PDB Chemical Component ETS

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 ETS

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
S1 C2 1.691 1.757
S1 C9 1.686 1.757
C2 C3 1.397 1.328
C2 S10 1.729 1.762
C3 C4 1.428 1.397
C3 H3 1.080 1.081
C4 C5 1.485 1.517
C4 C9 1.415 1.347
C5 C6 1.542 1.521
C5 N14 1.474 1.469
C5 H5 1.100 1.090
C6 C7 1.510 1.534
C6 H61 1.100 1.089
C6 H62 1.100 1.091
C7 S8 1.779 1.823
C7 C15 1.539 1.529
C7 H7 1.100 1.091
S8 C9 1.723 1.771
S8 O16 1.439 1.421
S8 O17 1.439 1.421
S10 O11 1.435 1.421
S10 O12 1.437 1.421
S10 N13 1.713 1.657
N13 HN31 1.000 0.970
N13 HN32 1.000 0.970
N14 C18 1.469 1.469
N14 HN4 1.000 1.009
C15 H151 1.100 1.090
C15 H152 1.100 1.091
C15 H153 1.099 1.090
C18 C19 1.530 1.530
C18 H181 1.100 1.091
C18 H182 1.100 1.090
C19 H191 1.100 1.090
C19 H192 1.100 1.089
C19 H193 1.100 1.090

Bond Angles for ETS

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C2 S1 C9 92.2 91.0
S1 C2 C3 113.8 109.5
S1 C2 S10 120.3 125.2
S1 C9 C4 112.1 110.4
S1 C9 S8 122.2 125.4
C3 C2 S10 125.9 125.3
C2 C3 C4 110.1 116.0
C2 C3 H3 124.9 122.0
C2 S10 O11 105.9 106.4
C2 S10 O12 108.4 106.4
C2 S10 N13 107.8 107.2
C4 C3 H3 125.0 122.0
C3 C4 C5 124.1 122.4
C3 C4 C9 111.8 113.0
C5 C4 C9 124.1 124.5
C4 C5 C6 110.5 112.1
C4 C5 N14 107.8 109.0
C4 C5 H5 109.5 109.0
C4 C9 S8 125.0 124.2
C6 C5 N14 110.7 108.9
C6 C5 H5 108.7 108.9
C5 C6 C7 115.3 110.3
C5 C6 H61 108.0 109.4
C5 C6 H62 108.0 109.3
N14 C5 H5 109.6 108.8
C5 N14 C18 114.2 111.0
C5 N14 HN4 108.3 111.0
C7 C6 H61 108.0 109.3
C7 C6 H62 108.0 109.3
C6 C7 S8 106.2 107.3
C6 C7 C15 109.4 109.9
C6 C7 H7 111.6 109.9
H61 C6 H62 109.5 109.2
S8 C7 C15 110.1 109.9
S8 C7 H7 108.2 109.9
C7 S8 C9 99.9 102.1
C7 S8 O16 108.1 110.8
C7 S8 O17 112.4 110.9
C15 C7 H7 111.2 110.0
C7 C15 H151 109.5 109.5
C7 C15 H152 109.5 109.5
C7 C15 H153 109.4 109.5
C9 S8 O16 108.5 104.7
C9 S8 O17 106.4 104.7
O16 S8 O17 119.6 121.4
O11 S10 O12 118.2 123.2
O11 S10 N13 107.7 106.4
O12 S10 N13 108.4 106.4
S10 N13 HN31 109.5 120.0
S10 N13 HN32 109.5 120.0
HN31 N13 HN32 109.4 120.0
C18 N14 HN4 108.3 111.0
N14 C18 C19 107.0 109.5
N14 C18 H181 110.1 109.5
N14 C18 H182 110.1 109.5
H151 C15 H152 109.5 109.5
H151 C15 H153 109.5 109.5
H152 C15 H153 109.5 109.4
C19 C18 H181 110.1 109.5
C19 C18 H182 110.1 109.5
C18 C19 H191 109.5 109.4
