PDB Chemical Component FPP

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 FPP

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C1 O1 1.444 1.429
C1 C2 1.516 1.507
C1 H11 1.114 1.090
C1 H12A 1.115 1.089
O1 PA 1.627 1.610
C2 C3 1.350 1.309
C2 H2 1.103 1.080
C3 C4 1.541 1.506
C3 C5 1.505 1.507
C4 H41 1.115 1.090
C4 H42 1.115 1.090
C4 H43 1.116 1.090
C5 C6 1.548 1.530
C5 H51 1.115 1.089
C5 H52 1.115 1.090
C6 C7 1.542 1.508
C6 H61 1.115 1.090
C6 H62 1.114 1.089
C7 C8 1.368 1.310
C7 H7 1.104 1.079
C8 C10 1.549 1.507
C8 C9 1.541 1.507
C10 H101 1.114 1.089
C10 H102 1.115 1.090
C10 H103 1.114 1.090
C9 C11 1.559 1.529
C9 H91 1.115 1.090
C9 H92 1.114 1.090
C11 C12 1.534 1.507
C11 H111 1.114 1.090
C11 H112 1.114 1.090
C12 C13 1.376 1.310
C12 H12 1.103 1.080
C13 C14 1.514 1.508
C13 C15 1.515 1.506
C14 H141 1.115 1.089
C14 H142 1.115 1.090
C14 H143 1.116 1.090
C15 H151 1.115 1.090
C15 H152 1.116 1.091
C15 H153 1.114 1.090
PA O1A 1.567 1.480
PA O2A 1.542 1.609
PA O3A 1.537 1.610
O2A HOA2 0.950 0.968
O3A PB 1.547 1.610
PB O1B 1.527 1.480
PB O2B 1.511 1.609
PB O3B 1.525 1.610
O2B HOB2 0.949 0.967
O3B HOB3 0.949 0.967

Bond Angles for FPP

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
O1 C1 C2 113.0 109.5
O1 C1 H11 110.9 109.5
O1 C1 H12A 110.9 109.5
C1 O1 PA 122.7 106.8
C2 C1 H11 110.9 109.4
C2 C1 H12A 110.9 109.5
C1 C2 C3 125.7 120.0
C1 C2 H2 123.6 120.0
H11 C1 H12A 99.4 109.5
O1 PA O1A 111.4 109.5
O1 PA O2A 100.1 109.5
O1 PA O3A 117.8 109.5
C3 C2 H2 110.7 120.0
C2 C3 C4 121.3 120.0
C2 C3 C5 118.4 120.0
C4 C3 C5 120.3 120.0
C3 C4 H41 121.3 109.4
C3 C4 H42 108.0 109.5
C3 C4 H43 108.0 109.5
C3 C5 C6 112.7 109.5
C3 C5 H51 111.0 109.5
C3 C5 H52 111.0 109.5
H41 C4 H42 108.0 109.4
H41 C4 H43 107.9 109.5
H42 C4 H43 101.9 109.5
C6 C5 H51 111.1 109.4
C6 C5 H52 111.0 109.5
C5 C6 C7 116.4 109.5
C5 C6 H61 109.7 109.5
C5 C6 H62 109.7 109.5
H51 C5 H52 99.3 109.5
C7 C6 H61 109.7 109.4
C7 C6 H62 109.7 109.5
C6 C7 C8 129.8 120.0
C6 C7 H7 122.4 120.0
H61 C6 H62 100.5 109.5
C8 C7 H7 107.8 120.0
C7 C8 C10 121.6 120.0
C7 C8 C9 118.4 120.0
C10 C8 C9 120.0 120.0
C8 C10 H101 121.5 109.5
C8 C10 H102 107.9 109.4
C8 C10 H103 107.9 109.5
C8 C9 C11 114.3 109.5
C8 C9 H91 110.4 109.4
C8 C9 H92 110.5 109.5
H101 C10 H102 107.9 109.5
