Two novel members of the LhrC family of small RNAs in Listeria monocytogenes with overlapping regulatory functions but distinctive expression profiles

Maria Storm Mollerup, Joseph Ross, AC Helfer, Kristine Meistrup, Pascale Romby, Birgitte H. Kallipolitis

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Abstract

Multicopy small RNAs (sRNAs) have gained recognition as an important feature of bacterial gene regulation. In the human pathogen Listeria monocytogenes, 5 homologous sRNAs, called LhrC1-5, control gene expression by base pairing to target mRNAs though 3 conserved UCCC motifs common to all 5 LhrCs. We show here that the sRNAs Rli22 and Rli33-1 are structurally and functionally related to LhrC1-5, expanding the LhrC family to 7 members, which makes it the largest multicopy sRNA family reported so far. Rli22 and Rli33-1 both contain 2 UCCC motifs important for post-transcriptional repression of 3 LhrC target genes. One such target, oppA, encodes a virulence-associated oligo-peptide binding protein. Like LhrC1-5, Rli22 and Rli33-1 employ their UCCC motifs to recognize the Shine-Dalgarno region of oppA mRNA and prevent formation of the ribosomal complex, demonstrating that the 7 sRNAs act in a functionally redundant manner. However, differential expression profiles of the sRNAs under infection-relevant conditions suggest that they might also possess non-overlapping functions. Collectively, this makes the LhrC family a unique case for studying the purpose of sRNA multiplicity in the context of bacterial virulence.

Original languageEnglish
JournalRNA Biology
Volume13
Issue number9
Pages (from-to)895-915
ISSN1547-6286
DOIs
Publication statusPublished - Sept 2016

Keywords

  • multiplicity
  • post-transcriptional regulation
  • Listeria monocytogenes
  • Antisense
  • sRNAs
  • Multigene Family
  • RNA, Bacterial/chemistry
  • RNA, Small Untranslated/chemistry
  • Transcriptome
  • Listeria monocytogenes/genetics
  • RNA, Messenger/genetics
  • Base Pairing
  • Nucleotide Motifs
  • RNA Interference
  • Base Sequence
  • Protein Binding
  • Gene Expression Regulation, Bacterial
  • Nucleic Acid Conformation
  • Gene Order
  • Ribosomes/metabolism

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