PDB Chemical Component INV

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 INV

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C01 C02 1.426 1.379
C01 C06 1.413 1.396
C01 H011 1.103 1.080
C02 C03 1.467 1.383
C02 H021 1.102 1.080
C03 C04 1.416 1.383
C03 S11 1.837 1.762
C04 C05 1.411 1.381
C04 H041 1.103 1.080
C05 C06 1.407 1.394
C05 H051 1.103 1.079
C06 C07 1.527 1.478
C07 O08 1.270 1.215
C07 N09 1.461 1.347
N09 C10 1.471 1.465
N09 H091 1.020 0.970
C10 C15 1.413 1.507
C10 H101 1.115 1.090
C10 H102 1.116 1.090
S11 NP2 1.707 1.655
S11 O13 1.506 1.421
S11 O14 1.495 1.421
NP2 HP21 1.020 0.970
NP2 HP22 1.020 0.970
C15 C16 1.471 1.383
C15 C20 1.487 1.381
C16 C17 1.489 1.381
C16 H161 1.103 1.080
C17 C18 1.490 1.384
C17 H171 1.103 1.079
C18 C19 1.470 1.384
C18 F21 1.369 1.352
C19 C20 1.471 1.381
C19 H191 1.103 1.080
C20 H201 1.103 1.080

Bond Angles for INV

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C02 C01 C06 121.0 119.8
C02 C01 H011 120.0 120.1
C01 C02 C03 119.4 120.1
C01 C02 H021 118.9 120.0
C06 C01 H011 119.0 120.1
C01 C06 C05 119.1 119.8
C01 C06 C07 120.7 120.1
C03 C02 H021 121.7 119.9
C02 C03 C04 118.0 120.3
C02 C03 S11 118.7 119.9
C04 C03 S11 123.3 119.8
C03 C04 C05 121.0 120.1
C03 C04 H041 119.7 120.0
C03 S11 NP2 112.1 107.4
C03 S11 O13 100.0 105.8
C03 S11 O14 103.6 105.8
C05 C04 H041 119.3 119.9
C04 C05 C06 121.5 119.8
C04 C05 H051 119.4 120.0
C06 C05 H051 119.1 120.1
C05 C06 C07 120.2 120.2
C06 C07 O08 114.4 120.0
C06 C07 N09 125.9 120.0
O08 C07 N09 119.8 120.0
C07 N09 C10 113.7 120.0
C07 N09 H091 122.8 120.0
C10 N09 H091 123.4 120.0
N09 C10 C15 123.4 109.5
N09 C10 H101 107.3 109.4
N09 C10 H102 107.2 109.5
C15 C10 H101 107.3 109.5
C15 C10 H102 107.3 109.5
C10 C15 C16 118.1 119.9
C10 C15 C20 120.9 120.0
H101 C10 H102 102.5 109.5
NP2 S11 O13 116.8 105.7
NP2 S11 O14 113.3 105.7
S11 NP2 HP21 112.0 120.0
S11 NP2 HP22 111.2 120.0
O13 S11 O14 109.5 125.3
HP21 NP2 HP22 111.3 120.0
C16 C15 C20 121.0 120.1
C15 C16 C17 118.6 120.0
C15 C16 H161 120.1 120.0
C15 C20 C19 119.7 120.0
C15 C20 H201 120.7 120.0
C17 C16 H161 121.3 120.0
C16 C17 C18 120.6 120.0
C16 C17 H171 119.7 120.0
C18 C17 H171 119.7 120.0
C17 C18 C19 119.6 120.0
C17 C18 F21 120.3 120.0
C19 C18 F21 120.1 120.0
C18 C19 C20 120.4 120.0
C18 C19 H191 119.8 120.0
C20 C19 H191 119.8 120.0
C19 C20 H201 119.6 120.0

