PDB Chemical Component 8NU

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 8NU

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
O14 C15   1.348
O14 N13   1.413
C21 C15   1.389
C21 C19   1.380
C15 C16   1.406
N13 C12   1.297
F20 C19   1.352
C19 C18   1.390
C12 C16   1.466
C12 C09   1.507
C16 C17   1.397
C10 C09   1.531
C10 C11   1.531
C18 C17   1.365
C09 C08   1.531
C11 N06   1.469
C08 C07   1.531
O23 C22   1.220
N06 C07   1.468
N06 C05   1.468
C05 C04   1.530
C04 C03   1.507
C22 C03   1.408
C22 N24   1.358
C25 N24   1.463
C25 C26   1.527
C03 C02   1.362
N24 C29   1.342
C26 C27   1.534
C02 N30   1.331
C02 C01   1.507
C29 N30   1.317
C29 C28   1.508
C27 C28   1.528
C01 H1   1.090
C01 H2   1.089
C01 H3   1.090
C04 H4   1.090
C04 H5   1.090
C05 H6   1.090
C05 H7   1.090
C07 H8   1.090
C07 H9   1.090
C08 H10   1.090
C08 H11   1.090
C09 H12   1.090
C10 H13   1.090
C10 H14   1.090
C11 H15   1.090
C11 H16   1.090
C17 H17   1.080
C18 H18   1.080
C21 H19   1.080
C25 H20   1.090
C25 H21   1.090
C26 H22   1.089
C26 H23   1.090
C27 H24   1.089
C27 H25   1.090
C28 H26   1.090
C28 H27   1.090

Bond Angles for 8NU

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C12 C16 C15   106.4
C15 C16 C17   119.9
C19 C18 H18   119.8
C12 C16 C17   133.8
C12 C09 H12   109.6
C16 C17 H17   120.0
C10 C09 H12   109.5
C10 C11 N06   109.5
C11 C10 H13   109.5
C11 C10 H14   109.5
C10 C11 H15   109.5
C10 C11 H16   109.5
C18 C17 H17   120.1
C09 C08 H10   109.5
C09 C08 H11   109.5
N06 C11 H15   109.5
N06 C11 H16   109.5
C08 C07 H8   109.5
C08 C07 H9   109.4
N06 C07 H8   109.5
N06 C07 H9   109.5
N06 C05 H6   109.5
N06 C05 H7   109.5
C05 C04 H4   109.5
C05 C04 H5   109.5
C22 N24 C25   116.8
C22 N24 C29   119.7
C26 C25 N24   111.2
C25 N24 C29   123.6
N24 C25 H20   109.2
N24 C25 H21   109.1
C25 C26 C27   108.2
C26 C25 H20   109.1
C26 C25 H21   109.1
C25 C26 H22   109.8
C25 C26 H23   109.7
C03 C02 N30   119.6
N24 C29 N30   120.6
C26 C27 C28   108.0
C27 C26 H22   109.7
C27 C26 H23   109.7
C26 C27 H24   109.7
C26 C27 H25   109.7
C02 N30 C29   122.6
C02 C01 H1   109.4
C02 C01 H2   109.5
C02 C01 H3   109.5
C29 C28 H26   109.3
C29 C28 H27   109.2
C28 C27 H24   109.8
C28 C27 H25   109.7
C27 C28 H26   109.2
C27 C28 H27   109.3
H1 C01 H2   109.5
H1 C01 H3   109.4
H2 C01 H3   109.6
H4 C04 H5   109.5
H6 C05 H7   109.5
H8 C07 H9   109.5
H10 C08 H11   109.5
H13 C10 H14   109.6
H15 C11 H16   109.4
H20 C25 H21   109.1
H22 C26 H23   109.7
H24 C27 H25   109.8
H26 C28 H27   109.3

