(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
GLU-13
SER-14
11.9
11.7
3.6
-5.1
87.7
84.1
-18.7
SER-14
PRO-15
11.0
10.8
-0.5
-0.3
25.3
27.0
33.9
PRO-15
TYR-16
8.9
8.8
4.3
-0.7
99.7
102.5
-52.9
TYR-16
VAL-17
6.6
6.6
-2.2
1.0
144.8
144.0
22.2
VAL-17
MET-18
7.0
6.9
-0.4
-2.0
133.1
134.3
-94.6
MET-18
MET-19
8.1
8.0
-5.7
2.2
149.9
150.3
19.1
MET-19
LYS-20
7.7
7.7
-7.4
-1.9
110.9
116.7
-120.4
LYS-20
LYS-21
5.7
5.7
-18.1
-3.1
139.9
144.6
-499.8
LYS-21
ASN-22
8.1
8.3
173.8
164.3
31.6
33.0
-448.4
ASN-22
HIS-23
5.7
7.5
0.5
-63.8
96.5
95.4
857.8
HIS-23
GLU-24
5.5
5.6
34.5
4.3
41.6
94.8
624.6
GLU-24
MET-25
7.1
9.2
-5.8
3.5
121.4
127.7
-74.6
MET-25
LEU-26
3.9
8.9
11.6
5.6
128.2
93.7
-66.4
LEU-26
GLU-27
3.8
6.9
27.8
-7.9
104.0
126.4
-129.9
GLU-27
GLY-28
7.1
8.9
2.5
23.9
161.0
140.1
-782.0
GLY-28
ASN-29
8.9
9.1
-33.4
3.8
45.9
51.3
729.9
ASN-29
GLU-30
6.7
6.8
-15.4
-3.5
108.2
105.1
-286.7
GLU-30
ARG-31
3.7
3.6
19.2
-1.1
81.9
73.4
246.8
ARG-31
TYR-32
4.6
4.3
-10.5
8.8
39.6
42.0
57.5
TYR-32
GLU-33
4.2
4.1
-2.5
4.5
64.3
62.7
-93.6
GLU-33
GLY-34
2.9
2.7
5.6
-6.7
147.9
147.7
30.0
GLY-34
TYR-35
3.9
3.9
-2.2
2.2
37.9
37.0
9.0
TYR-35
CYS-36
3.0
3.1
-2.6
0.8
81.6
81.9
24.6
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
PRO-105
PHE-106
3.9
3.9
5.1
-0.6
56.4
56.5
37.7
PHE-106
MET-107
1.6
1.6
0.8
-2.9
85.6
85.8
-45.1
MET-107
SER-108
4.0
4.0
-5.9
0.6
39.9
42.0
157.5
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
ASN-214
LEU-215
17.1
17.1
-2.3
2.1
137.1
136.3
-4.5
LEU-215
ASP-216
18.4
18.5
-3.5
2.7
120.0
119.6
-68.7
ASP-216
SER-217
15.0
15.2
6.7
-4.1
110.2
110.3
-25.1
SER-217
LYS-218
11.2
11.4
11.2
-3.7
103.3
105.7
-46.1
LYS-218
GLY-219
9.6
10.0
-9.9
6.5
44.0
51.0
116.4
GLY-219
TYR-220
7.4
7.4
-5.5
-0.2
43.0
40.7
165.1
TYR-220
GLY-221
7.4
7.3
-3.0
0.6
95.3
95.3
-65.6
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
VAL-234
ASN-235
11.4
11.5
5.8
-1.0
140.7
140.3
-82.1
ASN-235
LEU-236
10.1
10.1
0.8
-0.5
100.9
100.4
12.2
LEU-236
ALA-237
11.1
11.2
1.5
0.2
45.4
43.8
41.2
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