PDB Chemical Component NAT

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 NAT

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C1	C2	1.458	1.383
C1	C6	1.452	1.383
C1	H1	1.080	1.079
C2	C3	1.439	1.382
C2	C7	1.483	1.507
C3	C4	1.456	1.387
C3	H3	1.080	1.079
C4	C5	1.447	1.387
C4	O13	1.347	1.359
C5	C6	1.452	1.382
C5	H5	1.080	1.080
C6	H6	1.080	1.079
C7	N8	1.467	1.472
C7	C12	1.514	1.516
C7	H7	1.100	1.089
N8	C9	1.351	1.347
N8	HN8	1.000	0.970
C9	N10	1.344	1.339
C9	S20	1.668	1.712
N10	C11	1.462	1.365
N10	HN10	1.000	0.970
C11	C12	1.353	1.351
C11	C18	1.514	1.507
C12	C14	1.502	1.414
O13	HO13	0.951	0.967
C14	O15	1.352	1.350
C14	O19	1.203	1.217
O15	C16	1.483	1.429
C16	C17	1.544	1.530
C16	H161	1.100	1.091
C16	H162	1.100	1.089
C17	H171	1.100	1.090
C17	H172	1.100	1.090
C17	H173	1.100	1.090
C18	H181	1.100	1.090
C18	H182	1.100	1.089
C18	H183	1.100	1.090

Bond Angles for NAT

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C2	C1	C6	121.5	120.1
C2	C1	H1	119.3	119.9
C1	C2	C3	121.3	120.1
C1	C2	C7	119.9	120.0
C6	C1	H1	119.2	120.0
C1	C6	C5	116.7	120.0
C1	C6	H6	121.7	120.0
C3	C2	C7	118.7	120.0
C2	C3	C4	117.5	119.9
C2	C3	H3	121.3	120.0
C2	C7	N8	112.8	108.0
C2	C7	C12	111.9	108.3
C2	C7	H7	106.6	107.8
C4	C3	H3	121.3	120.1
C3	C4	C5	121.1	119.9
C3	C4	O13	119.6	120.0
C5	C4	O13	119.3	120.1
C4	C5	C6	121.9	120.0
C4	C5	H5	119.1	120.1
C4	O13	HO13	109.5	106.9
C6	C5	H5	119.1	120.0
C5	C6	H6	121.6	120.0
N8	C7	C12	113.0	116.9
N8	C7	H7	105.4	108.0
C7	N8	C9	124.4	118.5
C7	N8	HN8	117.8	120.8
C12	C7	H7	106.4	107.6
C7	C12	C11	118.9	117.8
C7	C12	C14	117.5	121.1
C9	N8	HN8	117.8	120.7
N8	C9	N10	119.0	122.1
N8	C9	S20	121.7	119.0
N10	C9	S20	119.2	118.9
C9	N10	C11	121.8	123.8
C9	N10	HN10	119.1	118.2
C11	N10	HN10	119.1	118.1
N10	C11	C12	120.4	121.0
N10	C11	C18	113.1	119.5
C12	C11	C18	126.5	119.5
C11	C12	C14	123.6	121.1
C11	C18	H181	109.5	109.4
C11	C18	H182	109.4	109.5
C11	C18	H183	109.5	109.4
C12	C14	O15	117.4	120.0
C12	C14	O19	120.0	120.0
O15	C14	O19	122.6	120.0
C14	O15	C16	127.7	106.8
O15	C16	C17	110.8	109.5
O15	C16	H161	109.0	109.4
O15	C16	H162	108.7	109.5
C17	C16	H161	109.0	109.5
C17	C16	H162	108.8	109.5
C16	C17	H171	109.5	109.5
C16	C17	H172	109.4	109.5
C16	C17	H173	109.5	109.5
H161	C16	H162	110.5	109.4
H171	C17	H172	109.5	109.5
H171	C17	H173	109.4	109.5
H172	C17	H173	109.5	109.5
H181	C18	H182	109.5	109.5
H181	C18	H183	109.5	109.5
H182	C18	H183	109.5	109.5

