PDB Chemical Component CT6

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 CT6

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
BR1	C1	1.899	1.891
C1	C2	1.391	1.381
C1	C6	1.413	1.384
C2	C3	1.416	1.394
C2	H2	1.080	1.079
C3	C4	1.410	1.394
C3	C7	1.489	1.482
C4	C5	1.407	1.380
C4	H4	1.080	1.080
C5	C6	1.411	1.384
C5	H5	1.080	1.080
C6	H6	1.080	1.080
C7	C8	1.404	1.406
C7	N1	1.345	1.323
C8	C9	1.398	1.365
C8	H8	1.080	1.079
C9	N2	1.350	1.371
C9	N4	1.422	1.379
N2	N3	1.322	1.400
N2	C10	1.331	1.371
N3	C12	1.373	1.313
C12	C11	1.385	1.387
C12	H12	1.080	1.080
C10	C11	1.363	1.389
C10	N1	1.369	1.339
C11	H11	1.080	1.080
N4	C13	1.467	1.465
N4	HA	1.000	0.970
C13	C14	1.521	1.507
C13	H131	1.100	1.090
C13	H132	1.100	1.090
C14	C15	1.390	1.386
C14	C18	1.389	1.387
C15	C16	1.398	1.382
C15	H15	1.080	1.080
C16	N5	1.361	1.319
C16	H16	1.080	1.080
N5	C17	1.376	1.318
C17	C18	1.395	1.382
C17	H17	1.080	1.080
C18	H18	1.079	1.080

Bond Angles for CT6

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
BR1	C1	C2	119.7	119.9
BR1	C1	C6	120.3	119.9
C2	C1	C6	119.9	120.1
C1	C2	C3	120.3	119.8
C1	C2	H2	119.9	120.0
C1	C6	C5	120.2	120.2
C1	C6	H6	119.9	119.9
C3	C2	H2	119.9	120.1
C2	C3	C4	120.0	119.8
C2	C3	C7	119.6	120.1
C4	C3	C7	120.4	120.1
C3	C4	C5	119.7	119.9
C3	C4	H4	120.1	120.1
C3	C7	C8	120.2	119.9
C3	C7	N1	120.2	119.9
C5	C4	H4	120.2	120.0
C4	C5	C6	119.9	120.2
C4	C5	H5	120.1	119.9
C6	C5	H5	120.0	119.9
C5	C6	H6	119.9	119.9
C8	C7	N1	119.6	120.2
C7	C8	C9	119.1	119.2
C7	C8	H8	120.5	120.4
C7	N1	C10	119.5	120.9
C9	C8	H8	120.4	120.4
C8	C9	N2	118.9	119.1
C8	C9	N4	120.8	120.5
N2	C9	N4	120.3	120.5
C9	N2	N3	128.9	132.4
C9	N2	C10	121.0	119.9
C9	N4	C13	120.4	120.0
C9	N4	HA	106.7	120.0
N3	N2	C10	109.9	107.6
N2	N3	C12	107.6	108.9
N2	C10	C11	108.9	106.9
N2	C10	N1	121.8	120.7
N3	C12	C11	107.5	109.0
N3	C12	H12	126.3	125.5
C11	C12	H12	126.2	125.5
C12	C11	C10	105.9	107.6
C12	C11	H11	127.0	126.2
C11	C10	N1	129.3	132.4
C10	C11	H11	127.0	126.2
C13	N4	HA	106.7	120.0
N4	C13	C14	109.0	109.5
N4	C13	H131	109.6	109.5
N4	C13	H132	109.6	109.5
C14	C13	H131	109.6	109.4
C14	C13	H132	109.6	109.4
C13	C14	C15	120.0	120.8
C13	C14	C18	120.3	120.8
H131	C13	H132	109.4	109.4
C15	C14	C18	119.6	118.4
C14	C15	C16	119.7	119.2
C14	C15	H15	120.1	120.5
C14	C18	C17	119.5	119.1
C14	C18	H18	120.2	120.4
C16	C15	H15	120.2	120.4
C15	C16	N5	120.3	120.8
C15	C16	H16	119.9	119.6
N5	C16	H16	119.8	119.6
C16	N5	C17	120.4	121.7
N5	C17	C18	120.4	120.8
N5	C17	H17	119.8	119.6
C18	C17	H17	119.8	119.6
C17	C18	H18	120.3	120.5

