PDB Chemical Component TUE

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 TUE

Atom I	Atom J	Distance (Experimental Model)	Distance (Ideal Model)
N01	C02	1.340	1.317
N01	C10	1.342	1.338
C02	N02	1.350	1.388
C02	C03	1.399	1.402
C03	C04	1.393	1.362
C04	C05	1.395	1.411
C05	C06	1.390	1.402
C05	C10	1.392	1.416
C06	C07	1.395	1.362
C07	C08	1.394	1.393
C08	C09	1.379	1.362
C08	C11	1.515	1.507
C09	C10	1.383	1.405
C11	O12	1.419	1.430
O12	C23	1.368	1.359
N21	C22	1.341	1.318
N21	C26	1.342	1.320
C22	C23	1.397	1.387
C23	C24	1.388	1.391
C24	C25	1.391	1.386
C25	C26	1.398	1.382
C25	C27	1.513	1.507
C27	N28	1.457	1.465
N28	C29	1.263	1.279
N02	HN02	1.000	0.970
N02	HN0A	0.999	0.970
C03	H03	1.080	1.080
C04	H04	1.080	1.080
C06	H06	1.080	1.081
C07	H07	1.080	1.081
C09	H09	1.080	1.080
C11	H11	1.100	1.090
C11	H11A	1.101	1.089
C22	H22	1.080	1.081
C24	H24	1.080	1.080
C26	H26	1.080	1.079
C27	H27	1.100	1.090
C27	H27A	1.100	1.090
C29	H29	1.080	1.080
C29	H29A	1.080	1.081

Bond Angles for TUE

Atom I	Atom J	Atom K	Angle (Experimental Model)	Angle (Ideal Model)
C02	N01	C10	121.1	121.2
N01	C02	N02	117.8	119.2
N01	C02	C03	120.4	121.6
N01	C10	C05	121.0	119.9
N01	C10	C09	118.0	121.0
N02	C02	C03	121.8	119.2
C02	N02	HN02	109.5	120.0
C02	N02	HN0A	109.5	120.0
C02	C03	C04	119.7	119.9
C02	C03	H03	120.2	120.1
C03	C04	C05	118.5	118.3
C04	C03	H03	120.2	120.0
C03	C04	H04	120.8	120.9
C04	C05	C06	121.8	121.3
C04	C05	C10	119.4	119.1
C05	C04	H04	120.7	120.8
C06	C05	C10	118.9	119.6
C05	C06	C07	119.8	119.7
C05	C06	H06	120.1	120.2
C05	C10	C09	121.0	119.1
C06	C07	C08	120.8	120.8
C07	C06	H06	120.1	120.1
C06	C07	H07	119.6	119.6
C07	C08	C09	119.0	121.0
C07	C08	C11	122.0	119.5
C08	C07	H07	119.6	119.6
C09	C08	C11	119.0	119.5
C08	C09	C10	120.5	119.8
C08	C09	H09	119.7	120.1
C08	C11	O12	107.2	109.5
C08	C11	H11	110.0	109.5
C08	C11	H11A	110.0	109.5
C10	C09	H09	119.8	120.2
C11	O12	C23	123.6	117.0
O12	C11	H11	110.0	109.4
O12	C11	H11A	110.0	109.5
O12	C23	C22	119.4	120.5
O12	C23	C24	120.6	120.4
C22	N21	C26	120.3	121.8
N21	C22	C23	120.9	120.7
N21	C22	H22	119.5	119.7
N21	C26	C25	121.1	120.9
N21	C26	H26	119.4	119.5
C22	C23	C24	120.0	119.0
C23	C22	H22	119.5	119.6
C23	C24	C25	118.0	118.4
C23	C24	H24	121.0	120.9
C24	C25	C26	119.7	119.2
C24	C25	C27	119.9	120.4
C25	C24	H24	121.0	120.8
C26	C25	C27	120.4	120.4
C25	C26	H26	119.5	119.6
C25	C27	N28	108.0	109.5
C25	C27	H27	109.8	109.5
C25	C27	H27A	109.8	109.5
C27	N28	C29	119.9	120.0
N28	C27	H27	109.8	109.5
N28	C27	H27A	109.8	109.5
N28	C29	H29	120.0	120.0
N28	C29	H29A	120.0	120.0
HN02	N02	HN0A	109.4	120.0
H11	C11	H11A	109.5	109.5
H27	C27	H27A	109.5	109.4
H29	C29	H29A	120.0	120.0

