PDB Chemical Component 0O9

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 0O9

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C22 C21 1.522 1.530
C22 O23 1.430 1.429
O26 C21 1.426 1.429
O26 C27 1.417 1.429
C21 C20 1.536 1.529
C24 O23 1.422 1.429
C24 C25 1.511 1.529
O19 P16 1.530 1.480
C20 O17 1.432 1.429
O17 P16 1.603 1.610
P16 O18 1.491 1.610
P16 O15 1.592 1.610
O7 C3 1.438 1.429
O15 C4 1.393 1.429
C4 C3 1.531 1.529
C4 C5 1.516 1.530
C3 C2 1.527 1.531
O8 C2 1.443 1.429
O10 C5 1.433 1.429
O10 C11 1.432 1.429
C2 C1 1.546 1.530
C5 C6 1.529 1.530
C11 C12 1.535 1.530
C6 C1 1.540 1.530
C12 C13 1.506 1.530
C12 C14 1.534 1.530
C1 O9 1.425 1.429
C5 H1 1.100 1.090
C6 H2 1.100 1.091
C6 H3 1.100 1.090
O7 H4 0.950 0.967
O18 H5 0.950 0.968
C20 H6 1.100 1.091
C20 H7 1.100 1.090
C21 H8 1.100 1.090
C27 H9 1.100 1.090
C27 H10 1.100 1.090
C27 H11 1.100 1.090
C22 H12 1.100 1.090
C22 H13 1.100 1.089
C24 H14 1.100 1.090
C24 H15 1.100 1.090
C25 H16 1.100 1.090
C25 H17 1.100 1.090
C4 H19 1.100 1.090
C3 H20 1.100 1.090
C2 H21 1.100 1.091
O8 H22 0.950 0.966
C1 H23 1.100 1.090
O9 H24 0.950 0.967
C11 H25 1.100 1.090
C11 H26 1.100 1.091
C12 H27 1.100 1.090
C14 H28 1.100 1.090
C14 H29 1.100 1.090
C14 H30 1.100 1.090
C13 H31 1.100 1.090
C13 H32 1.100 1.090
C13 H33 1.100 1.090
C25 C7   1.530
C7 C8   1.530
C8 C9   1.530
C9 C10   1.530
C10 C15   1.529
C15 C16   1.530
C16 C17   1.529
C17 C18   1.530
C18 C19   1.531
C19 C23   1.530
C23 C26   1.530
C26 C28   1.530
C28 C29   1.530
C29 C30   1.530
C30 C31   1.529
C31 C32   1.530
C7 H18   1.090
C7 H34   1.089
C8 H35   1.090
C8 H36   1.090
C9 H37   1.090
C9 H38   1.090
C10 H39   1.091
C10 H40   1.090
C15 H41   1.090
C15 H42   1.090
C16 H43   1.090
C16 H44   1.090
C17 H45   1.090
C17 H46   1.090
C18 H47   1.090
C18 H48   1.090
C19 H49   1.090
C19 H50   1.089
C23 H51   1.090
C23 H52   1.090
C26 H53   1.091
C26 H54   1.089
C28 H55   1.090
C28 H56   1.090
C29 H57   1.090
C29 H58   1.090
C30 H59   1.090
C30 H60   1.090
C31 H61   1.090
C31 H62   1.090
C32 H63   1.090
C32 H64   1.090
C32 H65   1.090

Bond Angles for 0O9

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C22 C21 H8 109.0 109.5
O23 C22 H12 109.9 109.4
O23 C22 H13 109.9 109.5
O26 C21 H8 110.3 109.5
O26 C27 H9 109.5 109.4
O26 C27 H10 109.5 109.5
O26 C27 H11 109.4 109.5
C21 C20 H6 108.2 109.5
C21 C20 H7 108.2 109.5
C25 C24 H14 109.3 109.5
C25 C24 H15 109.3 109.5
C24 C25 H16 116.7 109.5
C24 C25 H17 116.7 109.5
C24 C25 C7   109.5
O19 P16 O18 117.8 109.5
O19 P16 O15 104.7 109.5
O17 P16 O15 104.0 109.5
O18 P16 O15 105.2 109.4
P16 O18 H5 109.5 114.0
P16 O15 C4 122.9 123.0
O7 C3 C4 107.8 109.5
O7 C3 C2 107.8 109.4
C3 O7 H4 109.5 114.0
O7 C3 H20 108.6 109.5
O15 C4 C3 102.9 109.4
O15 C4 H19 112.2 109.4
C4 C3 C2 117.3 109.5
C3 C4 H19 110.1 109.5
C4 C3 H20 107.5 109.5
C4 C5 H1 107.8 109.5
C3 C2 C1 117.6 109.5
C2 C3 H20 107.5 109.5
C3 C2 H21 106.7 109.5
O8 C2 C1 111.8 109.5
O8 C2 H21 107.6 109.4
O10 C5 H1 108.9 109.5
