1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Rozek, A.
Sparrow, J.T.
Weisgraber, K.H.
Cushley, R.J.
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
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
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
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
Biochemistry
BICHAW
0033
0006-2960
38
14475
14484
10.1021/bi982966h
10545169
Conformation of human apolipoprotein C-I in a lipid-mimetic environment determined by CD and NMR spectroscopy.
1999
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
-1.00000
0.00000
0.00000
6642.585
APOC-I
1
syn
polymer
no
no
TPDVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLKIDS
TPDVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLKIDS
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
entity
entity_src_gen
pdbx_database_status
pdbx_entity_src_syn
pdbx_nmr_exptl
pdbx_nmr_exptl_sample
pdbx_nmr_refine
pdbx_nmr_sample_details
pdbx_nmr_software
pdbx_nmr_spectrometer
pdbx_struct_assembly
pdbx_struct_assembly_prop
pdbx_struct_oper_list
repository
Initial release
Version format compliance
Version format compliance
Data collection
Derived calculations
Experimental preparation
Other
Refinement description
Source and taxonomy
Structure summary
1
0
1998-08-12
1
1
2008-03-04
1
2
2011-07-13
1
3
2018-03-14
_entity.src_method
_pdbx_database_status.process_site
_pdbx_nmr_refine.details
_pdbx_nmr_spectrometer.field_strength
Y
BNL
1998-05-12
REL
REL
9606
human
Homo sapiens
sample
USING WATERGATE FOR WATER SUPPRESSION, 2D-TOCSY USING MLEV-17 FOR MIXING, 3D-TOCSY USING DIPSY-2RC FOR MIXING. 15N-FILTERED NOESY AND TOCSY INCLUDE DIFFERENCE (SHOWING ONLY 15N LABELED RESIDUES) AND SUM SPECTRA (SHOWING ONLY UNLABELED RESIDUES).
SELECTED STRUCTURES HAVE NO HELIX-HELIX CONTACTS <5 ANGSTROMS
50
18
2D-NOESY
2D-TOCSY
DQF-COSY
2D-15N-FILTERED NOESY
2D-15N-FILTERED TOCSY
2D 1H-15N HSQC
3D-NOESY-HSQC
3D-TOCSY-HSQC
2D-NOESY
5.8
mM
natural abundance
5
mM
[U-15N]
232
mM
natural abundance
200
mM
natural abundance
4.8
323
K
THE STRUCTURE OF APOC-I(1-38) IN THE PRESENCE OF SODIUM DODECYL SULFATE WAS REFINED USING 685 NOE-BASED DISTANCE RESTRAINTS. NO DIHEDRAL RESTRAINTS AND NO H-BOND RESTRAINTS WERE USED. THIS ENTRY CONTAINS 18 ACCEPTED OUT OF 50 CALCULATED STRUCTURES. STRUCTURE CALCULATIONS WERE PERFORMED WITH THE PROGRAMS DGII AND DISCOVER INCLUDING DISTANCE GEOMETRY CALCULATIONS, SIMULATED ANNEALING AND ENERGY MINIMIZATION WITH A CONJUGATED GRADIENT. THE CVFF FORCEFIELD WAS USED. ALL FORMAL CHARGES WERE SWITCHED OFF. THE DIELECTRIC CONSTANT WAS SET TO 1. THE LENNARD-JONES POTENTIAL WAS USED FOR NON-BOND INTERACTIONS (CUTOFF 12A). FOR DETAILS ON STRUCTURE CALCULATION, RMSDS AND FINAL ENERGIES PLEASE SEE REFERENCE CITED UNDER "JRNL".
