PDB Chemical Component C0P

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 C0P

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N1	C2	1.356	1.384
C2	N3	1.347	1.326
C2	N8	1.365	1.323
N3	C4	1.333	1.324
C4	CL5	1.730	1.736
C4	C6	1.367	1.386
C6	C7	1.375	1.396
C7	N8	1.341	1.331
C7	C9	1.489	1.483
C9	C10	1.399	1.394
C9	C25	1.421	1.395
C10	C11	1.395	1.384
C11	O12	1.367	1.360
C11	C22	1.413	1.389
O12	C13	1.445	1.429
C13	C14	1.504	1.529
C14	N15	1.505	1.469
N15	C17	1.498	1.470
N15	C21	1.501	1.470
C17	C18	1.522	1.531
C18	O19	1.442	1.430
O19	C20	1.436	1.430
C20	C21	1.519	1.531
C22	CL23	1.744	1.736
C22	C24	1.384	1.382
C24	C25	1.393	1.381
C25	CL26	1.732	1.737
N1	H11N	1.000	0.970
N1	H12N	1.000	0.969
C6	H6	1.080	1.080
C10	H10	1.080	1.080
C13	H131	1.100	1.090
C13	H132	1.100	1.090
C14	H141	1.100	1.091
C14	H142	1.100	1.090
C17	H171	1.100	1.090
C17	H172	1.100	1.090
C21	H211	1.100	1.091
C21	H212	1.100	1.090
C18	H181	1.100	1.090
C18	H182	1.100	1.090
C20	H201	1.100	1.090
C20	H202	1.100	1.090
C24	H24	1.080	1.080

Bond Angles for C0P

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
N1	C2	N3	117.1	119.1
N1	C2	N8	117.6	119.2
C2	N1	H11N	109.5	120.0
C2	N1	H12N	109.4	120.0
N3	C2	N8	125.2	121.7
C2	N3	C4	115.1	121.0
C2	N8	C7	117.1	120.7
N3	C4	CL5	116.7	120.4
N3	C4	C6	123.9	119.2
CL5	C4	C6	119.5	120.4
C4	C6	C7	117.8	118.5
C4	C6	H6	121.1	120.8
C6	C7	N8	120.9	119.0
C6	C7	C9	121.2	120.5
C7	C6	H6	121.1	120.8
N8	C7	C9	117.9	120.5
C7	C9	C10	117.9	120.1
C7	C9	C25	123.6	120.1
C10	C9	C25	118.2	119.8
C9	C10	C11	121.0	119.8
C9	C10	H10	119.5	120.1
C9	C25	C24	120.9	120.0
C9	C25	CL26	120.8	120.0
C10	C11	O12	124.0	119.9
C10	C11	C22	119.7	120.1
C11	C10	H10	119.5	120.1
O12	C11	C22	116.3	120.0
C11	O12	C13	117.5	117.0
C11	C22	CL23	121.1	119.9
C11	C22	C24	120.1	120.2
O12	C13	C14	107.8	109.5
O12	C13	H131	110.0	109.5
O12	C13	H132	110.4	109.5
C13	C14	N15	113.0	109.5
C14	C13	H131	110.1	109.4
C14	C13	H132	110.4	109.5
C13	C14	H141	108.3	109.5
C13	C14	H142	107.5	109.5
C14	N15	C17	111.9	111.0
C14	N15	C21	111.8	111.0
N15	C14	H141	108.3	109.4
N15	C14	H142	107.5	109.5
C17	N15	C21	110.5	110.7
N15	C17	C18	109.8	109.3
N15	C17	H171	109.3	109.5
N15	C17	H172	109.3	109.5
N15	C21	C20	109.6	109.3
N15	C21	H211	109.4	109.5
N15	C21	H212	109.4	109.5
C17	C18	O19	111.8	109.2
C18	C17	H171	109.3	109.5
C18	C17	H172	109.3	109.5
C17	C18	H181	108.7	109.5
C17	C18	H182	108.2	109.5
C18	O19	C20	110.5	113.7
O19	C18	H181	108.7	109.5
O19	C18	H182	108.1	109.5
O19	C20	C21	111.4	109.2
O19	C20	H201	108.8	109.5
O19	C20	H202	108.4	109.5
