0.011118
0.006419
0.000000
0.000000
0.012838
0.000000
0.000000
0.000000
0.021514
0.00000
0.00000
0.00000
Holton, J.
Alber, T.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
18
90.00
90.00
120.00
89.943
89.943
46.481
C2 H4 O
44.053
ACETYL GROUP
non-polymer
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
H2 O
18.015
WATER
non-polymer
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
C3 H7 N O3
105.093
y
SERINE
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
101
1537
1542
10.1073/pnas.0306241101
14752198
Automated protein crystal structure determination using ELVES.
2004
US
Nat.Struct.Biol.
NSBIEW
2024
1072-8368
3
510
515
An Engineered Allosteric Switch in Leucine-Zipper Oligomerization
1996
UK
Nature
NATUAS
0006
0028-0836
371
80
83
10.1038/371080a0
Crystal Structure of an Isoleucine-Zipper Trimer
1994
US
Science
SCIEAS
0038
0036-8075
262
1401
1407
A Switch between Two-, Three-, and Four-Stranded Coiled Coils in GCN4 Leucine Zipper Mutants
1993
US
Science
SCIEAS
0038
0036-8075
254
539
544
X-Ray Structure of the GCN4 Leucine Zipper, a two-stranded, parallel coiled coil.
1991
10.2210/pdb1rb5/pdb
pdb_00001rb5
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
90.0
1
CCD
1997-12-05
ADSC
SI(111)
MAD
M
x-ray
1
1.0688
1.0
0.9800
1.0
0.9795
1.0
0.9322
1.0
BL1-5
SSRL
1.0688, 0.9800, 0.9795, 0.9322
SYNCHROTRON
SSRL BEAMLINE BL1-5
3988.677
General control protein GCN4
LEUCINE-ZIPPER (RESIDUES 249-281)
N16A
3
syn
polymer
18.015
water
189
nat
water
Amino acid biosynthesis regulatory protein
no
yes
(ACE)RMKQLEDKVEELLSKAYHLENEVARLKKLVGER
XRMKQLEDKVEELLSKAYHLENEVARLKKLVGER
A,B,C
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
1
4.54
75.
VAPOR DIFFUSION, SITTING DROP
7.3
100mM bis-tris, pH 7.3, VAPOR DIFFUSION, SITTING DROP, temperature 298K
298
software
database_2
struct_conn
struct_ref_seq_dif
repository
Initial release
Version format compliance
Version format compliance
Refinement description
Database references
Derived calculations
1
0
2004-01-13
1
1
2008-04-29
1
2
2011-07-13
1
3
2017-10-11
1
4
2021-10-27
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_struct_conn.pdbx_leaving_atom_flag
_struct_ref_seq_dif.details
ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL AUTOMATIC
SOLUTION
ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL AUTOMATIC
SOLUTION
ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A
TETRAGONAL FORM
RCSB
Y
RCSB
2003-11-01
REL
REL
HOH
water
THE SEQUENCE OF THE PROTEIN IS NATURALLY FOUND IN SACCHAROMYCES CEREVISIAE. THE PROTEIN WAS CHEMICALLY SYNTHESIZED.