DISTANCE GEOMETRY AND SIMULATED ANNEALING
15
5.8 mM native apoC-I, 90%H2O/10%D2O, 232 mM SDS-D25
native apoC-I was isolated from blood plasma
sample_1
90% H2O/10% D2O
solution
5 mM selectively 15N-labeled synthetic apoC-I, 90%H2O/10%D2O, 200 mM SDS-D25
sample_2
90% H2O/10% D2O
solution
MOLECULAR SIMULATIONS INC, SAN DIEGO
refinement
DGII, DISCOVER
DISCOVER
MOLECULAR SIMULATIONS INC, SAN DIEGO
structure solution
DGII AND DISCOVER
DISCOVER
600
Bruker
AMX 600
THR
1
n
1
THR
1
A
PRO
2
n
2
PRO
2
A
ASP
3
n
3
ASP
3
A
VAL
4
n
4
VAL
4
A
SER
5
n
5
SER
5
A
SER
6
n
6
SER
6
A
ALA
7
n
7
ALA
7
A
LEU
8
n
8
LEU
8
A
ASP
9
n
9
ASP
9
A
LYS
10
n
10
LYS
10
A
LEU
11
n
11
LEU
11
A
LYS
12
n
12
LYS
12
A
GLU
13
n
13
GLU
13
A
PHE
14
n
14
PHE
14
A
GLY
15
n
15
GLY
15
A
ASN
16
n
16
ASN
16
A
THR
17
n
17
THR
17
A
LEU
18
n
18
LEU
18
A
GLU
19
n
19
GLU
19
A
ASP
20
n
20
ASP
20
A
LYS
21
n
21
LYS
21
A
ALA
22
n
22
ALA
22
A
ARG
23
n
23
ARG
23
A
GLU
24
n
24
GLU
24
A
LEU
25
n
25
LEU
25
A
ILE
26
n
26
ILE
26
A
SER
27
n
27
SER
27
A
ARG
28
n
28
ARG
28
A
ILE
29
n
29
ILE
29
A
LYS
30
n
30
LYS
30
A
GLN
31
n
31
GLN
31
A
SER
32
n
32
SER
32
A
GLU
33
n
33
GLU
33
A
LEU
34
n
34
LEU
34
A
SER
35
n
35
SER
35
A
ALA
36
n
36
ALA
36
A
LYS
37
n
37
LYS
37
A
MET
38
n
38
MET
38
A
ARG
39
n
39
ARG
39
A
GLU
40
n
40
GLU
40
A
TRP
41
n
41
TRP
41
A
PHE
42
n
42
PHE
42
A
SER
43
n
43
SER
43
A
GLU
44
n
44
GLU
44
A
THR
45
n
45
THR
45
A
PHE
46
n
46
PHE
46
A
GLN
47
n
47
GLN
47
A
LYS
48
n
48
LYS
48
A
VAL
49
n
49
VAL
49
A
LYS
50
n
50
LYS
50
A
GLU
51
n
51
GLU
51
A
LYS
52
n
52
LYS
52
A
LEU
53
n
53
LEU
53
A
LYS
54
n
54
LYS
54
A
ILE
55
n
55
ILE
55
A
ASP
56
n
56
ASP
56
A
SER
57
n
57
SER
57
A
author_defined_assembly
1
monomeric
0
0
5620
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
1_555
identity operation
0.0000000000
0.0000000000
0.0000000000
2
A
A
LEU
GLU
18
19
137.49
2
A
A
GLU
LEU
33
34
149.05
4
A
A
GLU
LEU
33
34
141.07
5
A
A
GLU
LEU
33
34
144.46
6
A
A
GLY
ASN
15
16
141.49
6
A
A
LEU
SER
34
35
148.72
6
A
A
SER
ALA
35
36
-149.07
7
A
A
GLU
LEU
33
34
149.44
11
A
A
GLU
LEU
33
34
142.74
12
A
A
SER
ALA
35
36
147.59
13
A
A
GLU
LEU
33
34
146.65
13
A
A
SER
ALA
35
36
-144.54
17
A
A
GLU
LEU
33
34
143.35
17
A
A
SER
ALA
35
36
138.60
18
A
A
LEU
SER
34
35
-127.19
1
3.66
0.50
120.30
123.96
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
1
3.84
0.50
120.30
124.14
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
1
3.76
0.50
120.30
124.06
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
2
3.73
0.50
120.30
124.03
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
2
3.76
0.50
120.30
124.06
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
2
-11.53
1.80
110.60
99.07
A
A
A
N
CA
CB
MET
MET
MET
38
38
38
N
2
3.95
0.50
120.30
124.25
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
3
3.76
0.50
120.30
124.06
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
3
3.84
0.50
120.30
124.14
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
3
11.08
1.80
110.60
121.68
A
A
A
N
CA
CB
GLU
GLU
GLU
33
33
33
N
3
3.68
0.50
120.30
123.98
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
4
3.71
0.50
120.30
124.01
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
