PDB Chemical Component DTQ

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 DTQ

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N1	C2	1.386	1.324
N1	C6	1.445	1.326
C2	N3	1.392	1.311
C2	H21	1.103	1.079
N3	C4	1.430	1.343
C4	C5	1.549	1.417
C4	C7	1.468	1.399
C5	C6	1.498	1.415
C5	C10	1.472	1.399
C6	N12	1.418	1.380
C7	C8	1.479	1.377
C7	H71	1.103	1.080
C8	C9	1.508	1.402
C8	O26	1.418	1.358
C9	C10	1.500	1.366
C9	O31	1.428	1.359
C10	H101	1.103	1.080
N12	C14	1.404	1.399
N12	H121	1.020	0.970
C14	C15	1.481	1.386
C14	C19	1.501	1.390
C15	C16	1.479	1.386
C15	H151	1.104	1.080
C16	C17	1.468	1.387
C16	O21	1.378	1.359
C17	C18	1.475	1.383
C17	H171	1.103	1.079
C18	C19	1.473	1.380
C18	H181	1.103	1.079
C19	H191	1.103	1.081
O21	H211	0.950	0.967
O26	C27	1.433	1.429
C27	H271	1.115	1.090
C27	H272	1.114	1.089
C27	H273	1.115	1.089
O31	C32	1.432	1.430
C32	H321	1.115	1.090
C32	H322	1.115	1.091
C32	H323	1.114	1.089

Bond Angles for DTQ

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C2	N1	C6	123.2	121.6
N1	C2	N3	121.6	122.9
N1	C2	H21	119.0	118.6
N1	C6	C5	118.0	118.2
N1	C6	N12	119.6	120.9
N3	C2	H21	119.4	118.5
C2	N3	C4	121.7	120.5
N3	C4	C5	118.8	118.7
N3	C4	C7	120.9	121.8
C5	C4	C7	120.2	119.5
C4	C5	C6	116.4	118.2
C4	C5	C10	118.0	119.9
C4	C7	C8	121.1	119.5
C4	C7	H71	119.1	120.3
C6	C5	C10	125.6	121.9
C5	C6	N12	122.4	120.9
C5	C10	C9	121.2	119.7
C5	C10	H101	118.5	120.2
C6	N12	C14	136.5	120.0
C6	N12	H121	103.0	120.0
C8	C7	H71	119.8	120.2
C7	C8	C9	119.4	120.7
C7	C8	O26	123.9	119.7
C9	C8	O26	116.7	119.6
C8	C9	C10	119.8	120.7
C8	C9	O31	116.7	119.6
C8	O26	C27	124.1	106.8
C10	C9	O31	123.4	119.7
C9	C10	H101	120.3	120.2
C9	O31	C32	121.3	106.8
C14	N12	H121	103.0	120.0
N12	C14	C15	114.7	120.1
N12	C14	C19	127.4	120.0
C15	C14	C19	117.9	119.9
C14	C15	C16	120.9	119.9
C14	C15	H151	119.7	120.1
C14	C19	C18	120.9	120.1
C14	C19	H191	120.5	120.0
C16	C15	H151	119.5	120.1
C15	C16	C17	120.2	120.0
C15	C16	O21	120.7	120.0
C17	C16	O21	119.0	120.0
C16	C17	C18	120.1	120.0
C16	C17	H171	119.7	120.0
C16	O21	H211	120.8	106.8
C18	C17	H171	120.2	120.0
C17	C18	C19	119.8	120.1
C17	C18	H181	120.1	119.9
C19	C18	H181	120.1	120.0
C18	C19	H191	118.6	120.0
O26	C27	H271	124.0	109.5
O26	C27	H272	107.0	109.4
O26	C27	H273	107.0	109.5
H271	C27	H272	107.1	109.5
H271	C27	H273	107.0	109.5
H272	C27	H273	102.7	109.5
O31	C32	H321	121.3	109.5
O31	C32	H322	108.0	109.4
O31	C32	H323	108.0	109.5
H321	C32	H322	107.9	109.4
H321	C32	H323	108.0	109.5
H322	C32	H323	101.9	109.5

