Glutaredoxin Mutant With Val 15 Replaced By Gly And Tyr 16 3 Replaced By Pro (V15g,y16p)

(All numbering and residues are taken from first PDB file)

Bending Residue Dihedral Analysis

Residue
i
Residue
i+1
Distance of hinge axis to residue i in conformer 1
(A)
Distance of hinge axis to residue i in conformer 2
(A)
Change in psi (i)
(deg)
Change in phi (i+1)
(deg)
Angle of psi(i) axis to hinge axis conformer 1
(deg)
Angle of psi(i) axis to hinge axis conformer 2
(deg)
Percentage Progress
 LYS-21   ARG-22  9.8 9.9 4.9 4.3 94.5 91.6 -161.6
 ARG-22   LEU-23  12.4 12.4 -12.1 5.0 36.0 26.2 87.6
 LEU-23   LEU-24  11.8 11.9 -6.2 4.0 38.1 44.5 101.4

Downloading Image

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
i
Residue
i+1
Distance of hinge axis to residue i in conformer 1
(A)
Distance of hinge axis to residue i in conformer 2
(A)
Change in psi (i)
(deg)
Change in phi (i+1)
(deg)
Angle of psi(i) axis to hinge axis conformer 1
(deg)
Angle of psi(i) axis to hinge axis conformer 2
(deg)
Percentage Progress
 ILE-34   ASN-35  11.2 11.3 -0.6 4.3 30.8 31.1 -62.3
 ASN-35   ILE-36  10.9 11.1 -2.1 -1.4 83.2 84.2 60.1
 ILE-36   MET-37  11.1 11.2 -0.8 -5.4 20.5 20.0 194.1

Downloading Image

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
i
Residue
i+1
Distance of hinge axis to residue i in conformer 1
(A)
Distance of hinge axis to residue i in conformer 2
(A)
Change in psi (i)
(deg)
Change in phi (i+1)
(deg)
Angle of psi(i) axis to hinge axis conformer 1
(deg)
Angle of psi(i) axis to hinge axis conformer 2
(deg)
Percentage Progress
 ASP-45   GLU-46  17.4 17.6 -9.4 7.5 14.6 8.8 14.4
 GLU-46   LYS-47  18.2 18.3 -16.0 -0.9 65.9 66.1 329.0
 LYS-47   ILE-48  14.6 14.8 10.7 -0.1 93.4 82.9 -125.0
 ILE-48   ALA-49  13.5 13.6 -0.9 -0.2 37.2 41.1 -3.0
 ALA-49   GLU-50  16.2 16.2 -0.3 1.9 32.4 28.9 -64.7
 GLU-50   LEU-51  14.5 14.5 -6.0 0.9 81.4 84.3 65.0
 LEU-51   LEU-52  11.1 11.1 -3.2 0.9 67.6 80.0 61.5
 LEU-52   THR-53  13.0 13.0 1.4 -5.2 165.9 157.0 140.8
 THR-53   LYS-54  14.2 14.6 7.3 -6.1 124.6 130.9 -133.3
 LYS-54   LEU-55  10.7 11.2 13.6 -14.7 93.6 87.7 21.5
 LEU-55   GLY-56  9.8 10.5 -14.2 14.5 59.8 74.7 39.6
 GLY-56   ARG-57  13.2 14.2 -6.5 11.8 130.8 144.9 -64.8
 ARG-57   ASP-58  14.5 14.5 17.1 -26.8 67.8 68.9 -277.3
 ASP-58   THR-59  17.9 17.2 20.2 -12.5 13.4 11.5 186.3
 THR-59   GLN-60  17.0 15.4 -14.2 -4.7 107.7 90.5 -165.4
 GLN-60   ILE-61  14.0 11.9 10.6 -27.0 69.9 43.7 -214.0
 ILE-61   GLY-62  14.6 12.1 -161.8 -161.5 71.7 72.9 -286.1
 GLY-62   LEU-63  11.9 11.6 13.6 -22.5 105.3 117.4 251.1
 LEU-63   THR-64  9.0 8.3 5.4 41.1 41.1 69.3 768.9
 THR-64   MET-65  5.8 5.2 -5.8 -17.2 66.9 79.1 47.6
 MET-65   PRO-66  2.9 2.2 0.9 3.4 88.9 101.6 -15.7
 PRO-66   GLN-67  1.6 1.7 8.6 6.8 145.4 146.0 -333.2
 GLN-67   VAL-68  2.8 2.9 -4.1 1.3 54.2 52.2 98.7
 VAL-68   PHE-69  2.5 2.7 -2.9 2.3 17.5 18.5 82.8
 PHE-69   ALA-70  3.9 4.0 -1.0 3.8 62.3 62.0 -152.8

Downloading Image

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