1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Brown, P.J.
Mulvey, D.
Potts, J.R.
Tomley, F.M.
Campbell, I.D.
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
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 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
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
NE
J.Struct.Funct.Genom.
1345-711X
4
227
10.1023/B:JSFG.0000016118.87333.03
15185963
Solution Structure of a Pan Module from the Apicomplexan Parasite Eimeria Tenella
2003
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
CONSTRUCT INCLUDES 11 NON-NATIVE RESIDUES N-TERMINAL TO THR712
9233.349
MICRONEME PROTEIN 5 PRECURSOR
RESIDUES 712-786
1
man
polymer
MIC-5, ETMIC5
no
no
DYKDDDDKVKLTCYQNGVSFTGGKAISEAKAASSQACQELCEKDAKCRFFTLASGKCSLFADDAALRPTKSDGAVSGNKR
CILLED
DYKDDDDKVKLTCYQNGVSFTGGKAISEAKAASSQACQELCEKDAKCRFFTLASGKCSLFADDAALRPTKSDGAVSGNKR
CILLED
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
HOUGHTON
sample
ETMIC5 IS A SECRETED PROTEIN FROM THE MICRONEME ORGANELLES
5802
EIMERIA TENELLA
511693
ESCHERICHIA COLI
BL21
PFLAG-ATS
repository
Initial release
Version format compliance
Version format compliance
1
0
2002-10-17
1
1
2011-05-08
1
2
2011-07-13
SHEET
DETERMINATION METHOD: AUTHOR PROVIDED.
PDBE
Y
PDBE
2002-10-03
REL
11 NON-NATIVE RESIDUES N-TERMINAL TO THR712
STRUCTURE WAS DETERMINED USING HETERONUCLEAR NMR SPECTROSCOPY ON 15N-LABELLED 9TH PAN MODULE FROM ETMIC5. MODEL 1 HAS LOWEST ENERGY
LOW ENERGY AND LEAST RESTRAINT VIOLATIONS
250
20
NOESY
TOCSY
COSY
1H-15N-NOESY-HSQC 1H-15N-TOCSY-HSQC
HMQCJ
4.7
pH
303
K
REFINEMENT DETAILS WILL BE PUBLISHED
simulated annealing
1
0.8 MM IN 93% H2O/7% D2O OR 1.7 MM IN 99.9% D2O
BRUNGER
refinement
X-PLOR3.8
structure solution
XPLOR3.8
500
600
750
ASP
1
n
1
ASP
1
A
TYR
2
n
2
TYR
2
A
LYS
3
n
3
LYS
3
A
ASP
4
n
4
ASP
4
A
ASP
5
n
5
ASP
5
A
ASP
6
n
6
ASP
6
A
ASP
7
n
7
ASP
7
A
LYS
8
n
8
LYS
8
A
VAL
9
n
9
VAL
9
A
LYS
10
n
10
LYS
10
A
LEU
11
n
11
LEU
11
A
THR
12
n
12
THR
12
A
CYS
13
n
13
CYS
13
A
TYR
14
n
14
TYR
14
A
GLN
15
n
15
GLN
15
A
ASN
16
n
16
ASN
16
A
GLY
17
n
17
GLY
17
A
VAL
18
n
18
VAL
18
A
