1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Qian, Y.Q.
Furukubo-Tokunaga, K.
Resendez-Perez, D.
Muller, M.
Gehring, W.J.
Wuthrich, K.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.00
90.00
90.00
1.000
1.000
1.000
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
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
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
238
333
345
10.1006/jmbi.1994.1296
7909851
Nuclear magnetic resonance solution structure of the fushi tarazu homeodomain from Drosophila and comparison with the Antennapedia homeodomain.
1994
US
Cell(Cambridge,Mass.)
CELLB5
0998
0092-8674
59
573
The Structure of the Antennapedia Homeodomain Determined by NMR Spectroscopy in Solution: Comparison with Prokaryotic Repressors
1989
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
214
183
Determination of the Three-Dimensional Structure of the Antennapedia Homeodomain from Drosophila in Solution by 1H Nuclear Magnetic Resonance Spectroscopy
1990
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
217
531
Structure Determination of the Antp(C39->S) Homeodomain from Nuclear Magnetic Resonance Data in Solution Using a Novel Strategy for the Structure Calculation with the Programs Diana, Caliba, Habas and Glomsa
1991
10.2210/pdb1ftz/pdb
pdb_00001ftz
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
8796.036
FUSHI TARAZU PROTEIN
1
man
polymer
no
no
MDSKRTRQTYTRYQTLELEKEFHFNRYITRRRRIDIANALSLSERQIKIWFQNRRMKSKKDRTLDSSPEH
MDSKRTRQTYTRYQTLELEKEFHFNRYITRRRRIDIANALSLSERQIKIWFQNRRMKSKKDRTLDSSPEH
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
fruit fly
Drosophila
sample
7227
FRUIT
Drosophila melanogaster
database_2
pdbx_database_status
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Database references
Derived calculations
Other
1
0
1994-05-31
1
1
2008-03-24
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.process_site
Y
BNL
1994-01-07
REL
20
GUNTERT,BRAUN,WUTHRICH
refinement
DIANA
MET
-1
n
1
MET
-1
A
ASP
0
n
2
ASP
0
A
SER
1
n
3
SER
1
A
LYS
2
n
4
LYS
2
A
ARG
3
n
5
ARG
3
A
THR
4
n
6
THR
4
A
ARG
5
n
7
ARG
5
A
GLN
6
n
8
GLN
6
A
THR
7
n
9
THR
7
A
TYR
8
n
10
TYR
8
A
THR
9
n
11
THR
9
A
ARG
10
n
12
ARG
10
A
TYR
11
n
13
TYR
11
A
GLN
12
n
14
GLN
12
A
THR
13
n
15
THR
13
A
LEU
14
n
16
LEU
14
A
GLU
15
n
17
GLU
15
A
LEU
16
n
18
LEU
16
A
GLU
17
n
19
GLU
17
A
LYS
18
n
20
LYS
18
A
GLU
19
n
21
GLU
19
A
PHE
20
n
22
PHE
20
A
HIS
21
n
23
HIS
21
A
PHE
22
n
24
PHE
22
A
ASN
23
n
25
ASN
23
A
ARG
24
n
26
ARG
24
A
TYR
25
n
27
TYR
25
A
ILE
26
n
28
ILE
26
A
THR
27
n
29
THR
27
A
ARG
28
n
30
ARG
28
A
ARG
29
n
31
ARG
29
A
