1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Marassi, F.M.
Opella, S.J.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
C3 H7 N O2
89.093
y
ALANINE
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
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
Protein Sci.
PRCIEI
0795
0961-8368
12
403
411
10.1110/ps.0211503
12592011
Simultaneous assignment and structure determination of a membrane protein from NMR orientational restraints
2003
NE
J.Biomol.NMR
JBNME9
0800
0925-2738
23
239
242
10.1023/A:1019887612018
Using Pisa pies to resolve ambiguities in angular constraints from PISEMA spectra of aligned proteins
2002
10.2210/pdb1mzt/pdb
pdb_00001mzt
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
5244.000
major coat protein pVIII
1
nat
polymer
Filamentous phage cloning vector fd-tet
no
no
AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS
AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS
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
Inovirus
sample
10864
Enterobacteria phage fd
Enterobacteria phage M13
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
2002-11-27
1
1
2008-04-28
1
2
2011-07-13
1
3
2022-02-23
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_nmr_software.name
Fd Major Coat Protein In SDS Micelles, NMR, 20 Structures
SEQUENCE
AUTHOR PROVIDED COORDINATES FOR THE PROTEIN BACKBONE ONLY.
RCSB
Y
RCSB
2002-10-09
REL
The structure was determined from one uniformly and four selectively 15N-labeled samples.
structures with the lowest energy
6
1
1H/15N PISEMA
0
7
ambient
296
K
Structure calculated from 40 chemical shift and 40 dipolar coupling restraints
Calculation of bond orientations and dihedral angles from solid-state NMR restraints, followed by back-calculation of NMR data from oriented structure
1
lowest energy
8 mg 15N-labeled fd coat protein, 64 mg POPC, 16 mg POPG, lipid bilayers oriented on glass slides
Lipid bilayers hydrated in water
Chemagnetics
collection
CMXW
95
Biosym
data analysis
Felix
95
Marassi, Opella
structure solution
BACKTOR
2
Marassi, Opella
