1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Simpson, P.J.
Jamieson, S.J.
Abou-Hachem, M.
Nordberg-Karlsson, E.
Gilbert, H.J.
Holst, O.
Williamson, M.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
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
US
Biochemistry
BICHAW
0033
0006-2960
41
5712
5719
10.1021/bi012093i
11980475
The solution structure of the CBM4-2 carbohydrate binding module from a thermostable Rhodothermus marinus xylanase.
2002
10.2210/pdb1k42/pdb
pdb_00001k42
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
18103.803
Xylanase
3.2.1.8
Second family 4 carbohydrate binding module (CBM4-2)(Residues 211-373)
1
man
polymer
no
no
MLVANINGGFESTPAGVVTDLAEGVEGWDLNVGSSVTNPPVFEVLETSDAPEGNKVLAVTVNGVGNNPWDIEATAFPVNV
RPGVTYTYTIWARAEQDGAVVSFTVGNQSFQEYGRLHEQQITTEWQPFTFEFTVSDQETVIRAPIHFGYAANVGNTIYID
GLAIASQP
MLVANINGGFESTPAGVVTDLAEGVEGWDLNVGSSVTNPPVFEVLETSDAPEGNKVLAVTVNGVGNNPWDIEATAFPVNV
RPGVTYTYTIWARAEQDGAVVSFTVGNQSFQEYGRLHEQQITTEWQPFTFEFTVSDQETVIRAPIHFGYAANVGNTIYID
GLAIASQP
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
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
Rhodothermus
Escherichia
Escherichia coli
sample
xyn10A
29549
Rhodothermus marinus
469008
Escherichia coli BL21(DE3)
BL21(DE3)
Plasmid
pET-25b(+)
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
2002-05-29
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
1K45 CONTAINS THE MINIMIZED AVERAGE STRUCTURE FOR THIS PROTEIN
RCSB
Y
RCSB
2001-10-05
REL
REL
structures with acceptable covalent geometry,structures with the least restraint violations,structures with the lowest energy
50
12
3D_13C-separated_NOESY
3D_15N-separated_NOESY
HNHA
0.2 M
6.0
ambient
310
K
The final set of restraints contained 1654 non-redundant unambiguous NOEs and 17 ambiguous NOEs, 93 dihedral angle restraints, 72 chi1 and 1 chi2 restraint, and 65 pairs of hydrogen bond restraints, plus 177 backbone dihedral restraints based on 13C shifts from TALOS.
hybrid distance geometry/simulated annealing using XPLOR
1.5 mM CBM4-2 15N-labelled, and 13C,15N double labelled protein;
50 mM CaCl2,
50 mM sodium acetate-d3,
pH 6.0,
10% D2O,
10 mM sodium azide,
0.1 mM sodium trimethylsilylpropionate (TSP)
90% H2O/10% D2O
Molecular Simulations Inc.
processing
Felix
2000
Axel T. Brunger
structure solution
X-PLOR
3.1
Axel T. Brunger
refinement
X-PLOR
3.1
500
Bruker
DRX
600
Bruker
DRX
MET
1
n
1
MET
1
A
LEU
2
n
2
LEU
2
A
VAL
3
n
3
VAL
3
A
ALA
4
n
4
ALA
4
A
ASN
5
n
5
ASN
5
A
ILE
6
n
6
ILE
6
A
ASN
7
n
7
ASN
7
A
GLY
8
n
8
GLY
8
A
GLY
