PDB Chemical Component 2NI

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 2NI

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C1	C2	1.429	1.379
C1	C6	1.437	1.395
C1	H1	1.103	1.080
C2	C3	1.442	1.389
C2	H2	1.103	1.080
C3	C4	1.440	1.388
C3	O1	1.456	1.358
C4	C5	1.434	1.379
C4	H4	1.103	1.080
C5	C6	1.443	1.395
C5	H5	1.103	1.080
C6	C7	1.517	1.482
C7	C8	1.447	1.395
C7	C12	1.451	1.395
C8	C9	1.432	1.376
C8	H8	1.103	1.080
C9	C10	1.434	1.398
C9	H9	1.102	1.080
C10	C11	1.429	1.398
C10	C13	1.465	1.432
C11	C12	1.428	1.376
C11	H11	1.103	1.080
C12	H12	1.103	1.080
C13	N1	1.150	1.136
O1	C14	1.453	1.428
C14	C15	1.530	1.530
C14	H141	1.115	1.090
C14	H142	1.115	1.090
C15	N2	1.551	1.465
C15	H151	1.115	1.090
C15	H152	1.115	1.091
N2	C16	1.499	1.465
N2	C17	1.479	1.348
C16	H161	1.115	1.091
C16	H162	1.115	1.090
C16	H163	1.115	1.089
C17	O2	1.245	1.216
C17	N3	1.437	1.348
N3	O3	1.471	1.416
N3	HN3	1.020	0.970
O3	HO3	0.950	0.967

Bond Angles for 2NI

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C2	C1	C6	121.4	119.9
C2	C1	H1	119.0	120.1
C1	C2	C3	120.7	120.1
C1	C2	H2	119.2	120.0
C6	C1	H1	119.6	120.0
C1	C6	C5	118.1	119.9
C1	C6	C7	120.9	120.1
C3	C2	H2	120.1	120.0
C2	C3	C4	118.1	120.2
C2	C3	O1	120.7	119.9
C4	C3	O1	121.2	120.0
C3	C4	C5	121.1	120.1
C3	C4	H4	119.7	119.9
C3	O1	C14	115.1	106.8
C5	C4	H4	119.2	120.0
C4	C5	C6	120.6	119.9
C4	C5	H5	119.4	120.0
C6	C5	H5	120.0	120.1
C5	C6	C7	121.0	120.1
C6	C7	C8	120.8	119.9
C6	C7	C12	121.1	120.0
C8	C7	C12	118.1	120.1
C7	C8	C9	120.8	120.0
C7	C8	H8	120.1	120.0
C7	C12	C11	120.9	120.0
C7	C12	H12	120.4	120.0
C9	C8	H8	119.1	120.0
C8	C9	C10	119.9	120.0
C8	C9	H9	119.9	120.0
C10	C9	H9	120.1	120.0
C9	C10	C11	120.2	119.9
C9	C10	C13	119.6	120.0
C11	C10	C13	120.2	120.0
C10	C11	C12	120.0	120.0
C10	C11	H11	120.0	120.0
C10	C13	N1	178.5	180.0
C12	C11	H11	119.9	120.0
C11	C12	H12	118.7	120.0
O1	C14	C15	114.3	109.5
O1	C14	H141	110.5	109.5
O1	C14	H142	110.4	109.5
C15	C14	H141	110.4	109.4
C15	C14	H142	110.4	109.4
C14	C15	N2	110.9	109.5
C14	C15	H151	111.7	109.5
C14	C15	H152	111.7	109.5
H141	C14	H142	99.8	109.4
N2	C15	H151	111.7	109.5
N2	C15	H152	111.7	109.4
C15	N2	C16	105.6	120.0
C15	N2	C17	105.5	120.0
H151	C15	H152	98.7	109.5
C16	N2	C17	113.8	120.0
N2	C16	H161	113.7	109.5
N2	C16	H162	105.6	109.5
N2	C16	H163	113.7	109.5
N2	C17	O2	116.6	120.0
N2	C17	N3	122.7	120.0
H161	C16	H162	113.7	109.4
H161	C16	H163	96.8	109.4
H162	C16	H163	113.6	109.5
O2	C17	N3	120.8	120.0
C17	N3	O3	122.7	120.0
C17	N3	HN3	117.4	120.0
O3	N3	HN3	119.9	120.0
N3	O3	HO3	122.6	106.7

