0.015697
0.009063
0.000000
0.000000
0.018126
0.000000
0.000000
0.000000
0.012814
0.00000
0.00000
0.00000
Joint Center for Structural Genomics (JCSG)
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
6
90.00
90.00
120.00
63.705
63.705
78.040
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
H2 O
18.015
WATER
non-polymer
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 H11 N O2 Se
196.106
n
SELENOMETHIONINE
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
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
Proteins
PSFGEY
0867
0887-3585
56
404
408
10.1002/prot.20090
15211526
Crystal structure of a PIN (PilT N-terminus) domain (AF0591) from Archaeoglobus fulgidus at 1.90 A resolution
2004
10.2210/pdb1o4w/pdb
pdb_00001o4w
100
1
flat mirror
CCD
2003-04-17
ADSC QUANTUM 315
single crystal Si(111) bent monochromator
MAD
M
x-ray
1
0.98397
1.0
0.97922
1.0
0.91837
1.0
0.97855
1.0
BL11-1
SSRL
0.98397, 0.97922, 0.91837, 0.97855
SYNCHROTRON
SSRL BEAMLINE BL11-1
17142.221
PIN (PilT N-terminus) domain
1
man
polymer
18.015
water
90
nat
water
no
yes
(MSE)GSDKIHHHHHH(MSE)EADRGRNNKVRCAVVDTNVL(MSE)YVYLNKADVVGQLREFGFSRFLITASVKRELEKL
E(MSE)SLRGKEKVAARFALKLLEHFEVVETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVE
LLD
MGSDKIHHHHHHMEADRGRNNKVRCAVVDTNVLMYVYLNKADVVGQLREFGFSRFLITASVKRELEKLEMSLRGKEKVAA
RFALKLLEHFEVVETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVELLD
A
354418
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
Archaeoglobus
Escherichia
sample
AF0591
2234
Archaeoglobus fulgidus
562
Escherichia coli
Plasmid
1
3.04
59.23
VAPOR DIFFUSION,SITTING DROP,NANODROP
6.0
30% MPD, MES buffer pH 6.0, VAPOR DIFFUSION,SITTING DROP,NANODROP, temperature 277K
277
Joint Center for Structural Genomics
JCSG
PSI, Protein Structure Initiative
database_2
struct_conn
struct_ref_seq_dif
repository
Initial release
Version format compliance
Advisory
Derived calculations
Version format compliance
Database references
Derived calculations
1
0
2003-07-29
1
1
2008-04-26
1
2
2011-07-13
1
3
2023-01-25
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_struct_conn.pdbx_leaving_atom_flag
_struct_ref_seq_dif.details
BIOMOLECULE: 1
THIS ENTRY CONTAINS THE CRYSTALLOGRAPHIC ASYMMETRIC UNIT
WHICH CONSISTS OF 1 CHAIN(S). SEE REMARK 350 FOR
INFORMATION ON GENERATING THE BIOLOGICAL MOLECULE(S).
THE BIOLOGICAL UNIT IS PROPOSED TO BE A DIMER AROUND THE
CRYTALLOGRAPHIC 2-FOLD AXIS. DIMERISATION IS MEDIATED
BY AN EXPOSED 2-STRAND BETA SHEET COMPRISING THE
HYDROPHILIC C-TERMINAL RESIDUES OF EACH SUBUNIT, THAT
BRIDGES THE GLOBULAR DOMAINS OF EACH SUBUNIT. THIS IS
CONSIDERED BIOLOGICALLY SIGNIFICANT BECAUSE OF IT LEADS
TO CHAIN SWAPPING BETWEEN SUBUNITS.
