PDB Chemical Component 2LP

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 2LP

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C1	C2	1.387	1.386
C1	C3	1.394	1.381
C1	C4	1.508	1.506
C2	C5	1.399	1.388
C2	O6	1.394	1.358
C3	C7	1.393	1.382
C3	HC3	1.103	1.080
C4	C13	1.504	1.506
C4	HC41	1.115	1.090
C4	HC42	1.115	1.090
C5	C8	1.397	1.380
C5	HC5	1.103	1.080
O6	HO6	0.950	0.967
C7	C8	1.397	1.383
C7	HC7	1.103	1.080
C8	HC8	1.103	1.079
C13	C14	1.337	1.310
C13	H13	1.103	1.080
C14	H141	1.103	1.081
C14	H142	1.103	1.079

Bond Angles for 2LP

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C2	C1	C3	121.3	120.0
C2	C1	C4	117.4	120.0
C1	C2	C5	119.2	119.8
C1	C2	O6	114.7	120.1
C3	C1	C4	121.2	120.0
C1	C3	C7	119.3	120.0
C1	C3	HC3	120.4	120.0
C1	C4	C13	110.1	109.5
C1	C4	HC41	112.0	109.5
C1	C4	HC42	112.0	109.5
C5	C2	O6	126.0	120.0
C2	C5	C8	120.0	120.0
C2	C5	HC5	120.1	120.0
C2	O6	HO6	114.7	106.8
C7	C3	HC3	120.3	119.9
C3	C7	C8	120.0	120.1
C3	C7	HC7	119.9	120.0
C13	C4	HC41	112.0	109.4
C13	C4	HC42	112.0	109.4
C4	C13	C14	119.4	120.0
C4	C13	H13	126.0	120.0
HC41	C4	HC42	98.4	109.5
C8	C5	HC5	120.0	120.0
C5	C8	C7	120.1	120.0
C5	C8	HC8	119.9	120.0
C8	C7	HC7	120.1	119.9
C7	C8	HC8	119.9	120.0
C14	C13	H13	114.6	120.0
C13	C14	H141	119.4	120.0
C13	C14	H142	114.5	120.0
H141	C14	H142	126.1	120.0

Torsion Angles for 2LP

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C3	C1	C2	C4	177.9	179.4
C2	C1	C3	C7	359.5	0.5
C2	C1	C3	HC3	179.5	180.3
C2	C1	C4	C13	289.3	269.4
C2	C1	C4	HC41	164.0	29.4
C2	C1	C4	HC42	54.6	149.4
C5	C2	C1	O6	178.0	179.9
C1	C2	C5	C8	359.4	0.2
C1	C2	C5	HC5	179.5	180.2
C1	C2	O6	HO6	180.0	269.8
C2	C1	C3	C4	182.2	180.6
C3	C1	C2	C5	359.9	359.5
C3	C1	C2	O6	181.8	179.7
C3	C1	C4	C13	111.4	90.0
C3	C1	C4	HC41	346.1	210.0
C3	C1	C4	HC42	236.7	330.0
C7	C3	C1	HC3	180.0	180.3
C1	C3	C7	C8	1.9	359.7
C1	C3	C7	HC7	181.9	179.7
C2	C1	C4	C3	177.9	179.4
C4	C1	C2	C5	182.0	180.1
C4	C1	C2	O6	4.0	0.2
C4	C1	C3	C7	177.3	180.0
C4	C1	C3	HC3	357.3	359.7
C13	C4	C1	HC41	125.3	240.0
C13	C4	C1	HC42	234.7	120.0
C1	C4	C13	C14	191.0	119.9
C1	C4	C13	H13	11.0	300.0
HC41	C4	C1	HC42	109.4	240.0
C5	C2	C1	C3	359.9	359.5
C5	C2	C1	C4	182.0	180.1
C1	C2	C5	O6	182.2	180.1
C5	C2	O6	HO6	2.1	89.9
C8	C5	C2	HC5	180.0	179.9
C2	C5	C8	C7	1.9	0.1
C2	C5	C8	HC8	181.9	180.1
O6	C2	C1	C3	181.8	179.7
O6	C2	C1	C4	4.0	0.2
C1	C2	O6	C5	177.9	179.9
O6	C2	C5	C8	177.2	180.0
O6	C2	C5	HC5	357.3	0.1
C7	C3	C1	C4	177.3	180.0
C1	C3	C7	HC3	180.0	179.7
C5	C8	C7	C3	357.4	360.0
C8	C7	C3	HC7	180.0	180.0
C3	C7	C8	HC8	177.4	179.9
HC3	C3	C1	C4	357.3	359.7
C1	C3	HC3	C7	180.0	180.3
HC3	C3	C7	C8	181.9	180.0
HC3	C3	C7	HC7	1.9	360.0
C1	C4	C13	HC41	234.7	120.0
C1	C4	C13	HC42	125.3	239.9
HC41	C4	C13	HC42	250.5	119.9
C14	C13	C4	H13	180.0	179.9
C4	C13	C14	H141	180.0	180.1
C4	C13	C14	H142	360.0	0.0
C1	C4	HC41	C13	124.2	240.0
C1	C4	HC41	HC42	242.1	120.1
C13	C4	HC41	HC42	117.9	240.1
HC41	C4	C13	C14	316.2	359.9
HC41	C4	C13	H13	136.3	180.0
C1	C4	HC42	C13	235.8	120.1
C1	C4	HC42	HC41	117.9	240.0
C13	C4	HC42	HC41	242.1	119.9
HC42	C4	C13	C14	65.7	240.0
HC42	C4	C13	H13	245.7	60.1
C8	C5	C2	O6	177.2	180.0
C2	C5	C8	HC5	180.0	180.1
C3	C7	C8	C5	357.4	360.0
C5	C8	C7	HC7	177.4	180.0
C7	C8	C5	HC8	180.0	180.0
HC5	C5	C2	O6	357.3	0.1
C2	C5	HC5	C8	180.0	179.9
HC5	C5	C8	C7	181.9	180.0
HC5	C5	C8	HC8	1.9	0.1
C8	C7	C3	HC3	181.9	180.0
C3	C7	C8	HC7	180.0	180.0
C7	C8	C5	HC5	181.9	180.0
C5	C8	C7	HC8	180.0	180.0
HC7	C7	C3	HC3	1.9	360.0
C3	C7	HC7	C8	180.0	180.0
HC7	C7	C8	HC8	357.4	359.9
HC8	C8	C5	HC5	1.9	0.1
C5	C8	HC8	C7	180.0	180.0
HC8	C8	C7	HC7	357.4	359.9
C14	C13	C4	HC41	316.2	359.9
C14	C13	C4	HC42	65.7	240.0
C4	C13	C14	H13	180.0	180.1
H141	C14	C13	H142	180.0	180.0
H13	C13	C4	HC41	136.3	180.0
H13	C13	C4	HC42	245.7	60.1
C4	C13	H13	C14	180.0	179.9
H13	C13	C14	H141	360.0	360.0
H13	C13	C14	H142	179.9	180.0
H141	C14	C13	H13	360.0	360.0
C13	C14	H141	H142	179.9	180.0
H142	C14	C13	H13	179.9	180.0
C13	C14	H142	H141	180.1	180.0