PDB Chemical Component H4P

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 H4P

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
OA4	CA4	1.453	1.430
OA4	HA4	0.950	0.966
CA4	CA5	1.601	1.530
CA4	CA3	1.603	1.529
CA4	H1	1.114	1.090
CA5	OP4	1.449	1.428
CA5	HA51	1.115	1.090
CA5	HA52	1.116	1.090
OP4	PA	1.557	1.609
PA	OP1	1.546	1.480
PA	OP2	1.547	1.610
PA	OP3	1.548	1.609
OP2	HP2	0.950	0.967
OP3	HP3	0.950	0.966
CA3	OA3	1.454	1.429
CA3	CA2	1.606	1.529
CA3	HA3	1.114	1.090
OA3	H2	0.950	0.966
CA2	OA2	1.456	1.428
CA2	CA1	1.603	1.531
CA2	HA2	1.114	1.089
OA2	H3	0.950	0.967
CA1	OA1	1.450	1.428
CA1	C3	1.599	1.529
CA1	HA1	1.116	1.089
OA1	H4	0.950	0.967
C3	N	1.382	1.468
C3	H31	1.115	1.090
C3	H32	1.114	1.089
N	C4	1.379	1.468
N	HN	1.020	1.010
C4	P	1.477	1.822
C4	H41	1.116	1.090
C4	H42	1.116	1.089
P	O1P	1.536	1.480
P	O2P	1.549	1.609
P	O3P	1.555	1.609
O2P	H2P	0.950	0.967
O3P	H3P	0.950	0.967

Bond Angles for H4P

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
CA4	OA4	HA4	107.7	106.8
OA4	CA4	CA5	107.7	109.4
OA4	CA4	CA3	106.2	109.5
OA4	CA4	H1	117.4	109.4
CA5	CA4	CA3	120.5	109.6
CA5	CA4	H1	102.0	109.4
CA4	CA5	OP4	115.5	109.6
CA4	CA5	HA51	110.0	109.5
CA4	CA5	HA52	110.0	109.4
CA3	CA4	H1	103.6	109.5
CA4	CA3	OA3	112.0	109.4
CA4	CA3	CA2	114.9	109.5
CA4	CA3	HA3	103.5	109.5
OP4	CA5	HA51	110.0	109.5
OP4	CA5	HA52	110.0	109.4
CA5	OP4	PA	133.8	106.9
HA51	CA5	HA52	100.1	109.4
OP4	PA	OP1	105.8	109.5
OP4	PA	OP2	114.8	109.5
OP4	PA	OP3	105.4	109.5
OP1	PA	OP2	110.3	109.4
OP1	PA	OP3	111.1	109.5
OP2	PA	OP3	109.3	109.5
PA	OP2	HP2	114.9	106.9
PA	OP3	HP3	105.3	106.8
OA3	CA3	CA2	108.7	109.5
OA3	CA3	HA3	110.3	109.4
CA3	OA3	H2	112.0	106.8
CA2	CA3	HA3	107.2	109.5
CA3	CA2	OA2	118.1	109.5
CA3	CA2	CA1	107.4	109.5
CA3	CA2	HA2	105.3	109.5
OA2	CA2	CA1	110.4	109.4
OA2	CA2	HA2	101.8	109.5
CA2	OA2	H3	118.2	106.8
CA1	CA2	HA2	113.8	109.5
CA2	CA1	OA1	115.7	109.4
CA2	CA1	C3	121.1	109.5
CA2	CA1	HA1	93.5	109.5
OA1	CA1	C3	102.2	109.4
OA1	CA1	HA1	115.5	109.5
CA1	OA1	H4	115.7	106.9
C3	CA1	HA1	109.3	109.5
CA1	C3	N	113.0	109.5
CA1	C3	H31	110.9	109.5
CA1	C3	H32	110.9	109.5
N	C3	H31	110.9	109.4
N	C3	H32	110.9	109.4
C3	N	C4	124.4	106.8
C3	N	HN	106.9	106.7
H31	C3	H32	99.4	109.5
C4	N	HN	106.9	106.7
N	C4	P	141.6	109.5
N	C4	H41	101.4	109.5
N	C4	H42	101.4	109.5
P	C4	H41	101.3	109.4
P	C4	H42	101.3	109.4
