6533b85cfe1ef96bd12bcbc4

RESEARCH PRODUCT

The binding of G-protein to rod outer segment phospholipids at the nitrogen–water interface

Christian SalesseF. LamarcheR. M. Leblanc

subject

biologyChemistryAqueous two-phase systemPhospholipidMembrane ProteinsCell BiologySurface pressureBiochemistryCrystallographychemistry.chemical_compoundMembraneGTP-Binding ProteinsCytoplasmRhodopsinMonolayerbiology.proteinAnimalsCattlePhotoreceptor CellsDiffusion (business)Molecular BiologyPhospholipids

description

In the visual process, one photoexcited rhodopsin (R*) catalyzes the activation of hundreds of G-proteins. It remains to be determined whether G-protein and R* find one another by membrane surface diffusion of these components (diffusion model) or by diffusion of G-protein through the aqueous phase (hopping model). A monolayer of each main rod outer segment (ROS) phospholipid interacting with a subphase containing G-protein, has been used to simulate the interaction of G-protein with the cytoplasmic surface of discal membranes. The possible diffusion of G-protein through the aqueous phase was then measured by observing its adsorption–desorption in the monolayer of each main ROS phospholipid. From examination of surface pressure and ellipsometric isotherms at the nitrogen–water interface, we have determined that once incorporated into the monolayer, the G-protein remains associated, independent of surface pressure, thus providing evidence against the hopping model.Key words: rod outer segment, visual process, hopping model, G-protein, phospholipid monolayer, ellipsometry.

yearjournalcountryeditionlanguage
1989-08-01Biochemistry and Cell Biology
https://doi.org/10.1139/o89-067