1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Denisov, A.Y.
Finak, G.
Yee, A.
Kozlov, G.
Gehring, K.
Arrowsmith, C.H.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
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
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
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
US
Proc.Natl.Acad.Sci.USA
PNASA6
0040
0027-8424
99
1825
1830
10.1073/pnas.042684599
11854485
An NMR approach to structural proteomics.
2002
10.2210/pdb1jdq/pdb
pdb_00001jdq
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
11221.925
HYPOTHETICAL PROTEIN TM0983
1
man
polymer
TM006 Protein
no
no
GSSHHHHHHSSGLVPRGSHMAKYQVTKTLDVRGEVCPVPDVETKRALQNMKPGEILEVWIDYPMSKERIPETVKKLGHEV
LEIEEVGPSEWKIYIKVK
GSSHHHHHHSSGLVPRGSHMAKYQVTKTLDVRGEVCPVPDVETKRALQNMKPGEILEVWIDYPMSKERIPETVKKLGHEV
LEIEEVGPSEWKIYIKVK
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
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
Thermotoga
Escherichia
sample
2336
Thermotoga maritima
562
Escherichia coli
BL21 gold magic
PLASMID
Pet15b
database_2
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
struct_ref_seq_dif
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
1
0
2002-02-27
1
1
2008-04-27
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
_struct_ref_seq_dif.details
RCSB
Y
RCSB
2001-06-14
REL
REL
Structure was determined using 2D and 3D experiments for unlabelled,
15N-labelled and double-labelled protein.
structures with the lowest energy
85
20
hncacb
cbca(co)hn
15N-hmqc-tocsy
15N-hmqc-noesy
tocsy
noesy
150 mM NaCl
6.8
1
atm
310
K
150 mM NaCl
6.8
1
atm
310
K
150 mM NaCl
6.8
1
atm
310
K
After determination of protein fold by using manual NOE assigments, values of coupling constants
and 13C chemical shifts, automatic peak NOE assigments were made by using ARIA and the structure
refined by using standard protocol in CNS.
simulated annealing
1
lowest energy
2 mM TM006 protein U-15N,13C; 50mM phosphate buffer
90% H2O/10% D2O
2 mM TM006 protein U-15N; 50mM phosphate buffer
90% H2O/10% D2O
5 mM TM006 unlabelled protein; 50mM phosphate buffer
90% H2O/10% D2O
BRUKER
collection
XwinNMR
2.1
BRUKER
processing
XwinNMR
2.1
Bartels et al.
data analysis
XEASY
1.3.13
Nilges et al.
data analysis
ARIA
14.5.98
Brunger et al.
refinement
CNS
0.9
500
Bruker
DRX
GLY
1
n
1
GLY
1
A
SER
2
n
2
SER
2
A
SER
3
n
3
SER
3
A
HIS
4
n
4
HIS
4
A
HIS
5
n
5
HIS
5
A
HIS
6
n
6
HIS
6
A
HIS
7
n
7
HIS
7
A
HIS
8
n
8
HIS
8
