PDB Chemical Component BUE

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 BUE

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
O34 P35 1.465 1.480
O36 P35 1.678 1.610
P35 O38 1.699 1.610
P35 O37 1.468 1.609
O38 P39 1.692 1.611
O42 P39 1.658 1.610
O42 C43 1.395 1.429
O41 P39 1.456 1.480
P39 O40 1.469 1.609
C43 C44 1.521 1.507
O36 H1 0.950 0.967
O37 H2 0.950 0.967
O40 H3 0.949 0.968
C43 H4 1.100 1.090
C43 H5 1.100 1.090
C44 H6 1.080 1.080
C44 C1   1.310
C1 C2   1.506
C1 C15   1.506
C2 H7   1.090
C2 H8   1.090
C15 H25   1.090
C15 H26   1.091
C15 C19   1.530
C19 C20   1.508
C20 C21   1.310
C21 C22   1.507
C21 C3   1.507
C2 H9   1.090
C19 H10   1.090
C19 H11   1.090
C20 H12   1.080
C22 H13   1.090
C22 H14   1.090
C22 H15   1.090
C3 H16   1.089
C3 H17   1.090
C3 C4   1.530
C4 C5   1.507
C5 C6   1.310
C6 C7   1.507
C6 C8   1.507
C4 H18   1.090
C4 H19   1.090
C5 H20   1.080
C7 H21   1.091
C7 H22   1.089
C7 H23   1.090
C8 H24   1.090
C8 H27   1.090
C8 C9   1.530
C9 C10   1.508
C10 C11   1.310
C11 C12   1.507
C11 C13   1.507
C9 H28   1.090
C9 H29   1.091
C10 H30   1.080
C12 H31   1.091
C12 H32   1.090
C12 H33   1.090
C13 H34   1.090
C13 H35   1.090
C13 H36   1.090

Bond Angles for BUE

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
O34 P35 O38 110.8 109.5
O34 P35 O37 97.1 109.5
O36 P35 O38 115.6 109.5
O36 P35 O37 110.9 109.5
O37 P35 O38 111.5 109.5
P35 O38 P39 131.8 134.0
P35 O37 H2 109.5 114.1
O38 P39 O40 113.4 109.5
O42 C43 C44 107.3 109.4
O42 C43 H4 110.0 109.5
O42 C43 H5 110.0 109.5
P39 O40 H3 109.5 114.0
C44 C43 H4 110.0 109.5
C44 C43 H5 110.0 109.5
C43 C44 H6 143.9 120.0
C43 C44 C1   120.0
H4 C43 H5 109.5 109.5
H6 C44 C1   120.0
C44 C1 C2   120.0
C44 C1 C15   120.0
C2 C1 C15   120.0
C1 C2 H7   109.5
C1 C2 H8   109.5
C1 C2 H9   109.5
C1 C15 H25   109.5
C1 C15 H26   109.5
C1 C15 C19   109.5
H7 C2 H8   109.4
H7 C2 H9   109.5
H8 C2 H9   109.5
H25 C15 H26   109.4
H25 C15 C19   109.5
H26 C15 C19   109.5
C15 C19 C20   109.5
C15 C19 H10   109.5
C15 C19 H11   109.4
C19 C20 C21   119.9
C20 C19 H10   109.5
C20 C19 H11   109.5
C19 C20 H12   120.0
C20 C21 C22   120.0
C20 C21 C3   120.0
C21 C20 H12   120.1
C22 C21 C3   120.0
C21 C22 H13   109.5
C21 C22 H14   109.5
C21 C22 H15   109.5
C21 C3 H16   109.5