O10 C11 C12 111.6 109.5
O10 C11 H25 108.9 109.5
O10 C11 H26 109.0 109.4
C6 C1 C2 117.7 109.5
C2 C1 O9 106.6 109.4
C1 C2 H21 106.4 109.5
C2 C1 H23 108.4 109.5
C5 C6 C1 109.5 109.5
C6 C5 H1 107.6 109.5
C5 C6 H2 109.5 109.5
C5 C6 H3 109.5 109.5
C11 C12 C13 110.1 109.5
C11 C12 C14 113.3 109.4
C12 C11 H25 108.9 109.5
C12 C11 H26 108.9 109.5
C11 C12 H27 108.1 109.5
C6 C1 O9 105.5 109.5
C1 C6 H2 109.4 109.5
C1 C6 H3 109.5 109.4
C6 C1 H23 108.5 109.5
C14 C12 C13 108.5 109.5
C13 C12 H27 108.5 109.5
C12 C13 H31 109.5 109.4
C12 C13 H32 109.5 109.5
C12 C13 H33 109.5 109.5
C14 C12 H27 108.1 109.5
C12 C14 H28 109.5 109.5
C12 C14 H29 109.5 109.5
C12 C14 H30 109.4 109.5
O9 C1 H23 110.0 109.4
C1 O9 H24 109.5 113.9
H2 C6 H3 109.5 109.5
H6 C20 H7 109.4 109.4
H9 C27 H10 109.5 109.5
H9 C27 H11 109.5 109.4
H10 C27 H11 109.5 109.5
H12 C22 H13 109.4 109.5
H14 C24 H15 109.5 109.5
H16 C25 H17 109.5 109.5
H16 C25 C7   109.5
H17 C25 C7   109.5
H25 C11 H26 109.5 109.5
H28 C14 H29 109.5 109.5
H28 C14 H30 109.5 109.4
H29 C14 H30 109.5 109.5
H31 C13 H32 109.5 109.5
H31 C13 H33 109.4 109.5
H32 C13 H33 109.5 109.4
C25 C7 C8   109.5
C25 C7 H18   109.4
C25 C7 H34   109.5
C7 C8 C9   109.5
C8 C7 H18   109.4
C8 C7 H34   109.5
C7 C8 H35   109.4
C7 C8 H36   109.6
C8 C9 C10   109.5
C9 C8 H35   109.4
C9 C8 H36   109.5
C8 C9 H37   109.5
C8 C9 H38   109.5
C9 C10 C15   109.5
C10 C9 H37   109.5
C10 C9 H38   109.5
C9 C10 H39   109.4
C9 C10 H40   109.5
C10 C15 C16   109.5
C15 C10 H39   109.5
C15 C10 H40   109.5
C10 C15 H41   109.5
C10 C15 H42   109.5
C15 C16 C17   109.5
C16 C15 H41   109.5
C16 C15 H42   109.4
C15 C16 H43   109.5
C15 C16 H44   109.4
C16 C17 C18   109.5
C17 C16 H43   109.5
C17 C16 H44   109.5
C16 C17 H45   109.5
C16 C17 H46   109.5
C17 C18 C19   109.5
C18 C17 H45   109.5
C18 C17 H46   109.4
C17 C18 H47   109.5
C17 C18 H48   109.4
C18 C19 C23   109.4
C19 C18 H47   109.5
C19 C18 H48   109.5
C18 C19 H49   109.5
C18 C19 H50   109.4
C19 C23 C26   109.4
C23 C19 H49   109.5
C23 C19 H50   109.5
C19 C23 H51   109.5
C19 C23 H52   109.5
C23 C26 C28   109.5
C26 C23 H51   109.5
C26 C23 H52   109.5
C23 C26 H53   109.5
C23 C26 H54   109.5
C26 C28 C29   109.5
C28 C26 H53   109.5
C28 C26 H54   109.5
C26 C28 H55   109.4
C26 C28 H56   109.5
C28 C29 C30   109.5
C29 C28 H55   109.4
C29 C28 H56   109.5
C28 C29 H57   109.5
C28 C29 H58   109.5
C29 C30 C31   109.5
C30 C29 H57   109.5
C30 C29 H58   109.5
C29 C30 H59   109.5
C29 C30 H60   109.5
C30 C31 C32   109.5
C31 C30 H59   109.5
C31 C30 H60   109.5
C30 C31 H61   109.5
C30 C31 H62   109.5
C32 C31 H61   109.5
C32 C31 H62   109.4
C31 C32 H63   109.5
C31 C32 H64   109.4
C31 C32 H65   109.5
H18 C7 H34   109.5
H35 C8 H36   109.5
H37 C9 H38   109.4
H39 C10 H40   109.4
H41 C15 H42   109.5
H43 C16 H44   109.5
H45 C17 H46   109.5
H47 C18 H48   109.5
H49 C19 H50   109.5
H51 C23 H52   109.5
H53 C26 H54   109.5
H55 C28 H56   109.5
H57 C29 H58   109.4
H59 C30 H60   109.4
H61 C31 H62   109.5
H63 C32 H64   109.5
