0.029511
0.000000
0.000000
0.000000
0.026802
0.000000
0.000000
0.000000
0.009606
0.00000
0.00000
0.00000
Yadav, M.K.
Leman, L.J.
Stout, C.D.
Ghadiri, M.R.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
16
90.00
90.00
90.00
33.886
37.311
104.105
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 H10 N3 O2 1
156.162
y
HISTIDINE
L-peptide linking
H2 O
18.015
WATER
non-polymer
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
C3 H7 N O3
105.093
y
SERINE
L-peptide linking
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C9 H9 N O3
179.173
PARA ACETAMIDO BENZOIC ACID
non-polymer
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
Biochemistry
BICHAW
0033
0006-2960
45
4463
10.1021/BI060092Q
16584182
Coiled Coils at the Edge of Configurational Heterogeneity. Structural Analyses of Parallel and Antiparallel Homotetrameric Coiled Coils Reveal Configurational Sensitivity to a Single Solvent-Exposed Amino Acid Substitution.
2006
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
93.0
1
2003-01-09
NI FILTER
SINGLE WAVELENGTH
M
x-ray
1
1.5418
1.0
1.5418
ROTATING ANODE
RIGAKU RU200
4269.016
GENERAL CONTROL PROTEIN GCN4
YES
4
syn
polymer
18.015
water
93
nat
water
AMINO ACID BIOSYNTHESIS REGULATORY PROTEIN, KHHC33
no
yes
(TYZ)RMRQIEDRLEEILSKLHHICNELARIRRLLGER
XRMRQIEDRLEEILSKLHHICNELARIRRLLGER
A,B,C,D
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
3
2
38.9
STRUCTURE WAS ORIGINALLY SOLVED BETWEEN SIRAS PHASING BETWEEN 2SEMET PEPTIDE AND IT'S DERIVATIVE SOAKED WITH 50MM KAUCN2
VAPOR DIFFUSION, HANGING DROP
5.00
HANGING DROP, 1UL OF 10MG/ML PEPTIDE IN WATER, 1UL 100MM CAPS, 30% PEG 400, PH 10.5, 1UL OF 50MM TCEP IN WATER
software
database_PDB_rev
database_PDB_rev_record
exptl_crystal_grow
struct_conn
repository
Initial release
Version format compliance
Version format compliance
Refinement description
Data collection
Derived calculations
Experimental preparation
1
0
2004-09-24
1
1
2011-05-08
1
2
2011-07-13
1
3
2017-06-28
1
4
2019-05-08
_software.name
_exptl_crystal_grow.method
_struct_conn.pdbx_leaving_atom_flag
HELIX CAPPING IN THE GCN4 LEUCINE ZIPPER
GCN4 LEUCINE ZIPPER COMPLEXED WITH SPECIFIC ATF/CREB SITE DEOXYRIBONUCLEIC ACID