Torsion Angles for DTQ

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C2	N1	C6	C5	3.9	0.0
C2	N1	C6	N12	183.1	180.0
N3	C2	N1	H21	180.0	180.0
N1	C2	N3	C4	358.2	0.0
C6	N1	C2	N3	359.7	360.0
C6	N1	C2	H21	179.7	180.0
C4	C5	C6	N1	354.8	359.9
N1	C6	C5	C10	174.3	180.1
C5	C6	N1	N12	180.8	180.0
N1	C6	N12	C14	359.7	354.4
N1	C6	N12	H121	234.5	174.4
N3	C2	N1	C6	359.7	360.0
N1	C2	N3	H21	180.0	180.0
C2	N3	C4	C5	0.0	359.9
C2	N3	C4	C7	179.8	180.0
H21	C2	N1	C6	179.7	180.0
N1	C2	H21	N3	180.0	180.0
H21	C2	N3	C4	178.2	180.0
C4	N3	C2	H21	178.2	180.0
C5	C4	N3	C7	180.3	180.0
N3	C4	C5	C6	3.5	0.1
N3	C4	C5	C10	183.8	180.0
N3	C4	C7	C8	180.4	180.0
N3	C4	C7	H71	0.4	360.0
N1	C6	C5	C4	354.8	359.9
N3	C4	C5	C7	179.7	180.0
C5	C4	C7	C8	0.1	0.1
C5	C4	C7	H71	180.1	180.0
C6	C5	C4	C10	179.6	180.1
C4	C5	C6	N12	175.6	180.0
C4	C5	C10	C9	355.5	359.8
C4	C5	C10	H101	175.5	180.0
N3	C4	C7	C5	180.3	180.0
C7	C4	C5	C6	183.7	180.0
C7	C4	C5	C10	4.1	359.9
C8	C7	C4	H71	180.0	180.1
C4	C7	C8	C9	356.0	0.2
C4	C7	C8	O26	174.3	180.0
N1	C6	C5	N12	179.1	180.0
C6	C5	C4	C7	183.7	180.0
C4	C5	C6	C10	180.4	179.9
C6	C5	C10	C9	176.0	179.7
C6	C5	C10	H101	355.9	359.9
C5	C6	N12	C14	178.9	174.4
C5	C6	N12	H121	53.6	354.4
C10	C5	C4	C7	4.1	359.9
C4	C5	C10	C6	179.6	180.1
C10	C5	C6	N12	355.2	0.1
C8	C9	C10	C5	0.7	0.5
C5	C10	C9	O31	183.0	180.0
C9	C10	C5	H101	180.0	179.7
N1	C6	N12	C5	180.9	180.0
N12	C6	C5	C10	355.2	0.1
C14	N12	C6	H121	125.3	180.0
C6	N12	C14	C15	180.0	327.0
C6	N12	C14	C19	0.5	147.2
C4	C7	C8	H71	180.0	179.9
C9	C8	C7	O26	181.7	180.2
C7	C8	C9	C10	3.7	359.5
C7	C8	C9	O31	181.5	180.0
C7	C8	O26	C27	16.5	360.0
C4	C7	H71	C8	180.0	180.1
H71	C7	C8	C9	176.0	180.3
H71	C7	C8	O26	354.3	0.0
C5	C10	C9	C8	0.7	0.5
C9	C8	C7	H71	176.0	180.3
C7	C8	C9	O26	178.4	179.8
C9	C8	O26	C27	194.9	179.7
C10	C9	C8	O31	182.1	179.4
C8	C9	C10	H101	180.7	180.3
C8	C9	O31	C32	183.2	179.5
O26	C8	C7	H71	354.3	0.0
C7	C8	O26	C9	181.7	180.2
O26	C8	C9	C10	185.3	179.7
O26	C8	C9	O31	3.1	0.3
C8	O26	C27	H271	180.0	180.0
C8	O26	C27	H272	305.3	300.0
C8	O26	C27	H273	54.8	60.0
C5	C10	C9	H101	180.0	180.3
C10	C9	C8	O26	185.3	179.7
C8	C9	C10	O31	177.7	180.6
C10	C9	O31	C32	1.0	0.0
O31	C9	C8	O26	3.1	0.3
C8	C9	O31	C10	182.2	179.4
O31	C9	C10	H101	3.0	359.7
C9	O31	C32	H321	180.0	180.0
C9	O31	C32	H322	305.2	300.0
C9	O31	C32	H323	54.7	59.9
C5	C10	H101	C9	180.0	179.7
H101	C10	C9	O31	3.0	359.7
C6	N12	C14	H121	234.7	180.0
C15	C14	N12	C19	179.5	179.8