C21 C3 H17   109.4
C21 C3 C4   109.5
H10 C19 H11   109.5
H13 C22 H14   109.5
H13 C22 H15   109.4
H14 C22 H15   109.5
H16 C3 H17   109.5
H16 C3 C4   109.5
H17 C3 C4   109.5
C3 C4 C5   109.4
C3 C4 H18   109.5
C3 C4 H19   109.4
C4 C5 C6   120.0
C5 C4 H18   109.5
C5 C4 H19   109.5
C4 C5 H20   120.0
C5 C6 C7   120.0
C5 C6 C8   120.0
C6 C5 H20   120.0
C7 C6 C8   120.0
C6 C7 H21   109.5
C6 C7 H22   109.5
C6 C7 H23   109.4
C6 C8 H24   109.5
C6 C8 H27   109.5
C6 C8 C9   109.5
H18 C4 H19   109.4
H21 C7 H22   109.5
H21 C7 H23   109.4
H22 C7 H23   109.6
H24 C8 H27   109.4
H24 C8 C9   109.5
H27 C8 C9   109.5
C8 C9 C10   109.5
C8 C9 H28   109.5
C8 C9 H29   109.4
C9 C10 C11   120.0
C10 C9 H28   109.5
C10 C9 H29   109.4
C9 C10 H30   120.0
C10 C11 C12   120.0
C10 C11 C13   120.0
C11 C10 H30   120.0
C12 C11 C13   120.0
C11 C12 H31   109.4
C11 C12 H32   109.5
C11 C12 H33   109.5
C11 C13 H34   109.5
C11 C13 H35   109.5
C11 C13 H36   109.5
H28 C9 H29   109.5
H31 C12 H32   109.5
H31 C12 H33   109.4
H32 C12 H33   109.4
H34 C13 H35   109.5
H34 C13 H36   109.5
H35 C13 H36   109.4

Torsion Angles for BUE

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
O36 P35 O34 O38 128.6 120.0
O36 P35 O34 O37 244.9 240.0
O37 P35 O34 O38 243.7 240.0
O34 P35 O38 P39 177.3 45.0
O34 P35 O37 H2 360.0 300.0
O34 P35 O36 O38 234.1 240.0
O34 P35 O36 O37 106.0 120.0
O37 P35 O36 O38 128.2 120.0
O36 P35 O38 P39 52.1 285.0
O36 P35 O37 H2 114.0 60.0
O34 P35 O38 O37 253.1 240.0
O36 P35 O38 O37 127.8 120.0
O38 P35 O37 H2 244.3 180.0
P35 O38 P39 O40 80.6 285.0
O34 P35 O37 O38 115.7 120.0
O36 P35 O37 O38 229.7 240.0
O37 P35 O38 P39 284.3 165.0
O38 P39 O40 H3 116.5 300.0
O42 P39 O40 H3 244.3 60.0
C44 C43 O42 H4 240.4 240.0
C44 C43 O42 H5 119.7 120.0
O42 C43 C44 H6 136.5 44.6
O42 C43 C44 C1   224.6
H4 C43 O42 H5 239.3 240.0
O41 P39 O40 H3 0.0 180.0
O42 C43 C44 H4 119.7 120.0
O42 C43 C44 H5 240.4 240.0
H4 C43 C44 H5 120.7 120.0
H6 C44 C43 C1   180.0
C43 C44 C1 C2   177.5
C43 C44 C1 C15   357.5
H1 O36 P35 O38 125.9 300.0
H1 O36 P35 O37 254.0 60.0
H2 O37 P35 O38 244.3 180.0
O42 C43 H4 C44 242.0 240.0
O42 C43 H4 H5 121.0 120.0
C44 C43 H4 H5 239.0 240.0
H4 C43 C44 H6 16.9 284.6
H4 C43 C44 C1   104.6
O42 C43 H5 C44 118.0 120.0
O42 C43 H5 H4 239.0 240.0