ATOMIC STRUCTURE OF THE ECTODOMAIN FROM HIV -1 GP41
THE STRUCTURE OF AN HIV-1 SPECIFIC CELL ENTRY INHIBITOR INCOMPLEX WITH THE HIV-1 GP41 TRIMERIC CORE
GCN4 LEUCINE ZIPPER CORE MUTANT P-LI
GCN4 LEUCINE ZIPPER CORE MUTANT P-LI
HUMAN VIMENTIN COIL 2B FRAGMENT LINKED TO GCN4 LEUCINE ZIPPER (Z2B)
CRYSTAL STRUCTURE OF C14LINKMID/IQN17: A CROSS-LINKED INHIBITOR OF HIV-1 ENTRY BOUND TO THE GP41 HYDROPHOBIC POCKET
GLYTM1BZIP: A CHIMERIC PEPTIDE MODEL OF THE N-TERMINUS OF ARAT SHORT ALPHA TROPOMYOSIN WITH THE N-TERMINUS ENCODED BYEXON 1B
COILED COIL TRIMER GCN4-PVLS SER AT BURIED D POSITION
GCN4-PVLT COILED-COIL TRIMER WITH THREONINE AT THE D(12)POSITION
GCN4-PVTL COILED-COIL TRIMER WITH THREONINE AT THE A(16)POSITION
GCN4-PVSL COILED-COIL TRIMER WITH SERINE AT THE A(16)POSITION
CRYSTAL STRUCTURE OF THE C-TERMINAL REGION OF STRIATEDMUSCLE ALPHA-TROPOMYOSIN AT 2.7 ANGSTROM RESOLUTION
PLACEMENT OF THE STRUCTURAL PROTEINS IN SINDBIS VIRUS
CRYSTAL STRUCTURE OF A ZIF23-GCN4 CHIMERA BOUND TO DNA
VISUALIZING AN UNSTABLE COILED COIL: THE CRYSTAL STRUCTUREOF AN N-TERMINAL SEGMENT OF THE SCALLOP MYOSIN ROD
CRYSTAL STRUCTURE OF GCN4-PIQ, A TRIMERIC COILED COIL WITH BURIED POLAR RESIDUES
GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL AUTOMATICSOLUTION
ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT ASN16A TETRAGONAL AUTOMATIC SOLUTION
ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT ASN16A TRIGONAL FORM
ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT ASN16A TETRAGONAL FORM
GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A COMPLEXED WITH BENZENE
TMZIP: A CHIMERIC PEPTIDE MODEL OF THE N- TERMINUS OF ALPHA TROPOMYOSIN, NMR, 15 STRUCTURES
CRYSTAL STRUCTURE OF B562RIL, A REDESIGNED FOUR HELIX BUNDLE
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES
AN ANTI-PARALLEL FOUR HELIX BUNDLE MUTANT PLI-E20C
GCN4 (BASIC REGION, LEUCINE ZIPPER) COMPLEX WITH AP-1 DEOXYRIBONUCLEIC ACID
GCN4-LEUCINE ZIPPER CORE MUTANT ASN16ABA IN THE DIMERIC STATE
GCN4-LEUCINE ZIPPER CORE MUTANT ASN16ABA IN THE TRIMERIC STATE
GCN4-LEUCINE ZIPPER CORE MUTANT ASN16LYS IN THE DIMERIC STATE
GCN4-LEUCINE ZIPPER CORE MUTANT ASN16GLN IN THE DIMERIC STATE
GCN4-LEUCINE ZIPPER CORE MUTANT ASN16GLN IN THE TRIMERIC STATE
