1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Lee, G.M.
Edwards, A.M.
Arrowsmith, C.H.
McIntosh, L.P.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90
90
90
1
1
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
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
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
NE
J.Biomol.NMR
JBNME9
0800
0925-2738
21
63
66
10.1023/A:1011928105928
11693569
NMR-based structure of the conserved protein MTH865 from the archaeon Methanobacterium thermoautotrophicum.
2001
10.2210/pdb1iio/pdb
pdb_00001iio
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
8681.726
conserved hypothetical protein MTH865
1
man
polymer
no
no
GSHMKMGVKEDIRGQIIGALAGADFPINSPEELMAALPNGPDTTCKSGDVELKASDAGQVLTADDFPFKSAEEVADTIVN
KAGL
GSHMKMGVKEDIRGQIIGALAGADFPINSPEELMAALPNGPDTTCKSGDVELKASDAGQVLTADDFPFKSAEEVADTIVN
KAGL
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
Methanothermobacter
Methanothermobacter thermautotrophicus
delta H
Escherichia
Escherichia coli
sample
ORF 865
187420
Methanothermobacter thermautotrophicus str. Delta H
469008
Escherichia coli BL21(DE3)
BL21(DE3)
plasmid
pET15b
database_2
pdbx_database_status
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
struct_ref_seq_dif
database_2
pdbx_database_status
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
Other
Database references
Other
1
0
2001-10-17
1
1
2008-04-27
1
2
2011-07-13
1
3
2020-02-05
1
4
2023-06-14
_pdbx_database_status.status_code_cs
_pdbx_nmr_software.name
_struct_ref_seq_dif.details
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.status_code_nmr_data
Complete backbone and sidechain chemical shifts for residues 2-81.
RCSB
Y
RCSB
2001-04-23
REL
REL
REL
REL
The backbone and sidechain chemical shifts were assigned manually using standard 3D heternuclear techniques.
structures with the lowest energy
50
25
3D_15N-separated_NOESY
4D_13C/15N-separated_NOESY
2D_NOESY
3D_13C-separated_methyl-methyl_NOESY
50mM NaCl
6.51
ambient
303
K
50mM NaCl
6.51
ambient
298
K
1492 UNAMBIGUOUS AND 544 AMBIGUOUS ARIA-DERIVED NOE RESTRAINTS (BASED ON 17 ITERATIONS) WERE USED FOR THE STRUCTURE CALCULATION AND REFINEMENT. 50 PAIRS OF PHI AND PSI DIHEDRAL ANGLE AND 26 PAIRS OF HYDROGEN-BOND RESTRAINTS WERE ALSO INCLUDED IN THE CALCULATIONS. DIHEDRAL ANGLE RESTRAINTS WERE CALCULATED USING TALOS, WHILE HYDROGEN BOND RESTRAINTS WERE DERIVED FROM A 15/1H-HSQC H2O-D2O EXCHANGE STUDY. THE STRUCTURE ENSEMBLE INCLUDES THREE ADDITIONAL RESIDUES AT THE N-TERMINUS (GLY-SER-HIS), RESULTING FROM THE PROTEOLYTIC CLEAVAGE OF A HIS6 AFFINITY TAG. RESIDUE NUMBERING BEGINS WITH GLY-3 AND ENDS WITH LEU81
molecular dynamics, simulated annealing
1
lowest energy
0.5mM MTH865 U-15N; 50mM PO4 buffer, 50mM NaCl, 5mM DTT, 3mM NaN3
90% H2O/10% D2O
0.5mM MTH865 U-15N,13C; 50mM PO4 buffer, 50mM NaCl, 5mM DTT, 3mM NaN3
90% H2O/10% D2O
0.5mM MTH865 U-15N,10%-13C; 50mM PO4 buffer, 50mM NaCl, 5mM DTT, 3mM NaN3
99% D2O
Varian, Inc.
collection
VNMR
6.1b
Molecular Simulations, Inc.
processing
Felix
95.0 and 2000
Molecular Simulations, Inc.
