1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Nair, M.
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
C3 H7 N O2 S
121.158
y
CYSTEINE
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
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
UK
J.Mol.Biol.
JMOBAK
0070
0022-2836
322
741
753
10.1016/S0022-2836(02)00806-9
12270711
Structure of domain III of the blood-stage malaria vaccine candidate, Plasmodium falciparum apical membrane antigen 1 (AMA1).
2002
10.2210/pdb1hn6/pdb
pdb_00001hn6
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
12951.607
APICAL MEMBRANE ANTIGEN 1
DOMAIN III (RESIDUES 436-545)
1
man
polymer
no
no
EVENNFPCSLYKDEIMKEIERESKRIKLNDNDDEGNKKIIAPRIFISDDKDSLKCPCDPEMVSNSTCRFFVCKCVERRAE
VTSNNEVVVKEEYKDEYADIPEHKPTYDKM
EVENNFPCSLYKDEIMKEIERESKRIKLNDNDDEGNKKIIAPRIFISDDKDSLKCPCDPEMVSNSTCRFFVCKCVERRAE
VTSNNEVVVKEEYKDEYADIPEHKPTYDKM
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
malaria parasite P. falciparum
Plasmodium
Escherichia
sample
PF83
5833
Plasmodium falciparum
562
Escherichia coli
database_2
pdbx_nmr_software
pdbx_struct_assembly
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Data collection
Database references
Derived calculations
1
0
2002-10-09
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
4787 is Chemical shift data
RCSB
Y
RCSB
2000-12-07
REL
REL
Angle information derived from analysis of HNHA, HNHB and 3D NOE data recorded at short mixing times. 1H,13C and 15N chemical shift data used in software program TALOS to calculate additional angles.
structures with the least restraint violations, structures with the lowest energy
256
20
3D_13C-separated_NOESY
3D_15N-separated_NOESY
HNHA
0
3.4
ambient
303
K
The structures are based on a total of 668 NOE derived restraints, six hydrogen bond restraints and 172 dihedral angle restraints.
torsion angle dynamics, simulated annealing, molecular dynamics
1
closest to the average
1mM Pf AMA1 U-15N, 1mM Pf AMA1 U-15N, 13C
90% H2O/10% D2O
1mM Pf AMA1 U-15N, 13C
90% H2O/10% D2O
Guentert
structure solution
DYANA
1.5
Bruenger
refinement
CNS
1.0
Bruker AG
processing
XwinNMR
1.3
Bartels
data analysis
XEASY
1.3.13
Cornilescu
data analysis
TALOS
1999
500
Bruker
AMX
600
Bruker
DRX
GLU
436
n
1
GLU
436
A
VAL
437
n
2
VAL
437
A
GLU
438
n
3
GLU
438
A
ASN
439
n
4
ASN
439
A
ASN
440
n
5
ASN
440
A
PHE
441
n
6
PHE
441
A
PRO
442
n
7
PRO
442
A
CYS
443
n
8
CYS
443
A
SER
444
n
9
SER
444
A
LEU
445
n
10
LEU
445
A
TYR
446
n
11
TYR
446
A
LYS
447
n
12
LYS
447
A
ASP
448
n
13
ASP
448
A
GLU
449
n
14
GLU
449
A
ILE
450