HELIX
DETERMINATION METHOD: AUTHOR
SHEET
DETERMINATION METHOD: AUTHOR
Y
RCSB
Y
RCSB
2003-07-16
REL
REL
HOH
water
HOH
1
2
HOH
HOH
136
A
HOH
2
2
HOH
HOH
137
A
HOH
3
2
HOH
HOH
138
A
HOH
4
2
HOH
HOH
139
A
HOH
5
2
HOH
HOH
140
A
HOH
6
2
HOH
HOH
141
A
HOH
7
2
HOH
HOH
142
A
HOH
8
2
HOH
HOH
143
A
HOH
10
2
HOH
HOH
144
A
HOH
11
2
HOH
HOH
145
A
HOH
12
2
HOH
HOH
146
A
HOH
13
2
HOH
HOH
147
A
HOH
14
2
HOH
HOH
148
A
HOH
15
2
HOH
HOH
149
A
HOH
16
2
HOH
HOH
150
A
HOH
17
2
HOH
HOH
151
A
HOH
18
2
HOH
HOH
152
A
HOH
19
2
HOH
HOH
153
A
HOH
20
2
HOH
HOH
154
A
HOH
21
2
HOH
HOH
155
A
HOH
22
2
HOH
HOH
156
A
HOH
23
2
HOH
HOH
157
A
HOH
24
2
HOH
HOH
158
A
HOH
26
2
HOH
HOH
159
A
HOH
27
2
HOH
HOH
160
A
HOH
28
2
HOH
HOH
161
A
HOH
29
2
HOH
HOH
162
A
HOH
30
2
HOH
HOH
163
A
HOH
31
2
HOH
HOH
164
A
HOH
32
2
HOH
HOH
165
A
HOH
33
2
HOH
HOH
166
A
HOH
34
2
HOH
HOH
167
A
HOH
35
2
HOH
HOH
168
A
HOH
36
2
HOH
HOH
169
A
HOH
37
2
HOH
HOH
170
A
HOH
38
2
HOH
HOH
171
A
HOH
39
2
HOH
HOH
172
A
HOH
40
2
HOH
HOH
173
A
HOH
41
2
HOH
HOH
174
A
HOH
42
2
HOH
HOH
175
A
HOH
43
2
HOH
HOH
176
A
HOH
44
2
HOH
HOH
177
A
HOH
45
2
HOH
HOH
178
A
HOH
47
2
HOH
HOH
179
A
HOH
48
2
HOH
HOH
180
A
HOH
49
2
HOH
HOH
181
A
HOH
50
2
HOH
HOH
182
A
HOH
51
2
HOH
HOH
183
A
HOH
52
2
HOH
HOH
184
A
HOH
54
2
HOH
HOH
185
A
HOH
55
2
HOH
HOH
186
A
HOH
57
2
HOH
HOH
187
A
HOH
60
2
HOH
HOH
188
A
HOH
61
2
HOH
HOH
189
A
HOH
62
2
HOH
HOH
190
A
HOH
63
2
HOH
HOH
191
A
HOH
64
2
HOH
HOH
192
A
HOH
66
2
HOH
HOH
193
A
HOH
67
2
HOH
HOH
194
A
HOH
68
2
HOH
HOH
195
A
HOH
69
2
HOH
HOH
196
A
HOH
71
2
HOH
HOH
197
A
HOH
72
2
HOH
HOH
198
A
HOH
74
2
HOH
HOH
199
A
HOH
76
2
HOH
HOH
200
A
HOH
78
2
HOH
HOH
201
A
HOH
79
2
HOH
HOH
202
A
HOH
85
2
HOH
HOH
203
A
HOH
86
2
HOH
HOH
204
A
HOH
88
2
HOH
HOH
205
A
HOH
89
2
HOH
HOH
206
A
HOH
91
2
HOH
HOH
207
A
HOH
92
2
HOH
HOH
208
A
HOH
93
2
HOH
HOH
209
A
HOH
94
2
HOH
HOH
210
A
HOH
95
2
HOH
HOH
211
A
HOH
96
2
HOH
HOH
212
A
HOH
97
2
HOH
HOH
213
A
HOH
98
2
HOH
HOH
214
A
HOH
99
2
HOH
HOH
215
A
HOH
100
2
HOH
HOH
216
A
HOH
102
2
HOH
HOH
217
A
HOH
104
2
HOH
HOH
218
A
HOH
