PDB Chemical Component 4HY

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 4HY

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C1 C3 1.461 1.383
C1 C11 1.369 1.382
C1 C13 1.503 1.507
C2 C4 1.375 1.387
C2 C12 1.426 1.387
C2 O2 1.414 1.358
C3 C5 1.413 1.381
C3 HC31 1.103 1.080
C4 C6 1.384 1.382
C4 HC41 1.103 1.079
C5 C7 1.399 1.387
C5 I1 2.138 2.095
C6 C8 1.427 1.386
C6 I2 2.086 2.096
C7 C9 1.427 1.387
C7 O2 1.393 1.359
C8 C10 1.418 1.386
C8 O1 1.400 1.360
C9 C11 1.458 1.381
C9 I3 2.112 2.096
C10 C12 1.411 1.381
C10 H101 1.103 1.081
C11 H111 1.103 1.080
C12 H121 1.103 1.080
C13 C14 1.568 1.507
C13 H131 1.115 1.090
C13 H132 1.115 1.090
C14 O3 1.254 1.208
C14 O4 1.256 1.342
O1 HO11 0.950 0.966
O4 HO41 0.950 0.967

Bond Angles for 4HY

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C3 C1 C11 120.3 120.1
C3 C1 C13 119.8 119.9
C1 C3 C5 119.6 120.0
C1 C3 HC31 121.9 120.0
C11 C1 C13 119.8 120.0
C1 C11 C9 119.3 120.1
C1 C11 H111 117.3 119.9
C1 C13 C14 117.0 109.5
C1 C13 H131 109.5 109.5
C1 C13 H132 109.5 109.5
C4 C2 C12 120.3 120.0
C4 C2 O2 116.3 120.0
C2 C4 C6 121.3 119.9
C2 C4 HC41 119.0 120.0
C12 C2 O2 123.4 120.0
C2 C12 C10 119.6 120.0
C2 C12 H121 120.7 120.0
C2 O2 C7 123.4 106.8
C5 C3 HC31 118.6 120.0
C3 C5 C7 121.1 119.9
C3 C5 I1 120.6 120.0
C6 C4 HC41 119.7 120.1
C4 C6 C8 119.8 120.1
C4 C6 I2 119.7 119.9
C7 C5 I1 118.3 120.1
C5 C7 C9 118.9 119.9
C5 C7 O2 122.9 120.1
C8 C6 I2 120.5 120.0
C6 C8 C10 119.7 120.0
C6 C8 O1 119.2 120.0
C9 C7 O2 118.1 120.1
C7 C9 C11 120.8 120.0
C7 C9 I3 117.8 120.0
C10 C8 O1 121.1 120.0
C8 C10 C12 119.3 120.0
C8 C10 H101 120.6 120.0
C8 O1 HO11 119.2 106.8
C11 C9 I3 121.4 120.0
C9 C11 H111 123.4 120.0
C12 C10 H101 120.1 119.9
C10 C12 H121 119.6 120.0
C14 C13 H131 109.5 109.5
C14 C13 H132 109.5 109.5
C13 C14 O3 117.7 120.0
C13 C14 O4 116.3 120.0
H131 C13 H132 100.6 109.4
O3 C14 O4 126.0 120.0
C14 O4 HO41 116.3 120.0

