PDB Chemical Component 1WV

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 1WV

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C20 O21 1.382 1.429
C20 C18 1.516 1.530
O19 C18 1.370 1.429
C18 C17 1.504 1.530
C17 O16 1.409 1.451
O16 C14 1.390 1.342
C14 O15 1.200 1.209
C14 C13 1.489 1.507
C13 C12 1.507 1.531
C12 C11 1.501 1.530
C11 C10 1.522 1.530
C10 C09 1.525 1.530
C09 C08 1.541 1.507
C08 C07 1.392 1.310
C10 H1 1.100 1.090
C13 H2 1.100 1.090
C17 H3 1.100 1.089
C17 H4 1.100 1.090
C20 H5 1.100 1.090
C20 H6 1.100 1.090
C07 H8 1.080 1.080
C08 H10 1.080 1.080
C09 H12 1.100 1.090
C09 H13 1.100 1.089
C11 H14 1.100 1.090
C12 H15 1.100 1.089
C18 H16 1.100 1.090
O19 H17 0.950 0.967
O21 H18 0.950 0.968
C07 C1   1.507
C1 C2   1.529
C2 C3   1.530
C3 C4   1.530
C4 C5   1.530
C5 C6   1.529
C10 H7 1.100 1.090
C13 H9 1.100 1.090
C11 H11 1.100 1.090
C12 H19 1.100 1.090
C1 H20   1.089
C1 H21   1.090
C2 H22   1.090
C2 H23   1.090
C3 H24   1.090
C3 H25   1.090
C4 H26   1.090
C4 H27   1.090
C5 H28   1.090
C5 H29   1.090
C6 H30   1.090
C6 H31   1.089
C6 H32   1.090

Bond Angles for 1WV

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C18 C20 O21 117.5 109.5
O21 C20 H5 107.4 109.5
O21 C20 H6 107.4 109.5
C20 O21 H18 109.5 114.0
C18 C20 H5 107.4 109.5
C18 C20 H6 107.4 109.5
C20 C18 H16 103.4 109.5
O19 C18 H16 104.9 109.5
C18 C17 H3 107.4 109.5
C18 C17 H4 107.4 109.4
C17 O16 C14 119.9 117.0
O16 C17 H3 107.4 109.5
O16 C17 H4 107.4 109.4
C14 C13 H2 107.3 109.5
C14 C13 H9 107.3 109.5
C13 C12 C11 117.9 109.4
C12 C13 H2 107.3 109.4
C13 C12 H15 107.3 109.5
C12 C13 H9 107.3 109.5
C13 C12 H19 107.3 109.4
C12 C11 H14 107.4 109.5
C12 C11 H11 107.5 109.5
C11 C10 H1 107.2 109.5
C11 C10 H7 107.2 109.5
C10 C09 C08 116.9 109.5
C09 C10 H1 107.2 109.5
C10 C09 H12 107.6 109.5
C10 C09 H13 107.6 109.5
C09 C10 H7 107.2 109.5
C09 C08 H10 119.9 120.0
C08 C07 H8 108.8 120.0
C08 C07 C1   120.0
H1 C10 H7 109.5 109.4
H2 C13 H9 109.5 109.5
H3 C17 H4 109.5 109.5
H5 C20 H6 109.5 109.4
H8 C07 C1   120.0
H12 C09 H13 109.5 109.5
H14 C11 H11 109.5 109.5
H15 C12 H19 109.5 109.5
C07 C1 C2   109.5
C07 C1 H20   109.5
C07 C1 H21   109.4
C1 C2 C3   109.5
C2 C1 H20   109.5
C2 C1 H21   109.5
C1 C2 H22   109.5
C1 C2 H23   109.5
C2 C3 C4   109.5
C3 C2 H22   109.4
C3 C2 H23   109.4
C2 C3 H24   109.5
C2 C3 H25   109.5
C3 C4 C5   109.5
C4 C3 H24   109.4
C4 C3 H25   109.5
C3 C4 H26   109.4
C3 C4 H27   109.5
C4 C5 C6   109.5
C5 C4 H26   109.4
C5 C4 H27   109.5
C4 C5 H28   109.4