n
15
ILE
450
A
MET
451
n
16
MET
451
A
LYS
452
n
17
LYS
452
A
GLU
453
n
18
GLU
453
A
ILE
454
n
19
ILE
454
A
GLU
455
n
20
GLU
455
A
ARG
456
n
21
ARG
456
A
GLU
457
n
22
GLU
457
A
SER
458
n
23
SER
458
A
LYS
459
n
24
LYS
459
A
ARG
460
n
25
ARG
460
A
ILE
461
n
26
ILE
461
A
LYS
462
n
27
LYS
462
A
LEU
463
n
28
LEU
463
A
ASN
464
n
29
ASN
464
A
ASP
465
n
30
ASP
465
A
ASN
466
n
31
ASN
466
A
ASP
467
n
32
ASP
467
A
ASP
468
n
33
ASP
468
A
GLU
469
n
34
GLU
469
A
GLY
470
n
35
GLY
470
A
ASN
471
n
36
ASN
471
A
LYS
472
n
37
LYS
472
A
LYS
473
n
38
LYS
473
A
ILE
474
n
39
ILE
474
A
ILE
475
n
40
ILE
475
A
ALA
476
n
41
ALA
476
A
PRO
477
n
42
PRO
477
A
ARG
478
n
43
ARG
478
A
ILE
479
n
44
ILE
479
A
PHE
480
n
45
PHE
480
A
ILE
481
n
46
ILE
481
A
SER
482
n
47
SER
482
A
ASP
483
n
48
ASP
483
A
ASP
484
n
49
ASP
484
A
LYS
485
n
50
LYS
485
A
ASP
486
n
51
ASP
486
A
SER
487
n
52
SER
487
A
LEU
488
n
53
LEU
488
A
LYS
489
n
54
LYS
489
A
CYS
490
n
55
CYS
490
A
PRO
491
n
56
PRO
491
A
CYS
492
n
57
CYS
492
A
ASP
493
n
58
ASP
493
A
PRO
494
n
59
PRO
494
A
GLU
495
n
60
GLU
495
A
MET
496
n
61
MET
496
A
VAL
497
n
62
VAL
497
A
SER
498
n
63
SER
498
A
ASN
499
n
64
ASN
499
A
SER
500
n
65
SER
500
A
THR
501
n
66
THR
501
A
CYS
502
n
67
CYS
502
A
ARG
503
n
68
ARG
503
A
PHE
504
n
69
PHE
504
A
PHE
505
n
70
PHE
505
A
VAL
506
n
71
VAL
506
A
CYS
507
n
72
CYS
507
A
LYS
508
n
73
LYS
508
A
CYS
509
n
74
CYS
509
A
VAL
510
n
75
VAL
510
A
GLU
511
n
76
GLU
511
A
ARG
512
n
77
ARG
512
A
ARG
513
n
78
ARG
513
A
ALA
514
n
79
ALA
514
A
GLU
515
n
80
GLU
515
A
VAL
516
n
81
VAL
516
A
THR
517
n
82
THR
517
A
SER
518
n
83
SER
518
A
ASN
519
n
84
ASN
519
A
ASN
520
n
85
ASN
520
A
GLU
521
n
86
GLU
521
A
VAL
522
n
87
VAL
522
A
VAL
523
n
88
VAL
523
A
VAL
524
n
89
VAL
524
A
LYS
525
n
90
LYS
525
A
GLU
526
n
91
GLU
526
A
GLU
527
n
92
GLU
527
A
TYR
528
n
93
TYR
528
A
LYS
529
n
94
LYS
529
A
ASP
530
n
95
ASP
530
A
GLU
531
n
96
GLU
531
A
TYR
532
n
97
TYR
532
A
ALA
533
n
98
ALA
533
A
ASP
534
n
99
ASP
534
A
ILE
535
n
100
ILE
535
A
PRO
536
n
101
PRO
536
A
GLU
537
n
102
GLU
537
A
HIS
538
n
103
HIS
538
A
LYS
539
n
104
LYS
539
A
PRO
540
n
105
PRO
540
A
THR
541
n
106
THR
541
A
TYR
542
n
107
TYR
542
A
ASP
543
n
108
ASP
543
A
LYS
544
n
109
LYS
544
A
MET
545
n
110
MET
545
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
VAL
497
A
N
VAL
62
A
O
PHE
504
A
O
PHE
69
1
A
A
OD2
HZ1
ASP
LYS
467
473
1.55
1
A
A
OE2
HZ1
GLU
LYS
495
508
1.55
2
A
A
HG23
H
ILE
ALA
454
476
1.20
2
A
A
HD22
HE1
ASN
PHE
499
504
1.31
2
A
A
HB
H
VAL
GLU
437
438
1.32
2
A
A
OD1
HZ1
ASP
LYS
486
489
1.58
2
A
A
OE1
HZ3
