PDB Chemical Component 6ZA

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 6ZA

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N12	C22	1.408	1.342
N12	C23	1.426	1.316
C15	O03	1.294	1.425
C15	C18	1.509	1.516
C17	O03	1.570	1.448
C17	N09	1.298	1.465
C17	C16	1.650	1.550
C20	N09	1.376	1.363
C20	N11	1.351	1.302
C21	C22	1.537	1.466
C21	N11	1.338	1.354
C21	C19	1.369	1.389
C22	O08	1.206	1.221
S01	P02	1.901	1.863
P02	O04	1.711	1.632
P02	O05	1.736	1.624
P02	O07	1.581	1.610
O04	C14	1.422	1.431
O05	C18	1.510	1.448
O06	C16	1.471	1.429
N09	C19	1.323	1.361
N10	C19	1.463	1.371
N10	C23	1.435	1.359
N13	C23	1.424	1.369
C14	C16	1.310	1.534
C15	H151	1.100	1.090
C17	H171	1.100	1.090
C20	H201	1.080	1.080
O06	H061	0.950	0.967
O07	H071	0.949	0.967
N10	H101	1.000	0.971
N13	H131	1.000	0.970
N13	H132	1.000	0.970
C14	H141	1.100	1.090
C16	H161	1.100	1.091
C18	H181	1.100	1.089
C18	H182	1.100	1.090
C15	C14	1.701	1.553

Bond Angles for 6ZA

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C22	N12	C23	121.8	121.4
N12	C22	C21	117.1	118.6
N12	C22	O08	120.0	120.7
N12	C23	N10	121.7	122.5
N12	C23	N13	120.1	118.8
O03	C15	C18	117.4	116.6
C15	O03	C17	108.4	105.5
O03	C15	H151	111.1	109.5
O03	C15	C14	102.9	103.0
C15	C18	O05	109.6	106.7
C18	C15	H151	107.9	109.6
C15	C18	H181	109.5	110.0
C15	C18	H182	109.5	109.9
C14	C15	C18	111.1	109.0
O03	C17	N09	112.9	109.9
O03	C17	C16	101.2	107.1
O03	C17	H171	107.4	109.9
N09	C17	C16	116.7	109.9
C17	N09	C20	124.3	126.3
C17	N09	C19	128.8	126.2
N09	C17	H171	111.2	109.9
C17	C16	O06	107.5	110.7
C17	C16	C14	106.6	103.3
C16	C17	H171	106.5	110.1
C17	C16	H161	108.6	110.6
N09	C20	N11	109.3	109.6
C20	N09	C19	106.5	107.5
N09	C20	H201	125.4	125.2
C20	N11	C21	106.7	109.1
N11	C20	H201	125.3	125.2
C22	C21	N11	132.0	134.4
C22	C21	C19	119.4	118.1
C21	C22	O08	122.9	120.7
N11	C21	C19	108.6	107.4
C21	C19	N09	108.8	106.4
C21	C19	N10	122.9	118.9
S01	P02	O04	109.2	110.0
S01	P02	O05	109.0	109.9
S01	P02	O07	119.3	110.0
O04	P02	O05	102.0	106.8
O04	P02	O07	107.4	110.0
P02	O04	C14	116.9	116.6
O05	P02	O07	108.5	110.0
P02	O05	C18	114.6	120.2
P02	O07	H071	109.5	114.0
O04	C14	C16	120.9	114.6
O04	C14	H141	107.8	111.2
C15	C14	O04	108.5	106.2
O05	C18	H181	109.4	110.0
O05	C18	H182	109.4	110.0
O06	C16	C14	109.3	110.7
C16	O06	H061	109.5	113.9
O06	C16	H161	110.9	110.6
N09	C19	N10	128.3	134.8
C19	N10	C23	117.1	120.5
C19	N10	H101	121.5	119.7
N10	C23	N13	118.2	118.7
