1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Boudet, J.
Duval, V.
Van Melckebeke, H.
Blackledge, M.
Amoroso, A.
Joris, B.
Simorre, J.-P.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
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
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
C5 H9 N O4
147.129
y
GLUTAMIC ACID
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
C9 H11 N O2
165.189
y
PHENYLALANINE
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
UK
Nucleic Acids Res.
NARHAD
0389
0305-1048
35
4384
4395
10.1093/nar/gkm448
17576674
Conformational and thermodynamic changes of the repressor/DNA operator complex upon monomerization shed new light on regulation mechanisms of bacterial resistance against beta-lactam antibiotics.
2007
10.2210/pdb2p7c/pdb
pdb_00002p7c
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
3669.442
Strand 1 of Twelve base-pair DNA
1
syn
polymer
3651.414
Strand 2 of Twelve base-pair DNA
1
syn
polymer
9512.079
Penicillinase repressor
N-TERMINAL DOMAIN
1
man
polymer
Regulatory protein blaI, Beta-lactamase repressor protein
no
no
(DA)(DA)(DA)(DG)(DT)(DA)(DT)(DT)(DA)(DC)(DA)(DT)
AAAGTATTACAT
A
polydeoxyribonucleotide
no
no
(DA)(DT)(DG)(DT)(DA)(DA)(DT)(DA)(DC)(DT)(DT)(DT)
ATGTAATACTTT
C
polydeoxyribonucleotide
no
no
MKKIPQISDAELEVMKVIWKHSSINTNEVIKELSKTSTWSPKTIQTMLLRLIKKGALNHHKEGRVFVYTPNIDESDYIEV
KS
MKKIPQISDAELEVMKVIWKHSSINTNEVIKELSKTSTWSPKTIQTMLLRLIKKGALNHHKEGRVFVYTPNIDESDYIEV
KS
B
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
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
Bacillus
bacillus licheniformis 749/I
Escherichia
sample
blaI, penI
1402
Bacillus licheniformis
562
Escherichia coli
BL21(DE3) pLys
PLASMID
pET22B
15.515
1
20
A
1
C
24
-3.194
A_DA1:DT24_C
1
-10.386
-0.465
0.241
-0.065
12.691
1
20
A
2
C
23
-4.316
A_DA2:DT23_C
2
-13.470
-0.115
0.349
-0.003
11.547
1
20
A
3
C
22
-3.367
A_DA3:DT22_C
3
-10.897
0.365
0.824
-0.072
-3.827
1
19
A
4
C
21
1.072
A_DG4:DC21_C
4
-14.618
0.406
0.094
0.045
-9.659
1
20
A
5
C
20
-1.973
A_DT5:DA20_C
5
-10.410
0.636
0.173
-0.120
-9.941
1
20
A
6
C
19
6.115
A_DA6:DT19_C
6
2.400
0.524
0.532
-0.100
-15.951
1
20
A
7
C
18
2.453
A_DT7:DA18_C
7
4.566
0.538
1.040
-0.273
-1.644
1
20
A
8
C
17
-0.724
A_DT8:DA17_C
8
7.058
0.619
0.216
-0.081
13.991
1
20
A
9
C
16
-3.928
A_DA9:DT16_C
9
6.164
0.479
0.361
0.044
7.123
1
19
A
10
C
15
-1.760
A_DC10:DG15_C
10
5.124
0.675
-0.256
-0.117
-3.895
1
20
A
11
C
14
-0.989
A_DA11:DT14_C
11
-5.090
0.561
-0.481
-0.057
-7.985
1
20
A
12
C
13
-2.038
A_DT12:DA13_C
12
-3.039
0.297
-0.273
-0.017
3.171
38.999
A
A
1
2
2.008
C
C
24
23
3.147
1.339
-0.691
-0.475
AA_DA1DA2:DT23DT24_CC
1
-2.964
4.444
38.869
-0.869
0.689
3.131
36.053
A
A
2
3
-4.997
C
C
23
22
3.135
-3.083
-0.006
-0.307
AA_DA2DA3:DT22DT23_CC
2
-4.136
6.704
35.694
-0.075
-0.555
3.756
35.936
A
A
3
4
-0.420
C
C
22
21
3.716
-0.259
0.513
-0.671
AA_DA3DG4:DC21DT22_CC
3
5.086
-8.269
35.585
-1.044
0.001
3.363
37.576
A
A
4
5
-7.085
C
C
21
20
3.329
-4.553
0.089
-0.471
AA_DG4DT5:DA20DC21_CC
4
0.582
-0.905
37.305
-0.122
-0.060
3.150
37.579
A
A
5
6
-6.306
C
C
20
19
3.084
-4.051
0.368
-1.165
AA_DT5DA6:DT19DA20_CC
5
-3.089
4.810
37.244
-1.303
-0.957
3.823
30.656
A
A
6
7
-9.275
C
C
19
18
3.622
-4.879
-0.432
-1.435
AA_DA6DT7:DA18DT19_CC
6
-2.313
4.396
30.188
-1.611
0.295
3.104
31.023
A
A
7
8
-11.091
C
C
18
17
3.039
-5.860
-0.106
-1.059
AA_DT7DT8:DA17DA18_CC
7
6.124
-11.590
29.870
-0.900
1.326
3.149
34.454
A
A
8
9
-12.820
C
C
17
16
2.901
-7.529
-0.569
-1.331
AA_DT8DA9:DT16DA17_CC
8
-2.442
4.158
33.559
-1.150
0.604
3.705
31.880
A
A
9
10
-6.395
C
C
16
15
3.647
-3.500
-0.200
-1.067
AA_DA9DC10:DG15DT16_CC
9
3.064
-5.597
31.548
-1.223
0.994
3.294
34.716
A
A
10
11
8.398
C
C
15
14
3.413
4.982
0.252
-0.653
AA_DC10DA11:DT14DG15_CC
10
4.409
-7.433
34.092
-1.884
0.276
3.393
34.586
A
A
11
12
-3.958
C
C
14
13
3.301
-2.351
0.343
-1.399
AA_DA11DT12:DA13DT14_CC
11
0.808
-1.361
34.499
-1.982
-0.449
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
2007-06-12
1
1
2008-05-01
1
2
2011-07-13
1
3
2022-03-16
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
RCSB
Y
RCSB
2007-03-20
REL
REL
Chemically synthetized bacillus licheniformis blaP half-operator
sample
Chemically synthetized bacillus licheniformis blaP half-operator
sample
The structure was determined using a de novo docking approach.
