PDB Chemical Component 2AS

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 2AS

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C O 1.227 1.208
C CA 1.505 1.507
C OXT 1.327 1.342
CA N 1.448 1.469
CA CB 1.560 1.530
CA HA 1.100 1.090
N H 1.000 1.009
N H2 1.000 1.009
CB CG 1.549 1.508
CB C4 1.514 1.530
CB HB2 1.100 1.090
CG OD1 1.267 1.342
CG OD2 1.238 1.208
C4 H4 1.100 1.090
C4 H4A 1.100 1.090
C4 H4B 1.100 1.090
OD1 HD2 0.950 0.967
OXT HXT 0.950 0.968

Bond Angles for 2AS

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
O C CA 119.0 120.0
O C OXT 122.3 120.0
CA C OXT 118.6 120.0
C CA N 112.7 109.5
C CA CB 110.2 109.5
C CA HA 107.8 109.5
C OXT HXT 109.5 117.0
N CA CB 112.4 109.5
N CA HA 105.4 109.5
CA N H 109.5 110.9
CA N H2 109.5 111.0
CB CA HA 108.0 109.4
CA CB CG 110.3 109.5
CA CB C4 112.1 109.5
CA CB HB2 107.7 109.5
H N H2 109.4 111.0
CG CB C4 111.3 109.4
CG CB HB2 108.6 109.5
CB CG OD1 115.8 120.0
CB CG OD2 121.1 120.0
C4 CB HB2 106.6 109.4
CB C4 H4 109.5 109.5
CB C4 H4A 109.5 109.5
CB C4 H4B 109.5 109.5
OD1 CG OD2 123.1 120.0
CG OD1 HD2 109.5 117.0
H4 C4 H4A 109.5 109.5
H4 C4 H4B 109.5 109.4
H4A C4 H4B 109.5 109.5

Torsion Angles for 2AS

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
CA C O OXT 183.4 180.3
O C CA N 210.0 340.0
O C CA CB 336.5 100.0
O C CA HA 94.2 219.9
O C OXT HXT 360.0 0.0
O C CA OXT 176.7 179.7
CA C OXT HXT 176.6 179.7
N CA C CB 233.5 240.0
N CA C HA 115.8 120.1
C CA N H 180.0 296.0
C CA N H2 300.0 60.0
CB CA C HA 242.3 240.1
C CA CB CG 65.5 180.0
C CA CB C4 190.1 299.9
C CA CB HB2 307.1 59.9
O C OXT CA 183.4 180.3
OXT C CA N 33.3 160.3
OXT C CA CB 159.8 280.3
OXT C CA HA 277.5 40.2
N CA C OXT 33.3 160.3
C CA N CB 125.3 120.0
C CA N HA 242.8 240.0
CB CA N HA 117.4 119.9
N CA CB CG 192.1 300.1
N CA CB C4 316.8 60.0
N CA CB HB2 73.8 180.0
H N CA H2 240.0 236.1
CB CA C OXT 159.8 280.3
C CA CB N 233.4 239.9
C CA CB HA 117.5 119.9
N CA CB HA 244.2 240.0
CB CA N H 54.7 176.0
CB CA N H2 174.7 300.0
CG CB CA C4 235.4 240.1
CG CB CA HB2 118.4 120.1
CA CB CG OD1 40.8 180.0
CA CB CG OD2 219.5 359.9
C4 CB CA HB2 243.0 240.0
CA CB C4 H4 180.0 60.0
CA CB C4 H4A 300.0 180.0
CA CB C4 H4B 60.0 300.1
HA CA C OXT 277.5 40.2
C CA HA N 120.5 120.1
C CA HA CB 240.9 240.1
N CA HA CB 120.4 120.0
HA CA N H 297.2 56.1
HA CA N H2 57.2 180.0
HA CA CB CG 308.0 60.1
HA CA CB C4 72.6 180.0
HA CA CB HB2 189.6 300.0
H N CA CB 54.7 176.0
H N CA HA 297.2 56.1
CA N H H2 120.0 123.9
H2 N CA CB 174.7 300.0
H2 N CA HA 57.2 180.0
CA N H2 H 240.0 236.1
CG CB CA HA 308.0 60.1
CA CB CG C4 125.1 120.0
CA CB CG HB2 242.2 239.9
C4 CB CG HB2 117.1 120.0
CG CB C4 H4 304.0 180.0
CG CB C4 H4A 64.1 300.0
CG CB C4 H4B 184.0 60.0
OD1 CG CB OD2 181.3 180.0
CB CG OD1 HD2 178.7 179.9
C4 CB CA HA 72.6 180.0
CA CB C4 CG 236.0 240.0
CA CB C4 HB2 117.7 120.0
CG CB C4 HB2 241.7 240.0
C4 CB CG OD1 275.8 60.0
C4 CB CG OD2 94.4 240.0
H4 C4 CB H4A 240.0 240.0
H4 C4 CB H4B 120.0 119.9
H4A C4 CB H4B 240.0 239.9
HB2 CB CA HA 189.6 300.0
CA CB HB2 CG 119.4 120.1
CA CB HB2 C4 239.5 240.0
CG CB HB2 C4 120.0 120.0
HB2 CB CG OD1 158.7 300.1
HB2 CB CG OD2 337.4 120.0
HB2 CB C4 H4 62.3 300.0
HB2 CB C4 H4A 182.3 60.0
HB2 CB C4 H4B 302.3 180.1
OD1 CG CB C4 275.8 60.0
OD1 CG CB HB2 158.7 300.1
CB CG OD1 OD2 178.7 180.0
OD2 CG CB C4 94.4 240.0
OD2 CG CB HB2 337.4 120.0
CB CG OD2 OD1 181.4 180.0
OD2 CG OD1 HD2 0.0 360.0
H4 C4 CB HB2 62.3 300.0
CB C4 H4 H4A 120.0 120.1
CB C4 H4 H4B 240.0 240.0
H4A C4 H4 H4B 120.0 120.0
H4A C4 CB HB2 182.3 60.0
CB C4 H4A H4 240.0 240.0
CB C4 H4A H4B 120.0 120.1
H4 C4 H4A H4B 240.0 240.1
H4B C4 CB HB2 302.3 180.1
CB C4 H4B H4 120.0 120.0
CB C4 H4B H4A 240.0 239.9
H4 C4 H4B H4A 120.0 119.9
HD2 OD1 CG OD2 0.0 360.0