PDB Chemical Component TPI

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 TPI

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
P	O1	1.588	1.609
P	O2	1.477	1.610
P	O3	1.587	1.480
P	C1	1.793	1.822
O1	HO11	0.950	0.967
O2	HO21	0.949	0.967
C1	F1	1.353	1.399
C1	F2	1.334	1.400
C1	C3	1.531	1.508
C2	C3	1.413	1.362
C2	C10	1.415	1.405
C2	H21	1.104	1.080
C3	C4	1.407	1.392
C4	C5	1.394	1.361
C4	H41	1.103	1.080
C5	C11	1.399	1.406
C5	H51	1.103	1.080
C6	C7	1.400	1.384
C6	C11	1.404	1.403
C6	H61	1.103	1.079
C7	C8	1.415	1.406
C7	C12	1.521	1.478
C8	C9	1.417	1.356
C8	H81	1.103	1.080
C9	C10	1.411	1.407
C9	H91	1.103	1.080
C10	C11	1.414	1.418
C12	O4	1.224	1.216
C12	N1	1.465	1.348
N1	C13	1.471	1.464
N1	HN11	1.021	0.970
C13	C14	1.510	1.506
C13	C15	1.545	1.529
C13	H131	1.115	1.090
C14	N2	1.448	1.348
C14	O5	1.221	1.212
N2	HN21	1.019	0.970
N2	HN22	1.020	0.970
C15	C16	1.536	1.529
C15	H151	1.116	1.089
C15	H152	1.115	1.090
C16	C17	1.499	1.507
C16	H161	1.114	1.090
C16	H162	1.115	1.090
C17	O6	1.330	1.208
C17	O7	1.230	1.342
O7	HO71	0.950	0.966

Bond Angles for TPI

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
O1	P	O2	110.7	109.5
O1	P	O3	109.9	109.5
O1	P	C1	109.3	109.5
P	O1	HO11	110.7	106.8
O2	P	O3	110.1	109.5
O2	P	C1	107.7	109.4
P	O2	HO21	110.7	106.8
O3	P	C1	109.2	109.5
P	C1	F1	109.0	109.5
P	C1	F2	106.8	109.4
P	C1	C3	115.0	109.5
F1	C1	F2	109.3	109.5
F1	C1	C3	107.9	109.5
F2	C1	C3	108.7	109.5
C1	C3	C2	121.8	119.5
C1	C3	C4	118.4	119.5
C3	C2	C10	119.7	119.7
C3	C2	H21	120.0	120.2
C2	C3	C4	119.7	121.0
C10	C2	H21	120.2	120.1
C2	C10	C9	121.3	121.1
C2	C10	C11	119.3	119.2
C3	C4	C5	120.8	121.0
C3	C4	H41	120.0	119.5
C5	C4	H41	119.2	119.5
C4	C5	C11	119.8	119.7
C4	C5	H51	119.9	120.2
C11	C5	H51	120.3	120.2
C5	C11	C6	119.0	121.1
C5	C11	C10	120.6	119.4
C7	C6	C11	120.7	119.4
C7	C6	H61	119.5	120.3
C6	C7	C8	119.5	120.6
C6	C7	C12	119.1	119.7
C11	C6	H61	119.9	120.3
C6	C11	C10	120.3	119.5
C8	C7	C12	121.5	119.7
C7	C8	C9	120.2	120.8
C7	C8	H81	119.9	119.6
C7	C12	O4	117.8	120.0
C7	C12	N1	120.2	120.0
C9	C8	H81	119.9	119.6
C8	C9	C10	119.9	120.1
C8	C9	H91	120.2	120.0
C10	C9	H91	119.8	119.9
C9	C10	C11	119.4	119.6
O4	C12	N1	122.1	120.0
C12	N1	C13	114.8	120.0
C12	N1	HN11	122.5	119.9
C13	N1	HN11	122.8	120.0
N1	C13	C14	116.7	109.6
N1	C13	C15	110.8	109.5
N1	C13	H131	102.9	109.5
C14	C13	C15	108.1	109.5
C14	C13	H131	105.9	109.4
C13	C14	N2	118.0	119.9
C13	C14	O5	121.6	120.1
C15	C13	H131	112.4	109.4
C13	C15	C16	111.8	109.5
C13	C15	H151	111.4	109.4
C13	C15	H152	111.4	109.5
N2	C14	O5	120.3	120.0