structures with the lowest energy
250
10
2D_isotopically_doubly_filtered_13C_15N_NOESY_HSQC
3D_isotopically_doubly_filtered_13C_15N_NOESY_HSQC
2D_filtered_NOESY
methyl_selective_13C_HSQC
15N_HSQC
200mM
7.6
ambient
298
K
structures used for refinement were generated from the docking procedure started with intermolecular nOe and ambiguous distance restraints proceeding from chemical shift mapping.
simulated annealing from randomized coordinates followed by restrained molecular dynamics.
1
lowest energy
2mM 13C,15N BlaI-NTD repressor in complex with blaP half-operator; 50mM NaH2PO4/Na2HPO4, 200mM KCl, 1mM EDTA, 1mM NaN3
90% H2O/10% D2O
2mM 13C,15N BlaI-NTD repressor in complex with blaP half-operator; 50mM NaH2PO4/Na2HPO4, 200mM KCl, 1mM EDTA, 1mM NaN3
100% D2O
0.1mM 13C,15N BlaI-NTD repressor; 50mM NaH2PO4/Na2HPO4, 200mM KCl, 1mM EDTA, 1mM NaN3
90% H2O/10% D2O
Accelrys
structure solution
Discover
2.98
Accelrys
refinement
Discover
2.98
Delaglio
processing
NMRPipe
2.3
Varian
collection
VnmrJ
2.1
Johnson
data analysis
NMRView
5.2.2
600
Varian
INOVA
800
Varian
INOVA
A
1
n
1
DA
1
A
A
2
n
2
DA
2
A
A
3
n
3
DA
3
A
G
4
n
4
DG
4
A
T
5
n
5
DT
5
A
A
6
n
6
DA
6
A
T
7
n
7
DT
7
A
T
8
n
8
DT
8
A
A
9
n
9
DA
9
A
C
10
n
10
DC
10
A
A
11
n
11
DA
11
A
T
12
n
12
DT
12
A
A
13
n
1
DA
13
C
T
14
n
2
DT
14
C
G
15
n
3
DG
15
C
T
16
n
4
DT
16
C
A
17
n
5
DA
17
C
A
18
n
6
DA
18
C
T
19
n
7
DT
19
C
A
20
n
8
DA
20
C
C
21
n
9
DC
21
C
T
22
n
10
DT
22
C
T
23
n
11
DT
23
C
T
24
n
12
DT
24
C
MET
1
n
1
MET
1
B
LYS
2
n
2
LYS
2
B
LYS
3
n
3
LYS
3
B
ILE
4
n
4
ILE
4
B
PRO
5
n
5
PRO
5
B
GLN
6
n
6
GLN
6
B
ILE
7
n
7
ILE
7
B
SER
8
n
8
SER
8
B
ASP
9
n
9
ASP
9
B
ALA
10
n
10
ALA
10
B
GLU
11
n
11
GLU
11
B
LEU
12
n
12
LEU
12
B
GLU
13
n
13
GLU
13
B
VAL
14
n
14
VAL
14
B
MET
15
n
15
MET
15
B
LYS
16
n
16
LYS
16
B
VAL
17
n
17
VAL
17
B
ILE
18
n
18
ILE
18
B
TRP
19
n
19
TRP
19
B
LYS
20
n
20
LYS
20
B
HIS
21
n
21
HIS
21
B
SER
22
n
22
SER
22
B
SER
23
n
23
SER
23
B
ILE
24
n
24
ILE
24
B
ASN
25
n
25
ASN
25
B
THR
26
n
26
THR
26
B
ASN
27
n
27
ASN
27
B
GLU
28
n
28
GLU
28
B
VAL
29
n
29
VAL
29
B
ILE
30
n
30
ILE
30
B
LYS
31
n
31
LYS
31
B
GLU
32
n
32
GLU
32
B
LEU
33
n
33
LEU
33
B
SER
34
n
34
SER
34
B
LYS
35
n
35
LYS
35
B
THR
36
n
36
THR
36
B
SER
37
n
37
SER
37
B
THR
38
n
38
THR
38
B
TRP
39
n
39
TRP
39
B
SER
40
n
40
SER
40
B
PRO
41
n
41
PRO
41
B
LYS
42
n
42
LYS
42
B
THR
43
n
43
THR
43
B
ILE
44
n
44
ILE
44
B
GLN
45
n
45
GLN
45
B
THR
46
n
46
THR
46
B
MET
47
n
47
MET
47
B
LEU
48
n
48
LEU
48
B
LEU
49
n
49
LEU
49
B
ARG
50
n
50
ARG
50
B
LEU
51
n
51
LEU
51
B
ILE
52
n
52
ILE
52
B
LYS
53
n
53
LYS
53
B
LYS
54
n
54
LYS
54
B
GLY
55
n
55
GLY
55
B
ALA
56
n
56
ALA
56
B
LEU
57
n
57
LEU
57
B
ASN
58
n
58
ASN
58
B
HIS
59
n
59
HIS
59
B
HIS
60
n
60
HIS
60
B
LYS
61
n
61
LYS
61
B
GLU
62
n
62
GLU
62
B
GLY
63
n
63
GLY
63
B
ARG
64
n
64
ARG
64
B
VAL
65
n
65
VAL
65
B
PHE
66
n
66
PHE
66
B
VAL
67
n
67
VAL
67
B
TYR
68
n
68
TYR
68
B
THR
69
n
69
THR
69
B
PRO
70
n
70
PRO
70
B
ASN
71
n
71
ASN
71
B
ILE
72
n
72
ILE
72
B
ASP
73
n
73
ASP
73
B
GLU
74
n
74
GLU
74
B
SER
75
n
75
SER
75
B
ASP
76
n
76
ASP
76
B
TYR
77
n
77
TYR
77
B
ILE
78
n
78
ILE
78
B
GLU
79
n
79
GLU
79
B
VAL
80
n
80
VAL
80
B
LYS
81
n
81
LYS
81
B
SER
82
n
82
SER
82
B
author_defined_assembly
3
trimeric
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
B
N
ASN
58
C
N
ASN
58
B
O
THR
69
C
O
THR
69
2
C
B
H72
HA
DT
THR
16
43
1.06
3
C
B
H72
HA
DT
THR
16
43
0.93
3
A
B
H71
HZ
DT
PHE
8
66
1.07
3
A
B
H73
HG22
DT
THR
7
26
1.14
3
C
B
H72
HA
DT
ARG
14
50
1.29
3
B
B
HD2
O
HIS
SER
21
23
1.32
3
B
B
CD2
O
HIS
SER
21
23
2.10
4
C
B
H72
HA
DT
THR
16
43
1.08
8
C
B
H72
HA
DT
THR
16
43
0.95
8
C
B
H72
HD2
DT
ARG
14
50
1.14
9
C
B
H72
HA
DT
THR
16
43
1.11
9
C
B
H71
HG2
DT
ARG
14
50
1.31
9
C
B
H5''
O
DA
GLN
13
6
1.48
1
C
DA
13
0.066
SIDE CHAIN
1
B
PHE
66
0.149
SIDE CHAIN
1
B
TYR
68
0.111
SIDE CHAIN
2
A
DA
2
0.056
SIDE CHAIN
2
A
DA
6
0.090
SIDE CHAIN
2
A
DT
8
0.065
SIDE CHAIN
2
A
DT
12
0.082
SIDE CHAIN
2
C
DA
13
0.064
SIDE CHAIN
2
C
DT
16
0.109
SIDE CHAIN
2
C
DC
21
0.087
SIDE CHAIN
2
B
PHE
66
0.123
SIDE CHAIN
2
B
TYR
68
0.109
SIDE CHAIN
3
A
DG
4
0.052
SIDE CHAIN
3
A
DA
6
