THE ROLE OF ARGININES 82 AND 227 IN THE BACTERIORHODOPSIN PROTON PUMP

Abstract
Arginine residues 82 and 227 in bacteriorhodopsin were replaced by glutamine residues, using the site-directed mutagenesis techniques. Mutant bacteriorhodopsins were found to be competent in formation and decomposition of the photocycle M412 intermediate as well as in generation of photoelectric potential provided that pH of the medium is sufficiently high. Lowering of pH results in transition of bacteriorhodopsin into a blue acidic form which cannot produce M412 and photo-potential. The p K values of these transitions for Arg-227 → Gln and Arg-82 → Gln mutants are shifted correspondently for 1 and 4 pH units to a higher pH region in comparison with native bacteriorhodopsin. The rate of the M412 formation in both mutants was similar to that in the native protein. As to M412 decay, it is much slower in Arg-227 → Gln mutant than in native and Arg-82 → Gln bacteriorhodopsins. In all cases, the decay depends only slightly upon pH. It is concluded that Arg-82 is involved in maintenance of a bacteriorhodopsin structure that is resistant to the pH decrease down to 4 whereas Arg-227 is required first of all for the process of Schiff base reprotonation.