C4 C5 H29   109.4
C6 C5 H28   109.5
C6 C5 H29   109.5
C5 C6 H30   109.5
C5 C6 H31   109.5
C5 C6 H32   109.4
H20 C1 H21   109.5
H22 C2 H23   109.5
H24 C3 H25   109.4
H26 C4 H27   109.5
H28 C5 H29   109.5
H30 C6 H31   109.6
H30 C6 H32   109.4
H31 C6 H32   109.4

Torsion Angles for 1WV

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C18 C20 O21 H5 238.9 120.0
C18 C20 O21 H6 121.2 240.0
O21 C20 C18 H16 335.1 55.0
H5 C20 O21 H6 242.3 120.0
O21 C20 C18 H5 121.1 240.0
O21 C20 C18 H6 238.8 120.0
C18 C20 O21 H18 180.0 180.0
O19 C18 C20 H16 246.6 240.0
C20 C18 C17 H3 307.5 65.0
C20 C18 C17 H4 65.2 304.9
H5 C20 C18 H6 117.7 240.0
O19 C18 C20 O21 221.6 295.0
O19 C18 C20 H5 100.5 55.0
O19 C18 C20 H6 342.8 175.0
C20 C18 O19 H16 112.6 120.0
O19 C18 C17 H3 172.6 305.0
O19 C18 C17 H4 290.3 185.0
O16 C17 C18 H3 238.9 120.0
O16 C17 C18 H4 121.2 240.1
H3 C17 C18 H4 242.3 120.0
C18 C17 O16 H3 121.2 240.0
C18 C17 O16 H4 238.8 119.9
H3 C17 O16 H4 117.6 240.0
C14 O16 C17 H3 25.5 300.0
C14 O16 C17 H4 267.9 60.0
O16 C14 C13 H2 267.0 60.0
O16 C14 C13 H9 24.6 300.0
C17 O16 C14 O15 354.6 0.0
O15 C14 C13 H2 102.5 240.0
O15 C14 C13 H9 220.1 120.0
C12 C13 C14 H2 238.8 119.9
C14 C13 C12 H15 317.1 300.1
C12 C13 C14 H9 121.2 239.9
C14 C13 C12 H19 74.7 60.0
H2 C13 C14 H9 242.4 120.0
C14 C13 C12 H2 121.2 240.0
C14 C13 C12 H9 238.8 120.1
C13 C12 C11 H14 270.7 60.1
C13 C12 C11 H11 28.4 300.0
H2 C13 C12 H9 117.6 240.0
H15 C12 C13 H19 242.4 240.0
C11 C12 C13 H2 74.7 300.0
C13 C12 C11 H15 121.2 120.0
C11 C12 C13 H9 317.1 59.9
C13 C12 C11 H19 238.8 240.1
C12 C11 C10 H1 281.3 60.0
C12 C11 C10 H7 38.8 300.1
H14 C11 C12 H11 242.3 120.0
C09 C10 C11 H1 238.7 120.0
C11 C10 C09 H12 303.8 300.0
C11 C10 C09 H13 61.7 60.0
C09 C10 C11 H7 121.3 240.0
H1 C10 C11 H7 242.6 119.9
C11 C10 C09 H1 121.3 240.0
C11 C10 C09 H7 238.7 120.0
C10 C09 C08 H10 304.2 306.3
H1 C10 C09 H7 117.4 240.1
H12 C09 C10 H13 242.1 240.0
C08 C09 C10 H1 61.5 300.0
C10 C09 C08 H12 121.1 120.0
C10 C09 C08 H13 238.9 240.0
C08 C09 C10 H7 304.1 60.0
C09 C08 C07 H8 253.7 187.6
C09 C08 C07 C1   7.5
C10 C09 C08 C07 124.2 126.3
H8 C07 C08 C1   180.0
C08 C07 C1 C2   127.6
C08 C07 C1 H20   247.6
C08 C07 C1 H21   7.6
C11 C10 H1 H7 115.9 240.0
H1 C10 C09 C08 61.5 300.0
H1 C10 C09 H12 182.5 60.0
H1 C10 C09 H13 300.4 180.1
C09 C10 H1 H7 244.1 120.0
C14 C13 H2 H9 116.2 240.0
H2 C13 C12 C11 74.7 300.0
H2 C13 C12 H15 195.9 60.0
C12 C13 H2 H9 243.8 120.0
H2 C13 C12 H19 313.5 180.0
C18 C17 H3 H4 116.3 240.0