4
3.69
0.50
120.30
123.99
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
4
-12.16
1.80
110.60
98.44
A
A
A
N
CA
CB
MET
MET
MET
38
38
38
N
4
3.75
0.50
120.30
124.05
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
5
3.84
0.50
120.30
124.14
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
5
3.69
0.50
120.30
123.99
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
5
3.76
0.50
120.30
124.06
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
6
3.94
0.50
120.30
124.24
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
6
3.71
0.50
120.30
124.01
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
6
3.75
0.50
120.30
124.05
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
7
3.76
0.50
120.30
124.06
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
7
3.71
0.50
120.30
124.01
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
7
3.88
0.50
120.30
124.18
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
8
3.78
0.50
120.30
124.08
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
8
3.87
0.50
120.30
124.17
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
8
3.50
0.50
120.30
123.80
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
9
3.70
0.50
120.30
124.00
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
9
3.75
0.50
120.30
124.05
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
9
4.00
0.50
120.30
124.30
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
10
3.72
0.50
120.30
124.02
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
10
3.94
0.50
120.30
124.24
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
10
3.72
0.50
120.30
124.02
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
11
11.56
1.90
111.40
122.96
A
A
A
CB
CA
C
VAL
VAL
VAL
4
4
4
N
11
3.66
0.50
120.30
123.96
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
11
3.73
0.50
120.30
124.03
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
11
3.75
0.50
120.30
124.05
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
12
3.99
0.50
120.30
124.29
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
12
3.84
0.50
120.30
124.14
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
12
3.61
0.50
120.30
123.91
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
13
3.73
0.50
120.30
124.03
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
13
4.01
0.50
120.30
124.31
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
13
11.00
1.40
110.10
121.10
A
A
A
N
CA
CB
ALA
ALA
ALA
36
36
36
N
13
4.06
0.50
120.30
124.36
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
14
3.76
0.50
120.30
124.06
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
14
3.91
0.50
120.30
124.21
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
14
3.62
0.50
120.30
123.92
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
14
11.00
1.80
110.60
121.60
A
A
A
N
CA
CB
GLU
GLU
GLU
40
40
40
N
15
3.63
0.50
120.30
123.93
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
15
3.82
0.50
120.30
124.12
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
15
3.78
0.50
120.30
124.08
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
16
3.71
0.50