C14	N2	HN21	120.3	120.0
C14	N2	HN22	118.0	120.0
HN21	N2	HN22	121.6	120.0
C16	C15	H151	111.4	109.5
C16	C15	H152	111.4	109.5
C15	C16	C17	109.1	109.5
C15	C16	H161	112.3	109.5
C15	C16	H162	112.3	109.5
H151	C15	H152	98.9	109.4
C17	C16	H161	112.4	109.5
C17	C16	H162	112.3	109.5
C16	C17	O6	115.1	119.9
C16	C17	O7	122.8	120.0
H161	C16	H162	98.1	109.4
O6	C17	O7	122.1	120.0
C17	O7	HO71	122.9	120.0

Torsion Angles for TPI

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
O2	P	O1	O3	121.7	120.0
O2	P	O1	C1	241.5	240.1
O1	P	O2	HO21	180.0	59.8
O3	P	O1	C1	119.8	120.0
O1	P	C1	F1	181.9	184.1
O1	P	C1	F2	299.9	64.1
O1	P	C1	C3	60.6	304.1
O1	P	O2	O3	238.4	239.9
O1	P	O2	C1	119.4	120.0
O2	P	O1	HO11	180.0	60.1
O3	P	O2	C1	241.1	240.1
O2	P	C1	F1	302.2	304.1
O2	P	C1	F2	60.2	184.1
O2	P	C1	C3	180.9	64.1
O1	P	O3	O2	122.1	120.0
O1	P	O3	C1	240.2	239.9
O3	P	O1	HO11	58.2	300.1
O2	P	O3	C1	118.1	119.9
O3	P	O2	HO21	301.6	179.9
O3	P	C1	F1	61.7	64.0
O3	P	C1	F2	179.7	304.0
O3	P	C1	C3	300.4	184.1
O1	P	C1	O2	239.7	240.0
O1	P	C1	O3	120.2	120.1
C1	P	O1	HO11	298.5	180.0
O2	P	C1	O3	240.5	240.1
C1	P	O2	HO21	60.6	299.9
F1	C1	P	F2	242.0	120.0
F1	C1	P	C3	121.3	240.0
F2	C1	P	C3	239.3	120.0
P	C1	C3	C2	271.4	90.2
P	C1	C3	C4	94.2	270.2
HO11	O1	P	O2	180.0	60.1
HO11	O1	P	O3	58.2	300.1
HO11	O1	P	C1	298.5	180.0
HO21	O2	P	O3	301.6	179.9
HO21	O2	P	C1	60.6	299.9
P	C1	F1	F2	116.4	240.0
P	C1	F1	C3	234.5	120.0
F2	C1	F1	C3	118.1	240.0
F1	C1	C3	C2	149.5	210.3
F1	C1	C3	C4	332.3	30.2
P	C1	F2	F1	242.2	120.0
P	C1	F2	C3	124.6	240.0
F1	C1	F2	C3	242.4	120.0
F2	C1	C3	C2	31.1	330.2
F2	C1	C3	C4	213.9	150.2
P	C1	C3	F1	121.9	239.9
P	C1	C3	F2	240.3	120.0
F1	C1	C3	F2	118.4	240.0
C1	C3	C2	C10	183.6	180.0
C1	C3	C2	H21	3.6	0.0
C2	C3	C1	C4	177.2	180.0
C1	C3	C4	C5	176.6	180.0
C1	C3	C4	H41	356.6	359.9
C1	C3	C2	C4	182.9	180.0
C10	C2	C3	H21	180.0	180.0
C3	C2	C10	C9	179.3	180.0
C3	C2	C10	C11	0.1	359.9
C2	C3	C4	C5	359.4	360.0
C2	C3	C4	H41	179.3	179.9
C3	C2	C10	H21	180.0	180.0
C10	C2	C3	C4	0.7	0.1
C5	C11	C10	C2	359.0	0.1
C6	C11	C10	C2	178.4	179.7
C8	C9	C10	C2	181.2	180.0
C2	C10	C9	H91	1.2	360.0
C9	C10	C2	C11	179.2	180.1
C3	C2	H21	C10	180.0	180.0
H21	C2	C3	C4	180.8	180.1
H21	C2	C10	C9	359.2	360.0
H21	C2	C10	C11	180.0	179.9
C1	C3	C4	C2	177.2	180.0
C4	C3	C2	C10	0.7	0.1
C4	C3	C2	H21	180.8	180.1
C5	C4	C3	H41	180.0	180.1
C3	C4	C5	C11	359.7	0.1
C3	C4	C5	H51	179.7	180.0
C3	C4	C5	H41	180.0	179.9
C11	C5	C4	H51	180.1	180.1
C4	C5	C11	C6	181.7	180.3
C4	C5	C11	C10	1.1	359.9
C3	C4	H41	C5	180.0	180.1
H41	C4	C5	C11	179.8	180.1
H41	C4	C5	H51	359.7	0.0
