PDB Chemical Component ELI

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 ELI

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C1 C2 1.509 1.386
C1 C6 1.520 1.382
C1 H1 1.080 1.080
C2 C3 1.496 1.390
C2 H2 1.080 1.080
C3 C4 1.600 1.407
C3 C10 1.587 1.479
C4 C5 1.510 1.390
C4 C11 1.598 1.479
C5 C6 1.497 1.386
C5 H5 1.080 1.080
C6 H6 1.080 1.081
O7 C10 1.274 1.214
C10 C15 1.639 1.475
C11 C14 1.626 1.475
C11 O16 1.248 1.215
C14 C15 1.500 1.340
C14 C17 1.549 1.508
C15 C18 1.509 1.507
C17 H171 1.101 1.090
C17 H172 1.100 1.091
C17 H173 1.101 1.090
C18 C19 1.609 1.530
C18 H181 1.100 1.090
C18 H182 1.100 1.090
C19 C20 1.441 1.530
C19 H191 1.100 1.090
C19 H192 1.100 1.090
C20 C23 1.403 1.530
C20 H201 1.100 1.090
C20 H202 1.100 1.090
C23 C26 1.503 1.530
C23 H231 1.099 1.091
C23 H232 1.100 1.090
C26 C43 1.454 1.507
C26 H261 1.100 1.090
C26 H262 1.100 1.090
C43 O44 1.095 1.342
C43 O45 1.325 1.209
O45 HO45 0.950  

Bond Angles for ELI

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C2 C1 C6 121.0 120.4
C2 C1 H1 119.5 119.8
C1 C2 C3 120.3 119.8
C1 C2 H2 119.9 120.1
C6 C1 H1 119.5 119.8
C1 C6 C5 120.6 120.5
C1 C6 H6 119.7 119.7
C3 C2 H2 119.9 120.1
C2 C3 C4 118.7 119.7
C2 C3 C10 121.6 120.9
C4 C3 C10 119.7 119.4
C3 C4 C5 119.4 119.8
C3 C4 C11 120.8 119.3
C3 C10 O7 120.3 120.1
C3 C10 C15 117.7 119.7
C5 C4 C11 119.8 120.9
C4 C5 C6 120.0 119.7
C4 C5 H5 120.0 120.1
C4 C11 C14 118.8 119.7
C4 C11 O16 120.2 120.1
C6 C5 H5 120.0 120.2
C5 C6 H6 119.7 119.8
O7 C10 C15 122.0 120.1
C10 C15 C14 123.2 120.9
C10 C15 C18 113.7 119.6
C14 C11 O16 121.0 120.1
C11 C14 C15 119.8 120.9
C11 C14 C17 113.0 119.5
C15 C14 C17 127.2 119.5
C14 C15 C18 123.1 119.5
C14 C17 H171 109.5 109.5
C14 C17 H172 109.5 109.4
C14 C17 H173 109.5 109.5
C15 C18 C19 100.4 109.5
C15 C18 H181 114.5 109.4
C15 C18 H182 112.6 109.5
H171 C17 H172 109.5 109.5
H171 C17 H173 109.4 109.5
H172 C17 H173 109.5 109.5
C19 C18 H181 114.5 109.5
C19 C18 H182 112.6 109.5
C18 C19 C20 161.0 109.5
C18 C19 H191 88.1 109.5
C18 C19 H192 94.8 109.5
H181 C18 H182 102.7 109.5
C20 C19 H191 88.1 109.4
C20 C19 H192 94.8 109.5
C19 C20 C23 93.7 109.5
C19 C20 H201 118.1 109.5
C19 C20 H202 115.1 109.5
H191 C19 H192 161.1 109.5
C23 C20 H201 118.1 109.4
C23 C20 H202 115.1 109.5
C20 C23 C26 96.8 109.5
C20 C23 H231 116.4 109.4
C20 C23 H232 113.9 109.5
H201 C20 H202 98.0 109.4
C26 C23 H231 116.4 109.5
C26 C23 H232 113.9 109.5
C23 C26 C43 124.4 109.5