C18 C19 H192 109.5 109.5
C18 C19 H193 109.5 109.5
H181 C18 H182 109.5 109.5
H191 C19 H192 109.5 109.5
H191 C19 H193 109.4 109.5
H192 C19 H193 109.5 109.5

Torsion Angles for ETS

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C2 S1 C9 C4 359.0 359.6
C2 S1 C9 S8 188.1 179.3
C3 C2 S1 S10 181.5 179.9
S1 C2 C3 C4 359.4 0.1
S1 C2 C3 H3 179.4 180.1
S1 C2 S10 O11 29.1 23.5
S1 C2 S10 O12 261.3 156.5
S1 C2 S10 N13 144.2 270.0
C9 S1 C2 C3 0.9 0.2
C9 S1 C2 S10 179.4 180.2
C3 C4 C9 S1 0.8 0.5
C5 C4 C9 S1 178.9 181.1
C4 C9 S1 S8 170.9 180.3
C7 S8 C9 S1 195.8 169.1
S1 C9 S8 O16 308.8 284.7
S1 C9 S8 O17 78.8 53.4
C3 C2 S1 C9 0.9 0.2
S1 C2 C3 S10 178.4 180.1
C3 C2 S10 O11 207.4 203.6
C3 C2 S10 O12 79.6 336.5
C3 C2 S10 N13 322.5 90.1
C4 C3 C2 H3 180.0 180.1
C2 C3 C4 C5 181.7 179.0
C2 C3 C4 C9 359.9 359.6
S10 C2 S1 C9 179.4 180.2
S1 C2 S10 C3 181.7 179.9
S10 C2 C3 C4 181.1 180.0
S10 C2 C3 H3 1.1 360.0
O11 S10 C2 O12 127.8 227.0
O11 S10 C2 N13 244.9 113.5
O12 S10 C2 N13 117.1 246.5
C2 S10 N13 HN31 180.0 150.0
C2 S10 N13 HN32 300.0 330.0
S1 C9 C4 C3 0.8 0.5
C4 C3 C2 S10 181.1 180.0
C2 C3 C4 H3 180.0 179.9
C5 C4 C3 C9 181.9 179.5
C3 C4 C5 C6 196.3 156.7
C3 C4 C5 N14 75.2 36.0
C3 C4 C5 H5 316.0 277.3
C3 C4 C9 S8 171.4 180.8
H3 C3 C2 S10 1.1 360.0
C2 C3 H3 C4 180.0 180.1
H3 C3 C4 C5 1.7 359.1
H3 C3 C4 C9 179.8 179.6
S1 C9 C4 C5 178.9 181.1
C5 C4 C3 H3 1.7 359.1
C3 C4 C5 C9 177.9 180.6
C5 C4 C9 S8 349.5 1.3
C6 C5 C4 N14 121.1 120.7
C6 C5 C4 H5 240.3 239.3
C4 C5 C6 C7 307.1 61.6
C4 C5 C6 H61 68.0 181.8
C4 C5 C6 H62 186.2 301.3
N14 C5 C4 H5 119.2 118.7
C4 C5 N14 C18 191.9 205.8
C4 C5 N14 HN4 312.6 329.8
S1 C9 C4 S8 189.4 179.7
C9 C4 C3 H3 179.8 179.6
C3 C4 C9 C5 181.9 179.5
C9 C4 C5 C6 18.5 336.1
C9 C4 C5 N14 257.4 215.4
C9 C4 C5 H5 138.2 96.8
C7 S8 C9 C4 26.2 348.8
C4 C9 S8 O16 139.1 104.4
C4 C9 S8 O17 269.1 233.1
C6 C5 C4 C9 18.5 336.1
C4 C5 C6 N14 240.6 239.3
C4 C5 C6 H5 120.2 120.7
N14 C5 C6 H5 239.5 241.4
C6 C5 N14 C18 70.9 83.2
C6 C5 N14 HN4 191.6 207.2
C7 C6 C5 H61 239.2 239.7
C7 C6 C5 H62 120.9 120.2
C5 C6 C7 S8 72.9 288.0
C5 C6 C7 C15 191.7 47.4
C5 C6 C7 H7 315.2 168.6
H61 C6 C5 H62 241.7 240.5
N14 C5 C4 C9 257.4 215.4
C4 C5 N14 C6 121.0 122.6
C4 C5 N14 H5 240.9 241.2
C6 C5 N14 H5 119.9 118.7
N14 C5 C6 C7 66.5 182.3
N14 C5 C6 H61 187.3 302.5
N14 C5 C6 H62 305.6 62.0