sample
WAT
2
2
HOH
HOH
202
A
WAT
4
2
HOH
HOH
203
A
WAT
8
2
HOH
HOH
204
A
WAT
9
2
HOH
HOH
205
A
WAT
10
2
HOH
HOH
206
A
WAT
11
2
HOH
HOH
207
A
WAT
15
2
HOH
HOH
208
A
WAT
17
2
HOH
HOH
209
A
WAT
21
2
HOH
HOH
210
A
WAT
29
2
HOH
HOH
211
A
WAT
30
2
HOH
HOH
212
A
WAT
33
2
HOH
HOH
213
A
WAT
34
2
HOH
HOH
214
A
WAT
39
2
HOH
HOH
215
A
WAT
41
2
HOH
HOH
216
A
WAT
43
2
HOH
HOH
217
A
WAT
47
2
HOH
HOH
218
A
WAT
48
2
HOH
HOH
219
A
WAT
49
2
HOH
HOH
220
A
WAT
50
2
HOH
HOH
221
A
WAT
51
2
HOH
HOH
222
A
WAT
52
2
HOH
HOH
223
A
WAT
53
2
HOH
HOH
224
A
WAT
54
2
HOH
HOH
225
A
WAT
60
2
HOH
HOH
226
A
WAT
62
2
HOH
HOH
227
A
WAT
63
2
HOH
HOH
228
A
WAT
67
2
HOH
HOH
229
A
WAT
71
2
HOH
HOH
230
A
WAT
75
2
HOH
HOH
231
A
WAT
76
2
HOH
HOH
232
A
WAT
77
2
HOH
HOH
233
A
WAT
79
2
HOH
HOH
234
A
WAT
80
2
HOH
HOH
235
A
WAT
83
2
HOH
HOH
236
A
WAT
84
2
HOH
HOH
237
A
WAT
85
2
HOH
HOH
238
A
WAT
89
2
HOH
HOH
239
A
WAT
96
2
HOH
HOH
240
A
WAT
99
2
HOH
HOH
241
A
WAT
101
2
HOH
HOH
242
A
WAT
104
2
HOH
HOH
243
A
WAT
115
2
HOH
HOH
244
A
WAT
116
2
HOH
HOH
245
A
WAT
119
2
HOH
HOH
246
A
WAT
121
2
HOH
HOH
247
A
WAT
124
2
HOH
HOH
248
A
WAT
126
2
HOH
HOH
249
A
WAT
127
2
HOH
HOH
250
A
WAT
129
2
HOH
HOH
251
A
WAT
132
2
HOH
HOH
252
A
WAT
133
2
HOH
HOH
253
A
WAT
134
2
HOH
HOH
254
A
WAT
137
2
HOH
HOH
255
A
WAT
138
2
HOH
HOH
256
A
WAT
140
2
HOH
HOH
257
A
WAT
144
2
HOH
HOH
258
A
WAT
147
2
HOH
HOH
259
A
WAT
149
2
HOH
HOH
260
A
WAT
151
2
HOH
HOH
261
A
WAT
153
2
HOH
HOH
262
A
WAT
155
2
HOH
HOH
263
A
WAT
157
2
HOH
HOH
264
A
WAT
159
2
HOH
HOH
265
A
WAT
161
2
HOH
HOH
266
A
WAT
162
2
HOH
HOH
267
A
WAT
170
2
HOH
HOH
268
A
WAT
174
2
HOH
HOH
269
A
WAT
7
2
HOH
HOH
207
B
WAT
1
2
HOH
HOH
208
B
WAT
2
2
HOH
HOH
209
B
WAT
3
2
HOH
HOH
210
B
WAT
4
2
HOH
HOH
211
B
WAT
5
2
HOH
HOH
212
B
WAT
6
2
HOH
HOH
213
B
WAT
7
2
HOH
HOH
214
B
WAT
9
2
HOH
HOH
215
B
WAT
10
2
HOH
HOH
216
B
WAT
16
2
HOH
HOH
217
B
WAT
18
2
HOH
HOH
218
B
WAT
22
2
HOH
HOH
219
B
WAT
23
2
HOH
HOH
220
B
WAT
25
2
HOH
HOH
221