refinement
BACKTOR
2
400
Chemagnetics
CMX
n
1
1
A
n
2
2
A
n
3
3
A
n
4
4
A
n
5
5
A
n
6
6
A
ALA
7
n
7
ALA
7
A
LYS
8
n
8
LYS
8
A
ALA
9
n
9
ALA
9
A
ALA
10
n
10
ALA
10
A
PHE
11
n
11
PHE
11
A
ASP
12
n
12
ASP
12
A
SER
13
n
13
SER
13
A
LEU
14
n
14
LEU
14
A
GLN
15
n
15
GLN
15
A
ALA
16
n
16
ALA
16
A
SER
17
n
17
SER
17
A
ALA
18
n
18
ALA
18
A
THR
19
n
19
THR
19
A
GLU
20
n
20
GLU
20
A
TYR
21
n
21
TYR
21
A
ILE
22
n
22
ILE
22
A
GLY
23
n
23
GLY
23
A
TYR
24
n
24
TYR
24
A
ALA
25
n
25
ALA
25
A
TRP
26
n
26
TRP
26
A
ALA
27
n
27
ALA
27
A
MET
28
n
28
MET
28
A
VAL
29
n
29
VAL
29
A
VAL
30
n
30
VAL
30
A
VAL
31
n
31
VAL
31
A
ILE
32
n
32
ILE
32
A
VAL
33
n
33
VAL
33
A
GLY
34
n
34
GLY
34
A
ALA
35
n
35
ALA
35
A
THR
36
n
36
THR
36
A
ILE
37
n
37
ILE
37
A
GLY
38
n
38
GLY
38
A
ILE
39
n
39
ILE
39
A
LYS
40
n
40
LYS
40
A
LEU
41
n
41
LEU
41
A
PHE
42
n
42
PHE
42
A
LYS
43
n
43
LYS
43
A
LYS
44
n
44
LYS
44
A
PHE
45
n
45
PHE
45
A
n
46
46
A
n
47
47
A
n
48
48
A
n
49
49
A
n
50
50
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
CB
ALA
7
A
CB
ALA
7
1
Y
1
A
CB
LYS
8
A
CB
LYS
8
1
Y
1
A
CG
LYS
8
A
CG
LYS
8
1
Y
1
A
CD
LYS
8
A
CD
LYS
8
1
Y
1
A
CE
LYS
8
A
CE
LYS
8
1
Y
1
A
NZ
LYS
8
A
NZ
LYS
8
1
Y
1
A
CB
ALA
9
A
CB
ALA
9
1
Y
1
A
CB
ALA
10
A
CB
ALA
10
1
Y
1
A
CB
PHE
11
A
CB
PHE
11
1
Y
1
A
CG
PHE
11
A
CG
PHE
11
1
Y
1
A
CD1
PHE
11
A
CD1
PHE
11
1
Y
1
A
CD2
PHE
11
A
CD2
PHE
11
1
Y
1
A
CE1
PHE
11
A
CE1
PHE
11
1
Y
1
A
CE2
PHE
11
A
CE2
PHE
11
1
Y
1
A
CZ
PHE
11
A
CZ
PHE
11
1
Y
1
A
CB
ASP
12
A
CB
ASP
12
1
Y
1
A
CG
ASP
12
A
CG
ASP
12
1
Y
1
A
OD1
ASP
12
A
OD1
ASP
12
1
Y
1
A
OD2
ASP
12
A
OD2
ASP
12
1
Y
1
A
CB
SER
13
A
CB
SER
13
1
Y
1
A
OG
SER
13
A
OG
SER
13
1
Y
1
A
CB
LEU
14
A
CB
LEU
14
1
Y
1
A
CG
LEU
14
A
CG
LEU
14
1
Y
1
A
CD1
LEU
14
A
CD1
LEU
14
1
Y
1
A
CD2
LEU
14
A
CD2
LEU
14
1
Y
1
A
CB
GLN
15
A
CB
GLN
15
1
Y
1
A
CG
GLN
15
A
CG
GLN
15
1
Y
1
A
CD
GLN
15
A
CD
GLN
15
1
Y
1
A
OE1
GLN
15
A
OE1
GLN
15
1
Y
1
A
NE2
GLN
15
A
NE2
GLN
15
1
Y
1
A
CB
ALA
16
A
CB
ALA
16
1
Y
1
A
CB
SER
17
A
CB
SER
17
1
Y
1
A
OG
SER
17
A
OG
SER
17
1
Y
1
A
CB
ALA
18
A
CB
ALA
18
1
Y
1
A
CB
THR
19
A
CB
THR
19
1
