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Journal of Bacteriology, December 2008, p. 8106-8114, Vol. 190, No. 24
0021-9193/08/$08.00+0     doi:10.1128/JB.01094-08
Copyright © 2008, American Society for Microbiology. All Rights Reserved.

Hierarchical Regulation of Photosynthesis Gene Expression by the Oxygen-Responsive PrrBA and AppA-PpsR Systems of Rhodobacter sphaeroides

Larissa Gomelsky,¹ Oleg V. Moskvin,¹ Rachel A. Stenzel,² Denise F. Jones,² Timothy J. Donohue,² and Mark Gomelsky^1*

Department of Molecular Biology, University of Wyoming, Laramie, Wyoming,¹ Department of Bacteriology, University of Wisconsin, Madison, Wisconsin²

Received 6 August 2008/ Accepted 3 October 2008

In the facultatively phototrophic proteobacterium Rhodobacter sphaeroides, formation of the photosynthetic apparatus is oxygen dependent. When oxygen tension decreases, the response regulator PrrA of the global two-component PrrBA system is believed to directly activate transcription of the puf, puh, and puc operons, encoding structural proteins of the photosynthetic complexes, and to indirectly upregulate the photopigment biosynthesis genes bch and crt. Decreased oxygen also results in inactivation of the photosynthesis-specific repressor PpsR, bringing about derepression of the puc, bch, and crt operons. We uncovered a hierarchical relationship between these two regulatory systems, earlier thought to function independently. We also more accurately assessed the spectrum of gene targets of the PrrBA system. First, expression of the appA gene, encoding the PpsR antirepressor, is PrrA dependent, which establishes one level of hierarchical dominance of the PrrBA system over AppA-PpsR. Second, restoration of the appA transcript to the wild-type level is insufficient for rescuing phototrophic growth impairment of the prrA mutant, whereas inactivation of ppsR is sufficient. This suggests that in addition to controlling appA transcription, PrrA affects the activity of the AppA-PpsR system via an as yet unidentified mechanism(s). Third, PrrA directly activates several bch and crt genes, traditionally considered to be the PpsR targets. Therefore, in R. sphaeroides, the global PrrBA system regulates photosynthesis gene expression (i) by rigorous control over the photosynthesis-specific AppA-PpsR regulatory system and (ii) by extensive direct transcription activation of genes encoding structural proteins of photosynthetic complexes as well as genes encoding photopigment biosynthesis enzymes.

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* Corresponding author. Mailing address: Department of Molecular Biology, University of Wyoming, Dept. 3944, 1000 E. University Ave., Laramie, WY 82071. Phone: (307) 766-3522. Fax: (307) 766-3875. E-mail: gomelsky{at}uwyo.edu

Published ahead of print on 17 October 2008.

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Journal of Bacteriology, December 2008, p. 8106-8114, Vol. 190, No. 24
0021-9193/08/$08.00+0     doi:10.1128/JB.01094-08
Copyright © 2008, American Society for Microbiology. All Rights Reserved.