GLU
LYS
495
508
1.58
2
A
A
H
OD1
CYS
ASP
443
483
1.59
3
A
A
HB3
H
LEU
ASN
463
464
1.25
3
A
A
OD1
HZ1
ASP
LYS
493
508
1.56
3
A
A
OE1
HZ2
GLU
LYS
495
508
1.56
3
A
A
HZ3
OE1
LYS
GLU
525
527
1.56
3
A
A
HZ1
O
LYS
MET
544
545
1.58
3
A
A
O
H
GLU
VAL
495
506
1.58
3
A
A
HH21
OE1
ARG
GLU
456
457
1.58
4
A
A
HD22
HE1
ASN
PHE
499
504
1.35
4
A
A
OD2
HZ3
ASP
LYS
468
473
1.53
4
A
A
OE1
HZ1
GLU
LYS
436
459
1.57
4
A
A
OE2
HZ1
GLU
LYS
495
508
1.58
5
A
A
HG12
H
ILE
GLU
454
455
1.28
5
A
A
HZ3
OXT
LYS
MET
544
545
1.56
5
A
A
OD1
HZ3
ASP
LYS
486
489
1.57
5
A
A
OD1
HZ1
ASP
LYS
493
508
1.59
5
A
A
OE2
HZ3
GLU
LYS
469
473
1.60
6
A
A
OE2
HZ1
GLU
LYS
495
508
1.55
6
A
A
OE2
HZ1
GLU
LYS
457
459
1.55
6
A
A
HZ1
OXT
LYS
MET
539
545
1.57
6
A
A
HZ2
OD2
LYS
ASP
539
543
1.58
6
A
A
HZ2
OD1
LYS
ASP
462
465
1.59
6
A
A
OE1
HH22
GLU
ARG
436
503
1.60
7
A
A
HZ1
OE1
LYS
GLU
452
455
1.60
7
A
A
OD1
HZ1
ASP
LYS
486
489
1.60
8
A
A
HB3
H
ASP
GLU
448
449
1.24
8
A
A
HB2
HB2
PRO
LEU
442
445
1.29
8
A
A
HG13
H
ILE
LYS
450
452
1.33
8
A
A
HZ2
OE1
LYS
GLU
525
527
1.60
9
A
A
OD1
HZ2
ASP
LYS
467
472
1.55
9
A
A
HZ3
OE1
LYS
GLU
452
457
1.55
9
A
A
HZ1
OD1
LYS
ASP
462
465
1.56
10
A
A
HA
HE2
ILE
PHE
454
480
1.24
10
A
A
OE2
HZ1
GLU
LYS
469
472
1.56
10
A
A
OE1
HZ2
GLU
LYS
495
508
1.57
10
A
A
OE2
HZ3
GLU
LYS
526
529
1.59
11
A
A
OD1
HZ1
ASP
LYS
486
489
1.57
12
A
A
HB3
H
ASN
ASP
466
467
1.32
12
A
A
OD1
HZ2
ASP
LYS
486
489
1.54
12
A
A
OE1
HZ1
GLU
LYS
495
544
1.57
12
A
A
OE2
HZ3
GLU
LYS
455
473
1.58
13
A
A
OE2
HZ3
GLU
LYS
457
462
1.54
13
A
A
OD1
HZ1
ASP
LYS
486
489
1.55
13
A
A
OE2
HZ3
GLU
LYS
495
508
1.57
13
A
A
HZ2
OD2
LYS
ASP
447
486
1.59
13
A
A
H
O
VAL
PHE
497
504
1.60
14
A
A
HG3
HD2
GLU
ARG
455
478
1.27
14
A
A
OE2
HZ3
GLU
LYS
495
508
1.57
14
A
A
OE2
HH12
GLU
ARG
436
503
1.60
14
A
A
O
H
GLU
VAL
495
506
1.60
15
A
A
HG
OD2
SER
ASP
444
484
1.58
15
A
A
OD1
HZ2
ASP
LYS
486
489
1.59
15
A
A
O
H
GLU
VAL
495
506
1.60
16
A
A
OE2
HZ2
GLU
LYS
515
529
1.57
16
A
A
HZ2
OD2
LYS
ASP
447
486
1.58
16
A
A
HG
OD2
SER
ASP
444
484
1.59
16
A
A
OD1
HZ3
ASP
LYS
486
489
1.59
16
A
A
HZ3
O
LYS
MET
472
545
1.60
17
A
A
HZ3
OD2
LYS
ASP
447
486
1.58
18
A
A
HB3
HA
SER
PHE
482
504
1.23
18
A
A
HZ1
OE1
LYS
GLU
525
527
1.60
19
A
A
OE2
HZ1
GLU
LYS
455
485
1.53
19
A
A
O
H
GLU
VAL
495
506
1.56
20
A
A
HZ3
OE1
LYS
GLU
525
527
1.56
20
A
A
HG
OD2
SER
ASP
444
484
1.59
20
A
A
OE1
HZ2
GLU
LYS
455
473
1.59
1
A
ARG
456
-82.47
-108.25
1
A
GLU
457
-81.48
-140.61
1
A
LYS
459
-84.22
-120.75
1
A
ASP
465
72.72
-48.84
1
A
ASP
467
-167.61
-32.99
1
A
ASN
471
-130.25
-77.12
1
A
CYS
490
-165.33
112.42
1
A
PRO