Torsion Angles for 4HY

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C11 C1 C3 C13 184.0 180.3
C3 C1 C11 C9 0.8 359.5
C3 C1 C11 H111 180.8 179.9
C3 C1 C13 C14 90.1 90.0
C3 C1 C13 H131 324.9 330.0
C3 C1 C13 H132 215.4 210.0
C5 C3 C1 HC31 180.0 180.0
C1 C3 C5 C7 359.9 0.0
C1 C3 C5 I1 177.8 180.0
C3 C1 C11 C13 176.0 179.7
C11 C1 C3 C5 359.2 0.3
C11 C1 C3 HC31 179.2 180.3
C11 C1 C13 C14 266.2 269.7
C11 C1 C13 H131 140.9 149.7
C11 C1 C13 H132 31.4 29.7
C7 C9 C11 C1 0.1 0.5
C1 C11 C9 I3 182.2 180.3
C9 C11 C1 H111 180.0 179.5
C3 C1 C13 C11 184.0 180.3
C13 C1 C3 C5 175.2 180.0
C13 C1 C3 HC31 355.2 359.9
C13 C1 C11 C9 184.7 179.8
C13 C1 C11 H111 4.7 0.3
C14 C13 C1 H131 125.3 120.0
C14 C13 C1 H132 234.7 240.0
C1 C13 C14 O3 19.4 360.0
C1 C13 C14 O4 199.1 180.0
H131 C13 C1 H132 109.5 120.0
C12 C2 C4 O2 177.9 179.8
C4 C2 C12 C10 359.3 0.3
C4 C2 C12 H121 179.3 180.3
C4 C2 O2 C7 212.6 359.8
C6 C4 C2 HC41 180.0 179.5
C2 C4 C6 C8 0.3 0.5
C2 C4 C6 I2 181.9 180.3
C4 C2 C12 O2 182.2 180.2
C12 C2 C4 C6 0.5 359.5
C12 C2 C4 HC41 180.5 180.0
C12 C2 O2 C7 34.7 180.0
C8 C10 C12 C2 0.1 360.0
C2 C12 C10 H101 180.1 179.9
C10 C12 C2 H121 180.0 180.0
C4 C2 O2 C12 177.9 179.8
O2 C2 C4 C6 182.5 179.7
O2 C2 C4 HC41 2.6 0.2
O2 C2 C12 C10 177.1 180.0
O2 C2 C12 H121 357.1 0.0
C5 C7 O2 C2 83.7 89.9
C9 C7 O2 C2 267.3 270.0
C5 C3 C1 C11 359.2 0.3
C5 C3 C1 C13 175.2 180.0
C1 C3 C5 HC31 180.0 180.0
C7 C5 C3 I1 182.1 180.0
C3 C5 C7 C9 1.0 359.9
C3 C5 C7 O2 184.7 180.0
HC31 C3 C1 C11 179.2 180.3
HC31 C3 C1 C13 355.2 359.9
C1 C3 HC31 C5 180.0 180.0
HC31 C3 C5 C7 179.9 180.0
HC31 C3 C5 I1 357.8 0.0
C6 C4 C2 C12 0.5 359.5
C6 C4 C2 O2 182.5 179.7
C2 C4 C6 HC41 180.0 180.5
C8 C6 C4 I2 178.4 180.2
C4 C6 C8 C10 359.2 359.8
C4 C6 C8 O1 176.8 179.7
HC41 C4 C2 C12 180.5 180.0
HC41 C4 C2 O2 2.6 0.2
C2 C4 HC41 C6 180.0 179.5
HC41 C4 C6 C8 180.3 180.0
HC41 C4 C6 I2 1.9 359.8
C2 O2 C7 C5 83.7 89.9
C7 C5 C3 HC31 179.9 180.0
C3 C5 C7 I1 177.9 180.0
C9 C7 C5 O2 176.3 179.9
C5 C7 C9 C11 359.0 359.8
C5 C7 C9 I3 177.0 180.0
I1 C5 C3 HC31 357.8 0.0
C3 C5 I1 C7 182.0 180.0
I1 C5 C7 C9 183.1 179.9
I1 C5 C7 O2 6.7 0.0
C8 C6 C4 HC41 180.3 180.0
C4 C6 C8 I2 181.6 179.8
C10 C8 C6 O1 182.3 180.1
C6 C8 C10 C12 0.6 360.0
C6 C8 C10 H101 180.6 180.0
C6 C8 O1 HO11 180.0 270.0
I2 C6 C4 HC41 1.9 359.8
C4 C6 I2 C8 178.4 180.2
I2 C6 C8 C10 177.5 180.0
I2 C6 C8 O1 355.2 359.9
C1 C11 C9 C7 0.1 0.5
C2 O2 C7 C9 267.3 270.0
C9 C7 C5 I1 183.1 179.9
C5 C7 C9 O2 183.5 180.1
C11 C9 C7 I3 181.9 179.8
C7 C9 C11 H111 180.1 180.0
O2 C7 C5 I1 6.7 0.0
C5 C7 O2 C9 176.4 179.9
O2 C7 C9 C11 175.5 179.7
O2 C7 C9 I3 353.6 359.9
C2 C12 C10 C8 0.1 360.0
C10 C8 C6 I2 177.5 180.0
C6 C8 C10 O1 177.6 179.9
C10 C8 O1 HO11 357.6 89.9
C12 C10 C8 H101 180.0 179.9
C8 C10 C12 H121 180.1 180.0
O1 C8 C6 I2 355.2 359.9
C6 C8 O1 C10 182.4 180.1
O1 C8 C10 C12 183.0 180.0
O1 C8 C10 H101 3.0 0.1
C9 C11 C1 C13 184.7 179.8
C1 C11 C9 H111 180.0 180.5
C11 C9 C7 O2 175.5 179.7
C7 C9 C11 I3 178.0 180.2
I3 C9 C7 O2 353.6 359.9
C7 C9 I3 C11 181.9 179.8
I3 C9 C11 H111 2.1 359.8
C10 C12 C2 O2 177.1 180.0
C2 C12 C10 H121 180.0 180.0
C12 C10 C8 O1 183.0 180.0
C8 C10 C12 H101 180.0 180.1
H101 C10 C8 O1 3.0 0.1
C8 C10 H101 C12 180.0 179.9
H101 C10 C12 H121 0.1 359.9
H111 C11 C1 C13 4.7 0.3
C1 C11 H111 C9 180.0 179.5
H111 C11 C9 I3 2.1 359.8
H121 C12 C2 O2 357.1 0.0
C2 C12 H121 C10 180.0 180.0
H121 C12 C10 H101 0.1 359.9
C1 C13 C14 H131 234.7 239.9
C1 C13 C14 H132 125.3 120.0
H131 C13 C14 H132 250.6 240.0
O3 C14 C13 O4 180.2 180.0
C13 C14 O4 HO41 180.0 180.0
C1 C13 H131 C14 129.5 120.0
C1 C13 H131 H132 244.7 240.0
C14 C13 H131 H132 115.2 120.0
H131 C13 C14 O3 144.7 120.0
H131 C13 C14 O4 324.4 300.0
C1 C13 H132 C14 230.5 240.0
C1 C13 H132 H131 115.3 120.0
C14 C13 H132 H131 244.8 240.0
H132 C13 C14 O3 254.1 240.0
H132 C13 C14 O4 73.9 60.0
O3 C14 C13 H131 144.7 120.0
O3 C14 C13 H132 254.1 240.0
C13 C14 O3 O4 179.7 180.0
O3 C14 O4 HO41 359.7 0.0
O4 C14 C13 H131 324.4 300.0
O4 C14 C13 H132 73.9 60.0
C13 C14 O4 O3 180.3 180.0