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MRT-ModSeq – Rapid Detection of RNA Modifications with MarathonRT

Rafael de Cesaris Araujo Tavares, Gandhar Mahadeshwar, Han Wan, Anna Marie Pyle

2023Journal of Molecular Biology12 citationsDOIOpen Access PDF

Abstract

Chemical modifications are essential regulatory elements that modulate the behavior and function of cellular RNAs. Despite recent advances in sequencing-based RNA modification mapping, methods combining accuracy and speed are still lacking. Here, we introduce MRT-ModSeq for rapid, simultaneous detection of multiple RNA modifications using MarathonRT. MRT-ModSeq employs distinct divalent cofactors to generate 2-D mutational profiles that are highly dependent on nucleotide identity and modification type. As a proof of concept, we use the MRT fingerprints of well-studied rRNAs to implement a general workflow for detecting RNA modifications. MRT-ModSeq rapidly detects positions of diverse modifications across a RNA transcript, enabling assignment of m1acp3Y, m1A, m3U, m7G and 2'-OMe locations through mutation-rate filtering and machine learning. m1A sites in sparsely modified targets, such as MALAT1 and PRUNE1 could also be detected. MRT-ModSeq can be trained on natural and synthetic transcripts to expedite detection of diverse RNA modification subtypes across targets of interest.

Topics & Concepts

RNAComputational biologyBiologyTransfer RNANon-coding RNAGeneticsGeneRNA modifications and cancerRNA and protein synthesis mechanismsCancer-related molecular mechanisms research
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