105
2
HOH
HOH
219
A
HOH
107
2
HOH
HOH
220
A
HOH
110
2
HOH
HOH
221
A
HOH
111
2
HOH
HOH
222
A
HOH
112
2
HOH
HOH
223
A
HOH
113
2
HOH
HOH
224
A
HOH
115
2
HOH
HOH
225
A
n
1
-11
A
n
2
-10
A
n
3
-9
A
n
4
-8
A
n
5
-7
A
n
6
-6
A
n
7
-5
A
n
8
-4
A
n
9
-3
A
n
10
-2
A
n
11
-1
A
n
12
0
A
n
13
1
A
n
14
2
A
n
15
3
A
n
16
4
A
n
17
5
A
n
18
6
A
n
19
7
A
n
20
8
A
n
21
9
A
LYS
10
n
22
LYS
10
A
VAL
11
n
23
VAL
11
A
ARG
12
n
24
ARG
12
A
CYS
13
n
25
CYS
13
A
ALA
14
n
26
ALA
14
A
VAL
15
n
27
VAL
15
A
VAL
16
n
28
VAL
16
A
ASP
17
n
29
ASP
17
A
THR
18
n
30
THR
18
A
ASN
19
n
31
ASN
19
A
VAL
20
n
32
VAL
20
A
LEU
21
n
33
LEU
21
A
MSE
22
n
34
MSE
22
A
TYR
23
n
35
TYR
23
A
VAL
24
n
36
VAL
24
A
TYR
25
n
37
TYR
25
A
LEU
26
n
38
LEU
26
A
ASN
27
n
39
ASN
27
A
LYS
28
n
40
LYS
28
A
ALA
29
n
41
ALA
29
A
ASP
30
n
42
ASP
30
A
VAL
31
n
43
VAL
31
A
VAL
32
n
44
VAL
32
A
GLY
33
n
45
GLY
33
A
GLN
34
n
46
GLN
34
A
LEU
35
n
47
LEU
35
A
ARG
36
n
48
ARG
36
A
GLU
37
n
49
GLU
37
A
PHE
38
n
50
PHE
38
A
GLY
39
n
51
GLY
39
A
PHE
40
n
52
PHE
40
A
SER
41
n
53
SER
41
A
ARG
42
n
54
ARG
42
A
PHE
43
n
55
PHE
43
A
LEU
44
n
56
LEU
44
A
ILE
45
n
57
ILE
45
A
THR
46
n
58
THR
46
A
ALA
47
n
59
ALA
47
A
SER
48
n
60
SER
48
A
VAL
49
n
61
VAL
49
A
LYS
50
n
62
LYS
50
A
ARG
51
n
63
ARG
51
A
GLU
52
n
64
GLU
52
A
LEU
53
n
65
LEU
53
A
GLU
54
n
66
GLU
54
A
LYS
55
n
67
LYS
55
A
LEU
56
n
68
LEU
56
A
GLU
57
n
69
GLU
57
A
MSE
58
n
70
MSE
58
A
SER
59
n
71
SER
59
A
LEU
60
n
72
LEU
60
A
ARG
61
n
73
ARG
61
A
GLY
62
n
74
GLY
62
A
LYS
63
n
75
LYS
63
A
GLU
64
n
76
GLU
64
A
LYS
65
n
77
LYS
65
A
VAL
66
n
78
VAL
66
A
ALA
67
n
79
ALA
67
A
ALA
68
n
80
ALA
68
A
ARG
69
n
81
ARG
69
A
PHE
70
n
82
PHE
70
A
ALA
71
n
83
ALA
71
A
LEU
72
n
84
LEU
72
A
LYS
73
n
85
LYS
73
A
LEU
74
n
86
LEU
74
A
LEU
75
n
87
LEU
75
A
GLU
76
n
88
GLU
76
A
HIS
77
n
89
HIS
77
A
PHE
78
n
90
PHE
78
A
GLU
79
n
91
GLU
79
A
VAL
80
n
92
VAL
80
A
VAL
81
n
93
VAL
81
A
GLU
82
n
94
GLU
82
A
THR
83
n
95
THR
83
A
GLU
84
n
96
GLU
84
A
SER
85
n
97
SER
85
A
GLU
86
n
98
GLU
86
A
GLY
87
n
99
GLY
87
A
ASP
88
n
100
ASP
88
A
PRO