0.073
SIDE CHAIN
3
A
DT
7
0.088
SIDE CHAIN
3
A
DT
8
0.080
SIDE CHAIN
3
C
DT
16
0.130
SIDE CHAIN
3
C
DA
20
0.054
SIDE CHAIN
3
B
TYR
68
0.245
SIDE CHAIN
4
A
DT
7
0.078
SIDE CHAIN
4
C
DA
13
0.067
SIDE CHAIN
4
C
DT
14
0.115
SIDE CHAIN
4
C
DT
16
0.105
SIDE CHAIN
4
C
DA
20
0.056
SIDE CHAIN
4
B
PHE
66
0.078
SIDE CHAIN
5
A
DT
12
0.060
SIDE CHAIN
5
C
DA
13
0.053
SIDE CHAIN
5
B
PHE
66
0.156
SIDE CHAIN
5
B
TYR
68
0.148
SIDE CHAIN
6
A
DT
12
0.071
SIDE CHAIN
6
C
DT
16
0.104
SIDE CHAIN
6
B
PHE
66
0.105
SIDE CHAIN
6
B
TYR
68
0.067
SIDE CHAIN
7
A
DT
7
0.069
SIDE CHAIN
7
C
DT
16
0.110
SIDE CHAIN
7
B
PHE
66
0.162
SIDE CHAIN
8
A
DT
7
0.077
SIDE CHAIN
8
C
DT
16
0.074
SIDE CHAIN
8
C
DC
21
0.061
SIDE CHAIN
8
B
PHE
66
0.336
SIDE CHAIN
8
B
TYR
68
0.081
SIDE CHAIN
9
A
DA
2
0.057
SIDE CHAIN
9
C
DA
13
0.063
SIDE CHAIN
9
C
DT
16
0.149
SIDE CHAIN
9
B
PHE
66
0.200
SIDE CHAIN
9
B
TYR
68
0.080
SIDE CHAIN
10
A
DA
2
0.052
SIDE CHAIN
10
C
DT
14
0.065
SIDE CHAIN
10
C
DC
21
0.071
SIDE CHAIN
10
B
PHE
66
0.150
SIDE CHAIN
10
B
TYR
68
0.120
SIDE CHAIN
1
2.42
0.30
108.30
110.72
A
A
A
O4'
C1'
N9
DA
DA
DA
1
1
1
N
1
2.02
0.30
108.30
110.32
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
1
5.40
0.30
108.30
113.70
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
1
-4.40
0.70
102.20
97.80
A
A
A
C4'
C3'
C2'
DA
DA
DA
6
6
6
N
1
5.81
0.30
108.30
114.11
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
1
3.50
0.30
108.30
111.80
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
1
3.51
0.30
108.30
111.81
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
1
3.48
0.30
108.30
111.78
A
A
A
O4'
C1'
N9
DA
DA
DA
11
11
11
N
1
5.08
0.30
108.30
113.38
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
1
4.06
0.30
108.30
112.36
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
1
3.98
0.60
106.00
109.98
C
C
C
O4'
C4'
C3'
DT
DT
DT
14
14
14
N
1
-4.42
0.60
122.90
118.48
C
C
C
C6
C5
C7
DT
DT
DT
14
14
14
N
1
2.29
0.30
108.30
110.59
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
1
7.04
0.30
108.30
115.34
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
1
3.98
0.30
108.30
112.28
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
1
3.75
0.60
106.00
109.75
C
C
C
O4'
C4'
C3'
DA
DA
DA
18
18
18
N
1
1.90
0.30
108.30
110.20
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
1
3.81
0.60
106.00
109.81
C
C
C
O4'
C4'
C3'
DT
DT
DT
19
19
19
N
1
4.69
0.30
108.30
112.99
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
1
3.78
0.60
106.00
109.78
C
C
C
O4'
C4'
C3'
DA
DA
DA
20
20
20
N
1
4.73
0.30
108.30
113.03
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
1
1.95
0.30
108.30
110.25
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
1
3.84
0.30
108.30
112.14
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
1
3.50
0.30
108.30
111.80
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
2
2.05
0.30
108.30
110.35
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
2
2.89
0.30
108.30
111.19
A
A
A
O4'
C1'
N9
DG
DG
DG
4
4
4
N
2
2.13
0.30
108.30
110.43
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
2
-4.50
0.60
122.90
118.40
A
A
A
C6
C5
C7
DT
DT
DT
5
5
5
N
2
-4.39
0.70
102.20
97.81
A
A
A
C4'
C3'
C2'
DA
DA
DA
6
6
6
N
2
3.01
0.30
108.30
111.31
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
2
7.35
1.20
119.70
127.05
A
A
A
C3'
O3'
P
DA
DA
DT
6
6
7
Y
2
3.89
0.30
108.30
112.19
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
2
6.45
0.30
108.30
114.75
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
2
-3.93
0.60
122.90
118.97
A
A
A
C6
C5
C7
DT
DT
DT
8
8
8
N
2
2.42
0.30
108.30
110.72
A
A
A
O4'
C1'
N1
DC
DC
DC
10
10
10
N
2
9.94
0.30
108.30
118.24
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
2
2.53
0.30
108.30
110.83
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
2
3.80
0.60
106.00
109.80
C
C
C
O4'
C4'
C3'
DT
DT
DT
14
14
14
N
2
-4.62
0.60
122.90
118.28
C
C
C
C6
C5
C7
DT
DT
DT
14
14
14
N
2
4.17
0.60
106.00
110.17
C
C
C
O4'
C4'
C3'
DG
DG
DG
15
15
15
N
2
3.40
0.30
108.30
111.70
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
2
7.80
0.30
108.30
116.10
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
