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Alternative sigma factor ?H activates competence gene expression in Lactobacillus sakei.


ABSTRACT: BACKGROUND: Alternative sigma factors trigger various adaptive responses. Lactobacillus sakei, a non-sporulating meat-borne bacterium, carries an alternative sigma factor seemingly orthologous to ?(H) of Bacillus subtilis, best known for its contribution to the initiation of a large starvation response ultimately leading to sporulation. As the role of ?(H)-like factors has been little studied in non-sporulating bacteria, we investigated the function of ?(H) in L. sakei. RESULTS: Transcription of sigH coding for ?(H) was hardly affected by entry into stationary phase in our laboratory conditions. Twenty-five genes potentially regulated by ?(H) in L. sakei 23 K were revealed by genome-wide transcriptomic profiling of sigH overexpression and/or quantitative PCR analysis. More than half of them are involved in the synthesis of a DNA uptake machinery linked to genetic competence, and in DNA metabolism; however, ?(H) overproduction did not allow detectable genetic transformation. ?(H) was found to be conserved in the L. sakei species. CONCLUSION: Our results are indicative of the existence of a genetic competence state activated by ?(H) in L. sakei, and sustain the hypothesis that ?(H)-like factors in non sporulating Firmicutes share this common function with the well-known ComX of naturally transformable streptococci.

SUBMITTER: Schmid S 

PROVIDER: S-EPMC3364868 | biostudies-literature | 2012

REPOSITORIES: biostudies-literature

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Alternative sigma factor σH activates competence gene expression in Lactobacillus sakei.

Schmid Solveig S   Bevilacqua Claudia C   Crutz-Le Coq Anne-Marie AM  

BMC microbiology 20120312


<h4>Background</h4>Alternative sigma factors trigger various adaptive responses. Lactobacillus sakei, a non-sporulating meat-borne bacterium, carries an alternative sigma factor seemingly orthologous to σ(H) of Bacillus subtilis, best known for its contribution to the initiation of a large starvation response ultimately leading to sporulation. As the role of σ(H)-like factors has been little studied in non-sporulating bacteria, we investigated the function of σ(H) in L. sakei.<h4>Results</h4>Tra  ...[more]

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