High-Affinity Zinc Uptake System Protein Znua

(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
 GLY-223   HIS-224  10.7 10.2 -1.6 8.3 52.8 40.5 -7.5
 HIS-224   PHE-225  10.1 10.0 3.5 38.3 57.8 64.1 54.0
 PHE-225   THR-226  9.9 9.8 174.8 -43.3 129.0 93.4 -315.3
 THR-226   VAL-227  12.9 13.3 35.2 48.6 81.6 114.5 -312.6
 VAL-227   ASN-228  12.8 16.0 136.1 -20.4 138.8 152.0 759.7
 ASN-228   PRO-229  15.2 17.2 -19.3 3.9 43.1 89.7 6.9
 PRO-229   GLU-230  13.7 14.5 -3.3 30.6 73.5 80.8 -50.2

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
 GLU-240   ILE-241  8.5 7.9 -2.0 9.0 126.8 128.4 6.4
 ILE-241   ARG-242  6.3 5.9 -2.1 0.0 73.8 76.7 18.6
 ARG-242   THR-243  4.0 3.5 -0.4 -0.6 39.5 35.3 18.9
 THR-243   GLN-244  3.3 3.0 -7.2 2.3 109.0 103.8 -3.0
 GLN-244   LEU-245  4.3 4.5 6.9 3.5 60.7 57.3 1.9
 LEU-245   VAL-246  1.6 2.1 -4.1 -4.3 53.9 56.7 17.5
 VAL-246   GLU-247  1.8 2.3 4.1 -0.8 124.4 128.5 -1.0
 GLU-247   GLN-248  3.6 4.1 5.8 -11.9 63.4 67.5 -21.8
 GLN-248   LYS-249  6.3 6.9 -4.1 0.3 122.8 127.4 -9.9
 LYS-249   ALA-250  6.4 6.7 11.4 -3.2 9.4 16.0 30.0

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
 GLU-256   PRO-257  5.0 5.7 -26.6 -14.6 60.6 51.0 73.6
 PRO-257   GLN-258  7.0 6.3 15.5 3.1 67.1 99.7 10.5
 GLN-258   PHE-259  10.2 9.9 8.9 0.3 22.7 45.9 61.3
 PHE-259   ARG-260  8.9 10.8 71.7 131.8 90.2 71.6 -218.9
 ARG-260   PRO-261  8.1 11.3 36.4 -27.2 133.6 39.2 -163.5
 PRO-261   ALA-262  10.8 8.4 60.7 37.9 81.8 29.8 873.4
 ALA-262   VAL-263  9.6 10.9 176.8 71.5 56.3 28.2 -344.0
 VAL-263   VAL-264  11.6 10.0 -98.2 96.0 131.7 101.8 -329.3

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
 GLU-265   SER-266  7.3 7.4 -28.6 -10.9 17.1 19.1 135.2
 SER-266   VAL-267  9.3 9.3 -17.8 -13.9 46.5 44.3 82.9
 VAL-267   ALA-268  6.4 6.1 -3.9 16.7 69.8 83.5 -4.9

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