C2	C10	C11	C5	359.0	0.1
C11	C5	C4	H41	179.8	180.1
C4	C5	C11	H51	179.9	179.9
C7	C6	C11	C5	179.8	180.2
C5	C11	C6	H61	359.8	359.9
C6	C11	C5	C10	180.6	180.4
C9	C10	C11	C5	179.8	180.0
H51	C5	C4	H41	359.7	0.0
C4	C5	H51	C11	180.1	180.1
H51	C5	C11	C6	1.7	0.4
H51	C5	C11	C10	181.2	180.0
C5	C11	C6	C7	179.8	180.2
C11	C6	C7	H61	180.0	179.7
C7	C6	C11	C10	0.3	0.6
C8	C7	C6	C12	180.1	179.7
C6	C7	C8	C9	359.1	0.3
C6	C7	C8	H81	179.1	180.1
C6	C7	C12	O4	1.3	359.8
C6	C7	C12	N1	181.4	179.7
C2	C10	C11	C6	178.4	179.7
C6	C11	C5	H51	1.7	0.4
C5	C11	C6	C10	179.4	179.6
C7	C6	C11	H61	180.0	180.3
C11	C6	C7	C8	0.5	359.4
C11	C6	C7	C12	180.4	179.7
C9	C10	C11	C6	359.2	359.6
C7	C6	H61	C11	180.0	179.7
H61	C6	C7	C8	180.5	179.7
H61	C6	C7	C12	0.4	360.0
H61	C6	C11	C10	180.3	180.3
C8	C7	C6	C11	0.5	359.4
C8	C7	C6	H61	180.5	179.7
C6	C7	C8	C12	179.9	180.3
C8	C7	C12	O4	181.2	180.0
C8	C7	C12	N1	1.3	360.0
C9	C8	C7	H81	180.0	180.2
C7	C8	C9	C10	0.4	359.9
C7	C8	C9	H91	180.4	180.0
C12	C7	C6	C11	180.4	179.7
C12	C7	C6	H61	0.4	360.0
C6	C7	C12	C8	180.1	179.7
C12	C7	C8	C9	179.2	180.1
C12	C7	C8	H81	359.2	359.9
O4	C12	C7	N1	180.0	180.1
C7	C12	N1	C13	179.6	180.0
C7	C12	N1	HN11	359.7	0.1
C2	C10	C9	C8	181.2	180.0
C9	C8	C7	C12	179.2	180.1
C7	C8	C9	H81	180.0	179.8
C10	C9	C8	H91	180.1	180.0
C8	C9	C10	C11	0.4	0.1
H81	C8	C7	C12	359.2	359.9
C7	C8	H81	C9	180.0	180.2
H81	C8	C9	C10	180.5	180.1
H81	C8	C9	H91	0.4	0.1
C9	C10	C2	H21	359.2	360.0
C2	C10	C9	C11	180.8	179.9
C5	C11	C10	C9	179.8	180.0
C6	C11	C10	C9	359.2	359.6
C10	C9	C8	H81	180.5	180.1
C8	C9	C10	H91	179.9	180.0
H91	C9	C8	H81	0.4	0.1
C8	C9	H91	C10	180.1	180.0
H91	C9	C10	C11	180.4	180.1
C11	C10	C2	H21	180.0	179.9
C2	C10	C11	C9	179.2	180.1
C10	C11	C5	H51	181.2	180.0
C5	C11	C10	C6	180.6	180.4
C10	C11	C6	H61	180.3	180.3
C11	C10	C9	H91	180.4	180.1
C7	C12	O4	N1	180.0	179.9
O4	C12	N1	C13	359.7	359.9
O4	C12	N1	HN11	179.7	180.0
C7	C12	N1	O4	180.0	180.1
C13	N1	C12	HN11	180.0	179.9
C12	N1	C13	C14	302.8	270.1
C12	N1	C13	C15	178.6	150.0
C12	N1	C13	H131	58.2	30.1
C12	N1	C13	HN11	180.0	180.1
C14	C13	N1	C15	124.2	120.1
C14	C13	N1	H131	244.6	240.0
N1	C13	C14	N2	123.0	330.0
N1	C13	C14	O5	301.1	150.0
C15	C13	N1	H131	120.4	120.0
N1	C13	C15	C16	296.4	300.0
N1	C13	C15	H151	61.7	60.1
N1	C13	C15	H152	171.0	180.0
C12	N1	HN11	C13	180.0	179.9
HN11	N1	C13	C14	122.8	90.0
HN11	N1	C13	C15	358.6	329.9
HN11	N1	C13	H131	238.2	210.0
C14	C13	N1	HN11	122.8	90.0
N1	C13	C14	C15	234.4	239.9
N1	C13	C14	H131	113.8	120.0
C15	C13	C14	H131	239.3	240.1
C14	C13	C15	C16	167.4	179.9
C14	C13	C15	H151	292.7	300.0