89
n
101
PRO
89
A
SER
90
n
102
SER
90
A
LEU
91
n
103
LEU
91
A
ILE
92
n
104
ILE
92
A
GLU
93
n
105
GLU
93
A
ALA
94
n
106
ALA
94
A
ALA
95
n
107
ALA
95
A
GLU
96
n
108
GLU
96
A
LYS
97
n
109
LYS
97
A
TYR
98
n
110
TYR
98
A
GLY
99
n
111
GLY
99
A
CYS
100
n
112
CYS
100
A
ILE
101
n
113
ILE
101
A
LEU
102
n
114
LEU
102
A
ILE
103
n
115
ILE
103
A
THR
104
n
116
THR
104
A
ASN
105
n
117
ASN
105
A
ASP
106
n
118
ASP
106
A
LYS
107
n
119
LYS
107
A
GLU
108
n
120
GLU
108
A
LEU
109
n
121
LEU
109
A
LYS
110
n
122
LYS
110
A
ARG
111
n
123
ARG
111
A
LYS
112
n
124
LYS
112
A
ALA
113
n
125
ALA
113
A
LYS
114
n
126
LYS
114
A
GLN
115
n
127
GLN
115
A
ARG
116
n
128
ARG
116
A
GLY
117
n
129
GLY
117
A
ILE
118
n
130
ILE
118
A
PRO
119
n
131
PRO
119
A
VAL
120
n
132
VAL
120
A
GLY
121
n
133
GLY
121
A
TYR
122
n
134
TYR
122
A
LEU
123
n
135
LEU
123
A
LYS
124
n
136
LYS
124
A
GLU
125
n
137
GLU
125
A
ASP
126
n
138
ASP
126
A
LYS
127
n
139
LYS
127
A
ARG
128
n
140
ARG
128
A
VAL
129
n
141
VAL
129
A
PHE
130
n
142
PHE
130
A
VAL
131
n
143
VAL
131
A
GLU
132
n
144
GLU
132
A
LEU
133
n
145
LEU
133
A
LEU
134
n
146
LEU
134
A
n
147
135
A
4.5974
2.1167
-0.6487
4.2970
-0.2629
3.5207
0.0334
-0.2224
0.0734
0.1117
-0.0849
0.0989
-0.2143
-0.0942
0.0515
-0.0670
-0.0825
0.0478
-0.2584
-0.0177
-0.1765
refined
56.3132
47.7225
9.2870
X-RAY DIFFRACTION
0.3666
0.3073
-3.6367
0.6474
-0.9358
47.5234
0.2636
0.0196
-0.2699
0.2281
-0.5630
0.1617
-0.2894
1.5029
0.2993
0.0545
0.0914
-0.0245
0.0753
0.0303
-0.0388
refined
60.0962
54.7720
-16.8151
X-RAY DIFFRACTION
A
10
A
22
A
122
A
134
X-RAY DIFFRACTION
1
ALL
A
123
A
135
A
134
A
146
X-RAY DIFFRACTION
2
ALL
author_and_software_defined_assembly
PISA,PQS
2
dimeric
2330
-17
14090
A
MSE
22
SELENOMETHIONINE
A
MSE
34
MET
A
MSE
58
SELENOMETHIONINE
A
MSE
70
MET
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
1.0000000000
0.0000000000
0.0000000000
0.0000000000
-1.0000000000
0.0000000000
0.0000000000
0.0000000000
-1.0000000000
5_674
x-y+1,-y+2,-z-1/3
crystal symmetry operation
0.0000000000
110.3402966962
-26.0133333333
A
O
VAL
