PDB Chemical Component FLU

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 FLU

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C1 O1 1.232 1.356
C1 C2 1.416 1.385
C1 C13 1.334 1.396
O1 HO1 0.949 0.967
C2 C3 1.397 1.387
C2 H2 1.103 1.080
C3 O2 1.492 1.349
C3 C11 1.333 1.410
O2 C4 1.223 1.350
C4 C5 1.409 1.381
C4 C9 1.329 1.415
C5 C6 1.392 1.400
C5 H5 1.103 1.079
C6 O3 1.231 1.225
C6 C7 1.367 1.410
C7 C8 1.417 1.356
C7 H7 1.104 1.080
C8 C9 1.393 1.409
C8 H8 1.103 1.080
C9 C10 1.463 1.412
C10 C11 1.334 1.464
C10 C14 1.323 1.474
C11 C12 1.429 1.402
C12 C13 1.409 1.363
C12 H12 1.103 1.080
C13 H13 1.102 1.080
C14 C15 1.387 1.396
C14 C19 1.422 1.409
C15 C16 1.382 1.380
C15 H15 1.103 1.080
C16 C17 1.435 1.385
C16 H16 1.104 1.080
C17 C18 1.400 1.382
C17 H17 1.103 1.080
C18 C19 1.371 1.392
C18 H18 1.103 1.079
C19 C20 1.413 1.477
C20 O4 1.385 1.215
C20 O5 1.341 1.348
O5 HO5 0.950 0.967

Bond Angles for FLU

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
O1 C1 C2 115.0 119.7
O1 C1 C13 122.0 119.7
C1 O1 HO1 115.0 106.8
C2 C1 C13 122.9 120.6
C1 C2 C3 112.6 119.9
C1 C2 H2 124.3 120.0
C1 C13 C12 124.0 120.4
C1 C13 H13 115.1 119.8
C3 C2 H2 123.1 120.0
C2 C3 O2 111.7 120.3
C2 C3 C11 125.8 119.2
O2 C3 C11 122.4 120.4
C3 O2 C4 108.1 122.4
C3 C11 C10 129.2 119.1
C3 C11 C12 121.1 120.1
O2 C4 C5 105.4 119.6
O2 C4 C9 129.6 121.1
C5 C4 C9 125.0 119.3
C4 C5 C6 113.0 119.8
C4 C5 H5 124.0 120.1
C4 C9 C8 121.7 120.2
C4 C9 C10 126.4 119.5
C6 C5 H5 122.9 120.0
C5 C6 O3 117.3 119.8
C5 C6 C7 123.6 120.4
O3 C6 C7 119.1 119.8
C6 C7 C8 121.1 120.2
C6 C7 H7 117.6 119.9
C8 C7 H7 121.3 119.9
C7 C8 C9 115.4 120.0
C7 C8 H8 123.0 120.0
C9 C8 H8 121.6 120.0
C8 C9 C10 111.9 120.3
C9 C10 C11 104.2 117.6
C9 C10 C14 124.1 121.2
C11 C10 C14 131.7 121.2
C10 C11 C12 109.7 120.9
C10 C14 C15 124.6 120.2
C10 C14 C19 118.2 120.2
C11 C12 C13 113.5 119.8
C11 C12 H12 123.8 120.1
C13 C12 H12 122.7 120.1
C12 C13 H13 121.0 119.8
C15 C14 C19 117.1 119.5
C14 C15 C16 126.5 120.0
C14 C15 H15 116.9 120.0
C14 C19 C18 114.8 119.6
C14 C19 C20 130.8 120.2
C16 C15 H15 116.6 120.1
C15 C16 C17 118.3 120.5
C15 C16 H16 119.0 119.7
C17 C16 H16 122.7 119.8
C16 C17 C18 112.6 120.5
C16 C17 H17 124.8 119.8
C18 C17 H17 122.7 119.8
C17 C18 C19 130.8 120.0
C17 C18 H18 115.9 120.0
C19 C18 H18 113.3 120.0
C18 C19 C20 114.4 120.2
C19 C20 O4 108.7 120.0
C19 C20 O5 131.9 120.0
O4 C20 O5 119.3 120.0
C20 O5 HO5 131.9 120.0