LEUCINE ZIPPER MONOMER (NMR, 20 STRUCTURES)
GCN4 BASIC DOMAIN, LEUCINE ZIPPER COMPLEXED WITH ATF/CREB SITE DEOXYRIBONUCLEIC ACID
GCN4 LEUCINE ZIPPER
AN ANTI-PARALLEL FOUR HELIX BUNDLE.
AN ANTI-PARALLEL FOUR HELIX BUNDLE.
ABA DOES NOT AFFECT TOPOLOGY OF PLI.
AN ANTI-PARALLEL FOUR HELIX BUNDLE
AN ANTI-PARALLEL TO PARALLEL SWITCH.
PDBE
Y
PDBE
2004-08-07
REL
HOH
water
4932
BAKER'S YEAST
SACCHAROMYCES CEREVISIAE
sample
ENGINEERED MUTATION IN CHAINS A, B, C, D: ARG 251 TO LYS
ENGINEERED MUTATION IN CHAINS A, B, C, D: ARG 256 TO LYS
ENGINEERED MUTATION IN CHAINS A, B, C, D: CYS 268 TO GLU
ENGINEERED MUTATION IN CHAINS A, B, C, D: ARG 275 TO LYS
ENGINEERED MUTATION IN CHAINS A, B, C, D: ARG 276 TO LYS
ENGINEERED MUTATION IN CHAINS A, B, C, D: TYR 265 TO HIS
HOH
2001
2
HOH
HOH
2001
A
HOH
2002
2
HOH
HOH
2002
A
HOH
2003
2
HOH
HOH
2003
A
HOH
2004
2
HOH
HOH
2004
A
HOH
2005
2
HOH
HOH
2005
A
HOH
2006
2
HOH
HOH
2006
A
HOH
2007
2
HOH
HOH
2007
A
HOH
2008
2
HOH
HOH
2008
A
HOH
2009
2
HOH
HOH
2009
A
HOH
2010
2
HOH
HOH
2010
A
HOH
2011
2
HOH
HOH
2011
A
HOH
2012
2
HOH
HOH
2012
A
HOH
2013
2
HOH
HOH
2013
A
HOH
2014
2
HOH
HOH
2014
A
HOH
2015
2
HOH
HOH
2015
A
HOH
2016
2
HOH
HOH
2016
A
HOH
2017
2
HOH
HOH
2017
A
HOH
2018
2
HOH
HOH
2018
A
HOH
2019
2
HOH
HOH
2019
A
HOH
2020
2
HOH
HOH
2020
A
HOH
2021
2
HOH
HOH
2021
A
HOH
2022
2
HOH
HOH
2022
A
HOH
2023
2
HOH
HOH
2023
A
HOH
2024
2
HOH
HOH
2024
A
HOH
2025
2
HOH
HOH
2025
A
HOH
2001
2
HOH
HOH
2001
B
HOH
2002
2
HOH
HOH
2002
B
HOH
2003
2
HOH
HOH
2003
B
HOH
2004
2
HOH
HOH
2004
B
HOH
2005
2
HOH
HOH
2005
B
HOH
2006
2
HOH
HOH
2006
B
HOH
2007
2
HOH
HOH
2007
B
HOH
2008
2
HOH
HOH
2008
B
HOH
2009
2
HOH
HOH
2009
B
HOH
2010
2
HOH
HOH
2010
B
HOH
2011
2
HOH
HOH
2011
B
HOH
2012
2
HOH
HOH
2012
B
HOH
2013
2
HOH
HOH
2013
B
HOH
2014
2
HOH
HOH
2014
B
HOH
2015
2
HOH
HOH
2015
B
HOH
2016
2
HOH
HOH
2016
B
HOH
2017
2
HOH
HOH
2017
B
HOH
2018
2
HOH
HOH
2018
B
HOH
2019
2
HOH
HOH
2019
B
HOH
2020
2
HOH
HOH
2020
B
HOH
2021
2
HOH
HOH
2021
B
HOH
2022
2
HOH
HOH
2022
B
HOH
2023
2
HOH
HOH
2023
B
HOH
2024
2
HOH
HOH
2024
B
HOH
2025
2
HOH
HOH
2025
B
HOH
2001
2
HOH
HOH
2001
C
HOH
2002
2
HOH
HOH
2002
C
HOH
2003
2
HOH
HOH
2003
C
HOH
2004
2
HOH
HOH