H63 C32 H65   109.5
H64 C32 H65   109.5

Torsion Angles for 0O9

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
O26 C21 C22 H8 241.0 240.0
C22 C21 C20 H6 336.7 65.0
C22 C21 C20 H7 95.1 305.0
O23 C22 C21 H8 217.2 55.0
H12 C22 O23 H13 120.5 120.0
C22 C21 O26 H8 118.2 120.0
O26 C21 C20 H6 218.4 305.0
O26 C21 C20 H7 336.8 185.0
C27 O26 C21 H8 134.8 30.0
H9 C27 O26 H10 240.0 240.0
H9 C27 O26 H11 120.0 119.9
H10 C27 O26 H11 240.0 240.0
H6 C20 C21 H7 241.6 120.0
C24 O23 C22 H12 114.7 59.9
C24 O23 C22 H13 354.2 300.0
H14 C24 C25 H15 119.8 120.0
H16 C25 C24 H17 227.9 240.0
H16 C25 C24 C7   120.0
H17 C25 C24 C7   240.0
C24 C25 C7 C8   180.1
C24 C25 C7 H18   300.0
C24 C25 C7 H34   60.0
O17 P16 O19 O15 110.8 120.0
O18 P16 O19 O15 243.6 240.0
O19 P16 O18 H5 360.0 180.0
O19 P16 O15 C4 158.6 305.1
C20 O17 P16 O15 75.7 175.0
O19 P16 O17 O15 248.8 240.0
O18 P16 O17 O15 114.3 120.0
O17 P16 O18 H5 130.2 300.0
O17 P16 O15 C4 44.3 185.0
O19 P16 O18 O15 116.1 120.0
O17 P16 O18 O15 246.4 240.0
O18 P16 O15 C4 283.4 65.0
O19 P16 O15 O18 235.2 240.0
O15 P16 O18 H5 243.9 60.0
P16 O15 C4 C3 234.6 240.0
P16 O15 C4 H19 352.9 360.0
O15 C4 C3 O7 31.7 300.0
C4 C3 O7 C2 232.4 240.0
O7 C3 C4 H19 272.0 180.0
C4 C3 O7 H20 116.2 120.0
O7 C3 C2 C1 241.5 300.0
C2 C3 O7 H20 243.8 240.0
O7 C3 C2 H21 122.2 180.0
O7 C3 C4 O15 31.7 300.0
O15 C4 C3 C2 269.9 180.0
C3 C4 O15 H19 241.7 240.0
O15 C4 C3 H20 148.7 60.0
O15 C4 C5 H1 168.6 300.0
O7 C3 C4 C2 121.9 120.0
C4 C3 O7 H4 180.0 180.0
O7 C3 C4 H20 243.1 240.0
O15 C4 C3 H19 119.7 120.0
C3 C4 C5 H1 55.6 180.0
C4 C3 C2 C1 3.3 60.0
C2 C3 C4 H20 121.2 120.0
C4 C3 C2 H21 244.0 300.0
O10 C5 C4 H1 119.7 120.1
C4 C5 C6 C1 66.5 300.0
C6 C5 C4 H1 244.6 240.0
C4 C5 C6 H2 186.5 60.0
C4 C5 C6 H3 306.5 180.0
O7 C3 C2 C4 238.2 240.0
C2 C3 O7 H4 307.6 300.0
O7 C3 C2 H20 117.0 120.0
C2 C3 C4 H19 150.1 60.0
C4 C3 C2 H20 238.8 240.0
O8 C2 C3 C1 126.1 120.1
O8 C2 C3 H21 245.4 240.0
C6 C1 C2 C3 5.4 300.0
C3 C2 C1 O9 247.4 180.0
C1 C2 C3 H21 119.3 120.0
C3 C2 C1 H23 128.9 60.1
C3 C2 O8 C1 230.4 240.0
O8 C2 C3 H20 250.6 300.0
C3 C2 O8 H21 113.9 120.0
C6 C1 C2 O8 242.1 180.0
O8 C2 C1 O9 124.0 60.0
C1 C2 O8 H21 243.5 240.0
O8 C2 C1 H23 5.6 300.0
C4 C5 O10 H1 240.9 239.9
C6 C5 O10 H1 119.9 120.0
O10 C5 C6 H2 310.4 180.0
O10 C5 C6 H3 70.5 300.0
C11 O10 C5 H1 45.1 330.0
O10 C11 C12 C13 163.3 185.0
O10 C11 C12 C14 41.5 65.0
C12 C11 O10 H25 239.7 240.0
C12 C11 O10 H26 120.3 120.0
O10 C11 C12 H27 281.7 305.0
H25 C11 O10 H26 240.6 240.0
C1 C2 C3 H20 124.5 180.0
C3 C2 C1 H21 240.6 240.0
O8 C2 C1 H21 117.3 120.0
C5 C6 C1 C2 319.4 60.0
C6 C1 C2 O9 118.1 120.0
C2 C1 C6 H2 199.4 300.0
C2 C1 C6 H3 79.4 180.0
C6 C1 C2 H23 236.5 239.9
O9 C1 C2 H23 118.4 119.9
C2 C1 O9 H24 180.0 180.0
C4 C5 C6 H1 115.5 120.0
O10 C5 C6 H1 239.5 240.0
C5 C6 C1 O9 78.0 180.0
C1 C6 C5 H2 240.0 240.0
C1 C6 C5 H3 120.0 120.0
C5 C6 C1 H23 195.9 300.0
H2 C6 C5 H3 240.0 240.0
O10 C11 C12 H25 120.3 120.0
O10 C11 C12 H26 239.7 240.0
C14 C12 C11 C13 238.3 240.0