C4	P	O1P	103.7	109.4
C4	P	O2P	106.1	109.5
C4	P	O3P	101.1	109.5
H41	C4	H42	106.3	109.5
O1P	P	O2P	113.6	109.4
O1P	P	O3P	117.9	109.4
O2P	P	O3P	112.5	109.5
P	O2P	H2P	106.0	106.8
P	O3P	H3P	101.1	106.8

Torsion Angles for H4P

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
CA5	CA4	OA4	CA3	130.4	120.1
CA5	CA4	OA4	H1	245.7	240.2
OA4	CA4	CA5	OP4	103.3	60.0
OA4	CA4	CA5	HA51	228.6	299.8
OA4	CA4	CA5	HA52	338.0	179.9
CA3	CA4	OA4	H1	115.3	120.0
OA4	CA4	CA3	OA3	58.0	180.0
OA4	CA4	CA3	CA2	182.7	300.0
OA4	CA4	CA3	HA3	299.2	60.0
HA4	OA4	CA4	CA5	180.0	60.1
HA4	OA4	CA4	CA3	49.5	300.0
HA4	OA4	CA4	H1	294.2	180.0
CA5	CA4	OA4	HA4	180.0	60.1
OA4	CA4	CA5	CA3	238.0	240.0
OA4	CA4	CA5	H1	124.2	119.8
CA3	CA4	CA5	H1	246.2	239.9
CA5	CA4	CA3	OA3	295.3	60.0
CA5	CA4	CA3	CA2	60.0	180.0
CA5	CA4	CA3	HA3	176.5	300.1
OP4	CA5	CA4	HA51	234.7	120.1
OP4	CA5	CA4	HA52	125.3	240.0
CA4	CA5	OP4	PA	237.0	180.0
HA51	CA5	CA4	HA52	250.6	119.9
CA3	CA4	OA4	HA4	49.5	300.0
OA4	CA4	CA3	CA5	122.7	120.0
OA4	CA4	CA3	H1	235.7	240.1
CA5	CA4	CA3	H1	113.0	120.1
CA3	CA4	CA5	OP4	225.2	180.0
CA3	CA4	CA5	HA51	350.5	59.9
CA3	CA4	CA5	HA52	99.9	300.0
OA3	CA3	CA4	CA2	235.4	240.0
OA3	CA3	CA4	HA3	118.9	119.9
CA4	CA3	OA3	H2	180.0	60.0
CA2	CA3	CA4	HA3	243.5	240.0
CA4	CA3	CA2	OA2	265.6	300.0
CA4	CA3	CA2	CA1	139.9	180.0
CA4	CA3	CA2	HA2	18.3	60.0
H1	CA4	OA4	HA4	294.2	180.0
OA4	CA4	H1	CA5	242.6	240.2
OA4	CA4	H1	CA3	116.7	120.0
CA5	CA4	H1	CA3	234.2	239.8
H1	CA4	CA5	OP4	339.1	300.2
H1	CA4	CA5	HA51	104.4	180.0
H1	CA4	CA5	HA52	213.8	60.1
H1	CA4	CA3	OA3	182.3	299.9
H1	CA4	CA3	CA2	307.0	60.0
H1	CA4	CA3	HA3	63.5	180.0
OP4	CA5	CA4	CA3	225.2	180.0
OP4	CA5	CA4	H1	339.1	300.2
CA4	CA5	OP4	HA51	125.3	239.9
CA4	CA5	OP4	HA52	234.7	120.0
HA51	CA5	OP4	HA52	109.4	240.1
CA5	OP4	PA	OP1	212.6	60.0
CA5	OP4	PA	OP2	334.5	179.9
CA5	OP4	PA	OP3	94.8	300.0
HA51	CA5	CA4	CA3	350.5	59.9
HA51	CA5	CA4	H1	104.4	180.0
CA4	CA5	HA51	OP4	231.6	120.2
CA4	CA5	HA51	HA52	115.8	240.1
OP4	CA5	HA51	HA52	244.2	119.9
HA51	CA5	OP4	PA	111.8	300.1
HA52	CA5	CA4	CA3	99.9	300.0
HA52	CA5	CA4	H1	213.8	60.1
CA4	CA5	HA52	OP4	128.4	239.9
CA4	CA5	HA52	HA51	244.2	119.9
OP4	CA5	HA52	HA51	115.8	240.0
HA52	CA5	OP4	PA	2.3	60.0
PA	OP4	CA5	HA51	111.8	300.1
PA	OP4	CA5	HA52	2.3	60.0
OP1	PA	OP4	OP2	238.1	240.1
OP1	PA	OP4	OP3	117.8	120.0
OP2	PA	OP4	OP3	239.7	240.0
OP4	PA	OP2	HP2	180.0	180.0
