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HiCLIP reveals the in vivo atlas of mRNA secondary structures recognized by Staufen 1.


ABSTRACT: The structure of messenger RNA is important for post-transcriptional regulation, mainly because it affects binding of trans-acting factors. However, little is known about the in vivo structure of full-length mRNAs. Here we present hiCLIP, a biochemical technique for transcriptome-wide identification of RNA secondary structures interacting with RNA-binding proteins (RBPs). Using this technique to investigate RNA structures bound by Staufen 1 (STAU1) in human cells, we uncover a dominance of intra-molecular RNA duplexes, a depletion of duplexes from coding regions of highly translated mRNAs, an unexpected prevalence of long-range duplexes in 3' untranslated regions (UTRs), and a decreased incidence of single nucleotide polymorphisms in duplex-forming regions. We also discover a duplex spanning 858 nucleotides in the 3' UTR of the X-box binding protein 1 (XBP1) mRNA that regulates its cytoplasmic splicing and stability. Our study reveals the fundamental role of mRNA secondary structures in gene expression and introduces hiCLIP as a widely applicable method for discovering new, especially long-range, RNA duplexes.

SUBMITTER: Sugimoto Y 

PROVIDER: S-EPMC4376666 | biostudies-literature | 2015 Mar

REPOSITORIES: biostudies-literature

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hiCLIP reveals the in vivo atlas of mRNA secondary structures recognized by Staufen 1.

Sugimoto Yoichiro Y   Vigilante Alessandra A   Darbo Elodie E   Zirra Alexandra A   Militti Cristina C   D'Ambrogio Andrea A   Luscombe Nicholas M NM   Ule Jernej J  

Nature 20150318 7544


The structure of messenger RNA is important for post-transcriptional regulation, mainly because it affects binding of trans-acting factors. However, little is known about the in vivo structure of full-length mRNAs. Here we present hiCLIP, a biochemical technique for transcriptome-wide identification of RNA secondary structures interacting with RNA-binding proteins (RBPs). Using this technique to investigate RNA structures bound by Staufen 1 (STAU1) in human cells, we uncover a dominance of intra  ...[more]

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