Litcius/Paper detail

RNA stability controlled by m6A methylation contributes to X-to-autosome dosage compensation in mammals

Cornelia Rücklé, Nadine Körtel, M. Felicia Basilicata, Anke Busch, You Zhou, Peter Hoch-Kraft, Kerstin Tretow, Fridolin Kielisch, Marco Bertin, Mihika Pradhan, Michael U. Musheev, Susann Schweiger, Christof Niehrs, Oliver Rausch, Kathi Zarnack, Claudia Isabelle Keller Valsecchi, Julian König

2023Nature Structural & Molecular Biology34 citationsDOIOpen Access PDF

Abstract

Abstract In mammals, X-chromosomal genes are expressed from a single copy since males (XY) possess a single X chromosome, while females (XX) undergo X inactivation. To compensate for this reduction in dosage compared with two active copies of autosomes, it has been proposed that genes from the active X chromosome exhibit dosage compensation. However, the existence and mechanisms of X-to-autosome dosage compensation are still under debate. Here we show that X-chromosomal transcripts have fewer m 6 A modifications and are more stable than their autosomal counterparts. Acute depletion of m 6 A selectively stabilizes autosomal transcripts, resulting in perturbed dosage compensation in mouse embryonic stem cells. We propose that higher stability of X-chromosomal transcripts is directed by lower levels of m 6 A, indicating that mammalian dosage compensation is partly regulated by epitranscriptomic RNA modifications.

Topics & Concepts

Dosage compensationAutosomeX-inactivationBiologyX chromosomeGene dosageRNAXISTGeneEmbryonic stem cellGeneticsChromosomeMolecular biologyCell biologyGene expressionRNA modifications and cancerCancer-related gene regulationCancer-related molecular mechanisms research