Torsion Angles for 2NI

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C6	C1	C2	H1	180.0	180.2
C2	C1	C6	C5	359.7	359.7
C2	C1	C6	C7	179.2	179.8
C3	C2	C1	H2	180.0	180.4
C1	C2	C3	C4	0.1	359.5
C1	C2	C3	O1	180.6	179.8
C2	C1	C6	H1	180.0	179.8
C6	C1	C2	C3	0.2	0.5
C6	C1	C2	H2	180.1	180.0
C4	C5	C6	C1	0.2	0.0
C1	C6	C5	H5	180.2	180.0
C5	C6	C1	C7	180.5	179.9
C1	C6	C7	C8	190.6	320.2
C1	C6	C7	C12	10.0	139.9
C2	C1	H1	C6	180.0	180.2
H1	C1	C2	C3	180.1	180.3
H1	C1	C2	H2	0.1	359.8
H1	C1	C6	C5	179.7	179.9
H1	C1	C6	C7	359.2	0.0
C3	C2	C1	C6	0.2	0.5
C3	C2	C1	H1	180.1	180.3
C1	C2	C3	H2	180.0	179.6
C4	C3	C2	O1	179.5	179.8
C2	C3	C4	C5	359.8	0.2
C2	C3	C4	H4	179.7	180.3
C2	C3	O1	C14	328.8	359.7
H2	C2	C1	C6	180.1	180.0
H2	C2	C1	H1	0.1	359.8
C1	C2	H2	C3	180.0	180.4
H2	C2	C3	C4	180.1	180.0
H2	C2	C3	O1	0.7	0.2
C4	C3	C2	H2	180.1	180.0
C2	C3	C4	O1	180.5	180.2
C4	C3	O1	C14	149.4	180.0
C5	C4	C3	H4	180.0	180.0
C3	C4	C5	C6	0.1	360.0
C3	C4	C5	H5	180.1	180.0
O1	C3	C2	H2	0.7	0.2
C2	C3	O1	C4	179.4	179.8
O1	C3	C4	C5	179.2	180.0
O1	C3	C4	H4	359.2	0.0
C3	O1	C14	C15	258.4	180.0
C3	O1	C14	H141	133.1	60.0
C3	O1	C14	H142	23.7	300.0
C1	C6	C5	C4	0.2	0.0
C5	C4	C3	O1	179.2	180.0
C3	C4	C5	H4	180.0	180.0
C6	C5	C4	H5	180.0	180.0
C4	C5	C6	C7	180.7	180.0
H4	C4	C3	O1	359.2	0.0
C3	C4	H4	C5	180.0	180.0
H4	C4	C5	C6	180.1	179.9
H4	C4	C5	H5	0.1	360.0
C5	C6	C1	H1	179.7	179.9
C1	C6	C5	C7	179.5	180.1
C6	C5	C4	H4	180.1	179.9
C4	C5	C6	H5	180.0	180.0
C5	C6	C7	C8	10.0	140.3
C5	C6	C7	C12	189.4	320.0
H5	C5	C4	H4	0.1	360.0
C4	C5	H5	C6	180.0	180.0
H5	C5	C6	C7	0.7	359.9
C7	C6	C1	H1	359.2	0.0
C1	C6	C7	C5	180.5	179.9
C7	C6	C5	H5	0.7	359.9
C8	C7	C6	C12	180.6	180.3
C6	C7	C8	C9	179.1	180.0
C6	C7	C8	H8	359.1	360.0
C6	C7	C12	C11	180.8	179.7
C6	C7	C12	H12	0.8	0.3
C6	C7	C8	C12	179.4	179.7
C8	C7	C12	C11	0.2	359.4
C8	C7	C12	H12	180.2	180.0
C9	C8	C7	H8	180.0	180.1
C7	C8	C9	C10	0.0	360.0
C7	C8	C9	H9	180.0	179.9
C6	C7	C12	C8	180.6	180.3
C12	C7	C8	C9	359.7	0.3
C12	C7	C8	H8	179.7	180.3
C10	C11	C12	C7	0.1	0.5
C7	C12	C11	H11	180.1	180.3
C11	C12	C7	H12	180.0	179.5
C9	C8	C7	C12	359.7	0.3
C7	C8	C9	H8	180.0	179.9
C10	C9	C8	H9	180.0	180.0
C8	C9	C10	C11	0.2	359.9
C8	C9	C10	C13	180.5	180.0
H8	C8	C7	C12	179.7	180.3
C7	C8	H8	C9	180.0	180.1
H8	C8	C9	C10	180.1	180.0
H8	C8	C9	H9	0.0	0.0
C10	C9	C8	H8	180.1	180.0
C8	C9	C10	H9	180.0	180.0
C11	C10	C9	C13	179.7	179.9
C9	C10	C11	C12	359.7	359.8
C9	C10	C11	H11	179.7	180.0
C9	C10	C13	N1	83.2	111.4
H9	C9	C8	H8	0.0	0.0
C8	C9	H9	C10	180.0	180.0
H9	C9	C10	C11	180.2	180.0
H9	C9	C10	C13	0.5	0.0
C7	C12	C11	C10	0.1	0.5
C11	C10	C9	H9	180.2	180.0
C9	C10	C11	C13	180.3	180.1
C11	C10	C13	N1	263.5	291.4
C12	C11	C10	H11	180.0	179.8
C10	C11	C12	H12	180.1	179.9
C13	C10	C9	H9	0.5	0.0
C9	C10	C13	C11	179.7	179.9
C13	C10	C11	C12	179.5	179.8
C13	C10	C11	H11	359.4	360.0
