PDB Chemical Component FO1

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 FO1

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N1	C1	1.390	1.329
N1	C13	1.347	1.327
C1	O1	1.202	1.219
C1	N2	1.371	1.342
N2	C2	1.372	1.354
N2	HN3	1.001	0.970
C2	O2	1.220	1.216
C2	C3	1.496	1.471
C3	C4	1.281	1.382
C3	C13	1.393	1.466
C4	C5	1.391	1.413
C4	H21	1.080	1.080
C5	C6	1.391	1.406
C5	C12	1.395	1.411
C6	C7	1.365	1.362
C6	HC6	1.080	1.080
C7	C9	1.419	1.396
C7	HC7	1.080	1.080
C9	O10	1.557	1.356
C9	C11	1.355	1.384
O10	HC82	0.950	0.968
C11	C12	1.403	1.390
C11	HC9	1.080	1.081
C12	N3	1.375	1.380
N3	C13	1.337	1.362
N3	C14	1.513	1.465
C14	C15	1.541	1.530
C14	HC11	1.100	1.090
C14	HC12	1.100	1.090
C15	O3	1.455	1.429
C15	C16	1.502	1.530
C15	HC2'	1.100	1.090
O3	HO2'	0.950	0.967
C16	O4	1.399	1.429
C16	C17	1.466	1.530
C16	HC3'	1.099	1.090
O4	HO3'	0.950	0.967
C17	O5	1.409	1.430
C17	C18	1.586	1.531
C17	HC4'	1.100	1.090
O5	HO4'	0.950	0.966
C18	O6	1.425	1.429
C18	HC51	1.100	1.090
C18	HC52	1.100	1.090
O6	HO5'	0.950	0.967

Bond Angles for FO1

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C1	N1	C13	126.6	121.5
N1	C1	O1	126.0	118.0
N1	C1	N2	116.2	124.0
N1	C13	C3	119.2	118.4
N1	C13	N3	124.1	121.9
O1	C1	N2	117.8	118.0
C1	N2	C2	121.6	121.2
C1	N2	HN3	119.2	119.4
C2	N2	HN3	119.2	119.5
N2	C2	O2	124.3	121.4
N2	C2	C3	120.7	117.1
O2	C2	C3	114.9	121.5
C2	C3	C4	118.3	122.3
C2	C3	C13	115.7	117.8
C4	C3	C13	126.0	119.9
C3	C4	C5	115.3	118.8
C3	C4	H21	122.4	120.6
C3	C13	N3	116.7	119.7
C5	C4	H21	122.3	120.6
C4	C5	C6	117.4	120.0
C4	C5	C12	123.8	120.2
C6	C5	C12	118.8	119.8
C5	C6	C7	119.3	119.9
C5	C6	HC6	120.4	120.1
C5	C12	C11	123.5	119.4
C5	C12	N3	115.0	120.9
C7	C6	HC6	120.4	120.0
C6	C7	C9	119.9	120.5
C6	C7	HC7	120.0	119.7
C9	C7	HC7	120.0	119.7
C7	C9	O10	117.0	119.7
C7	C9	C11	123.2	120.5
O10	C9	C11	119.8	119.8
C9	O10	HC82	109.5	114.0
C9	C11	C12	115.3	119.9
C9	C11	HC9	122.4	120.0
C12	C11	HC9	122.4	120.1
C11	C12	N3	121.5	119.8
C12	N3	C13	123.1	120.4
C12	N3	C14	122.1	119.8
C13	N3	C14	114.8	119.8
N3	C14	C15	104.8	109.4
N3	C14	HC11	111.1	109.5
N3	C14	HC12	112.1	109.5
C15	C14	HC11	111.0	109.5
C15	C14	HC12	112.1	109.4
C14	C15	O3	111.0	109.5
C14	C15	C16	110.7	109.5
C14	C15	HC2'	105.9	109.5
HC11	C14	HC12	105.9	109.5
O3	C15	C16	103.5	109.5
O3	C15	HC2'	112.8	109.4
C15	O3	HO2'	109.5	114.0
C16	C15	HC2'	113.1	109.5
C15	C16	O4	103.4	109.4
C15	C16	C17	117.8	109.5
C15	C16	HC3'	109.8	109.5
O4	C16	C17	113.8	109.4
O4	C16	HC3'	114.2	109.5
