PDB Chemical Component BMU

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 BMU

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
C1	O1	1.245	1.215
C1	N2	1.331	1.348
C1	N9	1.336	1.347
N2	C3	1.332	1.400
N2	H2	1.020	0.970
C3	C4	1.353	1.389
C3	C8	1.352	1.387
C4	C5	1.380	1.380
C4	H4	1.104	1.080
C5	C6	1.329	1.384
C5	H5	1.102	1.081
C6	CL6	1.741	1.735
C6	C7	1.359	1.384
C7	C8	1.396	1.382
C7	H7	1.103	1.080
C8	H8	1.104	1.081
N9	C10	1.333	1.395
N9	H9	1.020	0.970
C10	C14	1.361	1.360
C10	N11	1.321	1.353
C14	C13	1.383	1.397
C14	H14	1.102	1.080
C13	N12	1.332	1.307
C13	C16	1.380	1.507
N12	N11	1.398	1.401
N11	C15	1.469	1.465
C15	H151	1.116	1.090
C15	H152	1.115	1.089
C15	H153	1.115	1.089
C17	C16	1.544	1.530
C17	H171	1.116	1.090
C17	H172	1.116	1.089
C17	H173	1.114	1.090
C18	C16	1.550	1.530
C18	H181	1.116	1.090
C18	H182	1.115	1.090
C18	H183	1.115	1.090
C19	C16	1.539	1.530
C19	H191	1.116	1.089
C19	H192	1.114	1.090
C19	H193	1.115	1.090

Bond Angles for BMU

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
O1	C1	N2	120.1	120.0
O1	C1	N9	122.0	120.0
N2	C1	N9	117.9	119.9
C1	N2	C3	125.3	119.9
C1	N2	H2	106.6	120.0
C1	N9	C10	125.1	120.0
C1	N9	H9	117.6	120.0
C3	N2	H2	106.7	120.0
N2	C3	C4	117.4	120.0
N2	C3	C8	122.4	120.1
C4	C3	C8	120.1	119.9
C3	C4	C5	120.4	119.9
C3	C4	H4	118.8	120.0
C3	C8	C7	119.2	120.0
C3	C8	H8	118.9	120.0
C5	C4	H4	120.8	120.0
C4	C5	C6	119.8	120.1
C4	C5	H5	121.9	120.0
C6	C5	H5	118.3	119.9
C5	C6	CL6	118.5	120.0
C5	C6	C7	120.8	120.1
CL6	C6	C7	120.7	120.0
C6	C7	C8	119.6	120.1
C6	C7	H7	118.9	120.0
C8	C7	H7	121.5	120.0
C7	C8	H8	122.0	120.0
C10	N9	H9	117.3	120.0
N9	C10	C14	127.3	126.2
N9	C10	N11	123.8	126.2
C14	C10	N11	108.7	107.6
C10	C14	C13	106.4	107.8
C10	C14	H14	126.2	126.1
C10	N11	N12	109.3	107.9
C10	N11	C15	125.5	126.1
C13	C14	H14	127.3	126.1
C14	C13	N12	109.7	108.4
C14	C13	C16	126.1	125.8
N12	C13	C16	124.2	125.8
C13	N12	N11	105.8	108.4
C13	C16	C17	110.4	109.5
C13	C16	C18	109.6	109.5
C13	C16	C19	110.5	109.5
N12	N11	C15	125.3	126.1
N11	C15	H151	125.5	109.4
N11	C15	H152	106.6	109.5
N11	C15	H153	106.6	109.5
H151	C15	H152	106.5	109.4
H151	C15	H153	106.5	109.5
H152	C15	H153	103.0	109.5
C16	C17	H171	110.4	109.5
C16	C17	H172	111.8	109.5