2
2.79
0.30
108.30
111.09
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
2
4.69
0.30
108.30
112.99
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
2
4.40
0.30
108.30
112.70
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
2
1.89
0.30
108.30
110.19
C
C
C
O4'
C1'
N9
DA
DA
DA
20
20
20
N
2
2.62
0.30
108.30
110.92
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
2
4.62
0.30
108.30
112.92
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
2
4.06
0.30
108.30
112.36
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
2
2.65
0.30
108.30
110.95
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
2
11.25
1.70
111.00
122.25
B
B
B
CB
CG
CD2
LEU
LEU
LEU
48
48
48
N
3
6.60
0.30
108.30
114.90
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
3
-3.82
0.60
122.90
119.08
A
A
A
C6
C5
C7
DT
DT
DT
5
5
5
N
3
4.75
0.30
108.30
113.05
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
3
3.69
0.30
108.30
111.99
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
3
6.66
0.30
108.30
114.96
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
3
-4.10
0.60
122.90
118.80
A
A
A
C6
C5
C7
DT
DT
DT
8
8
8
N
3
3.07
0.30
108.30
111.37
A
A
A
O4'
C1'
N9
DA
DA
DA
11
11
11
N
3
5.15
0.30
108.30
113.45
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
3
2.49
0.30
108.30
110.79
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
3
1.85
0.30
108.30
110.15
C
C
C
O4'
C1'
N1
DT
DT
DT
14
14
14
N
3
4.02
0.60
106.00
110.02
C
C
C
O4'
C4'
C3'
DG
DG
DG
15
15
15
N
3
2.52
0.30
108.30
110.82
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
3
8.23
0.30
108.30
116.53
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
3
-4.03
0.60
122.90
118.87
C
C
C
C6
C5
C7
DT
DT
DT
16
16
16
N
3
4.11
0.30
108.30
112.41
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
3
1.92
0.30
108.30
110.22
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
3
3.22
0.30
108.30
111.52
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
3
3.61
0.60
106.00
109.61
C
C
C
O4'
C4'
C3'
DA
DA
DA
20
20
20
N
3
2.22
0.30
108.30
110.52
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
3
4.06
0.30
108.30
112.36
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
3
2.72
0.30
108.30
111.02
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
3
8.04
0.30
108.30
116.34
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
4
1.94
0.30
108.30
110.24
A
A
A
O4'
C1'
N9
DA
DA
DA
2
2
2
N
4
3.61
0.30
108.30
111.91
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
4
2.80
0.30
108.30
111.10
A
A
A
O4'
C1'
N9
DG
DG
DG
4
4
4
N
4
2.46
0.30
108.30
110.76
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
4
2.96
0.30
108.30
111.26
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
4
5.59
0.30
108.30
113.89
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
4
6.09
0.30
108.30
114.39
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
4
-4.02
0.60
122.90
118.88
A
A
A
C6
C5
C7
DT
DT
DT
8
8
8
N
4
2.68
0.30
108.30
110.98
A
A
A
O4'
C1'
N9
DA
DA
DA
9
9
9
N
4
2.69
0.30
108.30
110.99
A
A
A
O4'
C1'
N1
DC
DC
DC
10
10
10
N
4
4.29
0.30
108.30
112.59
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
4
2.01
0.30
108.30
110.31
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
4
4.22
0.30
108.30
112.52
C
C
C
O4'
C1'
N1
DT
DT
DT
14
14
14
N
4
-4.75
0.60
122.90
118.15
C
C
C
C6
C5
C7
DT
DT
DT
14
14
14
N
4
8.93
0.30
108.30
117.23
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
4
7.28
0.30
108.30
115.58
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
4
-3.68
0.60
122.90
119.22
C
C
C
C6
C5
C7
DT
DT
DT
16
16
16
N
4
3.20
0.30
108.30
111.50
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
4
4.61
0.60
106.00
110.61
C
C
C
O4'
C4'
C3'
DA
DA
DA
18
18
18
N
4
3.47
0.30
108.30
111.77
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
4
5.46
0.30
108.30
113.76
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
4
3.43
0.30
108.30
111.73
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
4
6.76
0.30
108.30
115.06
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
5
3.87
0.60
106.00
109.87
A
A
A
O4'
C4'
C3'
DA
DA
DA
2
