Hundreds of modified bases have been identified and enzymatically modified to transfer RNAs (tRNAs) to regulate RNA function in various organisms. 2-Methylthio--isopentenyladenosine (msiA), a hypermodified base found at tRNA position 37, exists in both prokaryotes and eukaryotes. msiA is traditionally identified by separating and digesting each tRNA from total RNA using RNA mass spectrometry. A transcriptome-wide and single-base resolution method that enables absolute mapping of msiA along with analysis of its distribution in different RNAs is lacking. Here, through chemoselective methylthio group bioconjugation, we introduce a new approach (dox ctivated hemical agging uencing, ReACT-seq) to detect msiA transcriptome-wide at single-base resolution. Using the chemoselectivity between the methylthio group and oxaziridine group, msiA is bio-orthogonally tagged with an azide group without interference of canonical nucleotides, advancing enrichment of methylthio group modified RNAs prior to sequencing. ReACT-seq was demonstrated on nine known tRNAs and proved to be highly accurate, and the reverse transcription stop (RT-stop) character enables ReACT-seq detection at single-base resolution. In addition, ReACT-seq identified that the modification of msiA is conservative and may not exist in other RNAs.
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