2004
C
HOH
2005
2
HOH
HOH
2005
C
HOH
2006
2
HOH
HOH
2006
C
HOH
2007
2
HOH
HOH
2007
C
HOH
2008
2
HOH
HOH
2008
C
HOH
2009
2
HOH
HOH
2009
C
HOH
2010
2
HOH
HOH
2010
C
HOH
2011
2
HOH
HOH
2011
C
HOH
2012
2
HOH
HOH
2012
C
HOH
2013
2
HOH
HOH
2013
C
HOH
2014
2
HOH
HOH
2014
C
HOH
2015
2
HOH
HOH
2015
C
HOH
2016
2
HOH
HOH
2016
C
HOH
2001
2
HOH
HOH
2001
D
HOH
2002
2
HOH
HOH
2002
D
HOH
2003
2
HOH
HOH
2003
D
HOH
2004
2
HOH
HOH
2004
D
HOH
2005
2
HOH
HOH
2005
D
HOH
2006
2
HOH
HOH
2006
D
HOH
2007
2
HOH
HOH
2007
D
HOH
2008
2
HOH
HOH
2008
D
HOH
2009
2
HOH
HOH
2009
D
HOH
2010
2
HOH
HOH
2010
D
HOH
2011
2
HOH
HOH
2011
D
HOH
2012
2
HOH
HOH
2012
D
HOH
2013
2
HOH
HOH
2013
D
HOH
2014
2
HOH
HOH
2014
D
HOH
2015
2
HOH
HOH
2015
D
HOH
2016
2
HOH
HOH
2016
D
HOH
2017
2
HOH
HOH
2017
D
HOH
2018
2
HOH
HOH
2018
D
HOH
2019
2
HOH
HOH
2019
D
HOH
2020
2
HOH
HOH
2020
D
HOH
2021
2
HOH
HOH
2021
D
HOH
2022
2
HOH
HOH
2022
D
HOH
2023
2
HOH
HOH
2023
D
HOH
2024
2
HOH
HOH
2024
D
HOH
2025
2
HOH
HOH
2025
D
HOH
2026
2
HOH
HOH
2026
D
HOH
2027
2
HOH
HOH
2027
D
TYZ
1
n
1
TYZ
1
A
ARG
2
n
2
ARG
2
A
MET
3
n
3
MET
3
A
ARG
4
n
4
ARG
4
A
GLN
5
n
5
GLN
5
A
ILE
6
n
6
ILE
6
A
GLU
7
n
7
GLU
7
A
ASP
8
n
8
ASP
8
A
ARG
9
n
9
ARG
9
A
LEU
10
n
10
LEU
10
A
GLU
11
n
11
GLU
11
A
GLU
12
n
12
GLU
12
A
ILE
13
n
13
ILE
13
A
LEU
14
n
14
LEU
14
A
SER
15
n
15
SER
15
A
LYS
16
n
16
LYS
16
A
LEU
17
n
17
LEU
17
A
HIS
18
n
18
HIS
18
A
HIS
19
n
19
HIS
19
A
ILE
20
n
20
ILE
20
A
CYS
21
n
21
CYS
21
A
ASN
22
n
22
ASN
22
A
GLU
23
n
23
GLU
23
A
LEU
24
n
24
LEU
24
A
ALA
25
n
25
ALA
25
A
ARG
26
n
26
ARG
26
A
ILE
27
n
27
ILE
27
A
ARG
28
n
28
ARG
28
A
ARG
29
n
29
ARG
29
A
LEU
30
n
30
LEU
30
A
LEU
31
n
31
LEU
31
A
GLY
32
n
32
GLY
32
A
GLU
33
n
33
GLU
33
A
ARG
34
n
34
ARG
34
A
n
1
0
B
ARG
1
n
2
ARG
1
B
MET
2
n
3
MET
2
B
ARG
3
n
4
ARG
3
B
GLN
4
n
5
GLN
4
B
ILE
5
n
6
ILE
5
B
GLU
6
n
7
GLU
6
B
ASP
7
n
8
ASP
7
B
ARG
8
n
9
ARG
8
B
LEU
9
n
10
LEU
9
B
GLU
10
n
11
GLU
10
B
GLU
11
n
12
GLU
11
B
ILE
12
n
13
ILE
12
B
LEU
13
n
14
LEU
13
B
SER
14
n
15
SER
14
B
LYS
15
n
16
LYS
15
B
LEU
16
n
17
LEU
16
B
HIS
17
n
18
HIS
17
B
HIS
18
n
19
HIS
18
B
ILE
19
n
20
ILE
19
B
CYS
20
n
21
CYS
20
B
ASN
21
n
22
ASN
21
B
GLU
22
n
23
GLU
22
B
LEU
23
n
24
LEU
23
B
ALA
24
n
25
ALA
24
