Hiroaki Saito, Wataru Shinoda, and Masuhiro Mikami
Chem. Phys. Lett. 468, 260-263 (2009).
Comparative molecular dynamics calculations of the fluorinated and the non-fluorinated phospholipid bilayers have been carried out to examine the fluorination effects on hydration structure and lipid dynamics. The fluorination of hydrophobic chain causes an increase of hydration in the headgroup, which reorients toward the bilayer normal. Largely restricted wobbling and lateral diffusional motions were observed in the fluorinated lipid bilayer, which would be attributed to the chain stiffness of fluorinated lipids and the tight chain packing in the membrane core. The lateral diffusion coefficients obtained from these calculations show a good agreement with the experimental results.