PDB Chemical Component TBF

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 TBF

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C	O1	1.330	1.208
C	O	1.324	1.342
C	H	1.080	1.080
O	C'	1.457	1.451
C'	C1	1.530	1.530
C'	C2	1.485	1.531
C'	C3	1.501	1.530
C1	H11	1.100	1.091
C1	H12	1.100	1.090
C1	H13	1.101	1.089
C2	H21	1.100	1.089
C2	H22	1.100	1.090
C2	H23	1.100	1.090
C3	H31	1.100	1.089
C3	H32	1.100	1.090
C3	H33	1.100	1.090

Bond Angles for TBF

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
O1	C	O	115.7	120.0
O1	C	H	122.2	120.0
O	C	H	122.1	120.0
C	O	C'	124.6	117.0
O	C'	C1	114.7	109.5
O	C'	C2	104.6	109.5
O	C'	C3	104.0	109.5
C1	C'	C2	110.0	109.5
C1	C'	C3	111.2	109.4
C'	C1	H11	109.5	109.4
C'	C1	H12	109.4	109.5
C'	C1	H13	109.5	109.5
C2	C'	C3	112.3	109.5
C'	C2	H21	109.5	109.5
C'	C2	H22	109.5	109.5
C'	C2	H23	109.5	109.4
C'	C3	H31	109.5	109.5
C'	C3	H32	109.5	109.5
C'	C3	H33	109.5	109.5
H11	C1	H12	109.5	109.5
H11	C1	H13	109.5	109.5
H12	C1	H13	109.5	109.5
H21	C2	H22	109.5	109.5
H21	C2	H23	109.5	109.5
H22	C2	H23	109.5	109.5
H31	C3	H32	109.4	109.5
H31	C3	H33	109.5	109.5
H32	C3	H33	109.5	109.5

Torsion Angles for TBF

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
O	C	O1	H	180.0	180.3
O1	C	O	C'	328.0	180.0
O1	C	O	H	180.0	179.7
C	O	C'	C1	313.1	60.0
C	O	C'	C2	73.6	180.0
C	O	C'	C3	191.5	300.0
O1	C	H	O	180.0	180.3
H	C	O	C'	148.0	0.3
C'	O	C	H	148.0	0.3
C1	C'	O	C2	239.5	240.0
C1	C'	O	C3	121.6	120.0
O	C'	C1	H11	359.6	60.0
O	C'	C1	H12	119.6	180.0
O	C'	C1	H13	239.6	300.0
C2	C'	O	C3	242.1	240.0
O	C'	C2	H21	173.5	60.0
O	C'	C2	H22	293.5	180.0
O	C'	C2	H23	53.5	300.0
O	C'	C3	H31	201.0	60.0
O	C'	C3	H32	321.0	180.0
O	C'	C3	H33	81.0	300.0
O	C'	C1	C2	117.5	120.0
O	C'	C1	C3	242.4	240.0
C2	C'	C1	C3	125.0	120.0
C1	C'	C2	H21	297.1	180.1
C1	C'	C2	H22	57.1	300.0
C1	C'	C2	H23	177.1	60.0
C1	C'	C3	H31	77.1	300.0
C1	C'	C3	H32	197.1	60.0
C1	C'	C3	H33	317.1	180.0
H11	C1	C'	H12	240.0	240.0
H11	C1	C'	H13	120.0	120.0
H12	C1	C'	H13	240.0	240.0
O	C'	C2	C1	236.4	240.0
O	C'	C2	C3	112.1	120.0
C1	C'	C2	C3	235.7	240.1
C2	C'	C1	H11	242.1	300.0
C2	C'	C1	H12	2.1	60.0
C2	C'	C1	H13	122.1	180.0
C2	C'	C3	H31	313.4	180.0
C2	C'	C3	H32	73.4	300.0
C2	C'	C3	H33	193.4	60.0
H21	C2	C'	H22	240.0	240.0
H21	C2	C'	H23	120.0	120.0
H22	C2	C'	H23	240.0	240.0
O	C'	C3	C1	123.9	120.0
O	C'	C3	C2	247.5	240.0
C1	C'	C3	C2	123.7	120.0
C3	C'	C1	H11	117.1	180.0
C3	C'	C1	H12	237.1	300.0
C3	C'	C1	H13	357.2	60.0
C3	C'	C2	H21	61.4	300.0
C3	C'	C2	H22	181.4	60.0
C3	C'	C2	H23	301.4	179.9
H31	C3	C'	H32	240.0	240.0
H31	C3	C'	H33	120.0	120.0
H32	C3	C'	H33	240.0	240.0
H11	C1	C'	C2	242.1	300.0
H11	C1	C'	C3	117.1	180.0
C'	C1	H11	H12	120.0	120.0
C'	C1	H11	H13	240.0	240.0
H12	C1	H11	H13	120.0	120.0
H12	C1	C'	C2	2.1	60.0
H12	C1	C'	C3	237.1	300.0
C'	C1	H12	H11	240.0	240.0
C'	C1	H12	H13	120.0	120.0
H11	C1	H12	H13	240.0	240.0
H13	C1	C'	C2	122.1	180.0
H13	C1	C'	C3	357.2	60.0
C'	C1	H13	H11	120.0	120.0
C'	C1	H13	H12	240.0	240.0
H11	C1	H13	H12	120.0	120.0
H21	C2	C'	C3	61.4	300.0
C'	C2	H21	H22	120.0	120.0
C'	C2	H21	H23	240.0	240.0
H22	C2	H21	H23	120.0	120.0
H22	C2	C'	C3	181.4	60.0
C'	C2	H22	H21	240.0	240.0
C'	C2	H22	H23	120.0	120.0
H21	C2	H22	H23	240.0	239.9
H23	C2	C'	C3	301.4	179.9
C'	C2	H23	H21	120.0	120.0
C'	C2	H23	H22	240.0	240.0
H21	C2	H23	H22	120.0	120.0
C'	C3	H31	H32	120.0	120.0
C'	C3	H31	H33	240.0	240.0
H32	C3	H31	H33	120.0	120.0
C'	C3	H32	H31	240.0	240.0
C'	C3	H32	H33	120.0	120.0
H31	C3	H32	H33	240.0	240.0
C'	C3	H33	H31	120.1	120.0
C'	C3	H33	H32	240.0	240.0
H31	C3	H33	H32	120.0	120.0