N12	C14	C15	C16	181.1	179.7
N12	C14	C15	H151	1.1	0.2
N12	C14	C19	C18	181.9	180.0
N12	C14	C19	H191	1.9	0.1
C6	N12	H121	C14	144.8	180.0
H121	N12	C14	C15	305.3	147.0
H121	N12	C14	C19	125.8	327.2
C15	C14	N12	H121	305.3	147.0
N12	C14	C15	C19	180.5	180.2
C15	C14	C19	C18	2.4	0.2
C15	C14	C19	H191	182.4	180.2
C16	C15	C14	H151	180.0	179.5
C14	C15	C16	C17	356.4	0.5
C14	C15	C16	O21	176.0	180.2
C19	C14	N12	H121	125.8	327.2
N12	C14	C19	C15	179.5	179.8
C19	C14	C15	C16	0.6	359.5
C19	C14	C15	H151	180.6	180.0
C17	C18	C19	C14	357.5	0.0
C14	C19	C18	H181	177.5	180.0
C18	C19	C14	H191	180.0	180.0
C16	C15	C14	C19	0.6	359.5
C14	C15	C16	H151	180.0	180.5
C17	C16	C15	O21	180.5	180.3
C15	C16	C17	C18	3.5	359.7
C15	C16	C17	H171	183.5	179.8
C15	C16	O21	H211	180.0	270.3
H151	C15	C14	C19	180.6	180.0
C14	C15	H151	C16	180.0	179.5
H151	C15	C16	C17	176.4	180.1
H151	C15	C16	O21	356.0	359.7
C17	C16	C15	H151	176.4	180.1
C15	C16	C17	O21	179.5	179.7
C17	C16	O21	H211	359.5	89.9
C18	C17	C16	H171	180.0	179.9
C16	C17	C18	C19	359.5	0.0
C16	C17	C18	H181	179.6	180.0
O21	C16	C15	H151	356.0	359.7
C15	C16	O21	C17	180.5	180.3
O21	C16	C17	C18	183.9	180.0
O21	C16	C17	H171	4.0	0.1
C14	C19	C18	C17	357.5	0.0
C18	C17	C16	O21	183.9	180.0
C16	C17	C18	H171	180.0	180.1
C19	C18	C17	H181	180.0	180.0
C17	C18	C19	H191	177.5	180.0
H171	C17	C16	O21	4.0	0.1
C16	C17	H171	C18	180.0	179.9
H171	C17	C18	C19	179.5	180.0
H171	C17	C18	H181	359.6	360.0
C14	C19	C18	H191	180.0	180.0
C19	C18	C17	H171	179.5	180.0
C17	C18	C19	H181	180.0	180.0
H181	C18	C17	H171	359.6	360.0
C17	C18	H181	C19	180.0	180.0
H181	C18	C19	H191	357.5	360.0
C14	C19	H191	C18	180.0	180.0
H191	C19	C18	H181	357.5	360.0
H271	C27	O26	H272	234.7	240.0
H271	C27	O26	H273	125.1	120.0
H272	C27	O26	H273	250.5	240.0
O26	C27	H271	H272	125.3	120.0
O26	C27	H271	H273	234.8	240.0
H272	C27	H271	H273	109.6	120.0
O26	C27	H272	H271	225.0	240.0
O26	C27	H272	H273	112.5	120.0
H271	C27	H272	H273	247.5	240.0
O26	C27	H273	H271	134.9	120.0
O26	C27	H273	H272	247.5	240.0
H271	C27	H273	H272	112.6	120.0
H321	C32	O31	H322	234.8	240.1
H321	C32	O31	H323	125.3	120.1
H322	C32	O31	H323	250.5	240.0
O31	C32	H321	H322	125.2	119.9
O31	C32	H321	H323	234.7	239.9
H322	C32	H321	H323	109.5	120.0
O31	C32	H322	H321	227.2	240.1
O31	C32	H322	H323	113.6	120.0
H321	C32	H322	H323	246.4	240.0
O31	C32	H323	H321	132.8	120.1
O31	C32	H323	H322	246.4	240.0
H321	C32	H323	H322	113.5	120.0