C13 C12 C11 H27 241.6 239.9
C11 C12 C13 H31 180.0 60.1
C11 C12 C13 H32 300.0 180.1
C11 C12 C13 H33 60.0 300.0
C14 C12 C11 H27 119.8 120.0
C11 C12 C14 H28 180.0 180.0
C11 C12 C14 H29 300.0 300.0
C11 C12 C14 H30 60.0 60.0
H25 C11 C12 H26 119.4 120.0
C3 C2 C1 C6 5.4 300.0
O8 C2 C1 C6 242.1 180.0
C2 C1 C6 O9 241.3 240.0
C6 C1 C2 H21 124.8 60.0
C2 C1 C6 H23 123.5 120.0
C1 C6 C5 H1 311.0 180.0
C5 C6 C1 H2 120.0 120.0
C5 C6 C1 H3 240.0 240.0
O9 C1 C6 H23 242.1 240.0
C6 C1 O9 H24 54.2 60.0
H2 C6 C1 H3 120.0 120.0
C11 C12 C13 C14 235.4 240.1
C13 C12 C11 H25 43.0 65.0
C13 C12 C11 H26 283.6 305.0
C11 C12 C13 H27 118.2 120.0
C14 C12 C13 H27 242.8 240.0
C13 C12 C14 H28 57.3 60.0
C13 C12 C14 H29 177.3 180.0
C13 C12 C14 H30 297.3 300.0
H31 C13 C12 H32 240.0 240.0
H31 C13 C12 H33 120.0 120.0
H32 C13 C12 H33 240.0 240.0
C11 C12 C14 C13 122.7 120.0
C14 C12 C11 H25 281.2 305.0
C14 C12 C11 H26 161.8 185.0
C11 C12 C14 H27 240.1 240.0
C13 C12 C14 H27 117.5 120.0
C14 C12 C13 H31 304.6 180.0
C14 C12 C13 H32 64.6 300.0
C14 C12 C13 H33 184.6 60.0
H28 C14 C12 H29 240.0 240.0
H28 C14 C12 H30 120.0 120.0
H29 C14 C12 H30 240.0 240.0
C6 C1 O9 C2 234.2 240.0
O9 C1 C2 H21 6.8 300.0
C2 C1 O9 H23 242.6 240.1
O9 C1 C6 H2 318.0 60.0
O9 C1 C6 H3 198.0 300.0
C6 C1 O9 H23 116.8 120.1
H1 C5 C6 C1 311.0 180.0
H1 C5 C6 H2 71.0 300.0
H1 C5 C6 H3 191.0 60.0
H2 C6 C1 C2 199.4 300.0
C5 C6 H2 C1 240.0 240.0
H2 C6 C5 H1 71.0 300.0
C5 C6 H2 H3 120.0 120.0
H2 C6 C1 O9 318.0 60.0
C1 C6 H2 H3 240.0 240.1
H2 C6 C1 H23 75.9 180.0
H3 C6 C1 C2 79.4 180.0
C5 C6 H3 C1 120.0 120.0
H3 C6 C5 H1 191.0 60.0
C5 C6 H3 H2 240.0 240.0
H3 C6 C1 O9 198.0 300.0
C1 C6 H3 H2 120.0 120.0
H3 C6 C1 H23 315.9 60.0
H4 O7 C3 C4 180.0 180.0
H4 O7 C3 C2 307.6 300.0
H4 O7 C3 H20 63.8 60.0
H5 O18 P16 O15 243.9 60.0
C21 C20 H6 H7 117.6 240.0
C21 C20 H7 H6 242.4 120.0
H8 C21 C20 H6 95.6 185.0
H8 C21 C20 H7 214.1 65.0
O26 C27 H9 H10 120.0 120.0
O26 C27 H9 H11 240.0 240.0
H10 C27 H9 H11 120.0 120.0
O26 C27 H10 H9 240.0 240.0
O26 C27 H10 H11 120.0 120.0
H9 C27 H10 H11 240.0 240.0
O26 C27 H11 H9 120.0 119.9
O26 C27 H11 H10 240.0 239.9
H9 C27 H11 H10 120.0 120.0
H12 C22 C21 H8 337.0 175.0
O23 C22 H12 H13 239.2 240.0
H13 C22 C21 H8 97.5 295.0
O23 C22 H13 H12 120.8 119.9
C25 C24 H14 H15 240.4 240.0
H14 C24 C25 H16 41.9 180.0
H14 C24 C25 H17 174.0 300.0
H14 C24 C25 C7   60.0
C25 C24 H15 H14 119.6 120.0
H15 C24 C25 H16 282.1 60.0
H15 C24 C25 H17 54.2 180.0
H15 C24 C25 C7   300.0
H16 C25 C24 H14 41.9 180.0
H16 C25 C24 H15 282.1 60.0
C24 C25 H16 H17 135.3 120.0
C24 C25 H16 C7   240.0
H17 C25 H16 C7   120.0
H16 C25 C7 C8   60.0
H16 C25 C7 H18   179.9
H16 C25 C7 H34   300.0
H17 C25 C24 H14 174.0 300.0
H17 C25 C24 H15 54.2 180.0
C24 C25 H17 H16 224.7 240.0
C24 C25 H17 C7   120.0
H16 C25 H17 C7   240.0
H17 C25 C7 C8   300.0
H17 C25 C7 H18   60.0
H17 C25 C7 H34   180.0
O15 C4 H19 C3 246.1 240.0
H19 C4 C3 C2 150.1 60.0
H19 C4 C3 H20 29.0 300.0
H19 C4 C5 H1 290.2 59.9
O7 C3 H20 C4 116.4 120.1