C23	N10	H101	121.5	119.7
C23	N13	H131	120.0	120.0
C23	N13	H132	120.0	120.0
C16	C14	H141	109.4	111.9
C14	C16	H161	113.7	110.8
C15	C14	C16	104.2	100.9
C14	C15	H151	105.9	108.8
H131	N13	H132	120.0	120.1
C15	C14	H141	104.9	111.4
H181	C18	H182	109.5	110.1

Torsion Angles for 6ZA

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C22	N12	C23	N10	359.8	0.0
C22	N12	C23	N13	180.7	180.0
N12	C22	C21	N11	180.0	180.0
N12	C22	C21	C19	359.7	360.0
C21	C22	N12	O08	179.3	180.0
C23	N12	C22	C21	0.3	360.0
C23	N12	C22	O08	181.0	180.0
C19	N10	C23	N12	360.0	0.0
N10	C23	N12	N13	179.2	180.0
N12	C23	N10	H101	180.0	180.0
N12	C23	N13	H131	0.0	360.0
N12	C23	N13	H132	180.0	180.0
O03	C15	C18	O05	180.8	176.8
C18	C15	O03	H151	235.2	234.9
O03	C15	C18	H181	300.8	296.2
O03	C15	C18	H182	60.8	57.6
C14	C15	O03	C18	237.7	240.7
C15	O03	C17	N09	213.4	213.9
C15	O03	C17	C16	339.0	333.2
C15	O03	C17	H171	90.4	92.8
O03	C15	C14	O04	187.2	197.1
O03	C15	C14	C16	317.2	316.9
C14	C15	O03	H151	112.9	115.6
O03	C15	C14	H141	72.2	75.9
C18	C15	O03	C17	158.3	163.0
O03	C15	C18	H151	126.4	125.1
O03	C15	C18	C14	242.0	244.0
P02	O05	C18	C15	60.8	49.8
C18	C15	C14	O04	60.8	72.7
O05	C18	C15	H181	240.0	240.7
O05	C18	C15	H182	120.0	119.2
C18	C15	C14	C16	190.8	192.5
C14	C15	C18	H151	244.3	241.0
C18	C15	C14	H141	305.8	311.5
H181	C18	C15	H182	240.0	238.5
C17	O03	C15	C18	158.3	163.0
C17	O03	C15	H151	283.0	288.1
C17	O03	C15	C14	36.0	43.7
N09	C17	O03	C16	234.5	240.7
O03	C17	N09	C20	238.9	23.5
O03	C17	N09	C19	67.0	203.6
N09	C17	O03	H171	123.0	121.1
O03	C17	C16	O06	108.6	117.2
O03	C17	C16	C14	351.5	358.8
C16	C17	O03	H171	248.5	240.5
O03	C17	C16	H161	228.6	240.2
O03	C17	N09	C16	116.7	117.6
O03	C17	N09	H171	239.1	238.9
N09	C17	C16	O06	231.5	236.6
N09	C17	C16	C14	114.4	118.1
C16	C17	N09	H171	122.5	121.3
N09	C17	C16	H161	351.6	359.6
C17	N09	C20	N11	184.9	180.0
C20	N09	C17	C19	171.9	179.9
C17	N09	C20	H201	4.9	0.0
C21	C19	N09	C17	174.3	180.0
C17	N09	C19	N10	353.9	359.9
O03	C17	C16	N09	237.0	240.6
O03	C17	C16	H171	112.2	119.4
C16	C17	N09	C20	122.2	265.9
C16	C17	N09	C19	310.3	85.9
N09	C17	C16	H171	235.1	238.8
O04	C14	C16	C17	149.5	139.4
O06	C16	C17	C14	117.1	118.4
C17	C16	O06	H061	180.0	61.5
O06	C16	C17	H161	239.9	237.0
C17	C16	C14	H141	275.6	267.2
C14	C16	C17	H161	122.9	118.6
C15	C14	C16	C17	27.3	25.8
C20	N09	C17	C16	122.2	265.9
C17	N09	C20	C19	186.6	180.1
C20	N09	C17	H171	359.8	144.6
N09	C20	N11	C21	1.4	0.1