B
ARG
25
n
26
ARG
25
B
ILE
26
n
27
ILE
26
B
ARG
27
n
28
ARG
27
B
ARG
28
n
29
ARG
28
B
LEU
29
n
30
LEU
29
B
LEU
30
n
31
LEU
30
B
GLY
31
n
32
GLY
31
B
GLU
32
n
33
GLU
32
B
ARG
33
n
34
ARG
33
B
n
1
0
C
ARG
1
n
2
ARG
1
C
MET
2
n
3
MET
2
C
ARG
3
n
4
ARG
3
C
GLN
4
n
5
GLN
4
C
ILE
5
n
6
ILE
5
C
GLU
6
n
7
GLU
6
C
ASP
7
n
8
ASP
7
C
ARG
8
n
9
ARG
8
C
LEU
9
n
10
LEU
9
C
GLU
10
n
11
GLU
10
C
GLU
11
n
12
GLU
11
C
ILE
12
n
13
ILE
12
C
LEU
13
n
14
LEU
13
C
SER
14
n
15
SER
14
C
LYS
15
n
16
LYS
15
C
LEU
16
n
17
LEU
16
C
HIS
17
n
18
HIS
17
C
HIS
18
n
19
HIS
18
C
ILE
19
n
20
ILE
19
C
CYS
20
n
21
CYS
20
C
ASN
21
n
22
ASN
21
C
GLU
22
n
23
GLU
22
C
LEU
23
n
24
LEU
23
C
ALA
24
n
25
ALA
24
C
ARG
25
n
26
ARG
25
C
ILE
26
n
27
ILE
26
C
ARG
27
n
28
ARG
27
C
ARG
28
n
29
ARG
28
C
LEU
29
n
30
LEU
29
C
LEU
30
n
31
LEU
30
C
GLY
31
n
32
GLY
31
C
GLU
32
n
33
GLU
32
C
ARG
33
n
34
ARG
33
C
n
1
0
D
ARG
1
n
2
ARG
1
D
MET
2
n
3
MET
2
D
ARG
3
n
4
ARG
3
D
GLN
4
n
5
GLN
4
D
ILE
5
n
6
ILE
5
D
GLU
6
n
7
GLU
6
D
ASP
7
n
8
ASP
7
D
ARG
8
n
9
ARG
8
D
LEU
9
n
10
LEU
9
D
GLU
10
n
11
GLU
10
D
GLU
11
n
12
GLU
11
D
ILE
12
n
13
ILE
12
D
LEU
13
n
14
LEU
13
D
SER
14
n
15
SER
14
D
LYS
15
n
16
LYS
15
D
LEU
16
n
17
LEU
16
D
HIS
17
n
18
HIS
17
D
HIS
18
n
19
HIS
18
D
ILE
19
n
20
ILE
19
D
CYS
20
n
21
CYS
20
D
ASN
21
n
22
ASN
21
D
GLU
22
n
23
GLU
22
D
LEU
23
n
24
LEU
23
D
ALA
24
n
25
ALA
24
D
ARG
25
n
26
ARG
25
D
ILE
26
n
27
ILE
26
D
ARG
27
n
28
ARG
27
D
ARG
28
n
29
ARG
28
D
LEU
29
n
30
LEU
29
D
LEU
30
n
31
LEU
30
D
GLY
31
n
32
GLY
31
D
GLU
32
n
33
GLU
32
D
ARG
33
n
34
ARG
33
D
author_and_software_defined_assembly
PQS
4
tetrameric
author_and_software_defined_assembly
PQS
4
tetrameric
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
-1.0000000000
0.0000000000
0.0000000000
0.0000000000
-1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
2_655
-x+1,-y,z
crystal symmetry operation
33.8860000000
0.0000000000
0.0000000000
1
A
CD
ARG
29
A
CD
ARG
29
1
Y
1
A
NE
ARG
29
A
NE
ARG
29
1
Y
1
A
CZ
ARG
29
A
CZ
ARG
29
1
Y
1
A
NH1
ARG
29
A
NH1
ARG
29
1
Y
1
A
NH2
ARG
29
A
NH2
ARG
29
1
Y
1
B
NE
ARG
1
B
NE
ARG
2
1
Y
1
B
CZ
ARG
1
B
CZ
ARG
2
1
Y
1
B
NH1
ARG
1
B
NH1
ARG
2
1
Y
1
B
NH2
ARG
1
B
NH2
ARG
2
1
Y
1
B
CG
ARG
3
B
CG
ARG
4