ARG
30
n
32
ARG
30
A
ARG
31
n
33
ARG
31
A
ILE
32
n
34
ILE
32
A
ASP
33
n
35
ASP
33
A
ILE
34
n
36
ILE
34
A
ALA
35
n
37
ALA
35
A
ASN
36
n
38
ASN
36
A
ALA
37
n
39
ALA
37
A
LEU
38
n
40
LEU
38
A
SER
39
n
41
SER
39
A
LEU
40
n
42
LEU
40
A
SER
41
n
43
SER
41
A
GLU
42
n
44
GLU
42
A
ARG
43
n
45
ARG
43
A
GLN
44
n
46
GLN
44
A
ILE
45
n
47
ILE
45
A
LYS
46
n
48
LYS
46
A
ILE
47
n
49
ILE
47
A
TRP
48
n
50
TRP
48
A
PHE
49
n
51
PHE
49
A
GLN
50
n
52
GLN
50
A
ASN
51
n
53
ASN
51
A
ARG
52
n
54
ARG
52
A
ARG
53
n
55
ARG
53
A
MET
54
n
56
MET
54
A
LYS
55
n
57
LYS
55
A
SER
56
n
58
SER
56
A
LYS
57
n
59
LYS
57
A
LYS
58
n
60
LYS
58
A
ASP
59
n
61
ASP
59
A
ARG
60
n
62
ARG
60
A
THR
61
n
63
THR
61
A
LEU
62
n
64
LEU
62
A
ASP
63
n
65
ASP
63
A
SER
64
n
66
SER
64
A
SER
65
n
67
SER
65
A
PRO
66
n
68
PRO
66
A
GLU
67
n
69
GLU
67
A
HIS
68
n
70
HIS
68
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
1
A
TYR
8
0.108
SIDE CHAIN
1
A
TYR
11
0.074
SIDE CHAIN
1
A
PHE
20
0.110
SIDE CHAIN
1
A
TYR
25
0.083
SIDE CHAIN
2
A
TYR
8
0.270
SIDE CHAIN
2
A
TYR
25
0.119
SIDE CHAIN
2
A
ARG
52
0.133
SIDE CHAIN
3
A
TYR
11
0.074
SIDE CHAIN
4
A
TYR
8
0.110
SIDE CHAIN
4
A
TYR
11
0.095
SIDE CHAIN
4
A
TYR
25
0.155
SIDE CHAIN
4
A
ARG
29
0.085
SIDE CHAIN
4
A
ARG
30
0.082
SIDE CHAIN
4
A
ARG
53
0.082
SIDE CHAIN
5
A
TYR
8
0.072
SIDE CHAIN
5
A
TYR
11
0.095
SIDE CHAIN
5
A
TYR
25
0.076
SIDE CHAIN
5
A
ARG
60
0.111
SIDE CHAIN
6
A
TYR
8
0.241
SIDE CHAIN
6
A
TYR
11
0.118
SIDE CHAIN
6
A
TYR
25
0.069
SIDE CHAIN
6
A
ARG
30
0.250
SIDE CHAIN
6
A
PHE
49
0.090
SIDE CHAIN
6
A
ARG
52
0.087
SIDE CHAIN
6
A
ARG
53
0.077
SIDE CHAIN
7
A
TYR
8
0.141
SIDE CHAIN
7
A
TYR
11
0.128
SIDE CHAIN
7
A
TYR
25
0.163
SIDE CHAIN
7
A
ARG
53
0.136
SIDE CHAIN
8
A
TYR
11
0.076
SIDE CHAIN
8
A
ARG
24
0.093
SIDE CHAIN
9
A
PHE
20
0.083
SIDE CHAIN
9
A
ARG
30
0.122
SIDE CHAIN
9
A
ARG
31
0.075
SIDE CHAIN
9
A
ARG
52
0.105
SIDE CHAIN
9
A
ARG
53
0.114
SIDE CHAIN
10
A
TYR
8
0.077
SIDE CHAIN
10
A
TYR
11
0.090
SIDE CHAIN
10
A
PHE
49
0.117
SIDE CHAIN
11
A
ARG
29
0.102
SIDE CHAIN
11
A
ARG
60
0.136
SIDE CHAIN
12
A
ARG
5
0.109
SIDE CHAIN
12
A
TYR
8
0.124
SIDE CHAIN
12
A
TYR
25
0.080
SIDE CHAIN
12
A
ARG
29
0.092
SIDE CHAIN
13
A
TYR
8
0.256
SIDE CHAIN
13
A
TYR
11
0.097
SIDE CHAIN
13
A
ARG
31
0.171
SIDE CHAIN
14
A
TYR
25
0.139
SIDE CHAIN
14
A
ARG
31
0.079
SIDE CHAIN
14
A
ARG
53
0.136
SIDE CHAIN
14
A
ARG
60
0.092
SIDE CHAIN
15
A
TYR
8
0.227
SIDE CHAIN
15
A
TYR
11
0.108
SIDE CHAIN
15
A
ARG
31
0.150
SIDE CHAIN
16
A
TYR
11
0.117
SIDE CHAIN
16
A
ARG
29
0.096
SIDE CHAIN
16
A
ARG
30
0.076
SIDE CHAIN
16
A
ARG
52
0.084
SIDE CHAIN
16
A
ARG
60
0.085
SIDE CHAIN
17
A
TYR
8
0.168