2
2
N
5
2.37
0.30
108.30
110.67
A
A
A
O4'
C1'
N9
DA
DA
DA
2
2
2
N
5
1.82
0.30
108.30
110.12
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
5
3.31
0.30
108.30
111.61
A
A
A
O4'
C1'
N9
DG
DG
DG
4
4
4
N
5
4.86
0.30
108.30
113.16
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
5
-3.67
0.60
122.90
119.23
A
A
A
C6
C5
C7
DT
DT
DT
5
5
5
N
5
-4.99
0.70
102.20
97.21
A
A
A
C4'
C3'
C2'
DA
DA
DA
6
6
6
N
5
3.06
0.30
108.30
111.36
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
5
3.05
0.30
108.30
111.35
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
5
-4.32
0.60
122.90
118.58
A
A
A
C6
C5
C7
DT
DT
DT
7
7
7
N
5
4.37
0.30
108.30
112.67
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
5
3.54
0.30
108.30
111.84
A
A
A
O4'
C1'
N1
DC
DC
DC
10
10
10
N
5
9.63
0.30
108.30
117.93
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
5
3.67
0.30
108.30
111.97
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
5
-4.80
0.60
122.90
118.10
C
C
C
C6
C5
C7
DT
DT
DT
14
14
14
N
5
4.62
0.30
108.30
112.92
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
5
4.10
0.30
108.30
112.40
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
5
5.10
0.30
108.30
113.40
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
5
4.40
0.30
108.30
112.70
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
5
2.24
0.30
108.30
110.54
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
5
4.55
0.30
108.30
112.85
C
C
C
O4'
C1'
N9
DA
DA
DA
20
20
20
N
5
3.92
0.30
108.30
112.22
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
5
4.96
0.30
108.30
113.26
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
5
3.39
0.30
108.30
111.69
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
5
2.88
0.30
108.30
111.18
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
5
10.65
1.70
111.00
121.65
B
B
B
CB
CG
CD2
LEU
LEU
LEU
48
48
48
N
6
2.35
0.30
108.30
110.65
A
A
A
O4'
C1'
N9
DA
DA
DA
2
2
2
N
6
3.50
0.30
108.30
111.80
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
6
5.80
0.30
108.30
114.10
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
6
-3.88
0.60
122.90
119.02
A
A
A
C6
C5
C7
DT
DT
DT
5
5
5
N
6
3.77
0.30
108.30
112.07
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
6
2.21
0.30
108.30
110.51
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
6
-3.89
0.60
122.90
119.01
A
A
A
C6
C5
C7
DT
DT
DT
7
7
7
N
6
2.72
0.30
108.30
111.02
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
6
-3.63
0.60
122.90
119.27
A
A
A
C6
C5
C7
DT
DT
DT
8
8
8
N
6
5.09
0.60
106.00
111.09
A
A
A
O4'
C4'
C3'
DA
DA
DA
9
9
9
N
6
4.09
0.30
108.30
112.39
A
A
A
O4'
C1'
N1
DC
DC
DC
10
10
10
N
6
9.74
0.30
108.30
118.04
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
6
-4.89
0.60
122.90
118.01
C
C
C
C6
C5
C7
DT
DT
DT
14
14
14
N
6
2.86
0.30
108.30
111.16
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
6
6.51
0.30
108.30
114.81
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
6
3.39
0.30
108.30
111.69
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
6
4.08
0.60
106.00
110.08
C
C
C
O4'
C4'
C3'
DA
DA
DA
18
18
18
N
6
5.35
0.30
108.30
113.65
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
6
4.16
0.30
108.30
112.46
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
6
3.33
0.30
108.30
111.63
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
6
3.43
0.30
108.30
111.73
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
6
4.35
0.60
106.00
110.35
C
C
C
O4'
C4'
C3'
DT
DT
DT
23
23
23
N
6
2.57
0.30
108.30
110.87
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
6
3.31
0.30
108.30
111.61
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
7
2.40
0.30
108.30
110.70
A
A
A
O4'
C1'
N9
DA
DA
DA
1
1
1
N
7
2.76
0.30
108.30
111.06
A
A
A
O4'
C1'
N9
DA
DA
DA
2
2
2
N
7
2.15
0.30
108.30
110.45
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
7
3.13
0.30
108.30
111.43
A
A
A
O4'
C1'
N9
DG
DG
DG
4
4
4
N
7
4.99
0.30
108.30
113.29
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
7
-4.49
0.60
122.90
118.41
A
A
A
C6
C5
C7
DT
DT
DT
5
5
5
N
7
2.03
0.30
108.30
110.33
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
