PDB Chemical Component 68P

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 68P

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
F01	C21	1.343	1.351
C20	C21	1.528	1.385
C20	C16	1.537	1.382
C21	C19	1.518	1.385
C16	C10	1.519	1.384
C17	C13	1.524	1.380
C17	C18	1.500	1.397
N04	C24	1.164	1.136
C19	C15	1.538	1.382
C13	C07	1.553	1.381
C24	C18	1.533	1.433
C18	C14	1.526	1.396
C10	C15	1.533	1.382
C10	C05	1.502	1.506
C07	C05	1.524	1.512
C07	C08	1.479	1.388
C14	C08	1.550	1.378
C05	C06	1.548	1.531
C05	O02	1.425	1.439
C08	C11	1.468	1.511
C23	N03	1.444	1.469
C06	C09	1.547	1.530
O02	C11	1.490	1.439
C09	C12	1.531	1.530
C22	N03	1.485	1.469
N03	C12	1.446	1.469
C13	H1	1.080	1.081
C15	H2	1.080	1.080
C17	H3	1.080	1.080
C20	H4	1.080	1.080
C22	H5	1.100	1.090
C22	H6	1.100	1.090
C22	H7	1.100	1.090
C06	H9	1.100	1.089
C06	H10	1.100	1.091
C09	H11	1.100	1.090
C09	H12	1.100	1.089
C11	H13	1.100	1.090
C11	H14	1.101	1.091
C12	H15	1.100	1.090
C12	H16	1.100	1.090
C14	H17	1.080	1.080
C16	H18	1.080	1.080
C19	H19	1.080	1.080
C23	H20	1.100	1.090
C23	H21	1.100	1.090
C23	H22	1.100	1.089

Bond Angles for 68P

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
F01	C21	C19	120.0	120.0
C21	C20	C16	119.8	120.0
C20	C21	C19	120.1	120.0
C21	C20	H4	120.1	120.0
C16	C20	H4	120.1	120.0
C20	C16	H18	119.7	120.0
C21	C19	H19	120.1	120.1
C17	C13	C07	120.9	120.2
C17	C13	H1	119.6	119.9
C17	C18	C24	120.3	120.1
C17	C18	C14	119.6	119.8
C18	C17	H3	120.0	120.1
N04	C24	C18	179.9	180.0
C19	C15	H2	119.8	120.0
C13	C07	C05	133.7	132.5
C13	C07	C08	118.9	120.3
C07	C13	H1	119.6	119.9
C24	C18	C14	120.1	120.1
C18	C14	H17	119.8	120.1
C15	C10	C05	119.3	120.0
C10	C15	H2	119.8	120.0
C10	C05	C06	108.2	110.1
C10	C05	O02	107.2	110.2
C07	C08	C11	107.4	107.3
C05	C06	C09	113.0	109.4
C05	C06	H9	108.6	109.5
C05	C06	H10	108.6	109.4
C05	O02	C11	109.1	105.0
O02	C11	C08	108.4	106.0
C08	C11	H13	109.7	110.2
C08	C11	H14	109.7	110.2
C06	C09	C12	109.5	109.5
C09	C06	H9	108.6	109.5
C09	C06	H10	108.6	109.5
C06	C09	H11	109.5	109.5
C06	C09	H12	109.5	109.5
O02	C11	H13	109.7	110.2
O02	C11	H14	109.8	110.1
N03	C12	C09	111.5	109.5
C12	C09	H11	109.5	109.4
C12	C09	H12	109.5	109.4
C09	C12	H15	108.9	109.5
C09	C12	H16	109.0	109.5
C22	N03	C12	110.8	111.0
N03	C22	H5	109.5	109.5
N03	C22	H6	109.5	109.5
N03	C22	H7	109.4	109.4
N03	C12	H15	109.0	109.5
N03	C12	H16	109.0	109.5
H5	C22	H6	109.4	109.5
H5	C22	H7	109.5	109.5
H6	C22	H7	109.5	109.4
H9	C06	H10	109.5	109.5
H11	C09	H12	109.5	109.5
H13	C11	H14	109.5	110.2
H15	C12	H16	109.5	109.4
H20	C23	H21	109.5	109.5
H20	C23	H22	109.5	109.5
H21	C23	H22	109.4	109.5

