Ryan S. Trussler scite author profile

Summary Hfq is a critical component of post‐transcriptional regulatory networks in most bacteria. It usually functions as a chaperone for base‐pairing small RNAs, although non‐canonical regulatory roles are continually emerging. We have previously shown that Hfq represses IS 10/Tn10 transposase expression through both antisense RNA‐dependent and independent mechanisms. In the current work, we set out to define the regulatory role of Hfq in the absence of the IS 10 antisense RNA. We show here that an interaction between the distal surface of Hfq and the ribosome‐binding site of transposase mRNA (RNA‐IN) is required for repressing translation initiation. Additionally, this interaction was critical for the in vivo association of Hfq and RNA‐IN. Finally, we present evidence that the small RNA ChiX activates transposase expression by titrating Hfq away from RNA‐IN. The current results are considered in the broader context of Hfq biology and implications for Hfq titration by ChiX are discussed.

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Acis-encoded sRNA, Hfq and mRNA secondary structure act independently to suppress IS200transposition

Ellis

Trussler

Haniford

2015

Nucleic Acids Res

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IS200 is found throughout Enterobacteriaceae and transposes at a notoriously low frequency. In addition to the transposase protein (TnpA), IS200 encodes an uncharacterized Hfq-binding sRNA that is encoded opposite to the tnpA 5'UTR. In the current work we asked if this sRNA represses tnpA expression. We show here that the IS200 sRNA (named art200 for antisense regulator of transposase IS200) basepairs with tnpA to inhibit translation initiation. Unexpectedly, art200-tnpA pairing is limited to 40 bp, despite 90 nt of perfect complementarity. Additionally, we show that Hfq and RNA secondary structure in the tnpA 5'UTR each repress tnpA expression in an art200-independent manner. Finally, we show that disrupting translational control of tnpA expression leads to increased IS200 transposition in E. coli. The current work provides new mechanistic insight into why IS200 transposition is so strongly suppressed. The possibility of art200 acting in trans to regulate a yet-unidentified target is discussed as well as potential applications of the IS200 system for designing novel riboregulators.

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A transposon-derived small RNA regulates gene expression in Salmonella Typhimurium

Ellis

Trussler

Charles

et al. 2017

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Bacterial sRNAs play an important role in regulating many cellular processes including metabolism, outer membrane homeostasis and virulence. Although sRNAs were initially found in intergenic regions, there is emerging evidence that protein coding regions of the genome are a rich reservoir of sRNAs. Here we report that the 5΄UTR of IS200 transposase mRNA (tnpA) is processed to produce regulatory RNAs that affect expression of over 70 genes in Salmonella Typhimurium. We provide evidence that the tnpA derived sRNA base-pairs with invF mRNA to repress expression. As InvF is a transcriptional activator of SPI-1 encoded and other effector proteins, tnpA indirectly represses these genes. We show that deletion of IS200 elements in S. Typhimurium increases invasion in vitro and reduces growth rate, while over-expression of tnpA suppresses invasion. Our work indicates that tnpA acts as an sRNA ‘sponge’ that sets a threshold for activation of Salmonella pathogenicity island (SPI)-1 effector proteins and identifies a new class of ‘passenger gene’ for bacterial transposons, providing the first example of a bacterial transposon producing a regulatory RNA that controls host gene expression.

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Tn5 transposition in Escherichia coli is repressed by Hfq and activated by over-expression of the small non-coding RNA SgrS

et al. 2014

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BackgroundHfq functions in post-transcriptional gene regulation in a wide range of bacteria, usually by promoting base pairing of mRNAs with trans-encoded sRNAs. It was previously shown that Hfq down-regulates Tn10 transposition by inhibiting IS10 transposase expression at the post-transcriptional level. This provided the first example of Hfq playing a role in DNA transposition and led us to ask if a related transposon, Tn5, is similarly regulated.ResultsWe show that Hfq strongly suppresses Tn5 transposition in Escherichia coli by inhibiting IS50 transposase expression. However, in contrast to the situation for Tn10, Hfq primarily inhibits IS50 transposase transcription. As Hfq does not typically function directly in transcription, we searched for a transcription factor that also down-regulated IS50 transposase transcription and is itself under Hfq control. We show that Crp (cyclic AMP receptor protein) fits these criteria as: (1) disruption of the crp gene led to an increase in IS50 transposase expression and the magnitude of this increase was comparable to that observed for an hfq disruption; and (2) Crp expression decreased in hfq−. We also demonstrate that IS50 transposase expression and Tn5 transposition are induced by over-expression of the sRNA SgrS and link this response to glucose limitation.ConclusionsTn5 transposition is negatively regulated by Hfq primarily through inhibition of IS50 transposase transcription. Preliminary results support the possibility that this regulation is mediated through Crp. We also provide evidence that glucose limitation activates IS50 transposase transcription and transposition.Electronic supplementary materialThe online version of this article (doi:10.1186/s13100-014-0027-z) contains supplementary material, which is available to authorized users.

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Ryan S. Trussler

Evolving Mistranslating tRNAs Through a Phenotypically Ambivalent Intermediate inSaccharomyces cerevisiae

Hfq binds directly to the ribosome‐binding site of IS10 transposase mRNA to inhibit translation

Acis-encoded sRNA, Hfq and mRNA secondary structure act independently to suppress IS200transposition

A transposon-derived small RNA regulates gene expression in Salmonella Typhimurium

Tn5 transposition in Escherichia coli is repressed by Hfq and activated by over-expression of the small non-coding RNA SgrS

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