PDB Chemical Component KCR

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 KCR

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
CH3	CY	1.501	1.507
CY	CX	1.373	1.330
CX	CH	1.510	1.471
OH	CH	1.262	1.216
CH	NZ	1.325	1.347
NZ	CE	1.477	1.465
CE	CD	1.517	1.531
CG	CD	1.480	1.530
CG	CB	1.502	1.529
CB	CA	1.554	1.530
N	CA	1.456	1.469
CA	C	1.531	1.507
O	C	1.240	1.209
C	OXT	1.340	1.342
N	H	1.000	1.009
N	H2	1.000	1.009
CA	HA	1.100	1.089
CB	H5	1.100	1.090
CB	H6	1.100	1.091
CG	H7	1.100	1.090
CG	H8	1.100	1.090
CD	H9	1.099	1.090
CD	H10	1.100	1.090
CE	H11	1.100	1.090
CE	H12	1.100	1.090
NZ	H13	1.000	0.970
CX	H14	1.080	1.080
CY	H15	1.080	1.080
CH3	H16	1.100	1.090
CH3	H17	1.100	1.090
CH3	H18	1.100	1.090
OXT	HXT	0.949	0.967

Bond Angles for KCR

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
CH3	CY	H15	115.8	120.0
CY	CX	H14	119.4	120.0
CH	NZ	H13	119.5	120.0
NZ	CE	H11	110.5	109.5
NZ	CE	H12	110.5	109.5
CE	CD	H9	109.4	109.5
CE	CD	H10	109.4	109.4
CD	CG	H7	110.2	109.5
CD	CG	H8	110.2	109.4
CG	CD	H9	109.4	109.5
CG	CD	H10	109.4	109.5
CG	CB	H5	107.8	109.5
CG	CB	H6	107.9	109.5
CB	CA	C	115.9	109.5
CB	CA	HA	105.5	109.5
N	CA	C	113.9	109.5
CA	N	H	109.5	111.0
CA	N	H2	109.5	111.0
N	CA	HA	106.6	109.5
CA	C	OXT	115.8	120.0
C	CA	HA	105.7	109.5
O	C	OXT	124.1	120.0
C	OXT	HXT	109.5	117.0
H	N	H2	109.5	111.0
H5	CB	H6	109.4	109.4
H7	CG	H8	109.5	109.5
H9	CD	H10	109.5	109.5
H11	CE	H12	109.5	109.5
H16	CH3	H17	109.5	109.5
H16	CH3	H18	109.5	109.4
H17	CH3	H18	109.4	109.5

Torsion Angles for KCR

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
CH3	CY	CX	H14	355.0	360.0
CX	CH	NZ	H13	352.8	0.0
OH	CH	NZ	H13	175.9	180.0
CH	NZ	CE	H11	318.6	60.0
CH	NZ	CE	H12	79.9	299.9
NZ	CE	CD	H9	187.9	60.0
NZ	CE	CD	H10	307.9	300.0
H11	CE	NZ	H12	238.7	120.1
CE	CD	CG	H7	294.0	60.0
CE	CD	CG	H8	54.9	300.0
CG	CD	CE	H9	240.0	120.0
CG	CD	CE	H10	120.1	240.0
H9	CD	CE	H10	240.1	120.0
CE	CD	CG	H9	120.1	240.0
CE	CD	CG	H10	239.9	119.9
CD	CG	CB	H5	56.3	60.0
CD	CG	CB	H6	174.4	300.0
H7	CG	CD	H8	239.1	120.0
H9	CD	CG	H10	119.9	239.9
CG	CB	CA	C	180.3	175.0
CG	CB	CA	HA	63.7	55.0
H5	CB	CG	H6	241.9	120.0
N	CA	CB	C	129.6	120.0
CB	CA	N	H	180.0	300.0
CB	CA	N	H2	300.0	63.9
N	CA	CB	HA	246.1	240.0
CB	CA	C	OXT	272.4	280.0
C	CA	CB	HA	116.6	120.0
CB	CA	N	C	229.3	240.0
CB	CA	N	HA	113.1	120.0
N	CA	C	OXT	145.5	160.0
C	CA	N	HA	243.8	240.0
H	N	CA	H2	240.0	236.1
CB	CA	C	HA	243.6	240.0
C	CA	N	H	310.7	60.0
C	CA	N	H2	70.7	183.9
N	CA	C	HA	116.7	120.0
O	C	CA	OXT	185.8	180.0
CA	C	OXT	HXT	186.0	180.0
CA	C	O	OXT	173.7	180.0
O	C	CA	HA	214.6	220.0
O	C	OXT	HXT	360.0	360.0
OXT	C	CA	HA	28.8	40.0
H	N	CA	C	310.7	60.0
CA	N	H	H2	120.0	123.9
H	N	CA	HA	66.9	180.0
H2	N	CA	C	70.7	183.9
CA	N	H2	H	239.9	236.1
H2	N	CA	HA	186.9	303.9
CB	CA	HA	C	123.3	120.0
N	CA	HA	C	238.5	240.0
HA	CA	N	H	66.9	180.0
HA	CA	N	H2	186.9	303.9
HA	CA	C	OXT	28.8	40.0
CG	CB	H5	H6	117.1	240.0
H5	CB	CA	C	59.4	295.0
H5	CB	CA	HA	302.8	175.0
CG	CB	H6	H5	242.9	120.0
H6	CB	CA	C	301.3	55.0
H6	CB	CA	HA	184.7	295.0
CD	CG	H7	H8	121.3	240.0
H7	CG	CD	H9	173.9	180.0
H7	CG	CD	H10	54.0	300.0
H7	CG	CB	H5	296.7	180.0
H7	CG	CB	H6	54.8	60.0
CD	CG	H8	H7	238.6	120.0
H8	CG	CD	H9	294.9	60.0
H8	CG	CD	H10	175.0	180.1
H8	CG	CB	H5	175.8	300.0
H8	CG	CB	H6	293.9	180.0
CE	CD	H9	H10	119.9	240.1
H9	CD	CG	H7	173.9	180.0
H9	CD	CG	H8	294.9	60.0
CG	CD	H9	H10	240.2	120.0
CE	CD	H10	H9	240.1	120.0
H10	CD	CG	H7	54.0	300.0
H10	CD	CG	H8	175.0	180.1
CG	CD	H10	H9	119.8	239.9
NZ	CE	H11	H12	121.9	240.0
H11	CE	CD	H9	68.6	180.0
H11	CE	CD	H10	188.5	60.0
NZ	CE	H12	H11	238.1	120.0
H12	CE	CD	H9	307.3	300.0
H12	CE	CD	H10	67.2	180.0
H13	NZ	CE	H11	138.6	240.0
H13	NZ	CE	H12	259.9	120.0
H15	CY	CX	H14	175.0	179.9
H16	CH3	CY	H15	0.0	120.0
H17	CH3	H16	H18	120.0	120.0
H17	CH3	CY	H15	120.0	240.0
H16	CH3	H17	H18	240.0	240.0
H18	CH3	CY	H15	240.0	0.1
H16	CH3	H18	H17	120.0	120.0