Karen M. Wassarman scite author profile

Research on the discovery and characterization of small, regulatory RNAs in bacteria has exploded in recent years. These sRNAs act by base pairing with target mRNAs with which they share limited or extended complementarity, or by modulating protein activity, in some cases by mimicking other nucleic acids. Mechanistic insights into how sRNAs bind mRNAs and proteins, how they compete with each other, and how they interface with ribonucleases are active areas of discovery. Current work also has begun to illuminate how sRNAs modulate expression of distinct regulons and key transcription factors, thus integrating sRNA activity into extensive regulatory networks. In addition, the application of RNA deep sequencing has led to reports of hundreds of additional sRNA candidates in a wide swath of bacterial species. Most importantly, recent studies have served to clarify the abundance of remaining questions about how, when and why sRNA-mediated regulation is of such importance to bacterial lifestyles.

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Identification of novel small RNAs using comparative genomics and microarrays

Wassarman¹,

Repoila²,

Rosenow³

et al. 2001

Genes Dev.

656

614

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A burgeoning list of small RNAs with a variety of regulatory functions has been identified in both prokaryotic and eukaryotic cells. However, it remains difficult to identify small RNAs by sequence inspection. We used the high conservation of small RNAs among closely related bacterial species, as well as analysis of transcripts detected by high-density oligonucleotide probe arrays, to predict the presence of novel small RNA genes in the intergenic regions of the Escherichia coli genome. The existence of 23 distinct new RNA species was confirmed by Northern analysis. Of these, six are predicted to encode short ORFs, whereas 17 are likely to be novel functional small RNAs. We discovered that many of these small RNAs interact with the RNA-binding protein Hfq, pointing to a global role of the Hfq protein in facilitating small RNA function. The approaches used here should allow identification of small RNAs in other organisms.

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The Sm-like Hfq Protein Increases OxyS RNA Interaction with Target mRNAs

et al. 2002

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The Escherichia coli host factor I, Hfq, binds to many small regulatory RNAs and is required for OxyS RNA repression of fhlA and rpoS mRNA translation. Here we report that Hfq is a bacterial homolog of the Sm and Sm-like proteins integral to RNA processing and mRNA degradation complexes in eukaryotic cells. Hfq exhibits the hallmark features of Sm and Sm-like proteins: the Sm1 sequence motif, a multisubunit ring structure (in this case a homomeric hexamer), and preferential binding to polyU. We also show that Hfq increases the OxyS RNA interaction with its target messages and propose that the enhancement of RNA-RNA pairing may be a general function of Hfq, Sm, and Sm-like proteins.

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6S RNA Regulates E. coli RNA Polymerase Activity

Wassarman

Storz

2000

Cell

435

480

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The E. coli 6S RNA was discovered more than three decades ago, yet its function has remained elusive. Here, we demonstrate that 6S RNA associates with RNA polymerase in a highly specific and efficient manner. UV crosslinking experiments revealed that 6S RNA directly contacts the sigma70 and beta/beta' subunits of RNA polymerase. 6S RNA accumulates as cells reach the stationary phase of growth and mediates growth phase-specific changes in RNA polymerase. Stable association between sigma70 and core RNA polymerase in extracts is only observed in the presence of 6S RNA. We show 6S RNA represses expression from a sigma70-dependent promoter during stationary phase. Our results suggest that the interaction of 6S RNA with RNA polymerase modulates sigma70-holoenzyme activity.

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