H3 C17 O16 C14 25.5 300.0
O16 C17 H3 H4 243.7 120.0
C18 C17 H4 H3 243.7 120.0
H4 C17 O16 C14 267.9 60.0
O16 C17 H4 H3 116.3 240.0
C18 C20 H5 O21 127.3 240.0
O21 C20 H5 H6 116.3 240.0
H5 C20 O21 H18 301.1 60.0
C18 C20 H5 H6 243.6 120.0
H5 C20 C18 H16 213.9 175.0
C18 C20 H6 O21 232.7 120.0
O21 C20 H6 H5 243.7 120.0
H6 C20 O21 H18 58.8 300.0
C18 C20 H6 H5 116.4 240.0
H6 C20 C18 H16 96.2 295.0
C08 C07 H8 C1   180.0
H8 C07 C1 C2   307.6
H8 C07 C1 H20   67.6
H8 C07 C1 H21   187.6
H10 C08 C07 H8 73.7 7.6
H10 C08 C07 C1   187.5
C10 C09 H12 C08 233.3 240.0
H12 C09 C10 H1 182.5 60.0
C10 C09 H12 H13 116.6 120.0
H12 C09 C10 H7 65.1 180.0
H12 C09 C08 H10 183.1 186.4
C10 C09 H13 C08 126.7 120.0
H13 C09 C10 H1 300.4 180.1
C10 C09 H13 H12 243.4 240.0
H13 C09 C10 H7 183.0 300.0
H13 C09 C08 H10 65.2 66.4
C12 C11 H14 H11 116.4 239.9
H14 C11 C10 H1 160.2 180.0
H14 C11 C10 H7 277.7 60.0
C13 C12 H15 C11 232.3 240.0
H15 C12 C13 H2 195.9 60.0
H15 C12 C13 H9 78.3 180.0
C13 C12 H15 H19 116.1 120.0
H15 C12 C11 H14 149.5 300.0
H15 C12 C11 H11 267.2 180.0
H16 C18 C20 O21 335.1 55.0
H16 C18 C20 H5 213.9 175.0
H16 C18 C20 H6 96.2 295.0
H16 C18 C17 H3 59.0 185.0
H16 C18 C17 H4 176.7 65.0
H17 O19 C18 H16 67.4 180.0
H18 O21 C20 H5 301.1 60.0
H18 O21 C20 H6 58.8 300.0
C08 C07 C1 H8   180.0
C07 C1 C2 C3   180.0
C2 C1 C07 H20   240.0
C2 C1 C07 H21   120.0
C07 C1 C2 H22   300.0
C07 C1 C2 H23   60.1
H20 C1 C07 H21   240.0
C07 C1 C2 H20   120.0
C07 C1 C2 H21   240.1
C1 C2 C3 C4   180.0
C3 C2 C1 H22   240.0
C3 C2 C1 H23   120.0
C1 C2 C3 H24   300.0
C1 C2 C3 H25   60.0
H20 C1 C2 H21   120.0
H22 C2 C1 H23   239.9
C3 C2 C1 H20   60.0
C3 C2 C1 H21   300.0
C1 C2 C3 H22   120.0
C1 C2 C3 H23   240.0
C2 C3 C4 C5   180.0
C4 C3 C2 H24   240.0
C4 C3 C2 H25   120.1
C2 C3 C4 H26   300.0
C2 C3 C4 H27   60.0
H22 C2 C3 H23   120.0
H24 C3 C2 H25   240.1
C4 C3 C2 H22   60.0
C4 C3 C2 H23   300.0
C2 C3 C4 H24   120.0
C2 C3 C4 H25   239.9
C3 C4 C5 C6   180.0
C5 C4 C3 H26   240.0
C5 C4 C3 H27   120.0
C3 C4 C5 H28   300.0
C3 C4 C5 H29   60.0
H24 C3 C4 H25   119.9
H26 C4 C3 H27   240.0
C5 C4 C3 H24   60.0
C5 C4 C3 H25   300.1
C3 C4 C5 H26   120.0
C3 C4 C5 H27   240.0
C6 C5 C4 H28   240.0
C6 C5 C4 H29   120.0
C4 C5 C6 H30   179.9
C4 C5 C6 H31   300.0
C4 C5 C6 H32   60.0
H26 C4 C5 H27   120.0
H28 C5 C4 H29   240.0
C6 C5 C4 H26   60.0
C6 C5 C4 H27   300.0
C4 C5 C6 H28   120.0
C4 C5 C6 H29   240.0
H28 C5 C6 H29   120.0
H30 C6 C5 H31   239.9
H30 C6 C5 H32   119.9
H31 C6 C5 H32   240.1
C11 C10 H7 H1 244.1 120.0
