PDB Chemical Component REP

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 REP

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
RE	N1	2.162	2.091
RE	N2	2.174	2.092
RE	C1	1.952	2.149
RE	C2	1.931	2.150
RE	C3	1.946	2.150
N1	C7	1.340	1.389
N1	C11	1.366	1.394
N2	C12	1.377	1.394
N2	C16	1.340	1.389
O1	C1	1.153	1.004
O2	C2	1.141	1.004
O3	C3	1.114	1.004
C7	C8	1.398	1.345
C7	H71	1.080	1.084
C8	C9	1.344	1.410
C8	H81	1.080	1.084
C9	C10	1.424	1.388
C9	H91	1.080	1.079
C10	C11	1.412	1.471
C10	C17	1.443	1.459
C11	C12	1.435	1.323
C12	C13	1.406	1.471
C13	C14	1.390	1.389
C13	C18	1.440	1.458
C14	C15	1.364	1.410
C14	H141	1.080	1.079
C15	C16	1.406	1.346
C15	H151	1.080	1.083
C16	H161	1.080	1.083
C17	C18	1.350	1.354
C17	H171	1.080	1.080
C18	H181	1.080	1.079

Bond Angles for REP

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
N1	RE	N2	76.5	82.0
N1	RE	C1	95.1	90.0
N1	RE	C2	173.1	90.0
N1	RE	C3	99.0	90.1
RE	N1	C7	126.6	131.6
RE	N1	C11	114.9	108.4
N2	RE	C1	92.6	90.0
N2	RE	C2	97.8	90.0
N2	RE	C3	175.5	172.0
RE	N2	C12	114.4	108.4
RE	N2	C16	128.6	131.6
C1	RE	C2	88.9	180.0
C1	RE	C3	88.4	90.1
RE	C1	O1	178.6	179.9
C2	RE	C3	86.7	90.0
RE	C2	O2	178.6	180.0
RE	C3	O3	178.6	179.9
C7	N1	C11	118.5	120.0
N1	C7	C8	122.5	121.4
N1	C7	H71	118.8	119.3
N1	C11	C10	122.3	119.0
N1	C11	C12	117.3	120.6
C12	N2	C16	117.0	120.0
N2	C12	C11	116.9	120.6
N2	C12	C13	122.9	119.0
N2	C16	C15	123.3	121.4
N2	C16	H161	118.4	119.4
C8	C7	H71	118.7	119.2
C7	C8	C9	119.5	121.6
C7	C8	H81	120.2	119.2
C9	C8	H81	120.2	119.3
C8	C9	C10	120.6	119.6
C8	C9	H91	119.7	120.1
C10	C9	H91	119.7	120.2
C9	C10	C11	116.6	118.4
C9	C10	C17	125.5	121.9
C11	C10	C17	117.9	119.6
C10	C11	C12	120.4	120.4
C10	C17	C18	121.7	120.0
C10	C17	H171	119.2	120.0
C11	C12	C13	120.3	120.4
C12	C13	C14	117.4	118.4
C12	C13	C18	118.4	119.7
C14	C13	C18	124.2	121.9
C13	C14	C15	120.8	119.6
C13	C14	H141	119.6	120.3
C13	C18	C17	121.4	119.9
C13	C18	H181	119.3	120.0
C15	C14	H141	119.6	120.1
C14	C15	C16	118.6	121.6
C14	C15	H151	120.7	119.3
C16	C15	H151	120.7	119.1
C15	C16	H161	118.4	119.3
C18	C17	H171	119.1	120.0
C17	C18	H181	119.3	120.0

