PDB Chemical Component LAE

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 LAE

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C1	C2	1.516	1.514
C1	C5	1.459	1.545
C1	N11	1.482	1.464
C1	H11	1.115	1.089
C2	O3	1.296	1.348
C2	O10	1.168	1.208
O3	C4	1.592	1.459
C4	C5	1.597	1.543
C4	H41	1.115	1.089
C4	H42	1.115	1.090
C5	H51	1.115	1.090
C5	H52	1.115	1.090
N11	C13	1.386	1.348
N11	H111	1.020	0.970
C13	C14	1.516	1.505
C13	O35	1.224	1.213
C14	C15	1.549	1.506
C14	H141	1.115	1.091
C14	H142	1.115	1.090
C15	C18	1.549	1.507
C15	O36	1.192	1.206
C18	C19	1.525	1.529
C18	H181	1.115	1.090
C18	H182	1.115	1.090
C19	C22	1.529	1.529
C19	H191	1.115	1.090
C19	H192	1.115	1.089
C22	C25	1.529	1.528
C22	H221	1.115	1.090
C22	H222	1.115	1.090
C25	C28	1.530	1.530
C25	H251	1.115	1.090
C25	H252	1.115	1.090
C28	H281	1.115	1.090
C28	H282	1.115	1.089
C28	H283	1.115	1.089

Bond Angles for LAE

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C2	C1	C5	107.2	104.7
C2	C1	N11	107.6	110.5
C2	C1	H11	115.4	110.4
C1	C2	O3	108.3	108.0
C1	C2	O10	126.7	126.0
C5	C1	N11	117.6	110.4
C5	C1	H11	104.9	110.4
C1	C5	C4	111.1	103.1
C1	C5	H51	111.6	110.7
C1	C5	H52	111.6	110.7
N11	C1	H11	104.4	110.3
C1	N11	C13	106.9	120.1
C1	N11	H111	129.1	120.0
O3	C2	O10	125.0	126.0
C2	O3	C4	118.1	108.5
O3	C4	C5	95.4	105.1
O3	C4	H41	117.7	110.3
O3	C4	H42	117.7	110.3
C5	C4	H41	117.7	110.4
C5	C4	H42	117.7	110.3
C4	C5	H51	111.6	110.7
C4	C5	H52	111.6	110.8
H41	C4	H42	92.6	110.4
H51	C5	H52	98.8	110.7
C13	N11	H111	124.0	119.9
N11	C13	C14	116.4	120.1
N11	C13	O35	129.9	119.9
C14	C13	O35	113.6	120.0
C13	C14	C15	119.8	109.5
C13	C14	H141	108.5	109.4
C13	C14	H142	108.5	109.5
C15	C14	H141	108.5	109.5
C15	C14	H142	108.5	109.5
C14	C15	C18	117.1	120.0
C14	C15	O36	120.6	120.0
H141	C14	H142	101.4	109.5
C18	C15	O36	122.4	120.0
C15	C18	C19	113.0	109.6
C15	C18	H181	110.9	109.4
C15	C18	H182	110.9	109.5
C19	C18	H181	110.9	109.5
C19	C18	H182	110.9	109.5
C18	C19	C22	111.1	109.6
C18	C19	H191	111.6	109.4
C18	C19	H192	111.6	109.5
H181	C18	H182	99.4	109.4
C22	C19	H191	111.6	109.5
C22	C19	H192	111.6	109.5
C19	C22	C25	114.4	109.6
C19	C22	H221	110.4	109.4
C19	C22	H222	110.4	109.5
H191	C19	H192	98.8	109.4
C25	C22	H221	110.4	109.5
C25	C22	H222	110.4	109.5
C22	C25	C28	112.4	109.5
C22	C25	H251	111.1	109.5
C22	C25	H252	111.1	109.5
H221	C22	H222	99.9	109.4
C28	C25	H251	111.1	109.5
C28	C25	H252	111.1	109.5
C25	C28	H281	111.1	109.5
C25	C28	H282	112.4	109.5
C25	C28	H283	111.1	109.5
H251	C25	H252	99.2	109.4
H281	C28	H282	111.1	109.4
H281	C28	H283	99.2	109.5
