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2007:
Chan Yvonne C; Raengpradub Sarita; Boor Kathryn J; Wiedmann Martin
Microarray-based characterization of the Listeria monocytogenes cold regulon in log- and stationary-phase cells.
Applied and environmental microbiology 2007;
73(
20):.
Whole-genome microarray experiments were performed to define the Listeria monocytogenes cold growth regulon and to identify genes differentially expressed during growth at 4 and 37 degrees C. Microarray analysis using a stringent cutoff (adjusted P < 0.001; >/=2.0-fold change) revealed 105 and 170 genes that showed higher transcript levels in logarithmic- and stationary-phase cells, respectively, at 4 degrees C than in cells grown at 37 degrees C. A total of 74 and 102 genes showed lower transcript levels in logarithmic- and stationary-phase cells, respectively, grown at 4 degrees C. Genes with higher transcript levels at 4 degrees C in both stationary- and log-phase cells included genes encoding a two-component response regulator (lmo0287), a cold shock protein (cspL), and two RNA helicases (lmo0866 and lmo1722), whereas a number of genes encoding virulence factors and heat shock proteins showed lower transcript levels at 4 degrees C. Selected genes that showed higher transcript levels at 4 degrees C during both stationary and log phases were confirmed by quantitative reverse transcriptase PCR. Our data show that (i) a large number of L. monocytogenes genes are differentially expressed at 4 and 37 degrees C, with more genes showing higher transcript levels than lower transcript levels at 4 degrees C, (ii) L. monocytogenes genes with higher transcript levels at 4 degrees C include a number of genes and operons with previously reported or plausible roles in cold adaptation, and (iii) L. monocytogenes genes with lower transcript levels at 4 degrees C include a number of virulence and virulence-associated genes as well as some heat shock genes.
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