PDB Chemical Component O90

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 O90

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C8	C1	1.400	1.382
C47	C1	1.509	1.508
C1	C2	1.406	1.384
C2	C4	1.402	1.381
C2	H2	1.081	1.080
C5	C4	1.387	1.391
C4	CL46	1.723	1.736
C6	C5	1.399	1.389
C5	S10	1.780	1.763
C8	C6	1.399	1.382
C6	H6	1.080	1.080
C8	H8	1.080	1.080
S10	C11	1.812	1.814
C11	C14	1.528	1.530
C11	H11	1.100	1.090
C11	H11A	1.100	1.090
C14	C17	1.526	1.531
C14	H14	1.100	1.090
C14	H14A	1.100	1.090
O20	C17	1.409	1.429
C17	H17	1.100	1.090
C17	H17A	1.100	1.089
C21	O20	1.355	1.359
C27	C21	1.392	1.393
C22	C21	1.422	1.384
C23	C22	1.403	1.388
C22	C36	1.514	1.508
C24	C23	1.395	1.406
O31	C23	1.384	1.348
C29	C24	1.390	1.465
C24	C25	1.400	1.397
C25	C27	1.372	1.365
C25	H25	1.080	1.079
C27	H27	1.080	1.080
C32	C29	1.482	1.507
C29	N30	1.357	1.297
N30	O31	1.461	1.413
F34	C32	1.369	1.399
F33	C32	1.371	1.400
C32	F35	1.367	1.399
C39	C36	1.525	1.529
C36	H36	1.100	1.090
C36	H36A	1.100	1.089
C39	C42	1.521	1.530
C39	H39	1.100	1.090
C39	H39A	1.100	1.091
C42	H42	1.100	1.090
C42	H42A	1.100	1.090
C42	H42B	1.100	1.090
C47	C50	1.492	1.506
C47	H47	1.100	1.090
C47	H47A	1.100	1.090
C50	O51	1.221	1.208
C50	O52	1.355	1.343
O52	HO52	0.950	0.967

Bond Angles for O90

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C1	C2	C4	119.8	120.1
C1	C2	H2	120.1	119.9
C4	C2	H2	120.1	120.0
C2	C4	CL46	120.4	120.0
C5	C4	CL46	118.4	120.1
C6	C5	S10	121.7	120.1
C5	S10	C11	102.9	103.0
C8	C6	H6	119.6	120.1
S10	C11	C14	110.9	109.5
S10	C11	H11	109.0	109.5
S10	C11	H11A	109.0	109.5
C14	C11	H11	109.0	109.5
C14	C11	H11A	109.0	109.5
C11	C14	C17	111.4	109.4
C11	C14	H14	108.8	109.5
C11	C14	H14A	108.8	109.4
H11	C11	H11A	110.0	109.5
C17	C14	H14	108.8	109.4
C17	C14	H14A	108.8	109.4
C14	C17	H17	112.8	109.5
C14	C17	H17A	112.8	109.5
H14	C14	H14A	110.1	109.6
O20	C17	H17	112.8	109.5
O20	C17	H17A	112.9	109.5
H17	C17	H17A	105.9	109.5
C23	C22	C36	125.2	120.1
C22	C36	H36	106.8	109.4
C22	C36	H36A	106.8	109.4
C24	C25	C27	117.3	119.9
C24	C25	H25	121.3	120.0
C27	C25	H25	121.3	120.1
C25	C27	H27	119.6	119.8
C29	N30	O31	101.9	109.7
F34	C32	F35	103.7	109.5
F33	C32	F35	111.0	109.4
C39	C36	H36	106.8	109.5
C39	C36	H36A	106.8	109.5
H36	C36	H36A	112.0	109.5
C42	C39	H39	109.8	109.5
C42	C39	H39A	109.8	109.4
C39	C42	H42	109.5	109.5
C39	C42	H42A	109.4	109.5
C39	C42	H42B	109.5	109.5
H39	C39	H39A	109.2	109.5
H42	C42	H42A	109.5	109.5
H42	C42	H42B	109.5	109.4
H42A	C42	H42B	109.5	109.5
C50	C47	H47	106.9	109.5
C50	C47	H47A	106.9	109.5
C47	C50	O51	125.8	120.1
C47	C50	O52	112.3	120.0
H47	C47	H47A	111.9	109.5
O51	C50	O52	121.9	120.0
C50	O52	HO52	109.5	117.0