C20	C21	H211	109.4	109.5
C20	C21	H212	109.4	109.5
C21	C20	H201	108.8	109.5
C21	C20	H202	108.4	109.5
CL23	C22	C24	118.8	119.9
C22	C24	C25	120.0	120.2
C22	C24	H24	120.0	119.9
C24	C25	CL26	118.2	120.0
C25	C24	H24	120.0	119.9
H11N	N1	H12N	109.5	120.0
H131	C13	H132	108.2	109.4
H141	C14	H142	112.2	109.4
H171	C17	H172	109.8	109.5
H211	C21	H212	109.6	109.5
H181	C18	H182	111.3	109.6
H201	C20	H202	111.0	109.5

Torsion Angles for C0P

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
N3	C2	N1	N8	178.8	180.2
N1	C2	N3	C4	180.8	180.0
N1	C2	N8	C7	180.0	179.7
H11N	N1	C2	H12N	240.0	180.3
N1	C2	N3	N8	181.3	179.8
N3	C2	N1	H11N	15.6	0.0
N3	C2	N1	H12N	135.6	179.7
N3	C2	N8	C7	1.3	359.5
C2	N3	C4	CL5	180.6	180.1
C2	N3	C4	C6	359.2	0.1
N1	C2	N8	N3	178.7	180.2
N8	C2	N1	H11N	196.7	179.8
N8	C2	N1	H12N	316.7	359.5
N8	C2	N3	C4	359.5	0.2
C6	C7	N8	C2	359.1	0.5
C2	N8	C7	C9	180.2	180.3
C4	N3	C2	N8	359.5	0.2
CL5	C4	N3	C6	181.3	180.0
N3	C4	C6	C7	1.1	360.0
N3	C4	C6	H6	181.1	180.0
N3	C4	CL5	C6	178.7	180.0
CL5	C4	C6	C7	179.8	180.0
CL5	C4	C6	H6	359.7	360.0
N3	C4	C6	CL5	181.4	180.0
C4	C6	C7	N8	359.8	359.7
C4	C6	C7	C9	178.7	180.0
C7	C6	C4	H6	180.0	180.0
C2	N8	C7	C6	359.1	0.5
C4	C6	C7	H6	180.0	180.0
N8	C7	C6	C9	181.1	179.7
C6	C7	C9	C10	62.4	47.6
C6	C7	C9	C25	248.3	227.2
C6	C7	N8	C9	178.9	180.3
N8	C7	C6	H6	179.8	179.8
N8	C7	C9	C10	241.3	227.8
N8	C7	C9	C25	67.2	47.5
C6	C7	C9	N8	181.1	179.7
C9	C7	C6	H6	358.7	0.0
C10	C9	C7	C25	174.1	180.3
C7	C9	C10	C11	181.6	180.0
C7	C9	C10	H10	1.6	360.0
C7	C9	C25	C24	177.1	179.7
C7	C9	C25	CL26	355.7	0.0
C7	C9	C10	C25	185.5	179.7
C10	C9	C25	C24	3.0	359.4
C10	C9	C25	CL26	181.6	179.7
C9	C10	C11	O12	181.3	180.0
C9	C10	C11	C22	3.1	360.0
C11	C10	C9	H10	180.0	180.0
C7	C9	C25	C10	174.1	180.3
C25	C9	C10	C11	356.1	0.3
C25	C9	C10	H10	176.0	180.3
C22	C24	C25	C9	358.8	0.6
C24	C25	C9	CL26	181.4	179.7
C9	C25	C24	H24	178.8	180.3
C11	C10	C9	C25	356.1	0.3
C9	C10	C11	H10	180.0	180.0
O12	C11	C10	C22	178.2	180.0
C10	C11	O12	C13	355.4	360.0
C10	C11	C22	CL23	178.6	180.1
C10	C11	C22	C24	358.7	360.0
C10	C11	O12	C22	181.8	180.0
O12	C11	C10	H10	1.3	0.0
O12	C11	C22	CL23	0.3	0.0
O12	C11	C22	C24	180.4	180.0
C11	O12	C13	C14	177.0	180.0
C11	O12	C13	H131	297.0	300.0
C11	O12	C13	H132	56.3	60.0
C10	C11	C22	O12	178.3	180.0
C22	C11	C10	H10	183.2	180.0
C22	C11	O12	C13	173.6	180.0
CL23	C22	C11	C24	179.8	180.1
C11	C22	C24	C25	0.3	359.7
C11	C22	C24	H24	180.3	180.0
C13	O12	C11	C22	173.6	180.0
O12	C13	C14	N15	68.4	65.0
C14	C13	O12	H131	240.0	240.0
C14	C13	O12	H132	120.7	120.1
O12	C13	C14	H141	188.4	185.0
