Molecular Dynamic Computer Simulations of Phase Behavior of Non-Ionic Surfactants

We have performed 128 folding and 45 unfolding molecular dynamics runs of chymotrypsin inhibitor 2 (CI2) with an implicit solvation model for a total simulation time of 0.4 microseconds. Folding requires that the three-dimensional structure of the native state is known. It was simulated at 300 K by

We have investigated a molecular dynamics procedure for simulating the temperature-dependent behavior of three face-centered-cubic metals: aluminum, copper, and platinum. A potential due to Cai and Ye, which includes both pairwise additive and multibody terms, was used in conjunction with the CHARMM

## Abstract Recent studies of DNA axis curvature and flexibility based on molecular dynamics (MD) simulations on DNA are reviewed. The MD simulations are on DNA sequences up to 25 base pairs in length, including explicit consideration of counterions and waters in the computational model. MD studies

a The 10-ps configuration of each trajectory was used as the initial configuration. The system was simulated for 5 ps using a ( ) microcanonical ensemble with various time steps. Then, the RMSF E and the computation time was examined. r tot b ( ) Hard forces H : bond, angle, and torsion. c ( ) Mediu