PDB Chemical Component SUA

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 SUA

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
S1 O1 1.428 1.421
S1 O2 1.451 1.421
S1 N1 1.580 1.656
S1 C3 1.771 1.762
N1 HN11 1.000 0.970
N1 HN12 1.000 0.969
C1 C2 1.387 1.380
C1 C6 1.393 1.390
C1 H11 1.080 1.080
C2 C3 1.376 1.383
C2 H21 1.080 1.080
C3 C4 1.377 1.383
C4 C5 1.381 1.381
C4 H41 1.080 1.080
C5 C6 1.391 1.388
C5 H51 1.080 1.080
C6 N2 1.384 1.399
N2 C7 1.256 1.348
N2 HN21 1.000 0.970
C7 S2 1.590 1.712
C7 O3 1.462 1.347
O3 C8 1.508 1.452
C8 C9 1.524 1.531
C8 H81 1.100 1.090
C8 H82 1.100 1.090
C9 C10 1.538 1.507
C9 H91 1.100 1.090
C9 H92 1.100 1.090
C10 C11   1.385
C10 C13   1.333
C11 C12   1.335
C11 H111   1.080
C12 S3   1.759
C12 H121   1.079
S3 C13   1.759
C13 H131   1.081

Bond Angles for SUA

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
O1 S1 O2 116.9 123.2
O1 S1 N1 110.4 106.4
O1 S1 C3 105.7 106.4
O2 S1 N1 110.6 106.4
O2 S1 C3 105.6 106.4
N1 S1 C3 107.0 107.2
S1 N1 HN11 109.5 120.0
S1 N1 HN12 109.5 120.0
S1 C3 C2 119.2 119.9
S1 C3 C4 121.0 119.9
HN11 N1 HN12 109.4 120.0
C2 C1 C6 118.4 119.9
C2 C1 H11 120.8 120.1
C1 C2 C3 121.8 120.1
C1 C2 H21 119.1 120.0
C6 C1 H11 120.8 120.0
C1 C6 C5 119.4 119.9
C1 C6 N2 121.6 120.0
C3 C2 H21 119.1 119.9
C2 C3 C4 119.7 120.1
C3 C4 C5 119.5 120.1
C3 C4 H41 120.3 120.0
C5 C4 H41 120.3 120.0
C4 C5 C6 120.9 119.9
C4 C5 H51 119.5 120.1
C6 C5 H51 119.6 120.0
C5 C6 N2 119.0 120.1
C6 N2 C7 123.3 120.0
C6 N2 HN21 118.3 120.0
C7 N2 HN21 118.4 120.0
N2 C7 S2 106.0 120.0
N2 C7 O3 136.7 120.0
S2 C7 O3 116.2 120.0
C7 O3 C8 135.9 117.0
O3 C8 C9 100.2 109.4
O3 C8 H81 112.7 109.5
O3 C8 H82 112.7 109.5
C9 C8 H81 112.7 109.5
C9 C8 H82 112.7 109.4
C8 C9 C10 100.1 109.5
C8 C9 H91 112.8 109.5
C8 C9 H92 112.7 109.5
H81 C8 H82 106.1 109.5
C10 C9 H91 112.7 109.5
C10 C9 H92 112.7 109.4
C9 C10 C11   122.5
C9 C10 C13   122.6
H91 C9 H92 106.0 109.5
C11 C10 C13   114.9
C10 C11 C12   114.9
C10 C11 H111   122.5
C10 C13 S3   109.6
C10 C13 H131   125.2
C12 C11 H111   122.6
C11 C12 S3   109.6
C11 C12 H121   125.2
S3 C12 H121   125.2
C12 S3 C13   91.0
S3 C13 H131   125.2