C18 N14 C5 HN4 239.3 236.0
C5 N14 C18 C19 166.4 185.1
C5 N14 C18 H181 286.0 305.1
C5 N14 C18 H182 46.8 65.1
H5 C5 C4 C9 138.2 96.8
C4 C5 H5 C6 239.2 237.4
C4 C5 H5 N14 118.1 118.8
C6 C5 H5 N14 238.9 241.3
H5 C5 C6 C7 186.9 300.8
H5 C5 C6 H61 307.8 61.1
H5 C5 C6 H62 66.1 180.6
H5 C5 N14 C18 311.0 324.6
H5 C5 N14 HN4 71.7 88.6
C7 C6 C5 N14 66.5 182.3
C7 C6 C5 H5 186.9 300.8
C5 C6 C7 H61 120.8 120.3
C5 C6 C7 H62 239.1 239.8
H61 C6 C7 H62 118.3 119.5
S8 C7 C6 C15 241.2 240.5
S8 C7 C6 H7 117.7 119.4
C6 C7 S8 C9 307.9 43.6
C6 C7 S8 O16 194.6 292.5
C6 C7 S8 O17 60.4 154.7
C15 C7 C6 H7 236.5 238.9
C6 C7 C15 H151 180.0 60.0
C6 C7 C15 H152 300.0 180.0
C6 C7 C15 H153 60.0 299.9
H61 C6 C5 N14 187.3 302.5
H61 C6 C5 H5 307.8 61.1
C5 C6 H61 C7 234.7 239.2
C5 C6 H61 H62 117.3 119.6
C7 C6 H61 H62 242.6 240.4
H61 C6 C7 S8 312.0 167.7
H61 C6 C7 C15 70.9 287.2
H61 C6 C7 H7 194.3 48.3
H62 C6 C5 N14 305.6 62.0
H62 C6 C5 H5 66.1 180.6
C5 C6 H62 C7 125.3 120.8
C5 C6 H62 H61 242.7 240.4
C7 C6 H62 H61 117.4 119.6
H62 C6 C7 S8 193.7 48.2
H62 C6 C7 C15 312.6 167.6
H62 C6 C7 H7 76.0 288.8
S1 C9 S8 C7 195.8 169.1
C4 C9 S8 C7 26.2 348.8
S8 C7 C6 H61 312.0 167.7
S8 C7 C6 H62 193.7 48.2
C6 C7 S8 C15 118.4 119.5
C6 C7 S8 H7 240.0 240.6
C15 C7 S8 H7 121.7 121.1
S8 C7 C15 H151 296.4 177.8
S8 C7 C15 H152 56.4 297.8
S8 C7 C15 H153 176.4 57.8
C9 S8 C7 O16 113.3 111.0
C9 S8 C7 O17 247.5 248.9
O16 S8 C7 O17 134.2 137.9
C15 C7 C6 H61 70.9 287.2
C15 C7 C6 H62 312.6 167.6
C6 C7 C15 S8 243.6 242.2
C6 C7 C15 H7 123.7 121.1
S8 C7 C15 H7 240.1 238.9
C15 C7 S8 C9 189.5 284.1
C15 C7 S8 O16 76.2 173.1
C15 C7 S8 O17 302.0 35.2
H151 C15 C7 H152 240.0 240.0
H151 C15 C7 H153 120.0 120.0
H152 C15 C7 H153 240.0 240.1
H7 C7 C6 H61 194.3 48.3
H7 C7 C6 H62 76.0 288.8
C6 C7 H7 S8 116.5 117.8
C6 C7 H7 C15 237.5 238.9
S8 C7 H7 C15 121.0 121.1
H7 C7 S8 C9 67.9 163.0
H7 C7 S8 O16 314.5 51.9
H7 C7 S8 O17 180.3 274.1
H7 C7 C15 H151 56.3 298.9
H7 C7 C15 H152 176.3 58.9
H7 C7 C15 H153 296.3 178.9
S1 C9 S8 C4 169.7 180.3
C9 S8 C7 C15 189.5 284.1
C9 S8 C7 H7 67.9 163.0
C7 S8 C9 O16 247.0 244.4
C7 S8 C9 O17 117.1 115.7
O16 S8 C9 O17 230.1 231.3
O16 S8 C7 C15 76.2 173.1
O16 S8 C7 H7 314.5 51.9
C7 S8 O16 C9 107.5 109.4
C7 S8 O16 O17 229.7 227.2
C9 S8 O16 O17 122.2 117.9
O17 S8 C7 C15 302.0 35.2
O17 S8 C7 H7 180.3 274.1