C16	O4	HO3'	109.5	114.1
C17	C16	HC3'	98.4	109.5
C16	C17	O5	120.0	109.5
C16	C17	C18	104.6	109.5
C16	C17	HC4'	103.2	109.6
O5	C17	C18	99.0	109.4
O5	C17	HC4'	108.4	109.5
C17	O5	HO4'	109.5	114.0
C18	C17	HC4'	123.0	109.5
C17	C18	O6	98.5	109.5
C17	C18	HC51	113.3	109.4
C17	C18	HC52	115.5	109.5
O6	C18	HC51	113.3	109.5
O6	C18	HC52	115.5	109.5
C18	O6	HO5'	109.5	114.0
HC51	C18	HC52	101.4	109.5

Torsion Angles for FO1

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C1	N1	C13	C3	359.4	359.9
C1	N1	C13	N3	179.1	180.0
O1	C1	N1	N2	181.3	179.9
N1	C1	N2	C2	0.9	359.9
N1	C1	N2	HN3	180.9	180.0
C13	N1	C1	O1	181.3	180.0
C13	N1	C1	N2	359.9	0.1
C2	C3	C13	N1	0.5	0.0
C4	C3	C13	N1	181.4	180.1
C3	C13	N1	N3	180.3	179.9
C12	N3	C13	N1	182.4	179.9
N1	C13	N3	C14	1.5	0.0
O1	C1	N1	C13	181.3	180.0
N1	C1	O1	N2	178.6	180.1
O1	C1	N2	C2	179.7	180.0
O1	C1	N2	HN3	359.6	0.1
N2	C1	N1	C13	359.9	0.1
N1	C1	N2	O1	181.2	179.9
C2	N2	C1	HN3	180.0	179.9
C1	N2	C2	O2	177.6	180.0
C1	N2	C2	C3	359.0	0.0
C1	N2	C2	HN3	180.0	180.1
O2	C2	N2	C3	178.6	180.0
N2	C2	C3	C4	179.5	179.9
N2	C2	C3	C13	0.3	360.0
C1	N2	HN3	C2	180.0	179.9
HN3	N2	C2	O2	357.6	359.9
HN3	N2	C2	C3	179.0	180.0
O2	C2	N2	HN3	357.6	359.9
N2	C2	O2	C3	181.3	180.0
O2	C2	C3	C4	0.8	360.0
O2	C2	C3	C13	181.6	180.0
N1	C13	C3	C2	0.5	0.0
C3	C2	N2	HN3	179.0	180.0
N2	C2	C3	O2	178.7	180.0
C4	C3	C2	C13	179.2	180.0
C2	C3	C4	C5	176.7	180.0
C2	C3	C4	H21	356.7	0.1
C2	C3	C13	N3	180.7	180.0
N1	C13	C3	C4	181.4	180.1
C2	C3	C4	C13	180.9	180.0
C4	C3	C13	N3	1.6	0.0
C5	C4	C3	H21	180.0	179.9
C3	C4	C5	C6	183.7	180.0
C3	C4	C5	C12	3.6	0.0
N1	C13	C3	N3	179.7	180.1
C2	C3	C13	C4	179.1	180.0
C13	C3	C4	C5	355.8	360.0
C13	C3	C4	H21	175.8	180.0
C12	N3	C13	C3	2.1	0.0
C3	C13	N3	C14	181.2	180.1
C5	C4	C3	C13	355.8	360.0
C3	C4	C5	H21	180.0	180.1
C6	C5	C4	C12	180.1	180.0
C4	C5	C6	C7	179.4	180.0
C4	C5	C6	HC6	359.4	360.0
C4	C5	C12	C11	180.0	180.0
C4	C5	C12	N3	359.6	360.0
H21	C4	C3	C13	175.8	180.0
C3	C4	H21	C5	180.0	179.9
H21	C4	C5	C6	3.7	360.0
H21	C4	C5	C12	183.6	180.0
C6	C5	C4	H21	3.7	360.0
C4	C5	C6	C12	179.9	180.0
C6	C5	C12	C11	359.9	360.0
C6	C5	C12	N3	179.5	180.0
C7	C6	C5	HC6	180.0	180.1
C5	C6	C7	C9	1.2	360.0
C5	C6	C7	HC7	181.2	180.0
C12	C5	C4	H21	183.6	180.0
C4	C5	C12	C6	180.1	180.0
C12	C5	C6	C7	359.5	0.0
C12	C5	C6	HC6	179.5	180.0
C9	C11	C12	C5	0.1	360.0
C5	C12	C11	HC9	180.1	180.0
C11	C12	C5	N3	180.4	180.0
C5	C12	N3	C13	357.5	0.0
C5	C12	N3	C14	178.4	179.9
C7	C6	C5	C12	359.5	0.0
C5	C6	C7	HC6	180.0	179.9
C9	C7	C6	HC7	180.0	180.0
