Translational diffusion and fluid domain connectivity in a two-component, two-phase phospholipid bilayer.

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Translational diffusion and fluid domain connectivity in a two-component, two-phase phospholipid bilayer.

W L Vaz, E C Melo and T E Thompson

Max-Planck-Institute für Biophysikalische Chemie, Göttingen, Federal Republic of Germany.

ABSTRACT

The two-dimensional connectivity is examined for mixed bilayersof dimyristoyl phosphatidylcholine (DMPC) and distearoyl phosphatidylcholine(DSPC) as a function of composition and temperature at constantpressure using the fluorescence recovery after photobleaching(FRAP) method. These phospholipid mixtures exhibit peritecticbehavior with a large region in which both gel and liquid crystallinephases coexist. Dilauroyl phosphatidylethanolamine covalentlylinked through the amino function in its head group to the fluorescentnitrobenzodiazolyl group (NBD-DLPE) was used as the fluorescentprobe in this study, because it was found to partition almostexclusively in the liquid crystalline phase. The results ofthese studies show the line of connectivity to be close to theliquidus line on the phase diagram over a rather broad rangeof concentrations. In this range, a gel phase comprising approximately20% of the system disconnects a liquid crystalline phase comprising80% of the system. The implications of this result are discussedfor domain shape and the organization of biological membranecomponents.

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