PDB Chemical Component A6L

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 A6L

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
OXT C 1.367 1.209
CA C 1.500 1.507
CA C3 1.531 1.530
C O 1.227 1.342
C4 C3 1.538 1.530
C4 C5 1.536 1.530
C6 C5 1.533 1.530
C6 C7 1.541 1.530
C17 C18 1.523 1.530
C17 C16 1.536 1.531
C16 C15 1.531 1.530
C8 C7 1.545 1.530
C8 C9 1.495 1.507
C14 C15 1.525 1.531
C14 C13 1.539 1.531
C9 C10 1.341 1.310
C12 C13 1.541 1.531
C12 C11 1.547 1.531
C10 C11 1.491 1.507
CA H1 1.100 1.090
CA H2 1.100 1.090
C3 H4 1.100 1.090
C3 H5 1.100 1.090
C4 H6 1.100 1.090
C4 H7 1.100 1.090
C5 H8 1.100 1.090
C5 H9 1.100 1.090
C6 H10 1.100 1.090
C6 H11 1.100 1.089
C7 H12 1.100 1.090
C7 H13 1.101 1.090
C8 H14 1.100 1.090
C8 H15 1.100 1.090
C9 H16 1.080 1.080
C10 H17 1.080 1.080
C11 H18 1.100 1.090
C11 H19 1.100 1.090
C12 H20 1.100 1.089
C12 H21 1.100 1.090
C13 H22 1.100 1.089
C13 H23 1.100 1.090
C14 H24 1.100 1.090
C14 H25 1.100 1.089
C15 H26 1.100 1.089
C15 H27 1.100 1.090
C16 H28 1.100 1.090
C16 H29 1.100 1.090
C17 H30 1.100 1.090
C17 H31 1.100 1.090
C18 H32 1.100 1.090
C18 H33 1.100 1.090
C18 H34 1.100 1.090
O C1   1.452
C1 C2   1.531
C2 C19   1.530
C19 O2   1.429
C2 O1   1.429
C1 H3   1.090
C1 H35   1.090
C2 H36   1.090
C19 H37   1.090
C19 H38   1.090
O2 H39   0.967
O1 H40   0.967

Bond Angles for A6L

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C CA C3 112.8 109.5
CA C O 126.1 120.0
C CA H1 108.6 109.5
C CA H2 108.6 109.4
C3 CA H1 108.7 109.5
C3 CA H2 108.6 109.5
CA C3 H4 108.4 109.5
CA C3 H5 108.4 109.5
C O C1   117.0
C4 C3 H4 108.3 109.5
C4 C3 H5 108.4 109.5
C5 C4 H6 108.7 109.5
C5 C4 H7 108.7 109.4
C4 C5 H8 108.5 109.5
C4 C5 H9 108.5 109.4
C6 C5 H8 108.5 109.5
C6 C5 H9 108.5 109.5
C7 C6 H10 108.5 109.4
C7 C6 H11 108.6 109.5
C6 C7 H12 108.1 109.4
C6 C7 H13 108.1 109.4
C18 C17 H30 108.7 109.5
C18 C17 H31 108.7 109.5
C17 C18 H32 109.5 109.5
C17 C18 H33 109.4 109.4
C17 C18 H34 109.5 109.5
C17 C16 H28 108.9 109.4
C17 C16 H29 108.9 109.5
C16 C15 H26 108.7 109.5
C16 C15 H27 108.6 109.5
C8 C7 H12 108.1 109.5
C8 C7 H13 108.1 109.5
C8 C9 C10 127.8 120.0
C9 C8 H14 107.9 109.5
C9 C8 H15 107.9 109.5
C8 C9 H16 116.1 120.0
C15 C14 H24 109.0 109.5
C15 C14 H25 109.0 109.5
C14 C15 H26 108.6 109.5
C14 C15 H27 108.6 109.5
C14 C13 H22 108.3 109.5