491
-85.31
30.90
1
A
ASP
493
71.23
122.35
1
A
ASN
499
55.82
-92.51
1
A
THR
501
-156.45
-13.45
1
A
LYS
508
-155.07
16.58
1
A
ARG
512
-150.53
-76.16
1
A
ASN
519
-169.60
108.30
1
A
ASN
520
-109.00
-64.25
1
A
GLU
521
-145.73
48.86
1
A
ALA
533
-84.84
49.14
1
A
LYS
539
69.25
160.96
1
A
PRO
540
-91.13
-132.92
1
A
TYR
542
-59.90
98.85
1
A
ASP
543
-97.24
-141.73
1
A
LYS
544
73.11
-65.22
2
A
VAL
437
-142.29
-111.08
2
A
ASN
439
-82.62
42.36
2
A
CYS
443
-90.83
-68.95
2
A
GLU
453
-85.61
-73.37
2
A
ILE
454
171.11
-149.43
2
A
ASP
465
62.30
-139.38
2
A
ASN
466
-138.78
-158.03
2
A
ILE
481
-130.22
-39.96
2
A
CYS
490
-163.76
113.25
2
A
PRO
491
-84.78
33.24
2
A
ASP
493
68.17
155.20
2
A
PRO
494
-100.15
68.65
2
A
ASN
499
64.10
-91.72
2
A
LYS
508
-143.54
15.31
2
A
GLU
511
-144.63
-140.41
2
A
ASP
530
-133.79
-34.10
2
A
HIS
538
-149.83
-65.89
2
A
LYS
539
72.24
133.20
2
A
THR
541
-164.30
-154.52
2
A
LYS
544
-108.89
79.76
3
A
ASN
439
-168.05
-70.81
3
A
CYS
443
-93.27
-73.62
3
A
ASP
448
-178.95
-162.45
3
A
GLU
455
-90.54
-94.12
3
A
GLU
457
-49.29
102.14
3
A
LEU
463
-140.54
-129.76
3
A
ASN
466
177.00
-40.90
3
A
ASP
467
32.50
68.03
3
A
ASN
471
-177.42
-55.92
3
A
LYS
472
-173.14
141.92
3
A
LYS
489
47.45
24.72
3
A
CYS
490
-161.65
118.08
3
A
PRO
491
-84.32
36.71
3
A
ASP
493
66.60
136.15
3
A
ASN
499
57.69
-95.75
3
A
THR
501
-146.21
-9.26
3
A
LYS
508
-151.62
47.25
3
A
SER
518
-111.97
52.21
3
A
ASP
530
-140.32
-44.97
3
A
ALA
533
-104.77
63.01
3
A
PRO
536
-74.02
47.84
4
A
ASP
448
-158.26
-150.93
4
A
GLU
455
-87.47
-112.28
4
A
LYS
459
-78.18
37.57
4
A
LYS
462
-163.69
-48.92
4
A
ASN
464
-168.59
-157.74
4
A
ASP
465
67.48
93.40
4
A
ASN
466
-104.85
-93.39
4
A
PRO
491
-87.92
33.25
4
A
ASP
493
67.87
152.96
4
A
PRO
494
-99.75
51.44
4
A
ASN
499
63.92
-87.99
4
A
SER
500
-120.63
-60.05
4
A
THR
501
-141.30
-1.34
4
A
CYS
509
-90.53
53.25
4
A
GLU
511
-147.99
-39.32
4
A
ARG
512
-83.07
43.38
4
A
ARG
513
179.99
78.62
4
A
ASP
530
-143.50
-75.08
4
A
ALA
533
-149.39
-94.77
4
A
ASP
534
-124.04
-161.91
4
A
HIS
538
-153.36
-39.88
4
A
LYS
539
-167.81
70.01
4
A
THR
541
52.34
176.69
5
A
CYS
443
-78.38
-72.99
5
A
ILE
454
-128.49
-160.49
5
A
GLU
455
-48.23
156.88
5
A
LYS
459
-63.08
96.49
5
A
ARG
460
-163.66
-106.84
5
A
ASP
467
-80.43
-75.43
5
A
ASN
471
-158.50
-88.93
5
A
LYS
489
54.56
17.03
5
A
PRO
491
-90.42
35.98
5
A
ASP
493
70.41
137.25
5
A
ASN
499
57.91
-91.12
5
A
LYS
508
-140.18
21.12
5
A
GLU
511
-80.97
-70.83
5
A
ARG
512
-132.43
-87.51
5
A
ARG
513
-120.72
-60.57
5
A
ALA
514
-165.60
48.90
5
A
ALA
533
-83.96
41.53
5
A
ASP
534
-142.77
22.34
