A coarse-grained molecular dynamics investigation of the phase behavior of DPPC/cholesterol mixtures
2015
Zhang, Yawen | Lervik, Anders | Seddon, John | Bresme, Fernando
We report a systematic molecular dynamics computer simulation investigation of the phase behavior of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC)/cholesterol (CHOL) bilayers for a wide range of temperatures and cholesterol compositions (0–50%). Our simulations consist of several thousand phospholipids modeled with the coarse grained MARTINI forcefield covering timescales of tens of microseconds. We employ Voronoi and Delaunay constructions to quantify local compositions in an attempt to identify coexistence regions with the liquid ordered (Lo) phase. We combine this analysis with the chain order parameter and in plane pair correlation functions and propose a phase coexistence diagram for the DPPC/CHOL mixture. We find stable liquid ordered phases Lo for high cholesterol content (40–50%). At these concentrations the cholesterol molecules arrange themselves in linear clusters. Our simulations provide evidence for coexistence between the Lo and gel phases at low temperatures, while at high temperatures the transition from the liquid disordered phase to the Lo phase is continuous and coexistence is not observed. The lipid molecules dynamics depends strongly on temperature and cholesterol concentration. At 323K and short times, t∼0.1μs the lipid molecules’ feature an anomalous sub-diffusive behavior with the mean square displacement (MSD) scaling as ∼t1/2. The characteristic time needed to reach the diffusive regime MSD ∼t, increases with the cholesterol content, reaching 0.2μs for 40% cholesterol content. The lipid diffusion activation energy in the Lo phase is 57kJ/mol, in good agreement with the available experimental estimates.
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