O12	C13	C14	H142	310.0	305.0
H131	C13	O12	H132	240.7	240.0
O12	C13	C14	H131	120.0	120.0
O12	C13	C14	H132	239.3	239.9
C13	C14	N15	C17	48.3	190.0
C13	C14	N15	C21	283.8	66.4
N15	C14	C13	H141	240.0	240.0
N15	C14	C13	H142	118.5	120.0
H131	C13	C14	H132	119.4	120.0
H141	C14	C13	H142	238.5	240.0
N15	C14	C13	H131	308.4	305.0
N15	C14	C13	H132	189.1	185.0
C13	C14	N15	H141	120.0	120.0
C13	C14	N15	H142	241.5	240.0
C17	N15	C14	C21	124.6	123.6
C14	N15	C17	C18	180.4	177.6
C14	N15	C17	H171	300.4	297.6
C14	N15	C17	H172	60.5	57.6
C14	N15	C21	C20	180.5	182.4
C14	N15	C21	H211	300.5	302.3
C14	N15	C21	H212	60.6	62.4
H141	C14	N15	H142	121.5	119.9
C14	N15	C17	C21	234.7	236.2
C17	N15	C14	H141	288.3	70.0
C17	N15	C14	H142	166.8	310.0
C17	N15	C21	C20	55.2	58.6
C17	N15	C21	H211	175.2	178.6
C17	N15	C21	H212	295.3	298.6
N15	C17	C18	O19	56.3	56.9
C18	C17	N15	H171	240.0	240.1
C18	C17	N15	H172	119.9	120.0
N15	C17	C18	H181	176.3	176.7
N15	C17	C18	H182	297.3	296.9
H171	C17	N15	H172	239.8	239.9
C14	N15	C21	C17	125.3	123.8
C21	N15	C14	H141	163.8	306.3
C21	N15	C14	H142	42.3	186.4
C21	N15	C17	C18	305.7	301.4
C21	N15	C17	H171	65.6	61.3
C21	N15	C17	H172	185.8	181.4
O19	C20	C21	N15	302.0	303.1
C20	C21	N15	H211	240.0	240.1
C20	C21	N15	H212	119.9	120.0
N15	C21	C20	H201	182.1	183.2
N15	C21	C20	H202	61.2	63.1
H211	C21	N15	H212	239.9	239.9
C18	C17	N15	C21	305.7	301.4
N15	C17	C18	H171	120.0	119.9
N15	C17	C18	H172	240.1	240.0
C17	C18	O19	C20	301.1	301.3
O19	C18	C17	H181	240.0	240.1
O19	C18	C17	H182	119.0	119.9
H171	C17	C18	H172	120.2	120.1
H181	C18	C17	H182	239.0	239.8
O19	C18	C17	H171	296.3	296.9
O19	C18	C17	H172	176.1	176.8
C17	C18	O19	H181	120.0	119.9
C17	C18	O19	H182	241.0	240.1
C18	O19	C20	C21	59.7	58.7
C18	O19	C20	H201	179.7	178.6
C18	O19	C20	H202	300.5	298.8
H181	C18	O19	H182	121.0	120.2
N15	C21	C20	O19	302.0	303.1
C20	O19	C18	H181	181.1	181.4
C20	O19	C18	H182	60.1	61.2
O19	C20	C21	H211	182.0	183.2
O19	C20	C21	H212	62.0	63.1
C21	C20	O19	H201	240.0	240.1
C21	C20	O19	H202	119.2	120.0
H201	C20	O19	H202	239.2	239.8
N15	C21	C20	H211	120.0	119.9
N15	C21	C20	H212	240.1	240.0
O19	C20	C21	H201	120.0	119.9
O19	C20	C21	H202	240.8	240.0
H211	C21	C20	H212	120.1	120.1
H201	C20	C21	H202	120.8	120.1
C11	C22	CL23	C24	180.2	179.9
CL23	C22	C24	C25	180.5	179.7
CL23	C22	C24	H24	0.5	359.9
C9	C25	C24	C22	358.8	0.6
C11	C22	C24	CL23	179.8	180.1
C22	C24	C25	CL26	180.2	180.3
C25	C24	C22	H24	180.0	179.8
C9	C25	C24	CL26	178.7	180.3
C22	C24	C25	H24	180.0	180.2
C9	C25	CL26	C24	181.3	179.7
CL26	C25	C24	H24	0.2	0.0