9
n
9
GLY
9
A
PHE
10
n
10
PHE
10
A
GLU
11
n
11
GLU
11
A
SER
12
n
12
SER
12
A
THR
13
n
13
THR
13
A
PRO
14
n
14
PRO
14
A
ALA
15
n
15
ALA
15
A
GLY
16
n
16
GLY
16
A
VAL
17
n
17
VAL
17
A
VAL
18
n
18
VAL
18
A
THR
19
n
19
THR
19
A
ASP
20
n
20
ASP
20
A
LEU
21
n
21
LEU
21
A
ALA
22
n
22
ALA
22
A
GLU
23
n
23
GLU
23
A
GLY
24
n
24
GLY
24
A
VAL
25
n
25
VAL
25
A
GLU
26
n
26
GLU
26
A
GLY
27
n
27
GLY
27
A
TRP
28
n
28
TRP
28
A
ASP
29
n
29
ASP
29
A
LEU
30
n
30
LEU
30
A
ASN
31
n
31
ASN
31
A
VAL
32
n
32
VAL
32
A
GLY
33
n
33
GLY
33
A
SER
34
n
34
SER
34
A
SER
35
n
35
SER
35
A
VAL
36
n
36
VAL
36
A
THR
37
n
37
THR
37
A
ASN
38
n
38
ASN
38
A
PRO
39
n
39
PRO
39
A
PRO
40
n
40
PRO
40
A
VAL
41
n
41
VAL
41
A
PHE
42
n
42
PHE
42
A
GLU
43
n
43
GLU
43
A
VAL
44
n
44
VAL
44
A
LEU
45
n
45
LEU
45
A
GLU
46
n
46
GLU
46
A
THR
47
n
47
THR
47
A
SER
48
n
48
SER
48
A
ASP
49
n
49
ASP
49
A
ALA
50
n
50
ALA
50
A
PRO
51
n
51
PRO
51
A
GLU
52
n
52
GLU
52
A
GLY
53
n
53
GLY
53
A
ASN
54
n
54
ASN
54
A
LYS
55
n
55
LYS
55
A
VAL
56
n
56
VAL
56
A
LEU
57
n
57
LEU
57
A
ALA
58
n
58
ALA
58
A
VAL
59
n
59
VAL
59
A
THR
60
n
60
THR
60
A
VAL
61
n
61
VAL
61
A
ASN
62
n
62
ASN
62
A
GLY
63
n
63
GLY
63
A
VAL
64
n
64
VAL
64
A
GLY
65
n
65
GLY
65
A
ASN
66
n
66
ASN
66
A
ASN
67
n
67
ASN
67
A
PRO
68
n
68
PRO
68
A
TRP
69
n
69
TRP
69
A
ASP
70
n
70
ASP
70
A
ILE
71
n
71
ILE
71
A
GLU
72
n
72
GLU
72
A
ALA
73
n
73
ALA
73
A
THR
74
n
74
THR
74
A
ALA
75
n
75
ALA
75
A
PHE
76
n
76
PHE
76
A
PRO
77
n
77
PRO
77
A
VAL
78
n
78
VAL
78
A
ASN
79
n
79
ASN
79
A
VAL
80
n
80
VAL
80
A
ARG
81
n
81
ARG
81
A
PRO
82
n
82
PRO
82
A
GLY
83
n
83
GLY
83
A
VAL
84
n
84
VAL
84
A
THR
85
n
85
THR
85
A
TYR
86
n
86
TYR
86
A
THR
87
n
87
THR
87
A
TYR
88
n
88
TYR
88
A
THR
89
n
89
THR
89
A
ILE
90
n
90
ILE
90
A
TRP
91
n
91
TRP
91
A
ALA
92
n
92
ALA
92
A
ARG
93
n
93
ARG
93
A
ALA
94
n
94
ALA
94
A
GLU
95
n
95
GLU
95
A
GLN
96
n
96
GLN
96
A
ASP
97
n
97
ASP
97
A
GLY
98
n
98
GLY
98
A
ALA
99
n
99
ALA
99
A
VAL
100
n
100
VAL
100
A
VAL
101
n
101
VAL
101
A
SER
102
n
102
SER
102
A
PHE
103
n
103
PHE
103
A
THR
104
n
104
THR
104
A
VAL
105
n
105
VAL
105
A
GLY
106
n
106
GLY
106
A
ASN
107
n
107
ASN
107
A
GLN
108
n
108
GLN
108
A
SER
109
n
109
SER
109
A
PHE
110
n
110
PHE
110
A
GLN
111
n
111
GLN
111
A
GLU
112
n
112
GLU
112
A
TYR
113
n
113
TYR
113
A
GLY
114
n
114
GLY
114
A
ARG
115
n
115
ARG
115
A
LEU
116
n
116
LEU
116
A
HIS
117
n
117
HIS
117
A
GLU
118
n
118
GLU
118
A
GLN
119
n
119
GLN
119
A
GLN
120
n
120
GLN
120
A
ILE
121
n
121
ILE
121
A
THR
122
n
122
THR
122
A
THR
123
n
123
THR
123
A
GLU
124
n
124
GLU
124
A
TRP
125
n
125
TRP