A
HIS
9
n
9
HIS
9
A
SER
10
n
10
SER
10
A
SER
11
n
11
SER
11
A
GLY
12
n
12
GLY
12
A
LEU
13
n
13
LEU
13
A
VAL
14
n
14
VAL
14
A
PRO
15
n
15
PRO
15
A
ARG
16
n
16
ARG
16
A
GLY
17
n
17
GLY
17
A
SER
18
n
18
SER
18
A
HIS
19
n
19
HIS
19
A
MET
20
n
20
MET
20
A
ALA
21
n
21
ALA
21
A
LYS
22
n
22
LYS
22
A
TYR
23
n
23
TYR
23
A
GLN
24
n
24
GLN
24
A
VAL
25
n
25
VAL
25
A
THR
26
n
26
THR
26
A
LYS
27
n
27
LYS
27
A
THR
28
n
28
THR
28
A
LEU
29
n
29
LEU
29
A
ASP
30
n
30
ASP
30
A
VAL
31
n
31
VAL
31
A
ARG
32
n
32
ARG
32
A
GLY
33
n
33
GLY
33
A
GLU
34
n
34
GLU
34
A
VAL
35
n
35
VAL
35
A
CYS
36
n
36
CYS
36
A
PRO
37
n
37
PRO
37
A
VAL
38
n
38
VAL
38
A
PRO
39
n
39
PRO
39
A
ASP
40
n
40
ASP
40
A
VAL
41
n
41
VAL
41
A
GLU
42
n
42
GLU
42
A
THR
43
n
43
THR
43
A
LYS
44
n
44
LYS
44
A
ARG
45
n
45
ARG
45
A
ALA
46
n
46
ALA
46
A
LEU
47
n
47
LEU
47
A
GLN
48
n
48
GLN
48
A
ASN
49
n
49
ASN
49
A
MET
50
n
50
MET
50
A
LYS
51
n
51
LYS
51
A
PRO
52
n
52
PRO
52
A
GLY
53
n
53
GLY
53
A
GLU
54
n
54
GLU
54
A
ILE
55
n
55
ILE
55
A
LEU
56
n
56
LEU
56
A
GLU
57
n
57
GLU
57
A
VAL
58
n
58
VAL
58
A
TRP
59
n
59
TRP
59
A
ILE
60
n
60
ILE
60
A
ASP
61
n
61
ASP
61
A
TYR
62
n
62
TYR
62
A
PRO
63
n
63
PRO
63
A
MET
64
n
64
MET
64
A
SER
65
n
65
SER
65
A
LYS
66
n
66
LYS
66
A
GLU
67
n
67
GLU
67
A
ARG
68
n
68
ARG
68
A
ILE
69
n
69
ILE
69
A
PRO
70
n
70
PRO
70
A
GLU
71
n
71
GLU
71
A
THR
72
n
72
THR
72
A
VAL
73
n
73
VAL
73
A
LYS
74
n
74
LYS
74
A
LYS
75
n
75
LYS
75
A
LEU
76
n
76
LEU
76
A
GLY
77
n
77
GLY
77
A
HIS
78
n
78
HIS
78
A
GLU
79
n
79
GLU
79
A
VAL
80
n
80
VAL
80
A
LEU
81
n
81
LEU
81
A
GLU
82
n
82
GLU
82
A
ILE
83
n
83
ILE
83
A
GLU
84
n
84
GLU
84
A
GLU
85
n
85
GLU
85
A
VAL
86
n
86
VAL
86
A
GLY
87
n
87
GLY
87
A
PRO
88
n
88
PRO
88
A
SER
89
n
89
SER
89
A
GLU
90
n
90
GLU
90
A
TRP
91
n
91
TRP
91
A
LYS
92
n
92
LYS
92
A
ILE
93
n
93
ILE
93
A
TYR
94
n
94
TYR
94
A
ILE
95
n
95
ILE
95
A
LYS
96
n
96
LYS
96
A
VAL
97
n
97
VAL
97
A
LYS
98
n
98
LYS
98
A
author_defined_assembly
1
monomeric
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
LYS
27
A
N
LYS
27
A
O
ILE
55
A
O
ILE
55
A
O
ILE
60
A
O
ILE
60
A
N
TRP
91
A
N
TRP
91
A
O
TYR
94
A
O
TYR
94
A
N
LEU
81
A
N
LEU
81
18
A
A
HA
HG3
ILE
LYS
55
96
1.32
1
A
HIS
4
-133.62
-40.53
1
A
HIS
9
-89.92
-81.93
1
A
SER
11
-80.61
-79.09
1
A
SER
18
-73.83
-150.30
1
A
THR
26
-99.60
-65.21
1
A
ARG
32
-69.97
-100.00
1
A
VAL
35
-135.14
-90.91
1
A
PRO
52
-38.23
-86.16
1
A
LYS
75
-90.45
-77.51
1
A
LEU
76
-98.79
-98.52
1
A
GLU
79
-101.18
55.89
1
A
LEU
81
-133.31
-36.12