Torsion Angles for O90

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C8	C1	C2	H2	179.0	180.0
C47	C1	C2	H2	2.1	359.7
C4	C2	C1	H2	180.0	180.1
C1	C2	C4	CL46	180.4	180.0
C1	C2	C4	H2	180.0	179.9
C5	C4	C2	CL46	179.8	180.0
C1	C2	H2	C4	180.0	180.1
H2	C2	C4	CL46	0.4	0.0
C5	C4	C2	H2	180.3	180.1
C2	C4	C5	CL46	180.2	180.0
CL46	C4	C2	H2	0.4	0.0
C6	C5	C4	CL46	180.4	180.0
C6	C5	S10	C11	322.0	0.0
S10	C5	C4	CL46	359.7	0.0
C5	S10	C11	C14	264.9	180.0
C5	S10	C11	H11	24.9	300.0
C5	S10	C11	H11A	144.9	60.0
C8	C6	C5	S10	180.1	180.0
H6	C6	C5	S10	0.1	360.0
H8	C8	C6	H6	359.8	0.0
C14	C11	S10	H11	240.0	240.0
C14	C11	S10	H11A	120.0	120.0
S10	C11	C14	C17	203.8	180.0
S10	C11	C14	H14	323.8	299.9
S10	C11	C14	H14A	83.8	60.1
H11	C11	S10	H11A	240.0	240.0
S10	C11	C14	H11	120.0	120.0
S10	C11	C14	H11A	240.0	240.0
H11	C11	C14	H11A	120.1	120.0
C17	C14	C11	H14	240.0	240.1
C17	C14	C11	H14A	120.0	119.9
C11	C14	C17	H17	129.4	300.0
C11	C14	C17	H17A	249.4	60.0
H14	C14	C11	H14A	240.0	239.9
S10	C11	H11	C14	238.8	240.0
S10	C11	H11	H11A	119.4	120.0
C14	C11	H11	H11A	240.6	240.0
H11	C11	C14	C17	83.8	60.0
H11	C11	C14	H14	203.8	179.9
H11	C11	C14	H14A	323.8	300.0
S10	C11	H11A	C14	121.2	120.0
S10	C11	H11A	H11	240.6	240.0
C14	C11	H11A	H11	119.4	120.0
H11A	C11	C14	C17	323.8	300.0
H11A	C11	C14	H14	83.8	60.0
H11A	C11	C14	H14A	203.8	180.1
C17	C14	C11	H11	83.8	60.0
C17	C14	C11	H11A	323.8	300.0
C11	C14	C17	H14	120.0	120.0
C11	C14	C17	H14A	240.0	240.1
H14	C14	C17	H14A	120.0	120.1
O20	C17	C14	H17	240.0	240.0
O20	C17	C14	H17A	120.0	120.0
H17	C17	C14	H17A	240.0	240.0
H14	C14	C11	H11	203.8	179.9
H14	C14	C11	H11A	83.8	60.0
C11	C14	H14	C17	238.4	240.0
C11	C14	H14	H14A	119.2	120.0
C17	C14	H14	H14A	240.8	240.0
H14	C14	C17	H17	9.4	180.0
H14	C14	C17	H17A	129.4	300.1
H14A	C14	C11	H11	323.8	300.0
H14A	C14	C11	H11A	203.8	180.1
C11	C14	H14A	C17	121.6	119.9
C11	C14	H14A	H14	240.8	239.9
C17	C14	H14A	H14	119.2	120.0
H14A	C14	C17	H17	249.4	60.0
H14A	C14	C17	H17A	9.4	180.0
O20	C17	C14	H14	249.4	60.0
O20	C17	C14	H14A	129.4	299.9
C14	C17	O20	H17	120.0	120.0
C14	C17	O20	H17A	240.0	240.0
H17	C17	O20	H17A	120.0	120.0
H17	C17	C14	H14	9.4	180.0
H17	C17	C14	H14A	249.4	60.0
C14	C17	H17	H17A	123.9	120.0
O20	C17	H17	H17A	236.1	240.0
H17A	C17	C14	H14	129.4	300.1