SER
19
n
19
SER
19
A
PHE
20
n
20
PHE
20
A
THR
21
n
21
THR
21
A
GLY
22
n
22
GLY
22
A
GLY
23
n
23
GLY
23
A
LYS
24
n
24
LYS
24
A
ALA
25
n
25
ALA
25
A
ILE
26
n
26
ILE
26
A
SER
27
n
27
SER
27
A
GLU
28
n
28
GLU
28
A
ALA
29
n
29
ALA
29
A
LYS
30
n
30
LYS
30
A
ALA
31
n
31
ALA
31
A
ALA
32
n
32
ALA
32
A
SER
33
n
33
SER
33
A
SER
34
n
34
SER
34
A
GLN
35
n
35
GLN
35
A
ALA
36
n
36
ALA
36
A
CYS
37
n
37
CYS
37
A
GLN
38
n
38
GLN
38
A
GLU
39
n
39
GLU
39
A
LEU
40
n
40
LEU
40
A
CYS
41
n
41
CYS
41
A
GLU
42
n
42
GLU
42
A
LYS
43
n
43
LYS
43
A
ASP
44
n
44
ASP
44
A
ALA
45
n
45
ALA
45
A
LYS
46
n
46
LYS
46
A
CYS
47
n
47
CYS
47
A
ARG
48
n
48
ARG
48
A
PHE
49
n
49
PHE
49
A
PHE
50
n
50
PHE
50
A
THR
51
n
51
THR
51
A
LEU
52
n
52
LEU
52
A
ALA
53
n
53
ALA
53
A
SER
54
n
54
SER
54
A
GLY
55
n
55
GLY
55
A
LYS
56
n
56
LYS
56
A
CYS
57
n
57
CYS
57
A
SER
58
n
58
SER
58
A
LEU
59
n
59
LEU
59
A
PHE
60
n
60
PHE
60
A
ALA
61
n
61
ALA
61
A
ASP
62
n
62
ASP
62
A
ASP
63
n
63
ASP
63
A
ALA
64
n
64
ALA
64
A
ALA
65
n
65
ALA
65
A
LEU
66
n
66
LEU
66
A
ARG
67
n
67
ARG
67
A
PRO
68
n
68
PRO
68
A
THR
69
n
69
THR
69
A
LYS
70
n
70
LYS
70
A
SER
71
n
71
SER
71
A
ASP
72
n
72
ASP
72
A
GLY
73
n
73
GLY
73
A
ALA
74
n
74
ALA
74
A
VAL
75
n
75
VAL
75
A
SER
76
n
76
SER
76
A
GLY
77
n
77
GLY
77
A
ASN
78
n
78
ASN
78
A
LYS
79
n
79
LYS
79
A
ARG
80
n
80
ARG
80
A
CYS
81
n
81
CYS
81
A
ILE
82
n
82
ILE
82
A
LEU
83
n
83
LEU
83
A
LEU
84
n
84
LEU
84
A
GLU
85
n
85
GLU
85
A
ASP
86
n
86
ASP
86
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
GLN
15
A
N
GLN
15
A
O
SER
76
A
O
SER
76
A
N
VAL
75
A
N
VAL
75
A
O
LEU
52
A
O
LEU
52
A
N
THR
51
A
N
THR
51
A
O
SER
58
A
O
SER
58
A
N
LEU
59
A
N
LEU
59
A
O
SER
27
A
O
SER
27
1
A
TYR
2
57.36
-166.72
1
A
CYS
13
-160.58
51.61
1
A
SER
19
-68.68
-169.35
1
A
LYS
24
-114.91
55.55
1
A
SER
27
-173.22
138.33
1
A
ARG
48
-146.07
-44.67
1
A
THR
51
-162.21
98.26
1
A
ALA
53
-123.88
-159.06
1
A
ALA
64
-144.06
-78.28
1
A
PRO
68
-67.61
-179.10
1
A
THR
69
-160.36
-33.88
1
A
LEU
84
55.84
76.80
2
A
TYR
2
-76.41
-168.17
2
A
ASP
6
-79.94
-79.33
2
A
CYS
13
-142.57
-4.28
2
A
ASN
16
57.64
-91.45
2
A
LYS
30
-58.14
93.58
2
A
ARG
48
-143.48