Torsion Angles for SUA

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
O2 S1 O1 N1 232.5 237.0
O2 S1 O1 C3 117.1 122.9
N1 S1 O1 C3 244.6 245.9
O1 S1 N1 HN11 180.0 113.5
O1 S1 N1 HN12 300.0 293.5
O1 S1 C3 C2 193.5 336.4
O1 S1 C3 C4 16.9 156.4
O1 S1 O2 N1 127.5 123.0
O1 S1 O2 C3 242.9 237.1
N1 S1 O2 C3 115.4 114.1
O2 S1 N1 HN11 311.0 246.5
O2 S1 N1 HN12 71.0 66.5
O2 S1 C3 C2 69.0 203.5
O2 S1 C3 C4 252.4 23.5
O1 S1 N1 O2 229.0 227.0
O1 S1 N1 C3 114.6 113.5
O2 S1 N1 C3 245.5 246.5
N1 S1 C3 C2 311.2 90.0
N1 S1 C3 C4 134.6 270.0
HN11 N1 S1 HN12 240.0 180.0
O1 S1 C3 O2 124.5 132.9
O1 S1 C3 N1 242.3 246.4
O2 S1 C3 N1 117.8 113.5
C3 S1 N1 HN11 65.5 360.0
C3 S1 N1 HN12 185.4 180.0
C1 C2 C3 S1 183.2 180.0
S1 C3 C2 H21 3.2 0.0
C2 C3 S1 C4 176.7 180.0
S1 C3 C4 C5 178.6 180.0
S1 C3 C4 H41 358.6 360.0
HN11 N1 S1 C3 65.5 360.0
S1 N1 HN11 HN12 120.0 180.0
HN12 N1 S1 C3 185.4 180.0
S1 N1 HN12 HN11 240.0 180.0
S1 C3 C2 C1 183.2 180.0
C6 C1 C2 H11 180.0 180.2
C2 C1 C6 C5 354.9 0.0
C2 C1 C6 N2 176.4 180.0
C3 C2 C1 H21 180.0 180.0
C1 C2 C3 C4 359.9 0.0
C2 C1 C6 H11 180.0 179.8
C6 C1 C2 C3 1.7 360.0
C6 C1 C2 H21 181.7 180.0
C4 C5 C6 C1 7.2 0.0
C1 C6 C5 H51 187.1 179.9
C5 C6 C1 N2 178.4 180.1
C1 C6 N2 C7 133.8 41.9
C1 C6 N2 HN21 313.8 221.8
C2 C1 H11 C6 180.0 180.2
H11 C1 C2 C3 181.7 179.8
H11 C1 C2 H21 1.7 359.8
H11 C1 C6 C5 174.8 180.2
H11 C1 C6 N2 356.4 0.2
S1 C3 C2 C4 183.3 180.0
C3 C2 C1 C6 1.7 360.0
C3 C2 C1 H11 181.7 179.8
C1 C2 C3 H21 180.0 180.0
C2 C3 C4 C5 1.9 0.0
C2 C3 C4 H41 182.0 180.0
H21 C2 C1 C6 181.7 180.0
H21 C2 C1 H11 1.7 359.8
C1 C2 H21 C3 180.0 180.0
H21 C2 C3 C4 179.9 180.0
S1 C3 C4 C2 176.7 180.0
C4 C3 C2 H21 179.9 180.0
C5 C4 C3 H41 180.0 180.1
C3 C4 C5 C6 354.5 360.0
C3 C4 C5 H51 174.5 180.0
C1 C6 C5 C4 7.2 0.0
C3 C4 C5 H41 180.0 179.9
C6 C5 C4 H51 180.0 179.9
C4 C5 C6 N2 185.6 180.1
C3 C4 H41 C5 180.0 180.1
H41 C4 C5 C6 174.5 180.0
H41 C4 C5 H51 354.5 0.1
C5 C6 C1 H11 174.8 180.2
C1 C6 C5 N2 181.5 179.9
C6 C5 C4 H41 174.5 180.0
C4 C5 C6 H51 180.0 180.1
C5 C6 N2 C7 315.4 221.8
C5 C6 N2 HN21 135.4 41.7
H51 C5 C4 H41 354.5 0.1
C4 C5 H51 C6 180.0 179.9
H51 C5 C6 N2 5.6 360.0
N2 C6 C1 H11 356.4 0.2
C1 C6 N2 C5 178.4 180.1
N2 C6 C5 H51 5.6 360.0
C7 N2 C6 HN21 180.0 180.1
C6 N2 C7 S2 198.5 5.5
C6 N2 C7 O3 31.6 185.5
C6 N2 C7 HN21 180.0 179.9
S2 C7 N2 O3 166.9 179.9