C14 C13 H23 108.3 109.5
C9 C10 C11 128.3 120.0
C10 C9 H16 116.1 120.0
C9 C10 H17 115.9 120.0
C13 C12 H20 108.9 109.5
C13 C12 H21 108.9 109.5
C12 C13 H22 108.3 109.5
C12 C13 H23 108.3 109.5
C12 C11 H18 108.1 109.4
C12 C11 H19 108.1 109.5
C11 C10 H17 115.8 120.1
C10 C11 H18 108.1 109.5
C10 C11 H19 108.1 109.5
H1 CA H2 109.5 109.5
H4 C3 H5 109.5 109.5
H6 C4 H7 109.5 109.5
H8 C5 H9 109.5 109.5
H10 C6 H11 109.5 109.5
H12 C7 H13 109.5 109.4
H14 C8 H15 109.5 109.5
H18 C11 H19 109.5 109.5
H20 C12 H21 109.5 109.5
H22 C13 H23 109.4 109.5
H24 C14 H25 109.5 109.5
H26 C15 H27 109.5 109.5
H28 C16 H29 109.4 109.5
H30 C17 H31 109.5 109.5
H32 C18 H33 109.5 109.4
H32 C18 H34 109.5 109.5
H33 C18 H34 109.4 109.5
O C1 C2   109.5
O C1 H3   109.5
O C1 H35   109.5
C1 C2 C19   109.5
C1 C2 O1   109.4
C2 C1 H3   109.4
C2 C1 H35   109.5
C1 C2 H36   109.5
C2 C19 O2   109.4
C19 C2 O1   109.5
C19 C2 H36   109.5
C2 C19 H37   109.5
C2 C19 H38   109.4
O2 C19 H37   109.5
O2 C19 H38   109.5
C19 O2 H39   114.0
O1 C2 H36   109.5
C2 O1 H40   114.0
H3 C1 H35   109.5
H37 C19 H38   109.5

Torsion Angles for A6L

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
OXT C CA H1 276.2 120.0
OXT C CA H2 35.2 240.0
OXT C O C1   0.0
C3 CA C H1 239.5 240.0
C3 CA C H2 120.5 120.0
C CA C3 H4 293.0 300.0
C CA C3 H5 51.7 60.0
CA C O C1   180.0
H1 CA C H2 241.0 240.0
C3 CA C O 335.8 180.0
C CA C3 H1 120.5 120.0
C CA C3 H2 239.5 240.0
C4 C3 CA H4 239.4 240.0
C4 C3 CA H5 120.7 120.0
H1 CA C3 H2 119.0 120.0
H4 C3 CA H5 241.3 239.9
O C CA C3 335.8 180.0
O C CA H1 96.3 300.0
O C CA H2 215.3 60.0
C O C1 C2   180.0
C O C1 H3   300.0
C O C1 H35   60.0
C4 C3 CA H1 51.9 60.0
C4 C3 CA H2 292.8 300.0
CA C3 C4 H4 120.7 120.0
CA C3 C4 H5 239.3 240.0
H4 C3 C4 H5 118.7 120.0
C5 C4 C3 H4 76.6 60.0
C5 C4 C3 H5 317.9 300.0
C6 C5 C4 H8 239.4 240.0
C6 C5 C4 H9 120.6 120.0
H6 C4 C5 H7 119.1 119.9
H8 C5 C4 H9 241.2 240.0
C6 C5 C4 H6 70.5 60.0
C6 C5 C4 H7 311.4 300.0
C4 C5 C6 H8 120.6 120.0
C4 C5 C6 H9 239.4 240.0
H8 C5 C6 H9 118.8 120.0
C7 C6 C5 H8 55.8 60.0
C7 C6 C5 H9 297.0 300.0
C8 C7 C6 H12 239.3 240.0
C8 C7 C6 H13 120.8 120.0
H10 C6 C7 H11 118.9 120.0
H12 C7 C6 H13 241.5 240.1
C18 C17 C16 H28 249.9 60.0
C18 C17 C16 H29 9.2 300.1
H30 C17 C18 H31 240.9 120.0
H32 C18 C17 H33 240.0 240.1
H32 C18 C17 H34 120.0 120.0
H33 C18 C17 H34 240.0 239.9
