A trans-acting RNA as a control switch in Escherichia coli: DsrA modulates function by forming alternative structures

Richard A. Lease; Marlene Belfort

doi:10.1073/pnas.170281497

A trans-acting RNA as a control switch in Escherichia coli: DsrA modulates function by forming alternative structures

Richard A. Lease
, Marlene Belfort

Biology

University at Albany

Research output: Contribution to journal › Article › peer-review

172 Scopus citations

Abstract

DsrA is an 87-nucleotide regulatory RNA of Escherichia coli that acts in trans by RNA-RNA interactions with two different mRNAs, hns and rpoS. DsrA has opposite effects on these transcriptional regulators. H-NS levels decrease, whereas RpoS (σ(s)) levels increase. Here we show that DsrA enhances hns mRNA turnover yet stabilizes rpoS mRNA, either directly or via effects on translation. Computational and RNA footprinting approaches led to a refined structure for DsrA, and a model in which DsrA interacts with the hns mRNA start and stop codon regions to form a coaxial stack. Analogous bipartite interactions exist in eukaryotes, albeit with different regulatory consequences. In contrast, DsrA base pairs in discrete fashion with the rpoS RNA translational operator. Thus, different structural configurations for DsrA lead to opposite regulatory consequences for target RNAs.

Original language	English
Pages (from-to)	9919-9924
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	97
Issue number	18
DOIs	https://doi.org/10.1073/pnas.170281497
State	Published - Aug 29 2000

Keywords

Natural antisense
RNA turnover
RNA-RNA interactions
Structural dynamics
Translation

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title = "A trans-acting RNA as a control switch in Escherichia coli: DsrA modulates function by forming alternative structures",

abstract = "DsrA is an 87-nucleotide regulatory RNA of Escherichia coli that acts in trans by RNA-RNA interactions with two different mRNAs, hns and rpoS. DsrA has opposite effects on these transcriptional regulators. H-NS levels decrease, whereas RpoS (σ(s)) levels increase. Here we show that DsrA enhances hns mRNA turnover yet stabilizes rpoS mRNA, either directly or via effects on translation. Computational and RNA footprinting approaches led to a refined structure for DsrA, and a model in which DsrA interacts with the hns mRNA start and stop codon regions to form a coaxial stack. Analogous bipartite interactions exist in eukaryotes, albeit with different regulatory consequences. In contrast, DsrA base pairs in discrete fashion with the rpoS RNA translational operator. Thus, different structural configurations for DsrA lead to opposite regulatory consequences for target RNAs.",

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AB - DsrA is an 87-nucleotide regulatory RNA of Escherichia coli that acts in trans by RNA-RNA interactions with two different mRNAs, hns and rpoS. DsrA has opposite effects on these transcriptional regulators. H-NS levels decrease, whereas RpoS (σ(s)) levels increase. Here we show that DsrA enhances hns mRNA turnover yet stabilizes rpoS mRNA, either directly or via effects on translation. Computational and RNA footprinting approaches led to a refined structure for DsrA, and a model in which DsrA interacts with the hns mRNA start and stop codon regions to form a coaxial stack. Analogous bipartite interactions exist in eukaryotes, albeit with different regulatory consequences. In contrast, DsrA base pairs in discrete fashion with the rpoS RNA translational operator. Thus, different structural configurations for DsrA lead to opposite regulatory consequences for target RNAs.

KW - Natural antisense

KW - RNA turnover

KW - RNA-RNA interactions

KW - Structural dynamics

KW - Translation

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A trans-acting RNA as a control switch in Escherichia coli: DsrA modulates function by forming alternative structures

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Keywords

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