Torsion Angles for CT6

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C2	C1	BR1	C6	182.2	180.2
BR1	C1	C2	C3	179.0	180.0
BR1	C1	C2	H2	359.0	0.1
BR1	C1	C6	C5	181.5	179.7
BR1	C1	C6	H6	1.5	360.0
BR1	C1	C2	C6	177.8	179.8
C2	C1	C6	C5	359.3	359.4
C2	C1	C6	H6	179.3	179.8
C3	C2	C1	H2	180.0	179.9
C1	C2	C3	C4	359.6	0.0
C1	C2	C3	C7	179.9	180.0
BR1	C1	C6	C2	182.2	180.2
C6	C1	C2	C3	1.1	0.2
C6	C1	C2	H2	181.1	180.3
C4	C5	C6	C1	359.5	0.6
C1	C6	C5	H5	179.5	180.2
C5	C6	C1	H6	180.0	179.7
C3	C2	C1	C6	1.1	0.2
C1	C2	C3	H2	180.0	180.1
C4	C3	C2	C7	179.7	180.0
C2	C3	C4	C5	359.3	0.0
C2	C3	C4	H4	179.3	179.9
C2	C3	C7	C8	303.7	180.0
C2	C3	C7	N1	123.4	359.8
H2	C2	C1	C6	181.1	180.3
C1	C2	H2	C3	180.0	179.9
H2	C2	C3	C4	179.6	180.0
H2	C2	C3	C7	359.9	359.9
C4	C3	C2	H2	179.6	180.0
C2	C3	C4	C7	180.3	180.0
C4	C3	C7	C8	124.1	360.0
C4	C3	C7	N1	303.7	179.7
C5	C4	C3	H4	180.0	180.1
C3	C4	C5	C6	1.2	359.7
C3	C4	C5	H5	181.2	180.0
C7	C3	C2	H2	359.9	359.9
C2	C3	C7	C4	179.7	180.0
C7	C3	C4	C5	178.9	180.0
C7	C3	C4	H4	359.0	360.0
C8	C7	C3	N1	180.4	180.2
C3	C7	C8	C9	179.5	180.0
C3	C7	C8	H8	359.5	360.0
C3	C7	N1	C10	180.6	179.7
C1	C6	C5	C4	359.5	0.6
C5	C4	C3	C7	178.9	180.0
C3	C4	C5	H4	180.0	179.9
C6	C5	C4	H5	180.0	179.6
C4	C5	C6	H6	179.5	180.3
H4	C4	C3	C7	359.0	360.0
C3	C4	H4	C5	180.0	180.1
H4	C4	C5	C6	181.2	179.7
H4	C4	C5	H5	1.1	0.1
C1	C6	C5	H6	180.0	180.3
C6	C5	C4	H4	181.2	179.7
C4	C5	C6	H5	180.0	180.4
H5	C5	C4	H4	1.1	0.1
C4	C5	H5	C6	180.0	179.6
H5	C5	C6	H6	359.5	359.9
C1	C6	H6	C5	180.0	179.7
H6	C6	C5	H5	359.5	359.9
C3	C7	C8	N1	179.6	179.7
C8	C7	N1	C10	0.2	359.5
C9	C8	C7	H8	180.0	180.0
C7	C8	C9	N2	358.1	-0.0
C7	C8	C9	N4	180.2	180.0
C3	C7	N1	C8	180.4	180.3
N1	C7	C8	C9	359.9	0.3
N1	C7	C8	H8	179.9	180.3
N2	C10	N1	C7	1.7	0.5
C11	C10	N1	C7	179.9	180.2
C9	C8	C7	N1	359.9	0.3
C7	C8	C9	H8	180.0	180.0
N2	C9	C8	N4	177.9	180.0
C8	C9	N2	N3	178.5	180.0
C8	C9	N2	C10	3.8	-0.0
C8	C9	N4	C13	329.4	-0.0
C8	C9	N4	HA	90.9	180.0
H8	C8	C7	N1	179.9	180.3
C7	C8	H8	C9	180.0	180.0
H8	C8	C9	N2	178.1	180.0
H8	C8	C9	N4	0.2	360.0
N2	C9	C8	H8	178.1	180.0
C8	C9	N2	N4	182.1	180.0
N2	C9	N4	C13	151.5	180.0
N2	C9	N4	HA	273.1	-0.0
N3	N2	C9	C10	174.7	180.0
C9	N2	N3	C12	183.1	180.0
C9	N2	C10	C11	177.6	180.0
C9	N2	C10	N1	356.2	359.8
N4	C9	C8	H8	0.2	-0.0
C8	C9	N4	N2	177.8	180.0
N4	C9	N2	N3	356.4	-0.0
N4	C9	N2	C10	181.7	180.0
C13	N4	C9	HA	238.4	180.0
C9	N4	C13	C14	116.1	180.0
C9	N4	C13	H131	236.1	300.0
C9	N4	C13	H132	356.2	60.0
N3	N2	C9	N4	356.4	-0.0
C9	N2	N3	C10	184.8	180.0
N3	N2	C10	C11	2.0	360.0
N3	N2	C10	N1	180.6	179.8
N2	N3	C12	C11	0.7	360.0
N2	N3	C12	H12	180.7	180.0
C7	N1	C10	N2	1.7	0.5
C10	N2	C9	N4	181.7	180.0
C9	N2	C10	N3	175.6	180.0