C17 C16 C15 H26 268.1 60.0
C17 C16 C15 H27 27.1 300.0
H28 C16 C17 H29 240.7 120.0
C16 C15 C14 H24 280.1 60.0
C16 C15 C14 H25 39.7 299.9
C14 C15 C16 H26 239.5 120.0
C14 C15 C16 H27 120.5 240.0
H26 C15 C16 H27 241.0 120.0
C8 C7 C6 H10 75.3 60.0
C8 C7 C6 H11 316.4 300.0
C6 C7 C8 H12 120.8 120.0
C6 C7 C8 H13 239.2 240.0
H12 C7 C8 H13 118.5 120.0
C9 C8 C7 H12 328.7 60.0
C9 C8 C7 H13 210.2 300.0
C8 C9 C10 C11 359.5 7.5
C10 C9 C8 H16 180.0 180.0
C8 C9 C10 H17 179.5 187.5
H14 C8 C9 H15 118.2 120.0
C16 C15 C14 H26 120.5 240.0
C16 C15 C14 H27 239.5 120.0
C15 C14 C13 H22 265.4 60.0
C15 C14 C13 H23 24.1 300.0
H24 C14 C15 H25 240.5 120.1
H26 C15 C14 H27 119.0 240.0
C14 C13 C12 H20 240.3 60.0
C14 C13 C12 H21 359.6 300.0
C12 C13 C14 H22 239.3 120.0
C12 C13 C14 H23 120.7 240.0
H22 C13 C14 H23 241.4 120.0
C10 C9 C8 H14 18.3 7.6
C10 C9 C8 H15 260.0 247.6
C8 C9 C10 H16 180.0 180.0
C11 C10 C9 H17 180.0 179.9
C9 C10 C11 H18 339.7 246.3
C9 C10 C11 H19 221.2 6.4
C14 C13 C12 H22 120.7 240.0
C14 C13 C12 H23 239.3 120.0
C13 C12 C11 H18 286.6 60.0
C13 C12 C11 H19 45.0 300.0
H20 C12 C13 H21 240.7 120.0
H22 C13 C12 H23 118.6 240.0
C12 C11 C10 H17 280.4 306.3
C10 C11 C12 H18 239.2 120.0
C10 C11 C12 H19 120.8 240.0
H18 C11 C12 H19 241.5 120.1
C11 C10 C9 H16 179.5 187.5
C9 C10 C11 H17 180.0 180.1
C12 C11 C10 H18 120.8 240.1
C12 C11 C10 H19 239.2 120.0
H18 C11 C10 H19 118.5 239.9
C CA H1 C3 236.9 240.0
H1 CA C O 96.3 300.0
C CA H1 H2 118.5 120.0
C3 CA H1 H2 241.5 240.0
H1 CA C3 H4 172.5 180.0
H1 CA C3 H5 291.2 300.0
C CA H2 C3 123.1 120.0
H2 CA C O 215.3 60.0
C CA H2 H1 241.6 240.0
C3 CA H2 H1 118.5 120.0
H2 CA C3 H4 53.5 59.9
H2 CA C3 H5 172.2 180.0
H4 C3 CA H1 172.5 180.0
H4 C3 CA H2 53.5 59.9
CA C3 H4 H5 118.0 120.0
C4 C3 H4 H5 242.0 240.0
H5 C3 CA H1 291.2 300.0
H5 C3 CA H2 172.2 180.0
CA C3 H5 H4 242.0 240.0
C4 C3 H5 H4 118.0 120.0
H6 C4 C3 H4 197.0 180.0
H6 C4 C3 H5 78.3 60.0
C5 C4 H6 H7 241.3 240.1
H6 C4 C5 H8 191.1 180.0
H6 C4 C5 H9 309.9 300.0
H7 C4 C3 H4 316.2 300.1
H7 C4 C3 H5 197.5 180.0
C5 C4 H7 H6 118.7 120.0
H7 C4 C5 H8 72.0 60.1
H7 C4 C5 H9 190.8 180.0
H8 C5 C4 H6 191.1 180.0
H8 C5 C4 H7 72.0 60.1
C4 C5 H8 H9 118.2 120.0
C6 C5 H8 H9 241.8 240.0
H9 C5 C4 H6 309.9 300.0
H9 C5 C4 H7 190.8 180.0
C4 C5 H9 H8 241.8 240.0
C6 C5 H9 H8 118.2 120.0
H10 C6 C5 H8 176.4 180.0