C6	C7	C9	O10	178.7	180.0
C6	C7	C9	C11	358.7	360.0
HC6	C6	C5	C12	179.5	180.0
C5	C6	HC6	C7	180.0	180.1
HC6	C6	C7	C9	181.2	180.1
HC6	C6	C7	HC7	1.2	0.1
C9	C7	C6	HC6	181.2	180.1
C6	C7	C9	HC7	180.0	180.0
O10	C9	C7	C11	180.0	180.0
C7	C9	O10	HC82	331.3	90.0
C7	C9	C11	C12	0.6	0.1
C7	C9	C11	HC9	180.6	180.0
HC7	C7	C6	HC6	1.2	0.1
C6	C7	HC7	C9	180.0	180.0
HC7	C7	C9	O10	358.7	360.0
HC7	C7	C9	C11	178.7	180.0
O10	C9	C7	HC7	358.7	360.0
C7	C9	O10	C11	180.0	180.0
O10	C9	C11	C12	180.6	180.0
O10	C9	C11	HC9	0.6	0.0
C5	C12	C11	C9	0.1	360.0
C11	C9	C7	HC7	178.7	180.0
C7	C9	C11	O10	180.0	180.0
C11	C9	O10	HC82	151.2	270.0
C12	C11	C9	HC9	180.0	180.0
C9	C11	C12	N3	180.5	180.0
HC82	O10	C9	C11	151.2	270.0
C5	C12	C11	N3	179.6	180.0
C9	C11	C12	HC9	180.0	180.0
C11	C12	N3	C13	177.1	180.0
C11	C12	N3	C14	358.0	359.9
C9	C11	HC9	C12	180.0	180.0
HC9	C11	C12	N3	0.5	0.0
N1	C13	N3	C12	182.4	179.9
C3	C13	N3	C12	2.1	0.0
C5	C12	N3	C11	180.4	180.0
N3	C12	C11	HC9	0.5	0.0
C13	N3	C12	C14	179.1	180.1
C12	N3	C14	C15	283.6	90.0
C12	N3	C14	HC11	43.5	210.0
C12	N3	C14	HC12	161.8	330.1
N1	C13	N3	C3	180.3	179.9
C12	N3	C13	C14	180.9	179.9
C13	N3	C14	C15	104.4	269.9
C13	N3	C14	HC11	224.4	29.9
C13	N3	C14	HC12	342.6	150.0
C12	N3	C14	C13	179.1	180.1
C15	C14	N3	HC11	240.0	240.0
C15	C14	N3	HC12	121.8	120.0
N3	C14	C15	O3	286.0	300.0
N3	C14	C15	C16	171.6	180.0
N3	C14	C15	HC2'	48.7	60.0
HC11	C14	N3	HC12	241.8	240.0
N3	C14	C15	HC11	120.0	120.0
N3	C14	C15	HC12	238.2	240.0
HC11	C14	C15	HC12	118.2	120.0
O3	C15	C14	C16	114.3	120.0
O3	C15	C14	HC2'	237.3	240.1
C14	C15	O3	HO2'	121.9	300.0
C16	C15	C14	HC2'	122.9	120.0
C14	C15	C16	O4	73.9	300.0
C14	C15	C16	C17	307.5	180.0
C14	C15	C16	HC3'	196.1	60.0
N3	C14	HC11	C15	243.8	240.0
N3	C14	HC11	HC12	121.9	120.1
C15	C14	HC11	HC12	238.1	240.0
HC11	C14	C15	O3	166.0	180.0
HC11	C14	C15	C16	51.6	60.0
HC11	C14	C15	HC2'	288.7	300.0
N3	C14	HC12	C15	117.5	120.0
N3	C14	HC12	HC11	238.7	240.0
C15	C14	HC12	HC11	121.2	120.0
HC12	C14	C15	O3	47.8	60.0
HC12	C14	C15	C16	293.4	300.0
HC12	C14	C15	HC2'	170.5	180.0
O3	C15	C14	HC11	166.0	180.0
O3	C15	C14	HC12	47.8	60.0
C14	C15	O3	C16	241.2	240.0
C14	C15	O3	HC2'	118.6	120.0
C16	C15	O3	HC2'	237.4	240.0
O3	C15	C16	O4	314.9	179.9
O3	C15	C16	C17	188.5	60.0
O3	C15	C16	HC3'	77.1	300.0
C16	C15	C14	HC11	51.6	60.0
C16	C15	C14	HC12	293.4	300.0
C14	C15	C16	O3	119.0	120.0
C14	C15	C16	HC2'	241.4	240.0
O3	C15	C16	HC2'	122.4	120.0
C16	C15	O3	HO2'	240.7	60.0
O4	C16	C15	C17	126.4	119.9
O4	C16	C15	HC3'	237.8	239.9
