PDB Chemical Component LTR

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 LTR

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N	CA	1.494	1.469
N	H	1.019	1.010
N	HN2	1.020	1.009
CA	C	1.532	1.507
CA	CB	1.537	1.529
CA	HA	1.115	1.090
C	O	1.262	1.208
C	OXT	1.267	1.342
CB	CG	1.500	1.507
CB	HB1	1.114	1.090
CB	HB2	1.115	1.089
CG	CD1	1.373	1.343
CG	CD2	1.435	1.464
CD1	NE1	1.393	1.369
CD1	HD1	1.104	1.079
CD2	CE2	1.420	1.407
CD2	CE3	1.394	1.396
NE1	CE2	1.377	1.377
NE1	HE1	1.021	0.969
CE2	CZ2	1.398	1.391
CE3	CZ3	1.386	1.366
CE3	HE3	1.103	1.080
CZ2	CH2	1.381	1.377
CZ2	HZ2	1.104	1.080
CZ3	CH2	1.425	1.388
CZ3	HZ3	1.102	1.080
CH2	HH2	1.102	1.080
OXT	HXT	0.951	0.967

Bond Angles for LTR

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
CA	N	H	109.1	106.7
CA	N	HN2	112.3	106.7
N	CA	C	109.1	109.4
N	CA	CB	107.9	109.5
N	CA	HA	112.0	109.5
H	N	HN2	112.4	106.7
C	CA	CB	113.0	109.5
C	CA	HA	106.8	109.4
CA	C	O	121.8	120.0
CA	C	OXT	116.5	120.0
CB	CA	HA	108.0	109.5
CA	CB	CG	114.8	109.4
CA	CB	HB1	110.3	109.5
CA	CB	HB2	110.2	109.5
O	C	OXT	121.6	120.0
C	OXT	HXT	116.5	120.0
CG	CB	HB1	110.3	109.5
CG	CB	HB2	110.3	109.5
CB	CG	CD1	124.9	126.5
CB	CG	CD2	127.7	126.5
HB1	CB	HB2	100.0	109.5
CD1	CG	CD2	107.4	107.0
CG	CD1	NE1	109.2	109.9
CG	CD1	HD1	124.8	125.1
CG	CD2	CE2	106.8	106.1
CG	CD2	CE3	134.0	134.0
NE1	CD1	HD1	126.0	125.0
CD1	NE1	CE2	109.0	109.9
CD1	NE1	HE1	125.9	125.1
CE2	CD2	CE3	119.2	119.9
CD2	CE2	NE1	107.7	107.1
CD2	CE2	CZ2	121.9	119.3
CD2	CE3	CZ3	119.7	119.8
CD2	CE3	HE3	120.4	120.1
CE2	NE1	HE1	125.1	125.1
NE1	CE2	CZ2	130.4	133.5
CE2	CZ2	CH2	117.6	119.8
CE2	CZ2	HZ2	121.8	120.1
CZ3	CE3	HE3	119.9	120.1
CE3	CZ3	CH2	120.0	120.5
CE3	CZ3	HZ3	118.6	119.8
CH2	CZ2	HZ2	120.6	120.1
CZ2	CH2	CZ3	121.6	120.6
CZ2	CH2	HH2	117.6	119.6
CH2	CZ3	HZ3	121.4	119.7
CZ3	CH2	HH2	120.8	119.7

