PDB Chemical Component UN6

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 UN6

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
O7 S1 1.474 1.522
O7 HO7 0.950 0.967
S1 O5 1.477 1.421
S1 O6 1.473 1.421
S1 N1 1.607 1.656
N1 C5 1.358 1.396
N1 HN1 1.020 0.970
C5 C4 1.392 1.389
C5 C2 1.403 1.390
C4 C1 1.390 1.382
C4 H4 1.103 1.080
C1 C3 1.404 1.382
C1 H1 1.103 1.080
C2 C6 1.403 1.380
C2 H2 1.103 1.080
C6 C3 1.394 1.383
C6 C7 1.521 1.507
C3 H3 1.103 1.080
C7 N2 1.462 1.465
C7 H71 1.115 1.090
C7 H72 1.115 1.090
N2 C8 1.338 1.347
N2 HN2 1.020 0.970
C8 O1 1.234 1.213
C8 C9 1.520 1.507
C9 C10 1.548 1.530
C9 H91 1.115 1.089
C9 H92 1.115 1.090
C10 C11 1.522 1.508
C10 H101 1.115 1.089
C10 H102 1.115 1.090
C11 C14 1.393 1.382
C11 C13 1.393 1.383
C14 C15 1.396 1.389
C14 H14 1.103 1.080
C15 N3 1.364 1.396
C15 C12 1.396 1.390
N3 S2 1.605 1.656
N3 HN3 1.020 0.970
S2 O4 1.487 1.522
S2 O3 1.473 1.421
S2 O2 1.473 1.420
O4 HO4 0.950 0.968
C12 C16 1.388 1.380
C12 H12 1.103 1.080
C16 C13 1.398 1.383
C16 H16 1.103 1.080
C13 H13 1.103 1.080

Bond Angles for UN6

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
S1 O7 HO7 113.1 106.8
O7 S1 O5 113.0 105.8
O7 S1 O6 105.7 105.7
O7 S1 N1 113.2 107.4
O5 S1 O6 102.6 125.4
O5 S1 N1 108.8 105.8
O6 S1 N1 113.0 105.8
S1 N1 C5 124.9 120.0
S1 N1 HN1 106.8 120.0
C5 N1 HN1 106.7 120.0
N1 C5 C4 115.9 120.1
N1 C5 C2 122.1 120.1
C4 C5 C2 122.0 119.8
C5 C4 C1 121.1 119.9
C5 C4 H4 119.5 120.0
C5 C2 C6 118.8 119.9
C5 C2 H2 120.6 120.0
C1 C4 H4 119.4 120.1
C4 C1 C3 115.1 120.1
C4 C1 H1 122.0 120.0
C3 C1 H1 122.9 120.0
C1 C3 C6 126.1 120.2
C1 C3 H3 117.3 119.9
C6 C2 H2 120.6 120.1
C2 C6 C3 116.7 120.1
C2 C6 C7 120.2 119.9
C3 C6 C7 123.1 120.0
C6 C3 H3 116.5 119.9
C6 C7 N2 112.7 109.5
C6 C7 H71 111.0 109.5
C6 C7 H72 111.0 109.5
N2 C7 H71 111.0 109.5
N2 C7 H72 111.1 109.5
C7 N2 C8 123.5 120.0
C7 N2 HN2 123.0 120.0
H71 C7 H72 99.3 109.5
C8 N2 HN2 113.5 120.0
N2 C8 O1 122.0 120.0
N2 C8 C9 117.1 120.0
O1 C8 C9 120.9 120.0
C8 C9 C10 107.5 109.5
C8 C9 H91 112.9 109.5
C8 C9 H92 112.9 109.4
C10 C9 H91 112.9 109.5
C10 C9 H92 112.9 109.5
C9 C10 C11 103.8 109.5
C9 C10 H101 114.4 109.5
C9 C10 H102 114.4 109.5
H91 C9 H92 97.5 109.5
C11 C10 H101 114.4 109.5
C11 C10 H102 114.4 109.4
C10 C11 C14 120.5 119.9
C10 C11 C13 121.5 120.0
H101 C10 H102 96.1 109.5
C14 C11 C13 118.0 120.1
C11 C14 C15 122.2 119.9
C11 C14 H14 118.8 120.0
C11 C13 C16 121.4 120.1
C11 C13 H13 119.1 119.9