81
A
O
VAL
93
A
N
ILE
45
A
N
ILE
57
A
O
LEU
44
A
O
LEU
56
A
N
ALA
14
A
N
ALA
26
A
N
VAL
15
A
N
VAL
27
A
O
ILE
103
A
O
ILE
115
A
N
GLU
132
A
N
GLU
144
A
O
GLY
121
A
O
GLY
133
1
A
CE
LYS
10
A
CE
LYS
22
1
Y
1
A
NZ
LYS
10
A
NZ
LYS
22
1
Y
1
A
CD
LYS
28
A
CD
LYS
40
1
Y
1
A
CE
LYS
28
A
CE
LYS
40
1
Y
1
A
NZ
LYS
28
A
NZ
LYS
40
1
Y
1
A
CD
LYS
73
A
CD
LYS
85
1
Y
1
A
CE
LYS
73
A
CE
LYS
85
1
Y
1
A
NZ
LYS
73
A
NZ
LYS
85
1
Y
1
A
CG
LYS
107
A
CG
LYS
119
1
Y
1
A
CD
LYS
107
A
CD
LYS
119
1
Y
1
A
CE
LYS
107
A
CE
LYS
119
1
Y
1
A
NZ
LYS
107
A
NZ
LYS
119
1
Y
1
A
CG
GLU
108
A
CG
GLU
120
1
Y
1
A
CD
GLU
108
A
CD
GLU
120
1
Y
1
A
OE1
GLU
108
A
OE1
GLU
120
1
Y
1
A
OE2
GLU
108
A
OE2
GLU
120
1
Y
1
A
CD
LYS
112
A
CD
LYS
124
1
Y
1
A
CE
LYS
112
A
CE
LYS
124
1
Y
1
A
NZ
LYS
112
A
NZ
LYS
124
1
Y
1
A
CG
LYS
114
A
CG
LYS
126
1
Y
1
A
CD
LYS
114
A
CD
LYS
126
1
Y
1
A
CE
LYS
114
A
CE
LYS
126
1
Y
1
A
NZ
LYS
114
A
NZ
LYS
126
1
Y
1
A
CG
GLN
115
A
CG
GLN
127
1
Y
1
A
CD
GLN
115
A
CD
GLN
127
1
Y
1
A
OE1
GLN
115
A
OE1
GLN
127
1
Y
1
A
NE2
GLN
115
A
NE2
GLN
127
1
Y
1
A
NE
ARG
116
A
NE
ARG
128
1
Y
1
A
CZ
ARG
116
A
CZ
ARG
128
1
Y
1
A
NH1
ARG
116
A
NH1
ARG
128
1
Y
1
A
NH2
ARG
116
A
NH2
ARG
128
1
Y
1
A
MSE
-11
A
MSE
1
1
Y
1
A
GLY
-10
A
GLY
2
1
Y
1
A
SER
-9
A
SER
3
1
Y
1
A
ASP
-8
A
ASP
4
1
Y
1
A
LYS
-7
A
LYS
5
1
Y
1
A
ILE
-6
A
ILE
6
1
Y
1
A
HIS
-5
A
HIS
7
1
Y
1
A
HIS
-4
A
HIS
8
1
Y
1
A
HIS
-3
A
HIS
9
1
Y
1
A
HIS
-2
A
HIS
10
1
Y
1
A
HIS
-1
A
HIS
11
1
Y
1
A
HIS
0
A
HIS
12
1
Y
1
A
MSE
1
A
MSE
13
1
Y
1
A
GLU
2
A
GLU
14
1
Y
1
A
ALA
3
A
ALA
15
1
Y
1
A
ASP
4
A
ASP
16
1
Y
1
A
ARG
5
A
ARG
17
1
Y
1
A
GLY
6
A
GLY
18
1
Y
1
A
ARG
7
A
ARG
19
1
Y
1
A
ASN
8
A
ASN
20
1
Y
1
A
ASN
9
A
ASN
21
1
Y
1
A
ASP
135
A
ASP
147
1
Y
41.843
1.05
0.52
0.00
1.05
0.00
-1.57
0.965
0.932
1. The 9-sigma difference density peak on the crystallographic 2-fold axis between residues 126 and 128 was left unmodeled, but could indicate a metal ion. 2. The 2 TLS groups correspond to globular and tail portions of protein respectively. 3. Hydrogens have been added in the riding positions.