Torsion Angles for TUE

Atom I	Atom J	Atom K	Atom L	Angle (Experimental Model)	Angle (Ideal Model)
C02	N01	C10	C05	0.9	0.0
C02	N01	C10	C09	180.3	180.0
N02	C02	N01	C03	181.2	180.0
N01	C02	N02	HN02	0.0	360.0
N01	C02	N02	HN0A	120.0	180.1
N01	C02	C03	C04	1.9	360.0
N01	C02	C03	H03	182.0	180.0
C10	N01	C02	N02	179.3	180.0
C10	N01	C02	C03	358.1	360.0
C04	C05	C10	N01	0.1	0.0
C06	C05	C10	N01	179.5	180.0
C05	C10	N01	C09	180.6	180.0
C08	C09	C10	N01	179.5	180.1
N01	C10	C09	H09	359.5	0.0
N02	C02	N01	C10	179.3	180.0
N01	C02	N02	C03	178.8	180.0
N02	C02	C03	C04	180.7	180.0
N02	C02	C03	H03	0.7	0.1
HN02	N02	C02	HN0A	240.0	179.9
C03	C02	N01	C10	358.1	360.0
N01	C02	C03	N02	181.3	180.0
C03	C02	N02	HN02	181.3	180.0
C03	C02	N02	HN0A	301.3	0.1
C02	C03	C04	C05	359.1	0.1
C04	C03	C02	H03	180.0	179.9
C02	C03	C04	H04	179.1	180.0
C02	C03	C04	H03	180.0	180.1
C03	C04	C05	C06	180.5	180.0
C03	C04	C05	C10	359.9	359.9
C05	C04	C03	H04	180.0	180.1
N01	C10	C05	C04	0.1	0.0
C05	C04	C03	H03	179.1	180.0
C03	C04	C05	H04	180.0	179.9
C06	C05	C04	C10	180.6	180.1
C04	C05	C06	C07	179.8	179.9
C04	C05	C06	H06	359.8	359.9
C04	C05	C10	C09	180.8	180.0
N01	C10	C05	C06	179.5	180.0
C04	C05	C06	C10	179.4	179.9
C06	C05	C04	H04	0.5	0.1
C06	C05	C10	C09	0.2	359.9
C05	C06	C07	C08	0.1	360.0
C07	C06	C05	H06	180.0	180.1
C05	C06	C07	H07	180.1	180.0
N01	C10	C05	C09	179.4	180.0
C04	C05	C10	C06	180.6	180.1
C10	C05	C04	H04	179.9	180.0
C10	C05	C06	C07	0.4	0.0
C10	C05	C06	H06	180.4	180.0
C08	C09	C10	C05	358.8	0.1
C05	C10	C09	H09	178.9	180.0
C07	C06	C05	C10	0.4	0.0
C05	C06	C07	H06	180.0	179.9
C06	C07	C08	C09	359.0	0.0
C06	C07	C08	C11	180.3	180.0
C08	C07	C06	H07	180.0	180.0
C08	C07	C06	H06	180.1	180.1
C06	C07	C08	H07	180.0	180.0
C09	C08	C07	C11	178.7	180.1
C07	C08	C09	C10	1.6	359.9
C07	C08	C09	H09	181.5	180.0
C07	C08	C11	O12	57.3	90.0
C07	C08	C11	H11	177.0	210.0
C07	C08	C11	H11A	297.7	330.0
N01	C10	C09	C08	179.5	180.1
C05	C10	C09	C08	358.8	0.1
C07	C08	C09	C11	181.3	179.9
C09	C08	C07	H07	179.0	180.0
C09	C08	C11	O12	238.6	270.0
C09	C08	C11	H11	358.3	29.9
C09	C08	C11	H11A	119.0	150.0
C10	C09	C08	H09	180.0	180.0
C07	C08	C11	C09	178.7	180.1
C11	C08	C07	H07	0.3	359.9
C11	C08	C09	C10	180.3	180.0
C11	C08	C09	H09	0.3	0.0
C08	C11	O12	C23	200.1	180.0
O12	C11	C08	H11	240.4	240.0
O12	C11	C08	H11A	119.7	120.0
H11	C11	C08	H11A	239.3	240.0
N01	C10	C09	C05	180.6	180.0
C10	C09	C08	C11	180.3	180.0
C08	C09	C10	H09	180.0	180.0
C08	C11	O12	H11	119.6	120.0
C08	C11	O12	H11A	240.4	240.0
C11	O12	C23	C22	140.2	0.0
C11	O12	C23	C24	318.6	180.0
H11	C11	O12	H11A	120.7	120.0
C23	O12	C11	H11	80.4	60.0
C23	O12	C11	H11A	319.7	300.0
N21	C22	C23	O12	179.0	180.0
C22	C23	O12	C24	181.5	180.0
O12	C23	C22	H22	359.0	360.0
O12	C23	C24	C25	180.7	180.0