H10 C6 C5 H9 57.5 60.0
C7 C6 H10 H11 241.6 240.0
H10 C6 C7 H12 196.1 180.1
H10 C6 C7 H13 314.6 300.0
H11 C6 C5 H8 295.3 300.0
H11 C6 C5 H9 176.4 180.0
C7 C6 H11 H10 118.3 120.0
H11 C6 C7 H12 77.2 60.0
H11 C6 C7 H13 195.7 180.0
H12 C7 C6 H10 196.1 180.1
H12 C7 C6 H11 77.2 60.0
C6 C7 H12 H13 117.6 119.9
C8 C7 H12 H13 242.4 239.9
H13 C7 C6 H10 314.6 300.0
H13 C7 C6 H11 195.7 180.0
C6 C7 H13 H12 242.4 240.1
C8 C7 H13 H12 117.6 120.1
H14 C8 C7 H12 89.6 180.0
H14 C8 C7 H13 331.1 60.0
H14 C8 C9 C10 18.3 7.6
C9 C8 H14 H15 242.7 240.0
H14 C8 C9 H16 198.3 187.6
H15 C8 C7 H12 207.8 300.0
H15 C8 C7 H13 89.3 180.0
H15 C8 C9 C10 260.0 247.6
C9 C8 H15 H14 117.3 120.0
H15 C8 C9 H16 80.0 67.6
C8 C9 H16 C10 180.0 180.0
H16 C9 C8 H14 198.3 187.6
H16 C9 C8 H15 80.0 67.6
H16 C9 C10 C11 179.5 187.5
H16 C9 C10 H17 359.5 7.6
C9 C10 H17 C11 180.0 179.9
H17 C10 C9 H16 359.5 7.6
H17 C10 C11 H18 159.7 66.3
H17 C10 C11 H19 41.2 186.3
C12 C11 H18 H19 117.6 240.0
H18 C11 C10 H17 159.7 66.3
C10 C11 H18 H19 242.4 120.0
C12 C11 H19 H18 242.4 120.0
H19 C11 C10 H17 41.2 186.3
C10 C11 H19 H18 117.6 240.0
C13 C12 H20 H21 119.0 240.0
H20 C12 C13 H22 119.6 180.0
H20 C12 C13 H23 1.0 300.0
H20 C12 C11 H18 166.2 180.0
H20 C12 C11 H19 284.7 60.0
C13 C12 H21 H20 241.0 120.0
H21 C12 C13 H22 239.0 60.0
H21 C12 C13 H23 120.3 180.0
H21 C12 C11 H18 46.9 300.1
H21 C12 C11 H19 165.4 180.0
C14 C13 H22 H23 117.9 239.9
H22 C13 C12 H20 119.6 180.0
H22 C13 C12 H21 239.0 60.0
C12 C13 H22 H23 242.1 120.0
C14 C13 H23 H22 242.1 120.1
H23 C13 C12 H20 1.0 300.0
H23 C13 C12 H21 120.3 180.0
C12 C13 H23 H22 117.9 240.0
C15 C14 H24 H25 119.2 239.9
H24 C14 C15 H26 159.6 180.1
H24 C14 C15 H27 40.6 300.1
H24 C14 C13 H22 145.2 180.0
H24 C14 C13 H23 263.8 59.9
C15 C14 H25 H24 240.8 120.1
H25 C14 C15 H26 279.2 60.0
H25 C14 C15 H27 160.2 180.0
H25 C14 C13 H22 25.7 300.0
H25 C14 C13 H23 144.3 180.0
C16 C15 H26 H27 118.5 240.0
H26 C15 C14 H24 159.6 180.1
H26 C15 C14 H25 279.2 60.0
C14 C15 H26 H27 241.5 120.0
C16 C15 H27 H26 241.5 120.1
H27 C15 C14 H24 40.6 300.1
H27 C15 C14 H25 160.2 180.0
C14 C15 H27 H26 118.5 240.0
C17 C16 H28 H29 119.0 240.0
H28 C16 C15 H26 147.8 180.0
H28 C16 C15 H27 266.8 60.0
C17 C16 H29 H28 241.0 120.0
H29 C16 C15 H26 28.4 300.0
H29 C16 C15 H27 147.5 180.0
C18 C17 H30 H31 118.6 239.9
H30 C17 C18 H32 300.5 60.1
