PDB Chemical Component 36U

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 36U

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
O1	C2	1.352	1.349
S5	C4	1.777	1.762
S5	C6	1.787	1.762
CL2	C17	1.741	1.736
C2	C4	1.359	1.349
C2	C3	1.509	1.505
CL1	C11	1.747	1.737
C4	C13	1.419	1.408
C3	C15	1.538	1.532
C13	O2	1.221	1.215
C13	C14	1.515	1.507
C6	C11	1.407	1.391
C6	C7	1.400	1.390
C11	C10	1.390	1.381
C14	C15	1.538	1.532
C17	C19	1.391	1.383
C17	C16	1.395	1.383
C15	C16	1.525	1.506
C7	C8	1.389	1.380
C19	C20	1.382	1.382
C16	C22	1.391	1.384
C10	C9	1.387	1.383
C8	C9	1.386	1.383
C20	C21	1.380	1.383
C22	C21	1.387	1.383
C22	CL3	1.735	1.735
C14	H1	1.100	1.090
C14	H2	1.100	1.090
C7	H3	1.080	1.080
C8	H4	1.080	1.081
C9	H5	1.080	1.080
C10	H6	1.081	1.080
C3	H7	1.100	1.090
C3	H8	1.100	1.090
O1	H9	0.950	0.968
C15	H10	1.100	1.090
C19	H11	1.080	1.080
C20	H12	1.080	1.080
C21	H13	1.080	1.080

Bond Angles for 36U

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C2	O1	H9	109.5	114.0
CL2	C17	C19	117.9	120.0
C2	C3	C15	108.9	109.5
C2	C3	H7	109.6	109.4
C2	C3	H8	109.6	109.5
C4	C13	O2	119.8	119.7
C4	C13	C14	120.7	120.5
C14	C15	C3	108.4	108.9
C3	C15	C16	112.1	109.6
C15	C3	H7	109.6	109.4
C15	C3	H8	109.6	109.5
C3	C15	H10	107.5	109.5
C13	C14	C15	108.1	109.1
C13	C14	H1	109.8	109.5
C13	C14	H2	109.8	109.6
C11	C6	C7	118.4	119.8
C6	C11	C10	119.8	120.0
C6	C7	C8	121.2	119.9
C6	C7	H3	119.4	120.0
C11	C10	C9	121.1	120.0
C11	C10	H6	119.4	120.0
C14	C15	C16	113.6	109.6
C15	C14	H1	109.8	109.6
C15	C14	H2	109.9	109.5
C14	C15	H10	107.4	109.5
C17	C19	C20	121.1	120.0
C17	C19	H11	119.4	120.1
C17	C16	C22	118.6	119.9
C15	C16	C22	117.4	120.0
C16	C15	H10	107.6	109.7
C7	C8	C9	120.0	120.1
C8	C7	H3	119.4	120.1
C7	C8	H4	120.0	119.9
C19	C20	C21	119.5	120.0
C20	C19	H11	119.5	119.9
C19	C20	H12	120.3	120.0
C16	C22	C21	121.4	120.0
C16	C22	CL3	119.3	120.0
C10	C9	H5	120.2	119.9
C9	C8	H4	120.0	120.0
C8	C9	H5	120.2	119.9
C21	C20	H12	120.3	119.9
C20	C21	H13	120.1	120.0
C22	C21	H13	120.1	120.0
H1	C14	H2	109.4	109.5
H7	C3	H8	109.5	109.5