1
A
VAL
86
-127.28
-64.40
1
A
PRO
88
-60.81
-77.39
2
A
SER
2
-128.57
-63.13
2
A
SER
3
-110.53
-73.41
2
A
SER
11
-76.36
-79.54
2
A
SER
18
-79.09
-151.59
2
A
TYR
23
-93.46
47.32
2
A
ARG
32
-64.86
-88.21
2
A
VAL
35
-134.95
-91.47
2
A
PRO
37
-72.83
21.61
2
A
ASN
49
-118.19
61.68
2
A
PRO
52
-46.20
-73.57
2
A
PRO
63
-67.88
93.73
2
A
LYS
75
-86.85
-78.18
2
A
LEU
76
-98.73
-98.59
2
A
GLU
79
-97.87
58.93
2
A
LEU
81
-133.53
-35.79
2
A
VAL
86
-124.65
-73.76
2
A
PRO
88
-60.82
-82.00
3
A
SER
10
-69.16
95.56
3
A
SER
11
-86.01
-81.97
3
A
SER
18
-66.26
-89.07
3
A
HIS
19
-139.97
-92.32
3
A
MET
20
-81.75
45.07
3
A
LYS
22
-88.07
30.50
3
A
VAL
31
-118.45
64.30
3
A
ARG
32
-63.27
-176.24
3
A
GLU
34
-108.06
-156.22
3
A
VAL
35
-108.30
-88.20
3
A
PRO
37
-79.21
30.40
3
A
ASN
49
-119.12
62.18
3
A
PRO
52
-43.70
-70.78
3
A
LYS
75
-90.20
-78.36
3
A
LEU
76
-99.57
-97.37
3
A
LEU
81
-133.53
-37.85
3
A
VAL
86
-120.80
-66.97
3
A
PRO
88
-56.44
-82.13
4
A
HIS
9
-70.92
-72.80
4
A
SER
11
-75.07
-106.45
4
A
HIS
19
-74.91
-150.15
4
A
LYS
22
-91.03
45.01
4
A
TYR
23
-88.16
42.43
4
A
THR
26
-98.82
-66.00
4
A
ARG
32
-58.91
-88.61
4
A
VAL
35
-133.03
-90.48
4
A
PRO
37
-72.91
23.86
4
A
ASN
49
-117.26
57.08
4
A
PRO
63
-54.85
97.49
4
A
LYS
75
-87.38
-82.84
4
A
LEU
76
-98.59
-106.32
4
A
GLU
79
-110.09
72.77
4
A
LEU
81
-133.73
-40.69
4
A
VAL
86
-124.28
-63.37
4
A
PRO
88
-61.37
-82.45
5
A
HIS
9
-130.91
-88.61
5
A
ARG
16
-89.44
-150.24
5
A
SER
18
-68.63
-76.93
5
A
HIS
19
-104.90
-150.51
5
A
LYS
22
-91.14
40.09
5
A
TYR
23
-94.17
38.67
5
A
THR
26
-99.61
-62.06
5
A
VAL
35
-115.09
-169.73
5
A
ASP
61
-145.13
27.47
5
A
LYS
75
-88.70
-74.32
5
A
LEU
76
-98.21
-102.31
5
A
GLU
79
-103.87
69.24
5
A
LEU
81
-139.71
-35.50
5
A
VAL
86
-120.70
-62.83
5
A
PRO
88
-57.11
-83.93
6
A
SER
18
-80.82
-79.19
6
A
HIS
19
-130.99
-89.33
6
A
MET
20
-69.39
-157.92
6
A
ALA
21
-61.97
-176.19
6
A
TYR
23
-102.42
76.05
6
A
ARG
32
-54.72
-87.62
6
A
VAL
35
-134.33
-90.88
6
A
PRO
52
-37.28
-70.19
6
A
PRO
63
-58.91
98.63
6
A
LYS
75
-87.97
-84.86
6
A
LEU
76
-98.46
-105.21
6
A
GLU
79
-110.26
61.07
6
A
LEU
81
-133.64
-37.86
6
A
VAL
86
-138.46
-48.41
6
A
PRO
88
-64.98
-74.00
7
A
HIS
9
-113.97
59.46
7
A
LEU
13
-67.96
-71.63
7
A
PRO
15
-56.20
-168.39
7
A
SER
18
-81.37
31.96
7
A
MET
20
-62.86
96.53
7
A
LYS
22
-91.29
32.06
7
A
ARG
32
-58.83
-88.43
7
A
VAL
35
-135.03
-89.58
7
A
LYS
75
-90.64
-81.46
7
A
LEU
76
-99.42
-96.21
7
A
GLU
79
-95.36
55.72
7
A
LEU
81
-133.29
-35.75
7
A
VAL
86
-130.23