C15	C16	O4	HO3'	90.0	300.0
C17	C16	C15	HC3'	111.4	120.0
C15	C16	C17	O5	321.2	299.9
C15	C16	C17	C18	211.5	180.0
C15	C16	C17	HC4'	81.8	60.0
HC2'	C15	C14	HC11	288.7	300.0
HC2'	C15	C14	HC12	170.5	180.0
C14	C15	HC2'	O3	238.4	240.0
C14	C15	HC2'	C16	121.4	120.0
O3	C15	HC2'	C16	243.0	240.0
HC2'	C15	O3	HO2'	3.3	180.0
HC2'	C15	C16	O4	192.5	60.0
HC2'	C15	C16	C17	66.1	300.1
HC2'	C15	C16	HC3'	314.7	180.0
HO2'	O3	C15	C16	240.7	60.0
HO2'	O3	C15	HC2'	3.3	180.0
O4	C16	C15	HC2'	192.5	60.0
C15	C16	O4	C17	231.1	240.1
C15	C16	O4	HC3'	119.2	120.0
C17	C16	O4	HC3'	248.1	240.0
O4	C16	C17	O5	200.0	180.0
O4	C16	C17	C18	90.3	60.1
O4	C16	C17	HC4'	320.6	300.0
C17	C16	C15	HC2'	66.1	300.1
C15	C16	C17	O4	121.2	119.9
C15	C16	C17	HC3'	242.3	240.0
O4	C16	C17	HC3'	121.2	120.0
C17	C16	O4	HO3'	219.0	60.0
O5	C17	C16	C18	109.7	119.9
O5	C17	C16	HC4'	239.4	240.0
C16	C17	O5	HO4'	136.6	300.1
C18	C17	C16	HC4'	129.7	120.0
C16	C17	C18	O6	265.4	185.0
C16	C17	C18	HC51	25.4	304.9
C16	C17	C18	HC52	141.7	65.0
HC3'	C16	C15	HC2'	314.7	180.0
C15	C16	HC3'	O4	244.5	240.0
C15	C16	HC3'	C17	123.7	120.0
O4	C16	HC3'	C17	239.2	240.0
HC3'	C16	O4	HO3'	330.8	180.0
HC3'	C16	C17	O5	78.9	60.0
HC3'	C16	C17	C18	329.2	300.0
HC3'	C16	C17	HC4'	199.5	180.0
HO3'	O4	C16	C17	219.0	60.0
HO3'	O4	C16	HC3'	330.8	180.0
O5	C17	C16	HC3'	78.9	60.0
C16	C17	O5	C18	247.3	240.0
C16	C17	O5	HC4'	118.0	120.1
C18	C17	O5	HC4'	230.7	240.1
O5	C17	C18	O6	141.1	65.0
O5	C17	C18	HC51	261.1	185.0
O5	C17	C18	HC52	17.4	305.0
C18	C17	C16	HC3'	329.2	300.0
C16	C17	C18	O5	124.3	120.0
C16	C17	C18	HC4'	243.3	239.9
O5	C17	C18	HC4'	118.9	119.9
C18	C17	O5	HO4'	249.3	60.0
O6	C18	C17	HC51	240.0	240.0
O6	C18	C17	HC52	123.7	120.0
C17	C18	O6	HO5'	119.0	180.0
HC51	C18	C17	HC52	243.7	240.0
HC4'	C17	C16	HC3'	199.5	180.0
C16	C17	HC4'	O5	231.8	240.0
C16	C17	HC4'	C18	117.4	120.1
O5	C17	HC4'	C18	245.6	240.1
HC4'	C17	O5	HO4'	18.6	180.0
HC4'	C17	C18	O6	22.1	305.1
HC4'	C17	C18	HC51	142.1	65.0
HC4'	C17	C18	HC52	258.5	185.1
HO4'	O5	C17	C18	249.3	60.0
HO4'	O5	C17	HC4'	18.6	180.0
O6	C18	C17	HC4'	22.1	305.1
C17	C18	O6	HC51	120.0	120.0
C17	C18	O6	HC52	236.4	240.0
HC51	C18	O6	HC52	116.3	120.1
HC51	C18	C17	HC4'	142.1	65.0
C17	C18	HC51	O6	248.9	240.0
C17	C18	HC51	HC52	124.4	120.0
O6	C18	HC51	HC52	235.6	240.0
HC51	C18	O6	HO5'	359.0	60.0
HC52	C18	C17	HC4'	258.5	185.1
C17	C18	HC52	O6	114.2	120.0
C17	C18	HC52	HC51	237.1	240.0
O6	C18	HC52	HC51	122.9	120.0
HC52	C18	O6	HO5'	242.7	300.0
HO5'	O6	C18	HC51	359.0	60.0
HO5'	O6	C18	HC52	242.7	300.0