Torsion Angles for NAT

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C6	C1	C2	H1	180.0	180.0
C2	C1	C6	C5	0.2	0.0
C2	C1	C6	H6	180.1	180.0
C3	C2	C1	C7	177.6	180.2
C1	C2	C3	C4	0.7	359.5
C1	C2	C3	H3	180.7	180.0
C1	C2	C7	N8	54.8	39.9
C1	C2	C7	C12	286.0	272.5
C1	C2	C7	H7	170.0	156.4
C2	C1	C6	H1	180.0	180.0
C6	C1	C2	C3	358.7	0.2
C6	C1	C2	C7	181.0	180.0
C4	C5	C6	C1	1.6	360.0
C1	C6	C5	H5	181.6	179.9
C5	C6	C1	H6	180.0	180.0
C2	C1	H1	C6	180.0	180.0
H1	C1	C2	C3	178.6	180.3
H1	C1	C2	C7	1.0	0.1
H1	C1	C6	C5	180.2	180.0
H1	C1	C6	H6	0.2	359.9
C3	C2	C1	C6	358.7	0.2
C3	C2	C1	H1	178.6	180.3
C1	C2	C3	C7	182.4	179.8
C3	C2	C7	N8	237.1	219.7
C3	C2	C7	C12	108.3	92.3
C3	C2	C7	H7	352.3	336.2
C4	C3	C2	H3	180.0	179.6
C2	C3	C4	C5	1.1	0.5
C2	C3	C4	O13	182.4	180.2
C7	C2	C1	C6	181.0	180.0
C7	C2	C1	H1	1.0	0.1
C1	C2	C7	C3	177.7	180.2
C7	C2	C3	C4	178.3	179.7
C7	C2	C3	H3	358.4	0.2
N8	C7	C2	C12	128.8	127.4
N8	C7	C2	H7	244.8	243.6
C2	C7	N8	C9	247.2	238.2
C2	C7	N8	HN8	67.2	57.9
C12	C7	C2	H7	116.0	116.1
C2	C7	C12	C11	111.4	121.7
C2	C7	C12	C14	294.4	301.9
C4	C3	C2	C7	178.3	179.7
C2	C3	C4	H3	180.0	180.4
C5	C4	C3	O13	178.6	180.3
C3	C4	C5	C6	357.7	359.7
C3	C4	C5	H5	177.7	179.8
C3	C4	O13	HO13	95.0	270.2
H3	C3	C2	C7	358.4	0.2
C2	C3	H3	C4	180.0	179.6
H3	C3	C4	C5	181.0	180.1
H3	C3	C4	O13	2.4	359.8
C1	C6	C5	C4	1.6	360.0
C5	C4	C3	H3	181.0	180.1
C3	C4	C5	O13	181.4	179.7
C5	C4	O13	HO13	276.3	89.9
C6	C5	C4	H5	180.0	179.9
C4	C5	C6	H6	181.6	180.0
O13	C4	C3	H3	2.4	359.8
C3	C4	O13	C5	178.7	180.3
O13	C4	C5	C6	176.4	180.0
O13	C4	C5	H5	356.3	0.1
C5	C6	C1	H1	180.2	180.0
C1	C6	C5	H6	180.0	180.0
C6	C5	C4	O13	176.4	180.0
C4	C5	C6	H5	180.0	180.1
H5	C5	C4	O13	356.3	0.1
C4	C5	H5	C6	180.0	179.9
H5	C5	C6	H6	1.7	359.9
H6	C6	C1	H1	0.2	359.9
C1	C6	H6	C5	180.0	180.0
H6	C6	C5	H5	1.7	359.9
C2	C7	N8	C12	231.8	237.7
C2	C7	N8	H7	116.0	116.3
C12	C7	N8	H7	244.2	238.6
N8	C7	C12	C11	342.7	359.6
N8	C7	C12	C14	165.7	179.8
C9	N8	C7	HN8	180.0	180.2
C7	N8	C9	N10	356.0	359.7
C7	N8	C9	S20	177.9	179.7
C2	C7	C12	N8	128.7	122.1
C2	C7	C12	H7	243.9	243.7
N8	C7	C12	H7	115.2	121.6
C12	C7	N8	C9	15.4	0.5
C12	C7	N8	HN8	195.4	180.2
N10	C11	C12	C7	8.8	0.2
C7	C12	C11	C18	188.6	180.2
C11	C12	C7	C14	177.0	179.8
C7	C12	C14	O15	164.7	352.8
C7	C12	C14	O19	345.4	172.8
C2	C7	H7	N8	239.9	243.6
C2	C7	H7	C12	119.6	116.6
N8	C7	H7	C12	239.7	233.0
H7	C7	N8	C9	131.2	121.8
H7	C7	N8	HN8	311.2	301.6
H7	C7	C12	C11	227.6	238.0
H7	C7	C12	C14	50.5	58.2
C9	N8	C7	C12	15.4	0.5
C9	N8	C7	H7	131.2	121.8
C7	N8	C9	HN8	180.0	179.8
N10	C9	N8	S20	178.2	180.1
N8	C9	N10	C11	353.5	360.0
N8	C9	N10	HN10	173.4	180.0
HN8	N8	C7	C12	195.4	180.2
HN8	N8	C7	H7	311.2	301.6
C7	N8	HN8	C9	180.0	180.2
HN8	N8	C9	N10	176.1	180.0
HN8	N8	C9	S20	357.9	359.9
N10	C9	N8	HN8	176.1	180.0
N8	C9	N10	S20	181.8	179.9
