PDB Chemical Component F37

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 F37

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
O	C2	1.267	1.215
C2	N1	1.338	1.337
C2	N	1.332	1.346
N1	C3	1.330	1.348
C3	O1	1.281	1.212
C3	C1	1.483	1.516
N	C1	1.458	1.473
C1	C	1.520	1.530
C1	C4	1.518	1.506
C4	C5	1.387	1.384
C4	C9	1.385	1.383
C5	C6	1.383	1.380
C6	C7	1.401	1.396
C9	C8	1.393	1.380
C8	C7	1.376	1.396
C7	C10	1.479	1.478
C10	N3	1.359	1.368
C10	N2	1.352	1.308
N3	C17	1.333	1.353
C17	O2	1.268	1.218
C17	C12	1.508	1.471
N2	C11	1.349	1.348
C11	C12	1.471	1.413
C11	C16	1.399	1.398
C12	C13	1.393	1.393
C16	C15	1.388	1.376
C15	C14	1.402	1.388
C14	C13	1.397	1.379
N1	H1	1.000	0.970
N	H	1.000	0.969
C	HC1	1.099	1.090
C	HC2	1.100	1.091
C	HC3	1.100	1.090
C5	H5	1.080	1.080
C9	H9	1.080	1.080
C6	H6	1.080	1.080
C8	H8	1.080	1.080
N3	H3	1.000	0.970
C16	H16	1.080	1.081
C13	H13	1.080	1.080
C15	H15	1.080	1.080
C14	H14	1.080	1.080

Bond Angles for F37

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
O	C2	N1	120.1	123.8
O	C2	N	123.2	123.8
N1	C2	N	116.6	112.5
C2	N1	C3	104.4	111.6
C2	N1	H1	127.8	124.2
C2	N	C1	105.8	106.6
C2	N	H	127.1	126.7
N1	C3	O1	120.4	127.2
N1	C3	C1	112.4	105.7
C3	N1	H1	127.8	124.2
O1	C3	C1	127.2	127.1
C3	C1	N	100.8	103.6
C3	C1	C	111.0	110.6
C3	C1	C4	114.3	110.6
N	C1	C	103.1	110.4
N	C1	C4	113.6	110.8
C1	N	H	127.1	126.7
C	C1	C4	112.8	110.7
C1	C	HC1	109.5	109.5
C1	C	HC2	109.5	109.4
C1	C	HC3	109.4	109.5
C1	C4	C5	120.7	119.8
C1	C4	C9	121.5	119.9
C5	C4	C9	117.8	120.3
C4	C5	C6	121.3	120.1
C4	C5	H5	119.4	119.9
C4	C9	C8	121.4	120.2
C4	C9	H9	119.3	119.9
C5	C6	C7	120.5	119.9
C6	C5	H5	119.4	119.9
C5	C6	H6	119.8	120.1
C6	C7	C8	118.4	119.7
C6	C7	C10	120.8	120.1
C7	C6	H6	119.8	120.1
C9	C8	C7	120.5	119.8
C8	C9	H9	119.3	119.9
C9	C8	H8	119.7	120.1
C8	C7	C10	120.2	120.2
C7	C8	H8	119.7	120.1
C7	C10	N3	121.0	118.5
C7	C10	N2	116.3	118.5
N3	C10	N2	122.3	123.0
C10	N3	C17	122.4	120.5
C10	N3	H3	118.8	119.7
C10	N2	C11	122.1	121.7
N3	C17	O2	118.8	121.3
N3	C17	C12	117.9	117.5