Y
1
A
OG1
THR
19
A
OG1
THR
19
1
Y
1
A
CG2
THR
19
A
CG2
THR
19
1
Y
1
A
CB
GLU
20
A
CB
GLU
20
1
Y
1
A
CG
GLU
20
A
CG
GLU
20
1
Y
1
A
CD
GLU
20
A
CD
GLU
20
1
Y
1
A
OE1
GLU
20
A
OE1
GLU
20
1
Y
1
A
OE2
GLU
20
A
OE2
GLU
20
1
Y
1
A
CB
TYR
21
A
CB
TYR
21
1
Y
1
A
CG
TYR
21
A
CG
TYR
21
1
Y
1
A
CD1
TYR
21
A
CD1
TYR
21
1
Y
1
A
CD2
TYR
21
A
CD2
TYR
21
1
Y
1
A
CE1
TYR
21
A
CE1
TYR
21
1
Y
1
A
CE2
TYR
21
A
CE2
TYR
21
1
Y
1
A
CZ
TYR
21
A
CZ
TYR
21
1
Y
1
A
OH
TYR
21
A
OH
TYR
21
1
Y
1
A
CB
ILE
22
A
CB
ILE
22
1
Y
1
A
CG1
ILE
22
A
CG1
ILE
22
1
Y
1
A
CG2
ILE
22
A
CG2
ILE
22
1
Y
1
A
CD1
ILE
22
A
CD1
ILE
22
1
Y
1
A
CB
TYR
24
A
CB
TYR
24
1
Y
1
A
CG
TYR
24
A
CG
TYR
24
1
Y
1
A
CD1
TYR
24
A
CD1
TYR
24
1
Y
1
A
CD2
TYR
24
A
CD2
TYR
24
1
Y
1
A
CE1
TYR
24
A
CE1
TYR
24
1
Y
1
A
CE2
TYR
24
A
CE2
TYR
24
1
Y
1
A
CZ
TYR
24
A
CZ
TYR
24
1
Y
1
A
OH
TYR
24
A
OH
TYR
24
1
Y
1
A
CB
ALA
25
A
CB
ALA
25
1
Y
1
A
CB
TRP
26
A
CB
TRP
26
1
Y
1
A
CG
TRP
26
A
CG
TRP
26
1
Y
1
A
CD1
TRP
26
A
CD1
TRP
26
1
Y
1
A
CD2
TRP
26
A
CD2
TRP
26
1
Y
1
A
NE1
TRP
26
A
NE1
TRP
26
1
Y
1
A
CE2
TRP
26
A
CE2
TRP
26
1
Y
1
A
CE3
TRP
26
A
CE3
TRP
26
1
Y
1
A
CZ2
TRP
26
A
CZ2
TRP
26
1
Y
1
A
CZ3
TRP
26
A
CZ3
TRP
26
1
Y
1
A
CH2
TRP
26
A
CH2
TRP
26
1
Y
1
A
CB
ALA
27
A
CB
ALA
27
1
Y
1
A
CB
MET
28
A
CB
MET
28
1
Y
1
A
CG
MET
28
A
CG
MET
28
1
Y
1
A
SD
MET
28
A
SD
MET
28
1
Y
1
A
CE
MET
28
A
CE
MET
28
1
Y
1
A
CB
VAL
29
A
CB
VAL
29
1
Y
1
A
CG1
VAL
29
A
CG1
VAL
29
1
Y
1
A
CG2
VAL
29
A
CG2
VAL
29
1
Y
1
A
CB
VAL
30
A
CB
VAL
30
1
Y
1
A
CG1
VAL
30
A
CG1
VAL
30
1
Y
1
A
CG2
VAL
30
A
CG2
VAL
30
1
Y
1
A
CB
VAL
31
A
CB
VAL
31
1
Y
1
A
CG1
VAL
31
A
CG1
VAL
31
1
Y
1
A
CG2
VAL
31
A
CG2
VAL
31
1
Y
1
A
CB
ILE
32
A
CB
ILE
32
1
Y
1
A
CG1
ILE
32
A
CG1
ILE
32
1
Y
1
A
CG2
ILE
32
A
CG2
ILE
32
1
Y
1
A
CD1
ILE
32
A
CD1
ILE
32
1
Y
1
A
CB
VAL
33
A
CB
VAL
33
1
Y
1
A
CG1
VAL
33
A
CG1
VAL
33
1
Y
1
A
CG2
VAL
33
A
CG2
VAL
33
1
Y
1
A
CB
ALA
35
A
CB
ALA
35
1
Y
1
A
CB
THR
36
A
CB
THR
36
1
Y
1
A
OG1
THR
36
A
OG1
THR
36
1
Y
1
A
CG2
THR
36
A
CG2
THR
36
1
Y
1
A
CB
ILE
37
A
CB
ILE
37
1
Y
1
A
CG1
ILE
37
A
CG1
ILE
37
1
Y
1
A
CG2
ILE
37
A
CG2
ILE
