PDB Chemical Component QPT

The following tables include covalent bond distance, bond angle and torsion angle values for the experimental model and ideal geometries stored in the definition for this chemical component.

Bond Distances for QPT

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
N2 PT1 2.065 2.091
PT1 N1 2.090 2.089
N2 H1 1.000 1.010
N2 H2 1.000 1.008
N1 H3 1.000 1.009
N1 H4 1.000 1.009
PT1 O2   2.025
PT1 O1   2.026
O1 C1   1.375
O2 C2   1.376
C1 C3   1.508
C1 O4   1.208
C2 O3   1.208
C2 C3   1.516
C3 C7   1.539
C3 C5   1.539
C5 C6   1.537
C6 C7   1.537
C5 H5   1.090
C5 H6   1.091
C6 H7   1.090
C6 H8   1.091
C7 H9   1.090
C7 H10   1.090
N2 H11 1.000 1.009
N1 H12 1.000 1.009

Bond Angles for QPT

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
N2 PT1 N1 86.6 110.5
PT1 N2 H1 109.5 109.4
PT1 N2 H2 109.5 109.5
N2 PT1 O2   110.5
N2 PT1 O1   110.5
PT1 N2 H11 109.5 109.4
PT1 N1 H3 109.5 109.5
PT1 N1 H4 109.4 109.5
N1 PT1 O2   110.6
N1 PT1 O1   110.5
PT1 N1 H12 109.5 109.5
H1 N2 H2 109.5 109.5
H1 N2 H11 109.5 109.5
H2 N2 H11 109.5 109.5
H3 N1 H4 109.4 109.4
H3 N1 H12 109.5 109.5
H4 N1 H12 109.5 109.5
O2 PT1 O1   104.0
PT1 O2 C2   109.4
PT1 O1 C1   109.3
O1 C1 C3   118.1
O1 C1 O4   121.0
O2 C2 O3   121.0
O2 C2 C3   117.9
C3 C1 O4   121.0
C1 C3 C2   116.8
C1 C3 C7   112.4
C1 C3 C5   112.4
C3 C2 O3   121.1
C2 C3 C7   112.2
C2 C3 C5   112.5
C5 C3 C7   86.9
C3 C7 C6   87.1
C3 C7 H9   113.6
C3 C7 H10   113.6
C3 C5 C6   87.1
C3 C5 H5   113.6
C3 C5 H6   113.6
C5 C6 C7   87.1
C6 C5 H5   113.6
C6 C5 H6   113.6
C5 C6 H7   113.6
C5 C6 H8   113.6
C7 C6 H7   113.6
C7 C6 H8   113.6
C6 C7 H9   113.6
C6 C7 H10   113.6
H5 C5 H6   112.9
H7 C6 H8   112.9
H9 C7 H10   112.9