data analysis
Felix
95.0 and 2000
Nilges, M. (ARIA); Brunger, A. (CNS)
structure solution
ARIA/CNS
1.0
Nilges, M. (ARIA); Brunger, A. (CNS)
refinement
ARIA/CNS
1.0
Cornilescu, F., Delaglio, F., Bax, A.
data analysis
TALOS
1.0
500
Varian
UNITY
800
Varian
INOVA
600
Varian
INOVA
GLY
-3
n
1
GLY
-3
A
SER
-2
n
2
SER
-2
A
HIS
-1
n
3
HIS
-1
A
MET
1
n
4
MET
1
A
LYS
2
n
5
LYS
2
A
MET
3
n
6
MET
3
A
GLY
4
n
7
GLY
4
A
VAL
5
n
8
VAL
5
A
LYS
6
n
9
LYS
6
A
GLU
7
n
10
GLU
7
A
ASP
8
n
11
ASP
8
A
ILE
9
n
12
ILE
9
A
ARG
10
n
13
ARG
10
A
GLY
11
n
14
GLY
11
A
GLN
12
n
15
GLN
12
A
ILE
13
n
16
ILE
13
A
ILE
14
n
17
ILE
14
A
GLY
15
n
18
GLY
15
A
ALA
16
n
19
ALA
16
A
LEU
17
n
20
LEU
17
A
ALA
18
n
21
ALA
18
A
GLY
19
n
22
GLY
19
A
ALA
20
n
23
ALA
20
A
ASP
21
n
24
ASP
21
A
PHE
22
n
25
PHE
22
A
PRO
23
n
26
PRO
23
A
ILE
24
n
27
ILE
24
A
ASN
25
n
28
ASN
25
A
SER
26
n
29
SER
26
A
PRO
27
n
30
PRO
27
A
GLU
28
n
31
GLU
28
A
GLU
29
n
32
GLU
29
A
LEU
30
n
33
LEU
30
A
MET
31
n
34
MET
31
A
ALA
32
n
35
ALA
32
A
ALA
33
n
36
ALA
33
A
LEU
34
n
37
LEU
34
A
PRO
35
n
38
PRO
35
A
ASN
36
n
39
ASN
36
A
GLY
37
n
40
GLY
37
A
PRO
38
n
41
PRO
38
A
ASP
39
n
42
ASP
39
A
THR
40
n
43
THR
40
A
THR
41
n
44
THR
41
A
CYS
42
n
45
CYS
42
A
LYS
43
n
46
LYS
43
A
SER
44
n
47
SER
44
A
GLY
45
n
48
GLY
45
A
ASP
46
n
49
ASP
46
A
VAL
47
n
50
VAL
47
A
GLU
48
n
51
GLU
48
A
LEU
49
n
52
LEU
49
A
LYS
50
n
53
LYS
50
A
ALA
51
n
54
ALA
51
A
SER
52
n
55
SER
52
A
ASP
53
n
56
ASP
53
A
ALA
54
n
57
ALA
54
A
GLY
55
n
58
GLY
55
A
GLN
56
n
59
GLN
56
A
VAL
57
n
60
VAL
57
A
LEU
58
n
61
LEU
58
A
THR
59
n
62
THR
59
A
ALA
60
n
63
ALA
60
A
ASP
61
n
64
ASP
61
A
ASP
62
n
65
ASP
62
A
PHE
63
n
66
PHE
63
A
PRO
64
n
67
PRO
64
A
PHE
65
n
68
PHE
65
A
LYS
66
n
69
LYS
66
A
SER
67
n
70
SER
67
A
ALA
68
n
71
ALA
68
A
GLU
69
n
72
GLU
69
A
GLU
70
n
73
GLU
70
A
VAL
71
n
74
VAL
71
A
ALA
72
n
75
ALA
72
A
ASP
73
n
76
ASP
73
A
THR
74
n
77
THR
74
A
ILE
75
n
78
ILE
75
A
VAL
76
n
79
VAL
76
A
ASN
77
n
80
ASN
77
A
LYS
78
n
81
LYS
78
A
ALA
79
n
82
ALA
79
A
GLY
80
n
83
GLY
80
A
LEU
81
n
84
LEU
81
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
identity operation
0.0000000000
0.0000000000
0.0000000000
11
A
A
O
HG
ASN
SER
25
26
1.58
19
A
A
O
HE21
ASP
GLN
53
56
1.58
