Enzymatic or In Vivo Installation of Propargyl Groups in Combination with Click Chemistry for the Enrichment and Detection of Methyltransferase Target Sites in RNA

Abstract m 6 A is the most abundant internal modification in eukaryotic mRNA. It is introduced by METTL3‐METTL14 and tunes mRNA metabolism, impacting cell differentiation and development. Precise transcriptome‐wide assignment of m 6 A sites is of utmost importance. However, m 6 A does not interfere with Watson–Crick base pairing, making polymerase‐based detection challenging. We developed a chemical biology approach for the precise mapping of methyltransferase (MTase) target sites based on the introduction of a bioorthogonal propargyl group in vitro and in cells. We show that propargyl groups can be introduced enzymatically by wild‐type METTL3‐METTL14. Reverse transcription terminated up to 65 % at m 6 A sites after bioconjugation and purification, hence enabling detection of METTL3‐METTL14 target sites by next generation sequencing. Importantly, we implemented metabolic propargyl labeling of RNA MTase target sites in vivo based on propargyl‐ l ‐selenohomocysteine and validated different types of known rRNA methylation sites.