Essential Role for the BacA Protein in the Uptake of a Truncated Eukaryotic Peptide in Sinorhizobium meliloti

doi:10.1128/JB.01661-08

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Journal of Bacteriology, March 2009, p. 1519-1527, Vol. 191, No. 5
0021-9193/09/$08.00+0 doi:10.1128/JB.01661-08
Copyright © 2009, American Society for Microbiology. All Rights Reserved.

Essential Role for the BacA Protein in the Uptake of a Truncated Eukaryotic Peptide in Sinorhizobium meliloti

Victoria L. Marlow,¹ Andreas F. Haag,¹ Hajime Kobayashi,² Vivien Fletcher,¹ Marco Scocchi,³ Graham C. Walker,² and Gail P. Ferguson¹^*

School of Medicine & Dentistry, Institute of Medical Sciences, University of Aberdeen, Foresterhill, Aberdeen, AB25 2ZD, United Kingdom,¹ Department of Biology, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139,² Department of Life Sciences, University of Trieste, Via Giorgieri 1, 34127 Trieste, Italy³

Received 25 November 2008/ Accepted 4 December 2008

The inner membrane BacA protein is essential for the establishmentof chronic intracellular infections by Sinorhizobium melilotiand Brucella abortus within plant and mammalian hosts, respectively.In their free-living state, S. meliloti and B. abortus mutantslacking BacA have reductions in their outer membrane lipid Avery-long-chain fatty acid (VLCFA) contents and exhibit low-levelresistance to the glycopeptide bleomycin in comparison to theirrespective parent strains. In this paper we investigate thehypothesis that BacA is involved in peptide uptake in S. meliloti.We determined that an S. meliloti ${Delta}$ bacA mutant is completelyresistant to a truncated form of the eukaryotic peptide Bac7,Bac7(1-16), and this phenotype appears to be independent ofits lipid A alteration. Subsequently, we discovered that BacAand/or Escherichia coli SbmA is essential for fluorescentlylabeled Bac7(1-16) uptake in S. meliloti. Given that there arehundreds of root nodule-specific peptides within the legumehost, our data suggest that BacA-mediated peptide uptake couldplay a central role in the chronic infection process of S. meliloti.However, since we determined that two symbiotically defectiveS. meliloti bacA site-directed mutants (with the Q193G and R389Gmutations, respectively) with known reductions in their lipidA VLCFA contents are still capable of peptide uptake, thesefindings suggest that BacA-dependent peptide uptake cannot fullyaccount for the essential role of BacA in the legume symbiosis.Further, they provide evidence that the BacA function that leadsto the S. meliloti lipid A VLCFA modification plays a key rolein the chronic infection of legumes.

* Corresponding author. Mailing address: School of Medicine, Institute of Medical Sciences, University of Aberdeen, Foresterhill, Aberdeen, AB25 2ZD, United Kingdom. Phone: 44 1224 559147. Fax: 44 1224 555766. E-mail: g.ferguson{at}abdn.ac.uk

Published ahead of print on 12 December 2008.

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