C17	N3	H3	118.8	119.8
O2	C17	C12	123.3	121.3
C17	C12	C11	116.7	118.1
C17	C12	C13	124.7	121.8
N2	C11	C12	118.5	119.2
N2	C11	C16	122.0	121.5
C12	C11	C16	119.5	119.3
C11	C12	C13	118.6	120.1
C11	C16	C15	119.5	119.7
C11	C16	H16	120.3	120.1
C12	C13	C14	120.7	119.5
C12	C13	H13	119.7	120.3
C16	C15	C14	121.7	120.8
C15	C16	H16	120.3	120.2
C16	C15	H15	119.2	119.6
C15	C14	C13	119.9	120.6
C14	C15	H15	119.1	119.6
C15	C14	H14	120.1	119.7
C14	C13	H13	119.7	120.2
C13	C14	H14	120.0	119.7
HC1	C	HC2	109.5	109.4
HC1	C	HC3	109.5	109.5
HC2	C	HC3	109.5	109.5

Torsion Angles for F37

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
N1	C2	O	N	182.1	180.2
O	C2	N1	C3	176.4	180.0
O	C2	N1	H1	356.4	0.1
O	C2	N	C1	183.9	179.8
O	C2	N	H	3.9	359.9
O	C2	N1	N	178.0	179.8
N1	C2	N	C1	1.8	359.6
N1	C2	N	H	181.9	179.7
C2	N1	C3	O1	178.8	180.1
C2	N1	C3	C1	0.8	0.1
C3	N1	C2	H1	180.0	179.9
O	C2	N	N1	182.0	180.2
N	C2	N1	C3	358.3	0.2
N	C2	N1	H1	178.4	180.3
C3	C1	N	C2	358.9	0.4
C2	N	C1	C	113.6	118.8
C2	N	C1	C4	236.1	241.8
C1	N	C2	H	180.0	179.9
C3	N1	C2	N	358.3	0.2
C2	N1	C3	H1	180.0	180.1
O1	C3	N1	C1	178.1	180.0
N1	C3	C1	N	0.2	359.7
N1	C3	C1	C	251.5	241.5
N1	C3	C1	C4	122.5	118.5
N1	C3	O1	C1	182.2	180.0
O1	C3	N1	H1	358.8	360.0
O1	C3	C1	N	182.3	179.7
O1	C3	C1	C	73.6	61.5
O1	C3	C1	C4	304.6	298.5
C2	N	C1	C3	358.9	0.4
N1	C3	C1	O1	177.9	180.0
C1	C3	N1	H1	180.7	180.0
N	C1	C3	C	108.7	118.3
N	C1	C3	C4	237.7	241.2
C3	C1	N	H	178.8	180.3
C	C1	C3	C4	129.0	123.0
C3	C1	C	HC1	180.0	59.3
C3	C1	C	HC2	300.0	179.3
C3	C1	C	HC3	60.0	299.3
C3	C1	C4	C5	96.8	210.0
C3	C1	C4	C9	277.5	29.7
C2	N	C1	H	180.0	180.1
C3	C1	N	C	245.2	241.6
C3	C1	N	C4	122.7	118.6
C	C1	N	C4	237.5	237.0
N	C1	C	HC1	72.8	305.3
N	C1	C	HC2	192.8	65.3
N	C1	C	HC3	312.8	185.2
N	C1	C4	C5	211.8	324.3
N	C1	C4	C9	32.5	144.0
C3	C1	C	N	107.2	114.0
C3	C1	C	C4	230.3	237.1
N	C1	C	C4	123.0	123.1
C	C1	N	H	293.6	298.7
C	C1	C4	C5	328.8	87.1
C	C1	C4	C9	149.4	266.8
HC1	C	C1	HC2	240.0	240.0
HC1	C	C1	HC3	120.0	120.1
HC2	C	C1	HC3	240.0	240.0
C3	C1	C4	N	245.0	245.7
C3	C1	C4	C	128.1	122.9
