PDB Chemical Component 210

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 210

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
P1	O2	1.472	1.610
P1	O3	1.584	1.610
P1	O5	1.607	1.480
P1	C7	1.867	1.823
O2	HO2	0.950	0.967
O3	HO3	0.950	0.967
C7	P8	1.877	1.822
C7	O14	1.421	1.429
C7	C16	1.592	1.530
P8	O9	1.505	1.480
P8	O10	1.612	1.610
P8	O12	1.586	1.610
O10	HO10	0.950	0.967
O12	HO12	0.950	0.967
O14	HO14	0.950	0.967
C16	C19	1.579	1.531
C16	H161	1.100	1.090
C16	H162	1.100	1.090
C19	N22	1.511	1.469
C19	H191	1.100	1.090
C19	H192	1.100	1.090
N22	H221	1.000	1.009
N22	H222	1.000	1.010

Bond Angles for 210

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
O2	P1	O3	112.9	109.5
O2	P1	O5	122.0	109.5
O2	P1	C7	111.0	109.5
P1	O2	HO2	109.5	106.8
O3	P1	O5	96.6	109.5
O3	P1	C7	114.5	109.5
P1	O3	HO3	109.5	106.8
O5	P1	C7	98.7	109.4
P1	C7	P8	112.1	109.5
P1	C7	O14	103.8	109.5
P1	C7	C16	111.1	109.4
P8	C7	O14	109.5	109.5
P8	C7	C16	111.3	109.5
C7	P8	O9	119.1	109.5
C7	P8	O10	100.0	109.5
C7	P8	O12	100.6	109.5
O14	C7	C16	108.7	109.4
C7	O14	HO14	109.5	106.8
C7	C16	C19	114.3	109.5
C7	C16	H161	106.8	109.5
C7	C16	H162	107.9	109.5
O9	P8	O10	114.1	109.5
O9	P8	O12	109.3	109.5
O10	P8	O12	113.0	109.4
P8	O10	HO10	109.5	106.8
P8	O12	HO12	109.5	106.8
C19	C16	H161	106.8	109.5
C19	C16	H162	107.9	109.5
C16	C19	N22	112.7	109.5
C16	C19	H191	107.7	109.4
C16	C19	H192	108.4	109.5
H161	C16	H162	113.3	109.4
N22	C19	H191	107.7	109.5
N22	C19	H192	108.4	109.5
C19	N22	H221	109.5	106.7
C19	N22	H222	109.5	106.7
H191	C19	H192	112.0	109.5
H221	N22	H222	109.5	106.7