5
A
PRO
536
-52.38
-74.29
5
A
GLU
537
-139.13
-79.67
5
A
HIS
538
-148.49
-17.81
5
A
TYR
542
-156.54
77.02
6
A
PRO
442
-37.86
107.51
6
A
GLU
453
70.85
-38.10
6
A
ARG
460
77.04
-14.01
6
A
LYS
462
-156.27
64.55
6
A
ASP
465
67.13
153.80
6
A
ASN
466
178.41
63.47
6
A
PRO
477
-83.03
-81.20
6
A
ILE
481
-92.68
50.94
6
A
CYS
490
-164.40
119.55
6
A
PRO
491
-87.17
37.63
6
A
ASP
493
73.19
137.71
6
A
ASN
499
37.99
-110.25
6
A
THR
501
-161.06
-4.81
6
A
LYS
508
-159.07
50.44
6
A
ARG
512
-67.38
-70.39
6
A
ARG
513
-153.90
81.14
6
A
HIS
538
-167.46
92.59
6
A
TYR
542
-122.25
-66.27
6
A
LYS
544
-91.69
51.39
7
A
GLU
453
69.55
-40.88
7
A
GLU
455
-91.47
-141.77
7
A
ARG
456
-122.14
-115.14
7
A
ARG
460
-171.66
-100.37
7
A
LYS
462
-169.80
-64.40
7
A
ASN
464
-105.75
-68.08
7
A
ASN
466
-157.61
25.57
7
A
ASN
471
-165.00
102.81
7
A
ILE
481
-93.12
57.03
7
A
PRO
491
-88.30
42.60
7
A
CYS
492
-88.61
-143.33
7
A
ASN
499
-89.69
-132.88
7
A
THR
501
-156.19
-8.12
7
A
LYS
508
-142.47
33.81
7
A
CYS
509
-96.35
-148.96
7
A
GLU
511
-134.22
-114.68
7
A
SER
518
-149.11
57.11
7
A
ASN
519
-104.06
68.88
7
A
LYS
529
-64.45
91.45
7
A
GLU
531
-59.78
108.60
7
A
TYR
532
-150.26
48.33
7
A
ALA
533
-117.29
-74.98
7
A
GLU
537
-69.15
71.95
7
A
THR
541
-145.97
-38.74
7
A
TYR
542
71.50
-29.01
8
A
ASN
439
-148.00
-80.00
8
A
ASP
448
-161.74
-115.75
8
A
GLU
453
-80.66
38.37
8
A
GLU
455
-60.36
-88.72
8
A
ASP
465
-82.93
-98.51
8
A
ASP
467
-100.99
-73.48
8
A
ASP
468
-154.91
63.68
8
A
GLU
469
-73.34
-120.96
8
A
LYS
472
-100.10
69.40
8
A
LYS
489
57.15
17.36
8
A
PRO
491
-91.65
46.22
8
A
CYS
492
-87.67
-146.71
8
A
ASN
499
-63.32
-88.47
8
A
THR
501
-157.69
-1.87
8
A
LYS
508
-158.99
49.76
8
A
CYS
509
-89.13
-75.49
8
A
ARG
512
-101.97
-156.38
8
A
LYS
525
-151.27
58.44
8
A
ALA
533
-86.70
49.04
8
A
TYR
542
83.53
140.12
8
A
ASP
543
68.70
-155.32
8
A
LYS
544
-143.97
-77.64
9
A
VAL
437
-142.83
42.45
9
A
ASN
439
-156.96
-103.26
9
A
ASP
448
-123.71
-150.45
9
A
GLU
453
70.85
-47.73
9
A
ARG
460
63.11
-81.60
9
A
LYS
462
-149.80
56.36
9
A
ASP
467
-101.84
57.09
9
A
ASP
468
-63.18
-73.68
9
A
ILE
481
-92.81
-61.33
9
A
CYS
490
-161.89
113.59
9
A
PRO
491
-85.13
35.12
9
A
ASP
493
68.80
142.66
9
A
PRO
494
-95.40
57.33
9
A
VAL
497
-104.14
57.56
9
A
SER
500
-121.54
-92.71
9
A
GLU
511
-75.10
-77.29
9
A
ARG
512
-155.70
-41.48
9
A
ASN
519
-105.38
54.86
9
A
ASP
530
-135.22
-72.95
9
A
PRO
540
-56.86
106.09
9
A
TYR
542
61.75
61.49
9
A
LYS
544
70.51
-85.60
10
A
ASP
448
71.21
-57.05
10
A
GLU
449
-69.78
89.62
10
A
GLU
453
66.92
-54.57
10
A
ILE
454
174.28
41.28
10
A
SER
458
-65.55