B
WAT
26
2
HOH
HOH
222
B
WAT
31
2
HOH
HOH
223
B
WAT
32
2
HOH
HOH
224
B
WAT
35
2
HOH
HOH
225
B
WAT
37
2
HOH
HOH
226
B
WAT
38
2
HOH
HOH
227
B
WAT
44
2
HOH
HOH
228
B
WAT
45
2
HOH
HOH
229
B
WAT
46
2
HOH
HOH
230
B
WAT
56
2
HOH
HOH
231
B
WAT
58
2
HOH
HOH
232
B
WAT
61
2
HOH
HOH
233
B
WAT
64
2
HOH
HOH
234
B
WAT
66
2
HOH
HOH
235
B
WAT
69
2
HOH
HOH
236
B
WAT
78
2
HOH
HOH
237
B
WAT
81
2
HOH
HOH
238
B
WAT
86
2
HOH
HOH
239
B
WAT
87
2
HOH
HOH
240
B
WAT
88
2
HOH
HOH
241
B
WAT
90
2
HOH
HOH
242
B
WAT
93
2
HOH
HOH
243
B
WAT
94
2
HOH
HOH
244
B
WAT
95
2
HOH
HOH
245
B
WAT
98
2
HOH
HOH
246
B
WAT
100
2
HOH
HOH
247
B
WAT
102
2
HOH
HOH
248
B
WAT
105
2
HOH
HOH
249
B
WAT
108
2
HOH
HOH
250
B
WAT
109
2
HOH
HOH
251
B
WAT
110
2
HOH
HOH
252
B
WAT
111
2
HOH
HOH
253
B
WAT
113
2
HOH
HOH
254
B
WAT
118
2
HOH
HOH
255
B
WAT
122
2
HOH
HOH
256
B
WAT
128
2
HOH
HOH
257
B
WAT
131
2
HOH
HOH
258
B
WAT
136
2
HOH
HOH
259
B
WAT
148
2
HOH
HOH
260
B
WAT
156
2
HOH
HOH
261
B
WAT
160
2
HOH
HOH
262
B
WAT
165
2
HOH
HOH
263
B
WAT
166
2
HOH
HOH
264
B
WAT
167
2
HOH
HOH
265
B
WAT
168
2
HOH
HOH
266
B
WAT
171
2
HOH
HOH
267
B
WAT
175
2
HOH
HOH
268
B
WAT
178
2
HOH
HOH
269
B
WAT
1
2
HOH
HOH
201
C
WAT
3
2
HOH
HOH
202
C
WAT
5
2
HOH
HOH
203
C
WAT
6
2
HOH
HOH
204
C
WAT
11
2
HOH
HOH
205
C
WAT
8
2
HOH
HOH
206
C
WAT
12
2
HOH
HOH
207
C
WAT
13
2
HOH
HOH
208
C
WAT
14
2
HOH
HOH
209
C
WAT
19
2
HOH
HOH
210
C
WAT
20
2
HOH
HOH
211
C
WAT
24
2
HOH
HOH
212
C
WAT
27
2
HOH
HOH
213
C
WAT
28
2
HOH
HOH
214
C
WAT
36
2
HOH
HOH
215
C
WAT
40
2
HOH
HOH
216
C
WAT
42
2
HOH
HOH
217
C
WAT
55
2
HOH
HOH
218
C
WAT
57
2
HOH
HOH
219
C
WAT
59
2
HOH
HOH
220
C
WAT
65
2
HOH
HOH
221
C
WAT
68
2
HOH
HOH
222
C
WAT
70
2
HOH
HOH
223
C
WAT
72
2
HOH
HOH
224
C
WAT
73
2
HOH
HOH
225
C
WAT
74
2
HOH
HOH
226
C
WAT
82
2
HOH
HOH
227
C
WAT
91
2
HOH
HOH
228
C
WAT
92
2
HOH
HOH
229
C
WAT
97
2
HOH
HOH
230
C
WAT
103
2
HOH
HOH
231
C
WAT
106
2
HOH
HOH
232
C
WAT
107
2
HOH
HOH
233
C
WAT
112
2
HOH
HOH
234
C
WAT
114
2
HOH
HOH
