PDB Chemical Component UN9

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 UN9

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
O18 C16 1.246 1.342
C16 O17 1.237 1.208
C16 C15 1.512 1.507
O17 HO17 0.950  
C15 N14 1.413 1.466
C15 H151 1.100 1.090
C15 H152 1.100 1.090
N14 C12 1.379 1.348
N14 HN14 1.000 0.970
C12 O13 1.224 1.216
C12 C9 1.484 1.474
C9 N8 1.358 1.338
C9 C10 1.402 1.391
N8 C7 1.323 1.308
C7 CL1 1.673 1.737
C7 C2 1.387 1.410
C2 C3 1.406 1.419
C2 C1 1.442 1.401
C10 O19 1.351 1.355
C10 C3 1.406 1.413
O19 HO19 0.950 0.967
C3 C4 1.401 1.400
C4 C5 1.381 1.364
C4 H4 1.080 1.080
C5 C6 1.408 1.392
C5 H5 1.080 1.080
C6 C1 1.402 1.364
C6 H6 1.080 1.080
C1 H1 1.080 1.079

Bond Angles for UN9

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
O18 C16 O17 127.2 120.0
O18 C16 C15 118.3 120.0
O17 C16 C15 114.4 120.0
C16 O17 HO17 109.5  
C16 C15 N14 110.8 109.5
C16 C15 H151 109.0 109.5
C16 C15 H152 108.7 109.5
N14 C15 H151 109.0 109.5
N14 C15 H152 108.7 109.4
C15 N14 C12 121.5 120.0
C15 N14 HN14 119.2 120.0
H151 C15 H152 110.5 109.5
C12 N14 HN14 119.3 120.0
N14 C12 O13 121.8 120.0
N14 C12 C9 121.0 120.0
O13 C12 C9 117.1 120.0
C12 C9 N8 116.9 119.3
C12 C9 C10 122.6 119.4
N8 C9 C10 120.5 121.3
C9 N8 C7 122.9 122.7
C9 C10 O19 122.2 120.8
C9 C10 C3 117.4 118.4
N8 C7 CL1 114.5 119.8
N8 C7 C2 119.9 120.5
CL1 C7 C2 125.6 119.8
C7 C2 C3 119.4 118.9
C7 C2 C1 122.8 121.8
C3 C2 C1 117.8 119.3
C2 C3 C10 119.9 118.3
C2 C3 C4 119.5 119.6
C2 C1 C6 121.0 119.6
C2 C1 H1 119.5 120.2
O19 C10 C3 120.2 120.8
C10 O19 HO19 109.5 106.8
C10 C3 C4 120.3 122.1
C3 C4 C5 122.9 119.5
C3 C4 H4 118.5 120.2
C5 C4 H4 118.5 120.3
C4 C5 C6 118.7 120.9
C4 C5 H5 120.6 119.6
C6 C5 H5 120.7 119.5
C5 C6 C1 119.9 121.1
C5 C6 H6 120.0 119.4
C1 C6 H6 120.1 119.5
C6 C1 H1 119.5 120.2

