Sarcoplasmic/endoplasmic Reticulum Calcium Atpase 1

(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  LEU-41   PRO-42  6.2 6.4 32.8 10.0 72.7 65.7 45.4  PRO-42   ALA-43  8.1 7.5 35.4 -10.9 132.8 102.2 -47.2  ALA-43   GLU-44  7.4 6.6 32.3 23.7 98.7 128.2 -82.3  GLU-44   GLU-45  10.8 8.5 108.1 -12.6 129.2 68.2 38.4  GLU-45   GLY-46  10.9 12.0 12.5 -34.4 104.0 97.0 73.2  GLY-46   LYS-47  14.1 12.9 -72.7 -56.9 96.2 83.9 -101.6  LYS-47   SER-48  17.2 16.4 -46.9 -8.0 42.0 54.0 139.1  SER-48   LEU-49  17.6 17.2 -17.6 2.0 58.8 64.9 29.5 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 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-117   ALA-118  6.0 5.6 -11.7 0.6 45.3 57.9 2.8  ALA-118   LEU-119  6.4 5.5 11.1 -13.4 72.6 57.1 10.4  LEU-119   LYS-120  6.2 5.3 -60.6 -18.4 84.0 99.5 22.8  LYS-120   GLU-121  3.0 1.9 28.2 5.6 78.9 126.9 -26.6  GLU-121   TYR-122  5.9 3.8 -126.1 41.5 162.2 109.1 -186.3  TYR-122   GLU-123  6.1 7.1 -105.5 -33.8 97.7 151.8 441.3  GLU-123   PRO-124  8.9 6.3 46.7 -1.4 65.0 94.9 -109.8  PRO-124   GLU-125  7.7 9.6 -30.7 28.7 126.3 85.9 -39.1  GLU-125   MET-126  9.5 10.8 -36.0 -12.3 58.1 126.4 40.0  MET-126   GLY-127  11.9 12.8 -99.1 -24.6 115.4 95.8 -117.3  GLY-127   LYS-128  14.4 14.6 -36.5 8.2 39.5 31.7 74.8 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 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  ARG-236   ASP-237  4.9 6.1 36.9 -19.8 86.4 79.9 -4.7  ASP-237   GLN-238  6.8 7.7 27.3 6.5 156.5 142.5 -95.2  GLN-238   MET-239  7.5 6.7 -63.7 -43.6 61.5 98.6 87.6  MET-239   ALA-240  3.9 3.7 -170.4 8.5 39.5 151.9 36.1  ALA-240   ALA-241  3.7 5.8 138.4 -118.9 85.5 83.1 66.8  ALA-241   THR-242  7.3 8.0 116.7 26.0 29.9 152.5 -62.9  THR-242   GLU-243  9.1 7.9 9.3 -130.3 85.5 100.9 -101.6  GLU-243   GLN-244  6.6 7.0 -155.8 -46.8 98.0 89.1 119.1  GLN-244   ASP-245  9.9 9.5 -31.4 -54.8 48.2 98.7 226.5  ASP-245   LYS-246  12.2 9.8 170.6 9.3 78.2 30.5 -364.9  LYS-246   THR-247  15.3 12.4 39.8 43.0 39.4 86.0 165.1  THR-247   PRO-248  16.1 14.1 35.9 -9.4 84.7 106.3 16.3  PRO-248   LEU-249  19.8 17.7 -8.6 20.1 132.4 126.7 18.2 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