Torsion Angles for 36U

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
O1	C2	C3	C15	150.0	150.2
O1	C2	C3	H7	269.9	270.1
O1	C2	C3	H8	30.1	30.1
S5	C4	C13	O2	0.2	359.9
S5	C6	C7	H3	0.4	0.3
CL2	C17	C19	C20	180.2	180.0
CL2	C17	C19	H11	0.2	359.9
CL2	C17	C16	C22	180.0	180.3
C2	C4	C13	O2	180.1	180.2
C14	C15	C3	C2	59.5	57.6
C2	C3	C15	C16	185.6	177.4
C15	C3	C2	H7	240.1	240.0
C15	C3	C2	H8	119.9	120.0
C2	C3	C15	H10	303.6	297.8
H7	C3	C2	H8	239.8	240.0
CL1	C11	C10	H6	359.7	359.9
C4	C13	C14	C15	30.2	28.7
C4	C13	C14	H1	150.0	148.6
C4	C13	C14	H2	270.4	268.8
C2	C3	C15	H7	119.9	120.0
C2	C3	C15	H8	240.1	240.0
C13	C14	C15	C3	300.9	303.2
C14	C15	C3	C16	233.8	240.2
C3	C15	C14	H1	181.1	183.3
C3	C15	C14	H2	60.7	63.1
C14	C15	C3	H10	115.8	119.8
C3	C15	C16	C22	117.2	120.6
C16	C15	C3	H10	242.0	239.6
H7	C3	C15	H8	120.2	120.0
C4	C13	O2	C14	179.8	180.1
O2	C13	C14	C15	210.0	208.8
O2	C13	C14	H1	329.8	328.7
O2	C13	C14	H2	90.2	88.9
C4	C13	C14	O2	180.2	179.9
C13	C14	C15	C16	175.6	183.4
C15	C14	C13	H1	240.2	240.1
C15	C14	C13	H2	119.8	119.9
C13	C14	C15	H10	56.8	63.0
H1	C14	C13	H2	239.6	239.8
C11	C6	C7	C8	0.5	0.1
C11	C6	C7	H3	180.5	180.1
C6	C11	C10	C9	0.3	0.1
C6	C11	C10	H6	180.3	180.0
C7	C6	C11	C10	359.4	359.9
C6	C7	C8	C9	359.7	360.0
C8	C7	C6	H3	180.0	180.0
C6	C7	C8	H4	179.7	180.0
C10	C11	C6	C7	359.4	359.9
C11	C10	C9	H5	179.9	180.0
C2	C3	C15	C14	59.5	57.6
C3	C15	C14	C16	125.3	119.8
C14	C15	C3	H7	299.5	297.6
C14	C15	C3	H8	179.4	177.6
C3	C15	C14	H10	244.2	240.2
C13	C14	C15	H1	119.8	119.9
C13	C14	C15	H2	240.2	240.1
C14	C15	C16	C22	240.5	240.0
C16	C15	C14	H10	118.8	120.4
H1	C14	C15	H2	120.4	120.2
C19	C17	C16	C22	0.4	0.2
C17	C19	C20	C21	359.9	0.0
C20	C19	C17	H11	180.0	180.0
C17	C19	C20	H12	179.9	179.9
C15	C16	C17	C22	179.5	179.8
C17	C16	C15	H10	179.8	180.6
C17	C16	C22	C21	359.6	359.5
C17	C16	C22	CL3	180.2	179.7
C14	C15	C16	C3	123.3	119.4
C16	C15	C3	H7	65.7	57.4
C16	C15	C3	H8	305.6	297.5
C3	C15	C16	H10	117.9	120.3
C16	C15	C14	H1	55.8	63.5
C16	C15	C14	H2	295.4	303.3
C14	C15	C16	H10	241.3	239.7
C17	C16	C15	C22	180.5	180.2
C15	C16	C22	C21	180.1	179.7
C15	C16	C22	CL3	0.7	359.9
C6	C7	C8	H3	180.0	180.0
C9	C8	C7	H4	180.0	180.0
C7	C8	C9	H5	180.0	180.0
C17	C19	C20	H11	180.0	180.0
C21	C20	C19	H12	180.0	180.1
C19	C20	C21	H13	180.1	180.0
C22	C16	C15	H10	359.2	0.3
C16	C22	C21	H13	180.1	180.3
C11	C10	C9	H6	180.0	179.9
C10	C9	C8	H4	180.0	180.0
C8	C9	C10	H5	180.0	180.0
C11	C10	C9	C8	359.9	360.0
C9	C8	C7	H3	179.7	180.0
C7	C8	C9	H4	180.0	180.0
C10	C9	C8	H5	180.0	180.0
C21	C20	C19	H11	179.9	180.1
C19	C20	C21	H12	180.0	179.9
C16	C22	C21	C20	0.2	0.5
C22	C21	C20	H13	180.0	179.7
C16	C22	C21	CL3	180.6	180.2
C22	C21	C20	H12	180.1	179.8
C20	C21	C22	H13	180.0	180.3
C16	C22	CL3	C21	179.5	179.8
CL3	C22	C21	H13	359.6	0.1
H1	C14	C15	C3	181.1	183.3
C13	C14	H1	C15	241.3	240.4
C13	C14	H1	H2	120.6	120.2
H1	C14	C15	C16	55.8	63.5
C15	C14	H1	H2	239.3	239.8
H1	C14	C15	H10	297.0	303.1
H2	C14	C15	C3	60.7	63.1
C13	C14	H2	C15	118.7	119.6
C13	C14	H2	H1	239.4	239.8
H2	C14	C15	C16	295.4	303.3
C15	C14	H2	H1	120.6	120.2
H2	C14	C15	H10	176.6	182.9
C6	C7	H3	C8	180.0	180.0
H3	C7	C8	C9	179.7	180.0
H3	C7	C8	H4	359.7	0.0
C7	C8	H4	C9	180.0	180.0
H4	C8	C7	H3	359.7	0.0
H4	C8	C9	H5	0.0	359.9
H5	C9	C8	H4	0.0	359.9
C11	C10	H6	C9	180.0	180.1
H6	C10	C9	H5	359.9	0.1
C2	C3	H7	C15	240.5	240.0
C2	C3	H7	H8	120.3	120.0
H7	C3	C15	C16	65.7	57.4
C15	C3	H7	H8	239.7	240.0
H7	C3	C15	H10	183.7	177.8
C2	C3	H8	C15	119.5	120.1
C2	C3	H8	H7	239.7	240.0
H8	C3	C15	C16	305.6	297.5
C15	C3	H8	H7	120.3	120.0
H8	C3	C15	H10	63.6	57.9
C14	C15	H10	C3	243.5	240.7
C3	C15	H10	C16	239.1	239.7
H10	C15	C3	H7	183.7	177.8
H10	C15	C3	H8	63.6	57.9
C14	C15	H10	C16	122.6	120.3
H10	C15	C14	H1	297.0	303.1
H10	C15	C14	H2	176.6	182.9
H10	C15	C16	C22	359.2	0.3
C17	C19	H11	C20	180.0	180.0
H11	C19	C20	C21	179.9	180.1
H11	C19	C20	H12	359.9	360.0
C19	C20	H12	C21	180.0	180.1
H12	C20	C19	H11	359.9	360.0
H12	C20	C21	H13	0.1	0.0
H13	C21	C20	H12	0.1	0.0