Adaptation to carbon starvation: RNase III ensures normal expression levels of bolA1p mRNA and sigma(S).

Abstract	bolA is a sigma(S)-dependent Escherichia coli morphogene involved in the general cellular adaptation to stress and cell division. In this report it is shown that endoribonuclease RNase III acts as a post-transcriptional modulator of bolA expression under carbon starvation conditions. Unexpectedly RNase III positively regulates bolA1p mRNA levels and stabilities. This effect is also observed when sulA, bfr, uspA and uspB transcripts were analyzed. RNase III is furthermore shown to be necessary for the normal expression of sigma(S), ensuring normal levels of rpoS mRNA and sigma(S) protein under glucose starvation. Since sigma(S) controls a complex regulon of stress-response genes, RNase III is proposed as possible modulator of bacterial cell response to stress.
Authors	Patrick Freire, Joana D Amaral, Jorge M Santos, Cecília M Arraiano
Journal	Biochimie (Biochimie) 2006 Mar-Apr Vol. 88 Issue 3-4 Pg. 341-6 ISSN: 0300-9084 [Print] France
PMID	16309817 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Bacterial Proteins Escherichia coli Proteins Heat-Shock Proteins RNA, Messenger Sigma Factor Transcription Factors sigma factor KatF protein, Bacteria sulA protein, E coli universal stress protein A, Bacteria Carbon Ribonuclease III ribonuclease III, E coli Glucose
Topics	Adaptation, Biological Bacterial Proteins (genetics, metabolism) Carbon (metabolism) Escherichia coli (enzymology, genetics, metabolism) Escherichia coli Proteins (genetics, metabolism) Gene Expression Regulation, Bacterial Genes, Bacterial (genetics) Glucose (metabolism) Heat-Shock Proteins (genetics, metabolism) Models, Biological RNA, Messenger (metabolism) Ribonuclease III (genetics, metabolism) Sigma Factor (genetics, metabolism) Transcription Factors (genetics, metabolism)

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