SIDE CHAIN
17
A
TYR
11
0.103
SIDE CHAIN
17
A
TYR
25
0.107
SIDE CHAIN
17
A
ARG
60
0.080
SIDE CHAIN
18
A
TYR
8
0.163
SIDE CHAIN
18
A
TYR
11
0.092
SIDE CHAIN
18
A
TYR
25
0.067
SIDE CHAIN
19
A
TYR
8
0.100
SIDE CHAIN
19
A
TYR
11
0.065
SIDE CHAIN
19
A
TYR
25
0.088
SIDE CHAIN
19
A
ARG
30
0.087
SIDE CHAIN
20
A
TYR
8
0.098
SIDE CHAIN
20
A
TYR
25
0.069
SIDE CHAIN
20
A
ARG
31
0.084
SIDE CHAIN
2
-3.36
0.50
120.30
116.94
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
30
30
30
N
6
-3.16
0.50
120.30
117.14
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
52
52
52
N
7
-3.34
0.50
120.30
116.96
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
52
52
52
N
9
-3.11
0.50
120.30
117.19
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
3
3
3
N
17
-3.58
0.50
120.30
116.72
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
30
30
30
N
17
-3.12
0.50
120.30
117.18
A
A
A
NE
CZ
NH2
ARG
ARG
ARG
31
31
31
N
1
A
LYS
2
166.08
-20.38
1
A
ARG
3
34.29
89.60
1
A
THR
4
50.40
93.38
1
A
THR
7
71.62
150.67
1
A
SER
39
74.58
72.95
1
A
ARG
53
-29.92
-49.85
1
A
LYS
55
-82.85
46.22
1
A
SER
56
33.95
46.75
1
A
LYS
57
-175.22
-51.19
1
A
LYS
58
-85.53
45.62
1
A
ASP
59
-145.33
-75.30
1
A
LEU
62
-50.88
108.30
1
A
SER
64
58.08
17.80
2
A
SER
1
-58.49
71.88
2
A
LYS
2
-64.28
73.34
2
A
ARG
3
88.04
166.55
2
A
THR
4
52.63
93.54
2
A
TYR
8
85.64
146.00
2
A
SER
39
80.81
57.67
2
A
ARG
53
31.42
42.70
2
A
MET
54
35.48
57.40
2
A
LYS
55
-72.88
26.57
2
A
SER
56
33.88
50.52
2
A
LYS
57
-168.05
-35.64
2
A
LYS
58
-113.00
60.77
2
A
ASP
59
-175.74
-52.23
2
A
ASP
63
-87.18
-134.26
2
A
SER
65
-158.11
-69.71
2
A
GLU
67
46.19
93.86
3
A
ASP
0
-167.75
34.72
3
A
SER
1
-49.74
109.20
3
A
LYS
2
-68.21
77.19
3
A
SER
39
90.79
48.03
3
A
LYS
55
-91.76
-106.36
3
A
LYS
57
-152.53
-36.07
3
A
LYS
58
-97.68
56.81
3
A
ASP
59
-155.94
-71.52
3
A
THR
61
51.95
-176.99
3
A
ASP
63
-85.48
-133.79
3
A
SER
64
-140.80
45.36
3
A
SER
65
79.85
148.25
4
A
THR
4
81.48
104.83
4
A
SER
39
77.65
61.13
4
A
LEU
40
-142.78
-148.18
4
A
MET
54
-144.06
31.09
4
A
LYS
55
-84.19
46.41
4
A
LYS
57
-151.71
-38.62
4
A
LYS
58
-103.54
50.12
4
A
ASP
59
-170.11
-89.60
4
A
ASP
63
-175.85
75.51
4
A
SER
64
48.73
27.63
4
A
SER
65
156.58
159.06
4
A
PRO
66
-80.63
-151.36
5
A
SER
1
61.71
-160.23
5
A
THR
4
52.05
94.17
5
A
TYR
8
82.06
175.45
5
A
SER
39
79.97
44.81
5
A
MET
54
-141.06
31.19
5
A
LYS
55
-80.25
45.93
5
A
SER
56
34.12
46.60
5
A
LYS
57
-175.65
-51.98
5
A
LYS
58
-81.43
49.29
5
A
ASP
59
-163.94
-96.02
5
A
ARG
60
60.30
99.31
5
A
THR
61
-66.58
78.52
5
A
SER
64
48.56
-133.79
5
A
SER
65
-157.43
-48.73
6
A
ARG
3
33.29
73.00
6
A
THR
4
44.92
93.31
