PDB Chemical Component 9Z8

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 9Z8

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
O01	C02	1.230	1.213
C02	C03	1.495	1.506
C02	N05	1.433	1.348
C03	S04	1.770	1.814
N05	C06	1.432	1.465
C06	C07	1.489	1.529
C07	C08	1.489	1.530
C08	C09	1.494	1.530
C09	C10	1.494	1.530
C10	C11	1.494	1.507
C11	O12	1.226	1.214
C11	N13	1.443	1.347
N13	C14	1.443	1.400
C14	C15	1.399	1.389
C14	C19	1.410	1.389
C15	C16	1.400	1.381
C16	C17	1.398	1.383
C17	C18	1.397	1.384
C18	C19	1.401	1.381
C03	H031	1.100	1.090
C03	H032	1.100	1.091
N05	H05	1.000	0.970
C06	H061	1.100	1.090
C06	H062	1.100	1.090
C07	H071	1.100	1.091
C07	H072	1.100	1.090
C08	H081	1.100	1.091
C08	H082	1.100	1.090
C09	H091	1.099	1.090
C09	H092	1.099	1.090
C10	H101	1.100	1.090
C10	H102	1.100	1.090
N13	H13	1.000	0.970
C15	H15	1.080	1.080
C19	H19	1.080	1.080
C16	H16	1.080	1.079
C17	H17	1.080	1.080
C18	H18	1.080	1.080
S04	H32	1.300	1.345

Bond Angles for 9Z8

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
O01	C02	C03	120.2	120.0
O01	C02	N05	121.1	120.0
C03	C02	N05	118.7	120.0
C02	C03	S04	121.7	109.5
C02	C03	H031	106.3	109.5
C02	C03	H032	106.3	109.5
C02	N05	C06	123.0	120.0
C02	N05	H05	118.5	120.0
S04	C03	H031	106.3	109.5
S04	C03	H032	106.4	109.4
C03	S04	H32	102.0	103.0
N05	C06	C07	117.8	109.5
C06	N05	H05	118.5	120.0
N05	C06	H061	107.4	109.4
N05	C06	H062	107.4	109.5
C06	C07	C08	120.7	109.5
C07	C06	H061	107.4	109.4
C07	C06	H062	107.4	109.5
C06	C07	H071	106.6	109.5
C06	C07	H072	106.6	109.6
C07	C08	C09	115.2	109.5
C08	C07	H071	106.6	109.5
C08	C07	H072	106.6	109.4
C07	C08	H081	108.0	109.5
C07	C08	H082	108.0	109.5
C08	C09	C10	118.5	109.5
C09	C08	H081	108.0	109.5
C09	C08	H082	108.0	109.5
C08	C09	H091	107.2	109.4
C08	C09	H092	107.2	109.5
C09	C10	C11	119.6	109.5
C10	C09	H091	107.2	109.5
C10	C09	H092	107.2	109.5
C09	C10	H101	106.9	109.4
C09	C10	H102	106.9	109.5
C10	C11	O12	117.9	120.0
C10	C11	N13	119.6	120.0
C11	C10	H101	106.9	109.5
C11	C10	H102	106.9	109.5
O12	C11	N13	122.6	120.0
C11	N13	C14	125.4	120.0
C11	N13	H13	117.3	120.1
N13	C14	C15	119.0	120.0
N13	C14	C19	121.8	120.1
C14	N13	H13	117.3	119.9
C15	C14	C19	119.1	119.9
C14	C15	C16	120.2	119.9
C14	C15	H15	119.9	120.0
C14	C19	C18	120.5	119.9
C14	C19	H19	119.7	120.0
C15	C16	C17	120.4	120.1
C16	C15	H15	119.9	120.0
C15	C16	H16	119.8	120.0
C16	C17	C18	119.9	120.1
C17	C16	H16	119.8	120.0
C16	C17	H17	120.1	119.9
C17	C18	C19	119.8	120.1