Torsion Angles for LTR

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
H	N	CA	HN2	125.3	113.8
C	CA	N	CB	123.2	120.0
C	CA	N	HA	242.0	240.1
N	CA	C	O	318.6	330.0
N	CA	C	OXT	142.4	150.0
CB	CA	N	HA	118.8	120.0
N	CA	CB	CG	186.3	300.0
N	CA	CB	HB1	311.6	60.0
N	CA	CB	HB2	61.1	180.0
CA	N	H	HN2	234.7	246.2
H	N	CA	C	180.0	173.8
H	N	CA	CB	56.8	53.8
H	N	CA	HA	298.0	293.8
CA	N	HN2	H	123.5	113.8
HN2	N	CA	C	54.7	60.0
HN2	N	CA	CB	291.5	300.0
HN2	N	CA	HA	172.7	180.0
C	CA	N	H	180.0	173.8
C	CA	N	HN2	54.7	60.0
N	CA	C	CB	239.9	240.0
N	CA	C	HA	121.3	120.0
CB	CA	C	HA	241.3	240.0
C	CA	CB	CG	65.5	180.0
C	CA	CB	HB1	190.8	300.0
C	CA	CB	HB2	300.3	60.0
O	C	CA	OXT	176.1	180.0
CA	C	OXT	HXT	180.0	180.1
CB	CA	N	H	56.8	53.8
CB	CA	N	HN2	291.5	300.0
N	CA	CB	C	120.8	120.0
N	CA	CB	HA	238.7	240.0
C	CA	CB	HA	117.9	120.0
CB	CA	C	O	78.6	90.0
CB	CA	C	OXT	262.5	270.1
CG	CB	CA	HB1	234.7	240.0
CG	CB	CA	HB2	125.2	120.0
CA	CB	CG	CD1	265.0	90.0
CA	CB	CG	CD2	83.2	269.7
HB1	CB	CA	HB2	250.5	240.0
HA	CA	N	H	298.0	293.8
HA	CA	N	HN2	172.7	180.0
N	CA	HA	C	240.6	240.1
N	CA	HA	CB	118.7	120.1
C	CA	HA	CB	238.2	240.0
HA	CA	C	O	197.3	210.0
HA	CA	C	OXT	21.2	30.1
HA	CA	CB	CG	307.6	60.0
HA	CA	CB	HB1	72.9	180.0
HA	CA	CB	HB2	182.4	300.0
O	C	CA	CB	78.6	90.0
O	C	CA	HA	197.3	210.0
CA	C	O	OXT	184.1	180.0
O	C	OXT	HXT	3.9	0.1
OXT	C	CA	CB	262.5	270.1
OXT	C	CA	HA	21.2	30.1
CA	C	OXT	O	176.1	180.0
CG	CB	CA	HA	307.6	60.0
CA	CB	CG	HB1	125.3	120.0
CA	CB	CG	HB2	234.8	240.0
HB1	CB	CG	HB2	109.5	120.0
CD1	CG	CB	CD2	181.8	180.4
CB	CG	CD1	NE1	178.5	179.9
CB	CG	CD1	HD1	358.5	359.9
CB	CG	CD2	CE2	181.4	180.0
CB	CG	CD2	CE3	359.7	0.8
HB1	CB	CA	HA	72.9	180.0
CA	CB	HB1	CG	232.2	240.0
CA	CB	HB1	HB2	116.1	120.1
CG	CB	HB1	HB2	243.9	240.0
HB1	CB	CG	CD1	139.7	330.1
HB1	CB	CG	CD2	317.9	149.7
HB2	CB	CA	HA	182.4	300.0
CA	CB	HB2	CG	127.8	120.0
CA	CB	HB2	HB1	243.9	240.0
CG	CB	HB2	HB1	116.1	120.0
HB2	CB	CG	CD1	30.2	210.1
HB2	CB	CG	CD2	208.4	29.7
CD1	CG	CB	HB1	139.7	330.1
CD1	CG	CB	HB2	30.2	210.1
CB	CG	CD1	CD2	178.5	179.7
CD1	CG	CD2	CE2	359.8	359.6
CD1	CG	CD2	CE3	178.1	180.5
