Influence of Bilayer Size and Number in Multi-Bilayer DOPC Simulations at Full and Low Hydration.

Biophysical studies of model cell membranes at full and low hydration are usually carried out using scattering measurements on multi-bilayer systems. Molecular simulations of lipid bilayers aimed at reproducing those experimental conditions are usually conducted using single bilayers with different amounts of water. These simulation conditions may lead to artifacts arising from size effects and self-interactions because of periodic boundary conditions.

Prediction of nitroxide spin label EPR spectra from MD trajectories: application to myoglobin.

We report the prediction of motional EPR spectra of the metalloprotein sperm whale myoglobin spin labelled with nitroxide directly from Molecular Dynamics (MD) simulations at the atomistic scale. We show that an accurate simulation of EPR spectra can be achieved from a single MD trajectory which is in excellent agreement with experiment. Simulations have been carried out using a general method reported previously by us for the simulation of EPR spectra form single dynamical trajectories.

Prediction of EPR spectra of liquid crystals with doped spin probes from fully atomistic molecular dynamics simulations: exploring molecular order and dynamics at the phase transition.

Liquid crystals spin their secrets: Electron paramagnetic resonance (EPR) spectra are predicted directly and completely from fully atomistic molecular dynamics (MD) simulations of 4-cyano-4-n-pentylbiphenyl (5CB) nematic liquid crystals with a doped nitroxide spin probe (depicted in yellow; red curve = simulated and blue curve = measured EPR spectrum).

Electron paramagnetic resonance spectra simulation directly from molecular dynamics trajectories of a liquid crystal with a doped paramagnetic spin probe.

We report simulation of EPR spectra directly and entirely from trajectories generated from molecular dynamics simulations. Results are reported for a model 3beta-DOXYL-5alpha-cholestane spin probe in a coarse-grained solvent representing a 5CB nematic host. The results are in excellent agreement with the experimental spectra.