C18	C17	H17	120.0	119.9
C17	C18	H18	120.1	119.9
C18	C19	H19	119.7	120.0
C19	C18	H18	120.1	120.0
H031	C03	H032	109.5	109.4
H061	C06	H062	109.4	109.5
H071	C07	H072	109.5	109.4
H081	C08	H082	109.5	109.4
H091	C09	H092	109.5	109.5
H101	C10	H102	109.5	109.5

Torsion Angles for 9Z8

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C03	C02	O01	N05	177.3	180.3
O01	C02	C03	S04	63.0	360.0
O01	C02	C03	H031	184.7	120.0
O01	C02	C03	H032	301.3	240.0
O01	C02	N05	C06	358.7	0.1
O01	C02	N05	H05	178.7	180.0
O01	C02	C03	N05	182.6	179.7
C03	C02	N05	C06	181.3	179.8
C03	C02	N05	H05	1.4	359.7
S04	C03	C02	H031	238.3	240.0
S04	C03	C02	H032	121.7	120.0
C02	C03	S04	H32	180.0	180.0
H031	C03	C02	H032	243.4	240.0
O01	C02	N05	C03	177.3	180.3
N05	C02	C03	S04	240.3	180.3
N05	C02	C03	H031	2.0	300.3
N05	C02	C03	H032	118.6	60.3
C02	N05	C06	C07	87.1	180.0
C06	N05	C02	H05	180.0	180.1
C02	N05	C06	H061	208.3	299.9
C02	N05	C06	H062	325.9	60.0
S04	C03	C02	N05	240.3	180.3
C02	C03	S04	H031	121.7	120.1
C02	C03	S04	H032	238.3	240.0
H031	C03	S04	H032	116.6	119.9
C02	N05	C06	H05	180.0	179.9
N05	C06	C07	C08	100.9	180.0
C07	C06	N05	H061	238.8	240.1
C07	C06	N05	H062	121.2	120.1
N05	C06	C07	H071	222.5	300.0
N05	C06	C07	H072	339.3	60.0
H061	C06	N05	H062	242.4	240.0
C07	C06	N05	H05	267.1	0.1
N05	C06	C07	H061	121.2	119.9
N05	C06	C07	H062	238.8	239.9
C06	C07	C08	C09	131.2	180.0
C08	C07	C06	H071	238.4	240.0
C08	C07	C06	H072	121.6	120.0
C06	C07	C08	H081	252.1	300.0
C06	C07	C08	H082	10.4	59.9
H061	C06	C07	H062	117.6	120.0
H071	C07	C06	H072	243.2	240.0
C08	C07	C06	H061	339.7	60.1
C08	C07	C06	H062	222.1	300.0
C06	C07	C08	H071	121.6	120.0
C06	C07	C08	H072	238.4	239.9
C07	C08	C09	C10	168.6	180.0
C09	C08	C07	H081	239.2	240.0
C09	C08	C07	H082	120.9	120.0
C07	C08	C09	H091	289.9	300.0
C07	C08	C09	H092	47.3	60.0
H071	C07	C08	H072	116.9	119.9
H081	C08	C07	H082	241.7	240.0
C09	C08	C07	H071	9.7	60.0
C09	C08	C07	H072	252.8	300.0
C07	C08	C09	H081	120.8	120.0
C07	C08	C09	H082	239.2	240.0
C08	C09	C10	C11	250.6	180.0
C10	C09	C08	H091	238.7	240.0
C10	C09	C08	H092	121.3	120.0
C08	C09	C10	H101	12.0	300.0
C08	C09	C10	H102	129.2	60.0
H081	C08	C09	H082	118.3	120.0
H091	C09	C08	H092	242.6	240.0
C10	C09	C08	H081	47.7	60.0
C10	C09	C08	H082	289.4	300.0
C08	C09	C10	H091	121.3	119.9
C08	C09	C10	H092	238.7	240.0
C09	C10	C11	O12	143.0	360.0
C09	C10	C11	N13	322.4	180.0
C11	C10	C09	H101	238.6	240.0
C11	C10	C09	H102	121.4	120.0
H091	C09	C10	H092	117.4	120.1