N	C1	C4	C	243.0	237.2
C4	C1	N	H	56.1	61.6
C4	C1	C	HC1	309.7	182.2
C4	C1	C	HC2	69.7	302.2
C4	C1	C	HC3	189.8	62.2
C5	C4	C1	C9	179.3	180.3
C1	C4	C5	C6	179.2	180.0
C1	C4	C5	H5	359.2	359.9
C1	C4	C9	C8	179.7	180.0
C1	C4	C9	H9	359.7	0.0
C1	C4	C5	C9	180.6	179.7
C5	C4	C9	C8	0.4	359.7
C5	C4	C9	H9	180.4	179.7
C4	C5	C6	C7	3.3	359.9
C6	C5	C4	H5	180.0	180.1
C4	C5	C6	H6	183.4	180.0
C1	C4	C9	C5	179.4	180.3
C9	C4	C5	C6	358.6	0.3
C9	C4	C5	H5	178.6	180.2
C4	C9	C8	C7	358.8	359.9
C8	C9	C4	H9	180.0	180.0
C4	C9	C8	H8	178.8	180.0
C6	C5	C4	C9	358.6	0.3
C4	C5	C6	H5	180.0	179.9
C5	C6	C7	C8	355.9	359.8
C5	C6	C7	C10	184.2	180.0
C7	C6	C5	H6	180.0	180.0
C7	C6	C5	H5	183.3	180.1
C5	C6	C7	H6	180.0	180.0
C9	C8	C7	C6	3.0	0.3
C8	C7	C6	C10	171.7	179.7
C6	C7	C8	H8	183.0	180.3
C6	C7	C10	N3	347.8	180.0
C6	C7	C10	N2	161.7	359.8
C4	C9	C8	H9	180.0	180.0
C6	C7	C8	C9	3.0	0.3
C9	C8	C7	C10	174.8	180.0
C7	C8	C9	H8	180.0	180.0
C6	C7	C8	C10	188.2	180.3
C8	C7	C6	H6	175.9	179.7
C7	C8	C9	H9	178.8	180.0
C9	C8	C7	H8	180.0	180.0
C8	C7	C10	N3	176.2	0.2
C8	C7	C10	N2	350.1	180.0
C6	C7	C10	C8	171.6	179.7
C10	C7	C6	H6	4.2	360.0
C10	C7	C8	H8	354.8	0.0
N3	C10	C7	N2	186.1	180.2
C7	C10	N3	C17	176.1	180.0
C7	C10	N3	H3	356.1	0.0
C7	C10	N2	C11	183.3	180.0
C7	C10	N3	N2	173.5	179.8
N3	C10	N2	C11	357.1	359.8
C10	N3	C17	O2	178.4	180.0
C10	N3	C17	C12	358.1	0.0
C17	N3	C10	H3	180.0	180.0
C7	C10	N2	N3	186.2	180.2
N2	C10	N3	C17	2.6	0.2
N2	C10	N3	H3	182.6	180.3
C10	N2	C11	C12	2.6	360.0
C10	N2	C11	C16	182.6	180.0
C17	N3	C10	N2	2.6	0.2
C10	N3	C17	H3	180.0	180.0
O2	C17	N3	C12	180.3	180.0
N3	C17	C12	C11	1.6	359.8
N3	C17	C12	C13	182.0	180.0
N3	C17	O2	C12	179.7	180.0
O2	C17	N3	H3	358.4	360.0
O2	C17	C12	C11	181.3	179.8
O2	C17	C12	C13	1.6	360.0
N3	C17	C12	O2	180.3	180.0
C12	C17	N3	H3	178.1	180.0
N2	C11	C12	C17	358.0	0.2
C17	C12	C11	C16	178.0	180.2
C11	C12	C17	C13	179.7	179.8
C17	C12	C13	C14	181.1	179.8
C17	C12	C13	H13	1.1	360.0
C17	C12	C11	N2	358.0	0.2
C12	C11	N2	C16	180.0	180.0
N2	C11	C12	C13	177.7	180.0
N2	C11	C16	C15	182.3	180.0
N2	C11	C16	H16	2.3	360.0
