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Title: Low temperature (23 degrees C) increases expression of biofilm-, cold-shock- and RpoS-dependent genes in Escherichia coli K-12. Author: White-Ziegler CA, Um S, Pérez NM, Berns AL, Malhowski AJ, Young S. Journal: Microbiology (Reading); 2008 Jan; 154(Pt 1):148-166. PubMed ID: 18174134. Abstract: Temperature serves as a cue to regulate gene expression in Escherichia coli and other bacteria. Using DNA microarrays, we identified 297 genes whose expression is increased at 23 degrees C compared to 37 degrees C in E. coli K-12. Of these genes, 122 are RpoS-controlled, confirming genome-wide the model that low temperature serves as a primary cue to trigger the general stress response. Several genes expressed at 23 degrees C overlap with the cold-shock response, suggesting that strategies used to adapt to sudden shifts in temperature also mediate long-term growth at 23 degrees C. Another category of genes more highly expressed at 23 degrees C are associated with biofilm development, implicating temperature as an important cue influencing this developmental pathway. In a candidate set of genes tested, the biofilm genes (adrA, bolA, mlrA, nhaR, csgA, yceP/bssS) and cold-shock genes (otsA, yceP/bssS) were found to be RpoS- and DsrA-dependent for their transcription at 23 degrees C. In contrast, transcription of three genes (ycgZ, dps and ymgB) was either partially or fully independent of these regulators, signifying there is an alternative thermoregulatory mechanism(s) that increases gene expression at 23 degrees C. Increased expression at 23 degrees C compared to 37 degrees C is retained in various media tested for most of the genes, supporting the relative importance of this cue in adaptation to changing environments. Both the RpoS-dependent gene otsA and the RpoS-independent gene ymgB demonstrated increased expression levels within 1 h after a shift from 37 to 23 degrees C, indicating a rapid response to this environmental cue. Despite changes in gene expression for many RpoS-dependent genes, experiments assessing growth rate at 23 degrees C and viability at 4 degrees C did not demonstrate significant impairment in rpoS : : Tn10 or dsrA : : cat mutant strains in comparison to the wild-type strain. Biofilm formation was favoured at low temperature and is moderately impaired in both the rpoS : : Tn10 and dsrA : : cat mutants at 23 degrees C, suggesting genes controlled by these regulators play a role necessary for optimal biofilm formation at 23 degrees C. Taken together, our data demonstrate that a large number of genes are increased in expression at 23 degrees C to globally respond to this environmental change and that at least two thermoregulatory pathways are involved in co-ordinating this response - the RpoS/DsrA pathway and an alternative thermoregulatory pathway, independent of these regulators.[Abstract] [Full Text] [Related] [New Search]