C23 C26 H261 101.3 109.5
C23 C26 H262 104.7 109.5
H231 C23 H232 100.2 109.5
C43 C26 H261 101.2 109.5
C43 C26 H262 104.8 109.5
C26 C43 O44 133.8 120.0
C26 C43 O45 107.8 120.0
H261 C26 H262 122.1 109.5
O44 C43 O45 118.4 120.0
C43 O45 HO45 109.5  

Torsion Angles for ELI

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C6 C1 C2 H1 180.0 180.1
C2 C1 C6 C5 0.1 359.9
C2 C1 C6 H6 180.1 180.0
C3 C2 C1 H2 180.0 180.0
C1 C2 C3 C4 0.1 0.0
C1 C2 C3 C10 179.9 180.0
C2 C1 C6 H1 180.0 179.9
C6 C1 C2 C3 359.9 0.0
C6 C1 C2 H2 179.9 180.0
C4 C5 C6 C1 360.0 0.1
C1 C6 C5 H5 180.0 180.0
C5 C6 C1 H6 180.0 180.0
C2 C1 H1 C6 180.0 180.1
H1 C1 C2 C3 179.9 179.9
H1 C1 C2 H2 359.9 360.0
H1 C1 C6 C5 180.1 180.0
H1 C1 C6 H6 0.1 0.1
C3 C2 C1 C6 359.9 0.0
C3 C2 C1 H1 179.9 179.9
C1 C2 C3 H2 180.0 180.0
C4 C3 C2 C10 180.2 180.1
C2 C3 C4 C5 360.0 360.0
C2 C3 C4 C11 179.9 179.6
C2 C3 C10 O7 0.1 0.0
C2 C3 C10 C15 179.9 180.1
H2 C2 C1 C6 179.9 180.0
H2 C2 C1 H1 359.9 360.0
C1 C2 H2 C3 180.0 180.0
H2 C2 C3 C4 180.1 180.0
H2 C2 C3 C10 359.9 359.9
C4 C3 C2 H2 180.1 180.0
C2 C3 C4 C10 179.8 179.9
C4 C3 C10 O7 179.9 180.0
C4 C3 C10 C15 359.7 0.0
C5 C4 C3 C11 180.0 180.4
C3 C4 C5 C6 360.0 359.9
C3 C4 C5 H5 180.0 180.0
C3 C4 C11 C14 0.2 0.6
C3 C4 C11 O16 180.1 180.3
C10 C3 C2 H2 359.9 359.9
C2 C3 C10 C4 180.2 180.1
C10 C3 C4 C5 180.2 180.0
C10 C3 C4 C11 0.1 359.7
O7 C10 C3 C15 180.2 179.9
C3 C10 C15 C14 0.2 0.0
C3 C10 C15 C18 180.7 180.0
C1 C6 C5 C4 360.0 0.1
C5 C4 C3 C10 180.2 180.0
C3 C4 C5 C11 180.0 179.6
C5 C4 C11 C14 180.2 180.2
C5 C4 C11 O16 0.1 359.9
C6 C5 C4 H5 180.0 179.9
C4 C5 C6 H6 179.9 180.1
C11 C4 C3 C10 0.1 359.7
C3 C4 C11 C5 180.0 180.4
C11 C4 C5 C6 180.0 180.3
C11 C4 C5 H5 0.0 0.4
C14 C11 C4 O16 180.1 180.3
C4 C11 C14 C15 359.7 359.4
C4 C11 C14 C17 179.5 179.7
C5 C6 C1 H1 180.1 180.0
C1 C6 C5 H6 180.0 180.0
C6 C5 C4 C11 180.0 180.3
C4 C5 C6 H5 180.0 180.1
H5 C5 C4 C11 0.0 0.4
C4 C5 H5 C6 180.0 179.9
H5 C5 C6 H6 359.9 360.0
H6 C6 C1 H1 0.1 0.1
C1 C6 H6 C5 180.0 180.0
H6 C6 C5 H5 359.9 360.0
C3 C10 O7 C15 179.8 180.1
O7 C10 C15 C14 180.0 180.1
O7 C10 C15 C18 0.5 0.0
C3 C10 C15 O7 180.2 179.9
C11 C14 C15 C10 0.1 0.3
C10 C15 C14 C17 180.3 180.0
C14 C15 C10 C18 179.5 180.0
C10 C15 C18 C19 83.8 275.0
C10 C15 C18 H181 320.6 35.0
C10 C15 C18 H182 203.7 155.0
C4 C11 C14 O16 179.9 179.7
C10 C15 C14 C11 0.1 0.3
C15 C14 C11 C17 180.2 179.8
C11 C14 C15 C18 179.6 180.3
C11 C14 C17 H171 34.2 269.8