125
A
GLN
126
n
126
GLN
126
A
PRO
127
n
127
PRO
127
A
PHE
128
n
128
PHE
128
A
THR
129
n
129
THR
129
A
PHE
130
n
130
PHE
130
A
GLU
131
n
131
GLU
131
A
PHE
132
n
132
PHE
132
A
THR
133
n
133
THR
133
A
VAL
134
n
134
VAL
134
A
SER
135
n
135
SER
135
A
ASP
136
n
136
ASP
136
A
GLN
137
n
137
GLN
137
A
GLU
138
n
138
GLU
138
A
THR
139
n
139
THR
139
A
VAL
140
n
140
VAL
140
A
ILE
141
n
141
ILE
141
A
ARG
142
n
142
ARG
142
A
ALA
143
n
143
ALA
143
A
PRO
144
n
144
PRO
144
A
ILE
145
n
145
ILE
145
A
HIS
146
n
146
HIS
146
A
PHE
147
n
147
PHE
147
A
GLY
148
n
148
GLY
148
A
TYR
149
n
149
TYR
149
A
ALA
150
n
150
ALA
150
A
ALA
151
n
151
ALA
151
A
ASN
152
n
152
ASN
152
A
VAL
153
n
153
VAL
153
A
GLY
154
n
154
GLY
154
A
ASN
155
n
155
ASN
155
A
THR
156
n
156
THR
156
A
ILE
157
n
157
ILE
157
A
TYR
158
n
158
TYR
158
A
ILE
159
n
159
ILE
159
A
ASP
160
n
160
ASP
160
A
GLY
161
n
161
GLY
161
A
LEU
162
n
162
LEU
162
A
ALA
163
n
163
ALA
163
A
ILE
164
n
164
ILE
164
A
ALA
165
n
165
ALA
165
A
SER
166
n
166
SER
166
A
GLN
167
n
167
GLN
167
A
PRO
168
n
168
PRO
168
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
GLY
16
A
N
GLY
16
A
O
VAL
44
A
O
VAL
44
A
N
LEU
45
A
N
LEU
45
A
O
VAL
56
A
O
VAL
56
A
N
LEU
57
A
N
LEU
57
A
O
ILE
159
A
O
ILE
159
A
O
ALA
163
A
O
ALA
163
A
N
THR
89
A
N
THR
89
A
N
ILE
90
A
N
ILE
90
A
O
PHE
128
A
O
PHE
128
A
N
ASP
29
A
N
ASP
29
A
O
THR
74
A
O
THR
74
A
N
ALA
73
A
N
ALA
73
A
O
ILE
145
A
O
ILE
145
A
O
ARG
142
A
O
ARG
142
A
N
GLY
106
A
N
GLY
106
A
N
VAL
101
A
N
VAL
101
A
O
GLN
119
A
O
GLN
119
1
A
ARG
81
0.290
SIDE CHAIN
1
A
ARG
93
0.228
SIDE CHAIN
1
A
ARG
115
0.318
SIDE CHAIN
2
A
ARG
81
0.194
SIDE CHAIN
2
A
ARG
93
0.199
SIDE CHAIN
2
A
ARG
115
0.306
SIDE CHAIN
2
A
ARG
142
0.186
SIDE CHAIN
3
A
ARG
81
0.317
SIDE CHAIN
3
A
ARG
93
0.276
SIDE CHAIN
3
A
ARG
115
0.227
SIDE CHAIN
3
A
ARG
142
0.244
SIDE CHAIN
4
A
ARG
81
0.318
SIDE CHAIN
4
A
ARG
93
0.218
SIDE CHAIN
4
A
ARG
115
0.249
SIDE CHAIN
4
A
ARG
142
0.193
SIDE CHAIN
5
A
ARG
81
0.280
SIDE CHAIN
5
A
ARG
93
0.123
SIDE CHAIN
5
A
ARG
115
0.307
SIDE CHAIN
5
A
ARG
142
0.135
SIDE CHAIN
6
A
ARG
81
0.225
SIDE CHAIN
6
A
ARG
93
0.173
SIDE CHAIN
6
A
ARG
115
0.146
SIDE CHAIN
6
A
ARG
142
0.289
SIDE CHAIN
7
A
ARG
81
0.193
SIDE CHAIN
7
A
ARG
93
0.185
SIDE CHAIN
7
A
ARG
115
0.285
SIDE CHAIN
7
A
ARG
142
0.262
SIDE CHAIN
8
A
ARG
81
0.178
SIDE CHAIN
8
A
ARG
93
0.298
SIDE CHAIN
8
A
ARG
115
0.257
SIDE CHAIN
8
A
ARG
142
0.218
SIDE CHAIN
9
A
ARG
81
0.313
SIDE CHAIN
9
A
ARG
93
0.118
SIDE CHAIN
9
A
ARG
115
0.312
SIDE CHAIN
9
A
ARG
142
0.183
SIDE CHAIN
10
A
ARG
81
0.318
SIDE CHAIN
10