-56.54
7
A
PRO
88
-58.40
-80.49
8
A
HIS
4
-126.53
-62.38
8
A
HIS
6
-78.38
-76.03
8
A
SER
11
-75.75
-153.22
8
A
PRO
15
-102.09
-152.90
8
A
ARG
16
-59.54
-4.61
8
A
SER
18
-79.21
25.17
8
A
HIS
19
-90.29
30.88
8
A
THR
26
-99.85
-65.98
8
A
PRO
52
-31.19
-78.95
8
A
PRO
63
-58.05
92.48
8
A
LYS
75
-90.07
-80.55
8
A
LEU
76
-98.85
-100.09
8
A
GLU
79
-100.31
68.78
8
A
LEU
81
-133.42
-37.51
8
A
VAL
86
-123.21
-65.99
8
A
PRO
88
-54.72
-75.44
9
A
SER
2
-97.99
-73.57
9
A
SER
3
-140.07
-76.45
9
A
HIS
5
-112.81
78.63
9
A
HIS
6
-96.72
-66.50
9
A
HIS
9
-98.91
42.22
9
A
SER
11
-76.29
-150.94
9
A
GLN
24
-93.18
59.13
9
A
THR
26
-100.08
-61.87
9
A
ARG
32
-54.73
-89.78
9
A
VAL
35
-136.08
-158.10
9
A
PRO
52
-38.48
-71.31
9
A
PRO
63
-45.68
105.43
9
A
LYS
75
-89.19
-80.81
9
A
LEU
76
-99.02
-106.38
9
A
GLU
79
-110.19
62.76
9
A
LEU
81
-142.11
-36.42
9
A
PRO
88
-58.10
-76.42
10
A
SER
3
-131.91
-68.15
10
A
HIS
5
-80.48
-153.85
10
A
ARG
16
-84.97
-82.73
10
A
HIS
19
-78.93
30.81
10
A
TYR
23
-89.06
33.09
10
A
ARG
32
-59.49
-92.86
10
A
VAL
35
-134.40
-90.74
10
A
PRO
37
-69.97
18.17
10
A
PRO
63
-58.36
91.20
10
A
LYS
75
-90.60
-78.67
10
A
LEU
76
-98.48
-97.92
10
A
GLU
79
-104.72
63.40
10
A
LEU
81
-139.79
-32.41
10
A
VAL
86
-138.73
-43.32
10
A
PRO
88
-65.07
-77.56
11
A
HIS
19
-53.54
-78.32
11
A
MET
20
-81.16
-89.89
11
A
LYS
22
-91.18
53.41
11
A
GLN
24
-106.36
77.83
11
A
ARG
32
-51.02
-87.32
11
A
VAL
35
-135.53
-157.66
11
A
LYS
75
-90.47
-78.38
11
A
LEU
76
-98.54
-96.75
11
A
GLU
79
-103.49
56.67
11
A
LEU
81
-133.43
-36.90
11
A
VAL
86
-127.46
-66.58
11
A
PRO
88
-58.71
-84.72
12
A
HIS
6
-130.55
-84.40
12
A
HIS
7
-136.70
-59.43
12
A
SER
11
-67.33
-80.73
12
A
LEU
13
-91.31
34.41
12
A
ARG
16
-81.11
-150.55
12
A
SER
18
-72.99
-75.67
12
A
HIS
19
-90.53
-151.27
12
A
MET
20
-70.12
-85.63
12
A
TYR
23
-89.97
39.36
12
A
THR
26
-99.29
-61.88
12
A
ARG
32
-64.77
-163.04
12
A
VAL
35
-104.64
-86.24
12
A
PRO
37
-75.63
25.05
12
A
PRO
52
-39.03
-75.07
12
A
ASP
61
-145.17
35.26
12
A
TYR
62
-105.74
-63.02
12
A
LYS
75
-90.36
-77.28
12
A
LEU
76
-98.52
-98.64
12
A
GLU
79
-95.34
52.75
12
A
VAL
86
-129.25
-52.68
12
A
PRO
88
-64.89
-77.04
13
A
SER
2
-126.94
-77.15
13
A
ARG
16
-85.27
33.07
13
A
SER
18
-80.60
35.42
13
A
HIS
19
-76.66
25.99
13
A
ALA
21
-68.67
-174.00
13
A
TYR
23
-103.74
41.44
13
A
GLN
24
-105.50
77.71
13
A
ASN
49
-106.74
48.60
13
A
LYS
75
-89.60
-80.62
13
A
LEU
76
-98.58
-106.65
13
A
GLU
79
-107.09
62.30
13
A
LEU
81
-133.68
-33.52
13
A
VAL
86
-131.27
