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Sensory rhodopsin I: Receptor activation and signal relay (1992)

Spudich, John L. ; Bogomolni, Roberto A.

Springer

Journal of bioenergetics and biomembranes 24 (1992), S. 193-200

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ISSN: 1573-6881

Keywords: Phototaxis ; photoreception ; signal transduction

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Physics

Notes: Abstract Recent progress is summarized on the mechanism of phototransduction by sensory rhodopsin I (SR-I), a phototaxis receptor inHalobacterium 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 anH. 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 theH. 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.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00762677

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Electronic Resource

Properties of a second sensory receptor protein in Halobacterium halobium phototaxis (1986)

Spudich, Elena N. ; Sundberg, Steven A. ; Manor, Danny ; [et al.]

New York, NY : Wiley-Blackwell

Proteins: Structure, Function, and Genetics 1 (1986), S. 239-246

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ISSN: 0887-3585

Keywords: halobacteria ; photosensory receptor ; retinal ; slow-cycling rhodopsins ; sensory rhodopsins ; Chemistry ; Biochemistry and Biotechnology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: A second slow-cycling retinylidene protein, in addition to slow-cycling (sensory) rhodopsin (SR), can be bleached with hydroxylamine and regenerated with all-trans retinal in photosensory signaling Halobacterium halobium membranes. Flash photolysis shows this protein undergoes a photochemical reaction cycle characterized by photoconversion of its ground state (λmax 480 nm) to a species with λmax ≤ 360 nm, which thermally regenerates the 480-nm species with a t½ of 260 msec at 25°C, under conditions in which SR photocycles at 650 msec in the same membranes. Mutants characterized with respect to their phototaxis behavior are identified which contain SR and the 480-nm pigment, the latter ranging from undetectable to a concentration equal to that of SR. Receptor mutants lacking all phototaxis sensitivity lack both of the photochemically reactive proteins. The mutant properties contribute to an accumulation of behavioral and spectroscopic evidence that the 480-nm pigment is a second sensory photoreceptor in H. halobium. NaDodSO4-polyacrylamide gel electrophoresis of [3H]retinal-labeled membrane proteins from the mutants indicates SR and the 480-nm pigment contain distinct chromophoric polypeptides differing in their migration rates. The data implicate polypeptides of 25,000 Mr and 23,000 Mr as retinal-binding polypeptides of SR and the 480-nm protein, respectively.

Additional Material: 8 Ill.