120.30
124.01
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
16
3.76
0.50
120.30
124.06
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
16
3.92
0.50
120.30
124.22
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
17
3.70
0.50
120.30
124.00
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
17
3.77
0.50
120.30
124.07
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
17
3.84
0.50
120.30
124.14
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
18
3.74
0.50
120.30
124.04
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
23
23
23
N
18
3.82
0.50
120.30
124.12
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
28
28
28
N
18
15.59
1.90
110.20
125.79
A
A
A
CB
CA
C
LEU
LEU
LEU
34
34
34
N
18
3.95
0.50
120.30
124.25
A
A
A
NE
CZ
NH1
ARG
ARG
ARG
39
39
39
N
1
A
SER
5
-152.38
73.21
1
A
ALA
7
-121.58
-66.32
1
A
GLU
24
169.28
-62.76
1
A
ARG
28
141.66
-53.52
1
A
ILE
29
-76.36
-81.65
1
A
SER
32
-117.90
-97.41
1
A
SER
35
-87.03
-110.03
1
A
ALA
36
70.23
-68.92
1
A
GLU
44
175.10
-63.73
1
A
LEU
53
-103.17
-128.48
1
A
LYS
54
59.10
-113.97
1
A
ILE
55
-92.18
-67.91
1
A
ASP
56
-140.65
-87.18
2
A
VAL
4
-128.94
-121.72
2
A
ALA
7
-130.80
-56.67
2
A
LYS
12
70.37
-76.00
2
A
LEU
18
-98.72
46.10
2
A
GLU
19
-117.51
52.18
2
A
ASP
20
-171.27
-55.63
2
A
ARG
23
-122.33
-60.35
2
A
ILE
29
-100.72
-70.44
2
A
LEU
53
-100.29
-68.64
2
A
ILE
55
65.33
89.18
3
A
VAL
4
-100.56
-148.00
3
A
SER
6
-172.90
-70.41
3
A
ALA
7
76.62
-33.45
3
A
ILE
29
-68.05
-82.55
3
A
GLN
31
54.14
74.18
3
A
SER
32
71.95
153.54
3
A
GLU
33
127.44
-42.01
3
A
SER
35
-79.97
-110.49
3
A
ALA
36
71.18
-66.48
3
A
MET
38
-68.95
0.61
3
A
ARG
39
-122.57
-63.37
3
A
GLU
44
171.52
-69.46
3
A
PHE
46
-91.37
-64.00
3
A
LYS
54
55.92
-173.17
3
A
ILE
55
-113.74
-79.17
3
A
ASP
56
-87.83
-80.07
4
A
ASP
3
177.22
146.70
4
A
VAL
4
-114.94
-129.93
4
A
ALA
7
-137.92
-44.39
4
A
LYS
12
68.75
-76.44
4
A
ILE
29
-78.49
-93.63
4
A
LYS
30
56.35
2.87
4
A
GLN
31
-161.23
-8.02
4
A
GLU
33
69.06
-9.07
4
A
SER
35
-161.02
105.57
4
A
LYS
54
91.25
96.98
5
A
ASP
3
71.25
-92.84
5
A
VAL
4
-131.73
-60.92
5
A
ALA
7
-101.81
-61.93
5
A
LEU
18
-80.64
32.60
5
A
GLU
19
-91.43
-66.02
5
A
GLU
33
72.54
-23.78
5
A
SER
35
-76.29
-112.13
5
A
ALA
36
66.31
-64.60
5
A
ARG
39
-135.07
-71.01
5
A
GLN
47
114.31
-54.05
5
A
LYS
52
-106.69
62.94
5
A
LYS
54
-115.67
-80.49
5
A
ASP
56
-151.23
-88.64
6
A
ASP
3
61.91
-96.60
6
A
VAL
4
-136.59
-131.12
6
A
SER
6
61.57
60.43
6
A
LEU
18
78.96
-29.46
6
A
GLU
19
-91.14
-74.29
6
A
GLU
24
171.83
-60.21
6
A
ILE
29
-73.49
-85.96
6
A
SER
32
80.22
136.62
6
A
GLU
33
-74.41
24.01
6
A
SER
35
-67.06
-160.03
6
A
ALA
36
64.37
-53.16
6
A
ASP
56
-142.61
-92.73
7
A
LEU
25
-93.38
45.77
7
A
ILE
26
-123.62
-54.46
7
A
ARG
28
148.82
-63.61
7
A
ILE
29
-74.22
-84.07
7
A
GLU
33
69.30
-38.40
7
A
SER
35
-94.19
-126.30
7
A
ALA
36
62.31
-49.41
7
A
GLU
40
151.04
-68.10
7
A
GLU
44
174.02
-64.46
7
A
GLN
47
126.72
-50.73
8
A
VAL
4
-84.29
-76.78
8
A
ILE
29
-81.22
-93.62
8
A
LYS
30
56.46
-10.48
8
A
GLN
31
-147.82
-88.33
8
A
SER
32
-163.48
82.91
8
A
GLU
33
34.65
32.02
8
A
GLU
40
103.26
-61.61
8
A
GLN
47
156.67
-61.30
8
A
LEU
53
85.09
-83.45
8
A
LYS
54
75.93