N2 C7 O3 C8 143.8 180.0
C6 N2 HN21 C7 180.0 180.1
HN21 N2 C7 S2 18.5 185.6
HN21 N2 C7 O3 211.6 5.6
S2 C7 N2 HN21 18.5 185.6
N2 C7 S2 O3 190.0 180.1
S2 C7 O3 C8 337.8 0.0
O3 C7 N2 HN21 211.6 5.6
N2 C7 O3 S2 166.0 179.9
C7 O3 C8 C9 126.5 180.0
C7 O3 C8 H81 246.5 300.0
C7 O3 C8 H82 6.5 60.0
C9 C8 O3 H81 240.0 240.0
C9 C8 O3 H82 120.0 120.0
O3 C8 C9 C10 195.1 180.0
O3 C8 C9 H91 315.1 300.0
O3 C8 C9 H92 75.1 60.0
H81 C8 O3 H82 240.0 240.0
O3 C8 C9 H81 120.0 120.0
O3 C8 C9 H82 240.0 240.0
H81 C8 C9 H82 120.0 120.0
C10 C9 C8 H91 240.0 240.0
C10 C9 C8 H92 120.0 120.0
C8 C9 C10 C11   90.0
C8 C9 C10 C13   269.7
H91 C9 C8 H92 240.0 240.0
O3 C8 H81 C9 247.5 240.0
O3 C8 H81 H82 123.8 120.0
C9 C8 H81 H82 236.3 240.0
H81 C8 C9 C10 75.1 60.0
H81 C8 C9 H91 195.0 180.0
H81 C8 C9 H92 315.1 300.0
O3 C8 H82 C9 112.5 120.0
O3 C8 H82 H81 236.2 239.9
C9 C8 H82 H81 123.7 120.0
H82 C8 C9 C10 315.1 300.0
H82 C8 C9 H91 75.1 60.0
H82 C8 C9 H92 195.1 180.0
C10 C9 C8 H81 75.1 60.0
C10 C9 C8 H82 315.1 300.0
C8 C9 C10 H91 120.0 120.0
C8 C9 C10 H92 240.0 240.0
H91 C9 C10 H92 120.0 120.0
C11 C10 C9 C13   180.3
C9 C10 C11 C12   179.9
C9 C10 C11 H111   360.0
C9 C10 C13 S3   179.9
C9 C10 C13 H131   360.0
H91 C9 C8 H81 195.0 180.0
H91 C9 C8 H82 75.1 60.0
C8 C9 H91 C10 247.6 240.0
C8 C9 H91 H92 123.8 120.0
C10 C9 H91 H92 236.2 240.0
H91 C9 C10 C11   330.0
H91 C9 C10 C13   149.7
H92 C9 C8 H81 315.1 300.0
H92 C9 C8 H82 195.1 180.0
C8 C9 H92 C10 112.4 120.0
C8 C9 H92 H91 236.2 240.0
C10 C9 H92 H91 123.8 120.0
H92 C9 C10 C11   210.0
H92 C9 C10 C13   29.7
C11 C10 C9 H91   330.0
C11 C10 C9 H92   210.0
C9 C10 C11 C13   179.7
C11 C10 C13 S3   359.7
C11 C10 C13 H131   179.7
C12 C11 C10 H111   180.0
C10 C11 C12 S3   0.0
C10 C11 C12 H121   179.9
C13 C10 C9 H91   149.7
C13 C10 C9 H92   29.7
C9 C10 C13 C11   180.3
C13 C10 C11 C12   0.2
C13 C10 C11 H111   180.3
C12 S3 C13 C10   0.3
S3 C13 C10 H131   179.9
C12 C11 C10 C13   0.2
C10 C11 C12 H111   180.0
S3 C12 C11 H121   180.1
C11 C12 S3 C13   359.8
H111 C11 C10 C13   180.3
C10 C11 H111 C12   179.9
H111 C11 C12 S3   180.0
H111 C11 C12 H121   359.9
C10 C13 S3 C12   0.3
S3 C12 C11 H111   180.0
C11 C12 S3 H121   179.9
C12 S3 C13 H131   180.2
H121 C12 C11 H111   359.9
C11 C12 H121 S3   180.1
H121 C12 S3 C13   179.9
C10 C13 S3 H131   180.1
C13 S3 C12 H121   179.9
C10 C13 H131 S3   179.9