5.14
10
A
ARG
460
77.26
80.51
10
A
LYS
462
-160.96
98.23
10
A
ASP
465
-82.31
44.59
10
A
ASN
466
-174.75
-141.86
10
A
CYS
490
-168.07
116.25
10
A
PRO
491
-84.83
30.02
10
A
ASP
493
45.69
77.04
10
A
ASN
499
-89.66
-119.50
10
A
THR
501
-151.09
-2.54
10
A
LYS
508
-160.75
49.06
10
A
CYS
509
-97.43
-145.48
10
A
GLU
511
-140.34
-46.69
10
A
THR
517
-84.90
-157.68
10
A
ASN
519
-75.34
-109.41
10
A
ASP
530
-145.46
-42.18
10
A
ALA
533
-96.55
35.59
10
A
THR
541
179.10
-59.09
10
A
TYR
542
173.35
-89.03
10
A
ASP
543
-168.06
-140.66
10
A
LYS
544
63.94
61.93
11
A
ASN
439
-171.97
138.31
11
A
ASP
448
179.07
-146.18
11
A
GLU
453
175.16
-58.13
11
A
ILE
454
170.64
75.88
11
A
ARG
460
72.05
-155.89
11
A
LYS
462
-160.25
-71.21
11
A
ARG
478
-69.28
87.95
11
A
CYS
490
-169.29
114.39
11
A
PRO
491
-91.41
43.76
11
A
PRO
494
-88.15
49.40
11
A
ASN
499
-76.00
-89.77
11
A
LYS
508
-170.32
38.96
11
A
CYS
509
-97.00
-123.78
11
A
GLU
511
-169.60
-126.73
11
A
ASP
530
-125.25
-51.98
11
A
ALA
533
-97.77
56.31
11
A
PRO
536
-66.73
76.28
11
A
GLU
537
-84.83
-158.52
11
A
THR
541
68.02
-59.13
12
A
ASN
439
-170.84
-42.82
12
A
CYS
443
-86.96
-71.84
12
A
GLU
455
-63.38
-71.77
12
A
ARG
456
-121.16
-126.32
12
A
LEU
463
-140.04
-94.93
12
A
ASN
466
68.80
-124.60
12
A
ASP
467
-157.33
-70.69
12
A
ASP
468
-140.14
-130.64
12
A
PRO
477
-92.41
50.57
12
A
PRO
491
-90.59
48.39
12
A
CYS
492
-87.18
34.72
12
A
ASP
493
23.37
60.36
12
A
PRO
494
-90.93
-63.01
12
A
ASN
499
-60.49
-87.25
12
A
THR
501
-148.42
-10.72
12
A
LYS
508
-164.76
29.81
12
A
ALA
514
-159.94
48.63
12
A
THR
517
-68.45
86.71
12
A
SER
518
-106.79
69.59
12
A
GLU
521
-102.66
-109.14
12
A
LYS
525
-159.35
-54.73
12
A
HIS
538
-165.96
26.95
12
A
ASP
543
65.37
-165.34
13
A
ASN
440
-90.28
-145.21
13
A
GLU
453
72.50
-52.34
13
A
ILE
454
173.91
163.66
13
A
ARG
456
-83.93
-106.39
13
A
GLU
457
-91.48
-150.50
13
A
ARG
460
-173.42
-88.35
13
A
LYS
462
-164.59
-38.42
13
A
LEU
463
-73.26
-90.15
13
A
ASN
464
-158.53
-60.04
13
A
ASP
465
62.68
-150.40
13
A
GLU
469
-116.52
-165.34
13
A
ASN
471
-164.68
-19.50
13
A
PRO
477
-75.30
-84.57
13
A
PRO
491
-88.21
41.00
13
A
CYS
492
-87.88
-146.04
13
A
ASP
493
-48.02
152.88
13
A
ASN
499
-89.91
-132.27
13
A
THR
501
-142.27
-12.41
13
A
LYS
508
-142.75
19.88
13
A
GLU
511
-91.52
-128.31
13
A
THR
517
-59.55
108.14
13
A
LYS
525
-165.25
-59.82
13
A
GLU
537
-81.05
49.68
13
A
TYR
542
72.75
-49.50
13
A
LYS
544
81.60
-175.89
14
A
ASN
440
-82.73
-151.17
14
A
ASP
448
-156.54
-137.69
14
A
ILE
454
-160.08
38.97
14
A
ARG
460
75.16
-43.55
14
A
ASN
464
-91.52
-98.22
14
A
ASP
465
57.03