C7 S8 O17 C9 251.6 250.6
C7 S8 O17 O16 128.3 132.7
C9 S8 O17 O16 236.7 242.2
C2 S10 O11 O12 238.3 123.0
C2 S10 O11 N13 115.1 246.0
O12 S10 O11 N13 236.8 122.9
O11 S10 N13 HN31 293.9 36.5
O11 S10 N13 HN32 53.8 216.5
C2 S10 O12 O11 120.4 237.0
C2 S10 O12 N13 243.3 114.1
O11 S10 O12 N13 122.9 237.1
O12 S10 N13 HN31 62.9 263.5
O12 S10 N13 HN32 182.8 83.5
C2 S10 N13 O11 246.2 113.5
C2 S10 N13 O12 117.1 246.5
O11 S10 N13 O12 231.0 132.9
HN31 N13 S10 HN32 240.0 180.0
S10 N13 HN31 HN32 120.0 180.0
S10 N13 HN32 HN31 240.0 180.0
C18 N14 C5 H5 311.0 324.6
C5 N14 C18 HN4 120.7 124.0
C19 C18 N14 H181 240.4 240.0
C19 C18 N14 H182 119.6 120.1
N14 C18 C19 H191 180.0 300.0
N14 C18 C19 H192 300.0 60.0
N14 C18 C19 H193 60.0 180.1
H181 C18 N14 H182 239.3 240.0
HN4 N14 C5 H5 71.7 88.6
C5 N14 HN4 C18 235.7 236.0
HN4 N14 C18 C19 45.7 61.1
HN4 N14 C18 H181 165.3 181.1
HN4 N14 C18 H182 286.0 301.1
H151 C15 C7 H7 56.3 298.9
C7 C15 H151 H152 120.0 120.1
C7 C15 H151 H153 240.0 240.0
H152 C15 H151 H153 120.0 119.9
H152 C15 C7 H7 176.3 58.9
C7 C15 H152 H151 240.0 239.9
C7 C15 H152 H153 120.0 120.0
H151 C15 H152 H153 240.0 240.1
H153 C15 C7 H7 296.3 178.9
C7 C15 H153 H151 120.0 120.0
C7 C15 H153 H152 240.0 240.0
H151 C15 H153 H152 120.0 119.9
C19 C18 N14 HN4 45.7 61.1
N14 C18 C19 H181 119.6 120.0
N14 C18 C19 H182 240.4 240.0
H181 C18 C19 H182 120.8 120.0
H191 C19 C18 H192 240.0 240.0
H191 C19 C18 H193 120.0 119.9
H192 C19 C18 H193 240.0 239.9
H181 C18 N14 HN4 165.3 181.1
N14 C18 H181 C19 242.3 240.0
N14 C18 H181 H182 121.1 120.0
C19 C18 H181 H182 238.9 240.0
H181 C18 C19 H191 60.4 180.0
H181 C18 C19 H192 180.4 300.0
H181 C18 C19 H193 300.4 60.1
H182 C18 N14 HN4 286.0 301.1
N14 C18 H182 C19 117.7 120.0
N14 C18 H182 H181 238.9 240.0
C19 C18 H182 H181 121.2 120.0
H182 C18 C19 H191 299.6 60.0
H182 C18 C19 H192 59.6 180.0
H182 C18 C19 H193 179.6 300.1
H191 C19 C18 H181 60.4 180.0
H191 C19 C18 H182 299.6 60.0
C18 C19 H191 H192 120.0 120.0
C18 C19 H191 H193 240.0 240.1
H192 C19 H191 H193 120.0 120.1
H192 C19 C18 H181 180.4 300.0
H192 C19 C18 H182 59.6 180.0
C18 C19 H192 H191 240.0 240.1
C18 C19 H192 H193 120.0 120.0
H191 C19 H192 H193 240.0 240.0
H193 C19 C18 H181 300.4 60.1
H193 C19 C18 H182 179.6 300.1
C18 C19 H193 H191 120.0 119.9
C18 C19 H193 H192 240.0 239.9
H191 C19 H193 H192 120.0 120.0