Force-field dependence on the liquid-expanded to liquid-condensed transition in DPPC monolayers

Abstract

We have investigated using molecular dynamics simulations, the influence of the interaction cut-off and water model on the surface-pressure area isotherms of dipalmitoylphosphatidylcholine monolayers, where the phospholipids and the water molecules are modelled atomistically. We find that both the cut-off employed and the water model, influence the pressure area isotherms and the location of the liquid-expanded to liquid-condensed transitions. The combination of the Berger's et al. force field, with the TIP4P/2005 water model, and a long cut-off for the pair interactions ( ≥ 1.7 nm) provides a more accurate prediction of the surface pressure–area isotherm and reproduces the liquid condensed–liquid expanded transition observed in the experiments at 310 K.