C44 C43 H5 H4 121.0 120.0
H5 C43 C44 H6 256.1 164.6
H5 C43 C44 C1   344.6
H6 C44 C43 H4 16.9 284.6
H6 C44 C43 H5 256.1 164.6
C43 C44 H6 C1   180.0
H6 C44 C1 C2   357.5
H6 C44 C1 C15   177.5
C1 C44 C43 H4   104.6
C1 C44 C43 H5   344.6
C43 C44 C1 H6   180.0
C2 C1 C44 C15   180.0
C44 C1 C2 H7   90.0
C44 C1 C2 H8   210.0
C44 C1 C2 H9   330.0
C44 C1 C15 H25   214.2
C44 C1 C15 H26   334.2
C44 C1 C15 C19   94.2
C44 C1 C2 C15   180.0
C2 C1 C15 H25   34.2
C2 C1 C15 H26   154.2
C2 C1 C15 C19   274.2
H7 C2 C1 H8   240.1
H7 C2 C1 H9   120.0
H8 C2 C1 H9   240.0
C44 C1 C15 C2   180.0
C15 C1 C2 H7   270.0
C15 C1 C2 H8   29.9
C15 C1 C2 H9   150.0
H25 C15 C1 H26   240.0
H25 C15 C1 C19   120.1
H26 C15 C1 C19   240.0
C1 C15 C19 C20   180.0
C1 C15 C19 H10   300.0
C1 C15 C19 H11   60.0
H7 C2 C1 C15   270.0
C1 C2 H7 H8   120.0
C1 C2 H7 H9   240.0
H8 C2 H7 H9   120.0
H8 C2 C1 C15   29.9
C1 C2 H8 H7   240.0
C1 C2 H8 H9   120.1
H7 C2 H8 H9   240.0
C1 C15 H25 H26   120.0
C1 C15 H25 C19   239.9
H26 C15 H25 C19   120.0
H25 C15 C19 C20   59.9
H25 C15 C19 H10   180.0
H25 C15 C19 H11   300.0
C1 C15 H26 H25   240.0
C1 C15 H26 C19   120.0
H25 C15 H26 C19   240.0
H26 C15 C19 C20   300.0
H26 C15 C19 H10   60.0
H26 C15 C19 H11   180.0
C1 C15 C19 H25   120.1
C1 C15 C19 H26   240.0
H25 C15 C19 H26   119.9
C15 C19 C20 C21   125.7
C20 C19 C15 H10   240.0
C20 C19 C15 H11   120.0
C15 C19 C20 H12   305.7
H10 C19 C15 H11   240.0
C15 C19 C20 H10   120.0
C15 C19 C20 H11   240.1
C19 C20 C21 C22   175.9
C19 C20 C21 C3   356.0
C21 C20 C19 H12   179.9
H10 C19 C20 H11   120.1
C21 C20 C19 H10   5.7
C21 C20 C19 H11   245.6
C19 C20 C21 H12   180.1
C22 C21 C20 C3   179.9
C20 C21 C22 H13   90.0
C20 C21 C22 H14   210.0
C20 C21 C22 H15   330.1
C20 C21 C3 H16   211.4
C20 C21 C3 H17   331.4
C20 C21 C3 C4   91.3
C20 C21 C22 C3   180.1
C22 C21 C20 H12   355.9
C22 C21 C3 H16   31.4
C22 C21 C3 H17   151.4
C22 C21 C3 C4   271.4
H13 C22 C21 H14   240.0
H13 C22 C21 H15   120.0
H14 C22 C21 H15   240.0
C20 C21 C3 C22   179.9
C3 C21 C20 H12   175.9
C3 C21 C22 H13   269.9
C3 C21 C22 H14   30.0
C3 C21 C22 H15   150.0
H16 C3 C21 H17   240.0
H16 C3 C21 C4   120.0
H17 C3 C21 C4   240.0
C21 C3 C4 C5   180.0
C21 C3 C4 H18   300.0
C21 C3 C4 H19   60.0
H9 C2 C1 C15   150.0
