Molecular dynamics (MD) simulations of VIP and PACAP27

## Molecular Dynamics Simulations of Carrabiose ,ilcde(wlur mechanics calculatiotr.s have been per/iwmed,/i~r (he disaccharide carrabio.se, one o!' [he repeat t{nil.v{?/ 'fl-carrageenan, as a generai mode/,/i~r the ( 1-4)-linkage in the carragetJnany. .4n adiaha[ic coiltimna[ional energ~tnap ~iw t

computer. The force is calculated with sufficient accuracy for practical MD simulations. The processor also calculates virials simultaneously with forces for use in the calculation of pressure, accommodates periodic boundary conditions, and can be used in Ewald summations. An MD Engine system consis

A molecular force field dedicated to molecular dynamics simulation of biomembranes was developed. It was parameterized on model compounds related to phospholipids and was able to reproduce at the same time structures, energies, and vibrational spectra. Cross terms in the potential energy function we

## Abstract **Summary:** Molecular dynamics simulation studies of the translocation of charged homopolymers of length, __N__, driven by an electric potential gradient through a channel have been performed. We find that the translocation time, __τ__, displays an inverse power dependence on the tempe