TRANSVERSAL MOBILITY IN BILAYER MEMBRANE-VESICLES - USE OF PYRENE LECITHIN AS OPTICAL PROBE

Pyrene lecithin, a new excimer-forming lipid molecule, has been synthesized to examine the transversal mobility of probe molecules in lecithin bilayer vesicles. The rate of the lipid exchange is obtained by following the excimer yield as a function of time after mixing of fluorescence doped and undoped vesicles. A rapid exchange (τ 1 2 = 11 s) is followed by a slow transfer (t 1 2 = 8 h). Above the lipid phase transition the fast transfer can be attributed to an exchange of lipid molecules from the outer layer of one vesicle to the outer layer of another one. The slow exchange is interpreted in terms of the 'flip-flop' process between the two layers of a single bilayer vesicle. Using pyrene and pyrene decanoic acid as probe molecules only the fast transfer through the water phase is observed (τ 1 2 = 4 s for pyrene and τ 1 2 = 7 s for pyrene decanoic acid). This indicates that molecules like fatty acids or apolar membrane constituents must equilibrate very rapidly in a single bilayer vesicle. The water solubility or the critical micelle concentration of the probe molecules is determined and related to the transfer rates. An exchange process through the water phase via a monomeric state can be excluded. © 1979.