H101 C10 H103 108.0 109.5
H102 C10 H103 102.0 109.4
C11 C9 H91 110.4 109.5
C11 C9 H92 110.4 109.5
C9 C11 C12 116.5 109.5
C9 C11 H111 109.7 109.5
C9 C11 H112 109.7 109.4
H91 C9 H92 99.9 109.5
C12 C11 H111 109.6 109.4
C12 C11 H112 109.6 109.5
C11 C12 C13 128.9 120.0
C11 C12 H12 122.1 120.0
H111 C11 H112 100.6 109.5
C13 C12 H12 109.1 120.0
C12 C13 C14 125.2 120.0
C12 C13 C15 123.9 120.0
C14 C13 C15 110.8 120.0
C13 C14 H141 125.3 109.5
C13 C14 H142 106.7 109.4
C13 C14 H143 106.7 109.5
C13 C15 H151 123.8 109.5
C13 C15 H152 107.1 109.5
C13 C15 H153 107.1 109.4
H141 C14 H142 106.6 109.4
H141 C14 H143 106.6 109.5
H142 C14 H143 102.9 109.5
H151 C15 H152 107.1 109.4
H151 C15 H153 107.2 109.5
H152 C15 H153 102.6 109.5
O1A PA O2A 117.4 109.4
O1A PA O3A 97.4 109.5
O2A PA O3A 113.7 109.5
PA O2A HOA2 100.2 106.8
PA O3A PB 118.0 106.8
O3A PB O1B 114.4 109.4
O3A PB O2B 103.7 109.5
O3A PB O3B 120.2 109.5
O1B PB O2B 106.5 109.5
O1B PB O3B 101.3 109.4
O2B PB O3B 110.1 109.5
PB O2B HOB2 103.7 106.8
PB O3B HOB3 120.2 106.8

Torsion Angles for FPP

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C2 C1 O1 H11 234.7 120.0
C2 C1 O1 H12A 125.3 240.0
O1 C1 C2 C3 261.3 135.6
O1 C1 C2 H2 81.2 315.5
H11 C1 O1 H12A 250.5 120.0
C1 O1 PA O1A 92.1 300.0
C1 O1 PA O2A 217.0 60.0
C1 O1 PA O3A 340.7 180.0
O1 C1 C2 H11 125.3 240.0
O1 C1 C2 H12A 234.7 120.1
C2 C1 O1 PA 231.6 180.0
H11 C1 C2 H12A 109.5 240.0
C3 C2 C1 H2 180.0 180.1
C1 C2 C3 C4 359.4 5.0
C1 C2 C3 C5 180.0 185.1
O1 C1 H11 C2 233.6 120.0
O1 C1 H11 H12A 116.8 240.0
H11 C1 O1 PA 356.9 60.0
C2 C1 H11 H12A 243.2 120.0
H11 C1 C2 C3 136.0 255.6
H11 C1 C2 H2 316.0 75.5
O1 C1 H12A C2 126.4 240.0
O1 C1 H12A H11 243.2 120.0
H12A C1 O1 PA 106.4 300.0
C2 C1 H12A H11 116.8 240.0
H12A C1 C2 C3 26.5 15.5
H12A C1 C2 H2 206.5 195.5
PA O1 C1 C2 231.6 180.0
PA O1 C1 H11 356.9 60.0
PA O1 C1 H12A 106.4 300.0
O1A PA O1 O2A 235.1 240.0
O1A PA O1 O3A 111.3 120.0
O2A PA O1 O3A 236.2 240.0
O1 PA O2A HOA2 180.0 60.0
O1 PA O3A PB 287.0 180.0
C3 C2 C1 H11 136.0 255.6
C3 C2 C1 H12A 26.5 15.5
C1 C2 C3 H2 180.0 179.9
C4 C3 C2 C5 179.4 179.9
C2 C3 C4 H41 179.9 63.1
C2 C3 C4 H42 305.3 183.0
C2 C3 C4 H43 54.8 303.0
C2 C3 C5 C6 6.8 89.9
C2 C3 C5 H51 132.1 329.9
C2 C3 C5 H52 241.5 209.9
H2 C2 C1 H11 316.0 75.5