0.23508
0.18843
0.19059
1.90
31.86
728
14131
4.9
99.87
6.521
0.094
RANDOM
LIKELY RESIDUAL
1
ISOTROPIC
THROUGHOUT
MAD
0.121
0.125
0.80
0.80
1.40
MAXIMUM LIKELIHOOD
BABINET MODEL WITH MASK
1.90
31.86
90
1064
0
0
974
0.018
0.022
998
0.001
0.020
965
1.225
1.984
1345
0.758
3.000
2223
5.088
5.000
124
36.230
23.488
43
13.390
15.000
187
15.595
15.000
8
0.076
0.200
159
0.004
0.020
1090
0.001
0.020
206
0.207
0.200
176
0.158
0.200
900
0.081
0.200
605
0.146
0.200
58
0.199
0.200
6
0.213
0.200
47
0.118
0.200
7
0.768
1.500
621
1.454
2.000
998
2.797
3.000
377
4.391
4.500
347
0.319
0.284
1.949
63
1002
20
5.92
48.07
1.900
31.86
1O4W
14860
14860
0.05
1
25.3
8.8
99.9
1.90
1.95
2.3
1058
0.638
1
4.9
99.9
data reduction
MOSFLM
data scaling
SCALA
4.2)
phasing
SOLVE
model building
RESOLVE
refinement
REFMAC
5.1.9999
data scaling
CCP4
(SCALA)
phasing
RESOLVE
CRYSTAL STRUCTURE OF a PIN (PILT N-TERMINUS) DOMAIN CONTAINING PROTEIN (AF0591) FROM ARCHAEOGLOBUS FULGIDUS AT 1.90 A RESOLUTION
1
N
N
2
N
N
THE BIOLOGICAL UNIT IS PROPOSED TO BE A DIMER AROUND THE
CRYTALLOGRAPHIC 2-FOLD AXIS. DIMERISATION IS MEDIATED
BY AN EXPOSED 2-STRAND BETA SHEET COMPRISING THE
HYDROPHILIC C-TERMINAL RESIDUES OF EACH SUBUNIT, THAT
BRIDGES THE GLOBULAR DOMAINS OF EACH SUBUNIT. THIS IS
CONSIDERED BIOLOGICALLY SIGNIFICANT BECAUSE OF IT LEADS
TO CHAIN SWAPPING BETWEEN SUBUNITS.
GENERATING THE BIOMOLECULE
COORDINATES FOR A COMPLETE MULTIMER REPRESENTING THE KNOWN
BIOLOGICALLY SIGNIFICANT OLIGOMERIZATION STATE OF THE
MOLECULE CAN BE GENERATED BY APPLYING BIOMT TRANSFORMATIONS
GIVEN BELOW. BOTH NON-CRYSTALLOGRAPHIC AND
CRYSTALLOGRAPHIC OPERATIONS ARE GIVEN.
