C
126
n
7
DC
126
C
T
127
n
8
DT
127
C
LYS
1
n
1
LYS
1
A
ARG
2
n
2
ARG
2
A
ALA
3
n
3
ALA
3
A
GLY
4
n
4
GLY
4
A
THR
5
n
5
THR
5
A
VAL
6
n
6
VAL
6
A
CYS
7
n
7
CYS
7
A
SER
8
n
8
SER
8
A
ASN
9
n
9
ASN
9
A
CYS
10
n
10
CYS
10
A
GLN
11
n
11
GLN
11
A
THR
12
n
12
THR
12
A
SER
13
n
13
SER
13
A
THR
14
n
14
THR
14
A
THR
15
n
15
THR
15
A
THR
16
n
16
THR
16
A
LEU
17
n
17
LEU
17
A
TRP
18
n
18
TRP
18
A
ARG
19
n
19
ARG
19
A
ARG
20
n
20
ARG
20
A
SER
21
n
21
SER
21
A
PRO
22
n
22
PRO
22
A
MET
23
n
23
MET
23
A
GLY
24
n
24
GLY
24
A
ASP
25
n
25
ASP
25
A
PRO
26
n
26
PRO
26
A
VAL
27
n
27
VAL
27
A
CYS
28
n
28
CYS
28
A
ASN
29
n
29
ASN
29
A
ALA
30
n
30
ALA
30
A
CYS
31
n
31
CYS
31
A
GLY
32
n
32
GLY
32
A
LEU
33
n
33
LEU
33
A
TYR
34
n
34
TYR
34
A
TYR
35
n
35
TYR
35
A
LYS
36
n
36
LYS
36
A
LEU
37
n
37
LEU
37
A
HIS
38
n
38
HIS
38
A
GLN
39
n
39
GLN
39
A
VAL
40
n
40
VAL
40
A
ASN
41
n
41
ASN
41
A
ARG
42
n
42
ARG
42
A
PRO
43
n
43
PRO
43
A
LEU
44
n
44
LEU
44
A
THR
45
n
45
THR
45
A
MET
46
n
46
MET
46
A
ARG
47
n
47
ARG
47
A
LYS
48
n
48
LYS
48
A
ASP
49
n
49
ASP
49
A
GLY
50
n
50
GLY
50
A
ILE
51
n
51
ILE
51
A
GLN
52
n
52
GLN
52
A
THR
53
n
53
THR
53
A
ARG
54
n
54
ARG
54
A
ASN
55
n
55
ASN
55
A
ARG
56
n
56
ARG
56
A
LYS
57
n
57
LYS
57
A
VAL
58
n
58
VAL
58
A
SER
59
n
59
SER
59
A
SER
60
n
60
SER
60
A
author_defined_assembly
3
trimeric
A
CYS
28
C
SG
CYS
28
1_555
A
ZN
67
D
ZN
ZN
1_555
A
CYS
31
C
SG
CYS
31
1_555
108.5
A
CYS
28
C
SG
CYS
28
1_555
A
ZN
67
D
ZN
ZN
1_555
A
CYS
7
C
SG
CYS
7
1_555
112.6
A
CYS
31
C
SG
CYS
31
1_555
A
ZN
67
D
ZN
ZN
1_555
A
CYS
7
C
SG
CYS
7
1_555
108.9
A
CYS
28
C
SG
CYS
28
1_555
A
ZN
67
D
ZN
ZN
1_555
A
CYS
10
C
SG
CYS
10
1_555
110.2
A
CYS
31
C
SG
CYS
31
1_555
A
ZN
67
D
ZN
ZN
1_555
A
CYS
10
C
SG
CYS
10
1_555
109.8
A
CYS
7
C
SG
CYS
7
1_555
A
ZN
67
D
ZN
ZN
1_555
A
CYS
10
C
SG
CYS
10
1_555
106.8
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
A
N
SER
21
C
N
SER
21
A
O
ASP
25
C
O
ASP
25
1
B
C
O6
H41
DG
DC
107
126
1.60
1
2.45
0.30
108.30
110.75
B
B
B
O4'
C1'
N9
DA
DA
DA
106
106
106
N
1
-3.88
0.50
103.90
100.02
B
B
B
C5
N7
C8
DA
DA
DA
106
106
106
N
1
6.54
0.50
113.80
120.34
B
B
B
N7
C8
N9
DA
DA
DA
106
106
106
N
1
-3.07
0.40
105.80
102.73
B
B
B
C8
N9
C4
DA
DA
DA
106
106
106
N
1
3.58
0.30
108.30
111.88
B
B
B
O4'
C1'
N9
DG
DG
DG
107
107
107
N
1
-3.88
0.50
104.30
100.42
B
B
B
C5
N7
C8
DG
DG
DG
107
107
107
N
1
6.83
0.50
113.10
119.93
B
B
B
N7
C8
N9
DG
DG
DG
107
107
107