-151.99
14
A
ASN
466
-115.38
-106.49
14
A
ASN
471
-105.92
-67.86
14
A
PRO
477
-56.86
107.66
14
A
ARG
478
-68.26
90.16
14
A
CYS
490
-164.27
117.51
14
A
PRO
491
-86.38
36.13
14
A
ASP
493
67.02
138.37
14
A
ASN
499
55.63
-103.26
14
A
SER
500
-97.21
-64.18
14
A
THR
501
-145.65
-3.75
14
A
LYS
508
-165.55
51.87
14
A
ARG
512
-89.17
43.24
14
A
ALA
514
-167.40
72.41
14
A
ASN
519
-85.21
32.94
14
A
ASN
520
-125.56
-75.29
14
A
LYS
525
-76.44
-70.93
14
A
GLU
526
-141.19
-100.21
14
A
ASP
530
-135.44
-41.24
14
A
ALA
533
-108.10
-83.10
14
A
LYS
539
-141.08
-54.11
14
A
THR
541
-86.21
34.42
14
A
TYR
542
70.49
131.49
14
A
ASP
543
60.65
-149.85
15
A
ASN
439
-171.32
-56.06
15
A
CYS
443
-90.41
-69.73
15
A
ASP
448
-160.08
-162.38
15
A
ARG
456
-120.26
-142.37
15
A
ASN
464
-76.42
-70.54
15
A
ASN
466
-159.47
13.27
15
A
ASP
468
-150.12
-70.27
15
A
LYS
489
56.62
18.44
15
A
CYS
490
-161.07
119.62
15
A
PRO
491
-87.08
35.40
15
A
ASP
493
52.75
84.79
15
A
PRO
494
-64.72
93.25
15
A
ASN
499
-111.73
-132.61
15
A
THR
501
-151.66
-3.16
15
A
LYS
508
-148.74
28.30
15
A
CYS
509
-89.62
44.51
15
A
ARG
513
-171.26
-64.58
15
A
SER
518
-160.04
43.86
15
A
ASN
520
-106.98
-60.36
15
A
LYS
525
-150.93
79.31
15
A
GLU
526
-106.62
75.26
15
A
TYR
532
-91.76
33.13
15
A
HIS
538
-162.61
29.46
15
A
THR
541
-77.39
35.29
15
A
TYR
542
73.64
-38.00
16
A
PRO
442
-62.48
91.33
16
A
ASP
448
-160.55
-162.67
16
A
GLU
457
-76.01
49.70
16
A
LYS
462
-171.53
-113.73
16
A
LEU
463
179.70
155.90
16
A
ASP
467
-158.98
-23.50
16
A
GLU
469
-157.59
-45.16
16
A
ASN
471
179.49
164.83
16
A
CYS
490
-160.33
116.41
16
A
PRO
491
-85.46
36.86
16
A
ASP
493
69.06
155.77
16
A
ASN
499
33.93
-106.43
16
A
THR
501
-154.51
-6.63
16
A
LYS
508
-141.58
16.17
16
A
CYS
509
-122.40
-157.51
16
A
ARG
512
-84.95
-102.58
16
A
ARG
513
-166.14
75.57
16
A
GLU
521
-176.33
-42.05
16
A
LYS
525
-160.56
-83.30
16
A
LYS
529
-65.43
99.81
16
A
ASP
530
-147.32
-91.30
16
A
TYR
532
-151.06
35.04
16
A
ALA
533
-172.73
-77.68
16
A
GLU
537
-111.33
53.72
16
A
THR
541
55.39
-156.27
16
A
LYS
544
76.28
-73.74
17
A
ASP
448
-165.16
-151.19
17
A
GLU
453
68.42
-34.48
17
A
LYS
459
-77.74
-86.29
17
A
ARG
460
169.12
-36.54
17
A
ASP
465
179.71
153.93
17
A
ASN
466
66.56
99.35
17
A
ASP
467
-67.59
-100.67
17
A
LYS
472
-84.35
36.96
17
A
CYS
490
-174.46
121.34
17
A
PRO
491
-84.92
33.47
17
A
ASP
493
66.76
130.53
17
A
ASN
499
-81.38
-128.81
17
A
THR
501
-151.35
-1.55
17
A
LYS
508
-166.59
37.30
17
A
ARG
512
179.74
-51.43
17
A
ARG
513
-165.27
-34.86
17
A
SER
518
-97.18
32.71
17
A
GLU
521
-170.98
144.68
17
A
GLU
526
-91.79