H282	C28	H283	111.1	109.5

Torsion Angles for LAE

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C5	C1	C2	N11	127.4	118.8
C5	C1	C2	H11	243.5	241.2
C2	C1	C5	C4	0.4	0.3
C2	C1	C5	H51	235.1	118.7
C2	C1	C5	H52	125.6	241.8
N11	C1	C2	H11	116.1	122.3
C2	C1	N11	C13	249.3	267.0
C2	C1	N11	H111	69.3	86.9
O3	C2	C1	O10	180.0	180.2
C1	C2	O3	C4	0.0	33.2
C2	C1	C5	N11	238.7	241.1
C2	C1	C5	H11	123.2	118.9
C5	C1	C2	O3	359.8	339.8
C5	C1	C2	O10	179.8	159.6
N11	C1	C5	H11	244.5	237.7
C5	C1	N11	C13	128.3	151.7
C5	C1	N11	H111	308.3	331.6
O3	C4	C5	C1	359.7	17.8
C1	C5	C4	H41	124.9	136.7
C1	C5	C4	H42	234.4	259.0
C4	C5	C1	H51	125.2	241.6
C4	C5	C1	H52	234.8	118.5
H51	C5	C1	H52	109.5	236.9
C2	C1	N11	C5	121.0	115.3
C2	C1	N11	H11	236.8	237.6
N11	C1	C2	O3	232.4	220.9
N11	C1	C2	O10	52.4	40.7
C5	C1	N11	H11	115.8	122.3
N11	C1	C5	C4	121.6	119.2
N11	C1	C5	H51	356.4	237.6
N11	C1	C5	H52	246.9	0.7
C13	N11	C1	H111	180.0	180.1
C1	N11	C13	C14	175.5	180.0
C1	N11	C13	O35	359.2	359.9
C2	C1	H11	C5	242.3	244.7
C2	C1	H11	N11	117.9	122.4
H11	C1	C2	O3	116.2	98.6
H11	C1	C2	O10	296.2	278.4
C5	C1	H11	N11	235.7	237.7
H11	C1	C5	C4	237.2	241.5
H11	C1	C5	H51	111.9	359.9
H11	C1	C5	H52	2.4	123.0
H11	C1	N11	C13	12.5	29.4
H11	C1	N11	H111	192.5	209.3
O3	C2	C1	C5	359.8	339.8
O3	C2	C1	N11	232.4	220.9
O3	C2	C1	H11	116.2	98.6
C1	C2	O3	O10	180.0	179.8
C2	O3	C4	C5	0.2	327.7
C2	O3	C4	H41	234.9	208.7
C2	O3	C4	H42	125.5	86.5
O10	C2	C1	C5	179.8	159.6
O10	C2	C1	N11	52.4	40.7
O10	C2	C1	H11	296.2	278.4
C1	C2	O10	O3	180.0	180.3
O10	C2	O3	C4	180.0	213.4
C1	C5	C4	O3	359.7	17.8
C4	O3	C2	O10	180.0	213.4
C5	C4	O3	H41	125.3	119.0
C5	C4	O3	H42	234.7	241.2
O3	C4	C5	H51	124.9	259.4
O3	C4	C5	H52	234.4	136.3
H41	C4	O3	H42	109.5	122.2
C4	C5	C1	N11	121.6	119.2
C4	C5	C1	H11	237.2	241.5
C1	C5	C4	H51	234.7	118.4
C1	C5	C4	H52	125.2	241.5
O3	C4	C5	H41	234.7	241.0
O3	C4	C5	H42	125.3	118.8
H41	C4	C5	H42	250.5	237.8
H51	C5	C4	H52	250.5	123.1
O3	C4	H41	C5	113.3	115.7
O3	C4	H41	H42	236.6	237.9
C5	C4	H41	H42	123.3	122.2
H41	C4	C5	H51	250.2	18.3
H41	C4	C5	H52	359.7	255.2
O3	C4	H42	C5	246.7	244.4
O3	C4	H42	H41	123.3	122.2
C5	C4	H42	H41	236.7	237.7
H42	C4	C5	H51	359.6	140.6
H42	C4	C5	H52	109.1	17.4
H51	C5	C1	N11	356.4	237.6
H51	C5	C1	H11	111.9	359.9
C1	C5	H51	C4	125.0	246.3
C1	C5	H51	H52	242.5	123.1
H51	C5	C4	H41	250.2	18.3
H51	C5	C4	H42	359.6	140.6
C4	C5	H51	H52	117.5	236.8
H52	C5	C1	N11	246.9	0.7
H52	C5	C1	H11	2.4	123.0
C1	C5	H52	C4	235.1	113.7
C1	C5	H52	H51	117.5	236.9
H52	C5	C4	H41	359.7	255.2
H52	C5	C4	H42	109.1	17.4
C4	C5	H52	H51	242.5	123.2
C13	N11	C1	H11	12.5	29.4