APPLY THE FOLLOWING TO CHAINS: A, W
BIOMT1 1 1.000000 0.000000 0.000000 0.00000
BIOMT2 1 0.000000 1.000000 0.000000 0.00000
BIOMT3 1 0.000000 0.000000 1.000000 0.00000
BIOMT1 2 1.000000 0.000000 0.000000 0.00000
BIOMT2 2 0.000000 -1.000000 0.000000 110.69801
BIOMT3 2 0.000000 0.000000 -1.000000 -26.13300
A
ASP
17
A
ASP
29
HELX_P
A
LYS
28
A
LYS
40
1
1
12
A
ASP
30
A
ASP
42
HELX_P
A
PHE
38
A
PHE
50
1
2
9
A
ALA
47
A
ALA
59
HELX_P
A
LEU
60
A
LEU
72
1
3
14
A
LYS
63
A
LYS
75
HELX_P
A
GLU
76
A
GLU
88
1
4
14
A
GLY
87
A
GLY
99
HELX_P
A
GLY
99
A
GLY
111
1
5
13
A
ASP
106
A
ASP
118
HELX_P
A
ARG
116
A
ARG
128
1
6
11
disulf
2.113
A
CYS
13
A
SG
CYS
25
1_555
A
CYS
100
A
SG
CYS
112
1_555
covale
1.330
both
A
LEU
21
A
C
LEU
33
1_555
A
MSE
22
A
N
MSE
34
1_555
covale
1.328
both
A
MSE
22
A
C
MSE
34
1_555
A
TYR
23
A
N
TYR
35
1_555
covale
1.329
both
A
GLU
57
A
C
GLU
69
1_555
A
MSE
58
A
N
MSE
70
1_555
covale
1.330
both
A
MSE
58
A
C
MSE
70
1_555
A
SER
59
A
N
SER
71
1_555
TRANSLATION
PIN (PILT N-TERMINUS) DOMAIN, STRUCTURAL GENOMICS, JOINT CENTER FOR STRUCTURAL GENOMICS, JCSG, PROTEIN STRUCTURE INITIATIVE, PSI, TRANSLATION
O29664_ARCFU
UNP
1
1
O29664
MEADRGRNNKVRCAVVDTNVLMYVYLNKADVVGQLREFGFSRFLITASVKRELEKLEMSLRGKEKVAARFALKLLEHFEV
VETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVELLD
1
135
1O4W
1
135
O29664
A
1
13
147
1
expression tag
MSE
-11
1O4W
A
O29664
UNP
1
1
expression tag
GLY
-10
1O4W
A
O29664
UNP
2
1
expression tag
SER
-9
1O4W
A
O29664
UNP
3
1
expression tag
ASP
-8
1O4W
A
O29664
UNP
4
1
expression tag
LYS
-7
1O4W
A
O29664
UNP
5
1
expression tag
ILE
-6
1O4W
A
O29664
UNP
6
1
expression tag
HIS
-5
1O4W
A
O29664
UNP
7
1
expression tag
HIS
-4
1O4W
A
O29664
UNP
8
1
expression tag
HIS
-3
1O4W
A
O29664
UNP
9
1
expression tag
HIS
-2
1O4W
A
O29664
UNP
10
1
expression tag
HIS
-1
1O4W
A
O29664
UNP
11
1
expression tag
HIS
0
1O4W
A
O29664
UNP
12
1
MET
modified residue
MSE
1
1O4W
A
O29664
UNP
1
13
1
MET
modified residue
MSE
22
1O4W
A
O29664
UNP
22
34
1
MET
modified residue
MSE
58
1O4W
A
O29664
UNP
58
70
5
parallel
parallel
parallel
parallel
A
GLU
79
A
GLU
91
A
VAL
81
A
VAL
93
A
PHE
40
A
PHE
52
A
THR
46
A
THR
58
A
ARG
12
A
ARG
24
A
VAL
16
A
VAL
28
A
ILE
101
A
ILE
113
A
ILE
103
A
ILE
115
A
VAL
120
A
VAL
132
A
GLU
132
A
GLU
144
152
P 31 2 1