24
A
A
O
HG
ASN
SER
25
26
1.57
1
A
LYS
2
61.86
128.93
1
A
ALA
20
-50.95
-179.68
1
A
ASP
21
-59.35
-120.35
1
A
PHE
22
-59.92
178.53
1
A
PRO
23
-65.38
65.65
1
A
ILE
24
107.57
61.22
1
A
ASN
25
-64.35
65.07
1
A
SER
26
57.48
156.52
1
A
LEU
34
-26.91
129.75
1
A
PRO
38
-84.31
46.53
1
A
ASP
39
66.31
95.01
1
A
CYS
42
-86.85
46.26
1
A
ASP
46
-171.17
-40.11
1
A
LYS
50
-173.80
-176.08
1
A
PHE
63
-39.82
-70.97
1
A
PRO
64
-67.76
74.38
1
A
LYS
66
-68.94
68.40
1
A
SER
67
59.51
161.48
2
A
SER
-2
-178.53
-45.96
2
A
MET
1
-158.34
64.93
2
A
ALA
18
-59.16
85.25
2
A
ALA
20
-52.77
-174.12
2
A
ASP
21
-59.96
-119.34
2
A
PHE
22
-58.52
174.21
2
A
PRO
23
-63.27
66.63
2
A
ILE
24
109.52
59.71
2
A
ASN
25
-63.37
66.75
2
A
SER
26
56.28
153.64
2
A
LEU
34
-34.66
140.03
2
A
ASP
39
168.25
86.92
2
A
CYS
42
-92.87
44.76
2
A
LYS
66
-69.66
65.41
2
A
SER
67
63.63
160.00
3
A
HIS
-1
62.77
134.57
3
A
VAL
5
-55.75
-5.64
3
A
ALA
20
-51.95
-176.81
3
A
ASP
21
-60.90
-121.20
3
A
PHE
22
-59.56
176.81
3
A
PRO
23
-64.69
69.05
3
A
ILE
24
106.47
61.31
3
A
ASN
25
-65.24
64.96
3
A
SER
26
57.06
157.46
3
A
LEU
34
-27.27
137.00
3
A
PRO
38
-83.54
47.30
3
A
ASP
39
64.53
93.31
3
A
CYS
42
-92.04
45.53
3
A
ASP
46
-159.56
-43.36
3
A
SER
67
61.52
160.36
4
A
HIS
-1
-174.23
132.56
4
A
MET
1
49.00
122.57
4
A
MET
3
178.27
-55.80
4
A
ALA
20
-52.06
-176.93
4
A
ASP
21
-60.02
-119.70
4
A
PHE
22
-59.79
178.39
4
A
PRO
23
-65.08
67.85
4
A
ILE
24
105.96
62.46
4
A
ASN
25
-65.70
64.41
4
A
SER
26
57.07
160.47
4
A
LEU
34
-31.78
145.60
4
A
ASP
39
-178.88
90.10
4
A
CYS
42
-100.47
48.52
4
A
ASP
62
-67.59
3.31
4
A
LYS
66
-68.69
66.90
4
A
SER
67
61.85
159.87
5
A
LYS
2
-86.57
36.38
5
A
ALA
20
-52.73
-175.04
5
A
ASP
21
-61.58
-119.91
5
A
PHE
22
-59.45
179.21
5
A
PRO
23
-64.97
67.21
5
A
ILE
24
107.18
62.12
5
A
ASN
25
-63.65
65.37
5
A
SER
26
56.28
158.68
5
A
LEU
34
-31.61
145.02
5
A
ASP
39
-179.48
88.44
5
A
CYS
42
-100.29
50.43
5
A
LYS
66
-69.57
68.38
5
A
SER
67
59.66
160.96
6
A
MET
1
71.67
-53.82
6
A
MET
3
-165.90
42.27
6
A
ALA
20
-51.21
-179.05
6
A
ASP
21
-58.94
-119.47
6
A
PRO
23
-65.61
65.26
6
A
ILE
24
107.72
60.82
6
A
ASN
25
-62.82
65.46
6
A
SER
26
58.16
153.49
6
A
LEU
34
-24.99
135.26
6
A
PRO
38
-82.25
36.45
6
A
ASP
39
66.88
100.93