Torsion Angles for 68P

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
F01	C21	C20	C16	180.0	180.0
C20	C21	F01	C19	180.2	179.2
F01	C21	C20	H4	360.0	0.8
F01	C21	C19	H19	0.1	359.3
F01	C21	C20	C19	179.8	180.8
C16	C20	C21	H4	180.0	179.2
C21	C20	C16	H18	179.6	180.6
C20	C21	C19	H19	180.0	180.1
C16	C20	C21	C19	0.1	359.3
C21	C20	C16	H4	180.0	180.8
C19	C21	C20	C16	0.1	359.3
C19	C21	C20	H4	180.1	180.0
C21	C19	C15	H2	180.1	180.0
C16	C10	C15	H2	179.6	179.7
C17	C13	C07	C05	180.1	179.8
C17	C13	C07	C08	0.2	359.8
C07	C13	C17	H1	180.0	180.2
C18	C17	C13	C07	359.9	359.9
C18	C17	C13	H1	179.9	179.7
N04	C24	C18	C17	173.6	38.4
C24	C18	C17	C14	180.0	179.4
C17	C18	C14	H17	179.9	179.7
C17	C18	C24	N04	173.6	38.4
N04	C24	C18	C14	353.6	217.8
C10	C15	C19	H2	180.0	180.0
C17	C13	C07	H1	180.0	179.8
C13	C07	C08	C11	180.1	180.0
C17	C18	C24	C14	180.0	180.6
C24	C18	C17	H3	0.0	359.9
C24	C18	C14	H17	360.0	0.2
C17	C18	C14	C24	180.0	179.4
C14	C18	C17	H3	180.1	180.5
C19	C15	C10	H2	180.0	180.0
C15	C10	C05	C06	93.5	150.0
C15	C10	C05	O02	336.3	28.3
C13	C07	C05	C10	297.9	316.9
C05	C10	C15	H2	0.2	360.0
C10	C05	C06	C09	151.6	305.7
C10	C05	C06	H9	272.1	65.7
C10	C05	C06	H10	31.1	185.7
C10	C05	O02	C11	238.7	212.3
C13	C07	C05	C08	180.1	180.0
C05	C07	C13	H1	0.1	360.0
C07	C05	C06	C09	26.9	184.0
C07	C05	C06	H9	147.4	304.1
C07	C05	C06	H10	266.4	64.0
C07	C05	O02	C11	359.8	331.5
C13	C07	C08	C05	179.9	180.0
C08	C07	C13	H1	180.2	180.0
O02	C11	C08	C07	359.7	342.3
C07	C08	C11	H13	119.6	223.1
C07	C08	C11	H14	239.9	101.4
C17	C18	C14	C08	359.9	359.3
C24	C18	C14	C08	180.0	179.8
C14	C08	C11	H13	299.9	43.1
C14	C08	C11	H14	60.2	281.3
C13	C07	C05	C06	60.3	78.5
C10	C05	C06	O02	243.9	238.3
C06	C05	O02	C11	121.9	90.7
C05	C06	C09	C12	157.4	180.0
C09	C06	C05	H9	239.5	239.9
C09	C06	C05	H10	120.5	119.9
C05	C06	C09	H11	277.3	300.0
C05	C06	C09	H12	37.4	60.1
H9	C06	C05	H10	241.0	240.0
C13	C07	C05	O02	180.1	197.7
C10	C05	O02	C06	116.8	121.7
C05	O02	C11	C08	0.3	28.5
C05	O02	C11	H13	240.4	147.7
C05	O02	C11	H14	120.1	269.4
O02	C11	C08	H13	240.2	119.1
O02	C11	C08	H14	119.8	240.9
H13	C11	C08	H14	239.7	121.7
C23	N03	C22	H5	180.0	184.0
C23	N03	C22	H6	300.0	304.0
C23	N03	C22	H7	60.0	63.9
C23	N03	C12	H15	180.5	186.1
C23	N03	C12	H16	61.1	306.0
C05	C06	C09	H9	120.5	120.1
C05	C06	C09	H10	239.5	240.1
N03	C12	C09	C06	124.1	180.0
C12	C09	C06	H11	240.0	240.0
C12	C09	C06	H12	120.0	120.0
C06	C09	C12	H15	244.4	60.0
C06	C09	C12	H16	3.8	300.1
H9	C06	C09	H10	118.9	120.0
H11	C09	C06	H12	240.0	240.0
C07	C08	C11	O02	359.7	342.3
C08	C11	O02	H13	119.8	240.8
C08	C11	O02	H14	240.2	119.1