7
4.44
0.30
108.30
112.74
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
7
-4.19
0.60
122.90
118.71
A
A
A
C6
C5
C7
DT
DT
DT
7
7
7
N
7
4.06
0.30
108.30
112.36
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
7
-3.80
0.60
122.90
119.10
A
A
A
C6
C5
C7
DT
DT
DT
8
8
8
N
7
3.09
0.30
108.30
111.39
A
A
A
O4'
C1'
N9
DA
DA
DA
9
9
9
N
7
3.40
0.30
108.30
111.70
A
A
A
O4'
C1'
N9
DA
DA
DA
11
11
11
N
7
5.11
0.30
108.30
113.41
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
7
2.12
0.30
108.30
110.42
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
7
-4.70
0.60
122.90
118.20
C
C
C
C6
C5
C7
DT
DT
DT
14
14
14
N
7
3.83
0.30
108.30
112.13
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
7
6.96
0.30
108.30
115.26
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
7
-4.35
0.60
122.90
118.55
C
C
C
C6
C5
C7
DT
DT
DT
16
16
16
N
7
3.41
0.30
108.30
111.71
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
7
4.73
0.30
108.30
113.03
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
7
6.44
0.30
108.30
114.74
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
7
2.15
0.30
108.30
110.45
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
7
4.68
0.30
108.30
112.98
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
7
4.07
0.30
108.30
112.37
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
7
4.57
0.30
108.30
112.87
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
8
4.05
0.60
106.00
110.05
A
A
A
O4'
C4'
C3'
DA
DA
DA
2
2
2
N
8
2.35
0.30
108.30
110.65
A
A
A
O4'
C1'
N9
DA
DA
DA
2
2
2
N
8
2.07
0.30
108.30
110.37
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
8
-4.29
0.60
122.90
118.61
A
A
A
C6
C5
C7
DT
DT
DT
5
5
5
N
8
-7.33
0.70
102.20
94.87
A
A
A
C4'
C3'
C2'
DA
DA
DA
6
6
6
N
8
8.70
0.30
108.30
117.00
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
8
6.61
0.30
108.30
114.91
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
8
3.80
0.30
108.30
112.10
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
8
-4.34
0.60
122.90
118.56
A
A
A
C6
C5
C7
DT
DT
DT
8
8
8
N
8
1.94
0.30
108.30
110.24
A
A
A
O4'
C1'
N1
DC
DC
DC
10
10
10
N
8
1.89
0.30
108.30
110.19
A
A
A
O4'
C1'
N9
DA
DA
DA
11
11
11
N
8
3.27
0.30
108.30
111.57
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
8
2.34
0.30
108.30
110.64
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
8
2.75
0.30
108.30
111.05
C
C
C
O4'
C1'
N1
DT
DT
DT
14
14
14
N
8
2.24
0.30
108.30
110.54
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
8
6.53
0.30
108.30
114.83
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
8
3.59
0.30
108.30
111.89
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
8
4.87
0.30
108.30
113.17
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
8
2.90
0.30
108.30
111.20
C
C
C
O4'
C1'
N9
DA
DA
DA
20
20
20
N
8
3.86
0.30
108.30
112.16
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
8
2.62
0.30
108.30
110.92
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
8
4.08
0.60
106.00
110.08
C
C
C
O4'
C4'
C3'
DT
DT
DT
23
23
23
N
8
3.32
0.30
108.30
111.62
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
8
3.08
0.30
108.30
111.38
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
8
-5.79
0.70
120.80
115.01
B
B
B
CB
CG
CD2
PHE
PHE
PHE
66
66
66
N
9
2.50
0.30
108.30
110.80
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
9
4.39
0.30
108.30
112.69
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
9
6.85
0.30
108.30
115.15
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
9
2.50
0.30
108.30
110.80
A
A
A
O4'
C1'
N1
DT
DT
DT
8
8
8
N
9
3.75
0.30
108.30
112.05
A
A
A
O4'
C1'
N9
DA
DA
DA
9
9
9
N
9
5.34
0.30
108.30
113.64
A
A
A
O4'
C1'
N1
DC
DC
DC
10
10
10
N
9
1.87
0.30
108.30
110.17
A
A
A
O4'
C1'
N9
DA
DA
DA
11
11
11
N
9
4.35
0.30
108.30
112.65
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
9
3.61
0.30
108.30
111.91
C
C
C
O4'
C1'
N9
DA
DA
DA
13
13
13
N
9
2.43
0.30
108.30
110.73
C
C
C
O4'
C1'
N1
DT
DT
DT
14
14
14
N
9
3.07
0.30
108.30
111.37
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
9
5.04
0.30
108.30
113.34
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
9
