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RNAmigos2: accelerated structure-based RNA virtual screening with deep graph learning

Juan G. Carvajal-Patiño, Vincent Mallet, David Becerra, Luis Fernando Niño Vásquez, Carlos Oliver, Jérôme Waldispühl

2025Nature Communications27 citationsDOIOpen Access PDF

Abstract

RNAs are a vast reservoir of untapped drug targets. Structure-based virtual screening (VS) identifies candidate molecules by leveraging binding site information, traditionally using molecular docking simulations. However, docking struggles to scale with large compound libraries and RNA targets. Machine learning offers a solution but remains underdeveloped for RNA due to limited data and practical evaluations. We introduce a data-driven VS pipeline tailored for RNA, utilizing coarse-grained 3D modeling, synthetic data augmentation, and RNA-specific self-supervision. Our model achieves a 10,000x speedup over docking while ranking active compounds in the top 2.8% on structurally distinct test sets. It is robust to binding site variations and successfully screens unseen RNA riboswitches in a 20,000-compound in-vitro microarray, with a mean enrichment factor of 2.93 at 1%. This marks the first experimentally validated success of structure-based deep learning for RNA VS.

Topics & Concepts

RNAComputer scienceVirtual screeningComputational biologyDocking (animal)RiboswitchNucleic acid structurePipeline (software)Drug discoveryArtificial intelligenceData miningBioinformaticsChemistryNon-coding RNABiologyGeneBiochemistryMedicineProgramming languageNursingRNA and protein synthesis mechanismsComputational Drug Discovery MethodsProtein Structure and Dynamics
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