A
ARG
93
0.316
SIDE CHAIN
10
A
ARG
115
0.304
SIDE CHAIN
10
A
ARG
142
0.240
SIDE CHAIN
11
A
ARG
81
0.241
SIDE CHAIN
11
A
ARG
93
0.148
SIDE CHAIN
11
A
ARG
115
0.255
SIDE CHAIN
11
A
ARG
142
0.236
SIDE CHAIN
12
A
ARG
81
0.223
SIDE CHAIN
12
A
ARG
93
0.145
SIDE CHAIN
12
A
ARG
115
0.236
SIDE CHAIN
12
A
ARG
142
0.311
SIDE CHAIN
1
A
LEU
2
-57.09
101.30
1
A
ALA
15
-40.02
155.51
1
A
VAL
36
-64.64
87.86
1
A
ASN
54
-160.02
37.77
1
A
ASN
62
-149.51
56.41
1
A
PRO
68
-79.52
38.88
1
A
TRP
69
-162.58
50.05
1
A
ARG
93
-164.40
119.12
1
A
ARG
115
-178.78
119.46
1
A
GLU
118
79.42
66.32
1
A
GLU
124
-106.65
-168.78
1
A
PHE
130
-173.22
-172.69
1
A
ASP
136
-102.91
-91.74
1
A
GLN
137
-162.27
50.59
1
A
ASP
160
-173.89
136.41
1
A
LEU
162
-60.01
94.04
2
A
VAL
3
43.85
-169.71
2
A
ALA
15
-42.05
165.48
2
A
VAL
36
-46.18
94.53
2
A
ASN
54
-152.74
22.85
2
A
ASN
62
-154.40
58.55
2
A
PHE
76
179.53
162.86
2
A
ARG
93
-164.14
118.49
2
A
GLN
108
-68.34
3.81
2
A
TYR
113
-96.17
-70.74
2
A
GLU
118
77.28
58.56
2
A
GLU
124
-108.42
-168.87
2
A
PHE
130
-171.89
-177.64
2
A
ASP
136
-106.74
-90.87
2
A
GLN
137
-163.98
53.97
2
A
ASP
160
-173.80
136.34
3
A
ALA
15
-41.59
163.53
3
A
VAL
36
-67.68
89.46
3
A
PRO
40
-77.46
-165.74
3
A
ALA
50
-44.31
155.18
3
A
ASN
54
-156.63
35.64
3
A
ASN
62
-160.11
60.34
3
A
PHE
76
179.44
160.44
3
A
TYR
113
-102.78
-69.88
3
A
ARG
115
-164.42
109.65
3
A
GLU
118
79.33
68.74
3
A
GLU
124
-107.67
-169.00
3
A
PHE
130
-173.41
-172.61
3
A
GLN
137
86.97
27.28
3
A
ASP
160
-173.82
136.01
3
A
LEU
162
-59.43
91.29
4
A
ALA
15
-42.11
166.00
4
A
VAL
36
-67.35
88.55
4
A
PRO
40
-77.44
-169.93
4
A
ASN
54
-160.09
38.62
4
A
ASN
62
-160.08
55.42
4
A
TYR
113
-93.82
-75.88
4
A
HIS
117
69.96
-153.73
4
A
GLU
118
97.95
28.36
4
A
GLU
124
-104.17
-169.79
4
A
ASP
136
-108.09
-92.35
4
A
GLN
137
-160.66
55.51
4
A
ASP
160
-173.67
136.40
4
A
LEU
162
-59.27
97.15
5
A
ALA
15
-40.11
161.43
5
A
VAL
36
-59.90
89.41
5
A
ASN
54
-158.14
34.48
5
A
ASN
62
-159.23
61.15
5
A
PHE
76
178.21
161.94
5
A
ARG
93
-160.68
118.02
5
A
TYR
113
-94.80
-71.61
5
A
ARG
115
-160.94
110.55
5
A
GLU
118
77.98
44.34
5
A
GLU
124
-110.91
-168.94
5
A
ASP
136
-108.23
-91.70
5
A
GLN
137
-163.23
54.74
5
A
ASP
160
-173.90
135.95
5
A
LEU
162
-59.81
109.13
6
A
VAL
3
179.75
173.87
6
A
ALA
15
-41.97
164.63
6
A
VAL
36
-63.78
89.67
6
A
ASN
54
-155.06
20.33
6
A
ASN
62
-159.93
61.56
6
A
PHE
76
177.42
162.95
6
A
ARG
93
-162.16
118.06
6
A
PHE
110
81.14
8.58
6
A
TYR
113
-107.30
-65.53
6
A
ARG
115
175.35
119.82
6
A
GLU
118
79.66
72.74
6
A
GLU
124
-111.64
-168.95
6
A
ASP
136
-118.49
-91.71