O7 C3 H20 C2 243.6 240.1
H20 C3 O7 H4 63.8 60.0
C4 C3 H20 C2 127.2 120.0
H20 C3 C4 H19 29.0 300.0
H20 C3 C2 C1 124.5 180.0
H20 C3 C2 H21 5.2 60.0
C3 C2 H21 C1 126.3 120.0
H21 C2 C3 H20 5.2 60.0
O8 C2 H21 C1 240.0 240.0
H21 C2 C1 O9 6.8 300.0
H21 C2 C1 H23 248.3 180.1
H22 O8 C2 C1 309.6 300.0
H22 O8 C2 H21 66.1 60.0
C6 C1 H23 C2 128.9 120.0
C2 C1 H23 O9 116.2 119.9
H23 C1 C2 H21 248.3 180.1
C6 C1 H23 O9 245.1 240.0
H23 C1 C6 H2 75.9 180.0
H23 C1 C6 H3 315.9 60.0
H23 C1 O9 H24 297.4 300.0
H24 O9 C1 H23 297.4 300.0
O10 C11 H25 C12 238.1 240.0
O10 C11 H25 H26 119.1 120.0
H25 C11 C12 C13 43.0 65.0
H25 C11 C12 C14 281.2 305.0
C12 C11 H25 H26 241.0 240.0
H25 C11 C12 H27 161.4 185.0
O10 C11 H26 C12 121.9 120.0
O10 C11 H26 H25 240.9 240.0
H26 C11 C12 C13 283.6 305.0
H26 C11 C12 C14 161.8 185.0
C12 C11 H26 H25 119.0 120.0
H26 C11 C12 H27 42.0 65.0
C11 C12 H27 C13 240.5 240.0
C11 C12 H27 C14 123.1 120.0
H27 C12 C11 H25 161.4 185.0
H27 C12 C11 H26 42.0 65.0
C14 C12 H27 C13 117.5 120.0
H27 C12 C13 H31 61.8 300.0
H27 C12 C13 H32 181.8 60.0
H27 C12 C13 H33 301.8 180.0
H27 C12 C14 H28 299.9 300.0
H27 C12 C14 H29 59.9 60.0
H27 C12 C14 H30 179.9 180.0
H28 C14 C12 C13 57.3 60.0
H28 C14 C12 H27 299.9 300.0
C12 C14 H28 H29 120.0 120.0
C12 C14 H28 H30 240.0 240.0
H29 C14 H28 H30 120.0 120.0
H29 C14 C12 C13 177.3 180.0
H29 C14 C12 H27 59.9 60.0
C12 C14 H29 H28 240.0 240.0
C12 C14 H29 H30 120.0 120.0
H28 C14 H29 H30 240.0 240.0
H30 C14 C12 C13 297.3 300.0
H30 C14 C12 H27 179.9 180.0
C12 C14 H30 H28 120.0 120.0
C12 C14 H30 H29 240.0 240.0
H28 C14 H30 H29 120.0 120.0
H31 C13 C12 H27 61.8 300.0
C12 C13 H31 H32 120.0 120.0
C12 C13 H31 H33 240.0 240.0
H32 C13 H31 H33 119.9 120.0
H32 C13 C12 H27 181.8 60.0
C12 C13 H32 H31 239.9 240.0
C12 C13 H32 H33 120.0 120.0
H31 C13 H32 H33 240.1 240.0
H33 C13 C12 H27 301.8 180.0
C12 C13 H33 H31 120.0 120.0
C12 C13 H33 H32 240.0 240.0
H31 C13 H33 H32 119.9 120.0
C7 C25 C24 H14   60.0
C7 C25 C24 H15   300.0
C24 C25 C7 H16   120.0
C24 C25 C7 H17   240.0
H16 C25 C7 H17   120.0
C25 C7 C8 C9   180.0
C8 C7 C25 H18   240.1
C8 C7 C25 H34   120.1
C25 C7 C8 H35   299.9
C25 C7 C8 H36   60.0
H18 C7 C25 H34   240.0
C25 C7 C8 H18   119.9
C25 C7 C8 H34   240.0
C7 C8 C9 C10   180.0
C9 C8 C7 H35   240.1
C9 C8 C7 H36   120.0
C7 C8 C9 H37   300.0
C7 C8 C9 H38   59.9
H18 C7 C8 H34   120.1
H35 C8 C7 H36   240.0
C9 C8 C7 H18   60.1
C9 C8 C7 H34   300.0
C7 C8 C9 H35   119.9
C7 C8 C9 H36   239.9
C8 C9 C10 C15   180.0
C10 C9 C8 H37   240.0
C10 C9 C8 H38   120.1
C8 C9 C10 H39   300.0
C8 C9 C10 H40   59.9
H35 C8 C9 H36   120.0
H37 C9 C8 H38   240.0
C10 C9 C8 H35   60.1
C10 C9 C8 H36   300.1
C8 C9 C10 H37   120.0
C8 C9 C10 H38   239.9
C9 C10 C15 C16   180.0
C15 C10 C9 H39   240.0
C15 C10 C9 H40   120.1
C9 C10 C15 H41   300.0
C9 C10 C15 H42   60.0
H37 C9 C10 H38   119.9
H39 C10 C9 H40   240.1
C15 C10 C9 H37   60.0
C15 C10 C9 H38   300.1
C9 C10 C15 H39   120.0
C9 C10 C15 H40   240.0
C10 C15 C16 C17   180.0
