Publication date: 19 June 2018
Source:Cell Reports, Volume 23, Issue 12
Author(s): Annita Louloupi, Evgenia Ntini, Thomas Conrad, Ulf Andersson Vang Ørom
Splicing efficiency varies among transcripts, and tight control of splicing kinetics is crucial for coordinated gene expression. N-6-methyladenosine (m6A) is the most abundant RNA modification and is involved in regulation of RNA biogenesis and function. The impact of m6A on regulation of RNA splicing kinetics is unknown. Here, we provide a time-resolved high-resolution assessment of m6A on nascent RNA transcripts and unveil its importance for the control of RNA splicing kinetics. We find that early co-transcriptional m6A deposition near splice junctions promotes fast splicing, while m6A modifications in introns are associated with long, slowly processed introns and alternative splicing events. In conclusion, we show that early m6A deposition specifies the fate of transcripts regarding splicing kinetics and alternative splicing.
Graphical abstract
Teaser
Louloupi et al. describe an approach to detect m6A RNA methylation on nascent RNA. They find that nascent transcripts are often marked by m6A at splice junctions and in introns. The authors show that m6A at splice junctions contributes to faster splicing, while m6A in introns is associated with alternative splicing.https://ift.tt/2lhBxHE
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