N11	C20	N09	H201	180.0	180.0
C21	C19	N09	C20	1.3	0.1
C20	N09	C19	N10	180.9	180.0
N11	C20	N09	C19	358.3	359.9
N09	C20	N11	H201	180.0	180.0
C22	C21	N11	C20	179.1	180.0
C20	N11	C21	C19	359.4	360.0
C21	C22	N12	C23	0.3	360.0
N12	C22	C21	O08	180.7	180.0
C20	N11	C21	C22	179.1	180.0
N11	C21	C22	C19	180.3	180.0
C22	C21	C19	N09	179.8	180.0
C22	C21	C19	N10	0.2	0.0
C21	N11	C20	H201	181.4	180.0
C22	C21	N11	C19	179.7	180.0
N11	C21	C22	O08	359.3	0.0
N11	C21	C19	N09	359.6	360.0
N11	C21	C19	N10	179.9	180.0
C17	N09	C19	C21	174.3	180.0
C20	N09	C19	C21	1.3	0.1
C22	C21	C19	N11	180.2	180.0
C19	C21	C22	O08	179.0	180.0
N09	C19	C21	N10	179.7	179.9
C21	C19	N10	C23	0.0	359.9
C21	C19	N10	H101	180.0	180.0
O08	C22	N12	C23	181.0	180.0
N12	C22	O08	C21	179.3	180.0
O08	C22	C21	N11	359.3	0.0
O08	C22	C21	C19	179.0	180.0
O04	P02	S01	O05	249.4	242.6
O04	P02	S01	O07	124.0	121.3
S01	P02	O04	C14	168.3	157.4
O05	P02	S01	O07	234.6	238.7
S01	P02	O05	C18	193.4	206.6
S01	P02	O07	H071	180.0	300.0
S01	P02	O04	O05	115.2	119.3
S01	P02	O04	O07	229.2	238.7
O05	P02	O04	O07	114.0	119.4
O04	P02	O05	C18	308.7	325.9
O04	P02	O07	H071	55.2	178.7
P02	O04	C14	C16	181.7	192.1
P02	O04	C14	H141	54.9	63.9
C15	C14	O04	P02	301.8	302.5
C15	C18	O05	P02	60.8	49.8
S01	P02	O05	O04	244.7	240.7
S01	P02	O05	O07	131.5	121.3
O04	P02	O05	O07	246.8	240.6
O05	P02	O04	C14	53.0	38.1
O05	P02	O07	H071	305.6	61.3
P02	O05	C18	H181	300.7	290.5
P02	O05	C18	H182	180.8	169.0
S01	P02	O07	O04	124.8	121.3
S01	P02	O07	O05	234.4	238.7
O04	P02	O07	O05	109.6	117.4
O07	P02	O04	C14	299.0	278.7
O07	P02	O05	C18	61.9	85.2
O04	C14	C15	C18	60.8	72.7
C17	C16	C14	O04	149.5	139.4
C14	O04	P02	O05	53.0	38.1
C14	O04	P02	O07	299.0	278.7
O06	C16	C14	O04	33.6	20.9
C16	C14	O04	H141	126.8	128.2
O04	C14	C16	H161	269.1	257.9
C15	C14	O04	C16	120.1	110.5
O04	C14	C15	H151	303.9	313.2
C15	C14	O04	H141	246.9	238.7
O05	C18	C15	H151	54.4	51.7
C15	C18	O05	H181	120.0	119.3
C15	C18	O05	H182	240.0	240.8
C14	C15	C18	O05	298.8	292.8
C18	O05	P02	O07	61.9	85.2
H181	C18	O05	H182	119.9	121.5
C17	C16	O06	C14	244.7	246.1
O06	C16	C17	H171	356.4	357.8
C17	C16	O06	H161	118.5	123.0
O04	C14	C16	O06	33.6	20.9
O06	C16	C14	H141	159.7	148.7
C14	C16	O06	H161	233.9	236.8
C15	C14	C16	O06	271.4	267.3
C19	N09	C17	C16	310.3	85.9
C17	N09	C19	C20	173.0	179.9
C19	N09	C17	H171	187.9	324.7
C19	N09	C20	N11	358.3	359.9
C19	N09	C20	H201	178.3	180.0
C21	C19	N09	N10	180.4	180.1