C1	N11	C13	H111	180.0	179.9
C14	C13	N11	O35	176.3	180.1
N11	C13	C14	C15	262.0	179.9
N11	C13	C14	H141	136.7	60.0
N11	C13	C14	H142	27.3	300.0
H111	N11	C1	H11	192.5	209.3
C1	N11	H111	C13	180.0	180.1
H111	N11	C13	C14	355.5	0.0
H111	N11	C13	O35	179.2	180.0
C14	C13	N11	H111	355.5	0.0
N11	C13	C14	O35	183.1	179.9
C15	C14	C13	H141	125.3	120.0
C15	C14	C13	H142	234.7	239.9
C13	C14	C15	C18	54.1	180.0
C13	C14	C15	O36	233.9	0.0
H141	C14	C13	H142	109.4	120.0
O35	C13	N11	H111	179.2	180.0
N11	C13	O35	C14	176.4	180.1
O35	C13	C14	C15	78.9	0.0
O35	C13	C14	H141	313.7	240.1
O35	C13	C14	H142	204.2	120.1
C15	C14	C13	O35	78.9	0.0
C13	C14	C15	H141	234.7	240.1
C13	C14	C15	H142	125.3	120.0
H141	C14	C15	H142	250.5	240.0
C18	C15	C14	O36	180.1	179.9
C14	C15	C18	C19	219.7	180.0
C14	C15	C18	H181	94.4	60.0
C14	C15	C18	H182	344.9	300.1
H141	C14	C13	O35	313.7	240.1
C13	C14	H141	C15	131.6	120.0
C13	C14	H141	H142	245.8	240.0
C15	C14	H141	H142	114.2	120.0
H141	C14	C15	C18	179.3	299.9
H141	C14	C15	O36	359.2	120.0
H142	C14	C13	O35	204.2	120.1
C13	C14	H142	C15	228.4	240.0
C13	C14	H142	H141	114.2	120.0
C15	C14	H142	H141	245.8	240.0
H142	C14	C15	C18	288.8	59.9
H142	C14	C15	O36	108.7	240.0
C18	C15	C14	H141	179.3	299.9
C18	C15	C14	H142	288.8	59.9
C14	C15	C18	O36	179.9	180.1
C19	C18	C15	H181	125.3	120.0
C19	C18	C15	H182	234.8	239.9
C15	C18	C19	C22	179.7	180.0
C15	C18	C19	H191	54.4	60.0
C15	C18	C19	H192	305.0	300.1
H181	C18	C15	H182	109.5	119.9
O36	C15	C14	H141	359.2	120.0
O36	C15	C14	H142	108.7	240.0
C14	C15	O36	C18	180.1	179.9
O36	C15	C18	C19	39.8	360.0
O36	C15	C18	H181	274.5	239.9
O36	C15	C18	H182	165.0	120.0
C19	C18	C15	O36	39.8	360.0
C15	C18	C19	H181	234.7	240.0
C15	C18	C19	H182	125.2	120.1
H181	C18	C19	H182	250.5	240.1
C22	C19	C18	H191	125.3	120.0
C22	C19	C18	H192	234.7	239.9
C18	C19	C22	C25	180.2	180.0
C18	C19	C22	H221	55.0	60.0
C18	C19	C22	H222	305.5	300.1
H191	C19	C18	H192	109.5	119.9
H181	C18	C15	O36	274.5	239.9
C15	C18	H181	C19	126.4	120.1
C15	C18	H181	H182	243.2	240.0
C19	C18	H181	H182	116.8	120.0
H181	C18	C19	C22	305.0	300.0
H181	C18	C19	H191	179.7	180.0
H181	C18	C19	H192	70.2	60.1
H182	C18	C15	O36	165.0	120.0
C15	C18	H182	C19	233.6	239.9
C15	C18	H182	H181	116.8	119.9
C19	C18	H182	H181	243.2	240.0
H182	C18	C19	C22	54.5	59.9
H182	C18	C19	H191	289.2	299.9
H182	C18	C19	H192	179.7	180.0
C22	C19	C18	H181	305.0	300.0
C22	C19	C18	H182	54.5	59.9
C18	C19	C22	H191	234.7	240.1
C18	C19	C22	H192	125.3	120.1
H191	C19	C22	H192	250.5	240.1
C25	C22	C19	H221	125.3	120.0
C25	C22	C19	H222	234.7	240.0
C19	C22	C25	C28	257.7	180.0