1
Y
1
B
CD
ARG
3
B
CD
ARG
4
1
Y
1
B
NE
ARG
3
B
NE
ARG
4
1
Y
1
B
CZ
ARG
3
B
CZ
ARG
4
1
Y
1
B
NH1
ARG
3
B
NH1
ARG
4
1
Y
1
B
NH2
ARG
3
B
NH2
ARG
4
1
Y
1
B
ND1
HIS
18
B
ND1
HIS
19
1
Y
1
B
CD2
HIS
18
B
CD2
HIS
19
1
Y
1
B
CE1
HIS
18
B
CE1
HIS
19
1
Y
1
B
NE2
HIS
18
B
NE2
HIS
19
1
Y
1
B
CD
GLU
22
B
CD
GLU
23
1
Y
1
B
OE1
GLU
22
B
OE1
GLU
23
1
Y
1
B
OE2
GLU
22
B
OE2
GLU
23
1
Y
1
B
CD
GLU
32
B
CD
GLU
33
1
Y
1
B
OE1
GLU
32
B
OE1
GLU
33
1
Y
1
B
OE2
GLU
32
B
OE2
GLU
33
1
Y
1
C
CD
ARG
3
C
CD
ARG
4
1
Y
1
C
NE
ARG
3
C
NE
ARG
4
1
Y
1
C
CZ
ARG
3
C
CZ
ARG
4
1
Y
1
C
NH1
ARG
3
C
NH1
ARG
4
1
Y
1
C
NH2
ARG
3
C
NH2
ARG
4
1
Y
1
C
CG
GLU
11
C
CG
GLU
12
1
Y
1
C
CD
GLU
11
C
CD
GLU
12
1
Y
1
C
OE1
GLU
11
C
OE1
GLU
12
1
Y
1
C
OE2
GLU
11
C
OE2
GLU
12
1
Y
1
C
CE
LYS
15
C
CE
LYS
16
1
Y
1
C
NZ
LYS
15
C
NZ
LYS
16
1
Y
1
C
ND1
HIS
17
C
ND1
HIS
18
1
Y
1
C
CD2
HIS
17
C
CD2
HIS
18
1
Y
1
C
CE1
HIS
17
C
CE1
HIS
18
1
Y
1
C
NE2
HIS
17
C
NE2
HIS
18
1
Y
1
C
CD
ARG
28
C
CD
ARG
29
1
Y
1
C
NE
ARG
28
C
NE
ARG
29
1
Y
1
C
CZ
ARG
28
C
CZ
ARG
29
1
Y
1
C
NH1
ARG
28
C
NH1
ARG
29
1
Y
1
C
NH2
ARG
28
C
NH2
ARG
29
1
Y
1
C
CD1
LEU
29
C
CD1
LEU
30
1
Y
1
C
CD2
LEU
29
C
CD2
LEU
30
1
Y
1
D
CB
ARG
1
D
CB
ARG
2
1
Y
1
D
CG
ARG
1
D
CG
ARG
2
1
Y
1
D
CD
ARG
1
D
CD
ARG
2
1
Y
1
D
NE
ARG
1
D
NE
ARG
2
1
Y
1
D
CZ
ARG
1
D
CZ
ARG
2
1
Y
1
D
NH1
ARG
1
D
NH1
ARG
2
1
Y
1
D
NH2
ARG
1
D
NH2
ARG
2
1
Y
1
D
CG
ARG
3
D
CG
ARG
4
1
Y
1
D
CD
ARG
3
D
CD
ARG
4
1
Y
1
D
NE
ARG
3
D
NE
ARG
4
1
Y
1
D
CZ
ARG
3
D
CZ
ARG
4
1
Y
1
D
NH1
ARG
3
D
NH1
ARG
4
1
Y
1
D
NH2
ARG
3
D
NH2
ARG
4
1
Y
1
D
CD
GLN
4
D
CD
GLN
5
1
Y
1
D
OE1
GLN
4
D
OE1
GLN
5
1
Y
1
D
NE2
GLN
4
D
NE2
GLN
5
1
Y
1
D
CD
ARG
8
D
CD
ARG
9
1
Y
1
D
NE
ARG
8
D
NE
ARG
9
1
Y
1
D
CZ
ARG
8
D
CZ
ARG
9
1
Y
1
D
NH1
ARG
8
D
NH1
ARG
9
1
Y
1
D
NH2
ARG
8
D
NH2
ARG
9
1
Y
1
D
NE
ARG
27
D
NE
ARG
28
1
Y
1
D
CZ
ARG
27
D
CZ
ARG
28
1
Y
1
D
NH1
ARG
27
D
NH1
ARG
28
1
Y
1
D
NH2
ARG
27
D
NH2
ARG
28
1
Y
1
D
CD
GLU
32
D
CD
GLU
33
1
Y
1
D
OE1
GLU
32
D
OE1
GLU
33
1
Y
1
D
OE2
GLU
32
D
OE2
GLU
33
1
Y
1
B
TYZ
0
B
TYZ
1
1
Y
1
C
TYZ
0
C
TYZ
1
1
Y
1
D
TYZ
0
D
TYZ
1
1
Y
1
A
C
O
O
HOH
HOH
2004
2005
2.16
1_555
4_456
23.86
1.48000
0.00000
0.00000
-0.29000
0.00000
-1.19000
0.915
0.868
HYDROGENS HAVE BEEN ADDED IN THE RIDING POSITIONS.