-56.13
2
A
LYS
56
-164.89
119.86
2
A
ALA
61
-67.95
-91.51
2
A
THR
69
-137.01
-67.86
2
A
SER
71
-112.30
56.92
2
A
ASP
72
-89.13
47.16
2
A
LYS
79
-162.96
94.55
2
A
LEU
84
57.44
-165.88
3
A
ASP
4
-152.36
-31.17
3
A
ASP
7
-153.08
-70.00
3
A
CYS
13
-134.59
-32.10
3
A
LYS
30
-59.76
89.96
3
A
ARG
48
-149.61
-36.82
3
A
SER
54
64.67
-3.10
3
A
ALA
64
-136.62
-34.88
3
A
ALA
65
-162.72
-5.93
3
A
THR
69
-167.09
-42.99
3
A
LYS
70
-163.82
-165.68
3
A
SER
71
-104.54
-76.09
3
A
ARG
80
-113.14
-80.56
3
A
CYS
81
55.67
87.73
3
A
LEU
83
-160.03
-27.84
4
A
TYR
2
57.72
-168.24
4
A
ASP
5
-102.10
-162.05
4
A
ASP
6
-135.03
-32.11
4
A
VAL
18
52.14
-177.54
4
A
LYS
30
-60.29
95.90
4
A
ARG
48
-143.57
-51.59
4
A
ALA
53
-133.97
-159.82
4
A
ALA
64
-133.76
-45.32
4
A
ALA
65
-165.36
11.51
4
A
LEU
66
-68.68
91.72
4
A
PRO
68
-68.29
-178.85
4
A
THR
69
-162.80
-39.04
5
A
LYS
3
57.02
-166.40
5
A
ASP
5
-162.65
-80.33
5
A
ASP
6
-145.09
-32.40
5
A
ASP
7
58.82
-91.30
5
A
LYS
8
56.54
-165.29
5
A
ASN
16
56.38
-164.17
5
A
SER
27
-174.54
140.55
5
A
LYS
30
-57.40
90.55
5
A
ALA
61
-74.52
-78.30
5
A
ASP
63
-149.29
-31.19
5
A
ALA
64
59.68
16.37
5
A
THR
69
-161.05
-36.48
5
A
ASP
72
-115.83
68.30
5
A
CYS
81
-160.15
77.42
5
A
LEU
83
-148.57
21.42
6
A
TYR
2
-69.87
-179.23
6
A
ASP
6
-153.49
-32.22
6
A
ASN
16
57.66
-168.99
6
A
VAL
18
-171.46
148.46
6
A
SER
19
-68.74
-164.00
6
A
SER
27
-173.45
142.30
6
A
LYS
30
-59.77
87.76
6
A
ARG
48
-148.55
-40.11
6
A
ALA
53
-128.77
-160.39
6
A
ALA
61
-61.34
-79.68
6
A
ALA
64
-96.64
-80.63
6
A
ALA
65
-147.24
20.75
6
A
THR
69
-169.89
-23.29
6
A
LYS
70
-89.38
-157.92
6
A
SER
71
-129.79
-155.89
6
A
ARG
80
59.06
-92.78
6
A
CYS
81
55.42
88.38
6
A
LEU
84
56.84
85.11
7
A
LYS
3
58.01
-168.08
7
A
ASP
4
-107.89
-80.08
7
A
ASP
5
-112.12
-166.14
7
A
ASP
6
-130.76
-45.77
7
A
ASP
7
54.85
82.97
7
A
SER
19
-59.80
170.49
7
A
LYS
30
-59.11
90.58
7
A
ARG
48
-135.90
-53.33
7
A
ALA
53
-127.08
-160.73
7
A
ASP
63
51.68
-159.62
7
A
ALA
65
-156.73
-37.99
7
A
LEU
66
58.31
94.75
7
A
PRO
68
-63.36
-172.69
7
A
THR
69
-137.63
-99.41
7
A
LYS
70
-176.62
-24.52
7
A
SER
71
-49.77
98.92
7
A
LYS
79
55.95
86.99
7
A