6
A
ASP
46
-169.46
-40.02
6
A
LYS
50
-171.70
-161.37
6
A
ASP
62
-68.30
3.30
6
A
LYS
66
-67.32
68.51
6
A
SER
67
58.73
162.12
7
A
HIS
-1
-63.78
-139.89
7
A
MET
1
60.54
-118.57
7
A
LYS
2
-94.70
30.66
7
A
MET
3
60.07
127.09
7
A
ALA
20
-52.59
-175.33
7
A
ASP
21
-61.56
-127.63
7
A
PHE
22
-54.23
175.49
7
A
PRO
23
-61.92
69.17
7
A
ILE
24
105.68
64.71
7
A
ASN
25
-65.77
63.89
7
A
SER
26
57.98
160.31
7
A
LEU
34
-32.75
140.34
7
A
ASP
39
179.26
76.61
7
A
CYS
42
-92.65
46.62
7
A
VAL
57
-78.33
27.69
7
A
ASP
62
-68.53
3.07
7
A
LYS
66
-66.00
67.64
7
A
SER
67
60.19
159.88
8
A
SER
-2
69.00
-56.50
8
A
LYS
2
-176.80
-105.35
8
A
MET
3
49.26
128.20
8
A
ALA
20
-52.85
-174.29
8
A
ASP
21
-60.31
-119.65
8
A
PHE
22
-60.63
-179.99
8
A
PRO
23
-66.17
65.94
8
A
ILE
24
108.01
60.76
8
A
ASN
25
-62.45
66.82
8
A
SER
26
57.16
154.18
8
A
LEU
34
-27.96
147.17
8
A
PRO
38
-84.04
43.52
8
A
ASP
39
61.68
96.19
8
A
CYS
42
-90.44
44.66
8
A
ASP
46
-171.04
-39.72
8
A
VAL
57
-78.26
27.63
8
A
ASP
62
-68.42
3.01
8
A
LYS
66
-68.11
68.67
8
A
SER
67
58.75
161.17
9
A
SER
-2
-178.26
37.41
9
A
LYS
2
-176.26
142.43
9
A
ALA
20
-51.87
-178.05
9
A
ASP
21
-61.18
-119.85
9
A
PHE
22
-58.73
174.43
9
A
PRO
23
-63.32
67.01
9
A
ILE
24
109.40
60.55
9
A
ASN
25
-62.78
65.85
9
A
SER
26
56.76
156.70
9
A
LEU
34
-35.18
145.21
9
A
ASP
39
172.78
95.32
9
A
CYS
42
-95.55
43.71
9
A
ASP
46
-168.44
-40.96
9
A
THR
59
-49.08
174.92
9
A
PHE
63
-43.78
-71.34
9
A
PRO
64
-68.39
77.65
9
A
SER
67
63.93
160.20
10
A
MET
1
-176.02
136.41
10
A
ALA
20
-51.59
-176.40
10
A
ASP
21
-59.83
-120.64
10
A
PHE
22
-61.36
-169.06
10
A
ILE
24
109.83
65.94
10
A
ASN
25
-63.76
65.64
10
A
SER
26
59.38
157.05
10
A
LEU
34
-33.32
148.90
10
A
PRO
38
-58.24
-73.81
10
A
ASP
39
-176.84
88.55
10
A
CYS
42
-88.84
46.26
10
A
ASP
46
-156.39
-42.74
10
A
ASP
62
-68.70
2.98
10
A
LYS
66
-68.67
66.76
10
A
SER
67
60.80
161.51
11
A
SER
-2
-86.65
43.72
11
A
LYS
2
176.69
-43.61
11
A
ALA
20
-51.65
-176.54
11
A
ASP
21
-59.90
-123.16
11
A
PHE
22
-58.83
-174.79
11
A
PRO
23
-68.08
62.80
11
A
ILE
24
110.32
65.49
11
A
ASN
25
-64.67
65.99
11
A
SER
26
58.43
157.20
11
A
LEU
34
-25.07
134.47
11
A
PRO
38
-83.74
43.79
11
A
ASP
39
62.28
93.82
11
A
CYS
42
-88.01
43.87
11
A
LYS
66
-66.45
