PDB Chemical Component GLU

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 GLU

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N	CA	1.490	1.469
N	H	1.000	1.009
N	H2	1.000	1.009
CA	C	1.521	1.508
CA	CB	1.534	1.530
CA	HA	1.100	1.090
C	O	1.242	1.208
C	OXT	1.245	1.342
CB	CG	1.518	1.531
CB	HB2	1.100	1.090
CB	HB3	1.100	1.089
CG	CD	1.521	1.508
CG	HG2	1.100	1.090
CG	HG3	1.100	1.089
CD	OE1	1.253	1.208
CD	OE2	1.249	1.343
OE2	HE2	0.950	0.966
OXT	HXT	0.950	0.967

Bond Angles for GLU

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
CA	N	H	109.5	111.0
CA	N	H2	109.5	111.0
N	CA	C	109.1	109.5
N	CA	CB	110.3	109.5
N	CA	HA	109.4	109.5
H	N	H2	109.5	111.0
C	CA	CB	110.2	109.4
C	CA	HA	109.5	109.5
CA	C	O	117.3	120.0
CA	C	OXT	119.0	120.0
CB	CA	HA	108.3	109.5
CA	CB	CG	113.4	109.4
CA	CB	HB2	108.2	109.5
CA	CB	HB3	108.2	109.5
O	C	OXT	123.7	120.0
C	OXT	HXT	109.5	117.0
CG	CB	HB2	108.1	109.5
CG	CB	HB3	108.2	109.5
CB	CG	CD	113.5	109.4
CB	CG	HG2	108.2	109.5
CB	CG	HG3	108.2	109.4
HB2	CB	HB3	110.8	109.5
CD	CG	HG2	108.1	109.4
CD	CG	HG3	108.2	109.5
CG	CD	OE1	119.5	120.0
CG	CD	OE2	118.0	120.0
HG2	CG	HG3	110.7	109.5
OE1	CD	OE2	122.5	120.0
CD	OE2	HE2	109.5	117.0

Torsion Angles for GLU

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
H	N	CA	H2	240.0	236.0
C	CA	N	CB	121.1	120.0
C	CA	N	HA	240.2	240.0
N	CA	C	O	335.8	340.0
N	CA	C	OXT	155.9	160.0
CB	CA	N	HA	119.0	120.0
N	CA	CB	CG	302.8	295.0
N	CA	CB	HB2	62.7	54.9
N	CA	CB	HB3	182.8	175.0
CA	N	H	H2	120.0	124.0
H	N	CA	C	180.0	60.0
H	N	CA	CB	58.9	300.0
H	N	CA	HA	299.8	180.0
CA	N	H2	H	240.0	236.0
H2	N	CA	C	300.0	184.0
H2	N	CA	CB	178.9	64.0
H2	N	CA	HA	59.8	304.0
C	CA	N	H	180.0	60.0
C	CA	N	H2	300.0	184.0
N	CA	C	CB	238.8	240.0
N	CA	C	HA	119.8	120.0
CB	CA	C	HA	241.0	240.0
C	CA	CB	CG	182.3	175.0
C	CA	CB	HB2	302.2	295.0
C	CA	CB	HB3	62.3	55.0
O	C	CA	OXT	179.8	180.0
CA	C	OXT	HXT	179.8	180.0
CB	CA	N	H	58.9	300.0
CB	CA	N	H2	178.9	64.0
N	CA	CB	C	120.5	120.0
N	CA	CB	HA	240.3	239.9
C	CA	CB	HA	119.8	120.0
CB	CA	C	O	97.0	100.0
CB	CA	C	OXT	277.1	280.0
CG	CB	CA	HB2	240.0	240.0
CG	CB	CA	HB3	120.0	120.0
CA	CB	CG	CD	181.2	180.0
CA	CB	CG	HG2	301.2	300.0
CA	CB	CG	HG3	61.2	60.0
HB2	CB	CA	HB3	240.0	239.9
HA	CA	N	H	299.8	180.0
HA	CA	N	H2	59.8	304.0
N	CA	HA	C	240.4	240.0
N	CA	HA	CB	120.2	120.0
C	CA	HA	CB	239.8	240.1
HA	CA	C	O	216.0	220.0
HA	CA	C	OXT	36.2	40.0
HA	CA	CB	CG	62.5	55.0
HA	CA	CB	HB2	182.5	175.0
HA	CA	CB	HB3	302.5	295.1
O	C	CA	CB	97.0	100.0
O	C	CA	HA	216.0	220.0
CA	C	O	OXT	180.2	180.0
O	C	OXT	HXT	360.0	0.0
OXT	C	CA	CB	277.1	280.0
OXT	C	CA	HA	36.2	40.0
CA	C	OXT	O	179.8	180.0
CG	CB	CA	HA	62.5	55.0
CA	CB	CG	HB2	120.0	120.0
CA	CB	CG	HB3	240.0	240.0
HB2	CB	CG	HB3	120.0	120.0
CD	CG	CB	HG2	240.0	240.0
CD	CG	CB	HG3	120.0	120.0
CB	CG	CD	OE1	28.2	360.0
CB	CG	CD	OE2	207.5	180.0
HG2	CG	CB	HG3	240.0	239.9
HB2	CB	CA	HA	182.5	175.0
CA	CB	HB2	CG	236.8	240.1
CA	CB	HB2	HB3	118.4	120.1
CG	CB	HB2	HB3	241.6	240.0
HB2	CB	CG	CD	61.2	60.0
HB2	CB	CG	HG2	181.2	180.0
HB2	CB	CG	HG3	301.2	300.1
HB3	CB	CA	HA	302.5	295.1
CA	CB	HB3	CG	123.2	119.9
CA	CB	HB3	HB2	241.6	239.9
CG	CB	HB3	HB2	118.4	120.0
HB3	CB	CG	CD	301.2	300.0
HB3	CB	CG	HG2	61.2	60.0
HB3	CB	CG	HG3	181.2	180.0
CD	CG	CB	HB2	61.2	60.0
CD	CG	CB	HB3	301.2	300.0
CB	CG	CD	HG2	120.0	120.0
CB	CG	CD	HG3	240.0	240.1
HG2	CG	CD	HG3	120.0	120.1
OE1	CD	CG	OE2	180.6	179.9
CG	CD	OE2	HE2	180.7	180.0
HG2	CG	CB	HB2	181.2	180.0
HG2	CG	CB	HB3	61.2	60.0
CB	CG	HG2	CD	236.7	240.0
CB	CG	HG2	HG3	118.4	120.0
CD	CG	HG2	HG3	241.7	240.0
HG2	CG	CD	OE1	268.2	240.0
HG2	CG	CD	OE2	87.5	60.0
HG3	CG	CB	HB2	301.2	300.1
HG3	CG	CB	HB3	181.2	180.0
CB	CG	HG3	CD	123.3	119.9
CB	CG	HG3	HG2	241.6	239.9
CD	CG	HG3	HG2	118.3	120.0
HG3	CG	CD	OE1	148.2	119.9
HG3	CG	CD	OE2	327.6	300.0
OE1	CD	CG	HG2	268.2	240.0
OE1	CD	CG	HG3	148.2	119.9
CG	CD	OE1	OE2	179.3	180.1
OE1	CD	OE2	HE2	0.0	0.0
OE2	CD	CG	HG2	87.5	60.0
OE2	CD	CG	HG3	327.6	300.0
CG	CD	OE2	OE1	180.7	179.9