C1 C2 H9 H7   120.0
C1 C2 H9 H8   240.0
H7 C2 H9 H8   119.9
C15 C19 H10 C20   240.0
C15 C19 H10 H11   119.9
H10 C19 C20 C21   5.7
C20 C19 H10 H11   240.0
H10 C19 C20 H12   185.7
C15 C19 H11 C20   120.0
C15 C19 H11 H10   240.0
H11 C19 C20 C21   245.6
C20 C19 H11 H10   120.1
H11 C19 C20 H12   65.7
C19 C20 H12 C21   179.9
H12 C20 C19 H10   185.7
H12 C20 C19 H11   65.7
H12 C20 C21 C22   355.9
H12 C20 C21 C3   175.9
H13 C22 C21 C3   269.9
C21 C22 H13 H14   120.0
C21 C22 H13 H15   240.0
H14 C22 H13 H15   120.0
H14 C22 C21 C3   30.0
C21 C22 H14 H13   240.0
C21 C22 H14 H15   120.0
H13 C22 H14 H15   240.1
H15 C22 C21 C3   150.0
C21 C22 H15 H13   120.0
C21 C22 H15 H14   239.9
H13 C22 H15 H14   120.0
C21 C3 H16 H17   120.0
C21 C3 H16 C4   240.0
H17 C3 H16 C4   120.0
H16 C3 C4 C5   60.0
H16 C3 C4 H18   180.0
H16 C3 C4 H19   300.0
C21 C3 H17 H16   240.0
C21 C3 H17 C4   120.0
H16 C3 H17 C4   239.9
H17 C3 C4 C5   299.9
H17 C3 C4 H18   60.0
H17 C3 C4 H19   179.9
C21 C3 C4 H16   120.0
C21 C3 C4 H17   240.1
H16 C3 C4 H17   120.1
C3 C4 C5 C6   116.0
C5 C4 C3 H18   240.0
C5 C4 C3 H19   120.0
C3 C4 C5 H20   295.9
H18 C4 C3 H19   240.0
C3 C4 C5 H18   120.0
C3 C4 C5 H19   240.0
C4 C5 C6 C7   174.1
C4 C5 C6 C8   354.1
C6 C5 C4 H20   180.1
H18 C4 C5 H19   120.0
C6 C5 C4 H18   356.0
C6 C5 C4 H19   236.0
C4 C5 C6 H20   179.9
C7 C6 C5 C8   180.0
C5 C6 C7 H21   90.0
C5 C6 C7 H22   209.9
C5 C6 C7 H23   330.0
C5 C6 C8 H24   211.2
C5 C6 C8 H27   331.1
C5 C6 C8 C9   91.1
C5 C6 C7 C8   180.0
C7 C6 C5 H20   354.2
C7 C6 C8 H24   31.2
C7 C6 C8 H27   151.1
C7 C6 C8 C9   271.1
H21 C7 C6 H22   240.0
H21 C7 C6 H23   119.9
H22 C7 C6 H23   239.9
C5 C6 C8 C7   180.0
C8 C6 C5 H20   174.2
C8 C6 C7 H21   270.0
C8 C6 C7 H22   30.0
C8 C6 C7 H23   150.1
H24 C8 C6 H27   240.0
H24 C8 C6 C9   120.1
H27 C8 C6 C9   240.0
C6 C8 C9 C10   180.0
C6 C8 C9 H28   300.1
C6 C8 C9 H29   60.1
C3 C4 H18 C5   240.0
C3 C4 H18 H19   120.0
H18 C4 C5 C6   356.0
C5 C4 H18 H19   240.0
H18 C4 C5 H20   175.9
C3 C4 H19 C5   120.0
C3 C4 H19 H18   240.0
H19 C4 C5 C6   236.0
C5 C4 H19 H18   120.0
H19 C4 C5 H20   55.9
C4 C5 H20 C6   180.1
H20 C5 C4 H18   175.9
H20 C5 C4 H19   55.9
H20 C5 C6 C7   354.2
H20 C5 C6 C8   174.2
H21 C7 C6 C8   270.0
C6 C7 H21 H22   120.0
C6 C7 H21 H23   240.1