6.17
0.30
108.30
114.47
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
9
4.12
0.30
108.30
112.42
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
9
3.62
0.60
106.00
109.62
C
C
C
O4'
C4'
C3'
DA
DA
DA
20
20
20
N
9
2.35
0.30
108.30
110.65
C
C
C
O4'
C1'
N1
DC
DC
DC
21
21
21
N
9
2.33
0.30
108.30
110.63
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
9
3.13
0.30
108.30
111.43
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
9
3.25
0.30
108.30
111.55
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
10
2.42
0.30
108.30
110.72
A
A
A
O4'
C1'
N9
DA
DA
DA
3
3
3
N
10
3.08
0.30
108.30
111.38
A
A
A
O4'
C1'
N9
DG
DG
DG
4
4
4
N
10
4.54
0.30
108.30
112.84
A
A
A
O4'
C1'
N1
DT
DT
DT
5
5
5
N
10
-4.20
0.60
122.90
118.70
A
A
A
C6
C5
C7
DT
DT
DT
5
5
5
N
10
-5.03
0.70
102.20
97.17
A
A
A
C4'
C3'
C2'
DA
DA
DA
6
6
6
N
10
3.52
0.30
108.30
111.82
A
A
A
O4'
C1'
N9
DA
DA
DA
6
6
6
N
10
3.86
0.60
106.00
109.86
A
A
A
O4'
C4'
C3'
DT
DT
DT
7
7
7
N
10
4.12
0.30
108.30
112.42
A
A
A
O4'
C1'
N1
DT
DT
DT
7
7
7
N
10
-4.00
0.60
122.90
118.90
A
A
A
C6
C5
C7
DT
DT
DT
7
7
7
N
10
3.56
0.30
108.30
111.86
A
A
A
O4'
C1'
N1
DC
DC
DC
10
10
10
N
10
2.02
0.30
108.30
110.32
A
A
A
O4'
C1'
N9
DA
DA
DA
11
11
11
N
10
7.90
0.30
108.30
116.20
A
A
A
O4'
C1'
N1
DT
DT
DT
12
12
12
N
10
3.75
0.60
106.00
109.75
C
C
C
O4'
C4'
C3'
DA
DA
DA
13
13
13
N
10
3.07
0.30
108.30
111.37
C
C
C
O4'
C1'
N1
DT
DT
DT
14
14
14
N
10
-4.89
0.60
122.90
118.01
C
C
C
C6
C5
C7
DT
DT
DT
14
14
14
N
10
2.47
0.30
108.30
110.77
C
C
C
O4'
C1'
N9
DG
DG
DG
15
15
15
N
10
3.99
0.30
108.30
112.29
C
C
C
O4'
C1'
N1
DT
DT
DT
16
16
16
N
10
3.42
0.30
108.30
111.72
C
C
C
O4'
C1'
N9
DA
DA
DA
17
17
17
N
10
4.29
0.30
108.30
112.59
C
C
C
O4'
C1'
N9
DA
DA
DA
18
18
18
N
10
5.39
0.30
108.30
113.69
C
C
C
O4'
C1'
N1
DT
DT
DT
19
19
19
N
10
6.17
0.30
108.30
114.47
C
C
C
O4'
C1'
N9
DA
DA
DA
20
20
20
N
10
2.34
0.30
108.30
110.64
C
C
C
O4'
C1'
N1
DT
DT
DT
22
22
22
N
10
5.08
0.30
108.30
113.38
C
C
C
O4'
C1'
N1
DT
DT
DT
23
23
23
N
10
4.58
0.30
108.30
112.88
C
C
C
O4'
C1'
N1
DT
DT
DT
24
24
24
N
10
-4.27
0.70
120.80
116.53
B
B
B
CB
CG
CD2
PHE
PHE
PHE
66
66
66
N
2
A
A
C5
C7
DT
DT
8
8
0.039
0.006
1.496
1.535
N
3
A
A
C5
C7
DT
DT
8
8
0.047
0.006
1.496
1.543
N
8
A
A
C5
C7
DT
DT
8
8
0.041
0.006
1.496
1.537
N
1
B
SER
23
-129.84
-154.55
1
B
TRP
39
-3.60
115.79
1
B
ARG
64
-72.41
-79.39
1
B
ASP
73
-150.56
-52.40
1
B
SER
75
-69.08
-75.60
1
B
TYR
77
65.92
105.90
2
B
SER
8
-132.76
-134.75
2
B
SER
23
-128.35
-154.50
2
B
TRP
39
-15.92
119.86
2
B
ARG
64
-68.72
-83.77
2
B
ASP
73
-127.74
-53.13
2
B
SER
75
179.58
-56.40
2
B
ASP
76
59.32
-88.03
3
B
LYS
2
-154.82
-37.06
3
B
SER
23
-130.35
-154.84
3
B
TRP
39
-11.14
97.62
3
B
PRO
70
-56.56
96.70
3
B
TYR
77
-132.40
-113.56
4
B
LYS
2
79.04
-59.83
4
B
SER
23
-129.35
-154.12
4
B
TRP
39
-15.85
118.47
4
B
ARG
64
-67.99
-84.12
4
B
PRO
70
-59.83
107.22
4
B
ASP
73
-127.71
-53.60
4
B
SER
75
-119.65
61.71
5
B
LYS
2
65.79
105.41
5
B
LYS
3
57.94
71.78
5
B
SER
23
-128.42
-155.31
5
B
TRP
39
-22.54
123.14
5
B
ARG
64
-64.28
-79.79
5
B
PRO
70
-58.04
109.66
5
B
SER
75
-112.21
59.92
6
B
LYS
3
-80.27
-94.58
6
B
ILE
4
-167.25
87.70
6
B
SER
23
-128.81
-154.80
6
B
TRP
39
-2.49
111.45
6
B
ARG
64
-66.36
-85.83
6
B
ASP
73
-140.73
-61.55
6
B
SER
75
-101.45
57.98
6
B
LYS
81
69.76
79.69
7
B
LYS
2
72.90
79.00
7
B
LYS
3
-82.43
-128.47
7
B
SER
8
-129.55
-167.75
7
B
SER
23
-129.74
-154.74
7
B
TRP
39
-4.16
111.93
7
B
ARG
64
-65.42
-78.39
7
B
LYS
81
-155.47
-35.31
8
B
LYS
2
-82.24
-73.31
8
B
ILE
4
-151.63
58.85
8
B
SER
23
-129.23
-154.77
8
B
THR
38
-66.83
-106.66
8
B
TRP
39
56.45
-131.05
8
B
SER
40
177.02
156.01
8
B
ARG
64
-69.78
-82.19
8
B
PRO
70
-48.63
96.75
9
B
SER
23
-130.87
-155.58
9
B
TRP
39
-2.59
113.57
9
B
ASP
73
-132.12
-40.13
9
B
TYR
77
63.91
115.79
9
B
LYS
81
-138.10
-60.86
10
B
LYS
3
-163.94
113.16
10
B
SER
23
-128.80
-155.08
10
B
TRP
39
-11.02
118.98
10
B
ARG
64
-65.57
-80.51
10
B
PRO
70
-57.33
106.44
10
B
ASP
73
-143.40
-52.79
10
B
SER
75
-83.87
-71.64
10
B
TYR
77
68.49
119.88
Solution structure of the bacillus licheniformis BlaI monomeric form in complex with the blaP half-operator.