C16 C15 C10 H41   240.0
C16 C15 C10 H42   120.0
C10 C15 C16 H43   300.0
C10 C15 C16 H44   60.0
H39 C10 C15 H40   120.0
H41 C15 C10 H42   240.0
C16 C15 C10 H39   60.0
C16 C15 C10 H40   300.0
C10 C15 C16 H41   120.0
C10 C15 C16 H42   240.0
C15 C16 C17 C18   180.0
C17 C16 C15 H43   239.9
C17 C16 C15 H44   120.0
C15 C16 C17 H45   300.1
C15 C16 C17 H46   60.1
H41 C15 C16 H42   120.0
H43 C16 C15 H44   240.0
C17 C16 C15 H41   59.9
C17 C16 C15 H42   300.0
C15 C16 C17 H43   120.1
C15 C16 C17 H44   240.1
C16 C17 C18 C19   180.0
C18 C17 C16 H45   239.9
C18 C17 C16 H46   119.9
C16 C17 C18 H47   300.1
C16 C17 C18 H48   60.0
H43 C16 C17 H44   120.0
H45 C17 C16 H46   240.0
C18 C17 C16 H43   59.9
C18 C17 C16 H44   299.9
C16 C17 C18 H45   120.1
C16 C17 C18 H46   240.0
C17 C18 C19 C23   180.0
C19 C18 C17 H47   240.0
C19 C18 C17 H48   120.0
C17 C18 C19 H49   300.0
C17 C18 C19 H50   60.1
H45 C17 C18 H46   120.0
H47 C18 C17 H48   240.0
C19 C18 C17 H45   60.0
C19 C18 C17 H46   300.0
C17 C18 C19 H47   120.0
C17 C18 C19 H48   240.1
C18 C19 C23 C26   180.0
C23 C19 C18 H49   240.0
C23 C19 C18 H50   120.0
C18 C19 C23 H51   300.0
C18 C19 C23 H52   60.1
H47 C18 C19 H48   120.0
H49 C19 C18 H50   239.9
C23 C19 C18 H47   60.0
C23 C19 C18 H48   300.0
C18 C19 C23 H49   120.0
C18 C19 C23 H50   240.1
C19 C23 C26 C28   180.0
C26 C23 C19 H51   240.0
C26 C23 C19 H52   120.0
C19 C23 C26 H53   300.0
C19 C23 C26 H54   60.0
H49 C19 C23 H50   120.1
H51 C23 C19 H52   240.0
C26 C23 C19 H49   60.1
C26 C23 C19 H50   300.0
C19 C23 C26 H51   120.0
C19 C23 C26 H52   240.0
C23 C26 C28 C29   180.0
C28 C26 C23 H53   240.0
C28 C26 C23 H54   120.1
C23 C26 C28 H55   299.9
C23 C26 C28 H56   60.0
H51 C23 C26 H52   120.0
H53 C26 C23 H54   240.0
C28 C26 C23 H51   60.0
C28 C26 C23 H52   300.0
C23 C26 C28 H53   120.0
C23 C26 C28 H54   240.0
C26 C28 C29 C30   180.0
C29 C28 C26 H55   240.1
C29 C28 C26 H56   120.0
C26 C28 C29 H57   300.0
C26 C28 C29 H58   59.9
H53 C26 C28 H54   120.0
H55 C28 C26 H56   239.9
C29 C28 C26 H53   60.0
C29 C28 C26 H54   300.0
C26 C28 C29 H55   119.9
C26 C28 C29 H56   240.0
C28 C29 C30 C31   180.0
C30 C29 C28 H57   240.0
C30 C29 C28 H58   120.1
C28 C29 C30 H59   300.0
C28 C29 C30 H60   59.9
H55 C28 C29 H56   120.0
H57 C29 C28 H58   240.1
C30 C29 C28 H55   60.1
C30 C29 C28 H56   300.0
C28 C29 C30 H57   120.0
C28 C29 C30 H58   239.9
C29 C30 C31 C32   180.0
C31 C30 C29 H59   240.0
C31 C30 C29 H60   120.1
C29 C30 C31 H61   300.0
C29 C30 C31 H62   60.0
H57 C29 C30 H58   120.0
H59 C30 C29 H60   240.1
C31 C30 C29 H57   60.0
C31 C30 C29 H58   300.0
C29 C30 C31 H59   120.0
C29 C30 C31 H60   240.0
C32 C31 C30 H61   240.0
C32 C31 C30 H62   120.0
C30 C31 C32 H63   300.0
C30 C31 C32 H64   60.0
C30 C31 C32 H65   180.0
H59 C30 C31 H60   120.0
H61 C31 C30 H62   240.0
C32 C31 C30 H59   60.0
C32 C31 C30 H60   300.0
C30 C31 C32 H61   120.0
C30 C31 C32 H62   240.0
H61 C31 C32 H62   120.0
H63 C32 C31 H64   240.0
H63 C32 C31 H65   120.1
H64 C32 C31 H65   240.0
