2005
DOI: 10.1128/jb.187.8.2810-2826.2005
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Comprehensive Characterization of the Contribution of Individual SigB-Dependent General Stress Genes to Stress Resistance ofBacillus subtilis

Abstract: TheB -dependent general stress regulon of Bacillus subtilis comprises more than 150 members. Induction of this regulon by imposition of environmental or metabolic stress confers multiple, nonspecific, and preemptive stress resistance to nongrowing, nonsporulated cells of B. subtilis. In this study we performed a regulonwide phenotypic screening analysis to determine the stress sensitivity profiles of 94 mutants defective in candidate members of the general stress regulon that were previously identified in our … Show more

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Cited by 114 publications
(139 citation statements)
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“…The initial response of B. subtilis to a sudden and strong osmotic upshift is characterized by a strong and immediate activation of the B regulon, leading to synthesis and accumulation of proteins conferring a broad stress resistance to B. subtilis cells (21). The B regulon comprises at least 37 proteins that are critical for providing osmostress resistance, as judged by the salt-sensitive phenotype of their structural genes (28). Almost all of these B -dependent salt stress protective proteins are significantly upregulated either early at the mRNA level or in later adaptation stages of the osmotically challenged cells on the protein level (Fig.…”
Section: Resultsmentioning
confidence: 99%
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“…The initial response of B. subtilis to a sudden and strong osmotic upshift is characterized by a strong and immediate activation of the B regulon, leading to synthesis and accumulation of proteins conferring a broad stress resistance to B. subtilis cells (21). The B regulon comprises at least 37 proteins that are critical for providing osmostress resistance, as judged by the salt-sensitive phenotype of their structural genes (28). Almost all of these B -dependent salt stress protective proteins are significantly upregulated either early at the mRNA level or in later adaptation stages of the osmotically challenged cells on the protein level (Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Two routes for proline biosynthesis from its precursor glutamate operate in B. subtilis (4): ProB, ProG, and ProI catalyze anabolic proline biosynthesis, and at least two paralogue proteins (ProH and ProJ) are presumed to be responsible for high-level proline synthesis under hyperosmotic conditions (4,7,28). The ProA enzyme is used by both proline biosynthetic routes (4,7).…”
Section: Vol 192 2010 Analysis Of B Subtilis Salt Stress Adaptatiomentioning
confidence: 99%
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