C15 C14 H14 119.0 120.0
C14 C15 N3 120.3 120.1
C14 C15 C12 118.1 119.8
N3 C15 C12 121.5 120.1
C15 N3 S2 126.0 120.0
C15 N3 HN3 106.4 120.0
C15 C12 C16 121.3 119.9
C15 C12 H12 119.7 120.0
S2 N3 HN3 106.4 120.0
N3 S2 O4 101.3 107.3
N3 S2 O3 100.1 105.8
N3 S2 O2 106.1 105.8
O4 S2 O3 112.5 105.7
O4 S2 O2 113.5 105.8
S2 O4 HO4 101.3 106.8
O3 S2 O2 120.2 125.4
C16 C12 H12 119.1 120.1
C12 C16 C13 119.0 120.1
C12 C16 H16 120.2 120.0
C13 C16 H16 120.8 119.9
C16 C13 H13 119.5 120.0

Torsion Angles for UN6

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
O5 S1 O7 O6 248.5 134.8
O5 S1 O7 N1 124.3 247.4
O6 S1 O7 N1 235.8 112.6
O7 S1 N1 C5 303.0 65.0
O7 S1 N1 HN1 177.7 245.1
HO7 O7 S1 O5 180.0 67.4
HO7 O7 S1 O6 291.6 292.6
HO7 O7 S1 N1 55.8 180.0
O5 S1 O7 HO7 180.0 67.4
O7 S1 O5 O6 113.4 236.9
O7 S1 O5 N1 233.3 113.7
O6 S1 O5 N1 119.9 236.8
O5 S1 N1 C5 176.4 177.6
O5 S1 N1 HN1 51.2 357.7
O6 S1 O7 HO7 291.6 292.6
O7 S1 O6 O5 241.3 123.1
O7 S1 O6 N1 124.4 246.3
O5 S1 O6 N1 243.1 123.2
O6 S1 N1 C5 63.1 312.4
O6 S1 N1 HN1 297.9 132.5
N1 S1 O7 HO7 55.8 180.0
O7 S1 N1 O5 126.6 247.4
O7 S1 N1 O6 239.8 112.6
O5 S1 N1 O6 113.3 225.2
C5 N1 S1 HN1 125.2 179.9
S1 N1 C5 C4 205.6 45.0
S1 N1 C5 C2 27.4 225.3
S1 N1 C5 HN1 234.7 180.1
C4 C5 N1 C2 178.2 179.8
N1 C5 C4 C1 180.2 180.0
N1 C5 C4 H4 0.2 360.0
N1 C5 C2 C6 178.9 180.3
N1 C5 C2 H2 358.8 359.7
S1 N1 HN1 C5 135.6 179.9
HN1 N1 C5 C4 330.8 224.9
HN1 N1 C5 C2 152.7 45.2
C4 C5 N1 HN1 330.8 224.9
N1 C5 C4 C2 181.8 180.2
C4 C5 C2 C6 0.8 0.6
C4 C5 C2 H2 180.7 180.0
C1 C4 C5 H4 180.0 180.0
C5 C4 C1 C3 1.7 360.0
C5 C4 C1 H1 181.7 180.0
C2 C5 N1 HN1 152.7 45.2
N1 C5 C2 C4 178.1 179.8
C2 C5 C4 C1 358.4 359.8
C2 C5 C4 H4 178.4 179.7
C6 C2 C5 H2 180.0 180.6
C5 C2 C6 C3 359.8 359.4
C5 C2 C6 C7 180.2 179.7
C1 C4 C5 C2 358.4 359.8
C5 C4 C1 H4 180.0 180.0
C3 C1 C4 H1 180.0 179.9
C4 C1 C3 C6 358.9 0.0
C4 C1 C3 H3 178.9 180.0
H4 C4 C5 C2 178.4 179.7
C5 C4 H4 C1 180.0 180.0
H4 C4 C1 C3 181.7 180.0
H4 C4 C1 H1 1.7 0.1
C3 C1 C4 H4 181.7 180.0
C4 C1 C3 H1 180.0 180.1
C2 C6 C3 C1 0.4 0.3
C1 C3 C6 C7 180.0 180.0
C6 C3 C1 H3 180.0 180.0
H1 C1 C4 H4 1.7 0.1
C4 C1 H1 C3 180.0 179.9
H1 C1 C3 C6 178.8 179.9
H1 C1 C3 H3 358.8 359.9
C5 C2 C6 H2 180.0 179.4
C1 C3 C6 C2 0.4 0.3
C3 C6 C2 C7 179.6 179.7
C2 C6 C3 H3 180.4 180.3
C2 C6 C7 N2 240.7 269.7
C2 C6 C7 H71 115.4 149.7
C2 C6 C7 H72 6.0 29.7
C5 C2 H2 C6 180.0 180.6
H2 C2 C6 C3 179.8 180.0
H2 C2 C6 C7 0.2 0.3
C6 C3 C1 H1 178.8 179.9