H22 C7 H21 H23   120.1
H22 C7 C6 C8   30.0
C6 C7 H22 H21   240.0
C6 C7 H22 H23   120.0
H21 C7 H22 H23   240.0
H23 C7 C6 C8   150.1
C6 C7 H23 H21   119.9
C6 C7 H23 H22   239.9
H21 C7 H23 H22   120.0
C6 C8 H24 H27   120.0
C6 C8 H24 C9   240.0
H27 C8 H24 C9   120.0
H24 C8 C9 C10   59.9
H24 C8 C9 H28   180.0
H24 C8 C9 H29   300.0
C6 C8 H27 H24   240.0
C6 C8 H27 C9   120.0
H24 C8 H27 C9   240.0
H27 C8 C9 C10   300.0
H27 C8 C9 H28   60.1
H27 C8 C9 H29   180.1
C6 C8 C9 H24   120.1
C6 C8 C9 H27   240.0
H24 C8 C9 H27   119.9
C8 C9 C10 C11   233.0
C10 C9 C8 H28   239.9
C10 C9 C8 H29   119.9
C8 C9 C10 H30   52.9
H28 C9 C8 H29   240.0
C8 C9 C10 H28   120.1
C8 C9 C10 H29   240.0
C9 C10 C11 C12   353.7
C9 C10 C11 C13   173.8
C11 C10 C9 H30   180.1
H28 C9 C10 H29   120.0
C11 C10 C9 H28   112.9
C11 C10 C9 H29   352.9
C9 C10 C11 H30   179.9
C12 C11 C10 C13   179.9
C10 C11 C12 H31   86.7
C10 C11 C12 H32   206.7
C10 C11 C12 H33   326.7
C10 C11 C13 H34   59.9
C10 C11 C13 H35   180.0
C10 C11 C13 H36   299.9
C10 C11 C12 C13   180.1
C12 C11 C10 H30   173.8
C12 C11 C13 H34   240.0
C12 C11 C13 H35   0.1
C12 C11 C13 H36   120.0
H31 C12 C11 H32   240.0
H31 C12 C11 H33   120.0
H32 C12 C11 H33   240.0
C10 C11 C13 C12   179.9
C13 C11 C10 H30   353.9
C13 C11 C12 H31   266.6
C13 C11 C12 H32   26.6
C13 C11 C12 H33   146.6
H34 C13 C11 H35   239.9
H34 C13 C11 H36   120.0
H35 C13 C11 H36   240.1
C8 C9 H28 C10   239.9
C8 C9 H28 H29   120.0
H28 C9 C10 C11   112.9
C10 C9 H28 H29   240.1
H28 C9 C10 H30   292.9
C8 C9 H29 C10   120.0
C8 C9 H29 H28   240.0
H29 C9 C10 C11   352.9
C10 C9 H29 H28   120.0
H29 C9 C10 H30   172.9
C9 C10 H30 C11   180.1
H30 C10 C9 H28   292.9
H30 C10 C9 H29   172.9
H30 C10 C11 C12   173.8
H30 C10 C11 C13   353.9
H31 C12 C11 C13   266.6
C11 C12 H31 H32   120.1
C11 C12 H31 H33   240.0
H32 C12 H31 H33   120.0
H32 C12 C11 C13   26.6
C11 C12 H32 H31   240.0
C11 C12 H32 H33   120.0
H31 C12 H32 H33   240.0
H33 C12 C11 C13   146.6
C11 C12 H33 H31   120.0
C11 C12 H33 H32   240.0
H31 C12 H33 H32   120.0
C11 C13 H34 H35   120.1
C11 C13 H34 H36   240.0
H35 C13 H34 H36   120.0
C11 C13 H35 H34   239.9
C11 C13 H35 H36   120.0
H34 C13 H35 H36   240.0
C11 C13 H36 H34   120.0
C11 C13 H36 H35   240.0
H34 C13 H36 H35   120.0