1
N
N
2
N
N
3
N
N
B
SER
8
C
SER
8
HELX_P
B
HIS
21
C
HIS
21
1
1
14
B
ASN
25
C
ASN
25
HELX_P
B
SER
37
C
SER
37
1
2
13
B
SER
40
C
SER
40
HELX_P
B
GLY
55
C
GLY
55
1
3
16
hydrog
WATSON-CRICK
A
DA
1
A
N1
DA
1
1_555
C
DT
24
B
N3
DT
12
1_555
hydrog
WATSON-CRICK
A
DA
1
A
N6
DA
1
1_555
C
DT
24
B
O4
DT
12
1_555
hydrog
WATSON-CRICK
A
DA
2
A
N1
DA
2
1_555
C
DT
23
B
N3
DT
11
1_555
hydrog
WATSON-CRICK
A
DA
2
A
N6
DA
2
1_555
C
DT
23
B
O4
DT
11
1_555
hydrog
WATSON-CRICK
A
DA
3
A
N1
DA
3
1_555
C
DT
22
B
N3
DT
10
1_555
hydrog
WATSON-CRICK
A
DA
3
A
N6
DA
3
1_555
C
DT
22
B
O4
DT
10
1_555
hydrog
WATSON-CRICK
A
DG
4
A
N1
DG
4
1_555
C
DC
21
B
N3
DC
9
1_555
hydrog
WATSON-CRICK
A
DG
4
A
N2
DG
4
1_555
C
DC
21
B
O2
DC
9
1_555
hydrog
WATSON-CRICK
A
DG
4
A
O6
DG
4
1_555
C
DC
21
B
N4
DC
9
1_555
hydrog
WATSON-CRICK
A
DT
5
A
N3
DT
5
1_555
C
DA
20
B
N1
DA
8
1_555
hydrog
WATSON-CRICK
A
DT
5
A
O4
DT
5
1_555
C
DA
20
B
N6
DA
8
1_555
hydrog
WATSON-CRICK
A
DA
6
A
N1
DA
6
1_555
C
DT
19
B
N3
DT
7
1_555
hydrog
WATSON-CRICK
A
DA
6
A
N6
DA
6
1_555
C
DT
19
B
O4
DT
7
1_555
hydrog
WATSON-CRICK
A
DT
7
A
N3
DT
7
1_555
C
DA
18
B
N1
DA
6
1_555
hydrog
WATSON-CRICK
A
DT
7
A
O4
DT
7
1_555
C
DA
18
B
N6
DA
6
1_555
hydrog
WATSON-CRICK
A
DT
8
A
N3
DT
8
1_555
C
DA
17
B
N1
DA
5
1_555
hydrog
WATSON-CRICK
A
DT
8
A
O4
DT
8
1_555
C
DA
17
B
N6
DA
5
1_555
hydrog
WATSON-CRICK
A
DA
9
A
N1
DA
9
1_555
C
DT
16
B
N3
DT
4
1_555
hydrog
WATSON-CRICK
A
DA
9
A
N6
DA
9
1_555
C
DT
16
B
O4
DT
4
1_555
hydrog
WATSON-CRICK
A
DC
10
A
N3
DC
10
1_555
C
DG
15
B
N1
DG
3
1_555
hydrog
WATSON-CRICK
A
DC
10
A
N4
DC
10
1_555
C
DG
15
B
O6
DG
3
1_555
hydrog
WATSON-CRICK
A
DC
10
A
O2
DC
10
1_555
C
DG
15
B
N2
DG
3
1_555
hydrog
WATSON-CRICK
A
DA
11
A
N1
DA
11
1_555
C
DT
14
B
N3
DT
2
1_555
hydrog
WATSON-CRICK
A
DA
11
A
N6
DA
11
1_555
C
DT
14
B
O4
DT
2
1_555
hydrog
WATSON-CRICK
A
DT
12
A
N3
DT
12
1_555
C
DA
13
B
N1
DA
1
1_555
hydrog
WATSON-CRICK
A
DT
12
A
O4
DT
12
1_555
C
DA
13
B
N6
DA
1
1_555
transcription regulator
PROTEIN-DNA COMPLEX, REPRESSOR, MONOMER, OPERATOR, ANTIBIOTICS, transcription regulator
BLAI_BACLI
UNP
3
1
P06555
MKKIPQISDAELEVMKVIWKHSSINTNEVIKELSKTSTWSPKTIQTMLLRLIKKGALNHHKEGRVFVYTPNIDESDYIEV
KS
2P7C
PDB
1
2P7C
2P7C
PDB
2
2P7C
1
82
2P7C
1
82
P06555
B
1
1
82
1
12
2P7C
1
12
2P7C
A
2
1
12
13
24
2P7C
13
24
2P7C
C
3
1
12
2
anti-parallel
B
LEU
57
C
LEU
57
B
HIS
60
C
HIS
60
B
VAL
67
C
VAL
67
B
PRO
70
C
PRO
70