(All numbering and residues are taken from first PDB file)
Bending Residue Dihedral Analysis
Residue
iResidue
i+1Distance of hinge axis to residue i in
(A) Distance of hinge axis to residue i in
(A) Change in
(deg) Change in
(deg) Angle of psi(i) axis to hinge axis
(deg) Angle of psi(i) axis to hinge axis
(deg) Percentage Progress
HIS-60
ILE-61
13.3
14.2
-23.3
30.7
146.8
151.5
39.7
ILE-61
VAL-62
11.4
11.7
-17.2
-1.3
78.1
85.5
25.9
VAL-62
ALA-63
11.4
12.0
-5.7
-2.0
136.2
136.6
-37.6
Graph shows rotational transition at bending residues and can be used
to identify hinge bending residues.
Probably only informative for interdomain rotations greater than 20 degrees
Residue
iResidue
i+1Distance of hinge axis to residue i in
(A) Distance of hinge axis to residue i in
(A) Change in
(deg) Change in
(deg) Angle of psi(i) axis to hinge axis
(deg) Angle of psi(i) axis to hinge axis
(deg) Percentage Progress
PHE-73
PHE-74
5.5
5.8
-7.2
7.6
131.8
125.9
-7.9
PHE-74
ALA-75
4.9
5.3
0.3
-1.7
26.5
26.9
-13.4
ALA-75
ASP-76
5.6
5.6
-0.8
3.8
91.8
92.1
12.4
ASP-76
LEU-77
4.9
4.7
-0.5
-0.6
84.7
83.2
8.8
LEU-77
LEU-78
1.6
1.2
-5.1
5.0
148.8
145.7
-3.8
LEU-78
ASP-79
0.5
1.4
-6.3
7.2
134.9
139.6
13.3
ASP-79
TYR-80
2.9
2.0
-8.1
5.6
84.4
85.7
-12.4
TYR-80
ILE-81
4.9
4.0
-2.4
3.5
104.9
99.0
-5.3
ILE-81
LYS-82
4.4
4.1
-5.1
0.7
175.4
169.7
-30.3
LYS-82
ALA-83
3.4
3.3
3.2
-6.5
70.3
62.6
11.7
ALA-83
LEU-84
6.5
5.4
17.9
-19.1
90.7
96.5
3.9
LEU-84
ASN-85
8.7
8.1
9.0
-5.0
42.6
56.8
7.9
ASN-85
ARG-86
7.8
7.9
0.4
39.3
20.2
18.1
206.6
ARG-86
ASN-87
7.7
7.5
-35.1
43.7
95.5
105.3
-20.1
ASN-87
SER-88
11.2
11.2
-26.1
107.0
73.1
91.8
-100.5
SER-88
ASP-89
13.2
12.7
-15.7
-7.0
104.0
155.2
-90.1
ASP-89
ARG-90
14.6
15.3
-17.7
-34.5
43.9
110.5
89.8
ARG-90
SER-91
13.5
15.1
35.1
54.3
78.9
107.4
-40.5
SER-91
ILE-92
10.9
12.3
7.6
-20.5
125.2
139.7
38.6
ILE-92
PRO-93
9.7
12.5
32.5
-0.1
58.4
98.6
12.2
PRO-93
MET-94
9.4
11.7
32.5
-17.2
130.2
159.2
-85.4
MET-94
THR-95
8.5
10.1
-12.1
0.6
112.6
89.3
-26.8
THR-95
VAL-96
10.0
11.2
-28.5
8.1
36.2
45.9
44.5
VAL-96
ASP-97
10.0
9.8
-22.1
-3.8
75.9
79.2
10.6
ASP-97
PHE-98
12.8
12.5
-31.7
35.3
47.5
35.3
-13.1
PHE-98
ILE-99
13.6
12.9
-27.0
30.3
51.0
63.7
-82.9
ILE-99
ARG-100
15.6
15.4
25.4
-16.7
129.2
143.1
-62.3
ARG-100
LEU-101
16.9
17.3
-0.8
38.9
27.5
49.5
-205.9
LEU-101
LYS-102
17.1
18.0
18.1
-0.3
118.4
115.0
-75.1
ILE-113
LYS-114
20.3
21.5
20.0
-14.7
40.0
21.1
16.3
LYS-114
VAL-115
22.2
22.6
3.8
-10.3
37.2
51.7
-29.9
VAL-115
ILE-116
21.0
20.3
57.3
-27.8
37.3
33.7
136.5
ILE-116
GLY-117
22.1
21.1
-139.3
-58.8
157.2
143.6
871.7
GLY-117
GLY-118
21.7
18.4
86.7
69.0
92.6
30.0
-919.5
GLY-118
ASP-119
20.6
19.2
-59.8
-27.7
91.9
108.5
359.0
ASP-119
ASP-120
23.4
19.8
172.4
12.9
47.5
138.7
186.8
Graph shows rotational transition at bending residues and can be used
to identify hinge bending residues.
Probably only informative for interdomain rotations greater than 20 degrees
Residue
iResidue
i+1Distance of hinge axis to residue i in
(A) Distance of hinge axis to residue i in
(A) Change in
(deg) Change in
(deg) Angle of psi(i) axis to hinge axis
(deg) Angle of psi(i) axis to hinge axis
(deg) Percentage Progress
PHE-177
VAL-178
5.2
5.7
-14.9
11.4
62.6
66.3
6.6
VAL-178
GLY-179
2.7
3.2
-2.0
9.3
104.5
107.0
6.9
GLY-179
PHE-180
4.0
4.0
-8.1
0.3
36.1
39.1
32.1
Graph shows rotational transition at bending residues and can be used
to identify hinge bending residues.
Probably only informative for interdomain rotations greater than 20 degrees