2010
DOI: 10.1111/j.1365-2958.2010.07158.x
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A dual‐function sRNA from B. subtilis: SR1 acts as a peptide encoding mRNA on the gapA operon

Abstract: SummarySmall non-coding RNAs (sRNAs) have been found to regulate gene expression in all three kingdoms of life. So far, relatively little is known about sRNAs from Gram-positive bacteria. SR1 is a regulatory sRNA from the Bacillus subtilis chromosome that inhibits by base-pairing translation initiation of ahrC mRNA encoding a transcriptional activator of the arginine catabolic operons. Here we present a novel target of SR1, the glycolytic gapA operon. Both microarray and Northern blot analyses show that the am… Show more

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Cited by 75 publications
(119 citation statements)
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“…SR1 was later found to encode a 39-amino-acid peptide that increases mRNA stability of the gapA operon by binding to the GapA protein via an unknown mechanism. This made SR1 the first established dual-function sRNA in B. subtilis (105). Importantly, the two SR1 functionsregulation of ahrC mRNA via an sRNA-mRNA interaction and regulation of gapA mediated by the SR1 peptide-are conserved in related Bacillus species (106).…”
Section: Independently Expressed Small Rnas and Rna Antitoxinsmentioning
confidence: 99%
“…SR1 was later found to encode a 39-amino-acid peptide that increases mRNA stability of the gapA operon by binding to the GapA protein via an unknown mechanism. This made SR1 the first established dual-function sRNA in B. subtilis (105). Importantly, the two SR1 functionsregulation of ahrC mRNA via an sRNA-mRNA interaction and regulation of gapA mediated by the SR1 peptide-are conserved in related Bacillus species (106).…”
Section: Independently Expressed Small Rnas and Rna Antitoxinsmentioning
confidence: 99%
“…Moreover, depending on function, they can be transcribed at the same time or under opposing conditions as the sense strand (41). Furthermore, these transcripts can have dual functions, acting as antisense RNAs and as peptide-encoding mRNAs (43). Although we have only just begun to investigate the asRNA in the loop region, since overexpression results in less capsule synthesis, the function of this antisense transcript may be to target the large transcript for degradation, a transcript that would otherwise be stable, given the large stem-loop structure at the 5= end.…”
Section: Figmentioning
confidence: 99%
“…For example, E. coli RNA SgrS can regulate several mRNA targets through direct base pairing and encodes the 43-amino-acid polypeptide SgrT (29). The 39-amino-acid peptide SR1P, encoded by SR1 RNA, was also detected from a multicopy plasmid by Western blotting in Bacillus subtilis (30). In Pseudomonas aeruginosa, the Hfq-binding RNA PhrS contains a translated 37-amino-acid open reading frame (ORF) whose function is still unknown (31).…”
Section: Discussionmentioning
confidence: 99%