C11 C14 C17 H172 274.2 29.7
C11 C14 C17 H173 154.2 149.7
C4 C11 O16 C14 180.1 180.3
O16 C11 C14 C15 179.8 179.7
O16 C11 C14 C17 359.6 360.0
C10 C15 C14 C18 180.5 180.0
C15 C14 C11 O16 179.8 179.7
C11 C14 C15 C17 179.8 180.2
C15 C14 C17 H171 214.0 90.0
C15 C14 C17 H172 94.0 210.0
C15 C14 C17 H173 334.0 330.0
C14 C15 C18 C19 264.2 95.0
C14 C15 C18 H181 141.0 215.0
C14 C15 C18 H182 24.2 335.0
C17 C14 C11 O16 359.6 360.0
C11 C14 C17 C15 180.2 179.8
C17 C14 C15 C18 359.8 0.0
H171 C17 C14 H172 120.0 240.1
H171 C17 C14 H173 240.0 120.1
H172 C17 C14 H173 120.0 240.0
C10 C15 C18 C14 179.5 180.0
C18 C15 C14 C17 359.8 0.0
C19 C18 C15 H181 123.2 240.0
C19 C18 C15 H182 240.0 120.0
C15 C18 C19 C20 136.3 180.0
C15 C18 C19 H191 57.5 300.0
C15 C18 C19 H192 256.3 60.0
H181 C18 C15 H182 116.8 240.0
C14 C17 H171 H172 240.0 119.9
C14 C17 H171 H173 120.0 240.0
H172 C17 H171 H173 240.0 120.1
C14 C17 H172 H171 120.0 240.1
C14 C17 H172 H173 240.0 120.0
H171 C17 H172 H173 120.0 239.9
C14 C17 H173 H171 240.0 120.0
C14 C17 H173 H172 120.0 240.1
H171 C17 H173 H172 240.0 120.1
C15 C18 C19 H181 236.8 120.0
C15 C18 C19 H182 120.0 240.0
H181 C18 C19 H182 243.1 120.0
C20 C19 C18 H191 78.7 240.0
C20 C19 C18 H192 240.0 120.0
C18 C19 C20 C23 162.7 180.0
C18 C19 C20 H201 37.9 300.0
C18 C19 C20 H202 282.7 59.9
H191 C19 C18 H192 161.3 240.0
C15 C18 H181 C19 115.2 240.0
C15 C18 H181 H182 237.6 120.0
C19 C18 H181 H182 122.4 240.0
H181 C18 C19 C20 259.4 60.0
H181 C18 C19 H191 180.7 180.0
H181 C18 C19 H192 19.4 300.0
C15 C18 H182 C19 247.4 120.0
C15 C18 H182 H181 123.7 240.0
C19 C18 H182 H181 236.3 120.0
H182 C18 C19 C20 16.3 300.0
H182 C18 C19 H191 297.6 60.0
H182 C18 C19 H192 136.3 180.0
C20 C19 C18 H181 259.4 60.0
C20 C19 C18 H182 16.3 300.0
C18 C19 C20 H191 281.3 120.0
C18 C19 C20 H192 120.0 240.0
H191 C19 C20 H192 198.7 120.0
C23 C20 C19 H201 124.8 240.0
C23 C20 C19 H202 240.0 120.1
C19 C20 C23 C26 160.2 180.0
C19 C20 C23 H231 36.1 300.0
C19 C20 C23 H232 280.2 60.0
H201 C20 C19 H202 115.2 240.1
H191 C19 C18 H181 180.7 180.0
H191 C19 C18 H182 297.6 60.0
C18 C19 H191 C20 161.4 240.0
C18 C19 H191 H192 260.6 120.0
C20 C19 H191 H192 99.3 240.0
H191 C19 C20 C23 241.4 60.0
H191 C19 C20 H201 116.6 180.0
H191 C19 C20 H202 1.4 299.9
H192 C19 C18 H181 19.4 300.0
H192 C19 C18 H182 136.3 180.0
C18 C19 H192 C20 196.4 120.0
C18 C19 H192 H191 98.3 240.0
C20 C19 H192 H191 261.8 120.0
H192 C19 C20 C23 42.7 300.0