0.307
0.249
0.251
1.92
105.41
501
10007
4.800
98.4
4.294
0.127
RANDOM
1
THROUGHOUT
SIRAS
0.232
0.208
0.80
0.80
1.40
MAXIMUM LIKELIHOOD
BABINET MODEL WITH MASK
1.92
105.41
93
1174
0
0
1081
0.008
0.021
1101
0.006
0.020
1106
1.020
2.005
1460
0.701
3.000
2531
3.096
5.000
132
0.049
0.200
168
0.004
0.020
1201
0.004
0.020
229
0.191
0.200
260
0.242
0.200
1228
0.090
0.200
632
0.152
0.200
33
0.176
0.200
21
0.266
0.200
105
0.249
0.200
16
0.573
1.500
672
0.906
2.000
1071
1.611
3.000
429
2.888
4.500
389
0.2940
0.2790
1.97
28
733
20
1.920
37.310
1W5K
19519
2.000
0.05000
1
9.4000
2.690
98.7
0.25000
1.92
1.99
2.300
1
2.23
96.5
data reduction
CrystalClear
(MSC/RIGAKU)
data scaling
CrystalClear
(MSC/RIGAKU)
phasing
SOLVE/RESOLVE
phasing
ARP/wARP
refinement
REFMAC
5.1.24
GENERAL CONTROL PROTEIN GCN4
AN ANTI-PARALLEL FOUR HELIX BUNDLE
1
N
N
1
N
N
1
N
N
1
N
N
2
N
N
2
N
N
2
N
N
2
N
N
A
ARG
2
A
ARG
2
HELX_P
A
GLU
33
A
GLU
33
1
1
32
B
ARG
1
B
ARG
2
HELX_P
B
GLU
32
B
GLU
33
1
2
32
C
ARG
1
C
ARG
2
HELX_P
C
GLU
32
C
GLU
33
1
3
32
D
ARG
1
D
ARG
2
HELX_P
D
GLU
32
D
GLU
33
1
4
32
covale
1.329
both
A
TYZ
1
A
C7
TYZ
1
1_555
A
ARG
2
A
N
ARG
2
1_555
FOUR HELIX BUNDLE
FOUR HELIX BUNDLE, ANTIPARALLEL FOUR HELIX BUNDLE
1W5K
PDB
1
1W5K
GCN4_YEAST
UNP
1
P03069
1
1
1W5K
1
1
1W5K
A
1
1
1
249
281
1W5K
2
34
P03069
A
2
2
34
0
0
1W5K
0
0
1W5K
B
1
1
1
249
281
1W5K
1
33
P03069
B
2
2
34
0
0
1W5K
0
0
1W5K
C
1
1
1
249
281
1W5K
1
33
P03069
C
2
2
34
0
0
1W5K
0
0
1W5K
D
1
1
1
249
281
1W5K
1
33
P03069
D
2
2
34
1
LYS
engineered mutation
ARG
4
1W5K
A
P03069
UNP
251
4
1
LEU
conflict
ILE
6
1W5K
A
P03069
UNP
253
6
1
LYS
engineered mutation
ARG
9
1W5K
A
P03069
UNP
256
9
1
VAL
conflict
LEU
10
1W5K
A
P03069
UNP
257
10
1
LEU
conflict
ILE
13
1W5K
A
P03069
UNP
260
13
1
ASN
conflict
LEU
17
1W5K
A
P03069
UNP
264
17
1
TYR
engineered mutation
HIS
18
1W5K
A
P03069
UNP
265
18
1
LEU
conflict
ILE
20
1W5K
A
P03069
UNP
267
20
1
GLU
engineered mutation
CYS
21
1W5K
A
P03069
UNP
268
21
1
VAL
conflict
LEU
24
1W5K
A
P03069
UNP
271
24
1
LEU
conflict
ILE
27
1W5K
A
P03069
UNP
274
27
1
LYS
engineered mutation
ARG
28
1W5K
A
P03069
UNP
275
28
1
LYS
engineered mutation
ARG
29
1W5K
A
P03069
UNP
276
29
1
VAL
conflict
LEU
31
1W5K
A