235
C
WAT
117
2
HOH
HOH
236
C
WAT
120
2
HOH
HOH
237
C
WAT
123
2
HOH
HOH
238
C
WAT
125
2
HOH
HOH
239
C
WAT
130
2
HOH
HOH
240
C
WAT
135
2
HOH
HOH
241
C
WAT
139
2
HOH
HOH
242
C
WAT
141
2
HOH
HOH
243
C
WAT
142
2
HOH
HOH
244
C
WAT
143
2
HOH
HOH
245
C
WAT
145
2
HOH
HOH
246
C
WAT
146
2
HOH
HOH
247
C
WAT
150
2
HOH
HOH
248
C
WAT
152
2
HOH
HOH
249
C
WAT
154
2
HOH
HOH
250
C
WAT
158
2
HOH
HOH
251
C
WAT
163
2
HOH
HOH
252
C
WAT
164
2
HOH
HOH
253
C
WAT
169
2
HOH
HOH
254
C
WAT
172
2
HOH
HOH
255
C
WAT
173
2
HOH
HOH
256
C
WAT
176
2
HOH
HOH
257
C
WAT
177
2
HOH
HOH
258
C
ARG
1
n
1
ACE
0
A
ARG
1
n
2
ARG
1
A
MET
2
n
3
MET
2
A
LYS
3
n
4
LYS
3
A
GLN
4
n
5
GLN
4
A
LEU
5
n
6
LEU
5
A
GLU
6
n
7
GLU
6
A
ASP
7
n
8
ASP
7
A
LYS
8
n
9
LYS
8
A
VAL
9
n
10
VAL
9
A
GLU
10
n
11
GLU
10
A
GLU
11
n
12
GLU
11
A
LEU
12
n
13
LEU
12
A
LEU
13
n
14
LEU
13
A
SER
14
n
15
SER
14
A
LYS
15
n
16
LYS
15
A
ALA
16
n
17
ALA
16
A
TYR
17
n
18
TYR
17
A
HIS
18
n
19
HIS
18
A
LEU
19
n
20
LEU
19
A
GLU
20
n
21
GLU
20
A
ASN
21
n
22
ASN
21
A
GLU
22
n
23
GLU
22
A
VAL
23
n
24
VAL
23
A
ALA
24
n
25
ALA
24
A
ARG
25
n
26
ARG
25
A
LEU
26
n
27
LEU
26
A
LYS
27
n
28
LYS
27
A
LYS
28
n
29
LYS
28
A
LEU
29
n
30
LEU
29
A
VAL
30
n
31
VAL
30
A
GLY
31
n
32
GLY
31
A
GLU
32
n
33
GLU
32
A
ARG
33
n
34
ARG
33
A
ARG
1
n
1
ACE
0
B
ARG
1
n
2
ARG
1
B
MET
2
n
3
MET
2
B
LYS
3
n
4
LYS
3
B
GLN
4
n
5
GLN
4
B
LEU
5
n
6
LEU
5
B
GLU
6
n
7
GLU
6
B
ASP
7
n
8
ASP
7
B
LYS
8
n
9
LYS
8
B
VAL
9
n
10
VAL
9
B
GLU
10
n
11
GLU
10
B
GLU
11
n
12
GLU
11
B
LEU
12
n
13
LEU
12
B
LEU
13
n
14
LEU
13
B
SER
14
n
15
SER
14
B
LYS
15
n
16
LYS
15
B
ALA
16
n
17
ALA
16
B
TYR
17
n
18
TYR
17
B
HIS
18
n
19
HIS
18
B
LEU
19
n
20
LEU
19
B
GLU
20
n
21
GLU
20
B
ASN
21
n
22
ASN
21
B
GLU
22
n
23
GLU
22
B
VAL
23
n
24
VAL
23
B
ALA
24
n
25
ALA
24
B
ARG
25
n
26
ARG
25
B
LEU
26
n
27
LEU
26
B
LYS
27
n
28
LYS
27
B
LYS
28
n
29
LYS
28
B
LEU
29
n
30
LEU
29
B
VAL
30
n
31
VAL
30
B
GLY
31
n
32
GLY
31
B
GLU
32
n
33
GLU
32
B
ARG
33
n
34
ARG
33
B