H7 C10 C09 C08 304.1 60.0
C09 C10 H7 H1 115.9 240.0
H7 C10 C09 H12 65.1 180.0
H7 C10 C09 H13 183.0 300.0
C14 C13 H9 H2 243.8 120.0
H9 C13 C12 C11 317.1 59.9
C12 C13 H9 H2 116.2 240.0
H9 C13 C12 H15 78.3 180.0
H9 C13 C12 H19 195.9 300.0
C12 C11 H11 H14 243.6 120.0
H11 C11 C10 H1 42.5 299.9
H11 C11 C10 H7 159.9 180.0
C13 C12 H19 C11 127.7 119.9
H19 C12 C13 H2 313.5 180.0
C13 C12 H19 H15 243.8 240.0
H19 C12 C13 H9 195.9 300.0
H19 C12 C11 H14 31.9 180.0
H19 C12 C11 H11 149.6 60.0
C07 C1 H20 C2   240.0
C07 C1 H20 H21   119.9
H20 C1 C2 C3   60.0
C2 C1 H20 H21   240.0
H20 C1 C2 H22   180.0
H20 C1 C2 H23   300.0
C07 C1 H21 C2   120.0
C07 C1 H21 H20   240.0
H21 C1 C2 C3   300.0
C2 C1 H21 H20   120.1
H21 C1 C2 H22   59.9
H21 C1 C2 H23   180.0
C1 C2 H22 C3   240.0
H22 C2 C1 H20   180.0
H22 C2 C1 H21   59.9
C1 C2 H22 H23   120.1
H22 C2 C3 C4   60.0
C3 C2 H22 H23   240.0
H22 C2 C3 H24   180.0
H22 C2 C3 H25   300.0
C1 C2 H23 C3   120.0
H23 C2 C1 H20   300.0
H23 C2 C1 H21   180.0
C1 C2 H23 H22   239.9
H23 C2 C3 C4   300.0
C3 C2 H23 H22   120.0
H23 C2 C3 H24   60.0
H23 C2 C3 H25   180.0
C2 C3 H24 C4   240.0
H24 C3 C2 H22   180.0
H24 C3 C2 H23   60.0
C2 C3 H24 H25   120.0
H24 C3 C4 C5   60.0
C4 C3 H24 H25   240.0
H24 C3 C4 H26   179.9
H24 C3 C4 H27   299.9
C2 C3 H25 C4   120.1
H25 C3 C2 H22   300.0
H25 C3 C2 H23   180.0
C2 C3 H25 H24   240.0
H25 C3 C4 C5   300.1
C4 C3 H25 H24   119.9
H25 C3 C4 H26   60.0
H25 C3 C4 H27   180.0
C3 C4 H26 C5   240.0
H26 C4 C3 H24   179.9
H26 C4 C3 H25   60.0
C3 C4 H26 H27   120.0
H26 C4 C5 C6   60.0
C5 C4 H26 H27   240.0
H26 C4 C5 H28   180.0
H26 C4 C5 H29   300.0
C3 C4 H27 C5   120.1
H27 C4 C3 H24   299.9
H27 C4 C3 H25   180.0
C3 C4 H27 H26   240.0
H27 C4 C5 C6   300.0
C5 C4 H27 H26   120.0
H27 C4 C5 H28   60.0
H27 C4 C5 H29   180.0
C4 C5 H28 C6   240.0
H28 C5 C4 H26   180.0
H28 C5 C4 H27   60.0
C4 C5 H28 H29   120.0
C6 C5 H28 H29   240.0
H28 C5 C6 H30   59.9
H28 C5 C6 H31   180.1
H28 C5 C6 H32   300.0
C4 C5 H29 C6   120.0
H29 C5 C4 H26   300.0
H29 C5 C4 H27   180.0
C4 C5 H29 H28   240.0
C6 C5 H29 H28   120.0
H29 C5 C6 H30   299.9
H29 C5 C6 H31   60.0
H29 C5 C6 H32   180.0
H30 C6 C5 H28   59.9
H30 C6 C5 H29   299.9
C5 C6 H30 H31   120.1
C5 C6 H30 H32   240.1
H31 C6 H30 H32   120.0
H31 C6 C5 H28   180.1
H31 C6 C5 H29   60.0
C5 C6 H31 H30   239.9
C5 C6 H31 H32   119.9
H30 C6 H31 H32   240.0
H32 C6 C5 H28   300.0
H32 C6 C5 H29   180.0
C5 C6 H32 H30   120.0
C5 C6 H32 H31   240.0
H30 C6 H32 H31   120.1