ABSTRACT We identified the RNA‐binding protein Rop, encoded on the pOSAK1 plasmid of enterohaemorrhagic Escherichia coli (EHEC), as a novel factor that enhances nitric oxide (NO) resistance, although it has previously been reported to regulate plasmid copy number. The Rop‐induced increase in NO resistance was significantly reduced in several small noncoding RNA (sRNA) gene‐deficient EHEC mutants. Among these sRNAs, DsrA, ArcZ, and RprA were directly involved in the translational regulation of rpoS expression, suggesting that Rop modulates rpoS expression through sRNAs. To examine this mechanism, we generated sRNA gene‐deficient mutants with an additional deletion of the 5′ untranslated region (5′ UTR) of rpoS , which is required for translational regulation. The increase in NO resistance by Rop was restored in the double mutant, suggesting that this phenotype is mediated by Rop‐dependent interactions between sRNAs and the 5′ UTR of rpoS mRNA. Furthermore, Rop promoted rpoS mRNA degradation, an effect that likely suppresses RpoS production and may thereby enhance NO resistance. Finally, an hfq ‐deficient EHEC mutant exhibited no increase in NO resistance in the presence of Rop, indicating that Hfq is essential for Rop‐mediated NO resistance.
Shimizu et al. (Tue,) studied this question.