PDB Chemical Component TBU

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 TBU

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
O C 1.426 1.429
O HO 0.950 0.967
C C1 1.528 1.530
C C2 1.525 1.530
C C3 1.535 1.530
C1 H11 1.100 1.090
C1 H12 1.100 1.090
C1 H13 1.100 1.090
C2 H21 1.100 1.090
C2 H22 1.100 1.090
C2 H23 1.100 1.090
C3 H31 1.100 1.090
C3 H32 1.100 1.090
C3 H33 1.100 1.090

Bond Angles for TBU

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C O HO 109.5 114.0
O C C1 109.5 109.5
O C C2 110.0 109.5
O C C3 108.1 109.5
C1 C C2 107.8 109.4
C1 C C3 110.3 109.4
C C1 H11 109.5 109.4
C C1 H12 109.5 109.5
C C1 H13 109.5 109.5
C2 C C3 111.1 109.4
C C2 H21 109.5 109.4
C C2 H22 109.5 109.5
C C2 H23 109.4 109.4
C C3 H31 109.5 109.5
C C3 H32 109.5 109.5
C C3 H33 109.5 109.4
H11 C1 H12 109.4 109.5
H11 C1 H13 109.5 109.5
H12 C1 H13 109.5 109.5
H21 C2 H22 109.5 109.5
H21 C2 H23 109.5 109.5
H22 C2 H23 109.5 109.5
H31 C3 H32 109.5 109.5
H31 C3 H33 109.4 109.5
H32 C3 H33 109.5 109.5

Torsion Angles for TBU

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C1 C O C2 118.3 240.0
C1 C O C3 239.8 120.0
O C C1 H11 180.0 60.0
O C C1 H12 300.0 180.0
O C C1 H13 60.0 300.0
C2 C O C3 121.5 240.0
O C C2 H21 180.0 60.0
O C C2 H22 300.0 180.0
O C C2 H23 60.0 300.0
O C C3 H31 180.0 60.0
O C C3 H32 300.0 180.0
O C C3 H33 60.0 300.0
HO O C C1 180.0 60.0
HO O C C2 61.7 180.0
HO O C C3 300.2 300.0
C1 C O HO 180.0 60.0
O C C1 C2 240.4 120.0
O C C1 C3 118.9 240.0
C2 C C1 C3 238.5 119.9
C1 C C2 H21 60.7 180.0
C1 C C2 H22 180.7 300.0
C1 C C2 H23 300.6 60.1
C1 C C3 H31 299.7 300.0
C1 C C3 H32 59.7 60.0
C1 C C3 H33 179.7 180.0
H11 C1 C H12 240.0 240.0
H11 C1 C H13 120.0 120.0
H12 C1 C H13 240.0 240.0
C2 C O HO 61.7 180.0
O C C2 C1 119.3 240.0
O C C2 C3 240.3 120.0
C1 C C2 C3 121.0 240.1
C2 C C1 H11 299.7 300.0
C2 C C1 H12 59.6 60.0
C2 C C1 H13 179.6 180.0
C2 C C3 H31 59.2 180.0
C2 C C3 H32 179.2 300.0
C2 C C3 H33 299.2 60.0
H21 C2 C H22 240.0 240.0
H21 C2 C H23 120.0 120.0
H22 C2 C H23 240.0 240.0
C3 C O HO 300.2 300.0
O C C3 C1 240.3 120.0
O C C3 C2 120.8 240.0
C1 C C3 C2 240.5 119.9
C3 C C1 H11 61.2 180.0
C3 C C1 H12 181.1 300.0
C3 C C1 H13 301.1 60.0
C3 C C2 H21 299.7 299.9
C3 C C2 H22 59.7 60.0
C3 C C2 H23 179.7 180.0
H31 C3 C H32 240.0 240.0
H31 C3 C H33 120.0 120.0
H32 C3 C H33 240.0 240.0
H11 C1 C C2 299.7 300.0
H11 C1 C C3 61.2 180.0
C C1 H11 H12 120.0 120.0
C C1 H11 H13 240.0 240.0
H12 C1 H11 H13 120.0 120.0
H12 C1 C C2 59.6 60.0
H12 C1 C C3 181.1 300.0
C C1 H12 H11 240.0 240.0
C C1 H12 H13 120.0 120.0
H11 C1 H12 H13 240.0 240.0
H13 C1 C C2 179.6 180.0
H13 C1 C C3 301.1 60.0
C C1 H13 H11 120.0 120.0
C C1 H13 H12 240.0 240.0
H11 C1 H13 H12 120.0 120.0
H21 C2 C C3 299.7 299.9
C C2 H21 H22 120.0 120.0
C C2 H21 H23 240.0 240.1
H22 C2 H21 H23 120.0 120.0
H22 C2 C C3 59.7 60.0
C C2 H22 H21 240.0 240.0
C C2 H22 H23 120.0 120.0
H21 C2 H22 H23 240.0 240.0
H23 C2 C C3 179.7 180.0
C C2 H23 H21 120.0 119.9
C C2 H23 H22 240.0 240.0
H21 C2 H23 H22 120.0 120.0
C C3 H31 H32 120.0 120.0
C C3 H31 H33 240.0 240.0
H32 C3 H31 H33 120.0 120.0
C C3 H32 H31 240.0 240.0
C C3 H32 H33 120.0 120.0
H31 C3 H32 H33 240.0 240.0
C C3 H33 H31 120.0 120.0
C C3 H33 H32 240.0 240.0
H31 C3 H33 H32 120.0 120.0