N
1
-3.91
0.40
106.40
102.49
B
B
B
C8
N9
C4
DG
DG
DG
107
107
107
N
1
2.61
0.30
108.30
110.91
B
B
B
O4'
C1'
N9
DA
DA
DA
108
108
108
N
1
-3.88
0.50
103.90
100.02
B
B
B
C5
N7
C8
DA
DA
DA
108
108
108
N
1
6.19
0.50
113.80
119.99
B
B
B
N7
C8
N9
DA
DA
DA
108
108
108
N
1
-3.15
0.40
105.80
102.65
B
B
B
C8
N9
C4
DA
DA
DA
108
108
108
N
1
2.76
0.30
108.30
111.06
B
B
B
O4'
C1'
N1
DT
DT
DT
109
109
109
N
1
2.44
0.30
108.30
110.74
B
B
B
O4'
C1'
N9
DA
DA
DA
110
110
110
N
1
-3.66
0.50
103.90
100.24
B
B
B
C5
N7
C8
DA
DA
DA
110
110
110
N
1
6.12
0.50
113.80
119.92
B
B
B
N7
C8
N9
DA
DA
DA
110
110
110
N
1
-3.35
0.40
105.80
102.45
B
B
B
C8
N9
C4
DA
DA
DA
110
110
110
N
1
2.37
0.30
108.30
110.67
B
B
B
O4'
C1'
N9
DA
DA
DA
111
111
111
N
1
-3.78
0.50
103.90
100.12
B
B
B
C5
N7
C8
DA
DA
DA
111
111
111
N
1
6.27
0.50
113.80
120.07
B
B
B
N7
C8
N9
DA
DA
DA
111
111
111
N
1
-3.28
0.40
105.80
102.52
B
B
B
C8
N9
C4
DA
DA
DA
111
111
111
N
1
2.72
0.30
108.30
111.02
B
B
B
O4'
C1'
N9
DA
DA
DA
112
112
112
N
1
-3.76
0.50
103.90
100.14
B
B
B
C5
N7
C8
DA
DA
DA
112
112
112
N
1
6.06
0.50
113.80
119.86
B
B
B
N7
C8
N9
DA
DA
DA
112
112
112
N
1
-3.28
0.40
105.80
102.52
B
B
B
C8
N9
C4
DA
DA
DA
112
112
112
N
1
2.03
0.30
108.30
110.33
B
B
B
O4'
C1'
N1
DC
DC
DC
113
113
113
N
1
2.81
0.30
108.30
111.11
C
C
C
O4'
C1'
N9
DG
DG
DG
120
120
120
N
1
-3.96
0.50
104.30
100.34
C
C
C
C5
N7
C8
DG
DG
DG
120
120
120
N
1
7.10
0.50
113.10
120.20
C
C
C
N7
C8
N9
DG
DG
DG
120
120
120
N
1
-3.80
0.40
106.40
102.60
C
C
C
C8
N9
C4
DG
DG
DG
120
120
120
N
1
3.48
0.30
108.30
111.78
C
C
C
O4'
C1'
N1
DT
DT
DT
121
121
121
N
1
-3.88
0.60
122.90
119.02
C
C
C
C6
C5
C7
DT
DT
DT
121
121
121
N
1
2.99
0.30
108.30
111.29
C
C
C
O4'
C1'
N1
DT
DT
DT
122
122
122
N
1
2.50
0.30
108.30
110.80
C
C
C
O4'
C1'
N1
DT
DT
DT
123
123
123
N
1
2.15
0.30
108.30
110.45
C
C
C
O4'
C1'
N9
DA
DA
DA
124
124
124
N
1
-3.99
0.50
103.90
99.91
C
C
C
C5
N7
C8
DA
DA
DA
124
124
124
N
1
6.61
0.50
113.80
120.41
C
C
C
N7
C8
N9
DA
DA
DA
124
124
124
N
1
-3.13
0.40
105.80
102.67
C
C
C
C8
N9
C4
DA
DA
DA
124
124
124
N
1
4.34
0.30
108.30
112.64
C
C
C
O4'
C1'
N1
DT
DT
DT
125
125
125
N
1
2.24
0.30
108.30
110.54
C
C
C
O4'
C1'
N1
DC
DC
DC
126
126
126
N
1
2.62
0.30
108.30
110.92
C
C
C
O4'
C1'
N1
DT
DT
DT
127
127
127
N
1
A
THR
5
-67.81
85.79
1
A
CYS
10
-141.73
17.21
1
A
GLN
11
52.60
15.93
1
A
LEU
44
-74.62
30.85
1
A
ASN
55
-60.90
96.86
ERYTHROID TRANSCRIPTION FACTOR GATA-1/DNA Complex
