PDB Chemical Component 60C

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 60C

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C39	C38	1.409	1.450
C39	C28	1.456	1.411
C39	C42	1.389	1.443
C38	C31	1.401	1.399
C38	C43	1.432	1.448
C28	C23	1.371	1.418
C28	C29	1.367	1.403
C42	C52	1.393	1.450
C42	C40	1.416	1.414
C31	C22	1.406	1.424
C31	C30	1.402	1.425
C23	C22	1.446	1.411
C23	C15	1.370	1.422
C43	C59	1.349	1.447
C43	C37	1.380	1.416
C22	C12	1.388	1.420
C29	C40	1.451	1.404
C29	C20	1.397	1.429
C52	C59	1.456	1.457
C52	C53	1.376	1.400
C40	C41	1.375	1.412
C59	C60	1.387	1.407
C30	C37	1.462	1.390
C30	C49	1.403	1.418
C37	C36	1.380	1.417
C15	C14	1.397	1.416
C15	C11	1.447	1.423
C12	C11	1.404	1.410
C12	C48	1.410	1.429
C20	C14	1.344	1.416
C20	C21	1.434	1.402
C53	C51	1.412	1.428
C53	C56	1.441	1.416
C41	C51	1.407	1.405
C41	C26	1.473	1.430
C60	C56	1.413	1.417
C60	C58	1.374	1.425
C14	C45	1.472	1.417
C49	C48	1.364	1.407
C49	C50	1.454	1.410
C11	C3	1.476	1.421
C36	C58	1.364	1.398
C36	C32	1.482	1.428
C48	C8	1.462	1.417
C51	C35	1.436	1.417
C56	C54	1.410	1.422
C58	C57	1.434	1.424
C21	C26	1.388	1.413
C21	C44	1.412	1.428
C26	C27	1.399	1.402
C50	C32	1.390	1.413
C50	C9	1.425	1.428
C32	C33	1.367	1.402
C45	C44	1.353	1.410
C45	C46	1.448	1.422
C3	C46	1.400	1.402
C3	C2	1.408	1.410
C8	C9	1.408	1.405
C8	C2	1.425	1.426
C35	C27	1.453	1.415
C35	C34	1.436	1.420
C44	C13	1.413	1.417
C54	C34	1.405	1.421
C54	C55	1.406	1.404
C27	C17	1.430	1.427
C57	C33	1.437	1.405
C57	C55	1.376	1.412
C46	C47	1.388	1.406
C9	C10	1.374	1.413
C2	C1	1.393	1.402
C33	C18	1.430	1.427
C34	C25	1.429	1.417
C55	C24	1.454	1.428
C13	C17	1.364	1.412
C13	C4	1.419	1.422
C17	C16	1.405	1.416
C47	C1	1.424	1.430
C47	C4	1.383	1.415
C10	C18	1.386	1.406
C10	C7	1.421	1.431
C1	C7	1.418	1.404
C18	C19	1.412	1.402
C25	C24	1.393	1.403
C25	C16	1.458	1.427
C24	C19	1.414	1.418
C4	C5	1.390	1.409
C16	C5	1.421	1.419
C7	C6	1.400	1.403
C19	C6	1.428	1.424
C5	C6	1.392	1.416

Bond Angles for 60C

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C39	C38	C43	119.9	118.5
C39	C42	C52	119.1	121.0
C39	C42	C40	107.7	105.9
C38	C43	C59	119.6	121.1
C28	C29	C40	108.3	107.4
C42	C52	C59	120.1	118.4
C42	C52	C53	119.6	121.1
C31	C30	C37	107.4	109.9
C31	C30	C49	120.6	117.6
C43	C59	C52	120.4	120.3
C43	C59	C60	119.5	121.5
C22	C12	C48	119.2	120.6
C29	C40	C41	120.5	123.7
C53	C52	C59	107.7	107.9
C52	C59	C60	108.5	106.5
C52	C53	C56	107.8	108.7
C40	C41	C51	119.3	125.1
C37	C30	C49	119.9	120.9
C30	C37	C36	120.5	122.1
C30	C49	C48	118.8	123.3
C30	C49	C50	119.9	116.1
C37	C36	C58	119.3	123.9
C15	C14	C45	119.0	118.8
C20	C14	C45	107.1	108.9
C20	C21	C26	120.8	124.5
C20	C21	C44	107.3	109.4
C53	C56	C54	119.8	119.6
C14	C45	C44	108.3	107.8
C14	C45	C46	120.0	119.5
C11	C3	C46	119.3	121.0
C36	C58	C57	108.2	106.8
C26	C21	C44	120.7	118.2
C21	C26	C27	119.8	124.6
C3	C46	C45	120.9	120.9
C45	C46	C47	120.3	115.9
C3	C46	C47	108.1	106.2
C8	C9	C10	121.5	127.0
C9	C10	C18	119.3	126.6
C2	C1	C7	120.0	125.9
C13	C17	C16	108.9	108.6
C10	C18	C19	108.4	106.1
C1	C7	C6	118.8	123.2
C4	C5	C6	120.6	118.2