6
A
GLN
137
-159.70
57.37
6
A
ASP
160
-174.08
136.26
7
A
ALA
15
-40.21
154.46
7
A
VAL
36
-62.41
89.39
7
A
ALA
50
-45.91
154.62
7
A
ASN
54
-160.02
30.16
7
A
ASN
62
-153.91
58.66
7
A
PHE
76
179.03
161.31
7
A
ASN
107
-126.52
-169.37
7
A
TYR
113
-95.95
-70.62
7
A
GLU
118
77.22
53.31
7
A
GLU
124
-110.06
-168.83
7
A
PHE
130
-173.87
-178.29
7
A
ASP
136
-110.51
-90.79
7
A
GLN
137
-163.31
56.31
7
A
ASP
160
-174.23
136.38
7
A
LEU
162
-59.90
103.97
8
A
ALA
15
-41.70
164.35
8
A
VAL
36
-60.77
89.84
8
A
GLU
52
-117.87
79.71
8
A
ASN
54
-142.28
35.35
8
A
ASN
62
-153.46
58.02
8
A
PHE
76
177.99
160.48
8
A
ARG
115
-157.81
74.61
8
A
GLU
118
76.89
36.31
8
A
VAL
134
-41.55
108.96
8
A
ASP
136
-138.49
-90.79
8
A
GLN
137
-158.35
56.05
8
A
ASP
160
-174.14
136.24
8
A
LEU
162
-60.29
100.00
8
A
SER
166
-67.11
-174.80
9
A
ALA
15
-44.62
170.76
9
A
VAL
36
-47.63
102.57
9
A
ASN
54
-160.06
29.87
9
A
ASN
62
-151.07
57.00
9
A
ALA
73
-162.37
106.48
9
A
PHE
76
178.17
162.52
9
A
TYR
113
-102.40
-70.11
9
A
ARG
115
-175.28
129.45
9
A
GLU
118
80.00
47.63
9
A
PHE
130
-161.48
-169.67
9
A
ASP
136
-101.77
-91.59
9
A
GLN
137
-163.33
50.81
9
A
PHE
147
-113.53
-168.37
9
A
ASP
160
-174.18
135.58
9
A
LEU
162
-59.73
97.78
10
A
ALA
15
-40.32
161.01
10
A
VAL
36
-67.03
86.82
10
A
PRO
40
-77.38
-165.49
10
A
ASN
54
-157.57
22.51
10
A
ASN
62
-160.17
61.58
10
A
PHE
76
178.98
160.56
10
A
PHE
110
80.61
7.79
10
A
TYR
113
-108.37
-68.56
10
A
ARG
115
-171.03
110.11
10
A
GLU
118
79.10
78.52
10
A
GLN
137
86.32
28.38
10
A
ASP
160
-174.38
136.37
10
A
LEU
162
-59.62
97.19
11
A
ALA
15
-39.31
153.88
11
A
VAL
36
-62.97
89.29
11
A
PRO
40
-77.30
-165.68
11
A
ASN
54
-152.63
18.24
11
A
ASN
62
-160.23
59.30
11
A
PHE
76
179.36
161.57
11
A
ARG
93
-162.34
119.68
11
A
ASN
107
-76.98
-169.88
11
A
TYR
113
-109.69
-69.02
11
A
ARG
115
-177.87
135.83
11
A
GLU
118
82.21
36.80
11
A
GLU
124
-112.44
-168.73
11
A
ASP
136
-110.65
-91.16
11
A
GLN
137
-160.94
55.20
11
A
ASP
160
-173.94
136.10
11
A
LEU
162
-59.61
93.06
12
A
LEU
2
-67.11
91.18
12
A
VAL
3
-56.68
173.53
12
A
ASN
7
76.83
43.80
12
A
PHE
10
118.40
1.06
12
A
ALA
15
-39.96
161.15
12
A
PRO
40
-77.27
-164.08
12
A
ASN
54
-160.16
36.28
12
A
ASN
62
-160.09
60.96
12
A
ARG
115
-162.78
117.31
12
A
LEU
116
-150.62
74.31
12
A
GLU
118
77.53
41.04
12
A
GLU
124
-102.40
-168.91
12
A
VAL
134
-43.57
109.24
12
A
ASP
136
-129.81
-90.28
12
A
GLN
137
-158.58
52.73
12
A
ASP
160
-173.23
136.24
12
A
LEU
162
-59.33
93.14
The Solution Structure of the CBM4-2 Carbohydrate Binding Module from a Thermostable Rhodothermus marinus Xylanase.