H2 C2 C1 H12A 206.5 195.5
C1 C2 H2 C3 180.0 180.1
H2 C2 C3 C4 179.5 185.1
H2 C2 C3 C5 0.1 5.2
C4 C3 C2 H2 179.5 185.1
C2 C3 C4 C5 180.6 180.1
C4 C3 C5 C6 187.4 270.0
C4 C3 C5 H51 312.7 150.0
C4 C3 C5 H52 62.1 30.0
H41 C4 C3 H42 234.7 240.1
H41 C4 C3 H43 125.2 120.0
H42 C4 C3 H43 250.5 240.0
C5 C3 C2 H2 0.1 5.2
C2 C3 C5 C4 179.4 179.9
C5 C3 C4 H41 359.3 243.0
C5 C3 C4 H42 124.6 2.9
C5 C3 C4 H43 234.1 122.9
C6 C5 C3 H51 234.7 120.0
C6 C5 C3 H52 125.3 240.0
C3 C5 C6 C7 182.2 180.0
C3 C5 C6 H61 307.5 60.0
C3 C5 C6 H62 57.0 300.0
H51 C5 C3 H52 250.6 120.0
H41 C4 C3 C5 359.3 243.0
C3 C4 H41 H42 125.3 120.0
C3 C4 H41 H43 234.8 240.0
H42 C4 H41 H43 109.5 120.0
H42 C4 C3 C5 124.6 2.9
C3 C4 H42 H41 227.2 240.0
C3 C4 H42 H43 113.6 120.0
H41 C4 H42 H43 246.5 240.0
H43 C4 C3 C5 234.1 122.9
C3 C4 H43 H41 132.8 120.0
C3 C4 H43 H42 246.4 239.9
H41 C4 H43 H42 113.6 119.9
C3 C5 C6 H51 125.3 240.0
C3 C5 C6 H52 234.7 120.0
H51 C5 C6 H52 109.4 240.0
C7 C6 C5 H61 234.8 119.9
C7 C6 C5 H62 125.3 240.0
C5 C6 C7 C8 213.3 125.7
C5 C6 C7 H7 33.4 305.7
H61 C6 C5 H62 250.5 120.1
C3 C5 H51 C6 233.8 120.0
C3 C5 H51 H52 116.9 240.0
C6 C5 H51 H52 243.1 120.0
H51 C5 C6 C7 56.9 300.0
H51 C5 C6 H61 182.2 180.1
H51 C5 C6 H62 291.7 60.0
C3 C5 H52 C6 126.2 240.0
C3 C5 H52 H51 243.1 120.0
C6 C5 H52 H51 116.9 240.0
H52 C5 C6 C7 307.5 60.0
H52 C5 C6 H61 72.7 300.0
H52 C5 C6 H62 182.2 180.0
C7 C6 C5 H51 56.9 300.0
C7 C6 C5 H52 307.5 60.0
C5 C6 C7 H61 125.2 240.0
C5 C6 C7 H62 234.7 120.0
H61 C6 C7 H62 109.5 240.0
C8 C7 C6 H7 180.0 180.0
C6 C7 C8 C10 0.7 5.7
C6 C7 C8 C9 180.9 185.7
H61 C6 C5 H51 182.2 180.1
H61 C6 C5 H52 72.7 300.0
C5 C6 H61 C7 231.0 120.0
C5 C6 H61 H62 115.5 240.0
C7 C6 H61 H62 244.5 120.0
H61 C6 C7 C8 88.1 245.7
H61 C6 C7 H7 268.1 65.7
H62 C6 C5 H51 291.7 60.0
H62 C6 C5 H52 182.2 180.0
C5 C6 H62 C7 129.1 240.0
C5 C6 H62 H61 244.5 120.1
C7 C6 H62 H61 115.5 240.0
H62 C6 C7 C8 338.6 5.7
H62 C6 C7 H7 158.6 185.7
C8 C7 C6 H61 88.1 245.7
C8 C7 C6 H62 338.6 5.7
C6 C7 C8 H7 180.0 180.0
C10 C8 C7 C9 179.8 180.0
C7 C8 C10 H101 180.0 54.9
C7 C8 C10 H102 305.3 174.9
C7 C8 C10 H103 54.7 294.8
C7 C8 C9 C11 254.3 90.0
C7 C8 C9 H91 19.6 330.0
C7 C8 C9 H92 129.1 210.0
H7 C7 C6 H61 268.1 65.7
H7 C7 C6 H62 158.6 185.7
C6 C7 H7 C8 180.0 180.0
H7 C7 C8 C10 180.7 185.7