70.07
11
A
SER
67
59.33
161.15
12
A
SER
-2
62.11
-137.88
12
A
HIS
-1
47.83
-174.23
12
A
MET
3
66.65
130.56
12
A
ALA
20
-52.19
-177.41
12
A
ASP
21
-60.79
-119.27
12
A
PRO
23
-65.48
65.49
12
A
ILE
24
107.94
61.47
12
A
ASN
25
-62.98
65.75
12
A
SER
26
57.12
156.70
12
A
LEU
34
-30.49
140.99
12
A
PRO
38
-79.45
49.46
12
A
ASP
39
51.50
91.85
12
A
LYS
50
-166.38
-165.26
12
A
ASP
62
-68.64
3.31
12
A
LYS
66
-67.41
69.67
12
A
SER
67
58.50
162.19
13
A
SER
-2
-178.01
-47.92
13
A
MET
1
177.75
136.48
13
A
LYS
2
-122.43
-50.73
13
A
MET
3
48.35
115.78
13
A
ALA
20
-52.37
-176.69
13
A
ASP
21
-60.85
-119.46
13
A
PHE
22
-59.66
177.44
13
A
PRO
23
-65.11
65.86
13
A
ILE
24
109.53
61.27
13
A
ASN
25
-63.14
65.23
13
A
SER
26
57.37
154.33
13
A
LEU
34
-36.08
144.91
13
A
PRO
38
-84.35
44.82
13
A
ASP
39
62.37
95.83
13
A
CYS
42
-101.61
42.71
13
A
ASP
46
-175.16
27.29
13
A
VAL
57
-77.65
27.90
13
A
PRO
64
-68.20
76.55
13
A
LYS
66
-69.80
64.97
13
A
SER
67
64.07
161.25
14
A
SER
-2
-178.23
136.36
14
A
HIS
-1
-176.79
45.53
14
A
MET
1
63.19
134.90
14
A
ALA
20
-51.40
-177.69
14
A
ASP
21
-59.81
-122.14
14
A
PHE
22
-59.68
-171.50
14
A
ILE
24
109.57
65.52
14
A
ASN
25
-63.73
65.41
14
A
SER
26
60.10
154.54
14
A
LEU
34
-29.27
139.29
14
A
PRO
38
-81.64
46.54
14
A
ASP
39
65.29
90.40
14
A
CYS
42
-93.41
41.31
14
A
LYS
50
-171.64
-171.96
14
A
VAL
57
-74.16
28.05
14
A
LYS
66
-68.64
67.14
14
A
SER
67
60.53
160.98
15
A
SER
-2
-178.48
138.07
15
A
HIS
-1
-173.12
127.85
15
A
MET
3
-37.54
131.08
15
A
ALA
20
-51.37
-178.90
15
A
ASP
21
-60.88
-120.37
15
A
PHE
22
-59.44
179.80
15
A
PRO
23
-65.46
63.98
15
A
ILE
24
108.65
60.95
15
A
ASN
25
-62.48
65.84
15
A
SER
26
57.64
154.42
15
A
LEU
34
-30.00
137.33
15
A
ASP
39
52.49
93.31
15
A
CYS
42
-92.16
45.99
15
A
ASP
46
-169.57
-40.79
15
A
VAL
57
-75.11
28.05
15
A
LYS
66
-66.48
69.95
15
A
SER
67
58.07
161.80
16
A
MET
1
62.56
130.01
16
A
LYS
2
-95.87
42.80
16
A
ALA
18
-57.98
83.44
16
A
ALA
20
-51.38
-177.78
16
A
ASP
21
-58.30
-120.52
16
A
PHE
22
-58.69
175.46
16
A
PRO
23
-63.89
65.41
16
A
ILE
24
109.84
61.41
16
A
ASN
25
-65.81
64.06
16
A
SER
26
57.43
150.53
16
A
LEU
34
-33.29
130.48
16
A
PRO
38
-83.43
43.87
16
A
ASP
39
68.81
97.97
16
A
ASP
46
79.04
-42.07
16
A
LYS
50
