Rapid and Generic Discovery of Small Molecule Ligands Targeting RNA
Univ Of North Carolina Chapel Hill, Chapel Hill NC
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Abstract
DESCRIPTION (provided by applicant): We seek to create a rapid and generic approach for discovery of small molecule ligands that bind RNA specifically and elicit precise and useful biological effects. The difficulty of this challenge is exemplified by the observation that the number of highly effective small molecule ligands that bind RNA that were developed de novo by human ingenuity over the past 30 years is miniscule, perhaps two or three molecules at most. The overarching vision of this proposal is to make the process of ligand discovery both straightforward and generically applicable to arbitrary RNA targets. This goal will be pursued by leveraging the SHAPE (selective 2'-hydroxyl acylation analyzed by primer extension) chemical probing approach - invented, mechanistically validated, and broadly applied by the project laboratory - into a high-throughput and high- content ligand discovery technology for RNA. Nucleotide-resolution screening information for large RNA targets will be interpreted using innovative, and fully automated, analysis algorithms that leverage the exceptionally information-rich output of SHAPE probing to make possible rapid target identification by non-expert users. By the end of the funding period, we envision that small molecule targeting of RNA using fragment-based libraries will be no more difficult, and may even prove more straightforward than, conventional targeting of proteins. Specifically, we expect to establish estimates for the broad-based drugability of RNA, to characterize the properties of selective and useful small molecule fragments for targeting RNA, and to identify multiple small molecule compounds useful as structure-probing tools and as leads for developing highly potent antiviral therapeutics.
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