Protein rotational diffusion and lipid/protein interactions in recombinants of bovine rhodopsin with saturated diacylphosphatidylcholines of different chain lengths studied by conventional and saturation-transfer electron spin resonance.

Bovine rhodopsin has been reconstituted in seven different saturated diacylphosphatidylcholine species of odd and even chain lengths from C-12 to C-18 at a lipid/protein ratio (60:1 mol/mol) comparable to that in the native rod outer segment disk membrane. All recombinants were found to be photochemically active, in that optical bleaching produced a temperature- and lipid chain-length-dependent mixture of species absorbing at 480 and 380 nm. Both the rotational diffusion of rhodopsin and lipid-protein interactions in the various recombinants were studied by saturation transfer and conventional electron spin resonance spectroscopy of spin-labeled rhodopsin and of spin-labeled phosphatidylcholine, respectively. In the fluid lipid phase, the rotational diffusion rate of rhodopsin was found to be dependent on the lipid chain length of the different recombinants in a nonmonotonic manner. The diffusion rate in dilauroylphosphatidylcholine was found to be very slow, indicating extensive protein aggregation, whereas that in dipentadecanoylphosphatidylcholine was rapid (effective correlation time ca. 7 microseconds), consistent with the presence of monomeric protein. For recombinants with longer lipid chain lengths, the rotational diffusion rate again decreased, indicating the presence of di- or oligomeric protein. The fraction of lipid motionally restricted at temperatures in the fluid phase was also dependent on the chain length of the phosphatidylcholine used in the reconstitution.(ABSTRACT TRUNCATED AT 250 WORDS)

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