C25 C7 H18 C8   240.1
C25 C7 H18 H34   120.0
H18 C7 C8 C9   60.1
C8 C7 H18 H34   239.9
H18 C7 C8 H35   180.0
H18 C7 C8 H36   300.0
C25 C7 H34 C8   120.0
C25 C7 H34 H18   240.0
H34 C7 C8 C9   300.0
C8 C7 H34 H18   120.0
H34 C7 C8 H35   59.9
H34 C7 C8 H36   180.0
C7 C8 H35 C9   240.1
H35 C8 C7 H18   180.0
H35 C8 C7 H34   59.9
C7 C8 H35 H36   120.1
H35 C8 C9 C10   60.1
C9 C8 H35 H36   240.0
H35 C8 C9 H37   180.1
H35 C8 C9 H38   300.0
C7 C8 H36 C9   120.0
H36 C8 C7 H18   300.0
H36 C8 C7 H34   180.0
C7 C8 H36 H35   240.0
H36 C8 C9 C10   300.1
C9 C8 H36 H35   120.0
H36 C8 C9 H37   60.1
H36 C8 C9 H38   180.0
C8 C9 H37 C10   240.0
H37 C9 C8 H35   180.1
H37 C9 C8 H36   60.1
C8 C9 H37 H38   120.0
H37 C9 C10 C15   60.0
C10 C9 H37 H38   240.0
H37 C9 C10 H39   180.0
H37 C9 C10 H40   299.9
C8 C9 H38 C10   120.1
H38 C9 C8 H35   300.0
H38 C9 C8 H36   180.0
C8 C9 H38 H37   240.0
H38 C9 C10 C15   300.1
C10 C9 H38 H37   119.9
H38 C9 C10 H39   60.1
H38 C9 C10 H40   180.0
C9 C10 H39 C15   240.0
H39 C10 C9 H37   180.0
H39 C10 C9 H38   60.1
C9 C10 H39 H40   119.9
H39 C10 C15 C16   60.0
C15 C10 H39 H40   240.0
H39 C10 C15 H41   180.0
H39 C10 C15 H42   300.0
C9 C10 H40 C15   120.1
H40 C10 C9 H37   299.9
H40 C10 C9 H38   180.0
C9 C10 H40 H39   240.1
H40 C10 C15 C16   300.0
C15 C10 H40 H39   120.0
H40 C10 C15 H41   60.0
H40 C10 C15 H42   180.0
C10 C15 H41 C16   240.0
H41 C15 C10 H39   180.0
H41 C15 C10 H40   60.0
C10 C15 H41 H42   120.0
H41 C15 C16 C17   59.9
C16 C15 H41 H42   240.0
H41 C15 C16 H43   180.0
H41 C15 C16 H44   300.0
C10 C15 H42 C16   120.0
H42 C15 C10 H39   300.0
H42 C15 C10 H40   180.0
C10 C15 H42 H41   240.0
H42 C15 C16 C17   300.0
C16 C15 H42 H41   120.0
H42 C15 C16 H43   60.0
H42 C15 C16 H44   180.0
C15 C16 H43 C17   240.0
H43 C16 C15 H41   180.0
H43 C16 C15 H42   60.0
C15 C16 H43 H44   120.0
H43 C16 C17 C18   59.9
C17 C16 H43 H44   240.0
H43 C16 C17 H45   180.0
H43 C16 C17 H46   300.0
C15 C16 H44 C17   120.0
H44 C16 C15 H41   300.0
H44 C16 C15 H42   180.0
C15 C16 H44 H43   240.0
H44 C16 C17 C18   299.9
C17 C16 H44 H43   120.0
H44 C16 C17 H45   60.0
H44 C16 C17 H46   180.0
C16 C17 H45 C18   240.0
H45 C17 C16 H43   180.0
H45 C17 C16 H44   60.0
C16 C17 H45 H46   120.0
H45 C17 C18 C19   60.0
C18 C17 H45 H46   240.0
H45 C17 C18 H47   180.0
H45 C17 C18 H48   300.0
C16 C17 H46 C18   120.0
H46 C17 C16 H43   300.0
H46 C17 C16 H44   180.0
C16 C17 H46 H45   240.0
H46 C17 C18 C19   300.0
C18 C17 H46 H45   120.0
H46 C17 C18 H47   60.0
H46 C17 C18 H48   180.0
C17 C18 H47 C19   240.0
H47 C18 C17 H45   180.0
H47 C18 C17 H46   60.0
C17 C18 H47 H48   120.0
H47 C18 C19 C23   60.0
C19 C18 H47 H48   240.0
H47 C18 C19 H49   179.9
H47 C18 C19 H50   300.0
C17 C18 H48 C19   120.0
H48 C18 C17 H45   300.0
H48 C18 C17 H46   180.0
C17 C18 H48 H47   240.0
H48 C18 C19 C23   300.0
C19 C18 H48 H47   120.0
H48 C18 C19 H49   59.9
H48 C18 C19 H50   180.0
C18 C19 H49 C23   240.1
H49 C19 C18 H47   179.9
H49 C19 C18 H48   59.9