37
1
Y
1
A
CD1
ILE
37
A
CD1
ILE
37
1
Y
1
A
CB
ILE
39
A
CB
ILE
39
1
Y
1
A
CG1
ILE
39
A
CG1
ILE
39
1
Y
1
A
CG2
ILE
39
A
CG2
ILE
39
1
Y
1
A
CD1
ILE
39
A
CD1
ILE
39
1
Y
1
A
CB
LYS
40
A
CB
LYS
40
1
Y
1
A
CG
LYS
40
A
CG
LYS
40
1
Y
1
A
CD
LYS
40
A
CD
LYS
40
1
Y
1
A
CE
LYS
40
A
CE
LYS
40
1
Y
1
A
NZ
LYS
40
A
NZ
LYS
40
1
Y
1
A
CB
LEU
41
A
CB
LEU
41
1
Y
1
A
CG
LEU
41
A
CG
LEU
41
1
Y
1
A
CD1
LEU
41
A
CD1
LEU
41
1
Y
1
A
CD2
LEU
41
A
CD2
LEU
41
1
Y
1
A
CB
PHE
42
A
CB
PHE
42
1
Y
1
A
CG
PHE
42
A
CG
PHE
42
1
Y
1
A
CD1
PHE
42
A
CD1
PHE
42
1
Y
1
A
CD2
PHE
42
A
CD2
PHE
42
1
Y
1
A
CE1
PHE
42
A
CE1
PHE
42
1
Y
1
A
CE2
PHE
42
A
CE2
PHE
42
1
Y
1
A
CZ
PHE
42
A
CZ
PHE
42
1
Y
1
A
CB
LYS
43
A
CB
LYS
43
1
Y
1
A
CG
LYS
43
A
CG
LYS
43
1
Y
1
A
CD
LYS
43
A
CD
LYS
43
1
Y
1
A
CE
LYS
43
A
CE
LYS
43
1
Y
1
A
NZ
LYS
43
A
NZ
LYS
43
1
Y
1
A
CB
LYS
44
A
CB
LYS
44
1
Y
1
A
CG
LYS
44
A
CG
LYS
44
1
Y
1
A
CD
LYS
44
A
CD
LYS
44
1
Y
1
A
CE
LYS
44
A
CE
LYS
44
1
Y
1
A
NZ
LYS
44
A
NZ
LYS
44
1
Y
1
A
CB
PHE
45
A
CB
PHE
45
1
Y
1
A
CG
PHE
45
A
CG
PHE
45
1
Y
1
A
CD1
PHE
45
A
CD1
PHE
45
1
Y
1
A
CD2
PHE
45
A
CD2
PHE
45
1
Y
1
A
CE1
PHE
45
A
CE1
PHE
45
1
Y
1
A
CE2
PHE
45
A
CE2
PHE
45
1
Y
1
A
CZ
PHE
45
A
CZ
PHE
45
1
Y
1
A
ALA
1
A
ALA
1
1
Y
1
A
GLU
2
A
GLU
2
1
Y
1
A
GLY
3
A
GLY
3
1
Y
1
A
ASP
4
A
ASP
4
1
Y
1
A
ASP
5
A
ASP
5
1
Y
1
A
PRO
6
A
PRO
6
1
Y
1
A
THR
46
A
THR
46
1
Y
1
A
SER
47
A
SER
47
1
Y
1
A
LYS
48
A
LYS
48
1
Y
1
A
ALA
49
A
ALA
49
1
Y
1
A
SER
50
A
SER
50
1
Y
1
A
A
O
H
VAL
ILE
33
37
1.43
1
A
A
O
H
ALA
VAL
25
29
1.48
1
A
A
O
H
GLY
GLY
34
38
1.49
1
A
A
O
H
VAL
GLY
30
34
1.50
1
A
A
O
CA
SER
TYR
17
24
2.01
1
A
A
O
N
THR
LEU
36
41
2.12
1
A
A
O
CA
ILE
LEU
37
41
2.13
1
A
THR
19
-93.08
-81.76
1
A
GLU
20
-37.20
132.45
NMR structure of the fd bacteriophage pVIII coat protein in lipid bilayer membranes
1
N
N
A
ALA
7
A
ALA
7
HELX_P
A
THR
19
A
THR
19
1
1
13
A
GLU
20
A
GLU
20
HELX_P
A
PHE
45
A
PHE
45
1
2
26
VIRAL PROTEIN
fd coat protein, membrane-bound, pVIII, Viral protein
COATB_BPFD
UNP
1
24
P69539
AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS
24
73
1MZT
1
50
P69539
A
1
1
50