H7 C7 C8 C9 0.9 5.7
C10 C8 C7 H7 180.7 185.7
C7 C8 C10 C9 180.2 180.0
C10 C8 C9 C11 74.5 270.0
C10 C8 C9 H91 199.7 150.0
C10 C8 C9 H92 309.3 30.0
H101 C10 C8 H102 234.7 240.0
H101 C10 C8 H103 125.3 120.1
H102 C10 C8 H103 250.6 240.1
C9 C8 C7 H7 0.9 5.7
C7 C8 C9 C10 179.8 180.0
C9 C8 C10 H101 359.8 234.9
C9 C8 C10 H102 125.1 355.0
C9 C8 C10 H103 234.5 114.9
C11 C9 C8 H91 234.8 120.0
C11 C9 C8 H92 125.2 240.0
C8 C9 C11 C12 86.2 180.0
C8 C9 C11 H111 211.5 60.0
C8 C9 C11 H112 321.0 300.0
H91 C9 C8 H92 250.5 120.0
H101 C10 C8 C9 359.8 234.9
C8 C10 H101 H102 125.2 120.0
C8 C10 H101 H103 234.7 239.9
H102 C10 H101 H103 109.5 119.9
H102 C10 C8 C9 125.1 355.0
C8 C10 H102 H101 227.0 239.9
C8 C10 H102 H103 113.4 119.9
H101 C10 H102 H103 246.4 240.0
H103 C10 C8 C9 234.5 114.9
C8 C10 H103 H101 133.0 120.1
C8 C10 H103 H102 246.5 240.1
H101 C10 H103 H102 113.5 120.0
C8 C9 C11 H91 125.2 240.0
C8 C9 C11 H92 234.7 120.0
H91 C9 C11 H92 109.5 240.0
C12 C11 C9 H111 234.8 120.0
C12 C11 C9 H112 125.2 240.0
C9 C11 C12 C13 205.6 125.6
C9 C11 C12 H12 25.6 305.7
H111 C11 C9 H112 250.4 120.0
C8 C9 H91 C11 232.6 120.0
C8 C9 H91 H92 116.3 240.0
C11 C9 H91 H92 243.7 120.0
H91 C9 C11 C12 321.0 300.0
H91 C9 C11 H111 86.3 180.0
H91 C9 C11 H112 195.8 60.0
C8 C9 H92 C11 127.4 240.0
C8 C9 H92 H91 243.7 119.9
C11 C9 H92 H91 116.3 240.0
H92 C9 C11 C12 211.5 60.0
H92 C9 C11 H111 336.7 300.0
H92 C9 C11 H112 86.3 180.0
C12 C11 C9 H91 321.0 300.0
C12 C11 C9 H92 211.5 60.0
C9 C11 C12 H111 125.2 240.0
C9 C11 C12 H112 234.7 120.0
H111 C11 C12 H112 109.5 240.0
C13 C12 C11 H12 180.0 180.0
C11 C12 C13 C14 183.3 185.6
C11 C12 C13 C15 359.7 5.7
H111 C11 C9 H91 86.3 180.0
H111 C11 C9 H92 336.7 300.0
C9 C11 H111 C12 230.9 120.0
C9 C11 H111 H112 115.5 240.0
C12 C11 H111 H112 244.6 120.0
H111 C11 C12 C13 80.4 245.7
H111 C11 C12 H12 260.4 65.7
H112 C11 C9 H91 195.8 60.0
H112 C11 C9 H92 86.3 180.0
C9 C11 H112 C12 129.1 240.0
C9 C11 H112 H111 244.5 120.0
C12 C11 H112 H111 115.4 240.0
H112 C11 C12 C13 330.9 5.7
H112 C11 C12 H12 150.9 185.7
C13 C12 C11 H111 80.4 245.7
C13 C12 C11 H112 330.9 5.7
C11 C12 C13 H12 180.0 180.0
C14 C13 C12 C15 183.6 179.9
C12 C13 C14 H141 180.0 180.1
C12 C13 C14 H142 305.3 300.1
C12 C13 C14 H143 54.7 60.1
C12 C13 C15 H151 180.0 54.9