Torsion Angles for 210

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
O3	P1	O2	O5	114.2	240.0
O3	P1	O2	C7	229.9	120.0
O2	P1	O3	HO3	292.9	300.0
O5	P1	O2	C7	115.6	240.0
O2	P1	C7	P8	305.3	300.0
O2	P1	C7	O14	187.2	180.0
O2	P1	C7	C16	70.5	60.0
O2	P1	O3	O5	231.1	120.0
O2	P1	O3	C7	128.3	240.0
O3	P1	O2	HO2	110.0	300.0
O5	P1	O3	C7	257.2	120.0
O3	P1	C7	P8	74.5	180.0
O3	P1	C7	O14	316.5	59.9
O3	P1	C7	C16	199.8	300.0
O2	P1	O5	O3	122.2	240.0
O2	P1	O5	C7	238.4	120.0
O5	P1	O2	HO2	355.8	60.0
O3	P1	O5	C7	116.1	240.0
O5	P1	O3	HO3	61.8	180.0
O5	P1	C7	P8	175.9	60.0
O5	P1	C7	O14	57.9	300.0
O5	P1	C7	C16	301.2	180.0
O2	P1	C7	O3	230.7	120.0
O2	P1	C7	O5	129.3	240.0
C7	P1	O2	HO2	240.1	180.0
O3	P1	C7	O5	258.6	120.0
C7	P1	O3	HO3	164.6	60.0
P8	C7	P1	O14	118.1	120.0
P8	C7	P1	C16	234.7	240.0
P1	C7	P8	O9	67.5	293.4
P1	C7	P8	O10	302.6	53.4
P1	C7	P8	O12	186.7	173.4
O14	C7	P1	C16	116.7	120.0
P1	C7	O14	HO14	117.2	300.0
P1	C7	C16	C19	167.6	304.7
P1	C7	C16	H161	49.8	184.7
P1	C7	C16	H162	287.6	64.7
HO2	O2	P1	O3	110.0	300.0
HO2	O2	P1	O5	355.8	60.0
HO2	O2	P1	C7	240.1	180.0
HO3	O3	P1	O5	61.8	180.0
HO3	O3	P1	C7	164.6	60.0
P1	C7	P8	O14	245.4	240.0
P1	C7	P8	C16	125.2	120.0
O14	C7	P8	C16	239.8	240.0
P8	C7	O14	HO14	357.3	180.0
P8	C7	C16	C19	293.4	64.7
P8	C7	C16	H161	175.5	304.7
P8	C7	C16	H162	53.4	184.7
O9	P8	C7	O10	124.9	240.0
O9	P8	C7	O12	240.7	120.0
O10	P8	C7	O12	115.9	240.0
C7	P8	O10	HO10	47.6	180.0
C7	P8	O12	HO12	116.9	294.8
P1	C7	O14	P8	119.9	120.0
P1	C7	O14	C16	241.7	240.0
P8	C7	O14	C16	121.8	120.0
O14	C7	P8	O9	182.1	53.5
O14	C7	P8	O10	57.2	173.5
O14	C7	P8	O12	301.4	293.4
O14	C7	C16	C19	54.0	184.7
O14	C7	C16	H161	296.2	64.7
O14	C7	C16	H162	174.0	304.7
P1	C7	C16	P8	234.3	240.0
P1	C7	C16	O14	113.6	120.0
P8	C7	C16	O14	239.3	240.0
C16	C7	P8	O9	302.3	173.5
C16	C7	P8	O10	177.4	293.5
C16	C7	P8	O12	61.6	53.4
C16	C7	O14	HO14	235.5	60.0
C19	C16	C7	H161	117.9	120.0
C19	C16	C7	H162	240.0	240.0
C7	C16	C19	N22	249.1	185.8
C7	C16	C19	H191	130.5	65.7
C7	C16	C19	H192	9.1	305.7
H161	C16	C7	H162	122.1	120.0
O9	P8	C7	O14	182.1	53.5
O9	P8	C7	C16	302.3	173.5
C7	P8	O9	O10	242.2	120.0
C7	P8	O9	O12	114.8	240.0
O10	P8	O9	O12	232.5	120.0
O9	P8	O10	HO10	279.3	300.1
O9	P8	O12	HO12	243.1	174.8
O10	P8	C7	O14	57.2	173.5
O10	P8	C7	C16	177.4	293.5
C7	P8	O10	O9	128.3	240.0
C7	P8	O10	O12	253.9	120.0
O9	P8	O10	O12	125.6	240.0
O10	P8	O12	HO12	11.2	54.8
O12	P8	C7	O14	301.4	293.4
O12	P8	C7	C16	61.6	53.4
C7	P8	O12	O9	233.8	120.0
C7	P8	O12	O10	105.7	240.0
O9	P8	O12	O10	231.9	120.0
O12	P8	O10	HO10	153.7	60.1
HO10	O10	P8	O12	153.7	60.1
HO14	O14	C7	C16	235.5	60.0
C7	C16	C19	H161	242.1	240.0
C7	C16	C19	H162	120.0	120.0
H161	C16	C19	H162	237.9	240.1
N22	C19	C16	H191	118.6	120.0
N22	C19	C16	H192	240.0	240.0
C16	C19	N22	H221	252.1	180.0
C16	C19	N22	H222	132.1	293.8
H191	C19	C16	H192	121.4	120.0
C7	C16	H161	C19	122.7	120.0
C7	C16	H161	H162	241.3	240.0
C19	C16	H161	H162	118.7	120.0
H161	C16	C19	N22	7.0	305.8
H161	C16	C19	H191	248.4	185.8
H161	C16	C19	H192	127.0	65.8
C7	C16	H162	C19	236.1	240.0
C7	C16	H162	H161	118.0	120.0
C19	C16	H162	H161	242.0	240.0
H162	C16	C19	N22	129.1	65.7
H162	C16	C19	H191	10.5	305.7
H162	C16	C19	H192	249.1	185.7
N22	C19	C16	H161	7.0	305.8
N22	C19	C16	H162	129.1	65.7
C16	C19	N22	H191	241.4	240.0
C16	C19	N22	H192	120.0	120.0
H191	C19	N22	H192	238.6	240.0
H221	N22	C19	H222	120.0	246.3
H191	C19	C16	H161	248.4	185.8
H191	C19	C16	H162	10.5	305.7
C16	C19	H191	N22	121.8	120.0
C16	C19	H191	H192	240.9	240.0
N22	C19	H191	H192	119.1	120.0
H191	C19	N22	H221	10.7	300.0
H191	C19	N22	H222	250.7	53.7
H192	C19	C16	H161	127.0	65.8
H192	C19	C16	H162	249.1	185.7
C16	C19	H192	N22	237.3	240.0
C16	C19	H192	H191	118.7	120.0
N22	C19	H192	H191	241.3	240.0
H192	C19	N22	H221	132.1	60.0
H192	C19	N22	H222	12.1	173.8
H221	N22	C19	H191	10.7	300.0
H221	N22	C19	H192	132.1	60.0
C19	N22	H221	H222	240.0	113.7
H222	N22	C19	H191	250.7	53.7
H222	N22	C19	H192	12.1	173.8
C19	N22	H222	H221	120.0	246.3