C16	C17	H173	111.9	109.5
C17	C16	C18	108.6	109.5
C17	C16	C19	109.6	109.5
H171	C17	H172	111.8	109.5
H171	C17	H173	111.9	109.5
H172	C17	H173	98.6	109.4
C16	C18	H181	109.6	109.5
C16	C18	H182	112.2	109.4
C16	C18	H183	112.2	109.5
C18	C16	C19	108.1	109.5
H181	C18	H182	112.1	109.5
H181	C18	H183	112.1	109.5
H182	C18	H183	98.2	109.4
C16	C19	H191	110.5	109.5
C16	C19	H192	111.8	109.4
C16	C19	H193	111.8	109.5
H191	C19	H192	111.9	109.5
H191	C19	H193	111.8	109.5
H192	C19	H193	98.6	109.5

Torsion Angles for BMU

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
N2	C1	O1	N9	181.4	180.0
O1	C1	N2	C3	357.2	354.3
O1	C1	N2	H2	232.0	174.4
O1	C1	N9	C10	2.5	360.0
O1	C1	N9	H9	182.5	180.0
O1	C1	N2	N9	178.6	180.0
N2	C1	N9	C10	181.0	180.0
N2	C1	N9	H9	1.1	0.0
C3	N2	C1	H2	125.3	179.9
C1	N2	C3	C4	220.7	146.8
C1	N2	C3	C8	41.9	326.5
O1	C1	N9	N2	181.4	180.0
N9	C1	N2	C3	178.6	174.3
N9	C1	N2	H2	53.4	354.4
C10	N9	C1	H9	180.0	180.0
C1	N9	C10	C14	42.0	0.1
C1	N9	C10	N11	218.6	179.5
C3	N2	C1	N9	178.6	174.3
C1	N2	C3	H2	234.8	180.1
C4	C3	N2	C8	178.8	180.3
N2	C3	C4	C5	181.2	180.0
N2	C3	C4	H4	1.2	359.9
N2	C3	C8	C7	178.6	179.8
N2	C3	C8	H8	358.6	0.3
H2	N2	C1	N9	53.4	354.4
C1	N2	H2	C3	135.9	179.9
H2	N2	C3	C4	345.9	326.8
H2	N2	C3	C8	167.1	146.4
C4	C3	N2	H2	345.9	326.8
N2	C3	C4	C8	181.1	179.7
C4	C3	C8	C7	359.8	359.4
C4	C3	C8	H8	179.8	179.9
C5	C4	C3	H4	180.0	180.1
C3	C4	C5	C6	0.1	360.0
C3	C4	C5	H5	180.1	179.9
C8	C3	N2	H2	167.1	146.4
N2	C3	C8	C4	178.8	180.3
C8	C3	C4	C5	0.1	0.3
C8	C3	C4	H4	180.1	180.2
C6	C7	C8	C3	0.1	0.5
C3	C8	C7	H7	180.1	180.3
C7	C8	C3	H8	180.0	179.5
C5	C4	C3	C8	0.1	0.3
C3	C4	C5	H4	180.0	179.9
C6	C5	C4	H5	180.0	180.0
C4	C5	C6	CL6	179.2	180.0
C4	C5	C6	C7	359.8	360.0
H4	C4	C3	C8	180.1	180.2
C3	C4	H4	C5	180.0	180.1
H4	C4	C5	C6	180.1	180.1
H4	C4	C5	H5	0.1	0.0
C6	C5	C4	H4	180.1	180.1
C4	C5	C6	H5	180.0	180.0
CL6	C6	C5	C7	179.3	180.0
C5	C6	C7	C8	0.1	359.8
C5	C6	C7	H7	180.1	180.0
H5	C5	C4	H4	0.1	0.0
C4	C5	H5	C6	180.0	180.0
H5	C5	C6	CL6	359.2	0.0
H5	C5	C6	C7	179.8	180.0
CL6	C6	C5	H5	359.2	0.0
C5	C6	CL6	C7	180.7	180.0
CL6	C6	C7	C8	180.8	179.8
CL6	C6	C7	H7	0.8	360.0
C3	C8	C7	C6	0.1	0.5
C7	C6	C5	H5	179.8	180.0
C5	C6	C7	CL6	179.3	180.0
C8	C7	C6	H7	180.0	179.8
C6	C7	C8	H8	180.1	180.0