ARG
1
n
1
ACE
0
C
ARG
1
n
2
ARG
1
C
MET
2
n
3
MET
2
C
LYS
3
n
4
LYS
3
C
GLN
4
n
5
GLN
4
C
LEU
5
n
6
LEU
5
C
GLU
6
n
7
GLU
6
C
ASP
7
n
8
ASP
7
C
LYS
8
n
9
LYS
8
C
VAL
9
n
10
VAL
9
C
GLU
10
n
11
GLU
10
C
GLU
11
n
12
GLU
11
C
LEU
12
n
13
LEU
12
C
LEU
13
n
14
LEU
13
C
SER
14
n
15
SER
14
C
LYS
15
n
16
LYS
15
C
ALA
16
n
17
ALA
16
C
TYR
17
n
18
TYR
17
C
HIS
18
n
19
HIS
18
C
LEU
19
n
20
LEU
19
C
GLU
20
n
21
GLU
20
C
ASN
21
n
22
ASN
21
C
GLU
22
n
23
GLU
22
C
VAL
23
n
24
VAL
23
C
ALA
24
n
25
ALA
24
C
ARG
25
n
26
ARG
25
C
LEU
26
n
27
LEU
26
C
LYS
27
n
28
LYS
27
C
LYS
28
n
29
LYS
28
C
LEU
29
n
30
LEU
29
C
VAL
30
n
31
VAL
30
C
GLY
31
n
32
GLY
31
C
GLU
32
n
33
GLU
32
C
n
34
33
C
author_and_software_defined_assembly
PISA
3
trimeric
4190
-42
6560
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
A
CG
GLN
4
A
CG
GLN
5
1
Y
1
A
CD
GLN
4
A
CD
GLN
5
1
Y
1
A
OE1
GLN
4
A
OE1
GLN
5
1
Y
1
A
NE2
GLN
4
A
NE2
GLN
5
1
Y
1
A
CD
LYS
28
A
CD
LYS
29
1
Y
1
A
CE
LYS
28
A
CE
LYS
29
1
Y
1
A
NZ
LYS
28
A
NZ
LYS
29
1
Y
1
A
O
ARG
33
A
O
ARG
34
1
Y
1
A
CB
ARG
33
A
CB
ARG
34
1
Y
1
A
CG
ARG
33
A
CG
ARG
34
1
Y
1
A
CD
ARG
33
A
CD
ARG
34
1
Y
1
B
CD
GLU
32
B
CD
GLU
33
1
Y
1
B
OE1
GLU
32
B
OE1
GLU
33
1
Y
1
B
OE2
GLU
32
B
OE2
GLU
33
1
Y
1
B
C
ARG
33
B
C
ARG
34
1
Y
1
B
O
ARG
33
B
O
ARG
34
1
Y
1
B
CB
ARG
33
B
CB
ARG
34
1
Y
1
B
CG
ARG
33
B
CG
ARG
34
1
Y
1
B
CD
ARG
33
B
CD
ARG
34
1
Y
1
B
NE
ARG
33
B
NE
ARG
34
1
Y
1
B
CZ
ARG
33
B
CZ
ARG
34
1
Y
1
B
NH1
ARG
33
B
NH1
ARG
34
1
Y
1
B
NH2
ARG
33
B
NH2
ARG
34
1
Y
1
C
CD
GLU
10
C
CD
GLU
11
1
Y
1
C
OE1
GLU
10
C
OE1
GLU
11
1
Y
1
C
OE2
GLU
10
C
OE2
GLU
11
1
Y
1
C
C
GLU
32
C
C
GLU
33
1
Y
1
C
O
GLU
32
C
O
GLU
33
1
Y
1
C
CB
GLU
32
C
CB
GLU
33
1
Y
1
C
CG
GLU
32
C
CG
GLU
33
1
Y
1
C
CD
GLU
32
C
CD
GLU
33
1
Y
1
C
OE1
GLU
32
C
OE1
GLU
33
1
Y
1
C
OE2
GLU
32
C
OE2
GLU
33
1
Y
1
C
ARG
33
C
ARG
34
1
Y
1
C
C
NE2
O
GLN
HOH
4
242
0.82
B
1
C
C
CD
O
GLN
HOH
4
242
1.91
B
1
A
ARG
25
10.15
B
1
-4.40
0.50
120.30
115.90