C1 C3 C6 H3 180.0 180.0
C3 C6 C2 H2 179.8 180.0
C2 C6 C3 C7 180.4 180.3
C3 C6 C7 N2 61.1 90.0
C3 C6 C7 H71 295.8 330.0
C3 C6 C7 H72 186.4 210.1
C7 C6 C2 H2 0.2 0.3
C2 C6 C7 C3 179.6 179.7
C7 C6 C3 H3 0.0 360.0
N2 C7 C6 H71 125.3 120.0
N2 C7 C6 H72 234.7 239.9
C6 C7 N2 C8 257.1 180.0
C6 C7 N2 HN2 77.2 0.0
H71 C7 C6 H72 109.4 120.0
H3 C3 C1 H1 358.8 359.9
C1 C3 H3 C6 180.0 180.0
H3 C3 C6 C7 0.0 360.0
C6 C7 N2 H71 234.7 240.0
C6 C7 N2 H72 125.3 120.0
H71 C7 N2 H72 250.5 240.0
C8 N2 C7 HN2 180.0 180.0
C7 N2 C8 O1 359.9 360.0
C7 N2 C8 C9 178.0 180.0
C6 C7 H71 N2 126.2 120.0
C6 C7 H71 H72 243.1 240.0
N2 C7 H71 H72 116.9 120.0
H71 C7 N2 C8 22.4 300.0
H71 C7 N2 HN2 202.4 120.0
C6 C7 H72 N2 233.8 240.0
C6 C7 H72 H71 116.9 120.0
N2 C7 H72 H71 243.1 240.0
H72 C7 N2 C8 131.9 60.0
H72 C7 N2 HN2 311.9 240.0
C8 N2 C7 H71 22.4 300.0
C8 N2 C7 H72 131.9 60.0
C7 N2 C8 HN2 180.0 180.0
O1 C8 N2 C9 181.8 180.0
N2 C8 C9 C10 254.3 180.0
N2 C8 C9 H91 129.1 59.9
N2 C8 C9 H92 19.6 300.0
HN2 N2 C7 H71 202.4 120.0
HN2 N2 C7 H72 311.9 240.0
C7 N2 HN2 C8 180.0 180.0
HN2 N2 C8 O1 179.9 180.0
HN2 N2 C8 C9 358.0 0.0
O1 C8 N2 HN2 179.9 180.0
N2 C8 O1 C9 178.1 180.0
O1 C8 C9 C10 72.5 0.0
O1 C8 C9 H91 307.2 240.0
O1 C8 C9 H92 197.7 120.0
C9 C8 N2 HN2 358.0 0.0
N2 C8 C9 O1 181.8 180.0
C10 C9 C8 H91 125.3 120.1
C10 C9 C8 H92 234.8 240.0
C8 C9 C10 C11 183.7 180.0
C8 C9 C10 H101 58.4 60.0
C8 C9 C10 H102 308.9 299.9
H91 C9 C8 H92 109.5 119.9
C8 C9 C10 H91 234.7 240.0
C8 C9 C10 H92 125.3 119.9
H91 C9 C10 H92 250.5 240.0
C11 C10 C9 H101 125.3 120.0
C11 C10 C9 H102 234.8 240.1
C9 C10 C11 C14 268.8 270.2
C9 C10 C11 C13 85.5 90.0
H101 C10 C9 H102 109.5 120.1
C8 C9 H91 C10 122.3 120.0
C8 C9 H91 H92 241.1 240.1
C10 C9 H91 H92 118.9 120.0
H91 C9 C10 C11 308.9 300.0
H91 C9 C10 H101 183.7 180.0
H91 C9 C10 H102 74.2 59.9
C8 C9 H92 C10 237.7 240.0
C8 C9 H92 H91 118.9 120.0
C10 C9 H92 H91 241.1 239.9
H92 C9 C10 C11 58.4 60.1
H92 C9 C10 H101 293.1 300.0
H92 C9 C10 H102 183.7 180.0
C11 C10 C9 H91 308.9 300.0
C11 C10 C9 H92 58.4 60.1
C9 C10 C11 H101 234.7 239.9
C9 C10 C11 H102 125.2 119.9
H101 C10 C11 H102 250.5 240.0
C14 C11 C10 C13 183.3 180.2
C10 C11 C14 C15 178.2 180.3
C10 C11 C14 H14 358.2 359.8
C10 C11 C13 C16 181.9 180.0
C10 C11 C13 H13 1.9 360.0
H101 C10 C9 H91 183.7 180.0
H101 C10 C9 H92 293.1 300.0
C9 C10 H101 C11 119.5 120.0
C9 C10 H101 H102 239.7 240.0
C11 C10 H101 H102 120.3 120.0
H101 C10 C11 C14 34.0 30.3
