Sensory rhodopsin I: receptor activation and signal relay.

Recent progress is summarized on the mechanism of phototransduction by sensory rhodopsin I (SR-I), a phototaxis receptor in Halobacterium halobium. Two aspects are emphasized: (i) The coupling of retinal isomerization to protein conformational changes. Retinal analogs have been used to probe chromophore-apoprotein interactions during the receptor activation process. One of the most important results is the finding of a steric trigger deriving from the interaction of residues on the protein with a methyl group near the isomerizing bond of the retinal (at carbon 13). Recent work on molecular genetic methods to further probe structure/function includes the synthesis and expression of an SR-I apoprotein gene designed for residue replacements by cassette mutagenesis, and transformation of an H. halobium mutant lacking all retinylidene proteins known in this species to SR-I+ and bacteriorhodopsin (BR)+. (ii) The relay of the SR-I signal to a post-receptor component. A carboxylmethylated protein ("MPP-I") associated with SR-I and found in the H. halobium membrane exhibits homology with the signaling domain of eubacterial chemotaxis transducers (e.g., Escherichia coli Tar, Tsr, and Trg proteins), suggesting a model based on SR-I----MPP-I signal relay.