Torsion Angles for INV

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C06 C01 C02 H011 180.1 180.0
C02 C01 C06 C05 0.2 360.0
C02 C01 C06 C07 180.9 180.0
C03 C02 C01 H021 180.0 180.0
C01 C02 C03 C04 359.6 0.2
C01 C02 C03 S11 179.3 180.0
C02 C01 C06 H011 179.9 180.0
C06 C01 C02 C03 0.2 0.1
C06 C01 C02 H021 180.2 180.0
C04 C05 C06 C01 359.6 359.7
C01 C06 C05 H051 179.6 180.0
C05 C06 C01 C07 179.3 179.9
C01 C06 C07 O08 179.7 359.9
C01 C06 C07 N09 0.6 180.0
C02 C01 H011 C06 180.1 180.0
H011 C01 C02 C03 180.1 180.0
H011 C01 C02 H021 0.1 0.0
H011 C01 C06 C05 180.3 180.0
H011 C01 C06 C07 1.0 0.1
C03 C02 C01 C06 0.2 0.1
C03 C02 C01 H011 180.1 180.0
C01 C02 C03 H021 180.0 180.0
C04 C03 C02 S11 180.4 180.3
C02 C03 C04 C05 0.2 359.5
C02 C03 C04 H041 180.2 180.0
C02 C03 S11 NP2 304.3 90.0
C02 C03 S11 O13 179.9 337.4
C02 C03 S11 O14 66.9 202.6
H021 C02 C01 C06 180.2 180.0
H021 C02 C01 H011 0.1 0.0
C01 C02 H021 C03 180.0 180.0
H021 C02 C03 C04 179.6 180.2
H021 C02 C03 S11 359.2 360.0
C04 C03 C02 H021 179.6 180.2
C02 C03 C04 S11 179.6 179.7
C04 C03 S11 NP2 123.9 269.7
C04 C03 S11 O13 359.5 157.1
C04 C03 S11 O14 246.5 22.3
C05 C04 C03 H041 180.0 179.4
C03 C04 C05 C06 0.2 0.5
C03 C04 C05 H051 180.2 180.3
S11 C03 C02 H021 359.2 360.0
C02 C03 S11 C04 180.4 180.3
S11 C03 C04 C05 180.6 179.7
S11 C03 C04 H041 0.6 0.3
NP2 S11 C03 O13 124.5 112.6
NP2 S11 C03 O14 237.5 247.4
C03 S11 NP2 HP21 180.0 180.0
C03 S11 NP2 HP22 54.7 359.8
O13 S11 C03 O14 113.0 134.8
C01 C06 C05 C04 359.6 359.7
C05 C04 C03 S11 180.6 179.7
C03 C04 C05 H041 180.0 180.6
C06 C05 C04 H051 179.9 180.3
C04 C05 C06 C07 178.9 179.7
H041 C04 C03 S11 0.6 0.3
C03 C04 H041 C05 180.0 179.4
H041 C04 C05 C06 180.2 180.0
H041 C04 C05 H051 0.2 359.7
C05 C06 C01 H011 180.3 180.0
C01 C06 C05 C07 180.7 180.1
C06 C05 C04 H041 180.2 180.0
C04 C05 C06 H051 180.1 179.7
C05 C06 C07 O08 0.4 180.0
C05 C06 C07 N09 181.3 0.1
H051 C05 C04 H041 0.2 359.7
C04 C05 H051 C06 179.9 180.3
H051 C05 C06 C07 358.8 360.0
C07 C06 C01 H011 1.0 0.1
C01 C06 C07 C05 179.3 179.9
C07 C06 C05 H051 358.8 360.0
O08 C07 C06 N09 179.1 179.9
C06 C07 N09 C10 108.0 179.9
C06 C07 N09 H091 287.9 360.0
C06 C07 O08 N09 180.8 180.1
O08 C07 N09 C10 288.9 0.0
O08 C07 N09 H091 108.9 180.1
C06 C07 N09 O08 179.1 179.9
C10 N09 C07 H091 180.0 180.0
C07 N09 C10 C15 196.1 180.0
C07 N09 C10 H101 321.4 300.0
C07 N09 C10 H102 70.9 60.0
C07 N09 C10 H091 180.0 180.0
C15 C10 N09 H101 234.7 240.0
C15 C10 N09 H102 125.3 120.0
N09 C10 C15 C16 184.5 90.0
N09 C10 C15 C20 4.6 269.7
H101 C10 N09 H102 250.5 240.0
C07 N09 H091 C10 180.0 180.0
H091 N09 C10 C15 16.1 359.9
H091 N09 C10 H101 141.4 119.9