C11	N10	C9	HN10	180.0	180.0
C9	N10	C11	C12	3.8	0.0
C9	N10	C11	C18	184.0	180.0
S20	C9	N8	HN8	357.9	359.9
N8	C9	S20	N10	178.2	180.1
S20	C9	N10	C11	171.7	180.1
S20	C9	N10	HN10	351.7	0.1
C7	C12	C11	N10	8.8	0.2
C11	N10	C9	S20	171.7	180.1
C9	N10	C11	HN10	180.0	180.0
C12	C11	N10	C18	179.8	180.0
N10	C11	C12	C14	185.7	180.0
N10	C11	C18	H181	161.3	264.4
N10	C11	C18	H182	281.2	24.4
N10	C11	C18	H183	41.2	144.4
HN10	N10	C9	S20	351.7	0.1
C9	N10	HN10	C11	180.0	180.0
HN10	N10	C11	C12	183.8	180.0
HN10	N10	C11	C18	4.0	0.0
C11	C12	C7	H7	227.6	238.0
C7	C12	C11	C14	183.2	180.2
C12	C11	N10	HN10	183.8	180.0
N10	C11	C12	C18	180.2	180.0
C12	C11	C18	H181	341.5	84.3
C12	C11	C18	H182	101.4	204.4
C12	C11	C18	H183	221.4	324.4
C11	C12	C14	O15	347.8	173.0
C11	C12	C14	O19	168.5	353.0
C18	C11	N10	HN10	4.0	0.0
N10	C11	C18	C12	179.8	180.0
C18	C11	C12	C14	5.5	360.0
H181	C18	C11	H182	240.0	240.0
H181	C18	C11	H183	120.0	120.0
H182	C18	C11	H183	240.0	240.0
C14	C12	C7	H7	50.5	58.2
C7	C12	C14	C11	176.9	179.8
C14	C12	C11	C18	5.5	360.0
O15	C14	C12	O19	179.3	180.0
C12	C14	O15	C16	178.2	179.9
C12	C14	O15	O19	180.7	180.0
C14	O15	C16	C17	185.0	180.0
C14	O15	C16	H161	305.0	60.0
C14	O15	C16	H162	65.5	300.1
C12	C14	O19	O15	179.2	180.0
O19	C14	O15	C16	357.5	359.9
C16	O15	C14	O19	357.5	359.9
C17	C16	O15	H161	240.0	120.0
C17	C16	O15	H162	119.5	240.0
O15	C16	C17	H171	169.9	300.0
O15	C16	C17	H172	289.9	60.1
O15	C16	C17	H173	49.9	180.1
H161	C16	O15	H162	239.5	120.0
O15	C16	C17	H161	120.0	240.0
O15	C16	C17	H162	240.6	120.1
H161	C16	C17	H162	120.6	240.0
H171	C17	C16	H172	240.0	240.0
H171	C17	C16	H173	120.0	120.0
H172	C17	C16	H173	240.0	240.0
O15	C16	H161	C17	238.9	120.0
O15	C16	H161	H162	119.4	240.0
C17	C16	H161	H162	240.5	120.0
H161	C16	C17	H171	49.9	60.0
H161	C16	C17	H172	169.9	180.0
H161	C16	C17	H173	289.9	300.0
O15	C16	H162	C17	120.7	240.0
O15	C16	H162	H161	240.4	120.0
C17	C16	H162	H161	119.6	240.0
H162	C16	C17	H171	289.3	179.9
H162	C16	C17	H172	49.3	300.0
H162	C16	C17	H173	169.3	60.0
H171	C17	C16	H161	49.9	60.0
H171	C17	C16	H162	289.3	179.9
C16	C17	H171	H172	120.0	120.0
C16	C17	H171	H173	240.0	240.0
H172	C17	H171	H173	120.0	120.0
H172	C17	C16	H161	169.9	180.0
H172	C17	C16	H162	49.3	300.0
C16	C17	H172	H171	240.0	240.0
C16	C17	H172	H173	120.0	120.0
H171	C17	H172	H173	240.0	240.0
H173	C17	C16	H161	289.9	300.0
H173	C17	C16	H162	169.3	60.0
C16	C17	H173	H171	120.0	120.0
C16	C17	H173	H172	240.0	240.0
H171	C17	H173	H172	120.0	120.0
C11	C18	H181	H182	120.0	120.0
C11	C18	H181	H183	240.0	240.1
H182	C18	H181	H183	120.0	120.1
C11	C18	H182	H181	240.0	240.0
C11	C18	H182	H183	120.0	120.0
H181	C18	H182	H183	240.0	239.9
C11	C18	H183	H181	120.0	120.0
C11	C18	H183	H182	240.0	240.0
H181	C18	H183	H182	120.0	120.1