N09	C19	N10	C23	180.4	180.0
N09	C19	N10	H101	0.4	0.1
N12	C23	N10	C19	360.0	0.0
C21	C19	N10	N09	179.6	179.9
C19	N10	C23	N13	179.2	180.0
C23	N10	C19	H101	180.0	180.0
N12	C23	N10	N13	180.8	180.0
C19	N10	C23	H101	180.0	180.0
N10	C23	N13	H131	180.8	180.0
N10	C23	N13	H132	0.8	360.0
N12	C23	N13	N10	179.2	180.0
N13	C23	N10	H101	359.2	360.0
H131	N13	C23	H132	180.0	180.0
C16	C14	C15	C18	190.8	192.5
C17	C16	C14	O06	115.9	118.4
C14	C16	C17	H171	239.3	239.3
C17	C16	C14	H161	240.4	241.5
O04	C14	C16	H141	233.9	232.2
C15	C14	C16	O04	237.8	246.4
C14	C16	O06	H061	295.3	175.4
O06	C16	C14	H161	124.5	123.1
C16	C14	C15	H151	73.9	73.1
C15	C14	C16	H141	111.7	118.6
O03	C15	H151	C18	230.0	230.9
H151	C15	O03	C17	283.0	288.1
O03	C15	H151	C14	111.0	111.8
H151	C15	C18	O05	54.4	51.7
H151	C15	C18	H181	174.4	171.1
H151	C15	C18	H182	294.4	292.5
C14	C15	H151	C18	119.0	119.1
H151	C15	C14	O04	303.9	313.2
H151	C15	C14	C16	73.9	73.1
H151	C15	C14	H141	188.9	192.0
O03	C17	H171	N09	124.0	121.1
O03	C17	H171	C16	252.2	242.3
N09	C17	H171	C16	128.2	121.2
H171	C17	N09	C20	359.8	144.6
H171	C17	N09	C19	187.9	324.7
H171	C17	C16	O06	356.4	357.8
H171	C17	C16	C14	239.3	239.3
H171	C17	C16	H161	116.5	120.8
N09	C20	H201	N11	180.0	179.9
H201	C20	N09	C19	178.3	180.0
H201	C20	N11	C21	181.4	180.0
H061	O06	C16	C14	295.3	175.4
H061	O06	C16	H161	61.4	298.5
C19	N10	H101	C23	180.0	180.0
H101	N10	C23	N13	359.2	360.0
C23	N13	H131	H132	180.0	180.0
C23	N13	H132	H131	180.0	180.0
H141	C14	C15	C18	305.8	311.5
O04	C14	H141	C16	133.3	129.6
C15	C14	H141	O04	115.5	118.2
H141	C14	C16	H161	35.2	25.7
C15	C14	H141	C16	248.8	247.8
H141	C14	C15	H151	188.9	192.0
C17	C16	H161	O06	242.1	237.0
C17	C16	H161	C14	118.5	113.9
H161	C16	C17	H171	116.5	120.8
O06	C16	H161	C14	236.4	236.9
H161	C16	O06	H061	61.4	298.5
H161	C16	C14	H141	35.2	25.7
C15	C14	C16	H161	146.9	144.3
C15	C18	H181	O05	239.9	242.7
H181	C18	C15	H151	174.4	171.1
C15	C18	H181	H182	120.0	121.3
C14	C15	C18	H181	58.8	52.1
O05	C18	H181	H182	240.1	238.6
C15	C18	H182	O05	120.1	117.2
H182	C18	C15	H151	294.4	292.5
C15	C18	H182	H181	240.0	238.6
C14	C15	C18	H182	178.8	173.6
O05	C18	H182	H181	119.9	121.4
O03	C15	C14	C18	126.4	124.4
C14	C15	O03	C17	36.0	43.7
O03	C15	C14	H151	243.3	243.8
C18	C15	C14	H151	116.9	119.4
C17	C16	C14	C15	27.3	25.8
P02	O04	C14	C15	301.8	302.5
O04	C14	C15	C16	230.0	240.2
O04	C14	C15	H141	115.0	121.2
O06	C16	C14	C15	271.4	267.3
C16	C14	C15	H141	245.1	241.0