The Ralstonia eutropha PhaR Protein Couples Synthesis of the PhaP Phasin to the Presence of Polyhydroxybutyrate in Cells and Promotes Polyhydroxybutyrate Production

doi:10.1128/JB.184.1.59-66.2002

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Journal of Bacteriology, January 2002, p. 59-66, Vol. 184, No. 1
0021-9193/01/$04.00+0 DOI: 10.1128/JB.184.1.59-66.2002
Copyright © 2002, American Society for Microbiology. All Rights Reserved.

The Ralstonia eutropha PhaR Protein Couples Synthesis of the PhaP Phasin to the Presence of Polyhydroxybutyrate in Cells and Promotes Polyhydroxybutyrate Production

Gregory M. York,¹ JoAnne Stubbe,¹^,2 and Anthony J. Sinskey¹^*

Department of Biology,¹ Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139²

Received 19 July 2001/ Accepted 3 October 2001

Polyhydroxyalkanoates (PHAs) are polyoxoesters that are producedby many bacteria and that accumulate as intracellular granules.Phasins (PhaP) are proteins that accumulate during PHA synthesis,bind PHA granules, and promote further PHA synthesis. Interestingly,PhaP accumulation seems to be strictly dependent on PHA synthesis,which is catalyzed by the PhaC PHA synthase. Here we have testedthe effect of the Ralstonia eutropha PhaR protein on the regulationof PhaP accumulation. R. eutropha strains with phaR, phaC, and/orphaP deletions were constructed, and PhaP accumulation was measuredby immunoblotting. The wild-type strain accumulated PhaP ina manner dependent on PHA production, and the phaC deletionstrain accumulated no PhaP, as expected. In contrast, both thephaR and the phaR phaC deletion strains accumulated PhaP tohigher levels than did the wild type. This result implies thatPhaR is a negative regulator of PhaP accumulation and that PhaRspecifically prevents PhaP from accumulating in cells that arenot producing PHA. Transfer of the R. eutropha phaR, phaP, andPHA biosynthesis (phaCAB) genes into a heterologous system,Escherichia coli, was sufficient to reconstitute the PhaR/PhaPregulatory system, implying that PhaR both regulates PhaP accumulationand responds to PHA directly. Deletion of phaR caused a decreasein PHA yields, and a phaR phaP deletion strain exhibited a moresevere PHA defect than a phaP deletion strain, implying thatPhaR promotes PHA production and does this at least partiallythrough a PhaP-independent pathway. Models for regulatory rolesof PhaR in regulating PhaP and promoting PHA production arepresented.

* Corresponding author. Mailing address: Bldg. 68-370, Department of Biology, Massachusetts Institute of Technology, 77 Massachusetts Ave., Cambridge, MA 02139. Phone: (617) 253-6721. Fax: (617) 253-8550. E-mail: asinskey{at}mit.edu.

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