H101 C10 C11 C13 210.8 210.1
H102 C10 C9 H91 74.2 59.9
H102 C10 C9 H92 183.7 180.0
C9 C10 H102 C11 240.5 240.1
C9 C10 H102 H101 120.3 120.1
C11 C10 H102 H101 239.7 240.0
H102 C10 C11 C14 143.5 150.3
H102 C10 C11 C13 320.2 330.1
C14 C11 C10 H101 34.0 30.3
C14 C11 C10 H102 143.5 150.3
C10 C11 C14 C13 176.8 179.8
C14 C11 C13 C16 358.7 359.8
C14 C11 C13 H13 178.7 179.7
C15 C14 C11 H14 180.0 180.5
C11 C14 C15 N3 180.6 179.7
C11 C14 C15 C12 358.9 359.4
C13 C11 C10 H101 210.8 210.1
C13 C11 C10 H102 320.2 330.1
C10 C11 C13 C14 183.2 180.2
C13 C11 C14 C15 1.4 0.5
C13 C11 C14 H14 181.4 180.0
C12 C16 C13 C11 1.0 360.0
C11 C13 C16 H16 181.0 180.0
C16 C13 C11 H13 180.0 180.0
C15 C14 C11 C13 1.4 0.5
C11 C14 C15 H14 180.0 179.5
N3 C15 C14 C12 181.7 180.3
C14 C15 N3 S2 265.5 224.7
C14 C15 N3 HN3 140.3 44.8
C14 C15 C12 C16 0.8 0.3
C14 C15 C12 H12 180.8 180.2
H14 C14 C11 C13 181.4 180.0
C11 C14 H14 C15 180.0 180.5
H14 C14 C15 N3 0.6 0.3
H14 C14 C15 C12 178.8 180.0
N3 C15 C14 H14 0.6 0.3
C14 C15 N3 C12 178.2 179.7
N3 C15 C12 C16 179.1 180.0
N3 C15 C12 H12 359.1 360.0
S2 N3 C15 HN3 125.3 179.9
C15 N3 S2 O4 62.4 65.0
C15 N3 S2 O3 178.0 312.5
C15 N3 S2 O2 303.7 177.6
C12 C15 C14 H14 178.8 180.0
C14 C15 C12 N3 181.8 180.3
C12 C15 N3 S2 87.3 45.0
C12 C15 N3 HN3 322.1 225.0
C16 C12 C15 H12 180.0 180.1
C15 C12 C16 C13 359.2 0.0
C15 C12 C16 H16 179.2 180.0
S2 N3 C15 C12 87.3 45.0
C15 N3 S2 HN3 234.8 180.1
O4 S2 N3 O3 244.4 112.5
O4 S2 N3 O2 118.7 247.4
N3 S2 O4 HO4 180.0 180.0
O3 S2 N3 O2 234.3 134.9
HN3 N3 C15 C12 322.1 225.0
C15 N3 HN3 S2 136.4 179.9
HN3 N3 S2 O4 187.6 244.9
HN3 N3 S2 O3 303.2 132.4
HN3 N3 S2 O2 68.9 357.5
O4 S2 N3 HN3 187.6 244.9
N3 S2 O4 O3 106.1 247.5
N3 S2 O4 O2 246.8 112.6
O3 S2 O4 O2 140.7 225.2
O3 S2 N3 HN3 303.2 132.4
N3 S2 O3 O4 253.2 113.7
N3 S2 O3 O2 115.4 236.8
O4 S2 O3 O2 222.3 123.1
O3 S2 O4 HO4 73.9 292.6
O2 S2 N3 HN3 68.9 357.5
N3 S2 O2 O4 110.3 246.3
N3 S2 O2 O3 247.7 123.2
O4 S2 O2 O3 137.4 236.9
O2 S2 O4 HO4 293.2 67.4
HO4 O4 S2 O3 73.9 292.6
HO4 O4 S2 O2 293.2 67.4
C11 C13 C16 C12 1.0 360.0
C15 C12 C16 H12 180.0 179.9
C13 C16 C12 H16 180.0 180.0
C12 C16 C13 H13 181.0 180.0
C15 C12 H12 C16 180.0 180.1
H12 C12 C16 C13 179.2 180.1
H12 C12 C16 H16 359.2 0.0
C11 C13 C16 H13 180.0 180.0
C13 C16 C12 H12 179.2 180.1
C12 C16 C13 H16 180.0 180.0
H16 C16 C12 H12 359.2 0.0
C12 C16 H16 C13 180.0 180.0
H16 C16 C13 H13 1.0 360.0
C11 C13 H13 C16 180.0 180.0
H13 C13 C16 H16 1.0 360.0