C12 C13 C15 H152 305.3 174.8
C12 C13 C15 H153 54.7 294.8
H12 C12 C11 H111 260.4 65.7
H12 C12 C11 H112 150.9 185.7
C11 C12 H12 C13 180.0 180.0
H12 C12 C13 C14 3.3 5.6
H12 C12 C13 C15 179.7 185.7
C14 C13 C12 H12 3.3 5.6
C12 C13 C14 C15 176.8 180.1
C14 C13 C15 H151 356.9 235.0
C14 C13 C15 H152 122.1 354.9
C14 C13 C15 H153 231.6 114.9
H141 C14 C13 H142 234.7 240.0
H141 C14 C13 H143 125.3 120.0
H142 C14 C13 H143 250.6 240.0
C15 C13 C12 H12 179.7 185.7
C12 C13 C15 C14 183.1 179.9
C15 C13 C14 H141 3.2 360.0
C15 C13 C14 H142 128.5 120.0
C15 C13 C14 H143 237.9 240.0
H151 C15 C13 H152 234.8 240.0
H151 C15 C13 H153 125.3 120.0
H152 C15 C13 H153 250.5 240.0
H141 C14 C13 C15 3.2 360.0
C13 C14 H141 H142 125.3 120.0
C13 C14 H141 H143 234.7 240.0
H142 C14 H141 H143 109.4 120.0
H142 C14 C13 C15 128.5 120.0
C13 C14 H142 H141 224.1 240.0
C13 C14 H142 H143 112.1 120.0
H141 C14 H142 H143 248.0 240.0
H143 C14 C13 C15 237.9 240.0
C13 C14 H143 H141 135.9 120.0
C13 C14 H143 H142 247.9 240.0
H141 C14 H143 H142 112.0 120.0
C13 C15 H151 H152 125.2 120.0
C13 C15 H151 H153 234.7 240.0
H152 C15 H151 H153 109.5 120.0
C13 C15 H152 H151 225.3 240.0
C13 C15 H152 H153 112.6 120.0
H151 C15 H152 H153 247.3 240.0
C13 C15 H153 H151 134.8 120.0
C13 C15 H153 H152 247.4 240.0
H151 C15 H153 H152 112.6 120.0
O1 PA O1A O2A 114.6 120.0
O1 PA O1A O3A 236.2 240.0
O2A PA O1A O3A 121.6 120.0
O1A PA O2A HOA2 300.7 180.0
O1A PA O3A PB 168.0 60.0
O1 PA O2A O1A 239.3 240.0
O1 PA O2A O3A 126.6 120.0
O1A PA O2A O3A 247.3 240.0
O2A PA O3A PB 43.7 300.0
O1 PA O3A O1A 119.0 120.0
O1 PA O3A O2A 243.3 240.0
O1A PA O3A O2A 124.3 120.0
O3A PA O2A HOA2 53.4 300.0
PA O3A PB O1B 306.3 60.0
PA O3A PB O2B 190.7 180.0
PA O3A PB O3B 67.2 300.0
HOA2 O2A PA O3A 53.4 300.0
O1B PB O3A O2B 115.6 240.0
O1B PB O3A O3B 239.1 120.0
O2B PB O3A O3B 123.6 240.0
O3A PB O2B HOB2 180.0 180.0
O3A PB O3B HOB3 180.0 300.0
O3A PB O1B O2B 246.1 120.0
O3A PB O1B O3B 130.9 240.0
O2B PB O1B O3B 244.8 120.0
O1B PB O2B HOB2 59.0 300.0
O1B PB O3B HOB3 307.2 180.0
O3A PB O2B O1B 121.0 240.0
O3A PB O2B O3B 230.1 120.0
O1B PB O2B O3B 109.0 240.0
O2B PB O3B HOB3 59.6 60.0
O3A PB O3B O1B 232.8 120.0
O3A PB O3B O2B 120.4 240.0
O1B PB O3B O2B 247.6 120.0
O3B PB O2B HOB2 309.9 60.0
HOB2 O2B PB O3B 309.9 60.0