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Integrating RNAs into signaling pathways by engineering covalent RNA modification

$2,497,500DP2FY2014HDNIH

Yale University, New Haven CT

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): A molecular-level understanding of regulatory networks has driven biomedical progress, but has mostly focused on protein networks. Non-coding RNAs (ncRNAs), including large ncRNAs (lncRNAs), also play important roles. For example, deletion of the Xist lncRNA causes cancers in mice. Yet the scope of lncRNA functions, their mechanisms of action, and their impact on therapeutically important pathways remain largely unknown. Approaches that identify high-stoichiometry or stable RNA-protein interactions have provided powerful insight into RNA, but miss important interactions, such as RNA helicase interactions with their substrates, that are transient or low stoichiometry. Similarly lncRNAs expressed at low abundance are important to regulation, yet the proteins they interact with are largely unknown. To address these needs, we are developing a platform to engineer covalent RNA modifications leading to new methodologies. First, the development of a covalent RNA tag will facilitate discovery of proteins that interact with low abundant lncRNAs. Second, this same platform is being used to develop a covalent-tracking strategy where a protein of interest is engineered to leave a covalent mark on transiently bound RNAs. This covalent modification will serve as a purification handle to isolate and identify RNAs that interacted with the protein of interest. As some lncRNAs are important regulators of chromatin, this approach will be applied to study RNAs that interact with specific chromatin proteins. These covalent-tagging strategies are designed to be broadly applicable, complement existing techniques, and accelerate our integration of regulatory RNAs into important regulatory networks.

View original record on NIH RePORTER →