Torsion Angles for 8NU

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C21 C19 C18 H18   180.0
C12 C16 C15 C17   180.0
C15 C16 C17 H17   180.0
N13 C12 C09 H12   179.6
F20 C19 C18 H18   0.1
C19 C18 C17 H17   180.1
C15 C16 C12 C17   180.1
C16 C12 C09 H12   359.9
C12 C16 C17 H17   0.0
C10 C09 C12 H12   239.9
C12 C09 C08 H10   57.7
C12 C09 C08 H11   297.6
C12 C16 C17 C15   180.1
C18 C17 C16 H17   180.0
C12 C09 C10 H12   120.2
C10 C09 C08 H10   297.7
C10 C09 C08 H11   177.6
C11 C10 C09 H12   62.2
N06 C11 C10 H15   239.9
N06 C11 C10 H16   120.0
H13 C10 C11 H14   120.1
H15 C11 C10 H16   240.1
C16 C17 C18 H17   180.0
C09 C08 C07 H8   60.8
C09 C08 C07 H9   180.8
H10 C08 C09 H11   120.1
N06 C11 C10 H13   299.2
N06 C11 C10 H14   179.1
C10 C11 N06 H15   120.0
C10 C11 N06 H16   240.0
C11 N06 C07 H8   301.8
C11 N06 C07 H9   181.7
C11 N06 C05 H6   70.1
C11 N06 C05 H7   310.0
H15 C11 N06 H16   119.9
N06 C07 C08 H8   240.0
N06 C07 C08 H9   120.0
H8 C07 C08 H9   240.0
C08 C07 N06 H8   120.0
C08 C07 N06 H9   240.1
C07 N06 C05 H6   305.9
C07 N06 C05 H7   185.8
H8 C07 N06 H9   120.1
N06 C05 C04 H4   60.0
N06 C05 C04 H5   300.0
H6 C05 N06 H7   120.0
H4 C04 C05 H5   120.0
C04 C03 C02 N30   180.4
C22 C03 C02 N30   0.3
C26 C25 N24 C22   161.2
C25 N24 C22 C29   179.7
C22 N24 C25 H20   40.8
C22 N24 C25 H21   281.6
C22 N24 C29 N30   1.4
C22 N24 C25 C29   180.3
N24 C25 C26 C27   51.3
C26 C25 N24 H20   120.4
C26 C25 N24 H21   239.6
N24 C25 C26 H22   171.0
N24 C25 C26 H23   291.6
C25 N24 C29 N30   181.7
H20 C25 N24 H21   119.2
C22 N24 C25 C26   161.2
C26 C25 N24 C29   340.9
N24 C25 C26 H20   239.5
N24 C25 C26 H21   120.4
C25 C26 C27 C28   292.0
C27 C26 C25 H22   240.3
C27 C26 C25 H23   119.7
C25 C26 C27 H24   51.7
C25 C26 C27 H25   172.4
H20 C25 C26 H21   240.9
H22 C26 C25 H23   239.4
C03 C02 N30 C29   359.6
C03 C02 C01 H1   180.2
C03 C02 C01 H2   300.2
C03 C02 C01 H3   60.3
C22 N24 C29 C25   179.7
C29 N24 C25 H20   220.5
C29 N24 C25 H21   101.3
C02 N30 C29 N24   359.5
N24 C29 C28 H26   222.0
N24 C29 C28 H27   102.5
C27 C26 C25 N24   51.3
C27 C26 C25 H20   171.8
C27 C26 C25 H21   290.9
C25 C26 C27 H22   119.7
C25 C26 C27 H23   240.4
C28 C27 C26 H24   240.3
C28 C27 C26 H25   119.6
C26 C27 C28 H26   169.9
C26 C27 C28 H27   289.4
H22 C26 C27 H23   120.6
H24 C27 C26 H25   239.2
N24 C29 N30 C02   359.5
N30 C02 C01 H1   360.0
N30 C02 C01 H2   120.0
N30 C02 C01 H3   240.1
H1 C01 C02 H2   240.0
H1 C01 C02 H3   119.9
H2 C01 C02 H3   239.9
N30 C29 C28 H26   42.1
N30 C29 C28 H27   282.7
C22 N24 C29 C28   181.6
C25 N24 C29 C28   1.9
C02 N30 C29 C28   179.3
C29 C28 C27 H24   290.0
C29 C28 C27 H25   169.2
C27 C28 C29 H26   120.2
C27 C28 C29 H27   239.7