H101	C10	C09	H102	242.8	240.0
C11	C10	C09	H091	129.3	60.1
C11	C10	C09	H092	11.9	300.0
C09	C10	C11	H101	121.4	120.0
C09	C10	C11	H102	238.6	240.0
O12	C11	C10	N13	180.6	180.0
C10	C11	N13	C14	181.5	175.3
C10	C11	N13	H13	1.5	355.4
H101	C10	C11	H102	117.2	120.0
C10	C11	O12	N13	179.4	180.0
O12	C11	C10	H101	21.6	240.0
O12	C11	C10	H102	264.4	120.0
O12	C11	N13	C14	0.9	355.4
O12	C11	N13	H13	180.9	175.4
C10	C11	N13	O12	180.6	180.0
N13	C11	C10	H101	201.0	60.0
N13	C11	C10	H102	83.8	300.0
C11	N13	C14	C15	236.1	35.1
C11	N13	C14	C19	59.7	214.8
C14	N13	C11	H13	180.0	180.0
C11	N13	C14	H13	180.0	180.0
C15	C14	N13	C19	176.4	180.3
N13	C14	C15	C16	180.7	180.0
N13	C14	C15	H15	0.7	359.9
N13	C14	C19	C18	179.1	179.7
N13	C14	C19	H19	359.1	360.0
N13	C14	C15	C19	183.5	179.7
C15	C14	N13	H13	56.1	215.1
C15	C14	C19	C18	2.7	359.4
C15	C14	C19	H19	182.7	179.7
C14	C15	C16	C17	1.7	360.0
C16	C15	C14	H15	180.0	180.1
C14	C15	C16	H16	181.7	180.0
N13	C14	C19	C15	176.4	180.3
C19	C14	N13	H13	239.6	34.8
C19	C14	C15	C16	357.2	0.3
C19	C14	C15	H15	177.2	180.2
C17	C18	C19	C14	358.5	0.5
C18	C19	C14	H19	180.0	179.8
C14	C19	C18	H18	178.5	180.3
C16	C15	C14	C19	357.2	0.3
C14	C15	C16	H15	180.0	179.9
C15	C16	C17	C18	359.5	0.0
C17	C16	C15	H16	180.0	180.0
C15	C16	C17	H17	179.5	180.1
C17	C16	C15	H15	181.7	180.0
C15	C16	C17	H16	180.0	180.0
C16	C17	C18	C19	0.4	359.7
C18	C17	C16	H17	180.0	179.9
C16	C17	C18	H18	180.4	180.0
C14	C19	C18	C17	358.5	0.5
C18	C17	C16	H16	179.6	180.0
C16	C17	C18	H17	180.0	180.1
C17	C18	C19	H19	178.5	180.3
C19	C18	C17	H18	180.0	179.7
C14	C19	C18	H19	180.0	180.2
C19	C18	C17	H17	180.4	179.7
C17	C18	C19	H18	180.0	180.3
H031	C03	C02	N05	2.0	300.3
C02	C03	H031	S04	229.0	240.0
C02	C03	H031	H032	114.5	120.0
S04	C03	H031	H032	245.5	240.1
H031	C03	S04	H32	58.3	59.9
H032	C03	C02	N05	118.6	60.3
C02	C03	H032	S04	131.0	120.0
C02	C03	H032	H031	245.5	240.0
S04	C03	H032	H031	114.5	120.0
H032	C03	S04	H32	301.7	300.0
C02	N05	H05	C06	180.0	180.1
H05	N05	C06	C07	267.1	0.1
H05	N05	C06	H061	28.3	120.0
H05	N05	C06	H062	145.9	240.0
N05	C06	H061	C07	232.5	240.1
H061	C06	N05	H05	28.3	120.0
N05	C06	H061	H062	116.2	120.0
H061	C06	C07	C08	339.7	60.1
C07	C06	H061	H062	243.8	240.0
H061	C06	C07	H071	101.3	180.0
H061	C06	C07	H072	218.1	300.1
N05	C06	H062	C07	127.5	120.0
H062	C06	N05	H05	145.9	240.0
N05	C06	H062	H061	243.7	240.0
H062	C06	C07	C08	222.1	300.0
C07	C06	H062	H061	116.2	120.0
H062	C06	C07	H071	343.7	60.0
H062	C06	C07	H072	100.5	180.0