1
N
N
A
ASP
20
A
ASP
20
HELX_P
A
GLY
24
A
GLY
24
5
1
5
A
TYR
149
A
TYR
149
HELX_P
A
VAL
153
A
VAL
153
5
2
5
HYDROLASE
beta-sandwich formed by 11 strands. Binding-site cleft. Solvent exposed aromatics (Trp69, Phe110) in binding cleft. Two helical twists. Two calcium binding sites., Hydrolase
A
PHE
76
A
PHE
76
1
A
PRO
77
A
PRO
77
-0.75
A
PHE
76
A
PHE
76
2
A
PRO
77
A
PRO
77
-0.53
A
PHE
76
A
PHE
76
3
A
PRO
77
A
PRO
77
-0.50
A
PHE
76
A
PHE
76
4
A
PRO
77
A
PRO
77
-0.84
A
PHE
76
A
PHE
76
5
A
PRO
77
A
PRO
77
-0.68
A
PHE
76
A
PHE
76
6
A
PRO
77
A
PRO
77
-0.24
A
PHE
76
A
PHE
76
7
A
PRO
77
A
PRO
77
-0.15
A
PHE
76
A
PHE
76
8
A
PRO
77
A
PRO
77
-0.57
A
PHE
76
A
PHE
76
9
A
PRO
77
A
PRO
77
-0.36
A
PHE
76
A
PHE
76
10
A
PRO
77
A
PRO
77
-0.47
A
PHE
76
A
PHE
76
11
A
PRO
77
A
PRO
77
-0.36
A
PHE
76
A
PHE
76
12
A
PRO
77
A
PRO
77
-0.65
P96988_RHOMR
UNP
1
211
P96988
LVANINGGFESTPAGVVTDLAEGVEGWDLNVGSSVTNPPVFEVLETSDAPEGNKVLAVTVNGVGNNPWDIEATAFPVNVR
PGVTYTYTIWARAEQDGAVVSFTVGNQSFQEYGRLHEQQITTEWQPFTFEFTVSDQETVIRAPIHFGYAANVGNTIYIDG
LAI
211
373
1K42
2
164
P96988
A
1
2
164
1
initiating methionine
MET
1
1K42
A
P96988
UNP
1
1
cloning artifact
ALA
165
1K42
A
P96988
UNP
165
1
cloning artifact
SER
166
1K42
A
P96988
UNP
166
1
cloning artifact
GLN
167
1K42
A
P96988
UNP
167
1
cloning artifact
PRO
168
1K42
A
P96988
UNP
168
6
5
anti-parallel
anti-parallel
anti-parallel
anti-parallel
anti-parallel
anti-parallel
anti-parallel
anti-parallel
anti-parallel
A
GLY
16
A
GLY
16
A
VAL
17
A
VAL
17
A
VAL
41
A
VAL
41
A
GLU
46
A
GLU
46
A
LYS
55
A
LYS
55
A
VAL
61
A
VAL
61
A
ASN
155
A
ASN
155
A
ALA
165
A
ALA
165
A
THR
85
A
THR
85
A
ALA
94
A
ALA
94
A
GLN
126
A
GLN
126
A
THR
133
A
THR
133
A
TRP
28
A
TRP
28
A
VAL
32
A
VAL
32
A
ILE
71
A
ILE
71
A
ASN
79
A
ASN
79
A
VAL
140
A
VAL
140
A
PHE
147
A
PHE
147
A
ALA
99
A
ALA
99
A
GLY
106
A
GLY
106
A
GLU
112
A
GLU
112
A
ILE
121
A
ILE
121