Torsion Angles for 60C

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C39	C38	C43	C59	1.2	0.6
C39	C28	C29	C40	0.1	353.9
C42	C39	C38	C43	359.2	359.8
C39	C42	C52	C59	0.3	359.8
C39	C42	C52	C53	223.2	222.5
C38	C31	C30	C49	140.4	142.7
C38	C43	C59	C52	359.2	359.2
C38	C43	C59	C60	138.1	137.1
C28	C29	C40	C41	217.3	222.8
C39	C42	C52	C40	223.3	223.7
C43	C59	C52	C42	0.1	0.6
C53	C52	C42	C59	222.9	222.7
C42	C52	C59	C60	217.2	217.2
C42	C52	C53	C56	142.9	141.7
C39	C42	C40	C52	141.1	142.0
C42	C40	C41	C51	358.5	1.7
C31	C22	C12	C48	0.9	358.6
C37	C30	C31	C49	217.7	216.3
C31	C30	C37	C36	143.5	140.2
C31	C30	C49	C48	0.8	2.1
C31	C30	C49	C50	221.7	222.6
C23	C22	C12	C48	218.9	222.6
C23	C15	C14	C45	223.8	221.1
C42	C52	C59	C43	0.1	0.6
C53	C52	C59	C43	141.7	143.0
C52	C59	C43	C60	221.1	222.1
C43	C37	C30	C49	218.4	218.3
C43	C37	C36	C58	0.8	358.4
C39	C42	C40	C29	358.7	355.9
C29	C40	C41	C51	137.4	143.2
C29	C20	C14	C45	142.6	143.1
C29	C20	C21	C44	216.3	215.8
C42	C52	C59	C53	218.4	217.6
C43	C59	C52	C60	142.9	143.4
C59	C52	C53	C56	1.1	0.5
C42	C52	C53	C59	141.8	141.2
C43	C59	C52	C53	141.7	143.0
C53	C52	C59	C60	358.8	359.6
C52	C53	C56	C54	217.2	217.2
C39	C42	C40	C41	142.2	142.5
C43	C59	C60	C52	216.7	217.2
C31	C30	C37	C49	142.7	142.2
C37	C30	C49	C48	138.5	141.6
C37	C30	C49	C50	359.4	2.1
C30	C37	C36	C58	222.7	221.6
C31	C30	C49	C37	222.3	220.5
C49	C30	C37	C36	0.9	357.9
C36	C37	C30	C49	0.9	357.9
C37	C36	C58	C57	141.7	142.0
C20	C14	C15	C45	135.6	138.3
C15	C14	C45	C44	142.8	138.7
C15	C14	C45	C46	359.1	358.6
C15	C11	C3	C46	359.7	0.4
C12	C11	C3	C46	137.2	144.1
C30	C49	C48	C12	360.0	357.2
C15	C14	C20	C45	219.8	218.0
C20	C14	C45	C44	2.0	356.2
C20	C14	C45	C46	218.3	216.0
C21	C20	C14	C45	358.3	6.0
C26	C21	C20	C44	143.9	148.3
C20	C21	C26	C27	222.5	214.4
C42	C52	C53	C51	359.4	359.7
C56	C53	C52	C59	1.1	0.5
C41	C26	C21	C44	138.4	141.4
C43	C59	C60	C56	217.6	217.3
C52	C59	C60	C56	0.9	0.2
C43	C59	C60	C58	0.1	0.4
C52	C59	C60	C58	143.4	143.3
C3	C46	C45	C14	0.0	1.7
C14	C45	C46	C47	140.2	132.3
C30	C49	C48	C50	217.1	218.1
C30	C49	C50	C48	142.5	144.9
C11	C3	C46	C45	0.5	358.8
C11	C3	C46	C47	216.2	224.1
C30	C37	C36	C32	359.5	1.5
C20	C21	C26	C44	220.8	214.3
C20	C21	C44	C26	144.0	150.5
C14	C45	C44	C21	358.5	0.1
C44	C21	C26	C27	1.7	0.1
C27	C26	C21	C44	1.7	0.1
C30	C49	C50	C32	360.0	358.2
C14	C45	C44	C46	216.5	219.7
C3	C46	C45	C44	220.7	226.0
C14	C45	C46	C44	139.3	135.7
C3	C46	C45	C47	219.9	229.4
C14	C45	C46	C3	0.0	1.7
C45	C46	C3	C47	144.4	134.7
C3	C2	C1	C7	217.7	215.3
C8	C9	C10	C18	223.5	214.9
C53	C56	C54	C55	139.2	133.8
C36	C58	C57	C55	215.7	218.5
C3	C46	C47	C45	144.6	137.3
C9	C10	C18	C19	141.4	139.2
C2	C1	C7	C6	136.3	146.7
C3	C46	C47	C4	141.9	143.3
C1	C7	C6	C5	359.7	358.9