CYS
81
-107.83
64.46
8
A
TYR
2
55.04
-164.94
8
A
LYS
3
58.06
-91.59
8
A
ASP
5
-89.77
-78.18
8
A
ASP
6
-103.60
-82.84
8
A
THR
12
60.07
99.68
8
A
TYR
14
-131.34
-84.77
8
A
ASN
16
58.97
-89.78
8
A
SER
19
-68.36
-169.30
8
A
LYS
30
-58.27
90.36
8
A
ARG
48
-151.24
-47.93
8
A
THR
51
-161.14
98.83
8
A
SER
54
64.49
-2.47
8
A
ALA
61
-70.30
-84.26
8
A
ALA
64
-151.36
17.64
8
A
THR
69
-148.73
-73.09
8
A
SER
71
-76.74
-79.56
8
A
VAL
75
-170.00
144.54
8
A
ARG
80
-124.68
-156.64
8
A
CYS
81
57.27
72.60
8
A
LEU
84
-140.41
-39.19
9
A
ASP
4
-150.35
-78.56
9
A
ASP
6
-108.06
-75.12
9
A
LEU
11
-146.36
22.87
9
A
ASN
16
55.19
-160.74
9
A
LYS
30
-64.74
85.58
9
A
ARG
48
-131.01
-38.00
9
A
THR
51
-157.87
89.59
9
A
ALA
53
-127.59
-160.28
9
A
ALA
61
-79.24
-84.41
9
A
ALA
64
-101.10
-77.90
9
A
ALA
65
-161.11
28.68
9
A
THR
69
-158.36
10.80
9
A
LYS
70
64.77
121.96
9
A
SER
71
-128.34
-164.10
9
A
ARG
80
-98.96
32.00
9
A
CYS
81
-144.88
33.00
10
A
LYS
3
-113.43
-80.79
10
A
ASP
6
-157.32
-65.46
10
A
ASP
7
58.08
-167.01
10
A
SER
27
-175.96
139.06
10
A
ARG
48
-150.42
-41.73
10
A
SER
54
66.00
-3.15
10
A
LYS
56
-162.11
117.98
10
A
ALA
61
-71.80
-159.65
10
A
ASP
62
-66.44
90.27
10
A
ALA
64
-162.49
11.92
10
A
PRO
68
-69.29
-178.50
10
A
THR
69
-162.72
-46.47
10
A
LYS
70
-164.86
-161.46
10
A
SER
71
-105.84
-80.41
10
A
CYS
81
55.95
85.44
10
A
LEU
84
-148.71
-66.57
11
A
ASP
5
-145.02
-79.59
11
A
THR
12
57.35
-170.27
11
A
GLN
15
-161.95
94.81
11
A
ASN
16
-69.68
83.81
11
A
VAL
18
63.92
158.43
11
A
ALA
25
-54.61
109.48
11
A
SER
27
-171.73
149.94
11
A
ARG
48
-154.23
-58.90
11
A
SER
54
66.42
-3.15
11
A
ALA
61
-81.16
-153.55
11
A
ASP
62
-64.33
91.07
11
A
ALA
64
-156.55
10.59
11
A
LYS
70
64.91
121.47
11
A
CYS
81
-154.59
89.61
12
A
TYR
2
40.52
-160.48
12
A
LYS
3
-125.17
-83.45
12
A
ASP
4
-152.11
-79.67
12
A
ASP
6
-140.15
-79.42
12
A
LEU
11
-143.15
-72.83
12
A
ASN
16
56.49
-166.80
12
A
ALA
25
-59.12
106.56
12
A
SER
27
-177.06
140.33
12
A
LYS
30
-59.10
93.79
12
A
ALA
45
-142.61
14.67
12
A
SER
54
64.24
-2.40
12
A
ALA
61
-67.83
-87.82
12
A
ASP
62
-151.29
80.88
12
A
ALA
65
-170.11
2.40
12
A
THR
69
-151.03
-44.97
12
A
SER