148.16
8
A
ASP
56
-73.53
-81.19
9
A
ASP
3
56.89
95.34
9
A
VAL
4
-82.64
-83.56
9
A
ASN
16
-81.76
-152.34
9
A
THR
17
67.75
-87.20
9
A
ILE
29
-71.77
-78.76
9
A
SER
32
-137.73
-93.73
9
A
SER
35
-84.26
-103.63
9
A
ALA
36
74.78
-68.75
9
A
GLU
44
161.01
-68.51
9
A
GLN
47
157.30
-59.35
9
A
ILE
55
73.87
99.69
9
A
ASP
56
-73.17
-70.95
10
A
VAL
4
-138.27
-113.29
10
A
SER
6
-157.98
-62.83
10
A
LEU
11
-135.53
-68.11
10
A
PHE
14
-156.80
-52.55
10
A
ILE
29
-72.73
-87.59
10
A
LYS
30
52.31
15.21
10
A
GLN
31
-149.81
-40.92
10
A
GLU
33
78.33
-21.01
10
A
SER
35
-86.59
-108.23
10
A
ALA
36
68.88
-67.52
10
A
GLN
47
161.34
-59.67
10
A
LEU
53
-146.58
-36.12
10
A
LYS
54
79.65
-79.52
10
A
ILE
55
-133.86
-65.07
10
A
ASP
56
-106.76
-90.64
11
A
VAL
4
-107.29
-99.41
11
A
ILE
29
-68.31
-79.70
11
A
LYS
30
59.20
72.54
11
A
GLN
31
76.37
-26.43
11
A
GLU
33
68.27
-30.23
11
A
SER
35
-83.34
-125.19
11
A
ALA
36
66.47
-65.73
11
A
GLU
40
159.05
-66.53
11
A
LEU
53
-140.05
-42.10
11
A
ILE
55
80.26
118.38
11
A
ASP
56
76.29
-86.81
12
A
ASP
3
72.62
-93.69
12
A
VAL
4
-135.88
-146.61
12
A
SER
6
67.12
68.71
12
A
ALA
7
-150.46
-59.78
12
A
PHE
14
-156.35
-57.11
12
A
ILE
29
-71.29
-74.90
12
A
GLU
33
78.93
-26.22
12
A
GLU
44
164.37
-71.40
12
A
PHE
46
-92.10
-62.91
12
A
LYS
54
-137.44
-67.10
13
A
VAL
4
-134.42
-48.72
13
A
ALA
7
-91.18
-62.40
13
A
ILE
29
-73.09
-73.91
13
A
LYS
30
61.33
62.59
13
A
ALA
36
112.46
-47.62
13
A
ARG
39
-138.82
-56.73
13
A
PHE
46
-148.00
-65.19
13
A
LYS
52
-114.18
54.31
13
A
ASP
56
-115.15
-93.37
14
A
VAL
4
-117.89
-79.01
14
A
ALA
7
-136.46
-74.29
14
A
LEU
8
-100.52
55.38
14
A
ASP
9
-106.13
53.15
14
A
LEU
11
34.46
58.40
14
A
ARG
28
153.82
-63.48
14
A
ILE
29
-69.34
-84.84
14
A
LYS
30
56.27
11.59
14
A
GLN
31
-150.96
-44.91
14
A
GLU
33
76.97
-18.17
14
A
SER
35
-85.20
-120.28
14
A
ALA
36
63.70
-47.42
14
A
GLU
40
126.68
-62.63
14
A
LEU
53
98.39
-65.82
14
A
LYS
54
72.75
112.91
14
A
ASP
56
-76.35
-76.09
15
A
ILE
29
-76.63
-77.55
15
A
GLU
33
82.20
-39.87
15
A
SER
35
-81.95
-112.39
15
A
ALA
36
67.05
-67.33
15
A
LYS
54
-155.61
-61.77
15
A
ASP
56
-96.79
-83.74
16
A
ALA
7
83.73
-45.08
16
A
LEU
8
-150.38
-68.31
16
A
LYS
12
-119.33
58.55
16
A
GLU
13
-177.43
-56.44
16
A
LYS
30
-69.64
1.66
16
A
GLN
47
158.25
-59.83
16
A
LYS
52
-91.82
-67.69
16
A
ASP
56
-78.96
-75.20
17
A
ASP
3
-73.06
-76.41
17
A
VAL
4
-148.64
-72.52
17
A
ALA
7
-91.10
-60.45
17
A
ARG
28
-167.15
-41.83
17
A
GLU
33
69.69
-19.22
17
A
ARG
39
-136.04
-53.88
17
A
LYS
54
69.75
95.29
17
A
ASP
56
-141.38
-93.61
18
A
SER
5
69.36
-11.16
18
A
SER
6
-161.42
57.47
18
A
ALA
7
-171.27
-68.89
18
A
PHE
14
-157.23
-53.18
18
A
SER
35
-4.86
121.71
18
A
LEU
53
89.40
-53.52
18
A
LYS
54
75.17
84.66
18
A
ILE
55
71.61
96.10
APOC-I
HUMAN APOLIPOPROTEIN C-I, NMR, 18 STRUCTURES
1
Y
N
A
LEU
8
A
LEU
8
HELX_P
A
LEU
11
A
LEU
11
1
1
4
A
PHE
14
A
PHE
14
HELX_P
A
ILE
29
A
ILE
29
1
2
16
A
LYS
37
A
LYS
37
HELX_P
A
LYS
50
A
LYS
50
1
3
14
APOLIPOPROTEIN
APOLIPOPROTEIN, AMPHIPATHIC HELIX, LIPID ASSOCIATION, LCAT ACTIVATION
APOC1_HUMAN
UNP
1
1
P02654
MRLFLSLPVLVVVLSIVLEGPAPAQGTPDVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLK
IDS
27
83
1IOJ
1
57
P02654
A
1
1
57
1
P 1