C7	C12	C11	H12	180.0	180.5
C12	C11	C10	C13	179.5	179.8
C10	C11	C12	H11	180.0	180.2
H11	C11	C10	C13	359.4	360.0
C10	C11	H11	C12	180.0	179.8
H11	C11	C12	H12	0.1	359.8
C7	C12	H12	C11	180.0	179.5
H12	C12	C11	H11	0.1	359.8
C15	C14	O1	H141	125.3	120.0
C15	C14	O1	H142	234.8	240.0
O1	C14	C15	N2	160.4	65.0
O1	C14	C15	H151	35.1	305.0
O1	C14	C15	H152	285.6	185.0
H141	C14	O1	H142	109.5	120.0
O1	C14	C15	H141	234.7	240.0
O1	C14	C15	H142	125.2	120.1
H141	C14	C15	H142	250.5	240.1
N2	C15	C14	H151	125.3	120.0
N2	C15	C14	H152	234.7	240.1
C14	C15	N2	C16	108.5	90.0
C14	C15	N2	C17	229.3	270.0
H151	C15	C14	H152	109.4	120.0
O1	C14	H141	C15	127.4	120.0
O1	C14	H141	H142	243.7	239.9
C15	C14	H141	H142	116.3	119.9
H141	C14	C15	N2	285.6	185.1
H141	C14	C15	H151	160.4	65.0
H141	C14	C15	H152	50.9	305.0
O1	C14	H142	C15	232.6	240.0
O1	C14	H142	H141	116.3	120.1
C15	C14	H142	H141	243.7	240.1
H142	C14	C15	N2	35.1	305.0
H142	C14	C15	H151	269.8	184.9
H142	C14	C15	H152	160.4	64.9
N2	C15	C14	H141	285.6	185.1
N2	C15	C14	H142	35.1	305.0
C14	C15	N2	H151	234.7	240.0
C14	C15	N2	H152	125.3	120.0
H151	C15	N2	H152	250.6	240.0
C16	N2	C15	C17	239.2	180.0
C15	N2	C16	H161	54.7	177.2
C15	N2	C16	H162	180.0	297.2
C15	N2	C16	H163	305.3	57.2
C15	N2	C17	O2	197.7	174.5
C15	N2	C17	N3	18.2	354.5
H151	C15	C14	H141	160.4	65.0
H151	C15	C14	H142	269.8	184.9
C14	C15	H151	N2	124.8	120.0
C14	C15	H151	H152	242.4	240.0
N2	C15	H151	H152	117.6	119.9
H151	C15	N2	C16	233.8	210.0
H151	C15	N2	C17	354.6	30.0
H152	C15	C14	H141	50.9	305.0
H152	C15	C14	H142	160.4	64.9
C14	C15	H152	N2	235.2	240.0
C14	C15	H152	H151	117.6	120.0
N2	C15	H152	H151	242.4	240.0
H152	C15	N2	C16	343.2	330.0
H152	C15	N2	C17	104.0	150.0
C16	N2	C15	H151	233.8	210.0
C16	N2	C15	H152	343.2	330.0
C15	N2	C16	C17	115.2	180.0
C16	N2	C17	O2	313.0	354.6
C16	N2	C17	N3	133.5	174.6
H161	C16	N2	H162	234.7	240.0
H161	C16	N2	H163	109.5	120.0
H162	C16	N2	H163	234.8	239.9
C17	N2	C15	H151	354.6	30.0
C17	N2	C15	H152	104.0	150.0
C15	N2	C17	C16	244.7	180.0
C17	N2	C16	H161	299.5	357.2
C17	N2	C16	H162	64.8	117.1
C17	N2	C16	H163	190.0	237.2
O2	C17	N2	N3	179.5	180.0
N2	C17	N3	O3	59.2	184.3
N2	C17	N3	HN3	239.2	4.3
H161	C16	N2	C17	299.5	357.2
N2	C16	H161	H162	120.9	120.0
N2	C16	H161	H163	240.4	240.0
H162	C16	H161	H163	119.5	120.0
H162	C16	N2	C17	64.8	117.1
N2	C16	H162	H161	234.7	240.0
N2	C16	H162	H163	125.3	120.1
H161	C16	H162	H163	250.6	240.1
H163	C16	N2	C17	190.0	237.2
N2	C16	H163	H161	119.6	120.0
N2	C16	H163	H162	239.2	239.9
H161	C16	H163	H162	119.6	120.0
N2	C17	O2	N3	180.5	180.0
O2	C17	N3	O3	239.7	4.3
O2	C17	N3	HN3	59.7	184.3
N2	C17	N3	O2	179.5	180.0
O3	N3	C17	HN3	180.0	180.0
C17	N3	O3	HO3	180.0	180.0
C17	N3	O3	HN3	180.0	180.0
C17	N3	HN3	O3	180.0	180.0
HN3	N3	O3	HO3	0.0	360.0
HO3	O3	N3	HN3	0.0	360.0