PDB Chemical Component CAN

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 CAN

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N	CA	1.485	1.468
N	HN1	1.021	1.009
N	HN2	1.020	1.008
CA	CB	1.533	1.529
CA	C	1.522	1.507
CA	HA	1.116	1.090
CB	CG	1.515	1.529
CB	HB1	1.115	1.091
CB	HB2	1.114	1.090
CG	OG	1.448	1.429
CG	HG1	1.114	1.090
CG	HG2	1.115	1.090
OG	NZ	1.485	1.463
NZ	HNZ1	1.020	1.008
NZ	HNZ2	1.019	1.010
C	O	1.247	1.208
C	OXT	1.252	1.342
OXT	HXT	0.950	0.967

Bond Angles for CAN

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
CA	N	HN1	110.9	106.7
CA	N	HN2	111.7	106.8
N	CA	CB	110.9	109.5
N	CA	C	110.5	109.4
N	CA	HA	108.5	109.5
HN1	N	HN2	111.6	106.7
CB	CA	C	111.5	109.5
CB	CA	HA	107.4	109.5
CA	CB	CG	114.9	109.5
CA	CB	HB1	110.2	109.5
CA	CB	HB2	110.3	109.4
C	CA	HA	107.9	109.4
CA	C	O	115.0	120.0
CA	C	OXT	116.2	120.0
CG	CB	HB1	110.2	109.5
CG	CB	HB2	110.2	109.4
CB	CG	OG	114.1	109.6
CB	CG	HG1	110.5	109.5
CB	CG	HG2	110.5	109.5
HB1	CB	HB2	100.0	109.5
OG	CG	HG1	110.5	109.4
OG	CG	HG2	110.5	109.5
CG	OG	NZ	115.1	106.9
HG1	CG	HG2	99.8	109.4
OG	NZ	HNZ1	115.1	106.8
OG	NZ	HNZ2	110.1	106.6
HNZ1	NZ	HNZ2	110.2	106.7
O	C	OXT	121.8	120.0
C	OXT	HXT	116.2	120.0

Torsion Angles for CAN

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
HN1	N	CA	HN2	125.2	113.8
CB	CA	N	C	235.8	239.9
CB	CA	N	HA	117.7	120.1
N	CA	CB	CG	197.4	300.0
N	CA	CB	HB1	322.6	180.0
N	CA	CB	HB2	72.1	60.0
C	CA	N	HA	241.9	240.1
N	CA	C	O	125.0	329.9
N	CA	C	OXT	333.7	150.1
CA	N	HN1	HN2	234.8	246.1
HN1	N	CA	CB	180.0	53.8
HN1	N	CA	C	304.1	173.9
HN1	N	CA	HA	62.2	293.8
CA	N	HN2	HN1	124.8	113.8
HN2	N	CA	CB	54.8	300.0
HN2	N	CA	C	179.0	60.1
HN2	N	CA	HA	297.1	179.9
CB	CA	N	HN1	180.0	53.8
CB	CA	N	HN2	54.8	300.0
N	CA	CB	C	123.6	120.0
N	CA	CB	HA	241.6	239.9
C	CA	CB	HA	118.0	119.9
CB	CA	C	O	248.9	89.9
CB	CA	C	OXT	97.5	270.1
CG	CB	CA	HB1	234.8	120.0
CG	CB	CA	HB2	125.3	240.0
CA	CB	CG	OG	65.5	180.0
CA	CB	CG	HG1	190.8	60.0
CA	CB	CG	HG2	300.3	300.0
HB1	CB	CA	HB2	250.5	120.0
C	CA	N	HN1	304.1	173.9
C	CA	N	HN2	179.0	60.1
N	CA	C	CB	236.1	240.0
N	CA	C	HA	118.4	120.0
CB	CA	C	HA	242.3	240.0
C	CA	CB	CG	73.8	180.0
C	CA	CB	HB1	199.0	60.0
C	CA	CB	HB2	308.5	300.0
O	C	CA	OXT	151.4	179.8
CA	C	OXT	HXT	180.0	180.0
HA	CA	N	HN1	62.2	293.8
HA	CA	N	HN2	297.1	179.9
N	CA	HA	CB	120.0	120.0
N	CA	HA	C	240.3	240.1
CB	CA	HA	C	120.3	120.0
HA	CA	CB	CG	315.8	60.1
HA	CA	CB	HB1	81.0	300.0
HA	CA	CB	HB2	190.5	180.0
HA	CA	C	O	6.6	209.9
HA	CA	C	OXT	215.2	30.1
CG	CB	CA	C	73.8	180.0
CG	CB	CA	HA	315.8	60.1
CA	CB	CG	HB1	125.2	240.0
CA	CB	CG	HB2	234.7	120.0
HB1	CB	CG	HB2	109.5	240.0
OG	CG	CB	HG1	234.8	120.0
OG	CG	CB	HG2	125.2	240.0
CB	CG	OG	NZ	175.7	180.0
HG1	CG	CB	HG2	250.5	120.0
HB1	CB	CA	C	199.0	60.0
HB1	CB	CA	HA	81.0	300.0
CA	CB	HB1	CG	232.2	120.0
CA	CB	HB1	HB2	116.1	240.0
CG	CB	HB1	HB2	243.9	120.0
HB1	CB	CG	OG	300.3	300.0
HB1	CB	CG	HG1	65.5	180.0
HB1	CB	CG	HG2	175.1	60.0
HB2	CB	CA	C	308.5	300.0
HB2	CB	CA	HA	190.5	180.0
CA	CB	HB2	CG	127.9	240.0
CA	CB	HB2	HB1	243.9	120.0
CG	CB	HB2	HB1	116.1	240.0
HB2	CB	CG	OG	190.8	60.0
HB2	CB	CG	HG1	316.1	300.0
HB2	CB	CG	HG2	65.6	180.0
OG	CG	CB	HB1	300.3	300.0
OG	CG	CB	HB2	190.8	60.0
CB	CG	OG	HG1	125.3	240.0
CB	CG	OG	HG2	234.8	120.0
HG1	CG	OG	HG2	109.5	240.1
CG	OG	NZ	HNZ1	180.0	180.1
CG	OG	NZ	HNZ2	54.8	293.9
HG1	CG	CB	HB1	65.5	180.0
HG1	CG	CB	HB2	316.1	300.0
CB	CG	HG1	OG	232.7	120.1
CB	CG	HG1	HG2	116.4	240.0
OG	CG	HG1	HG2	243.7	120.0
HG1	CG	OG	NZ	50.4	300.0
HG2	CG	CB	HB1	175.1	60.0
HG2	CG	CB	HB2	65.6	180.0
CB	CG	HG2	OG	127.3	239.9
CB	CG	HG2	HG1	243.6	120.0
OG	CG	HG2	HG1	116.3	240.1
HG2	CG	OG	NZ	300.9	60.0
NZ	OG	CG	HG1	50.4	300.0
NZ	OG	CG	HG2	300.9	60.0
HNZ1	NZ	OG	HNZ2	125.3	246.2
OG	NZ	HNZ1	HNZ2	234.8	113.7
OG	NZ	HNZ2	HNZ1	128.0	246.2
O	C	CA	HA	6.6	209.9
CA	C	O	OXT	210.4	180.2
O	C	OXT	HXT	30.7	0.2
OXT	C	CA	HA	215.2	30.1
CA	C	OXT	O	149.3	179.8