C3	C8	C7	H8	180.0	180.5
C6	C7	C8	H7	180.0	180.2
C6	C7	H7	C8	180.0	179.8
H7	C7	C8	H8	0.1	359.8
C3	C8	H8	C7	180.0	179.5
H8	C8	C7	H7	0.1	359.8
C1	N9	C10	H9	180.0	180.0
C14	C10	N9	N11	183.4	180.5
N9	C10	C14	C13	176.9	180.0
N9	C10	C14	H14	356.9	359.6
N9	C10	N11	N12	183.2	180.0
N9	C10	N11	C15	3.7	0.3
C1	N9	H9	C10	180.0	180.0
H9	N9	C10	C14	221.9	180.0
H9	N9	C10	N11	38.5	359.5
C14	C10	N9	H9	221.9	180.0
N9	C10	C14	N11	177.0	179.5
C14	C10	N11	N12	0.4	359.5
C14	C10	N11	C15	180.9	179.9
C13	C14	C10	H14	180.0	180.4
C10	C14	C13	N12	359.8	359.7
C10	C14	C13	C16	178.5	179.7
N11	C10	N9	H9	38.5	359.5
N9	C10	N11	C14	182.8	180.5
N11	C10	C14	C13	359.9	0.5
N11	C10	C14	H14	179.9	180.1
C13	N12	N11	C10	359.5	0.3
N12	N11	C10	C15	179.5	179.7
C10	N11	C15	H151	180.0	269.7
C10	N11	C15	H152	305.2	29.6
C10	N11	C15	H153	54.7	149.7
C13	C14	C10	N11	359.9	0.5
C10	C14	C13	H14	180.0	179.6
N12	C13	C14	C16	181.3	179.9
C14	C13	N12	N11	0.4	0.0
C14	C13	C16	C17	303.8	179.9
C14	C13	C16	C18	184.2	299.9
C14	C13	C16	C19	65.2	59.9
H14	C14	C10	N11	179.9	180.1
C10	C14	H14	C13	180.0	180.5
H14	C14	C13	N12	179.8	180.1
H14	C14	C13	C16	358.4	0.2
C10	N11	N12	C13	359.5	0.3
N12	C13	C14	H14	179.8	180.1
C14	C13	N12	C16	178.7	180.1
N12	C13	C16	C17	122.2	0.0
N12	C13	C16	C18	2.7	120.0
N12	C13	C16	C19	243.7	240.0
C13	N12	N11	C15	179.0	180.0
C16	C13	C14	H14	358.4	0.2
C14	C13	C16	N12	181.5	179.9
C16	C13	N12	N11	181.7	180.0
C13	C16	C17	H171	180.0	180.0
C13	C16	C17	H172	305.2	300.0
C13	C16	C17	H173	54.8	60.0
C17	C16	C13	C18	119.6	240.0
C17	C16	C13	C19	238.6	120.0
C13	C16	C18	H181	180.0	300.0
C13	C16	C18	H182	305.3	60.0
C13	C16	C18	H183	54.7	179.9
C18	C16	C13	C19	119.0	240.0
C13	C16	C19	H191	180.0	60.0
C13	C16	C19	H192	305.3	180.0
C13	C16	C19	H193	54.8	300.0
C10	N11	N12	C15	180.5	180.3
N11	N12	C13	C16	181.7	180.0
N12	N11	C15	H151	0.6	90.1
N12	N11	C15	H152	125.8	210.0
N12	N11	C15	H153	235.3	330.1
C10	N11	C15	N12	179.4	179.6
H151	C15	N11	H152	234.8	240.1
H151	C15	N11	H153	125.3	119.9
H152	C15	N11	H153	250.5	239.9
N11	C15	H151	H152	125.2	120.0
N11	C15	H151	H153	234.7	240.0
H152	C15	H151	H153	109.5	120.1
N11	C15	H152	H151	224.0	240.1
N11	C15	H152	H153	112.0	120.1
H151	C15	H152	H153	248.1	240.0
N11	C15	H153	H151	136.1	119.9