H26 C28 C29 H27   119.5
C28 C27 C26 H22   172.3
C28 C27 C26 H23   51.6
C26 C27 C28 H24   119.6
C26 C27 C28 H25   240.4
C29 C28 C27 H26   239.7
C29 C28 C27 H27   120.3
H24 C27 C28 H25   120.8
H26 C28 C27 H27   240.5
C02 C01 H1 H2   120.0
C02 C01 H1 H3   240.1
H2 C01 H1 H3   120.1
C02 C01 H2 H1   240.0
C02 C01 H2 H3   120.1
H1 C01 H2 H3   240.0
C02 C01 H3 H1   119.9
C02 C01 H3 H2   239.9
H1 C01 H3 H2   120.1
C05 C04 H4 H5   240.0
C05 C04 H5 H4   120.0
N06 C05 H6 H7   239.9
H6 C05 C04 H4   180.0
H6 C05 C04 H5   60.0
N06 C05 H7 H6   120.0
H7 C05 C04 H4   300.0
H7 C05 C04 H5   180.0
C08 C07 H8 H9   120.0
N06 C07 H8 H9   240.0
C08 C07 H9 H8   240.0
N06 C07 H9 H8   120.0
C09 C08 H10 H11   239.9
H10 C08 C07 H8   180.8
H10 C08 C07 H9   300.8
C09 C08 H11 H10   120.1
H11 C08 C07 H8   300.9
H11 C08 C07 H9   60.9
H12 C09 C08 H10   177.9
H12 C09 C08 H11   57.8
H13 C10 C09 H12   182.2
H13 C10 C11 N06   299.2
C11 C10 H13 H14   239.9
H13 C10 C11 H15   59.3
H13 C10 C11 H16   179.2
H14 C10 C09 H12   302.3
H14 C10 C11 N06   179.1
C11 C10 H14 H13   120.1
H14 C10 C11 H15   299.1
H14 C10 C11 H16   59.1
C10 C11 H15 N06   239.9
H15 C11 C10 H13   59.3
H15 C11 C10 H14   299.1
C10 C11 H15 H16   119.9
N06 C11 H15 H16   240.0
C10 C11 H16 N06   120.1
H16 C11 C10 H13   179.2
H16 C11 C10 H14   59.1
C10 C11 H16 H15   240.0
N06 C11 H16 H15   120.0
H18 C18 C17 H17   360.0
C26 C25 H20 N24   238.3
H20 C25 N24 C29   220.5
N24 C25 H20 H21   240.8
H20 C25 C26 C27   171.8
C26 C25 H20 H21   119.1
H20 C25 C26 H22   291.5
H20 C25 C26 H23   52.1
C26 C25 H21 N24   121.7
H21 C25 N24 C29   101.3
N24 C25 H21 H20   119.2
H21 C25 C26 C27   290.9
C26 C25 H21 H20   240.9
H21 C25 C26 H22   50.6
H21 C25 C26 H23   171.2
H22 C26 C25 N24   171.0
C25 C26 H22 C27   241.2
H22 C26 C25 H20   291.5
H22 C26 C25 H21   50.6
C25 C26 H22 H23   120.6
H22 C26 C27 C28   172.3
C27 C26 H22 H23   239.4
H22 C26 C27 H24   291.9
H22 C26 C27 H25   52.7
H23 C26 C25 N24   291.6
C25 C26 H23 C27   118.7
H23 C26 C25 H20   52.1
H23 C26 C25 H21   171.2
C25 C26 H23 H22   239.4
H23 C26 C27 C28   51.6
C27 C26 H23 H22   120.6
H23 C26 C27 H24   171.3
H23 C26 C27 H25   292.0
C26 C27 H24 C28   241.4
H24 C27 C26 H22   291.9
H24 C27 C26 H23   171.3
C26 C27 H24 H25   120.7
C28 C27 H24 H25   239.3
H24 C27 C28 H26   50.3
H24 C27 C28 H27   169.8
C26 C27 H25 C28   118.5
H25 C27 C26 H22   52.7
H25 C27 C26 H23   292.0
C26 C27 H25 H24   239.3
C28 C27 H25 H24   120.8
H25 C27 C28 H26   289.5
H25 C27 C28 H27   49.0
C29 C28 H26 H27   240.5
H26 C28 C27 H24   50.3
H26 C28 C27 H25   289.5
C27 C28 H26 H27   119.5
C29 C28 H27 H26   119.5
H27 C28 C27 H24   169.8
H27 C28 C27 H25   49.0
C27 C28 H27 H26   240.6