Abstract: The relationship between the local backbone conformation and bond angles at C a of symmetrically substituted C a,a -dialkylated glycines (C a,a -dimethylglycine or a -aminoisobutyric acid, Aib; C a,a -diethylglycine, Deg; C a,a -di-n-propylglycine, Dpg) has been investigated by molecular dynamics (MD) simulation adopting flat bottom harmonic potentials, instead of the usual harmonic restraints, for the C a bond angles. The MD simulations show that the C a bond angles are related to the local backbone conformation, irrespectively of the side-chain length of Aib, Deg, and Dpg residues. Moreover, the N-C a -C * ( t ) angle is the most sensitive confor- mational parameter and, in the folded form, is always larger and more flexible than in the extended one.
Relationship between conformation and geometry as evidenced by molecular dynamics simulation of C?,?-dialkylated glycines
Cirilli;Maurizio;
1998
Abstract
Abstract: The relationship between the local backbone conformation and bond angles at C a of symmetrically substituted C a,a -dialkylated glycines (C a,a -dimethylglycine or a -aminoisobutyric acid, Aib; C a,a -diethylglycine, Deg; C a,a -di-n-propylglycine, Dpg) has been investigated by molecular dynamics (MD) simulation adopting flat bottom harmonic potentials, instead of the usual harmonic restraints, for the C a bond angles. The MD simulations show that the C a bond angles are related to the local backbone conformation, irrespectively of the side-chain length of Aib, Deg, and Dpg residues. Moreover, the N-C a -C * ( t ) angle is the most sensitive confor- mational parameter and, in the folded form, is always larger and more flexible than in the extended one.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