-177.96
-164.72
16
A
THR
59
-47.94
156.80
16
A
LYS
66
-67.73
71.48
16
A
SER
67
59.31
161.37
17
A
HIS
-1
-74.36
-143.30
17
A
MET
3
-128.80
-61.20
17
A
ALA
20
-53.92
-172.37
17
A
ASP
21
-62.06
-119.39
17
A
PRO
23
-65.39
66.76
17
A
ILE
24
108.19
61.69
17
A
ASN
25
-64.39
64.76
17
A
SER
26
58.15
155.23
17
A
LEU
34
-28.24
127.34
17
A
ASP
39
50.61
95.02
17
A
ASP
46
-130.87
-46.39
17
A
LYS
50
-171.66
-176.32
17
A
ASP
62
-69.13
3.33
17
A
PRO
64
-69.54
74.89
17
A
LYS
66
-68.34
70.53
17
A
SER
67
58.41
160.71
18
A
SER
-2
-178.47
-44.10
18
A
MET
1
179.39
-46.15
18
A
LYS
2
-178.54
120.95
18
A
ALA
20
-53.23
-174.46
18
A
ASP
21
-61.45
-118.45
18
A
PHE
22
-59.73
179.51
18
A
PRO
23
-65.99
66.30
18
A
ILE
24
109.29
61.33
18
A
ASN
25
-63.23
66.11
18
A
SER
26
57.26
155.93
18
A
LEU
34
-33.20
131.96
18
A
PRO
38
-81.40
38.25
18
A
ASP
39
61.60
95.31
18
A
CYS
42
-91.04
45.91
18
A
ASP
46
-167.51
-41.78
18
A
LYS
66
-67.44
62.36
18
A
SER
67
64.98
161.89
19
A
MET
1
63.06
143.32
19
A
MET
3
-159.19
33.32
19
A
ALA
18
-65.56
60.60
19
A
ALA
20
-114.45
-168.40
19
A
ASP
21
-59.32
-119.65
19
A
PHE
22
-61.35
-171.16
19
A
ILE
24
109.00
66.10
19
A
ASN
25
-65.42
65.85
19
A
SER
26
57.48
158.97
19
A
LEU
34
-39.53
134.55
19
A
ASP
39
174.21
71.12
19
A
ASP
46
-140.98
-46.04
19
A
LYS
66
-68.68
66.70
19
A
SER
67
61.05
161.14
20
A
MET
3
57.46
132.97
20
A
ALA
18
-63.72
61.62
20
A
PRO
23
-68.86
59.09
20
A
ILE
24
110.76
61.02
20
A
ASN
25
-64.14
64.42
20
A
SER
26
58.66
150.73
20
A
PRO
38
-83.23
35.89
20
A
ASP
39
65.66
99.81
20
A
ASP
46
-159.47
-42.17
20
A
VAL
57
-77.16
27.95
20
A
LYS
66
-68.28
70.80
20
A
SER
67
57.04
163.66
21
A
HIS
-1
63.54
-121.66
21
A
LYS
2
-178.97
134.66
21
A
MET
3
-177.70
134.23
21
A
ALA
20
-52.44
-174.03
21
A
ASP
21
-60.23
-120.31
21
A
PHE
22
-62.14
-169.59
21
A
ILE
24
110.59
65.16
21
A
ASN
25
-65.68
66.26
21
A
SER
26
59.39
156.02
21
A
LEU
34
-33.73
139.39
21
A
PRO
38
-80.22
49.50
21
A
ASP
39
49.25
91.01
21
A
CYS
42
-92.34
43.79
21
A
VAL
57
-77.09
27.82
21
A
LYS
66
-67.80
69.07
21
A
SER
67
59.37
161.42
22
A
MET
3
-160.07
38.58
22
A
VAL
5
-58.63
-6.21
22
A
ALA
20
-50.80
-179.42
22
A
ASP
21
-58.25
-122.02
22
A
PHE
22
-62.66
-174.99
22
A
PRO
23
-66.55
61.78
22
A
ILE
24
108.24
64.06
22