NE1	CD1	CG	HD1	180.0	180.0
CG	CD1	NE1	CE2	0.2	359.9
CG	CD1	NE1	HE1	180.3	180.0
CD2	CG	CB	HB1	317.9	149.7
CD2	CG	CB	HB2	208.4	29.7
CB	CG	CD2	CD1	181.6	180.3
CD2	CG	CD1	NE1	360.0	0.3
CD2	CG	CD1	HD1	180.0	180.3
CE2	CD2	CG	CE3	181.7	179.2
CG	CD2	CE2	NE1	0.3	0.3
CG	CD2	CE2	CZ2	180.9	180.2
CG	CD2	CE3	CZ3	179.6	179.6
CG	CD2	CE3	HE3	359.6	359.3
NE1	CD1	CG	CD2	360.0	0.3
CG	CD1	NE1	HD1	180.0	180.0
CD2	CE2	NE1	CD1	359.6	359.8
CE2	NE1	CD1	HE1	180.0	179.9
CD1	NE1	CE2	CZ2	179.0	180.0
HD1	CD1	CG	CD2	180.0	180.3
CG	CD1	HD1	NE1	180.0	180.0
HD1	CD1	NE1	CE2	180.2	179.9
HD1	CD1	NE1	HE1	0.3	0.0
CG	CD2	CE2	CE3	178.6	180.7
CD1	NE1	CE2	CD2	359.6	359.8
CE2	CD2	CE3	CZ3	357.7	0.6
CE2	CD2	CE3	HE3	177.7	180.2
CD2	CE2	NE1	HE1	179.6	179.7
NE1	CE2	CD2	CZ2	179.5	180.1
CD2	CE2	CZ2	CH2	358.8	0.2
CD2	CE2	CZ2	HZ2	178.8	180.1
CG	CD2	CE3	CE2	181.9	179.1
CE3	CD2	CE2	NE1	181.7	179.6
CE3	CD2	CE2	CZ2	2.3	359.5
CZ3	CE3	CD2	HE3	180.0	180.3
CD2	CE3	CZ3	CH2	1.3	359.7
CD2	CE3	CZ3	HZ3	181.3	179.7
CE2	NE1	CD1	HD1	180.2	179.9
CD1	NE1	CE2	HE1	180.0	180.1
NE1	CE2	CD2	CE3	181.7	179.6
CD2	CE2	NE1	CZ2	180.6	179.8
NE1	CE2	CZ2	CH2	179.5	180.0
NE1	CE2	CZ2	HZ2	359.5	360.0
HE1	NE1	CD1	HD1	0.3	0.0
CD1	NE1	HE1	CE2	180.0	179.9
HE1	NE1	CE2	CZ2	359.0	359.9
CZ2	CE2	CD2	CE3	2.3	359.5
CD2	CE2	CZ2	NE1	179.3	180.2
CZ2	CE2	NE1	HE1	359.0	359.9
CH2	CZ2	CE2	HZ2	180.0	180.1
CE2	CZ2	CH2	CZ3	0.2	0.0
CE2	CZ2	CH2	HH2	180.2	180.0
CD2	CE3	CZ3	HE3	180.0	179.7
CZ2	CH2	CZ3	CE3	359.7	0.0
CH2	CZ3	CE3	HZ3	180.0	180.0
CE3	CZ3	CH2	HH2	179.7	180.1
CD2	CE3	HE3	CZ3	180.0	180.3
HE3	CE3	CZ3	CH2	181.4	180.0
HE3	CE3	CZ3	HZ3	1.3	360.0
CE2	CZ2	CH2	HZ2	180.0	179.9
CE3	CZ3	CH2	CZ2	359.7	0.0
CZ2	CH2	CZ3	HZ3	179.7	180.0
CZ3	CH2	CZ2	HH2	180.0	180.1
CE2	CZ2	HZ2	CH2	180.0	180.1
HZ2	CZ2	CH2	CZ3	180.2	180.1
HZ2	CZ2	CH2	HH2	0.2	0.0
CH2	CZ3	CE3	HE3	181.4	180.0
CE3	CZ3	CH2	HZ3	180.0	180.0
CZ3	CH2	CZ2	HZ2	180.2	180.1
CZ2	CH2	CZ3	HH2	180.0	179.9
HZ3	CZ3	CE3	HE3	1.3	360.0
CE3	CZ3	HZ3	CH2	180.0	180.0
HZ3	CZ3	CH2	HH2	359.7	0.1
HH2	CH2	CZ2	HZ2	0.2	0.0
CZ2	CH2	HH2	CZ3	180.0	180.1
HH2	CH2	CZ3	HZ3	359.7	0.1