C06	C07	H071	C08	229.9	240.0
H071	C07	C06	H061	101.3	180.0
H071	C07	C06	H062	343.7	60.0
C06	C07	H071	H072	114.9	120.1
H071	C07	C08	C09	9.7	60.0
C08	C07	H071	H072	245.0	240.1
H071	C07	C08	H081	130.5	180.0
H071	C07	C08	H082	248.8	300.0
C06	C07	H072	C08	130.1	120.0
H072	C07	C06	H061	218.1	300.1
H072	C07	C06	H062	100.5	180.0
C06	C07	H072	H071	245.1	240.0
H072	C07	C08	C09	252.8	300.0
C08	C07	H072	H071	115.0	119.9
H072	C07	C08	H081	13.6	60.1
H072	C07	C08	H082	132.0	180.0
C07	C08	H081	C09	234.8	240.0
H081	C08	C07	H071	130.5	180.0
H081	C08	C07	H072	13.6	60.1
C07	C08	H081	H082	117.4	120.0
H081	C08	C09	C10	47.7	60.0
C09	C08	H081	H082	242.6	240.0
H081	C08	C09	H091	169.0	180.0
H081	C08	C09	H092	286.4	300.0
C07	C08	H082	C09	125.2	120.0
H082	C08	C07	H071	248.8	300.0
H082	C08	C07	H072	132.0	180.0
C07	C08	H082	H081	242.6	240.0
H082	C08	C09	C10	289.4	300.0
C09	C08	H082	H081	117.4	120.0
H082	C08	C09	H091	50.7	60.0
H082	C08	C09	H092	168.1	180.0
C08	C09	H091	C10	231.8	240.0
H091	C09	C08	H081	169.0	180.0
H091	C09	C08	H082	50.7	60.0
C08	C09	H091	H092	115.9	120.0
H091	C09	C10	C11	129.3	60.1
C10	C09	H091	H092	244.1	239.9
H091	C09	C10	H101	250.7	180.0
H091	C09	C10	H102	7.9	300.1
C08	C09	H092	C10	128.2	120.0
H092	C09	C08	H081	286.4	300.0
H092	C09	C08	H082	168.1	180.0
C08	C09	H092	H091	244.1	240.0
H092	C09	C10	C11	11.9	300.0
C10	C09	H092	H091	115.9	120.1
H092	C09	C10	H101	133.3	60.0
H092	C09	C10	H102	250.5	180.0
C09	C10	H101	C11	230.9	240.0
H101	C10	C09	H091	250.7	180.0
H101	C10	C09	H092	133.3	60.0
C09	C10	H101	H102	115.5	120.0
H101	C10	C11	O12	21.6	240.0
H101	C10	C11	N13	201.0	60.0
C11	C10	H101	H102	244.6	240.0
C09	C10	H102	C11	129.1	120.0
H102	C10	C09	H091	7.9	300.1
H102	C10	C09	H092	250.5	180.0
C09	C10	H102	H101	244.5	240.0
H102	C10	C11	O12	264.4	120.0
H102	C10	C11	N13	83.8	300.0
C11	C10	H102	H101	115.4	120.0
C11	N13	H13	C14	180.0	180.0
H13	N13	C14	C15	56.1	215.1
H13	N13	C14	C19	239.6	34.8
H15	C15	C14	C19	177.2	180.2
C14	C15	H15	C16	180.0	180.1
H15	C15	C16	C17	181.7	180.0
H15	C15	C16	H16	1.6	0.1
C14	C19	H19	C18	180.0	179.8
H19	C19	C18	H18	358.5	0.0
C15	C16	H16	C17	180.0	180.0
H16	C16	C15	H15	1.6	0.1
H16	C16	C17	C18	179.6	180.0
H16	C16	C17	H17	359.5	0.0
C16	C17	H17	C18	180.0	179.9
H17	C17	C16	H16	359.5	0.0
H17	C17	C18	C19	180.4	179.7
H17	C17	C18	H18	0.4	360.0
C17	C18	H18	C19	180.0	179.7
H18	C18	C17	H17	0.4	360.0
H18	C18	C19	H19	358.5	0.0
H32	S04	C03	H031	58.3	59.9
H32	S04	C03	H032	301.7	300.0