P03069
UNP
278
31
3
LYS
engineered mutation
ARG
3
1W5K
B
P03069
UNP
251
4
3
LEU
conflict
ILE
5
1W5K
B
P03069
UNP
253
6
3
LYS
engineered mutation
ARG
8
1W5K
B
P03069
UNP
256
9
3
VAL
conflict
LEU
9
1W5K
B
P03069
UNP
257
10
3
LEU
conflict
ILE
12
1W5K
B
P03069
UNP
260
13
3
ASN
conflict
LEU
16
1W5K
B
P03069
UNP
264
17
3
TYR
engineered mutation
HIS
17
1W5K
B
P03069
UNP
265
18
3
LEU
conflict
ILE
19
1W5K
B
P03069
UNP
267
20
3
GLU
engineered mutation
CYS
20
1W5K
B
P03069
UNP
268
21
3
VAL
conflict
LEU
23
1W5K
B
P03069
UNP
271
24
3
LEU
conflict
ILE
26
1W5K
B
P03069
UNP
274
27
3
LYS
engineered mutation
ARG
27
1W5K
B
P03069
UNP
275
28
3
LYS
engineered mutation
ARG
28
1W5K
B
P03069
UNP
276
29
3
VAL
conflict
LEU
30
1W5K
B
P03069
UNP
278
31
5
LYS
engineered mutation
ARG
3
1W5K
C
P03069
UNP
251
4
5
LEU
conflict
ILE
5
1W5K
C
P03069
UNP
253
6
5
LYS
engineered mutation
ARG
8
1W5K
C
P03069
UNP
256
9
5
VAL
conflict
LEU
9
1W5K
C
P03069
UNP
257
10
5
LEU
conflict
ILE
12
1W5K
C
P03069
UNP
260
13
5
ASN
conflict
LEU
16
1W5K
C
P03069
UNP
264
17
5
TYR
engineered mutation
HIS
17
1W5K
C
P03069
UNP
265
18
5
LEU
conflict
ILE
19
1W5K
C
P03069
UNP
267
20
5
GLU
engineered mutation
CYS
20
1W5K
C
P03069
UNP
268
21
5
VAL
conflict
LEU
23
1W5K
C
P03069
UNP
271
24
5
LEU
conflict
ILE
26
1W5K
C
P03069
UNP
274
27
5
LYS
engineered mutation
ARG
27
1W5K
C
P03069
UNP
275
28
5
LYS
engineered mutation
ARG
28
1W5K
C
P03069
UNP
276
29
5
VAL
conflict
LEU
30
1W5K
C
P03069
UNP
278
31
7
LYS
engineered mutation
ARG
3
1W5K
D
P03069
UNP
251
4
7
LEU
conflict
ILE
5
1W5K
D
P03069
UNP
253
6
7
LYS
engineered mutation
ARG
8
1W5K
D
P03069
UNP
256
9
7
VAL
conflict
LEU
9
1W5K
D
P03069
UNP
257
10
7
LEU
conflict
ILE
12
1W5K
D
P03069
UNP
260
13
7
ASN
conflict
LEU
16
1W5K
D
P03069
UNP
264
17
7
TYR
engineered mutation
HIS
17
1W5K
D
P03069
UNP
265
18
7
LEU
conflict
ILE
19
1W5K
D
P03069
UNP
267
20
7
GLU
engineered mutation
CYS
20
1W5K
D
P03069
UNP
268
21
7
VAL
conflict
LEU
23
1W5K
D
P03069
UNP
271
24
7
LEU
conflict
ILE
26
1W5K
D
P03069
UNP
274
27
7
LYS
engineered mutation
ARG
27
1W5K
D
P03069
UNP
275
28
7
LYS
engineered mutation
ARG
28
1W5K
D
P03069
UNP
276
29
7
VAL
conflict
LEU
30
1W5K
D
P03069
UNP
278
31
18
P 21 21 2