Interactions between RNA m⁶A modification, alternative splicing, and poly(A) tail revealed by MePAIso-seq2

Abstract

RNA post-transcriptional regulation involves 5′-end capping, 3′ poly(A) tailing (including polyadenylation sites, tail length, and non-A residues^{1, 2}), alternative splicing, and chemical modifications including N⁶-methyladenosine (m⁶A)³. Studying the interplay of m⁶A, alternative splicing, alternative polyadenylation sites, poly(A) tail length, and non-A residues in poly(A) tails requires monitoring them simultaneously on one transcript, however strategies to achieve this are lacking. Therefore, we developed a new method, combining m⁶A-specific methylated RNA immunoprecipitation and the PacBio-based, tail-included, full-length RNA sequencing approach PAIso-seq2, which we’ve named m⁶A and poly(A) inclusive RNA isoform sequencing 2 (MePAIso-seq2). Using MePAIso-seq2, we revealed that m⁶A promotes and inhibits a similar number of alternative splicing events in mouse cell lines, showing that m⁶A does affect alternative splicing. In contrast, no correlation was detected between m⁶A and alternative polyadenylation sites choice. Surprisingly, we found that m⁶A-modified RNAs possess longer poly(A) tails and a lower proportion of poly(A) tails containing non-A residues, especially in mouse embryonic stem cells. Together, we developed a new method to detect full-length m⁶A-modified RNAs to comprehensively study the relationships between m⁶A, alternative splicing, and poly(A) tailing, laying a foundation for further exploration of the functional coordination of different RNA post-transcriptional modifications.