N11	C15	H153	H152	248.0	239.9
H151	C15	H153	H152	111.9	120.0
C13	C16	C17	C18	239.8	120.0
C13	C16	C17	C19	122.0	240.0
H171	C17	C16	H172	234.8	240.0
H171	C17	C16	H173	125.3	120.0
H172	C17	C16	H173	250.5	240.0
C17	C16	C18	H181	59.3	60.0
C17	C16	C18	H182	184.5	180.0
C17	C16	C18	H183	294.0	299.9
C18	C16	C17	C19	242.2	120.0
C17	C16	C19	H191	301.9	300.0
C17	C16	C19	H192	67.2	60.0
C17	C16	C19	H193	176.7	180.0
C16	C17	H171	H172	125.2	120.0
C16	C17	H171	H173	234.7	240.0
H171	C17	C16	C18	300.2	60.0
H171	C17	C16	C19	58.1	300.0
H172	C17	H171	H173	109.5	120.0
C16	C17	H172	H171	235.6	240.0
C16	C17	H172	H173	117.8	120.0
H172	C17	C16	C18	65.4	180.0
H172	C17	C16	C19	183.3	60.0
H171	C17	H172	H173	242.2	240.0
C16	C17	H173	H171	124.5	120.0
C16	C17	H173	H172	242.2	240.0
H173	C17	C16	C18	174.9	300.0
H173	C17	C16	C19	292.8	180.0
H171	C17	H173	H172	117.8	120.0
C13	C16	C18	C17	120.7	240.0
C13	C16	C18	C19	239.5	120.0
C18	C16	C17	H171	300.2	60.0
C18	C16	C17	H172	65.4	180.0
C18	C16	C17	H173	174.9	300.0
C17	C16	C18	C19	118.8	240.0
H181	C18	C16	H182	234.8	240.0
H181	C18	C16	H183	125.3	120.1
H182	C18	C16	H183	250.5	240.0
C18	C16	C19	H191	60.0	180.0
C18	C16	C19	H192	185.4	300.0
C18	C16	C19	H193	294.8	60.0
C16	C18	H181	H182	125.3	120.0
C16	C18	H181	H183	234.7	239.9
H181	C18	C16	C19	300.5	180.0
H182	C18	H181	H183	109.4	120.0
C16	C18	H182	H181	236.1	240.0
C16	C18	H182	H183	118.1	120.0
H182	C18	C16	C19	65.8	300.0
H181	C18	H182	H183	242.0	240.0
C16	C18	H183	H181	123.9	120.0
C16	C18	H183	H182	241.9	240.0
H183	C18	C16	C19	175.2	60.0
H181	C18	H183	H182	118.0	120.0
C13	C16	C19	C17	238.1	120.0
C13	C16	C19	C18	119.9	240.0
C19	C16	C17	H171	58.1	300.0
C19	C16	C17	H172	183.3	60.0
C19	C16	C17	H173	292.8	180.0
C17	C16	C19	C18	241.9	120.0
C19	C16	C18	H181	300.5	180.0
C19	C16	C18	H182	65.8	300.0
C19	C16	C18	H183	175.2	60.0
H191	C19	C16	H192	234.6	240.0
H191	C19	C16	H193	125.2	120.0
H192	C19	C16	H193	250.5	240.0
C16	C19	H191	H192	125.3	120.0
C16	C19	H191	H193	234.8	240.0
H192	C19	H191	H193	109.5	120.0
C16	C19	H192	H191	235.4	240.0
C16	C19	H192	H193	117.7	120.0
H191	C19	H192	H193	242.3	240.0
C16	C19	H193	H191	124.5	120.0
C16	C19	H193	H192	242.3	240.0
H191	C19	H193	H192	117.8	120.1