Torsion Angles for FLU

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C2 C1 O1 C13 183.3 180.0
O1 C1 C2 C3 180.5 180.0
O1 C1 C2 H2 0.5 0.0
O1 C1 C13 C12 182.4 180.1
O1 C1 C13 H13 2.4 0.1
O1 C1 C2 C13 176.7 180.0
C2 C1 O1 HO1 180.0 90.0
C2 C1 C13 C12 358.8 0.0
C2 C1 C13 H13 178.8 180.0
C3 C2 C1 H2 180.0 180.0
C1 C2 C3 O2 177.9 180.0
C1 C2 C3 C11 356.6 0.2
O1 C1 C13 C2 183.6 180.0
C13 C1 O1 HO1 356.7 270.0
C13 C1 C2 C3 3.8 0.0
C13 C1 C2 H2 183.9 180.0
C11 C12 C13 C1 357.9 359.7
C1 C13 C12 H12 177.9 180.0
C12 C13 C1 H13 180.0 180.0
HO1 O1 C1 C2 180.0 90.0
HO1 O1 C1 C13 356.7 270.0
C3 C2 C1 C13 3.8 0.0
C1 C2 C3 H2 180.0 180.0
O2 C3 C2 C11 181.3 179.9
C2 C3 O2 C4 180.0 180.0
C2 C3 C11 C10 179.7 180.3
C2 C3 C11 C12 0.2 359.6
H2 C2 C1 C13 183.9 180.0
C1 C2 H2 C3 180.0 180.0
H2 C2 C3 O2 357.8 0.0
H2 C2 C3 C11 176.6 180.2
O2 C3 C2 H2 357.8 0.0
C2 C3 O2 C11 178.8 180.1
O2 C3 C11 C10 358.3 0.4
O2 C3 C11 C12 178.8 179.7
C3 O2 C4 C5 181.3 180.0
C3 O2 C4 C9 0.5 359.9
C11 C3 C2 H2 176.6 180.2
C2 C3 C11 O2 181.4 179.9
C11 C3 O2 C4 1.2 359.9
C9 C10 C11 C3 0.4 359.6
C3 C11 C10 C14 181.7 179.8
C10 C11 C3 C12 179.5 180.7
C3 C11 C12 C13 2.6 0.5
C3 C11 C12 H12 182.6 180.2
C4 O2 C3 C11 1.2 359.9
C5 C4 O2 C9 180.8 180.1
O2 C4 C5 C6 181.8 180.0
O2 C4 C5 H5 1.8 359.9
O2 C4 C9 C8 178.7 180.0
O2 C4 C9 C10 358.1 0.0
O2 C4 C5 C9 179.3 179.9
C5 C4 C9 C8 357.8 359.9
C5 C4 C9 C10 177.1 179.9
C6 C5 C4 H5 180.0 180.1
C4 C5 C6 O3 180.0 180.1
C4 C5 C6 C7 357.8 359.9
O2 C4 C9 C5 180.9 180.1
C9 C4 C5 C6 2.6 0.1
C9 C4 C5 H5 182.5 180.0
C7 C8 C9 C4 1.2 0.1
C4 C9 C8 H8 181.2 180.0
C8 C9 C4 C10 180.7 180.0
C4 C9 C10 C11 1.4 0.2
C4 C9 C10 C14 180.2 180.0
C6 C5 C4 C9 2.6 0.1
C4 C5 C6 H5 180.0 179.9
O3 C6 C5 C7 182.2 180.2
C5 C6 C7 C8 1.5 0.1
C5 C6 C7 H7 181.5 180.0
H5 C5 C4 C9 182.5 180.0
C4 C5 H5 C6 180.0 180.1
H5 C5 C6 O3 0.0 0.2
H5 C5 C6 C7 177.8 180.0
O3 C6 C5 H5 0.0 0.2
C5 C6 O3 C7 177.9 179.8
O3 C6 C7 C8 179.3 179.9
O3 C6 C7 H7 359.3 359.8
C7 C6 C5 H5 177.8 180.0
C5 C6 C7 O3 182.2 180.2
C8 C7 C6 H7 180.0 180.0
C6 C7 C8 C9 359.2 360.0
C6 C7 C8 H8 179.2 180.0
C4 C9 C8 C7 1.2 0.1
C6 C7 C8 H7 180.0 180.0
C9 C8 C7 H8 180.0 179.9
C7 C8 C9 C10 181.7 180.0
C6 C7 H7 C8 180.0 180.0
H7 C7 C8 C9 179.2 180.0
H7 C7 C8 H8 359.2 0.1
C4 C9 C8 C10 179.4 180.0
C9 C8 C7 H7 179.2 180.0
C7 C8 C9 H8 180.0 180.1
C8 C9 C10 C11 180.7 180.2
C8 C9 C10 C14 359.6 360.0
H8 C8 C7 H7 359.2 0.1