C19	C22	C25	H251	132.4	60.0
C19	C22	C25	H252	22.9	300.0
H221	C22	C19	H222	109.5	119.9
H191	C19	C18	H181	179.7	180.0
H191	C19	C18	H182	289.2	299.9
C18	C19	H191	C22	125.0	120.1
C18	C19	H191	H192	242.5	240.0
C22	C19	H191	H192	117.5	120.0
H191	C19	C22	C25	305.5	300.0
H191	C19	C22	H221	180.2	179.9
H191	C19	C22	H222	70.7	60.0
H192	C19	C18	H181	70.2	60.1
H192	C19	C18	H182	179.7	180.0
C18	C19	H192	C22	235.0	239.9
C18	C19	H192	H191	117.5	119.9
C22	C19	H192	H191	242.5	240.0
H192	C19	C22	C25	55.0	59.9
H192	C19	C22	H221	289.7	299.9
H192	C19	C22	H222	180.2	180.0
C25	C22	C19	H191	305.5	300.0
C25	C22	C19	H192	55.0	59.9
C19	C22	C25	H221	234.7	240.0
C19	C22	C25	H222	125.3	120.0
H221	C22	C25	H222	250.5	240.1
C28	C25	C22	H251	125.3	120.0
C28	C25	C22	H252	234.8	240.0
C22	C25	C28	H281	54.7	180.0
C22	C25	C28	H282	180.0	300.0
C22	C25	C28	H283	305.2	60.0
H251	C25	C22	H252	109.5	119.9
H221	C22	C19	H191	180.2	179.9
H221	C22	C19	H192	289.7	299.9
C19	C22	H221	C25	127.5	120.1
C19	C22	H221	H222	243.7	240.1
C25	C22	H221	H222	116.2	120.0
H221	C22	C25	C28	23.0	300.0
H221	C22	C25	H251	257.7	180.0
H221	C22	C25	H252	148.2	60.1
H222	C22	C19	H191	70.7	60.0
H222	C22	C19	H192	180.2	180.0
C19	C22	H222	C25	232.5	239.9
C19	C22	H222	H221	116.3	119.9
C25	C22	H222	H221	243.8	240.0
H222	C22	C25	C28	132.4	60.0
H222	C22	C25	H251	7.1	299.9
H222	C22	C25	H252	257.6	180.0
C28	C25	C22	H221	23.0	300.0
C28	C25	C22	H222	132.4	60.0
C22	C25	C28	H251	234.7	239.9
C22	C25	C28	H252	125.2	120.0
H251	C25	C28	H252	250.5	240.1
H281	C28	C25	H282	234.7	240.0
H281	C28	C25	H283	109.5	120.0
H282	C28	C25	H283	234.8	240.0
H251	C25	C22	H221	257.7	180.0
H251	C25	C22	H222	7.1	299.9
C22	C25	H251	C28	126.0	120.1
C22	C25	H251	H252	243.0	240.0
C28	C25	H251	H252	117.0	119.9
H251	C25	C28	H281	180.0	300.1
H251	C25	C28	H282	305.3	60.1
H251	C25	C28	H283	70.5	180.1
H252	C25	C22	H221	148.2	60.1
H252	C25	C22	H222	257.6	180.0
C22	C25	H252	C28	234.1	239.9
C22	C25	H252	H251	117.0	120.0
C28	C25	H252	H251	243.0	240.0
H252	C25	C28	H281	289.5	60.0
H252	C25	C28	H282	54.8	180.0
H252	C25	C28	H283	180.0	300.0
H281	C28	C25	H251	180.0	300.1
H281	C28	C25	H252	289.5	60.0
C25	C28	H281	H282	126.0	120.0
C25	C28	H281	H283	243.0	240.0
H282	C28	H281	H283	117.0	120.0
H282	C28	C25	H251	305.3	60.1
H282	C28	C25	H252	54.8	180.0
C25	C28	H282	H281	234.7	239.9
C25	C28	H282	H283	125.2	120.0
H281	C28	H282	H283	250.5	240.0
H283	C28	C25	H251	70.5	180.1
H283	C28	C25	H252	180.0	300.0
C25	C28	H283	H281	117.0	120.1
C25	C28	H283	H282	234.1	240.0
H281	C28	H283	H282	117.0	120.0