H192 C19 C20 H201 277.9 60.0
H192 C19 C20 H202 162.7 179.9
C23 C20 C19 H191 241.4 60.0
C23 C20 C19 H192 42.7 300.0
C19 C20 C23 H201 235.2 120.0
C19 C20 C23 H202 120.0 240.0
H201 C20 C23 H202 244.8 119.9
C26 C23 C20 H231 124.1 240.0
C26 C23 C20 H232 240.0 120.0
C20 C23 C26 C43 167.0 180.0
C20 C23 C26 H261 54.9 300.0
C20 C23 C26 H262 287.1 60.0
H231 C23 C20 H232 115.9 240.0
H201 C20 C19 H191 116.6 180.0
H201 C20 C19 H192 277.9 60.0
C19 C20 H201 C23 111.7 240.0
C19 C20 H201 H202 235.8 120.0
C23 C20 H201 H202 124.1 240.0
H201 C20 C23 C26 285.0 60.0
H201 C20 C23 H231 160.9 180.0
H201 C20 C23 H232 45.0 300.0
H202 C20 C19 H191 1.4 299.9
H202 C20 C19 H192 162.7 179.9
C19 C20 H202 C23 252.6 120.1
C19 C20 H202 H201 126.3 240.0
C23 C20 H202 H201 233.7 120.0
H202 C20 C23 C26 40.2 300.0
H202 C20 C23 H231 276.1 60.0
H202 C20 C23 H232 160.2 180.0
C26 C23 C20 H201 285.0 60.0
C26 C23 C20 H202 40.2 300.0
C20 C23 C26 H231 235.9 119.9
C20 C23 C26 H232 120.0 240.0
H231 C23 C26 H232 244.1 120.1
C43 C26 C23 H261 112.2 240.0
C43 C26 C23 H262 240.0 120.0
C23 C26 C43 O44 6.4 180.0
C23 C26 C43 O45 186.6 360.0
H261 C26 C23 H262 127.8 240.0
H231 C23 C20 H201 160.9 180.0
H231 C23 C20 H202 276.1 60.0
C20 C23 H231 C26 113.3 240.0
C20 C23 H231 H232 236.7 120.0
C26 C23 H231 H232 123.3 240.0
H231 C23 C26 C43 291.1 60.0
H231 C23 C26 H261 179.0 180.1
H231 C23 C26 H262 51.2 300.1
H232 C23 C20 H201 45.0 300.0
H232 C23 C20 H202 160.2 180.0
C20 C23 H232 C26 250.2 120.0
C20 C23 H232 H231 125.1 240.0
C26 C23 H232 H231 234.9 120.1
H232 C23 C26 C43 47.0 300.0
H232 C23 C26 H261 294.9 60.0
H232 C23 C26 H262 167.0 180.0
C43 C26 C23 H231 291.1 60.0
C43 C26 C23 H232 47.0 300.0
C23 C26 C43 H261 247.8 120.0
C23 C26 C43 H262 120.0 240.0
H261 C26 C43 H262 232.2 120.0
O44 C43 C26 O45 179.8 180.0
C26 C43 O45 HO45 179.8  
H261 C26 C23 H231 179.0 180.1
H261 C26 C23 H232 294.9 60.0
C23 C26 H261 C43 128.8 240.0
C23 C26 H261 H262 244.4 120.0
C43 C26 H261 H262 115.6 240.0
H261 C26 C43 O44 118.6 60.0
H261 C26 C43 O45 298.8 240.0
H262 C26 C23 H231 51.2 300.1
H262 C26 C23 H232 167.0 180.0
C23 C26 H262 C43 227.6 120.0
C23 C26 H262 H261 113.8 240.0
C43 C26 H262 H261 246.2 120.0
H262 C26 C43 O44 246.4 300.0
H262 C26 C43 O45 66.6 120.0
O44 C43 C26 H261 118.6 60.0
O44 C43 C26 H262 246.4 300.0
C26 C43 O44 O45 180.2 180.0
O44 C43 O45 HO45 0.0  
O45 C43 C26 H261 298.8 240.0
O45 C43 C26 H262 66.6 120.0
C26 C43 O45 O44 179.8 180.0