59.61
17
A
PRO
536
-66.83
81.49
17
A
GLU
537
-132.99
-32.80
17
A
HIS
538
-83.22
34.04
17
A
LYS
539
-155.11
-55.38
17
A
PRO
540
-79.17
-148.26
18
A
ASN
439
-154.67
-102.67
18
A
ASN
440
-163.12
100.43
18
A
ASP
448
-162.10
-147.44
18
A
GLU
453
41.65
71.16
18
A
GLU
455
-83.90
-131.88
18
A
LYS
462
-179.35
67.96
18
A
LEU
463
-159.02
-109.86
18
A
PRO
477
-57.55
98.37
18
A
CYS
490
-163.26
113.21
18
A
PRO
491
-81.33
30.94
18
A
ASP
493
71.45
154.25
18
A
PRO
494
-100.35
65.69
18
A
ASN
499
54.44
-99.39
18
A
THR
501
-149.59
-10.14
18
A
LYS
508
-150.84
20.61
18
A
GLU
511
-173.33
-140.51
18
A
ARG
513
-175.58
-53.99
18
A
ASN
520
-94.63
-67.24
18
A
PRO
536
-68.31
73.18
18
A
GLU
537
-144.60
-52.06
18
A
TYR
542
-88.51
47.03
18
A
ASP
543
74.12
-41.67
18
A
LYS
544
68.00
93.49
19
A
ASN
439
-167.73
-53.15
19
A
ASP
448
-168.79
-133.80
19
A
GLU
453
69.50
-38.72
19
A
ARG
456
-98.88
-149.47
19
A
GLU
457
-73.66
40.85
19
A
PRO
477
-69.67
71.41
19
A
LYS
489
58.91
16.23
19
A
CYS
490
-169.54
117.01
19
A
PRO
491
-92.89
51.55
19
A
SER
500
-121.55
-90.20
19
A
LYS
508
-144.11
40.77
19
A
GLU
511
-120.34
-83.32
19
A
ALA
514
-169.74
-36.35
19
A
SER
518
179.72
167.91
19
A
GLU
526
-165.70
76.17
19
A
PRO
540
-75.03
-152.23
19
A
TYR
542
75.18
153.18
19
A
ASP
543
71.98
-73.28
19
A
LYS
544
62.56
-175.51
20
A
ASN
439
-93.53
40.38
20
A
GLU
453
57.89
71.65
20
A
ARG
456
-119.03
-136.75
20
A
LEU
463
-142.33
-34.13
20
A
ASP
467
71.41
-178.72
20
A
LYS
472
-172.59
-41.43
20
A
PRO
477
-89.14
37.23
20
A
LYS
489
70.67
-24.57
20
A
PRO
491
-86.87
36.64
20
A
ASP
493
70.11
123.91
20
A
VAL
497
-104.17
63.25
20
A
SER
500
-120.52
-81.78
20
A
GLU
511
-156.21
-86.62
20
A
GLU
521
-148.12
49.10
20
A
ASP
530
72.86
-58.56
20
A
TYR
532
-150.49
23.46
20
A
ALA
533
-153.28
-18.61
20
A
PRO
536
-76.86
40.48
20
A
HIS
538
-171.15
109.91
20
A
LYS
539
59.84
78.16
20
A
ASP
543
54.96
-146.32
SOLUTION STRUCTURE OF PLASMODIUM FALCIPARUM APICAL MEMBRANE ANTIGEN 1 (RESIDUES 436-545)
1
N
N
A
PRO
442
A
PRO
7
HELX_P
A
ASP
448
A
ASP
13
1
1
7
disulf
2.035
A
CYS
443
A
SG
CYS
8
1_555
A
CYS
502
A
SG
CYS
67
1_555
disulf
2.033
A
CYS
490
A
SG
CYS
55
1_555
A
CYS
507
A
SG
CYS
72
1_555
disulf
2.028
A
CYS
492
A
SG
CYS
57
1_555
A
CYS
509
A
SG
CYS
74
1_555
MEMBRANE PROTEIN
disulphide connectivities, MEMBRANE PROTEIN
Q94661_PLAFA
UNP
1
436
Q94661
EVENNFPCSLYKDEIMKEIERESKRIKLNDNDDEGNKKIIAPRIFISDDKDSLKCPCDPEMVSNSTCRFFVCKCVERRAE
VTSNNEVVVKEEYKDEYADIPEHKPTYDKM
436
545
1HN6
436
545
Q94661
A
1
1
110
2
anti-parallel
A
GLU
495
A
GLU
60
A
VAL
497
A
VAL
62
A
PHE
504
A
PHE
69
A
VAL
506
A
VAL
71