C14	C13	C15	H152	42.1	59.9
N2	C14	C13	O5	181.9	180.0
C13	C14	N2	HN21	358.1	180.0
C13	C14	N2	HN22	180.0	359.7
C15	C13	N1	HN11	358.6	329.9
N1	C13	C15	C14	129.0	120.1
N1	C13	C15	H131	245.5	240.0
C14	C13	C15	H131	116.5	119.9
C15	C13	C14	N2	248.6	90.1
C15	C13	C14	O5	66.7	270.0
C16	C15	C13	H151	234.7	240.0
C16	C15	C13	H152	125.3	120.1
C13	C15	C16	C17	180.6	180.0
C13	C15	C16	H161	305.8	300.0
C13	C15	C16	H162	55.3	59.9
H151	C15	C13	H152	250.6	240.1
H131	C13	N1	HN11	238.2	210.0
N1	C13	H131	C14	237.0	239.9
N1	C13	H131	C15	119.2	120.0
C14	C13	H131	C15	242.2	240.1
H131	C13	C14	N2	9.2	210.0
H131	C13	C14	O5	187.3	30.0
H131	C13	C15	C16	50.9	60.1
H131	C13	C15	H151	176.2	180.1
H131	C13	C15	H152	285.6	300.0
N2	C14	C13	C15	248.6	90.1
N2	C14	C13	H131	9.2	210.0
C13	C14	N2	O5	178.1	180.0
HN21	N2	C14	HN22	178.1	180.3
O5	C14	C13	C15	66.7	270.0
O5	C14	C13	H131	187.3	30.0
C13	C14	O5	N2	181.9	180.0
O5	C14	N2	HN21	180.0	0.0
O5	C14	N2	HN22	1.8	179.7
HN21	N2	C14	O5	180.0	0.0
C14	N2	HN21	HN22	181.9	179.7
HN22	N2	C14	O5	1.8	179.7
C14	N2	HN22	HN21	178.1	180.3
C16	C15	C13	H131	50.9	60.1
C13	C15	C16	H151	125.3	120.0
C13	C15	C16	H152	234.7	239.9
H151	C15	C16	H152	109.4	120.0
C17	C16	C15	H161	234.7	240.0
C17	C16	C15	H162	125.2	120.1
C15	C16	C17	O6	185.5	0.0
C15	C16	C17	O7	6.0	180.0
H161	C16	C15	H162	250.5	240.1
H151	C15	C13	H131	176.2	180.1
C13	C15	H151	C16	234.5	240.0
C13	C15	H151	H152	117.2	120.0
C16	C15	H151	H152	242.7	240.0
H151	C15	C16	C17	55.3	60.0
H151	C15	C16	H161	180.6	180.0
H151	C15	C16	H162	290.0	299.9
H152	C15	C13	H131	285.6	300.0
C13	C15	H152	C16	125.6	120.1
C13	C15	H152	H151	242.8	240.1
C16	C15	H152	H151	117.2	120.0
H152	C15	C16	C17	305.9	300.0
H152	C15	C16	H161	71.1	60.1
H152	C15	C16	H162	180.6	180.0
C17	C16	C15	H151	55.3	60.0
C17	C16	C15	H152	305.9	300.0
C15	C16	C17	H161	125.2	120.0
C15	C16	C17	H162	234.8	240.0
H161	C16	C17	H162	109.5	120.0
O6	C17	C16	O7	179.5	180.0
C16	C17	O7	HO71	180.0	180.0
H161	C16	C15	H151	180.6	180.0
H161	C16	C15	H152	71.1	60.1
C15	C16	H161	C17	236.5	240.0
C15	C16	H161	H162	118.3	119.9
C17	C16	H161	H162	241.7	240.0
H161	C16	C17	O6	60.3	240.0
H161	C16	C17	O7	240.8	60.0
H162	C16	C15	H151	290.0	299.9
H162	C16	C15	H152	180.6	180.0
C15	C16	H162	C17	123.5	120.1
C15	C16	H162	H161	241.8	240.1
C17	C16	H162	H161	118.3	120.0
H162	C16	C17	O6	310.7	120.0
H162	C16	C17	O7	131.3	300.0
O6	C17	C16	H161	60.3	240.0
O6	C17	C16	H162	310.7	120.0
C16	C17	O6	O7	180.5	180.0
O6	C17	O7	HO71	0.6	360.0
O7	C17	C16	H161	240.8	60.0
O7	C17	C16	H162	131.3	300.0
C16	C17	O7	O6	179.4	180.0