PDB Chemical Component 6L3

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 6L3

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C H1 0.367 1.089
C H2 1.100 1.090
C H3 1.100 1.089
C C1   1.507
C1 C2   1.396
C2 C3   1.396
C3 C4   1.380
C4 C5   1.383
C5 C6   1.383
C6 C1   1.380
C3 C7   1.507
C5 C8   1.507
C2 C9   1.477
C9 O2   1.214
C9 O1   1.347
O1 C11   1.452
C4 H4   1.080
C6 H5   1.079
C7 H6   1.090
C7 H7   1.090
C7 H8   1.090
C8 H9   1.090
C8 H10   1.090
C8 H11   1.091
C11 H12   1.090
C11 H13   1.090
C11 H14   1.090

Bond Angles for 6L3

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
H1 C H2 116.7 109.5
H1 C H3 116.7 109.5
H1 C C1   109.5
H2 C H3 109.5 109.5
H2 C C1   109.4
H3 C C1   109.5
C C1 C2   120.1
C1 C2 C3   119.7
C1 C2 C9   120.2
C2 C3 C4   119.9
C2 C3 C7   120.1
C3 C2 C9   120.2
C3 C4 C5   120.1
C4 C3 C7   120.0
C3 C4 H4   119.9
C4 C5 C6   120.3
C4 C5 C8   119.8
C5 C4 H4   119.9
C6 C5 C8   119.8
C5 C6 H5   120.0
C3 C7 H6   109.5
C3 C7 H7   109.5
C3 C7 H8   109.5
C5 C8 H9   109.5
C5 C8 H10   109.5
C5 C8 H11   109.4
C2 C9 O2   120.0
C2 C9 O1   120.0
O2 C9 O1   120.0
C9 O1 C11   117.0
O1 C11 H12   109.5
O1 C11 H13   109.4
O1 C11 H14   109.5
H6 C7 H7   109.5
H6 C7 H8   109.4
H7 C7 H8   109.5
H9 C8 H10   109.5
H9 C8 H11   109.4
H10 C8 H11   109.4
H12 C11 H13   109.5
H12 C11 H14   109.5
H13 C11 H14   109.4

Torsion Angles for 6L3

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
H2 C H1 H3 132.1 240.0
H2 C H1 C1   119.9
H3 C H1 C1   239.9
H1 C C1 C2   89.9
H1 C H2 H3 224.7 120.1
H1 C H2 C1   240.1
H3 C H2 C1   120.0
H2 C C1 C2   330.0
H1 C H3 H2 135.3 240.0
H1 C H3 C1   120.0
H2 C H3 C1   240.1
H3 C C1 C2   210.0
H1 C C1 H2   119.9
H1 C C1 H3   239.9
H2 C C1 H3   120.0
C C1 C2 C3   180.0
C C1 C2 C9   0.0
C1 C2 C3 C4   0.0
C1 C2 C3 C7   180.0
C3 C2 C1 C9   180.0
C1 C2 C9 O2   89.9
C1 C2 C9 O1   270.0
C1 C2 C3 C9   180.0
C2 C3 C4 C5   0.0
C4 C3 C2 C7   180.0
C2 C3 C4 H4   180.0
C2 C3 C7 H6   90.0
C2 C3 C7 H7   210.0
C2 C3 C7 H8   330.0
C3 C2 C9 O2   270.0
C3 C2 C9 O1   90.0
C2 C3 C4 C7   180.0
C4 C3 C2 C9   180.0
C3 C4 C5 C6   359.7
C3 C4 C5 C8   180.0
C5 C4 C3 H4   180.0
C4 C3 C7 H6   269.9
C4 C3 C7 H7   30.0
C4 C3 C7 H8   150.0
C5 C4 C3 C7   180.0
C3 C4 C5 H4   180.0
C6 C5 C4 C8   179.7
C4 C5 C6 H5   180.0
C4 C5 C8 H9   90.0
C4 C5 C8 H10   210.0
C4 C5 C8 H11   330.0
C4 C5 C6 C8   180.3
C6 C5 C4 H4   179.7
C6 C5 C8 H9   270.2
C6 C5 C8 H10   30.3
C6 C5 C8 H11   150.3
C6 C1 C2 C9   180.2
C2 C3 C7 C4   180.0
C7 C3 C2 C9   360.0
C7 C3 C4 C5   180.0
C7 C3 C4 H4   0.0
H6 C7 C3 H7   240.0
H6 C7 C3 H8   119.9
H7 C7 C3 H8   240.0
C4 C5 C8 C6   179.7
C8 C5 C4 H4   360.0
C8 C5 C6 H5   359.8
H9 C8 C5 H10   239.9
H9 C8 C5 H11   120.0
H10 C8 C5 H11   240.0
C1 C2 C9 C3   180.0
C9 C2 C3 C4   180.0
C9 C2 C3 C7   360.0
O2 C9 C2 O1   180.0
C2 C9 O1 C11   180.0
C2 C9 O2 O1   180.0
O2 C9 O1 C11   360.0
C2 C9 O1 O2   180.0
C9 O1 C11 H12   300.0
C9 O1 C11 H13   60.1
C9 O1 C11 H14   180.0
H12 C11 O1 H13   240.0
H12 C11 O1 H14   120.0
H13 C11 O1 H14   240.1
C3 C4 H4 C5   180.0
H4 C4 C3 C7   0.0
H4 C4 C5 C6   179.7
H4 C4 C5 C8   360.0
H5 C6 C5 C8   359.8
C3 C7 H6 H7   120.1
C3 C7 H6 H8   240.0
H7 C7 H6 H8   119.9
C3 C7 H7 H6   239.9
C3 C7 H7 H8   120.0
H6 C7 H7 H8   240.1
C3 C7 H8 H6   120.0
C3 C7 H8 H7   239.9
H6 C7 H8 H7   119.9
C5 C8 H9 H10   120.1
C5 C8 H9 H11   240.0
H10 C8 H9 H11   120.0
C5 C8 H10 H9   239.9
C5 C8 H10 H11   120.0
H9 C8 H10 H11   240.0
C5 C8 H11 H9   120.0
C5 C8 H11 H10   240.0
H9 C8 H11 H10   120.0
O1 C11 H12 H13   120.0
O1 C11 H12 H14   240.0
H13 C11 H12 H14   120.0
O1 C11 H13 H12   240.0
O1 C11 H13 H14   119.9
H12 C11 H13 H14   240.0
O1 C11 H14 H12   120.0
O1 C11 H14 H13   240.1
H12 C11 H14 H13   120.0