PDB Chemical Component GUA

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 GUA

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C1	C2	1.499	1.506
C1	O1	1.258	1.208
C1	O2	1.234	1.342
C2	C3	1.480	1.529
C2	H21	1.116	1.090
C2	H22	1.116	1.090
C3	C4	1.525	1.529
C3	H31	1.115	1.090
C3	H32	1.115	1.090
C4	C5	1.493	1.506
C4	H41	1.115	1.090
C4	H42	1.116	1.090
C5	O3	1.231	1.208
C5	O4	1.251	1.341
O2	HO2	0.949	0.967
O4	HO4	0.949	0.967

Bond Angles for GUA

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C2	C1	O1	121.3	120.0
C2	C1	O2	115.4	120.0
C1	C2	C3	114.5	109.5
C1	C2	H21	110.4	109.5
C1	C2	H22	110.4	109.5
O1	C1	O2	123.3	120.0
C1	O2	HO2	115.4	120.1
C3	C2	H21	110.4	109.4
C3	C2	H22	110.4	109.4
C2	C3	C4	106.0	109.5
C2	C3	H31	113.5	109.5
C2	C3	H32	113.5	109.5
H21	C2	H22	99.8	109.5
C4	C3	H31	113.5	109.5
C4	C3	H32	113.5	109.5
C3	C4	C5	111.4	109.5
C3	C4	H41	111.5	109.4
C3	C4	H42	111.5	109.4
H31	C3	H32	97.0	109.4
C5	C4	H41	111.6	109.5
C5	C4	H42	111.5	109.5
C4	C5	O3	117.0	120.0
C4	C5	O4	120.4	120.1
H41	C4	H42	98.8	109.5
O3	C5	O4	122.6	119.9
C5	O4	HO4	120.4	120.1

Torsion Angles for GUA

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
O1	C1	C2	O2	179.7	180.0
C2	C1	O2	HO2	180.0	180.0
C3	C2	C1	H21	234.7	240.0
C3	C2	C1	H22	125.3	120.0
C1	C2	C3	C4	72.2	180.0
C1	C2	C3	H31	197.4	300.0
C1	C2	C3	H32	306.9	60.0
H21	C2	C1	H22	250.6	240.0
C2	C1	O1	O2	180.3	180.0
O1	C1	C2	C3	0.1	-0.0
O1	C1	C2	H21	125.4	120.0
O1	C1	C2	H22	234.8	240.0
O1	C1	O2	HO2	0.3	-0.0
C2	C1	O2	O1	179.7	180.0
O2	C1	C2	C3	180.4	180.0
O2	C1	C2	H21	305.7	300.0
O2	C1	C2	H22	55.1	60.0
C3	C2	C1	O1	0.1	-0.0
C3	C2	C1	O2	180.4	180.0
C1	C2	C3	H21	125.3	120.0
C1	C2	C3	H22	234.7	240.0
H21	C2	C3	H22	109.4	120.0
C4	C3	C2	H31	234.7	240.0
C4	C3	C2	H32	125.3	120.0
C2	C3	C4	C5	224.4	180.0
C2	C3	C4	H41	349.7	300.0
C2	C3	C4	H42	99.1	60.0
H31	C3	C2	H32	250.6	240.1
H21	C2	C1	O1	125.4	120.0
H21	C2	C1	O2	305.7	300.0
C1	C2	H21	C3	232.4	240.0
C1	C2	H21	H22	116.2	120.0
C3	C2	H21	H22	243.8	240.0
H21	C2	C3	C4	306.8	60.0
H21	C2	C3	H31	72.1	180.0
H21	C2	C3	H32	181.5	300.0
H22	C2	C1	O1	234.8	240.0
H22	C2	C1	O2	55.1	60.0
C1	C2	H22	C3	127.6	120.0
C1	C2	H22	H21	243.8	240.0
C3	C2	H22	H21	116.2	120.0
H22	C2	C3	C4	197.5	300.0
H22	C2	C3	H31	322.7	60.0
H22	C2	C3	H32	72.2	180.0
C4	C3	C2	H21	306.8	60.0
C4	C3	C2	H22	197.5	300.0
C2	C3	C4	H31	125.2	120.0
C2	C3	C4	H32	234.7	240.0
H31	C3	C4	H32	109.5	119.9
C5	C4	C3	H41	234.7	240.0
C5	C4	C3	H42	125.3	120.0
C3	C4	C5	O3	332.7	-0.0
C3	C4	C5	O4	152.9	180.0
H41	C4	C3	H42	250.6	240.0
H31	C3	C2	H21	72.1	180.0
H31	C3	C2	H22	322.7	60.0
C2	C3	H31	C4	238.9	239.9
C2	C3	H31	H32	119.4	120.0
C4	C3	H31	H32	240.5	240.0
H31	C3	C4	C5	99.2	60.0
H31	C3	C4	H41	224.5	180.0
H31	C3	C4	H42	333.9	300.0
H32	C3	C2	H21	181.5	300.0
H32	C3	C2	H22	72.2	180.0
C2	C3	H32	C4	121.2	120.1
C2	C3	H32	H31	240.6	240.0
C4	C3	H32	H31	119.5	120.0
H32	C3	C4	C5	349.7	300.0
H32	C3	C4	H41	115.0	60.0
H32	C3	C4	H42	224.4	180.0
C5	C4	C3	H31	99.2	60.0
C5	C4	C3	H32	349.7	300.0
C3	C4	C5	H41	125.3	120.0
C3	C4	C5	H42	234.7	240.0
H41	C4	C5	H42	109.4	120.0
O3	C5	C4	O4	179.8	180.0
C4	C5	O4	HO4	180.0	180.0
H41	C4	C3	H31	224.5	180.0
H41	C4	C3	H32	115.0	60.0
C3	C4	H41	C5	234.8	240.0
C3	C4	H41	H42	117.4	120.0
C5	C4	H41	H42	242.6	240.0
H41	C4	C5	O3	207.4	240.0
H41	C4	C5	O4	27.6	60.0
H42	C4	C3	H31	333.9	300.0
H42	C4	C3	H32	224.4	180.0
C3	C4	H42	C5	125.2	120.0
C3	C4	H42	H41	242.7	240.0
C5	C4	H42	H41	117.5	120.0
H42	C4	C5	O3	98.0	120.0
H42	C4	C5	O4	278.2	300.0
O3	C5	C4	H41	207.4	240.0
O3	C5	C4	H42	98.0	120.0
C4	C5	O3	O4	180.2	180.0
O3	C5	O4	HO4	0.2	-0.0
O4	C5	C4	H41	27.6	60.0
O4	C5	C4	H42	278.2	300.0
C4	C5	O4	O3	179.8	180.0