OP4	PA	OP3	HP3	180.0	300.0
OP4	PA	OP1	OP2	124.8	120.0
OP4	PA	OP1	OP3	246.1	240.0
OP2	PA	OP1	OP3	121.3	120.0
OP1	PA	OP2	HP2	299.5	300.0
OP1	PA	OP3	HP3	65.9	180.0
OP4	PA	OP2	OP1	240.5	240.0
OP4	PA	OP2	OP3	118.1	120.1
OP1	PA	OP2	OP3	237.6	240.0
OP2	PA	OP3	HP3	303.9	60.1
OP4	PA	OP3	OP1	114.1	120.0
OP4	PA	OP3	OP2	236.1	239.9
OP1	PA	OP3	OP2	122.0	119.9
OP3	PA	OP2	HP2	61.9	60.0
HP2	OP2	PA	OP3	61.9	60.0
OA3	CA3	CA4	H1	182.3	299.9
CA4	CA3	OA3	CA2	128.0	120.0
CA4	CA3	OA3	HA3	245.3	240.0
CA2	CA3	OA3	HA3	117.2	120.0
OA3	CA3	CA2	OA2	31.9	60.0
OA3	CA3	CA2	CA1	266.3	300.0
OA3	CA3	CA2	HA2	144.7	180.0
CA2	CA3	CA4	H1	307.0	60.0
CA4	CA3	CA2	OA3	233.6	240.0
CA4	CA3	CA2	HA3	114.4	120.0
OA3	CA3	CA2	HA3	240.8	240.0
CA2	CA3	OA3	H2	52.0	300.0
OA2	CA2	CA3	CA1	125.6	119.9
OA2	CA2	CA3	HA2	247.2	239.9
CA3	CA2	OA2	H3	180.1	300.1
CA1	CA2	CA3	HA2	121.6	120.0
CA3	CA2	CA1	OA1	278.6	300.0
CA3	CA2	CA1	C3	154.2	180.0
CA3	CA2	CA1	HA1	39.1	60.0
HA3	CA3	CA4	H1	63.5	180.0
CA4	CA3	HA3	OA3	120.0	119.9
CA4	CA3	HA3	CA2	238.2	240.0
OA3	CA3	HA3	CA2	118.2	120.0
HA3	CA3	OA3	H2	294.7	180.0
HA3	CA3	CA2	OA2	151.2	180.0
HA3	CA3	CA2	CA1	25.6	60.0
HA3	CA3	CA2	HA2	263.9	300.0
H2	OA3	CA3	CA2	52.0	300.0
H2	OA3	CA3	HA3	294.7	180.0
OA2	CA2	CA3	HA3	151.2	180.0
CA3	CA2	OA2	CA1	235.9	240.0
CA3	CA2	OA2	HA2	114.7	120.1
CA1	CA2	OA2	HA2	238.8	240.0
OA2	CA2	CA1	OA1	148.5	180.0
OA2	CA2	CA1	C3	24.1	60.0
OA2	CA2	CA1	HA1	269.0	300.0
CA1	CA2	CA3	HA3	25.6	60.0
CA3	CA2	CA1	OA2	130.1	120.0
CA3	CA2	CA1	HA2	243.9	240.0
OA2	CA2	CA1	HA2	113.8	120.0
CA1	CA2	OA2	H3	304.2	60.1
OA1	CA1	CA2	C3	124.4	120.0
OA1	CA1	CA2	HA1	239.5	240.0
CA2	CA1	OA1	H4	180.0	300.0
C3	CA1	CA2	HA1	115.1	120.0
CA2	CA1	C3	N	221.4	180.0
CA2	CA1	C3	H31	346.7	300.0
CA2	CA1	C3	H32	96.2	60.0
HA2	CA2	CA3	HA3	263.9	300.0
CA3	CA2	HA2	OA2	236.2	239.9
CA3	CA2	HA2	CA1	117.3	120.0
OA2	CA2	HA2	CA1	241.2	240.1
HA2	CA2	OA2	H3	65.4	180.0
HA2	CA2	CA1	OA1	34.7	60.0
HA2	CA2	CA1	C3	270.3	300.0
HA2	CA2	CA1	HA1	155.2	180.0
H3	OA2	CA2	CA1	304.2	60.1
H3	OA2	CA2	HA2	65.4	180.0
OA1	CA1	CA2	HA2	34.7	60.0
CA2	CA1	OA1	C3	226.3	240.0
CA2	CA1	OA1	HA1	107.7	120.0
C3	CA1	OA1	HA1	241.4	240.0
OA1	CA1	C3	N	91.0	60.0
OA1	CA1	C3	H31	216.2	180.0
OA1	CA1	C3	H32	325.7	300.0
C3	CA1	CA2	HA2	270.3	300.0
CA2	CA1	C3	OA1	130.5	120.0
CA2	CA1	C3	HA1	253.4	240.0
OA1	CA1	C3	HA1	122.9	120.0
C3	CA1	OA1	H4	313.6	60.0