H17A	C17	C14	H14A	9.4	180.0
C14	C17	H17A	H17	236.1	240.0
O20	C17	H17A	H17	123.9	120.0
C21	O20	C17	H17	27.8	60.0
C21	O20	C17	H17A	267.7	300.0
C23	C22	C36	H36	130.9	30.0
C23	C22	C36	H36A	250.9	150.0
C39	C36	C22	H36	240.0	240.0
C39	C36	C22	H36A	120.0	120.0
H36	C36	C22	H36A	240.0	240.0
C24	C23	C22	C36	179.1	180.0
O31	C23	C22	C36	359.1	360.0
C29	C24	C25	H25	0.4	0.1
C27	C25	C24	H25	180.0	179.6
C24	C25	C27	H27	179.0	180.0
C24	C25	C27	H25	180.0	180.4
C24	C25	H25	C27	180.0	179.6
H25	C25	C27	H27	359.0	359.7
H27	C27	C25	H25	359.0	359.7
F33	C32	F34	F35	117.7	240.0
F34	C32	F33	F35	247.2	120.0
C22	C36	C39	H36	120.0	120.0
C22	C36	C39	H36A	240.0	240.0
H36	C36	C39	H36A	120.0	120.1
C22	C36	H36	H36A	116.5	120.0
C39	C36	H36	H36A	243.4	239.9
C22	C36	H36A	H36	243.4	240.0
C39	C36	H36A	H36	116.5	120.0
C42	C39	C36	H36	58.8	60.0
C42	C39	C36	H36A	298.8	299.9
H39	C39	C42	H39A	120.0	119.9
H42	C42	C39	H42A	240.0	240.0
H42	C42	C39	H42B	120.0	120.0
H42A	C42	C39	H42B	240.0	240.0
H39	C39	C36	H36	178.7	180.0
H39	C39	C36	H36A	58.8	60.0
C42	C39	H39	H39A	239.6	240.1
H39	C39	C42	H42	60.0	59.9
H39	C39	C42	H42A	180.0	180.0
H39	C39	C42	H42B	300.0	300.0
H39A	C39	C36	H36	298.8	300.1
H39A	C39	C36	H36A	178.8	180.0
C42	C39	H39A	H39	120.4	119.9
H39A	C39	C42	H42	300.0	300.0
H39A	C39	C42	H42A	60.0	60.0
H39A	C39	C42	H42B	180.0	180.0
H42	C42	C39	H39	60.0	59.9
H42	C42	C39	H39A	300.0	300.0
C39	C42	H42	H42A	120.0	120.0
C39	C42	H42	H42B	240.0	240.0
H42A	C42	H42	H42B	120.0	120.0
H42A	C42	C39	H39	180.0	180.0
H42A	C42	C39	H39A	60.0	60.0
C39	C42	H42A	H42	240.0	240.0
C39	C42	H42A	H42B	120.0	120.0
H42	C42	H42A	H42B	240.0	240.0
H42B	C42	C39	H39	300.0	300.0
H42B	C42	C39	H39A	180.0	180.0
C39	C42	H42B	H42	120.1	120.0
C39	C42	H42B	H42A	240.0	240.0
H42	C42	H42B	H42A	120.0	120.0
H47	C47	C50	H47A	120.0	120.1
O51	C50	C47	O52	179.3	180.0
C47	C50	O52	HO52	179.3	180.0
C50	C47	H47	H47A	243.2	239.9
H47	C47	C50	O51	107.9	240.1
H47	C47	C50	O52	288.6	60.0
C50	C47	H47A	H47	116.7	120.1
H47A	C47	C50	O51	347.9	120.0
H47A	C47	C50	O52	168.6	300.0
O51	C50	C47	H47	107.9	240.1
O51	C50	C47	H47A	347.9	120.0
C47	C50	O51	O52	180.8	180.0
O51	C50	O52	HO52	360.0	360.0
O52	C50	C47	H47	288.6	60.0
O52	C50	C47	H47A	168.6	300.0
C47	C50	O52	O51	179.3	180.0