Chere S. Mosley scite author profile

Our laboratory recently demonstrated that anaerobic induction of light harvesting and reaction center structural gene expression involved a trans-acting factor, RegA, which exhibits sequence similarity to the class of prokaryotic sensory transduction proteins known as response regulators (M. W. Sganga and C. E. Bauer, Cell 68:945-954, 1992). In this study, we performed a screen for additional genes involved in inducing anaerobic expression of light harvesting and reaction center structural genes. This search resulted in the isolation of four strains that were shown by complementation and marker rescue analysis to harbor mutations allelic to the originally described regA mutation and one strain with a mutation found to be linked but nonallelic to regA. Sequence analysis indicated that this additional gene, regB, codes for a polypeptide that exhibits sequence similarity to the prokaryotic family of histidine sensor kinases. Analysis of photosynthesis gene expression in regB mutants indicates that the disruption of regB results in a phenotype that is very similar to that described for regA mutants, namely, a failure to trans activate anaerobic expression of the puf, puh, and puc operons. In analogy to other prokaryotic sensory transduction systems, we propose that RegB functions as a membrane-spanning sensor kinase that controls the anaerobic phosphorylation state of RegA, which in turn controls the induction of light harvesting and reaction center structural genes.

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Isolation and in Vitro Phosphorylation of Sensory Transduction Components Controlling Anaerobic Induction of Light Harvesting and Reaction Center Gene Expression in Rhodobacter capsulatus

Inoue

Kouadio²,

Mosley³

et al. 1995

Biochemistry

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Anaerobic induction of light harvesting and reaction center gene expression involves two transacting factors termed RegA and RegB. Sequence and mutational analysis has indicated that RegA and RegB constitute cognate components of a prokaryotic sensory transduction cascade with RegB comprising a membrane-spanning sensor kinase and RegA a cytosolic response regulator. In this study we have purified RegA, as well as a truncated portion of RegB (RegB') and undertaken an in vitro analysis of autophosphorylation and phosphotransfer activities. Incubation of RegB' with [gamma-32P]ATP and MgCl2 resulted in phosphorylation of RegB' (RegB' approximately P) over a 20-min incubation period. Incubation of RegB' approximately P with RegA resulted in rapid transfer of the phosphate from RegB' to RegA. In analogy to other characterized prokaryotic sensory transduction components, mutational and chemical stability studies also indicate that RegB' is autophosphorylated at a conserved histidine and that RegA accepts the phosphate from RegB at a conserved aspartate.

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Control of photosystem genes in Rhodobacter capsulatus

1993

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Chere S. Mosley

Identification and molecular genetic characterization of a sensor kinase responsible for coordinately regulating light harvesting and reaction center gene expression in response to anaerobiosis

Isolation and in Vitro Phosphorylation of Sensory Transduction Components Controlling Anaerobic Induction of Light Harvesting and Reaction Center Gene Expression in Rhodobacter capsulatus

Control of photosystem genes in Rhodobacter capsulatus

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