Torsion Angles for QPT

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
N2 PT1 N1 H3 180.0 60.0
N2 PT1 N1 H4 300.0 180.0
N1 PT1 N2 O2   237.3
N1 PT1 N2 O1   122.7
N2 PT1 N1 H12 60.0 300.0
H1 N2 PT1 H2 240.0 240.0
H1 N2 PT1 H11 120.0 120.0
H2 N2 PT1 H11 240.0 240.0
O2 PT1 N2 O1   245.4
N2 PT1 O2 C2   85.5
N2 PT1 O1 C1   274.5
N1 PT1 N2 H1 180.0 60.0
N1 PT1 N2 H2 300.0 180.0
N2 PT1 N1 O2   122.7
N2 PT1 N1 O1   237.4
N1 PT1 N2 H11 60.0 300.0
H3 N1 PT1 H4 240.0 240.1
H3 N1 PT1 H12 120.0 120.0
H4 N1 PT1 H12 240.0 239.9
O2 PT1 N1 O1   114.7
N1 PT1 O2 C2   208.2
N1 PT1 O1 C1   151.9
H1 N2 PT1 N1 180.0 60.0
PT1 N2 H1 H2 120.0 120.0
H1 N2 PT1 O2   182.7
H1 N2 PT1 O1   297.3
PT1 N2 H1 H11 240.0 240.1
H2 N2 H1 H11 120.0 120.0
H2 N2 PT1 N1 300.0 180.0
PT1 N2 H2 H1 240.0 240.0
H2 N2 PT1 O2   302.7
H2 N2 PT1 O1   57.3
PT1 N2 H2 H11 120.0 120.0
H1 N2 H2 H11 240.0 239.9
PT1 N1 H3 H4 120.0 120.0
H3 N1 PT1 O2   297.3
H3 N1 PT1 O1   182.7
PT1 N1 H3 H12 240.0 240.0
H4 N1 H3 H12 120.0 120.0
PT1 N1 H4 H3 240.0 240.0
H4 N1 PT1 O2   57.3
H4 N1 PT1 O1   302.6
PT1 N1 H4 H12 120.0 120.0
H3 N1 H4 H12 240.0 240.0
N2 PT1 O2 N1   237.3
O2 PT1 N2 H1   182.7
O2 PT1 N2 H2   302.7
N2 PT1 O2 O1   118.6
O2 PT1 N2 H11   62.7
O2 PT1 N1 H3   297.3
O2 PT1 N1 H4   57.3
N1 PT1 O2 O1   241.3
O2 PT1 N1 H12   177.3
O2 PT1 O1 C1   33.1
PT1 O2 C2 O3   230.2
PT1 O2 C2 C3   50.0
N2 PT1 O1 N1   122.6
O1 PT1 N2 H1   297.3
O1 PT1 N2 H2   57.3
N2 PT1 O1 O2   241.3
O1 PT1 N2 H11   177.3
O1 PT1 N1 H3   182.7
O1 PT1 N1 H4   302.6
N1 PT1 O1 O2   118.7
O1 PT1 N1 H12   62.7
O1 PT1 O2 C2   326.8
PT1 O1 C1 C3   309.8
PT1 O1 C1 O4   129.9
C3 C1 O1 O4   179.9
O1 C1 C3 C2   67.8
O1 C1 C3 C7   296.2
O1 C1 C3 C5   200.0
C2 O2 PT1 O1   326.8
C1 C3 C2 O2   292.3
C3 C2 O2 O3   179.8
O2 C2 C3 C7   64.0
O2 C2 C3 C5   160.1
O1 C1 C3 O4   180.1
O2 C2 C3 C1   292.3
C1 C3 C2 O3   112.1
C2 C3 C1 C7   131.7
C2 C3 C1 C5   227.9
C5 C3 C1 C7   263.8
C1 C3 C7 C6   272.5
C1 C3 C7 H9   27.0
C1 C3 C7 H10   158.0
C1 C3 C5 C6   87.5
C1 C3 C5 H5   202.0
C1 C3 C5 H6   332.9
O1 C1 O4 C3   179.9
O4 C1 C3 C2   247.8
O4 C1 C3 C7   116.1
O4 C1 C3 C5   19.9
O2 C2 O3 C3   179.8
O3 C2 C3 C7   243.8
O3 C2 C3 C5   340.0
O2 C2 C3 O3   180.2
C2 C3 C1 O4   247.8
C1 C3 C2 C7   228.2
C1 C3 C2 C5   132.1
C5 C3 C2 C7   96.1
C2 C3 C7 C6   138.6
C2 C3 C7 H9   253.1
C2 C3 C7 H10   24.0
C2 C3 C5 C6   221.7
C2 C3 C5 H5   336.3
C2 C3 C5 H6   107.1
C7 C3 C1 O4   116.1
C1 C3 C7 C2   133.9
C1 C3 C7 C5   247.0
C7 C3 C2 O3   243.8
C2 C3 C7 C5   113.1
C7 C3 C5 C6   334.5
C7 C3 C5 H5   89.1
C7 C3 C5 H6   219.9
C5 C6 C7 C3   334.5
C3 C7 C6 H7   219.9
C3 C7 C6 H8   89.0
C6 C7 C3 H9   245.5
C6 C7 C3 H10   114.5
H9 C7 C3 H10   229.1
C5 C3 C1 O4   19.9
C1 C3 C5 C2   225.8
C1 C3 C5 C7   113.0
C5 C3 C2 O3   340.0
C2 C3 C5 C7   247.2
C5 C3 C7 C6   25.5
C5 C3 C7 H9   140.0
C5 C3 C7 H10   271.0
C3 C5 C6 C7   25.5
C6 C5 C3 H5   245.4
C6 C5 C3 H6   114.6
C3 C5 C6 H7   140.1
C3 C5 C6 H8   271.0
H5 C5 C3 H6   229.2
C6 C5 C3 C7   334.5
C3 C7 C6 C5   334.5
C3 C5 C6 H5   114.6
C3 C5 C6 H6   245.4
C7 C6 C5 H7   245.5
C7 C6 C5 H8   114.6
C5 C6 C7 H9   219.9
C5 C6 C7 H10   89.0
H5 C5 C6 H6   130.9
H7 C6 C5 H8   229.1
C3 C7 C6 H9   114.6
C3 C7 C6 H10   245.5
C7 C6 C5 H5   271.0
C7 C6 C5 H6   140.1
C5 C6 C7 H7   114.5
C5 C6 C7 H8   245.5
H7 C6 C7 H8   130.9
H9 C7 C6 H10   130.9
H5 C5 C3 C7   89.1
C3 C5 H5 C6   262.5
C3 C5 H5 H6   131.2
H5 C5 C6 C7   271.0
C6 C5 H5 H6   228.8
H5 C5 C6 H7   25.5
H5 C5 C6 H8   156.4
H6 C5 C3 C7   219.9
C3 C5 H6 C6   97.6
C3 C5 H6 H5   228.8
H6 C5 C6 C7   140.1
C6 C5 H6 H5   131.2
H6 C5 C6 H7   254.7
H6 C5 C6 H8   25.5
C5 C6 H7 C7   262.5
H7 C6 C5 H5   25.5
H7 C6 C5 H6   254.7
C5 C6 H7 H8   131.2
C7 C6 H7 H8   228.7
H7 C6 C7 H9   105.4
H7 C6 C7 H10   334.5
C5 C6 H8 C7   97.5
H8 C6 C5 H5   156.4
H8 C6 C5 H6   25.5
C5 C6 H8 H7   228.8
C7 C6 H8 H7   131.3
H8 C6 C7 H9   334.4
H8 C6 C7 H10   203.6
C3 C7 H9 C6   262.5
C3 C7 H9 H10   131.3
H9 C7 C6 H7   105.4
H9 C7 C6 H8   334.4
C6 C7 H9 H10   228.8
C3 C7 H10 C6   97.5
C3 C7 H10 H9   228.7
H10 C7 C6 H7   334.5
H10 C7 C6 H8   203.6
C6 C7 H10 H9   131.2
H11 N2 PT1 N1 60.0 300.0
PT1 N2 H11 H1 120.0 119.9
PT1 N2 H11 H2 240.0 240.0
H11 N2 PT1 O2   62.7
H11 N2 PT1 O1   177.3
H1 N2 H11 H2 120.0 120.1
PT1 N1 H12 H3 120.0 120.0
PT1 N1 H12 H4 240.0 240.0
H12 N1 PT1 O2   177.3
H12 N1 PT1 O1   62.7
H3 N1 H12 H4 120.0 120.0