H30 C17 C18 H33 60.5 180.0
H30 C17 C18 H34 180.4 300.0
H30 C17 C16 H28 129.4 180.0
H30 C17 C16 H29 248.7 60.0
C18 C17 H31 H30 241.4 120.0
H31 C17 C18 H32 59.5 300.0
H31 C17 C18 H33 179.5 59.9
H31 C17 C18 H34 299.5 180.0
H31 C17 C16 H28 10.4 300.0
H31 C17 C16 H29 129.7 180.0
H32 C18 C17 H30 300.5 60.1
H32 C18 C17 H31 59.5 300.0
C17 C18 H32 H33 120.0 119.9
C17 C18 H32 H34 240.0 239.9
H33 C18 H32 H34 120.0 120.0
H33 C18 C17 H30 60.5 180.0
H33 C18 C17 H31 179.5 59.9
C17 C18 H33 H32 240.0 240.1
C17 C18 H33 H34 120.0 120.1
H32 C18 H33 H34 240.0 240.0
H34 C18 C17 H30 180.4 300.0
H34 C18 C17 H31 299.5 180.0
C17 C18 H34 H32 120.0 120.0
C17 C18 H34 H33 240.0 240.0
H32 C18 H34 H33 120.0 120.0
O C1 C2 C19   175.0
O C1 C2 O1   295.0
C2 C1 O H3   240.0
C2 C1 O H35   120.0
O C1 C2 H36   55.0
H3 C1 O H35   240.0
O C1 C2 H3   120.0
O C1 C2 H35   240.0
C1 C2 C19 O2   185.0
C19 C2 C1 O1   240.0
C19 C2 C1 H36   120.0
C1 C2 C19 H37   305.0
C1 C2 C19 H38   65.0
O1 C2 C1 H36   240.0
C1 C2 O1 H40   300.0
H3 C1 C2 H35   120.0
C1 C2 C19 O1   119.9
C19 C2 C1 H3   55.0
C19 C2 C1 H35   295.0
C1 C2 C19 H36   240.0
O2 C19 C2 H37   240.0
O2 C19 C2 H38   120.0
C2 C19 O2 H39   180.0
O1 C2 C19 H36   120.1
C19 C2 O1 H40   59.9
H37 C19 C2 H38   240.0
O2 C19 C2 O1   65.0
O2 C19 C2 H36   305.0
C2 C19 O2 H37   120.0
C2 C19 O2 H38   240.0
H37 C19 O2 H38   120.0
C1 C2 O1 C19   240.0
O1 C2 C1 H3   175.0
O1 C2 C1 H35   55.0
C1 C2 O1 H36   120.0
O1 C2 C19 O2   65.0
C19 C2 O1 H36   239.9
O1 C2 C19 H37   185.0
O1 C2 C19 H38   305.0
O C1 H3 C2   240.0
O C1 H3 H35   120.0
H3 C1 C2 C19   55.0
H3 C1 C2 O1   175.0
C2 C1 H3 H35   240.0
H3 C1 C2 H36   295.0
O C1 H35 C2   120.0
O C1 H35 H3   240.0
H35 C1 C2 C19   295.0
H35 C1 C2 O1   55.0
C2 C1 H35 H3   120.0
H35 C1 C2 H36   175.0
C1 C2 H36 C19   120.0
C1 C2 H36 O1   240.1
H36 C2 C1 H3   295.0
H36 C2 C1 H35   175.0
H36 C2 C19 O2   305.0
C19 C2 H36 O1   120.1
H36 C2 C19 H37   65.0
H36 C2 C19 H38   185.0
H36 C2 O1 H40   180.0
C2 C19 H37 O2   240.0
H37 C19 C2 O1   185.0
H37 C19 C2 H36   65.0
C2 C19 H37 H38   120.0
O2 C19 H37 H38   239.9
H37 C19 O2 H39   60.0
C2 C19 H38 O2   120.0
H38 C19 C2 O1   305.0
H38 C19 C2 H36   185.0
C2 C19 H38 H37   240.0
O2 C19 H38 H37   120.0
H38 C19 O2 H39   300.0
H39 O2 C19 H37   60.0
H39 O2 C19 H38   300.0
H40 O1 C2 H36   180.0