H11N	N1	C2	N3	15.6	0.0
H11N	N1	C2	N8	196.7	179.8
C2	N1	H11N	H12N	120.0	179.7
H12N	N1	C2	N3	135.6	179.7
H12N	N1	C2	N8	316.7	359.5
C2	N1	H12N	H11N	240.0	180.3
C4	C6	H6	C7	180.0	180.0
H6	C6	C7	N8	179.8	179.8
H6	C6	C7	C9	358.7	0.0
H10	C10	C9	C25	176.0	180.3
C9	C10	H10	C11	180.0	180.0
H10	C10	C11	O12	1.3	0.0
H10	C10	C11	C22	183.2	180.0
O12	C13	H131	C14	241.4	240.0
O12	C13	H131	H132	120.7	120.0
H131	C13	C14	N15	308.4	305.0
C14	C13	H131	H132	239.3	240.0
H131	C13	C14	H141	68.4	65.0
H131	C13	C14	H142	190.0	185.0
O12	C13	H132	C14	119.1	120.0
O12	C13	H132	H131	239.6	240.0
H132	C13	C14	N15	189.1	185.0
C14	C13	H132	H131	120.5	120.0
H132	C13	C14	H141	309.1	305.0
H132	C13	C14	H142	70.6	65.0
C13	C14	H141	N15	237.1	239.9
H141	C14	C13	H131	68.4	65.0
H141	C14	C13	H132	309.1	305.0
C13	C14	H141	H142	118.6	120.0
H141	C14	N15	C17	288.3	70.0
H141	C14	N15	C21	163.8	306.3
N15	C14	H141	H142	241.5	240.1
C13	C14	H142	N15	121.9	120.1
H142	C14	C13	H131	190.0	185.0
H142	C14	C13	H132	70.6	65.0
C13	C14	H142	H141	240.9	240.0
H142	C14	N15	C17	166.8	310.0
H142	C14	N15	C21	42.3	186.4
N15	C14	H142	H141	119.0	119.9
H171	C17	N15	C21	65.6	61.3
N15	C17	H171	C18	239.7	240.2
N15	C17	H171	H172	119.9	120.1
H171	C17	C18	O19	296.3	296.9
C18	C17	H171	H172	240.1	239.9
H171	C17	C18	H181	56.3	56.8
H171	C17	C18	H182	177.3	177.0
H172	C17	N15	C21	185.8	181.4
N15	C17	H172	C18	120.2	119.8
N15	C17	H172	H171	240.1	239.9
H172	C17	C18	O19	176.1	176.8
C18	C17	H172	H171	119.9	120.1
H172	C17	C18	H181	296.1	296.7
H172	C17	C18	H182	57.1	56.9
N15	C21	H211	C20	239.9	240.2
N15	C21	H211	H212	120.0	120.1
C20	C21	H211	H212	240.0	239.9
H211	C21	C20	H201	62.1	63.3
H211	C21	C20	H202	301.2	303.1
N15	C21	H212	C20	120.1	119.8
N15	C21	H212	H211	240.0	239.9
C20	C21	H212	H211	120.0	120.1
H212	C21	C20	H201	302.0	303.2
H212	C21	C20	H202	181.2	183.0
C17	C18	H181	O19	238.1	240.3
H181	C18	C17	H171	56.3	56.8
H181	C18	C17	H172	296.1	296.7
C17	C18	H181	H182	119.0	120.1
H181	C18	O19	C20	181.1	181.4
O19	C18	H181	H182	241.0	239.8
C17	C18	H182	O19	121.3	119.8
H182	C18	C17	H171	177.3	177.0
H182	C18	C17	H172	57.1	56.9
C17	C18	H182	H181	240.7	239.9
H182	C18	O19	C20	60.1	61.2
O19	C18	H182	H181	119.3	120.1
O19	C20	H201	C21	238.4	240.3
O19	C20	H201	H202	119.2	120.2
H201	C20	C21	H211	62.1	63.3
H201	C20	C21	H212	302.0	303.2
C21	C20	H201	H202	240.8	239.9
O19	C20	H202	C21	121.1	119.8
O19	C20	H202	H201	240.6	239.9
H202	C20	C21	H211	301.2	303.1
H202	C20	C21	H212	181.2	183.0
C21	C20	H202	H201	119.5	120.1
C22	C24	H24	C25	180.0	179.8
H24	C24	C25	CL26	0.2	0.0