Torsion Angles for UN9

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
O17 C16 O18 C15 181.7 180.0
O18 C16 O17 HO17 0.0  
O18 C16 C15 N14 355.0 180.0
O18 C16 C15 H151 115.1 300.0
O18 C16 C15 H152 235.6 60.1
O18 C16 O17 C15 178.3 180.0
O17 C16 C15 N14 173.5 360.0
O17 C16 C15 H151 293.6 120.0
O17 C16 C15 H152 54.1 240.0
O18 C16 C15 O17 181.5 180.0
C15 C16 O17 HO17 181.7  
N14 C15 C16 H151 240.0 240.0
N14 C15 C16 H152 119.4 119.9
C16 C15 N14 C12 170.8 180.0
C16 C15 N14 HN14 350.9 0.1
H151 C15 C16 H152 239.5 239.9
HO17 O17 C16 C15 181.7  
C16 C15 N14 H151 120.0 120.0
C16 C15 N14 H152 240.5 240.0
H151 C15 N14 H152 120.6 120.0
C12 N14 C15 HN14 180.0 179.9
C15 N14 C12 O13 14.6 0.1
C15 N14 C12 C9 190.3 180.0
C16 C15 H151 N14 238.9 240.0
C16 C15 H151 H152 119.4 120.1
N14 C15 H151 H152 240.6 240.1
H151 C15 N14 C12 50.8 59.9
H151 C15 N14 HN14 230.9 240.0
C16 C15 H152 N14 120.8 120.0
C16 C15 H152 H151 240.4 239.9
N14 C15 H152 H151 119.6 120.0
H152 C15 N14 C12 290.3 300.0
H152 C15 N14 HN14 110.3 120.1
C12 N14 C15 H151 50.8 59.9
C12 N14 C15 H152 290.3 300.0
C15 N14 C12 HN14 180.0 180.1
O13 C12 N14 C9 184.3 180.1
N14 C12 C9 N8 164.6 0.1
N14 C12 C9 C10 343.6 179.8
HN14 N14 C15 H151 230.9 240.0
HN14 N14 C15 H152 110.3 120.1
C15 N14 HN14 C12 180.0 179.9
HN14 N14 C12 O13 194.6 180.0
HN14 N14 C12 C9 10.3 359.9
O13 C12 N14 HN14 194.6 180.0
N14 C12 O13 C9 175.8 179.9
O13 C12 C9 N8 340.4 180.0
O13 C12 C9 C10 159.5 359.7
C9 C12 N14 HN14 10.3 359.9
N14 C12 C9 O13 184.1 180.1
N8 C9 C12 C10 181.0 180.3
C12 C9 N8 C7 178.4 179.9
C12 C9 C10 O19 3.9 0.1
C12 C9 C10 C3 179.3 179.9
C12 C9 N8 C10 179.1 179.7
N8 C9 C10 O19 182.9 179.7
N8 C9 C10 C3 358.3 359.6
C9 N8 C7 CL1 180.1 180.0
C9 N8 C7 C2 1.6 0.0
C12 C9 C10 N8 181.0 180.3
C10 C9 N8 C7 359.3 0.2
C2 C3 C10 C9 3.2 0.4
O19 C10 C9 C3 184.6 180.2
C9 C10 O19 HO19 291.8 269.8
C9 C10 C3 C4 177.3 180.2
C7 N8 C9 C10 359.3 0.2
CL1 C7 N8 C2 178.5 179.9
N8 C7 C2 C3 359.9 359.9
N8 C7 C2 C1 181.6 180.0
N8 C7 CL1 C2 181.6 180.1
CL1 C7 C2 C3 181.6 180.0
CL1 C7 C2 C1 3.2 0.1
N8 C7 C2 CL1 178.3 179.9
C3 C2 C7 C1 178.4 179.9
C7 C2 C3 C10 357.6 359.8
C7 C2 C3 C4 183.5 180.0
C7 C2 C1 C6 180.5 179.9
C7 C2 C1 H1 0.5 360.0
C9 C10 C3 C2 3.2 0.4
C7 C2 C3 C1 181.5 180.1
C3 C2 C1 C6 2.1 0.0
C3 C2 C1 H1 182.0 180.0
O19 C10 C3 C2 178.7 180.2
C10 C3 C2 C4 174.2 179.8
C2 C3 C4 C5 356.1 0.1
C2 C3 C4 H4 176.1 180.1
C7 C2 C1 C3 178.4 179.9
C1 C2 C3 C10 176.1 179.8
C1 C2 C3 C4 1.9 359.9
C5 C6 C1 C2 355.7 360.0
C2 C1 C6 H6 175.7 180.0
C6 C1 C2 H1 180.0 180.0
C9 C10 O19 C3 175.3 179.8
C2 C3 C10 O19 178.7 180.2
O19 C10 C3 C4 352.8 0.0
C9 C10 C3 O19 184.5 180.2
C10 C3 C2 C1 176.1 179.8
C2 C3 C10 C4 185.9 180.2
C3 C10 O19 HO19 116.5 90.0
C10 C3 C4 C5 182.0 180.3
C10 C3 C4 H4 2.0 0.3
HO19 O19 C10 C3 116.5 90.0
C4 C3 C2 C1 1.9 359.9
C2 C3 C4 C10 174.1 179.8
C5 C4 C3 H4 180.0 180.0
C3 C4 C5 C6 1.6 359.9
C3 C4 C5 H5 181.6 180.0
C3 C4 C5 H4 180.0 180.0
C6 C5 C4 H5 180.0 179.9
C4 C5 C6 C1 2.5 0.0
C4 C5 C6 H6 182.5 180.1
C3 C4 H4 C5 180.0 180.0
H4 C4 C5 C6 181.6 179.9
H4 C4 C5 H5 1.6 0.0
C2 C1 C6 C5 355.7 360.0
C6 C5 C4 H4 181.6 179.9
C4 C5 C6 H5 180.0 180.1
C1 C6 C5 H6 180.0 180.0
C5 C6 C1 H1 175.7 180.0
H5 C5 C4 H4 1.6 0.0
C4 C5 H5 C6 180.0 179.9
H5 C5 C6 C1 182.5 180.0
H5 C5 C6 H6 2.5 360.0
C2 C1 C6 H1 180.0 180.0
C1 C6 C5 H5 182.5 180.0
C5 C6 C1 H6 180.0 180.0
H6 C6 C5 H5 2.5 360.0
C5 C6 H6 C1 180.0 180.0
H6 C6 C1 H1 355.7 360.0
C2 C1 H1 C6 180.0 180.0
H1 C1 C6 H6 355.7 360.0