-44.90
13
A
PRO
88
-66.89
-74.89
14
A
HIS
5
-120.38
-96.74
14
A
HIS
6
-140.48
23.55
14
A
HIS
8
-108.91
-168.99
14
A
LEU
13
-95.47
-94.09
14
A
SER
18
-80.57
-150.16
14
A
MET
20
-68.88
-148.79
14
A
VAL
35
-104.27
-133.36
14
A
PRO
37
-73.95
26.64
14
A
PRO
63
-47.54
104.00
14
A
LYS
75
-90.08
-77.89
14
A
LEU
76
-98.18
-100.24
14
A
GLU
79
-111.48
68.53
14
A
LEU
81
-133.74
-40.97
14
A
VAL
86
-144.34
-53.48
14
A
PRO
88
-58.97
-78.19
15
A
SER
2
-107.02
-69.07
15
A
HIS
4
-98.42
37.94
15
A
HIS
9
-102.36
-80.90
15
A
SER
11
-75.54
-77.64
15
A
LEU
13
-73.20
-76.18
15
A
PRO
15
-80.89
38.13
15
A
ARG
16
-77.62
-79.16
15
A
SER
18
-72.40
-77.45
15
A
HIS
19
-83.86
-81.64
15
A
ALA
21
-79.13
-169.64
15
A
LYS
22
-68.12
-106.10
15
A
THR
26
-99.84
-67.82
15
A
ARG
32
-52.65
-90.14
15
A
PRO
52
-46.61
-72.79
15
A
LYS
75
-90.07
-77.64
15
A
LEU
76
-98.44
-97.60
15
A
GLU
79
-106.58
56.55
15
A
LEU
81
-133.61
-38.27
15
A
VAL
86
-129.55
-60.25
15
A
PRO
88
-59.14
-77.63
16
A
SER
11
-64.92
-77.20
16
A
PRO
15
-57.76
98.30
16
A
SER
18
-78.55
-150.98
16
A
TYR
23
-97.21
48.39
16
A
GLN
24
-102.74
75.59
16
A
ARG
32
-71.96
-73.39
16
A
VAL
35
-104.11
-163.14
16
A
PRO
63
-62.13
89.85
16
A
LYS
75
-90.10
-81.49
16
A
LEU
76
-98.56
-107.43
16
A
GLU
79
-103.84
52.73
16
A
LEU
81
-133.48
-35.00
16
A
PRO
88
-56.67
-75.29
17
A
HIS
8
-130.58
-83.94
17
A
SER
11
-65.31
-73.99
17
A
PRO
15
-64.21
91.26
17
A
ARG
16
-84.31
-152.03
17
A
SER
18
-77.24
-151.01
17
A
HIS
19
-89.16
-84.84
17
A
ARG
32
-63.88
-157.26
17
A
GLU
34
-111.64
-161.50
17
A
PRO
37
-93.41
32.11
17
A
GLU
42
-63.24
-74.05
17
A
PRO
63
-45.98
106.26
17
A
LYS
75
-86.75
-80.97
17
A
LEU
76
-100.29
-95.16
17
A
GLU
79
-95.54
54.20
17
A
LEU
81
-133.22
-31.23
17
A
VAL
86
-140.86
-50.42
18
A
HIS
9
-104.34
63.59
18
A
SER
10
-86.05
39.26
18
A
SER
11
-65.47
-70.93
18
A
HIS
19
-77.76
-78.49
18
A
LYS
22
-85.55
45.48
18
A
TYR
23
-88.84
35.20
18
A
ARG
32
-64.23
-163.01
18
A
GLU
34
-111.39
-159.78
18
A
PRO
37
-93.17
30.36
18
A
PRO
63
-56.52
93.68
18
A
LYS
75
-89.29
-73.90
18
A
LEU
76
-98.12
-106.92
18
A
PRO
88
-63.42
-83.54
19
A
SER
3
-137.93
-54.05
19
A
HIS
4
-110.78
57.39
19
A
ARG
16
-90.22
-86.61
19
A
SER
18
-81.09
-80.36
19
A
HIS
19
-71.44
-74.89
19
A
GLN
24
-93.16
-156.68
19
A
ARG
32
-50.46
-81.64
19
A
VAL
35
-129.89
-115.59
19
A
PRO
52
-38.77
-84.20
19
A
PRO
63
-47.22
99.69
19
A
LYS
75
-90.26
-78.17
19
A
LEU
76
-99.38
-97.46
19
A
GLU
79
-101.35
63.72
19
A
LEU
81
-132.98
-36.41
19
A
VAL
86
-129.74
-59.01
