Major role for mRNA binding and restructuring in sRNA recruitment by Hfq |
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Authors: | Soper Toby J Doxzen Kevin Woodson Sarah A |
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Institution: | Cell, Molecular and Developmental Biology and Biophysics Program, Johns Hopkins University, Baltimore, Maryland 21218, USA. |
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Abstract: | Bacterial small RNAs (sRNAs) modulate gene expression by base-pairing with target mRNAs. Many sRNAs require the Sm-like RNA binding protein Hfq as a cofactor. Well-characterized interactions between DsrA sRNA and the rpoS mRNA leader were used to understand how Hfq stimulates sRNA pairing with target mRNAs. DsrA annealing stimulates expression of rpoS by disrupting a secondary structure in the rpoS leader, which otherwise prevents translation. Both RNAs bind Hfq with similar affinity but interact with opposite faces of the Hfq hexamer. Using mutations that block interactions between two of the three components, we demonstrate that Hfq binding to a functionally critical (AAN)(4) motif in rpoS mRNA rescues DsrA binding to a hyperstable rpoS mutant. We also show that Hfq cannot stably bridge the RNAs. Persistent ternary complexes only form when the two RNAs are complementary. Thus, Hfq mainly acts by binding and restructuring the rpoS mRNA. However, Hfq binding to DsrA is needed for maximum annealing in vitro, indicating that transient interactions with both RNAs contribute to the regulatory mechanism. |
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Keywords: | DsrA rpoS RNA chaperone RNA–protein interactions bacterial gene regulation native gel electrophoresis |
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