C10	N2	N3	C12	358.3	0.0
C12	C11	C10	N2	358.5	0.0
C11	C10	N2	N1	181.4	180.2
N2	C10	C11	H11	178.5	180.0
C12	N3	N2	C10	358.3	0.0
C11	C12	N3	H12	180.0	180.0
N3	C12	C11	C10	0.5	0.0
N3	C12	C11	H11	180.5	180.0
N2	C10	C11	C12	358.5	0.0
N3	C12	C11	H12	180.0	180.0
C12	C11	C10	N1	180.0	180.3
C10	C11	C12	H11	180.0	180.0
N3	C12	H12	C11	180.0	179.9
H12	C12	C11	C10	180.5	180.0
H12	C12	C11	H11	0.5	360.0
C7	N1	C10	C11	179.9	180.2
N2	C10	C11	N1	178.4	179.8
C10	C11	C12	H12	180.5	180.0
C12	C11	C10	H11	180.0	180.0
N2	C10	N1	C11	181.7	180.3
N1	C10	C11	H11	0.0	0.2
H11	C11	C12	H12	0.5	-0.0
C12	C11	H11	C10	180.0	179.9
H11	C11	C10	N1	0.0	0.2
C9	N4	C13	HA	121.5	180.0
C14	C13	N4	H131	240.1	240.0
C14	C13	N4	H132	120.0	120.0
N4	C13	C14	C15	33.6	90.0
N4	C13	C14	C18	214.1	269.7
H131	C13	N4	H132	239.9	240.0
C9	N4	HA	C13	230.1	180.0
HA	N4	C13	C14	354.6	-0.0
HA	N4	C13	H131	114.5	120.0
HA	N4	C13	H132	234.6	240.0
C14	C13	N4	HA	354.6	-0.0
N4	C13	C14	H131	119.9	120.0
N4	C13	C14	H132	240.0	240.0
H131	C13	C14	H132	120.1	119.9
C15	C14	C13	C18	179.5	180.2
C13	C14	C15	C16	181.4	180.0
C13	C14	C15	H15	1.5	0.0
C13	C14	C18	C17	179.0	179.8
C13	C14	C18	H18	359.0	359.9
H131	C13	N4	HA	114.5	120.0
N4	C13	H131	C14	240.4	240.0
N4	C13	H131	H132	120.2	120.0
C14	C13	H131	H132	239.8	240.1
H131	C13	C14	C15	273.6	329.9
H131	C13	C14	C18	94.1	149.7
H132	C13	N4	HA	234.6	240.0
N4	C13	H132	C14	119.6	120.0
N4	C13	H132	H131	239.8	240.0
C14	C13	H132	H131	120.2	119.9
H132	C13	C14	C15	153.5	210.0
H132	C13	C14	C18	334.0	29.8
C15	C14	C13	H131	273.6	329.9
C15	C14	C13	H132	153.5	210.0
C13	C14	C15	C18	180.5	179.8
C15	C14	C18	C17	359.5	359.5
C15	C14	C18	H18	179.5	179.7
C16	C15	C14	H15	180.0	179.9
C14	C15	C16	N5	359.4	0.1
C14	C15	C16	H16	179.4	180.0
C18	C14	C13	H131	94.1	149.7
C18	C14	C13	H132	334.0	29.8
C13	C14	C18	C15	179.5	180.2
C18	C14	C15	C16	1.0	0.2
C18	C14	C15	H15	181.0	180.3
N5	C17	C18	C14	359.7	0.5
C14	C18	C17	H17	179.7	180.3
C17	C18	C14	H18	180.0	179.8
C16	C15	C14	C18	1.0	0.2
C14	C15	C16	H15	180.0	180.1
N5	C16	C15	H16	180.0	180.1
C15	C16	N5	C17	359.8	359.9
H15	C15	C14	C18	181.0	180.3
C14	C15	H15	C16	180.0	179.9
H15	C15	C16	N5	179.4	180.0
H15	C15	C16	H16	359.4	359.9
N5	C16	C15	H15	179.4	180.0
C15	C16	N5	H16	180.0	179.9
C16	N5	C17	C18	0.7	359.8
C16	N5	C17	H17	180.7	180.0
H16	C16	C15	H15	359.4	359.9
C15	C16	H16	N5	180.0	180.1
H16	C16	N5	C17	179.8	180.0
C14	C18	C17	N5	359.7	0.5
C17	N5	C16	H16	179.8	180.0
C18	C17	N5	H17	180.0	179.8
N5	C17	C18	H18	179.7	180.3
C14	C18	C17	H18	180.0	180.2
N5	C17	C18	H17	180.0	180.2
N5	C17	H17	C18	180.0	179.8
H17	C17	C18	H18	359.7	0.1
C14	C18	H18	C17	180.0	179.8
H18	C18	C17	H17	359.7	0.1