6
A
ARG
5
-103.95
72.06
6
A
GLN
6
-65.00
-179.51
6
A
ASN
23
-167.54
110.99
6
A
SER
39
59.76
73.81
6
A
LEU
40
-139.79
-149.54
6
A
LYS
55
-117.02
-106.52
6
A
LYS
57
-156.01
-19.48
6
A
LYS
58
-88.86
45.40
6
A
ASP
59
-107.96
-63.64
6
A
SER
64
-161.02
-163.89
6
A
SER
65
128.63
-72.73
7
A
ASP
0
37.32
42.65
7
A
LYS
2
-168.40
47.59
7
A
THR
7
64.08
135.58
7
A
ASN
23
-170.45
148.39
7
A
LEU
40
-117.69
-163.96
7
A
LYS
57
-154.90
-42.18
7
A
LYS
58
-81.01
49.06
7
A
ASP
59
174.69
-122.65
7
A
SER
64
-153.97
64.82
7
A
SER
65
-145.29
-86.53
8
A
LYS
2
-140.97
-57.67
8
A
ARG
3
164.33
145.35
8
A
THR
4
44.15
93.15
8
A
TYR
8
87.65
164.85
8
A
GLU
19
-156.45
-38.81
8
A
ASN
23
-175.63
108.08
8
A
LYS
55
-79.00
46.38
8
A
SER
56
63.54
83.53
8
A
ASP
59
-173.34
-78.28
8
A
ARG
60
-162.37
108.86
8
A
SER
64
58.95
-148.33
8
A
SER
65
-174.98
81.00
8
A
GLU
67
-139.01
-134.09
9
A
ARG
3
51.57
-172.06
9
A
THR
4
44.11
93.29
9
A
LEU
40
-134.27
-147.89
9
A
MET
54
-118.47
58.37
9
A
LYS
55
-150.54
-99.76
9
A
LYS
57
-161.62
-38.29
9
A
LYS
58
-81.61
44.21
9
A
ARG
60
-175.73
105.76
9
A
SER
65
-145.33
-71.32
10
A
ARG
3
34.75
-103.20
10
A
THR
7
72.61
152.64
10
A
ASN
23
-178.21
119.43
10
A
SER
39
75.34
51.99
10
A
ARG
53
-23.81
-57.30
10
A
LYS
55
-118.37
-105.53
10
A
LYS
57
-150.91
-47.57
10
A
ASP
59
-153.66
-72.64
10
A
SER
64
-164.59
63.94
10
A
PRO
66
-68.55
95.46
11
A
LYS
2
34.16
46.26
11
A
ARG
5
56.14
81.45
11
A
TYR
25
-171.71
88.48
11
A
SER
39
95.61
72.35
11
A
MET
54
-155.06
54.33
11
A
LYS
55
-83.68
-73.16
11
A
SER
56
-152.07
40.22
11
A
LYS
57
-168.54
-24.08
11
A
ASP
59
-157.64
-55.30
11
A
SER
64
-177.48
135.89
11
A
GLU
67
-98.15
-136.19
12
A
SER
1
47.44
78.80
12
A
LYS
2
75.98
-47.00
12
A
ARG
3
-155.12
-83.38
12
A
GLN
6
-175.84
-173.51
12
A
TYR
8
72.54
141.00
12
A
LEU
40
-121.29
-140.30
12
A
MET
54
-81.80
43.89
12
A
SER
56
33.48
50.64
12
A
LYS
57
-164.57
-36.18
12
A
LYS
58
-87.75
34.50
12
A
ASP
59
-179.95
-115.37
12
A
ARG
60
-94.13
54.06
12
A
THR
61
33.29
61.67
12
A
LEU
62
-136.76
-133.98
12
A
ASP
63
-105.32
-147.19
12
A
SER
64
-162.83
53.47
12
A
SER
65
90.50
143.38
13
A
ASP
0
-68.69
71.22
13
A
SER
1
53.88
-119.76
13
A
GLN
6
-63.26
-177.98
13
A
TYR
8
72.44
140.84
13
A
TYR
25
177.14
104.23
13
A
SER
39
79.55
41.12
13
A
MET
54
-141.79
31.41
13
A
LYS
57
-146.69
-46.36
13
A
LYS
58
-83.27
39.22
13
A
ASP
59
-161.42
-82.36
13
A
ASP
63
33.12
64.09
13
A
SER
65
67.36
68.32
14
A
THR
4
47.35
93.65
14
A
ARG
5
-84.53
-145.13
14
A
ASN
23
173.70
174.55
14
A
TYR
25
-175.68
109.04
14
A
SER
39
74.40
39.43
14
A
LEU
40
-120.28
-160.93
14
A
MET
54
-163.55
94.37
14
A
LYS
55
-130.17
-106.88
14
A
ASP
59