19
A
PRO
88
-63.01
-75.24
20
A
SER
11
-78.82
-86.25
20
A
LEU
13
-95.54
52.89
20
A
PRO
15
-72.88
-154.79
20
A
ARG
16
-81.61
-84.35
20
A
SER
18
-68.03
-72.04
20
A
HIS
19
-111.80
-149.93
20
A
LYS
22
-76.73
-102.31
20
A
THR
26
-99.74
-70.30
20
A
ARG
32
-69.29
-92.10
20
A
VAL
35
-134.68
-89.50
20
A
PRO
52
-45.91
-75.54
20
A
ASP
61
-145.27
24.16
20
A
LYS
75
-91.10
-61.28
20
A
LEU
76
-100.45
-109.09
20
A
LEU
81
-133.45
-35.59
20
A
VAL
86
-124.63
-66.95
20
A
PRO
88
-55.16
-71.41
Solution Structure of TM006 Protein from Thermotoga maritima
1
N
N
A
PRO
37
A
PRO
37
HELX_P
A
ASN
49
A
ASN
49
1
1
13
A
MET
64
A
MET
64
HELX_P
A
LEU
76
A
LEU
76
1
2
13
STRUCTURAL GENOMICS
TM006, Thermotoga maritima, STRUCTURAL GENOMICS
A
CYS
36
A
CYS
36
5
A
PRO
37
A
PRO
37
1.24
A
TYR
62
A
TYR
62
5
A
PRO
63
A
PRO
63
-0.24
A
TYR
62
A
TYR
62
7
A
PRO
63
A
PRO
63
-1.52
A
VAL
14
A
VAL
14
8
A
PRO
15
A
PRO
15
1.61
A
CYS
36
A
CYS
36
8
A
PRO
37
A
PRO
37
1.55
A
VAL
14
A
VAL
14
12
A
PRO
15
A
PRO
15
0.02
A
TYR
62
A
TYR
62
12
A
PRO
63
A
PRO
63
-1.42
A
CYS
36
A
CYS
36
13
A
PRO
37
A
PRO
37
1.11
A
TYR
62
A
TYR
62
13
A
PRO
63
A
PRO
63
0.57
A
VAL
14
A
VAL
14
14
A
PRO
15
A
PRO
15
-0.09
A
CYS
36
A
CYS
36
17
A
PRO
37
A
PRO
37
1.46
A
CYS
36
A
CYS
36
18
A
PRO
37
A
PRO
37
1.15
A
TYR
62
A
TYR
62
20
A
PRO
63
A
PRO
63
-0.31
Y983_THEMA
UNP
1
1
Q9X078
MAKYQVTKTLDVRGEVCPVPDVETKRALQNMKPGEILEVWIDYPMSKERIPETVKKLGHEVLEIEEVGPSEWKIYIKVK
1
79
1JDQ
20
98
Q9X078
A
1
20
98
1
expression tag
GLY
1
1JDQ
A
Q9X078
UNP
1
1
expression tag
SER
2
1JDQ
A
Q9X078
UNP
2
1
expression tag
SER
3
1JDQ
A
Q9X078
UNP
3
1
expression tag
HIS
4
1JDQ
A
Q9X078
UNP
4
1
expression tag
HIS
5
1JDQ
A
Q9X078
UNP
5
1
expression tag
HIS
6
1JDQ
A
Q9X078
UNP
6
1
expression tag
HIS
7
1JDQ
A
Q9X078
UNP
7
1
expression tag
HIS
8
1JDQ
A
Q9X078
UNP
8
1
expression tag
HIS
9
1JDQ
A
Q9X078
UNP
9
1
expression tag
SER
10
1JDQ
A
Q9X078
UNP
10
1
expression tag
SER
11
1JDQ
A
Q9X078
UNP
11
1
expression tag
GLY
12
1JDQ
A
Q9X078
UNP
12
1
expression tag
LEU
13
1JDQ
A
Q9X078
UNP
13
1
expression tag
VAL
14
1JDQ
A
Q9X078
UNP
14
1
expression tag
PRO
15
1JDQ
A
Q9X078
UNP
15
1
expression tag
ARG
16
1JDQ
A
Q9X078
UNP
16
1
expression tag
GLY
17
1JDQ
A
Q9X078
UNP
17
1
expression tag
SER
18
1JDQ
A
Q9X078
UNP
18
1
expression tag
HIS
19
1JDQ
A
Q9X078
UNP
19
4
parallel
anti-parallel
anti-parallel
A
LYS
27
A
LYS
27
A
ASP
30
A
ASP
30
A
ILE
55
A
ILE
55
A
ILE
60
A
ILE
60
A
TRP
91
A
TRP
91
A
LYS
96
A
LYS
96
A
VAL
80
A
VAL
80
A
GLU
85
A
GLU
85