A
ASN
25
-63.90
65.14
22
A
SER
26
59.50
151.79
22
A
LEU
34
-38.37
143.77
22
A
ASP
39
174.53
96.80
22
A
CYS
42
-93.61
47.63
22
A
ASP
46
-159.48
-42.71
22
A
VAL
57
-76.96
27.78
22
A
LYS
66
-67.17
70.68
22
A
SER
67
58.73
158.74
22
A
ALA
79
-68.87
32.03
23
A
ALA
20
-50.79
-179.44
23
A
ASP
21
-59.98
-121.03
23
A
PHE
22
-58.99
177.35
23
A
PRO
23
-64.26
67.63
23
A
ILE
24
105.89
61.36
23
A
ASN
25
-64.10
65.55
23
A
SER
26
57.37
156.50
23
A
LEU
34
-25.34
135.43
23
A
PRO
35
-68.13
26.23
23
A
PRO
38
-83.86
41.37
23
A
ASP
39
61.74
94.81
23
A
CYS
42
-92.79
46.57
23
A
VAL
57
-79.14
27.99
23
A
LYS
66
-68.53
66.54
23
A
SER
67
61.34
160.93
24
A
HIS
-1
-176.11
-44.83
24
A
LYS
2
69.29
-120.84
24
A
ALA
18
-59.64
81.04
24
A
ALA
20
-53.03
-173.00
24
A
ASP
21
-60.25
-119.91
24
A
PHE
22
-59.97
179.79
24
A
PRO
23
-65.23
65.34
24
A
ILE
24
107.78
62.14
24
A
ASN
25
-63.98
64.16
24
A
SER
26
59.10
152.65
24
A
LEU
34
-27.92
128.12
24
A
PRO
38
-84.50
47.14
24
A
ASP
39
64.68
95.28
24
A
CYS
42
-89.46
44.03
24
A
LYS
50
-173.40
-168.81
24
A
ASP
62
-67.89
3.16
24
A
LYS
66
-67.89
70.50
24
A
SER
67
58.43
161.54
25
A
HIS
-1
-175.76
-57.88
25
A
LYS
2
-175.38
134.41
25
A
MET
3
-176.90
125.11
25
A
ALA
20
-52.29
-175.64
25
A
ASP
21
-60.26
-122.00
25
A
PHE
22
-59.93
-173.42
25
A
PRO
23
-69.33
61.52
25
A
ILE
24
111.98
65.21
25
A
ASN
25
-64.31
65.68
25
A
SER
26
58.89
155.01
25
A
LEU
34
-37.33
138.91
25
A
ASP
39
171.25
98.74
25
A
ASP
46
79.97
-39.55
25
A
LYS
50
-163.73
-164.67
25
A
LYS
66
-67.22
70.37
25
A
SER
67
58.19
162.35
NMR-Based Structure of the Conserved Protein MTH865 from the Archea Methanobacterium thermoautotrophicum
1
N
N
A
LYS
6
A
LYS
9
HELX_P
A
LEU
17
A
LEU
20
1
1
12
A
SER
26
A
SER
29
HELX_P
A
LEU
34
A
LEU
37
1
2
9
A
ALA
51
A
ALA
54
HELX_P
A
VAL
57
A
VAL
60
5
3
7
A
SER
67
A
SER
70
HELX_P
A
ALA
79
A
ALA
82
1
5
13
STRUCTURAL GENOMICS, UNKNOWN FUNCTION
4-helical bundle, monomer, STRUCTURAL GENOMICS, UNKNOWN FUNCTION
Q04926_METTH
UNP
1
1
Q04926
MKMGVKEDIRGQIIGALAGADFPINSPEELMAALPNGPDTTCKSGDVELKASDAGQVLTADDFPFKSAEEVADTIVNKAG
L
1
81
1IIO
1
81
Q04926
A
1
4
84
1
expression tag
GLY
-3
1IIO
A
Q04926
UNP
1
1
expression tag
SER
-2
1IIO
A
Q04926
UNP
2
1
expression tag
HIS
-1
1IIO
A
Q04926
UNP
3