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Genome-wide analysis of Staufen-associated mRNAs identifies secondary structures that confer target specificity.


ABSTRACT: Despite studies that have investigated the interactions of double-stranded RNA-binding proteins like Staufen with RNA in vitro, how they achieve target specificity in vivo remains uncertain. We performed RNA co-immunoprecipitations followed by microarray analysis to identify Staufen-associated mRNAs in early Drosophila embryos. Analysis of the localization and functions of these transcripts revealed a number of potentially novel roles for Staufen. Using computational methods, we identified two sequence features that distinguish Staufen's target transcripts from non-targets. First, these Drosophila transcripts, as well as those human transcripts bound by human Staufen1 and 2, have 3' untranslated regions (UTRs) that are 3-4-fold longer than unbound transcripts. Second, the 3'UTRs of Staufen-bound transcripts are highly enriched for three types of secondary structures. These structures map with high precision to previously identified Staufen-binding regions in Drosophila bicoid and human ARF1 3'UTRs. Our results provide the first systematic genome-wide analysis showing how a double-stranded RNA-binding protein achieves target specificity.

SUBMITTER: Laver JD 

PROVIDER: S-EPMC3814352 | biostudies-literature | 2013 Nov

REPOSITORIES: biostudies-literature

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Genome-wide analysis of Staufen-associated mRNAs identifies secondary structures that confer target specificity.

Laver John D JD   Li Xiao X   Ancevicius Kristin K   Westwood J Timothy JT   Smibert Craig A CA   Morris Quaid D QD   Lipshitz Howard D HD  

Nucleic acids research 20130813 20


Despite studies that have investigated the interactions of double-stranded RNA-binding proteins like Staufen with RNA in vitro, how they achieve target specificity in vivo remains uncertain. We performed RNA co-immunoprecipitations followed by microarray analysis to identify Staufen-associated mRNAs in early Drosophila embryos. Analysis of the localization and functions of these transcripts revealed a number of potentially novel roles for Staufen. Using computational methods, we identified two s  ...[more]

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