Journal
NATURE
Volume 551, Issue 7679, Pages 251-+Publisher
NATURE RESEARCH
DOI: 10.1038/nature24456
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Funding
- Austrian Science Fund (FWF) [P25983, P28494] Funding Source: Austrian Science Fund (FWF)
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Modifications on mRNA offer the potential of regulating mRNA fate post-transcriptionally. Recent studies suggested the widespread presence of N-1-methyladenosine (m(1)A), which disrupts Watson-Crick base pairing, at internal sites of mRNAs(1,2). These studies lacked the resolution of identifying individual modified bases, and did not identify specific sequence motifs undergoing the modification or an enzymatic machinery catalysing them, rendering it challenging to validate and functionally characterize putative sites. Here we develop an approach that allows the transcriptome-wide mapping of m(1)A at single-nucleotide resolution. Within the cytosol, m(1)A is present in a low number of mRNAs, typically at low stoichiometries, and almost invariably in tRNA T-loop-like structures, where it is introduced by the TRMT6/TRMT61A complex. We identify a single m(1)A site in the mitochondrial ND5 mRNA, catalysed by TRMT10C, with methylation levels that are highly tissue specific and tightly developmentally controlled. m1A leads to translational repression, probably through a mechanism involving ribosomal scanning or translation. Our findings suggest that m(1)A on mRNA, probably because of its disruptive impact on base pairing, leads to translational repression, and is generally avoided by cells, while revealing one case in mitochondria where tight spatiotemporal control over m(1)A levels was adopted as a potential means of post-transcriptional regulation.
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