SOLUTION STRUCTURE OF THE SPECIFIC DNA COMPLEX OF THE ZINC CONTAINING DNA BINDING DOMAIN OF THE ERYTHROID TRANSCRIPTION FACTOR GATA-1 BY MULTIDIMENSIONAL NMR
1
N
N
2
N
N
3
N
N
4
N
N
A
ASN
29
C
ASN
29
HELX_P
A
GLN
39
C
GLN
39
1
1
11
A
PRO
43
C
PRO
43
HELX_P
A
ARG
47
C
ARG
47
5
2
5
metalc
2.323
A
ZN
67
D
ZN
ZN
1_555
A
CYS
28
C
SG
CYS
28
1_555
metalc
2.288
A
ZN
67
D
ZN
ZN
1_555
A
CYS
31
C
SG
CYS
31
1_555
metalc
2.282
A
ZN
67
D
ZN
ZN
1_555
A
CYS
7
C
SG
CYS
7
1_555
metalc
2.276
A
ZN
67
D
ZN
ZN
1_555
A
CYS
10
C
SG
CYS
10
1_555
hydrog
WATSON-CRICK
B
DA
106
A
N1
DA
1
1_555
C
DT
127
B
N3
DT
8
1_555
hydrog
WATSON-CRICK
B
DA
106
A
N6
DA
1
1_555
C
DT
127
B
O4
DT
8
1_555
hydrog
WATSON-CRICK
B
DG
107
A
N1
DG
2
1_555
C
DC
126
B
N3
DC
7
1_555
hydrog
WATSON-CRICK
B
DG
107
A
N2
DG
2
1_555
C
DC
126
B
O2
DC
7
1_555
hydrog
WATSON-CRICK
B
DG
107
A
O6
DG
2
1_555
C
DC
126
B
N4
DC
7
1_555
hydrog
DG-DT MISPAIR
B
DG
107
A
N2
DG
2
1_555
C
DT
127
B
O2
DT
8
1_555
hydrog
WATSON-CRICK
B
DA
108
A
N1
DA
3
1_555
C
DT
125
B
N3
DT
6
1_555
hydrog
WATSON-CRICK
B
DA
108
A
N6
DA
3
1_555
C
DT
125
B
O4
DT
6
1_555
hydrog
WATSON-CRICK
B
DT
109
A
N3
DT
4
1_555
C
DA
124
B
N1
DA
5
1_555
hydrog
WATSON-CRICK
B
DT
109
A
O4
DT
4
1_555
C
DA
124
B
N6
DA
5
1_555
hydrog
WATSON-CRICK
B
DA
110
A
N1
DA
5
1_555
C
DT
123
B
N3
DT
4
1_555
hydrog
WATSON-CRICK
B
DA
110
A
N6
DA
5
1_555
C
DT
123
B
O4
DT
4
1_555
hydrog
WATSON-CRICK
B
DA
111
A
N1
DA
6
1_555
C
DT
122
B
N3
DT
3
1_555
hydrog
WATSON-CRICK
B
DA
111
A
N6
DA
6
1_555
C
DT
122
B
O4
DT
3
1_555
hydrog
WATSON-CRICK
B
DA
112
A
N1
DA
7
1_555
C
DT
121
B
N3
DT
2
1_555
hydrog
WATSON-CRICK
B
DA
112
A
N6
DA
7
1_555
C
DT
121
B
O4
DT
2
1_555
hydrog
WATSON-CRICK
B
DC
113
A
N3
DC
8
1_555
C
DG
120
B
N1
DG
1
1_555
hydrog
WATSON-CRICK
B
DC
113
A
N4
DC
8
1_555
C
DG
120
B
O6
DG
1
1_555
hydrog
WATSON-CRICK
B
DC
113
A
O2
DC
8
1_555
C
DG
120
B
N2
DG
1
1_555
TRANSCRIPTION/DNA
DNA, DOUBLE HELIX, DNA-TRANSCRIPTION FACTOR COMPLEX, TRANSCRIPTION-DNA COMPLEX
GATA1_CHICK
UNP
3
158
P17678
1GAT
PDB
1
1GAT
1GAT
PDB
2
1GAT
158
217
1GAT
1
60
P17678
A
1
1
60
106
113
1GAT
106
113
1GAT
B
2
1
8
120
127
1GAT
120
127
1GAT
C
3
1
8
2
anti-parallel
A
TRP
18
C
TRP
18
A
SER
21
C
SER
21
A
ASP
25
C
ASP
25
A
CYS
28
C
CYS
28
BINDING SITE FOR RESIDUE ZN A 67
Software
4
A
CYS
7
C
CYS
7
4
1_555
A
CYS
10
C
CYS
10
4
1_555
A
CYS
28
C
CYS
28
4
1_555
A
CYS
31
C
CYS
31
4
1_555
1
P 1