C7 C8 H8 C9 180.0 179.9
H8 C8 C9 C10 1.7 360.0
C3 C11 C10 C9 0.4 359.6
C4 C9 C10 C8 180.6 180.0
C10 C9 C8 H8 1.7 360.0
C11 C10 C9 C14 181.2 180.3
C9 C10 C11 C12 179.9 180.3
C9 C10 C14 C15 294.5 90.0
C9 C10 C14 C19 110.1 269.4
C3 C11 C10 C12 180.5 179.3
C9 C10 C11 C14 178.7 179.7
C11 C10 C14 C15 113.0 269.7
C11 C10 C14 C19 288.6 89.2
C10 C11 C12 C13 183.0 179.8
C10 C11 C12 H12 3.0 359.5
C9 C10 C14 C11 181.5 180.3
C14 C10 C11 C12 1.2 0.5
C15 C14 C10 C19 184.4 180.5
C10 C14 C15 C16 174.8 180.0
C10 C14 C15 H15 354.9 359.8
C10 C14 C19 C18 182.7 180.0
C10 C14 C19 C20 4.9 0.2
C1 C13 C12 C11 357.9 359.7
C3 C11 C12 C10 179.6 180.7
C12 C11 C10 C14 1.2 0.5
C13 C12 C11 H12 180.0 180.3
C11 C12 C13 H13 177.9 179.7
C1 C13 C12 H13 180.0 180.0
C11 C12 C13 H12 180.0 179.7
C11 C12 H12 C13 180.0 180.3
H12 C12 C13 H13 357.9 0.1
C1 C13 H13 C12 180.0 180.0
H13 C13 C12 H12 357.9 0.1
C10 C14 C15 C19 175.7 179.5
C15 C14 C19 C18 358.7 359.5
C15 C14 C19 C20 180.8 179.7
C16 C15 C14 H15 180.0 180.2
C14 C15 C16 C17 1.7 359.7
C14 C15 C16 H16 181.8 179.8
C10 C14 C19 C15 184.1 180.5
C19 C14 C15 C16 359.2 0.5
C19 C14 C15 H15 179.2 180.3
C17 C18 C19 C14 2.9 0.3
C14 C19 C18 H18 182.9 180.2
C18 C19 C14 C20 177.8 179.8
C14 C19 C20 O4 305.7 359.8
C14 C19 C20 O5 122.0 179.7
C16 C15 C14 C19 359.2 0.5
C14 C15 C16 H15 180.0 179.7
C17 C16 C15 H16 180.0 179.9
C15 C16 C17 C18 359.6 0.1
C15 C16 C17 H17 179.6 180.0
H15 C15 C14 C19 179.2 180.3
C14 C15 H15 C16 180.0 180.3
H15 C15 C16 C17 181.7 179.9
H15 C15 C16 H16 1.7 0.0
C17 C16 C15 H15 181.7 179.9
C15 C16 C17 H16 180.0 180.1
C18 C17 C16 H17 180.0 180.1
C16 C17 C18 C19 358.0 360.0
C16 C17 C18 H18 178.0 180.0
H16 C16 C15 H15 1.7 0.0
C15 C16 H16 C17 180.0 179.9
H16 C16 C17 C18 179.6 180.0
H16 C16 C17 H17 359.6 359.9
C14 C19 C18 C17 2.9 0.3
C18 C17 C16 H16 179.6 180.0
C16 C17 C18 H17 180.0 179.9
C19 C18 C17 H18 180.0 179.9
C17 C18 C19 C20 181.1 180.0
H17 C17 C16 H16 359.6 359.9
C16 C17 H17 C18 180.0 180.1
H17 C17 C18 C19 178.0 180.0
H17 C17 C18 H18 358.0 0.1
C14 C19 C18 C20 181.8 180.2
C19 C18 C17 H17 178.0 180.0
C17 C18 C19 H18 180.0 180.1
C18 C19 C20 O4 127.9 180.0
C18 C19 C20 O5 304.1 359.9
H18 C18 C17 H17 358.0 0.1
C17 C18 H18 C19 180.0 179.9
H18 C18 C19 C20 1.1 360.0
C14 C19 C20 C18 177.8 179.8
C20 C19 C18 H18 1.1 360.0
O4 C20 C19 O5 183.8 180.1
C19 C20 O5 HO5 180.0 180.0
C19 C20 O4 O5 176.8 179.9
O4 C20 O5 HO5 355.9 359.9
C19 C20 O5 O4 184.1 180.1