Torsion Angles for REP

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
N2	RE	N1	C1	91.5	270.0
N2	RE	N1	C2	326.2	90.0
N2	RE	N1	C3	180.7	180.0
N1	RE	N2	C12	359.4	0.2
N1	RE	N2	C16	179.5	180.1
C1	RE	N1	C2	234.7	180.0
C1	RE	N1	C3	89.2	269.9
N1	RE	C1	O1	67.0	76.7
C2	RE	N1	C3	214.5	90.0
N1	RE	C2	O2	182.7	355.8
N1	RE	C3	O3	312.5	312.1
C7	N1	RE	C11	180.2	179.8
RE	N1	C7	C8	181.1	179.8
RE	N1	C7	H71	1.1	359.9
RE	N1	C11	C10	179.1	180.2
RE	N1	C11	C12	359.5	0.1
N1	RE	N2	C1	265.4	90.0
N1	RE	N2	C2	176.2	270.0
N1	RE	N2	C3	8.5	359.7
N2	RE	N1	C7	180.8	179.7
N2	RE	N1	C11	0.6	359.9
C1	RE	N2	C2	270.8	180.0
C1	RE	N2	C3	103.1	269.7
N2	RE	C1	O1	350.3	158.7
C2	RE	N2	C3	192.3	89.7
N2	RE	C2	O2	215.7	273.9
N2	RE	C3	O3	320.8	311.8
C12	N2	RE	C16	179.9	180.1
RE	N2	C12	C11	0.6	359.8
RE	N2	C12	C13	181.0	179.9
RE	N2	C16	C15	179.1	180.1
RE	N2	C16	H161	359.1	0.1
N1	RE	C1	N2	76.7	278.0
N1	RE	C1	C2	174.4	259.0
N1	RE	C1	C3	261.1	90.1
C1	RE	N1	C7	89.3	269.7
C1	RE	N1	C11	269.1	89.9
N2	RE	C1	C2	97.7	340.9
N2	RE	C1	C3	184.4	172.0
C1	RE	N2	C12	94.0	270.2
C1	RE	N2	C16	274.1	90.1
C2	RE	C1	C3	86.7	191.1
C1	RE	C2	O2	308.2	254.8
C1	RE	C3	O3	217.6	42.1
N1	RE	C2	N2	326.9	82.0
N1	RE	C2	C1	234.4	101.0
N1	RE	C2	C3	146.0	269.9
C2	RE	N1	C7	214.6	89.7
C2	RE	N1	C11	34.4	269.9
N2	RE	C2	C1	267.5	19.1
N2	RE	C2	C3	179.0	188.0
C2	RE	N2	C12	183.2	90.2
C2	RE	N2	C16	3.3	270.1
C1	RE	C2	C3	271.5	168.9
C2	RE	C1	O1	252.6	177.7
C2	RE	C3	O3	128.6	222.1
N1	RE	C3	N2	351.7	0.3
N1	RE	C3	C1	94.9	270.0
N1	RE	C3	C2	183.9	90.0
C3	RE	N1	C7	0.1	359.7
C3	RE	N1	C11	179.9	179.9
N2	RE	C3	C1	103.2	269.7
N2	RE	C3	C2	192.2	89.7
C3	RE	N2	C12	350.9	0.5
C3	RE	N2	C16	171.0	180.4
C1	RE	C3	C2	89.0	180.0
C3	RE	C1	O1	165.9	346.6
C3	RE	C2	O2	36.7	85.9
C7	N1	RE	N2	180.8	179.7
C7	N1	RE	C1	89.3	269.7
C7	N1	RE	C2	214.6	89.7
C7	N1	RE	C3	0.1	359.7
RE	N1	C7	C11	179.8	180.2
C7	N1	C11	C10	358.9	0.4
C7	N1	C11	C12	179.3	180.3
C8	C7	N1	H71	180.0	179.9
N1	C7	C8	C9	358.7	0.1
N1	C7	C8	H81	178.8	180.1
C11	N1	RE	N2	0.6	359.9
C11	N1	RE	C1	269.1	89.9
C11	N1	RE	C2	34.4	269.9
C11	N1	RE	C3	179.9	179.9
RE	N1	C11	C7	180.2	179.8
C11	N1	C7	C8	1.3	359.6
C11	N1	C7	H71	181.3	179.7
N2	C12	C11	N1	360.0	0.0
C9	C10	C11	N1	0.8	359.8
N1	C11	C10	C17	180.4	179.8
C10	C11	N1	C12	179.6	180.1
N1	C11	C12	C13	179.6	180.0
C12	N2	RE	C1	94.0	270.2
C12	N2	RE	C2	183.2	90.2
C12	N2	RE	C3	350.9	0.5
RE	N2	C12	C16	180.1	179.9
N1	C11	C12	N2	360.0	0.0
C12	N2	C16	C15	359.2	0.0
C12	N2	C16	H161	179.2	180.0
C10	C11	C12	N2	180.3	179.9
C11	C12	N2	C13	179.6	180.0
N2	C12	C13	C14	359.1	0.1
N2	C12	C13	C18	179.9	180.1
C16	N2	RE	C1	274.1	90.1
C16	N2	RE	C2	3.3	270.1
C16	N2	RE	C3	171.0	180.4
RE	N2	C16	C12	179.9	180.1