H091 N09 C10 H102 250.9 239.9
C15 C10 N09 H091 16.1 359.9
N09 C10 C15 H101 125.3 120.0
N09 C10 C15 H102 234.8 240.0
H101 C10 C15 H102 109.5 120.1
C16 C15 C10 C20 179.9 180.3
C10 C15 C16 C17 180.0 180.0
C10 C15 C16 H161 0.0 360.0
C10 C15 C20 C19 179.9 179.8
C10 C15 C20 H201 359.9 0.3
H101 C10 N09 H091 141.4 119.9
N09 C10 H101 C15 225.5 240.0
N09 C10 H101 H102 112.7 120.0
C15 C10 H101 H102 247.2 240.0
H101 C10 C15 C16 59.2 330.1
H101 C10 C15 C20 239.4 149.7
H102 C10 N09 H091 250.9 239.9
N09 C10 H102 C15 134.5 120.0
N09 C10 H102 H101 247.3 240.1
C15 C10 H102 H101 112.8 120.1
H102 C10 C15 C16 309.7 210.0
H102 C10 C15 C20 129.8 29.7
C03 S11 NP2 O13 245.5 247.4
C03 S11 NP2 O14 116.8 112.6
O13 S11 NP2 O14 231.3 225.3
HP21 NP2 S11 HP22 125.3 180.2
C03 S11 O13 NP2 121.1 113.8
C03 S11 O13 O14 251.6 236.8
NP2 S11 O13 O14 130.5 123.1
O13 S11 NP2 HP21 294.5 292.6
O13 S11 NP2 HP22 169.2 112.4
C03 S11 O14 NP2 238.3 246.2
C03 S11 O14 O13 106.0 123.2
NP2 S11 O14 O13 227.6 236.9
O14 S11 NP2 HP21 63.2 67.4
O14 S11 NP2 HP22 297.9 247.2
HP21 NP2 S11 O13 294.5 292.6
HP21 NP2 S11 O14 63.2 67.4
S11 NP2 HP21 HP22 234.8 179.8
HP22 NP2 S11 O13 169.2 112.4
HP22 NP2 S11 O14 297.9 247.2
S11 NP2 HP22 HP21 125.7 180.2
C16 C15 C10 H101 59.2 330.1
C16 C15 C10 H102 309.7 210.0
C10 C15 C16 C20 180.1 179.7
C16 C15 C20 C19 0.0 359.4
C16 C15 C20 H201 180.0 180.0
C17 C16 C15 H161 180.0 180.0
C15 C16 C17 C18 0.1 0.0
C15 C16 C17 H171 180.2 180.0
C20 C15 C10 H101 239.4 149.7
C20 C15 C10 H102 129.8 29.7
C10 C15 C20 C16 179.9 180.3
C20 C15 C16 C17 359.9 0.3
C20 C15 C16 H161 179.9 180.3
C18 C19 C20 C15 0.1 0.5
C15 C20 C19 H191 180.1 180.4
C19 C20 C15 H201 180.0 179.4
C17 C16 C15 C20 359.9 0.3
C15 C16 C17 H161 180.0 180.0
C18 C17 C16 H171 180.0 180.0
C16 C17 C18 C19 0.0 360.0
C16 C17 C18 F21 179.9 180.0
H161 C16 C15 C20 179.9 180.3
C15 C16 H161 C17 180.0 180.0
H161 C16 C17 C18 180.1 180.0
H161 C16 C17 H171 0.1 360.0
C18 C17 C16 H161 180.1 180.0
C16 C17 C18 H171 180.0 180.0
C19 C18 C17 F21 180.1 180.0
C17 C18 C19 C20 359.8 359.8
C17 C18 C19 H191 179.9 180.0
H171 C17 C16 H161 0.1 360.0
C16 C17 H171 C18 180.0 180.0
H171 C17 C18 C19 180.0 180.0
H171 C17 C18 F21 359.9 0.0
C15 C20 C19 C18 0.1 0.5
C19 C18 C17 H171 180.0 180.0
C17 C18 C19 F21 179.9 180.0
C20 C19 C18 H191 180.0 179.8
C18 C19 C20 H201 180.2 180.0
F21 C18 C17 H171 359.9 0.0
C17 C18 F21 C19 180.1 180.0
F21 C18 C19 C20 179.9 179.7
F21 C18 C19 H191 360.0 359.9
C15 C20 C19 H201 180.0 180.6
C20 C19 C18 F21 179.9 179.7
C18 C19 C20 H191 180.0 180.2
H191 C19 C18 F21 360.0 359.9
C18 C19 H191 C20 180.0 179.8
H191 C19 C20 H201 0.1 359.8
C15 C20 H201 C19 180.0 179.4
H201 C20 C19 H191 0.1 359.8