C18 C19 H49 H50   120.0
H49 C19 C23 C26   60.1
C23 C19 H49 H50   239.9
H49 C19 C23 H51   180.0
H49 C19 C23 H52   300.1
C18 C19 H50 C23   119.9
H50 C19 C18 H47   300.0
H50 C19 C18 H48   180.0
C18 C19 H50 H49   240.0
H50 C19 C23 C26   300.0
C23 C19 H50 H49   120.1
H50 C19 C23 H51   59.9
H50 C19 C23 H52   180.0
C19 C23 H51 C26   240.0
H51 C23 C19 H49   180.0
H51 C23 C19 H50   59.9
C19 C23 H51 H52   120.1
H51 C23 C26 C28   60.0
C26 C23 H51 H52   240.0
H51 C23 C26 H53   180.0
H51 C23 C26 H54   300.0
C19 C23 H52 C26   120.0
H52 C23 C19 H49   300.1
H52 C23 C19 H50   180.0
C19 C23 H52 H51   239.9
H52 C23 C26 C28   300.0
C26 C23 H52 H51   120.0
H52 C23 C26 H53   60.0
H52 C23 C26 H54   180.0
C23 C26 H53 C28   240.0
H53 C26 C23 H51   180.0
H53 C26 C23 H52   60.0
C23 C26 H53 H54   120.0
H53 C26 C28 C29   60.0
C28 C26 H53 H54   239.9
H53 C26 C28 H55   180.0
H53 C26 C28 H56   300.0
C23 C26 H54 C28   120.0
H54 C26 C23 H51   300.0
H54 C26 C23 H52   180.0
C23 C26 H54 H53   240.0
H54 C26 C28 C29   300.0
C28 C26 H54 H53   120.0
H54 C26 C28 H55   59.9
H54 C26 C28 H56   180.0
C26 C28 H55 C29   240.1
H55 C28 C26 H53   180.0
H55 C28 C26 H54   59.9
C26 C28 H55 H56   120.1
H55 C28 C29 C30   60.1
C29 C28 H55 H56   240.0
H55 C28 C29 H57   180.1
H55 C28 C29 H58   300.0
C26 C28 H56 C29   120.0
H56 C28 C26 H53   300.0
H56 C28 C26 H54   180.0
C26 C28 H56 H55   240.0
H56 C28 C29 C30   300.0
C29 C28 H56 H55   120.0
H56 C28 C29 H57   60.0
H56 C28 C29 H58   180.0
C28 C29 H57 C30   240.0
H57 C29 C28 H55   180.1
H57 C29 C28 H56   60.0
C28 C29 H57 H58   120.0
H57 C29 C30 C31   60.0
C30 C29 H57 H58   240.0
H57 C29 C30 H59   180.0
H57 C29 C30 H60   299.9
C28 C29 H58 C30   120.1
H58 C29 C28 H55   300.0
H58 C29 C28 H56   180.0
C28 C29 H58 H57   240.0
H58 C29 C30 C31   300.0
C30 C29 H58 H57   120.0
H58 C29 C30 H59   60.0
H58 C29 C30 H60   180.0
C29 C30 H59 C31   240.0
H59 C30 C29 H57   180.0
H59 C30 C29 H58   60.0
C29 C30 H59 H60   120.0
H59 C30 C31 C32   60.0
C31 C30 H59 H60   240.0
H59 C30 C31 H61   180.0
H59 C30 C31 H62   300.0
C29 C30 H60 C31   120.1
H60 C30 C29 H57   299.9
H60 C30 C29 H58   180.0
C29 C30 H60 H59   240.1
H60 C30 C31 C32   300.0
C31 C30 H60 H59   120.0
H60 C30 C31 H61   60.0
H60 C30 C31 H62   180.0
C30 C31 H61 C32   240.0
H61 C31 C30 H59   180.0
H61 C31 C30 H60   60.0
C30 C31 H61 H62   120.0
C32 C31 H61 H62   240.0
H61 C31 C32 H63   180.0
H61 C31 C32 H64   300.0
H61 C31 C32 H65   59.9
C30 C31 H62 C32   120.0
H62 C31 C30 H59   300.0
H62 C31 C30 H60   180.0
C30 C31 H62 H61   240.0
C32 C31 H62 H61   120.0
H62 C31 C32 H63   60.0
H62 C31 C32 H64   180.0
H62 C31 C32 H65   300.0
H63 C32 C31 H61   180.0
H63 C32 C31 H62   60.0
C31 C32 H63 H64   120.0
C31 C32 H63 H65   240.0
H64 C32 H63 H65   120.0
H64 C32 C31 H61   300.0
H64 C32 C31 H62   180.0
C31 C32 H64 H63   240.0
C31 C32 H64 H65   120.0
H63 C32 H64 H65   240.0
H65 C32 C31 H61   59.9
H65 C32 C31 H62   300.0
C31 C32 H65 H63   120.0
C31 C32 H65 H64   240.1
H63 C32 H65 H64   120.0