-142.06
-71.82
14
A
ARG
60
5.30
60.37
14
A
LEU
62
-158.26
30.45
14
A
SER
65
-157.57
-71.84
14
A
PRO
66
-73.85
-165.49
15
A
SER
1
41.26
-126.63
15
A
THR
4
44.65
93.21
15
A
ARG
5
-110.94
65.46
15
A
THR
7
65.03
174.69
15
A
SER
39
84.67
56.13
15
A
SER
56
-83.44
42.04
15
A
LYS
57
44.11
12.33
15
A
ASP
59
-175.01
-67.14
15
A
SER
64
49.74
-149.42
15
A
GLU
67
-109.52
51.44
16
A
THR
4
56.44
93.95
16
A
ASN
23
-173.56
-176.37
16
A
TYR
25
-175.79
88.47
16
A
SER
39
92.85
42.99
16
A
MET
54
-155.34
57.19
16
A
LYS
57
-163.35
-45.54
16
A
ASP
59
-165.79
-51.68
16
A
THR
61
51.09
-167.53
16
A
LEU
62
-165.30
27.43
17
A
ARG
3
-73.96
47.17
17
A
THR
4
43.88
93.51
17
A
THR
7
59.52
124.34
17
A
LEU
40
-124.63
-152.47
17
A
LYS
57
-150.04
-57.21
17
A
LYS
58
-100.17
55.20
17
A
ASP
59
-163.72
-79.32
17
A
THR
61
50.75
95.48
18
A
SER
1
-82.13
-150.33
18
A
LYS
2
60.80
-64.33
18
A
THR
4
44.64
93.17
18
A
TYR
8
77.00
162.09
18
A
SER
39
84.99
54.25
18
A
LYS
57
-155.42
-55.95
18
A
LYS
58
-90.32
44.56
18
A
ASP
59
-168.09
-84.99
18
A
THR
61
52.59
-164.10
18
A
SER
64
49.72
-134.09
18
A
GLU
67
-148.94
-133.76
19
A
ASP
0
-69.34
76.96
19
A
THR
4
44.50
93.48
19
A
ARG
5
-116.85
61.94
19
A
GLN
6
55.81
172.58
19
A
ASN
23
173.04
166.85
19
A
TYR
25
-170.73
104.50
19
A
LEU
40
-132.02
-152.68
19
A
ARG
53
24.59
42.14
19
A
LYS
55
-54.95
11.54
19
A
SER
56
54.20
13.63
19
A
LYS
57
-163.37
39.48
19
A
LYS
58
-168.89
45.96
19
A
ASP
59
-121.69
-50.90
19
A
SER
65
61.22
65.72
20
A
ASP
0
-33.34
169.74
20
A
SER
1
72.60
95.26
20
A
THR
4
43.60
93.40
20
A
ARG
5
-146.92
-26.96
20
A
ASN
36
-71.02
-70.72
20
A
MET
54
-108.01
52.99
20
A
LYS
55
-65.61
17.48
20
A
LYS
57
-163.13
-47.05
20
A
LYS
58
-94.17
33.50
20
A
ASP
59
-95.50
-70.14
20
A
ARG
60
10.81
53.58
20
A
THR
61
174.84
177.85
NUCLEAR MAGNETIC RESONANCE SOLUTION STRUCTURE OF THE FUSHI TARAZU HOMEODOMAIN FROM DROSOPHILA AND COMPARISON WITH THE ANTENNAPEDIA HOMEODOMAIN
1
Y
N
A
ARG
10
A
ARG
12
HELX_P
ALPHA HELIX
A
HIS
21
A
HIS
23
1
H1
12
A
ARG
28
A
ARG
30
HELX_P
ALPHA HELIX
A
LEU
38
A
LEU
40
1
H2
11
A
GLU
42
A
GLU
44
HELX_P
ALPHA HELIX
A
ARG
52
A
ARG
54
1
H3
11
DNA-BINDING
DNA-BINDING
FTZ_DROME
UNP
1
1
P02835
MATTNSQSHYSYADNMNMYNMYHPHSLPPTYYDNSGSNAYYQNTSNYHSYQGYYPQESYSESCYYYNNQEQVTTQTVPPV
QPTTPPPKATKRKAEDDAASIIAAVEERPSTLRALLTNPVKKLKYTPDYFYTTVEQVKKAPAVTTKVTASPAPSYDQEYV
TVPTPSASEDVDYLDVYSPQSQTQKLKNGDFATPPPTTPTSLPPLEGISTPPQSPGEKSSSAVSQEINHRIVTAPNGAGD
FNWSHIEETLASDCKDSKRTRQTYTRYQTLELEKEFHFNRYITRRRRIDIANALSLSERQIKIWFQNRRMKSKKDRTLDS
SPEHCGAGYTAMLPPLEATSTATTGAPSVPVPMYHHHQTTAAYPAYSHSHSHGYGLLNDYPQQQTHQQYDAYPQQYQQQC
SYQQHPQDLYHLS
256
324
1FTZ
0
68
P02835
A
1
2
70
1
P 1