O12	C23	C24	H24	0.7	0.0
O12	C23	C22	N21	179.0	180.0
C22	N21	C26	C25	0.3	360.0
C22	N21	C26	H26	180.3	180.0
N21	C22	C23	C24	0.5	0.0
C23	C22	N21	H22	180.0	180.0
C26	N21	C22	C23	359.8	0.0
C26	N21	C22	H22	179.7	180.0
C24	C25	C26	N21	359.3	360.0
N21	C26	C25	C27	180.2	180.1
C25	C26	N21	H26	180.0	180.0
O12	C23	C22	C24	178.5	180.0
C23	C22	N21	C26	359.8	0.0
N21	C22	C23	H22	180.0	180.0
C22	C23	C24	C25	359.1	360.0
C22	C23	C24	H24	179.1	180.0
O12	C23	C24	C22	181.5	180.0
C24	C23	C22	H22	180.6	180.0
C23	C24	C25	C26	0.9	0.0
C23	C24	C25	C27	180.0	180.0
C25	C24	C23	H24	180.0	180.0
N21	C26	C25	C24	359.3	360.0
C23	C24	C25	H24	180.0	180.0
C26	C25	C24	C27	180.9	180.1
C24	C25	C26	H26	179.3	180.0
C24	C25	C27	N28	291.1	90.0
C24	C25	C27	H27	50.9	210.1
C24	C25	C27	H27A	171.4	330.0
N21	C26	C25	H26	180.0	180.0
C24	C25	C26	C27	179.1	179.9
C26	C25	C24	H24	180.9	180.0
C26	C25	C27	N28	110.2	270.0
C26	C25	C27	H27	230.0	30.0
C26	C25	C27	H27A	350.5	150.0
C24	C25	C27	C26	180.9	180.1
C27	C25	C24	H24	0.0	360.0
C27	C25	C26	H26	0.2	0.1
C25	C27	N28	C29	306.4	115.0
N28	C27	C25	H27	240.2	240.0
N28	C27	C25	H27A	119.8	120.0
H27	C27	C25	H27A	239.5	240.0
C25	C27	N28	H27	119.8	120.0
C25	C27	N28	H27A	240.2	240.0
C27	N28	C29	H29	0.0	360.0
C27	N28	C29	H29A	180.0	180.0
H27	C27	N28	H27A	120.5	120.0
C29	N28	C27	H27	186.6	355.0
C29	N28	C27	H27A	66.1	235.0
H29	C29	N28	H29A	180.0	180.0
HN02	N02	C02	C03	181.3	180.0
C02	N02	HN02	HN0A	120.0	180.1
HN0A	N02	C02	C03	301.3	0.1
C02	N02	HN0A	HN02	240.0	179.9
C02	C03	H03	C04	180.0	179.9
H03	C03	C04	C05	179.1	180.0
H03	C03	C04	H04	359.1	359.9
C03	C04	H04	C05	180.0	180.1
H04	C04	C03	H03	359.1	359.9
H04	C04	C05	C06	0.5	0.1
H04	C04	C05	C10	179.9	180.0
H06	C06	C05	C10	180.4	180.0
C05	C06	H06	C07	180.0	180.1
H06	C06	C07	C08	180.1	180.1
H06	C06	C07	H07	0.1	0.1
C06	C07	H07	C08	180.0	180.0
H07	C07	C06	H06	0.1	0.1
H07	C07	C08	C09	179.0	180.0
H07	C07	C08	C11	0.3	359.9
H09	C09	C08	C11	0.3	0.0
C08	C09	H09	C10	180.0	180.0
C08	C11	H11	O12	242.1	240.0
C08	C11	H11	H11A	121.0	120.1
H11	C11	O12	C23	80.4	60.0
O12	C11	H11	H11A	239.0	240.0
C08	C11	H11A	O12	117.9	120.0
C08	C11	H11A	H11	239.0	239.9
H11A	C11	O12	C23	319.7	300.0
O12	C11	H11A	H11	121.0	119.9
H22	C22	N21	C26	179.7	180.0
N21	C22	H22	C23	180.0	180.0
H22	C22	C23	C24	180.6	180.0
C23	C24	H24	C25	180.0	180.0
H24	C24	C25	C26	180.9	180.0
H24	C24	C25	C27	0.0	360.0
N21	C26	H26	C25	180.0	180.0
H26	C26	C25	C27	0.2	0.1
C25	C27	H27	N28	241.3	240.0
C25	C27	H27	H27A	120.7	120.0
H27	C27	N28	C29	186.6	355.0
N28	C27	H27	H27A	239.3	240.0
C25	C27	H27A	N28	118.7	120.0
C25	C27	H27A	H27	239.3	240.0
H27A	C27	N28	C29	66.1	235.0
N28	C27	H27A	H27	120.7	120.0
N28	C29	H29	H29A	180.0	180.0
N28	C29	H29A	H29	180.0	180.0