N	C3	CA1	H31	234.8	240.0
N	C3	CA1	H32	125.3	120.0
CA1	C3	N	C4	79.2	180.0
CA1	C3	N	HN	314.0	293.8
H31	C3	CA1	H32	250.5	240.0
HA1	CA1	CA2	HA2	155.2	180.0
CA2	CA1	HA1	OA1	239.3	240.0
CA2	CA1	HA1	C3	124.7	120.0
OA1	CA1	HA1	C3	245.4	240.0
HA1	CA1	OA1	H4	72.2	180.1
HA1	CA1	C3	N	328.1	300.0
HA1	CA1	C3	H31	93.3	60.0
HA1	CA1	C3	H32	202.8	180.0
H4	OA1	CA1	C3	313.6	60.0
H4	OA1	CA1	HA1	72.2	180.1
N	C3	CA1	HA1	328.1	300.0
CA1	C3	N	H31	125.2	120.0
CA1	C3	N	H32	234.7	240.0
H31	C3	N	H32	109.5	120.0
C4	N	C3	HN	125.2	246.2
C3	N	C4	P	28.8	90.0
C3	N	C4	H41	154.0	209.9
C3	N	C4	H42	263.5	330.0
H31	C3	CA1	HA1	93.3	60.0
CA1	C3	H31	N	233.6	240.0
CA1	C3	H31	H32	116.8	120.0
N	C3	H31	H32	243.2	240.1
H31	C3	N	C4	314.0	60.0
H31	C3	N	HN	188.8	173.8
H32	C3	CA1	HA1	202.8	180.0
CA1	C3	H32	N	126.4	120.0
CA1	C3	H32	H31	243.2	240.0
N	C3	H32	H31	116.8	119.9
H32	C3	N	C4	204.5	300.0
H32	C3	N	HN	79.3	53.8
C4	N	C3	H31	314.0	60.0
C4	N	C3	H32	204.5	300.0
C3	N	C4	HN	234.8	113.8
P	C4	N	H41	234.7	240.0
P	C4	N	H42	125.3	120.0
N	C4	P	O1P	59.1	60.0
N	C4	P	O2P	299.2	180.0
N	C4	P	O3P	181.7	300.1
H41	C4	N	H42	250.5	239.9
HN	N	C3	H31	188.8	173.8
HN	N	C3	H32	79.3	53.8
C3	N	HN	C4	135.2	246.2
HN	N	C4	P	154.0	336.2
HN	N	C4	H41	279.3	96.2
HN	N	C4	H42	28.8	216.2
P	C4	N	HN	154.0	336.2
N	C4	P	H41	125.3	120.0
N	C4	P	H42	234.7	240.0
H41	C4	P	H42	109.4	120.0
O1P	P	C4	O2P	119.9	240.0
O1P	P	C4	O3P	237.5	119.9
O2P	P	C4	O3P	117.5	239.9
C4	P	O2P	H2P	180.0	180.0
C4	P	O3P	H3P	180.0	300.0
H41	C4	N	HN	279.3	96.2
N	C4	H41	P	211.1	240.0
N	C4	H41	H42	105.6	120.0
P	C4	H41	H42	254.5	240.0
H41	C4	P	O1P	293.8	300.0
H41	C4	P	O2P	173.9	60.0
H41	C4	P	O3P	56.4	180.1
H42	C4	N	HN	28.8	216.2
N	C4	H42	P	148.9	120.0
N	C4	H42	H41	254.4	240.0
P	C4	H42	H41	105.5	119.9
H42	C4	P	O1P	184.4	180.0
H42	C4	P	O2P	64.5	300.0
H42	C4	P	O3P	306.9	60.1
O1P	P	C4	H41	293.8	300.0
O1P	P	C4	H42	184.4	180.0
C4	P	O1P	O2P	245.3	120.0
C4	P	O1P	O3P	110.6	240.0
O2P	P	O1P	O3P	225.3	120.0
O1P	P	O2P	H2P	66.8	300.0
O1P	P	O3P	H3P	292.1	180.0
O2P	P	C4	H41	173.9	60.0
O2P	P	C4	H42	64.5	300.0
C4	P	O2P	O1P	113.2	240.0
C4	P	O2P	O3P	250.4	120.1
O1P	P	O2P	O3P	137.1	240.0
O2P	P	O3P	H3P	67.3	60.0
O3P	P	C4	H41	56.4	180.1
O3P	P	C4	H42	306.9	60.1
C4	P	O3P	O1P	247.9	120.0
C4	P	O3P	O2P	112.7	239.9
O1P	P	O3P	O2P	224.8	120.0
O3P	P	O2P	H2P	289.7	59.9
H2P	O2P	P	O3P	289.7	59.9