71
-104.70
73.63
12
A
ASN
78
-140.04
-10.68
12
A
LYS
79
56.15
83.90
12
A
ARG
80
-142.29
19.64
12
A
CYS
81
-115.96
54.04
12
A
LEU
83
-123.44
-83.29
12
A
LEU
84
-161.95
-3.65
13
A
LYS
3
57.85
-169.01
13
A
ASP
4
-161.31
-36.37
13
A
ASP
6
-91.28
-79.72
13
A
LYS
8
56.84
-165.50
13
A
LEU
11
-159.92
-31.57
13
A
GLN
15
72.90
-26.10
13
A
ASN
16
56.59
-92.16
13
A
SER
19
-68.44
-179.37
13
A
SER
27
-170.99
141.16
13
A
LYS
30
-58.00
90.21
13
A
ARG
48
-133.35
-41.28
13
A
ALA
53
-126.33
-161.22
13
A
ALA
61
-68.65
-161.62
13
A
ASP
62
-61.65
95.07
13
A
ALA
64
-166.70
15.18
13
A
THR
69
-142.10
-78.76
13
A
LYS
70
-170.45
122.42
13
A
ASP
72
-146.27
14.13
13
A
LYS
79
58.79
96.16
13
A
ARG
80
58.79
91.04
13
A
CYS
81
-111.38
68.48
14
A
LYS
3
43.78
-160.45
14
A
ASP
4
-144.47
-19.64
14
A
ASP
7
55.85
77.13
14
A
VAL
18
64.93
150.91
14
A
LYS
30
-62.50
94.18
14
A
ARG
48
-160.29
-38.98
14
A
LYS
56
-163.23
118.93
14
A
ALA
65
-164.24
7.15
14
A
PRO
68
-69.26
-174.99
14
A
THR
69
-134.31
-75.83
14
A
LYS
70
-170.89
-30.69
14
A
SER
71
-62.88
99.18
14
A
LEU
84
-145.99
-37.39
15
A
ASP
4
58.75
-90.05
15
A
ASP
5
-111.65
-81.39
15
A
ASP
6
-147.35
-80.70
15
A
CYS
13
-71.07
-76.52
15
A
GLN
15
-172.63
-41.05
15
A
VAL
18
47.77
-169.44
15
A
LYS
30
-59.40
89.42
15
A
ARG
48
-147.92
-59.37
15
A
THR
51
-160.01
94.80
15
A
LYS
56
-164.23
119.44
15
A
ALA
61
-74.60
-89.27
15
A
ASN
78
-119.09
-78.95
15
A
LYS
79
-165.97
-72.01
16
A
LYS
3
57.48
-166.91
16
A
ASP
5
61.94
171.77
16
A
ASP
6
-133.83
-38.58
16
A
LYS
8
-104.61
-78.37
16
A
CYS
13
56.54
-163.54
16
A
TYR
14
-115.15
-83.42
16
A
LYS
30
-60.59
94.89
16
A
ARG
48
-131.98
-38.95
16
A
ALA
53
-128.52
-160.36
16
A
LYS
56
-172.27
122.95
16
A
ALA
61
-64.32
-92.67
16
A
THR
69
-149.03
-63.40
16
A
SER
71
-107.13
55.60
16
A
VAL
75
-170.01
141.83
16
A
ARG
80
-92.14
32.65
17
A
LYS
3
58.86
-170.60
17
A
ASP
4
-81.95
-79.78
17
A
ASP
5
-142.73
-32.27
17
A
ASP
6
-161.94
-78.49
17
A
ASP
7
-155.82
-65.56
17
A
VAL
18
46.95
-168.18
17
A
SER
27
-173.57
148.95
17
A
ARG
48
-140.74
-39.34
17
A
ALA
53
-122.76
-157.91
17
A
LYS
56
-163.19
118.09
17
A
ALA
64
-144.56
-80.43
17
A
THR
69
-161.70