C16	N2	C12	C11	180.5	179.9
C16	N2	C12	C13	0.9	359.9
C14	C15	C16	N2	0.8	0.0
N2	C16	C15	H151	180.8	180.1
C15	C16	N2	H161	180.0	180.0
O1	C1	RE	C2	252.6	177.7
O1	C1	RE	C3	165.9	346.6
O2	C2	RE	C3	36.7	85.9
C8	C7	N1	C11	1.3	359.6
N1	C7	C8	H71	180.0	180.1
C9	C8	C7	H81	180.0	180.0
C7	C8	C9	C10	1.0	0.1
C7	C8	C9	H91	181.0	180.1
H71	C7	N1	C11	181.3	179.7
N1	C7	H71	C8	180.0	179.9
H71	C7	C8	C9	178.8	180.0
H71	C7	C8	H81	358.8	0.1
C9	C8	C7	H71	178.8	180.0
C7	C8	C9	H81	180.0	180.0
C10	C9	C8	H91	180.0	180.0
C8	C9	C10	C11	359.3	359.9
C8	C9	C10	C17	179.7	179.9
H81	C8	C7	H71	358.8	0.1
C7	C8	H81	C9	180.0	180.0
H81	C8	C9	C10	180.9	180.1
H81	C8	C9	H91	1.0	0.1
N1	C11	C10	C9	0.8	359.8
C10	C9	C8	H81	180.9	180.1
C8	C9	C10	H91	180.0	180.0
C11	C10	C9	C17	179.5	180.0
C9	C10	C11	C12	180.4	180.0
C9	C10	C17	C18	179.3	180.1
C9	C10	C17	H171	359.3	0.1
H91	C9	C8	H81	1.0	0.1
C8	C9	H91	C10	180.0	180.0
H91	C9	C10	C11	179.2	179.9
H91	C9	C10	C17	359.7	359.9
N1	C11	C10	C12	180.4	179.9
N2	C12	C11	C10	180.3	179.9
C11	C10	C9	H91	179.2	179.9
C9	C10	C11	C17	180.4	180.0
C11	C10	C17	C18	359.8	0.1
C11	C10	C17	H171	179.8	180.1
C10	C11	C12	C13	360.0	359.9
C17	C10	C9	H91	359.7	359.9
C9	C10	C17	C11	179.5	180.0
C17	C10	C11	C12	360.0	360.0
C13	C18	C17	C10	0.5	359.9
C18	C17	C10	H171	180.0	180.0
C10	C17	C18	H181	180.5	180.0
N1	C11	C12	C10	179.6	180.1
C11	C12	N2	C16	180.5	179.9
N2	C12	C11	C13	180.4	180.0
C12	C11	C10	C17	360.0	360.0
C11	C12	C13	C14	179.5	180.1
C11	C12	C13	C18	0.3	0.2
C13	C12	N2	C16	0.9	359.9
N2	C12	C13	C11	179.6	180.0
C14	C13	C12	C18	179.2	179.9
C12	C13	C14	C15	0.8	0.0
C12	C13	C14	H141	180.9	179.9
C12	C13	C18	C17	359.5	359.9
C12	C13	C18	H181	179.5	179.8
C12	C13	C14	C18	180.8	180.1
C14	C13	C18	C17	180.3	180.0
C14	C13	C18	H181	0.3	359.9
C15	C14	C13	H141	180.0	180.1
C13	C14	C15	C16	359.2	359.9
C13	C14	C15	H151	179.2	179.9
C10	C17	C18	C13	0.5	359.9
C12	C13	C18	C14	179.2	179.9
C18	C13	C14	C15	180.0	179.9
C18	C13	C14	H141	0.0	359.8
C13	C18	C17	H171	180.5	180.0
C17	C18	C13	H181	180.0	180.1
N2	C16	C15	C14	0.8	0.0
C15	C14	C13	C18	180.0	179.9
C13	C14	C15	H141	180.0	179.9
C16	C15	C14	H151	180.0	180.0
C14	C15	C16	H161	180.8	180.0
H141	C14	C13	C18	0.0	359.8
C13	C14	H141	C15	180.0	180.1
H141	C14	C15	C16	179.2	180.0
H141	C14	C15	H151	359.2	0.0
N2	C16	C15	H161	180.0	180.0
C16	C15	C14	H141	179.2	180.0
C14	C15	C16	H151	180.0	180.0
H151	C15	C14	H141	359.2	0.0
C14	C15	H151	C16	180.0	180.0
H151	C15	C16	H161	0.8	0.0
N2	C16	H161	C15	180.0	180.0
H161	C16	C15	H151	0.8	0.0
C10	C17	C18	H171	180.0	180.0
C13	C18	C17	H181	180.0	179.9
C10	C17	H171	C18	180.0	180.0
H171	C17	C18	H181	0.5	0.0
C13	C18	H181	C17	180.0	180.1
H181	C18	C17	H171	0.5	0.0