PDB Chemical Component C7P

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 C7P

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
N1 C1 1.344  
N1 C5 1.342  
C1 C2 1.393  
C1 H2 1.080  
C2 C3 1.390  
C2 H3 1.080  
C3 C4 1.392  
C3 H4 1.080  
C4 C5 1.393  
C4 H5 1.080  
C5 H6 1.080  
N1 PT1 1.905  
PT1 CL1 2.300  
PT1 N3 1.917  
PT1 N2 1.939  
N2 HN 1.000  
N2 HNA 1.000  
N3 HNB 1.001  
N3 HNC 1.000  
N2 HND 1.000  
N3 HNE 1.001  

Bond Angles for C7P

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C1 N1 C5 121.5  
N1 C1 C2 120.7  
N1 C1 H2 119.6  
C1 N1 PT1 119.4  
N1 C5 C4 120.1  
N1 C5 H6 119.9  
C5 N1 PT1 119.1  
C2 C1 H2 119.6  
C1 C2 C3 119.0  
C1 C2 H3 120.5  
C3 C2 H3 120.5  
C2 C3 C4 119.2  
C2 C3 H4 120.4  
C4 C3 H4 120.4  
C3 C4 C5 119.5  
C3 C4 H5 120.2  
C5 C4 H5 120.3  
C4 C5 H6 120.0  
N1 PT1 CL1 84.8  
N1 PT1 N3 170.9  
N1 PT1 N2 86.6  
N3 PT1 CL1 104.0  
N2 PT1 CL1 169.3  
N2 PT1 N3 84.3  
PT1 N3 HNB 109.5  
PT1 N3 HNC 109.5  
PT1 N3 HNE 109.5  
PT1 N2 HN 109.5  
PT1 N2 HNA 109.5  
PT1 N2 HND 109.4  
HN N2 HNA 109.4  
HN N2 HND 109.5  
HNA N2 HND 109.5  
HNB N3 HNC 109.5  
HNB N3 HNE 109.4  
HNC N3 HNE 109.5  

Torsion Angles for C7P

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C1 N1 C5 C4 0.1  
C1 N1 C5 H6 180.1  
C5 N1 C1 PT1 179.1  
C2 C1 N1 H2 180.0  
N1 C1 C2 C3 0.0  
N1 C1 C2 H3 180.0  
C1 N1 PT1 CL1 255.2  
C1 N1 PT1 N3 62.5  
C1 N1 PT1 N2 68.7  
C5 N1 C1 C2 0.0  
C5 N1 C1 H2 180.0  
C1 N1 C5 PT1 180.9  
C3 C4 C5 N1 359.6  
N1 C5 C4 H5 179.6  
C4 C5 N1 H6 180.0  
C5 N1 PT1 CL1 76.0  
C5 N1 PT1 N3 243.4  
C5 N1 PT1 N2 249.5  
C2 C1 N1 C5 0.0  
N1 C1 C2 H2 180.0  
C2 C1 N1 PT1 180.9  
C3 C2 C1 H3 180.0  
C1 C2 C3 C4 359.7  
C1 C2 C3 H4 179.7  
H2 C1 N1 C5 180.0  
N1 C1 H2 C2 180.0  
H2 C1 N1 PT1 0.9  
H2 C1 C2 C3 180.0  
H2 C1 C2 H3 360.0  
C3 C2 C1 H2 180.0  
C1 C2 C3 H3 180.0  
C4 C3 C2 H4 180.0  
C2 C3 C4 C5 0.4  
C2 C3 C4 H5 180.4  
H3 C2 C1 H2 360.0  
C1 C2 H3 C3 180.0  
H3 C2 C3 C4 179.8  
H3 C2 C3 H4 359.8  
N1 C5 C4 C3 359.6  
C4 C3 C2 H3 179.8  
C2 C3 C4 H4 180.0  
C5 C4 C3 H5 180.0  
C3 C4 C5 H6 179.6  
H4 C3 C2 H3 359.8  
C2 C3 H4 C4 180.0  
H4 C3 C4 C5 180.4  
H4 C3 C4 H5 0.4  
N1 C5 C4 H6 180.0  
C4 C5 N1 PT1 179.3  
C5 C4 C3 H4 180.4  
C3 C4 C5 H5 180.0  
H5 C4 C3 H4 0.4  
C3 C4 H5 C5 180.0  
H5 C4 C5 H6 359.6  
N1 C5 H6 C4 180.0  
H6 C5 N1 PT1 359.3  
H6 C5 C4 H5 359.6  
C1 N1 PT1 C5 179.1  
PT1 N1 C1 C2 180.9  
PT1 N1 C1 H2 0.9  
PT1 N1 C5 C4 179.3  
PT1 N1 C5 H6 359.3  
N3 PT1 N1 CL1 167.4  
N2 PT1 N1 CL1 173.5  
N2 PT1 N1 N3 6.2  
N1 PT1 N3 HNB 180.0  
N1 PT1 N3 HNC 300.0  
N1 PT1 N3 HNE 60.0  
N1 PT1 N2 HN 180.0  
N1 PT1 N2 HNA 300.0  
N1 PT1 N2 HND 60.0  
N1 PT1 CL1 N3 178.0  
N1 PT1 CL1 N2 37.3  
N2 PT1 CL1 N3 140.6  
CL1 PT1 N3 HNB 347.0  
CL1 PT1 N3 HNC 107.0  
CL1 PT1 N3 HNE 227.0  
CL1 PT1 N2 HN 217.2  
CL1 PT1 N2 HNA 337.2  
CL1 PT1 N2 HND 97.2  
N1 PT1 N3 CL1 193.0  
N1 PT1 N3 N2 6.2  
N2 PT1 N3 CL1 186.8  
N3 PT1 N2 HN 359.0  
N3 PT1 N2 HNA 119.0  
N3 PT1 N2 HND 239.0  
HNB N3 PT1 HNC 240.0  
HNB N3 PT1 HNE 120.0  
HNC N3 PT1 HNE 240.0  
N1 PT1 N2 CL1 322.8  
N1 PT1 N2 N3 181.0  
N3 PT1 N2 CL1 141.8  
N2 PT1 N3 HNB 173.8  
N2 PT1 N3 HNC 293.8  
N2 PT1 N3 HNE 53.8  
HN N2 PT1 HNA 240.0  
HN N2 PT1 HND 120.0  
HNA N2 PT1 HND 240.0  
HN N2 PT1 CL1 217.2  
HN N2 PT1 N3 359.0  
PT1 N2 HN HNA 120.0  
PT1 N2 HN HND 240.0  
HNA N2 HN HND 120.0  
HNA N2 PT1 CL1 337.2  
HNA N2 PT1 N3 119.0  
PT1 N2 HNA HN 240.0  
PT1 N2 HNA HND 120.0  
HN N2 HNA HND 240.0  
HNB N3 PT1 CL1 347.0  
PT1 N3 HNB HNC 120.0  
PT1 N3 HNB HNE 240.0  
HNC N3 HNB HNE 120.0  
HNC N3 PT1 CL1 107.0  
PT1 N3 HNC HNB 240.0  
PT1 N3 HNC HNE 120.0  
HNB N3 HNC HNE 240.0  
HND N2 PT1 CL1 97.2  
HND N2 PT1 N3 239.0  
PT1 N2 HND HN 120.0  
PT1 N2 HND HNA 240.0  
HN N2 HND HNA 120.0  
HNE N3 PT1 CL1 227.0  
PT1 N3 HNE HNB 120.0  
PT1 N3 HNE HNC 240.0  
HNB N3 HNE HNC 120.0