-57.32
17
A
SER
71
-88.57
-86.90
17
A
ASP
72
56.90
-91.36
17
A
LYS
79
60.34
98.68
17
A
LEU
83
-155.67
-35.49
17
A
LEU
84
58.54
-90.89
18
A
ASP
5
59.31
-89.77
18
A
ASP
6
-120.59
-81.97
18
A
LYS
8
-83.47
-76.77
18
A
LEU
11
56.09
82.06
18
A
ASN
16
-89.05
35.32
18
A
VAL
18
45.61
-165.65
18
A
ARG
48
-153.44
-77.23
18
A
THR
51
-160.93
100.62
18
A
ALA
53
-131.28
-159.35
18
A
ALA
61
-103.58
-83.11
18
A
ALA
65
-173.11
-4.65
18
A
THR
69
-162.47
-24.45
18
A
SER
71
-110.77
-157.49
18
A
GLU
85
-74.32
-81.84
19
A
ASP
4
-140.61
-79.71
19
A
ASP
5
-141.94
-80.66
19
A
LYS
8
-77.35
-79.71
19
A
GLN
15
-144.73
-8.41
19
A
ASN
16
56.09
-93.10
19
A
SER
19
-68.65
-163.16
19
A
ARG
48
-160.43
-53.63
19
A
ALA
53
-122.74
-159.59
19
A
LYS
56
-162.04
118.39
19
A
ALA
61
-81.41
-76.01
19
A
ALA
64
-81.55
-72.63
19
A
ALA
65
-149.91
15.18
19
A
PRO
68
-69.35
-177.86
19
A
THR
69
-166.72
-83.41
19
A
LYS
70
-175.40
137.90
19
A
ASP
72
-149.33
25.30
19
A
LYS
79
-154.10
89.97
19
A
CYS
81
-105.13
65.56
20
A
ASP
5
-114.00
-83.16
20
A
ASP
6
-147.59
-35.19
20
A
CYS
13
-149.71
-0.51
20
A
GLN
15
59.44
-90.12
20
A
ASN
16
-57.42
101.63
20
A
VAL
18
66.17
145.02
20
A
SER
27
-172.05
148.87
20
A
LYS
30
-114.42
56.53
20
A
ARG
48
-146.28
-57.34
20
A
ALA
53
-128.74
-160.26
20
A
LYS
56
-166.81
119.75
20
A
ALA
61
-90.64
-157.06
20
A
ASP
62
-62.63
95.07
20
A
ALA
64
-164.53
7.86
20
A
THR
69
-164.16
-55.76
MICRONEME PROTEIN 5 PRECURSOR
Solution structure of a PAN module from Eimeria tenella
1
N
N
A
SER
33
A
SER
33
HELX_P
A
ASP
44
A
ASP
44
1
1
12
disulf
2.030
A
CYS
13
A
SG
CYS
13
1_555
A
CYS
81
A
SG
CYS
81
1_555
disulf
2.031
A
CYS
37
A
SG
CYS
37
1_555
A
CYS
57
A
SG
CYS
57
1_555
disulf
2.029
A
CYS
41
A
SG
CYS
41
1_555
A
CYS
47
A
SG
CYS
47
1_555
ADHESIN
ADHESIN, PAN MODULE, EIMERIA TENELLA
1HKY
PDB
1
1HKY
Q9U966
UNP
1
Q9U966
1
11
1HKY
1
11
1HKY
A
1
1
11
712
786
1HKY
12
86
Q9U966
A
2
12
86
5
anti-parallel
anti-parallel
anti-parallel
anti-parallel
A
GLN
15
A
GLN
15
A
ASN
16
A
ASN
16
A
VAL
75
A
VAL
75
A
SER
76
A
SER
76
A
THR
51
A
THR
51
A
LEU
52
A
LEU
52
A
CYS
57
A
CYS
57
A
LEU
59
A
LEU
59
A
SER
27
A
SER
27
A
ALA
29
A
ALA
29
1
P 1