C17	C12	C11	C13	180.3	180.2
N2	C11	C12	C16	180.0	180.0
C12	C11	C16	C15	2.4	360.0
C12	C11	C16	H16	182.4	180.0
C11	C12	C13	C14	1.5	0.0
C11	C12	C13	H13	181.5	180.2
N2	C11	C16	C12	180.0	180.0
C16	C11	C12	C13	357.7	0.0
C11	C16	C15	C14	358.4	0.0
C15	C16	C11	H16	180.0	180.0
C11	C16	C15	H15	178.4	180.0
C17	C12	C13	C11	179.7	179.8
C13	C12	C11	C16	357.7	0.0
C15	C14	C13	C12	359.3	360.0
C14	C13	C12	H13	180.0	179.8
C12	C13	C14	H14	179.3	180.0
C11	C16	C15	H16	180.0	180.0
C16	C15	C14	C13	0.7	360.0
C14	C15	C16	H15	180.0	180.1
C16	C15	C14	H14	180.7	180.0
C12	C13	C14	C15	359.3	360.0
C14	C15	C16	H16	178.4	180.0
C16	C15	C14	H15	180.0	179.9
C15	C14	C13	H13	179.3	179.8
C13	C14	C15	H14	180.0	180.0
C12	C13	C14	H13	180.0	180.2
C13	C14	C15	H15	180.7	180.1
C15	C14	C13	H14	180.0	180.0
H1	N1	C2	N	178.4	180.3
C2	N1	H1	C3	180.0	179.9
H1	N1	C3	O1	358.8	360.0
H1	N1	C3	C1	180.7	180.0
C2	N	H	C1	180.0	179.9
H	N	C1	C	293.6	298.7
H	N	C1	C4	56.1	61.6
HC1	C	C1	C4	309.7	182.2
C1	C	HC1	HC2	120.0	120.0
C1	C	HC1	HC3	240.0	240.0
HC2	C	HC1	HC3	120.0	120.0
HC2	C	C1	C4	69.7	302.2
C1	C	HC2	HC1	240.0	240.0
C1	C	HC2	HC3	120.0	120.0
HC1	C	HC2	HC3	240.0	240.0
HC3	C	C1	C4	189.8	62.2
C1	C	HC3	HC1	120.0	120.1
C1	C	HC3	HC2	240.0	240.0
HC1	C	HC3	HC2	120.0	120.0
H5	C5	C4	C9	178.6	180.2
C4	C5	H5	C6	180.0	180.1
H5	C5	C6	C7	183.3	180.1
H5	C5	C6	H6	3.3	0.1
C4	C9	H9	C8	180.0	180.0
H9	C9	C8	C7	178.8	180.0
H9	C9	C8	H8	358.8	360.0
C5	C6	H6	C7	180.0	180.0
H6	C6	C5	H5	3.3	0.1
H6	C6	C7	C8	175.9	179.7
H6	C6	C7	C10	4.2	360.0
C9	C8	H8	C7	180.0	180.0
H8	C8	C9	H9	358.8	360.0
H8	C8	C7	C10	354.8	0.0
H3	N3	C10	N2	182.6	180.3
C10	N3	H3	C17	180.0	180.0
H3	N3	C17	O2	358.4	360.0
H3	N3	C17	C12	178.1	180.0
C11	C16	H16	C15	180.0	180.0
H16	C16	C15	C14	178.4	180.0
H16	C16	C15	H15	358.4	360.0
C12	C13	H13	C14	180.0	179.8
H13	C13	C14	H14	359.3	359.8
C16	C15	H15	C14	180.0	180.1
H15	C15	C16	H16	358.4	360.0
H15	C15	C14	C13	180.7	180.1
H15	C15	C14	H14	0.7	0.1
C15	C14	H14	C13	180.0	180.0
H14	C14	C15	H15	0.7	0.1
H14	C14	C13	H13	359.3	359.8