H13	C11	O02	H14	120.3	238.3
C12	C09	C06	H9	36.8	60.0
C12	C09	C06	H10	277.9	299.9
C06	C09	C12	H11	120.0	120.0
C06	C09	C12	H12	240.0	240.0
C22	N03	C12	C09	64.1	190.0
N03	C12	C09	H15	239.7	120.0
N03	C12	C09	H16	120.3	239.9
H11	C09	C12	H12	120.0	120.0
H15	C12	C09	H16	240.6	119.9
C22	N03	C12	H15	303.8	310.0
C22	N03	C12	H16	184.4	70.0
H5	C22	N03	H6	240.0	239.9
H5	C22	N03	H7	120.1	120.0
H6	C22	N03	H7	240.0	240.1
C06	C09	C12	N03	124.1	180.0
N03	C12	C09	H11	4.1	60.0
N03	C12	C09	H12	244.1	300.0
C09	C12	N03	H15	120.3	240.0
C09	C12	N03	H16	239.7	120.0
C12	N03	C22	H5	56.7	60.0
C12	N03	C22	H6	176.7	180.1
C12	N03	C22	H7	296.6	300.0
H15	C12	N03	H16	119.4	240.0
C17	C13	H1	C07	180.0	180.2
H1	C13	C07	C05	0.1	360.0
H1	C13	C07	C08	180.2	180.0
H2	C15	C10	C05	0.2	360.0
H3	C17	C13	C07	179.9	180.0
H3	C17	C13	H1	359.9	359.8
H3	C17	C18	C24	0.0	359.9
H3	C17	C18	C14	180.1	180.5
C21	C20	H4	C16	180.0	179.2
H4	C20	C21	C19	180.1	180.0
H4	C20	C16	H18	359.6	359.8
H5	C22	N03	C12	56.7	60.0
N03	C22	H5	H6	120.0	120.1
N03	C22	H5	H7	240.0	240.0
H6	C22	H5	H7	120.0	120.0
H6	C22	N03	C12	176.7	180.1
N03	C22	H6	H5	240.0	239.9
N03	C22	H6	H7	120.0	119.9
H5	C22	H6	H7	240.0	240.0
H7	C22	N03	C12	296.6	300.0
N03	C22	H7	H5	120.0	120.0
N03	C22	H7	H6	240.0	240.0
H5	C22	H7	H6	120.0	120.0
C05	C06	H9	C09	236.8	240.0
C05	C06	H9	H10	118.4	119.9
H9	C06	C09	C12	36.8	60.0
C09	C06	H9	H10	241.6	240.0
H9	C06	C09	H11	156.8	180.0
H9	C06	C09	H12	276.8	300.0
C05	C06	H10	C09	123.2	119.9
C05	C06	H10	H9	241.6	240.0
H10	C06	C09	C12	277.9	299.9
C09	C06	H10	H9	118.4	120.1
H10	C06	C09	H11	37.9	59.9
H10	C06	C09	H12	157.9	180.0
C06	C09	H11	C12	240.0	240.0
H11	C09	C06	H9	156.8	180.0
H11	C09	C06	H10	37.9	59.9
C06	C09	H11	H12	120.0	120.1
C12	C09	H11	H12	240.0	240.1
H11	C09	C12	H15	124.4	300.0
H11	C09	C12	H16	243.8	180.0
C06	C09	H12	C12	120.0	120.0
H12	C09	C06	H9	276.8	300.0
H12	C09	C06	H10	157.9	180.0
C06	C09	H12	H11	240.0	239.9
C12	C09	H12	H11	120.0	119.9
H12	C09	C12	H15	4.4	180.0
H12	C09	C12	H16	123.8	60.1
O02	C11	H13	C08	119.0	243.4
C08	C11	H13	H14	120.4	238.3
O02	C11	H13	H14	239.5	121.7
O02	C11	H14	C08	241.0	116.5
C08	C11	H14	H13	239.5	121.8
O02	C11	H14	H13	120.5	238.3
N03	C12	H15	C09	121.8	240.0
H15	C12	C09	H11	124.4	300.0
H15	C12	C09	H12	4.4	180.0
C09	C12	H15	H16	119.1	240.0
N03	C12	H15	H16	240.9	120.0
N03	C12	H16	C09	238.1	120.1
H16	C12	C09	H11	243.8	180.0
H16	C12	C09	H12	123.8	60.1
C09	C12	H16	H15	240.9	119.9
N03	C12	H16	H15	119.1	240.0
H18	C16	C20	H4	359.6	359.8
H19	C19	C15	H2	0.1	0.5
H21	C23	H20	H22	120.0	120.0
H20	C23	H21	H22	240.0	240.0
H20	C23	H22	H21	120.0	120.0