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
25
25
25
B
B
B
N
1
13.45
1.60
122.70
136.15
B
B
B
O
C
N
ACE
ACE
ARG
0
0
1
Y
1
-4.21
0.50
120.30
116.09
B
B
B
NE
CZ
NH2
ARG
ARG
ARG
25
25
25
N
1
18.36
1.60
122.70
141.06
C
C
C
O
C
N
ACE
ACE
ARG
0
0
1
Y
1
7.92
0.90
118.30
126.22
C
C
C
CB
CG
OD2
ASP
ASP
ASP
7
7
7
N
1
4.80
0.60
121.00
125.80
C
C
C
CB
CG
CD2
TYR
TYR
TYR
17
17
17
B
B
N
1
-4.01
0.60
121.00
116.99
C
C
C
CB
CG
CD1
TYR
TYR
TYR
17
17
17
B
B
N
1
19.14
1.40
123.60
142.74
C
C
C
CD
NE
CZ
ARG
ARG
ARG
25
25
25
A
A
A
N
1
8.82
1.40
123.60
132.42
C
C
C
CD
NE
CZ
ARG
ARG
ARG
25
25
25
B
B
B
N
1
3.36
0.50
120.30
123.66
C
C
C
NE
CZ
NH1
ARG
ARG
ARG
25
25
25
B
B
B
N
1
3.63
0.50
120.30
123.93
C
C
C
NE
CZ
NH2
ARG
ARG
ARG
25
25
25
A
A
A
N
1
-4.55
0.50
120.30
115.75
C
C
C
NE
CZ
NH2
ARG
ARG
ARG
25
25
25
B
B
B
N
0.257
0.202
0.205
1.9
45
861
17327
5.2
RANDOM
1
THROUGHOUT
0
MAD
Engh & Huber
1.9
45
189
1059
0
0
870
0.012
2
1.8
45
1RB5
20106
0
0
1
99.3
1.8
1.9
97.1
data reduction
MOSFLM
data scaling
SCALA
refinement
REFMAC
26/11/99
data scaling
CCP4
(SCALA)
phasing
CCP4
ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL FORM
1
N
N
1
N
N
1
N
N
2
N
N
2
N
N
2
N
N
A
ARG
1
A
ARG
2
HELX_P
A
GLY
31
A
GLY
32
1
1
31
B
ARG
1
B
ARG
2
HELX_P
B
GLY
31
B
GLY
32
1
2
31
C
ARG
1
C
ARG
2
HELX_P
C
GLY
31
C
GLY
32
1
3
31
covale
1.329
both
A
ACE
0
A
C
ACE
1
1_555
A
ARG
1
A
N
ARG
2
1_555
covale
1.344
both
B
ACE
0
B
C
ACE
1
1_555
B
ARG
1
B
N
ARG
2
1_555
covale
1.345
both
C
ACE
0
C
C
ACE
1
1_555
C
ARG
1
C
N
ARG
2
1_555
DNA BINDING PROTEIN
COILED COIL, LEUCINE ZIPPER, AUTOMATION, DNA BINDING PROTEIN
GCN4_YEAST
UNP
1
249
P03069
RMKQLEDKVEELLSKNYHLENEVARLKKLVGER
249
281
1RB5
1
33
P03069
A
1
2
34
249
281
1RB5
1
33
P03069
B
1
2
34
249
281
1RB5
1
33
P03069
C
1
2
34
1
ASN
engineered mutation
ALA
16
1RB5
A
P03069
UNP
264
17
2
ASN
engineered mutation
ALA
16
1RB5
B
P03069
UNP
264
17
3
ASN
engineered mutation
ALA
16
1RB5
C
P03069
UNP
264
17
152
P 31 2 1