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Rapid nuclear deadenylation of mammalian messenger RNA

Jonathan Alles, Ivano Legnini, Maddalena Pacelli, Nikolaus Rajewsky

2022iScience19 citationsDOIOpen Access PDF

Abstract

. We present evidence for genome-wide, nuclear synthesis of tails longer than 200 nt, which are rapidly shortened after transcription. Our data suggests that rapid deadenylation is a nuclear process, and that different classes of transcripts and even transcript isoforms have distinct nuclear tail lengths. For example, many long-noncoding RNAs retain long poly(A) tails. Modeling deadenylation dynamics predicts nuclear deadenylation about 10 times faster than cytoplasmic deadenylation. In summary, our data suggests that nuclear deadenylation might be a key mechanism for regulating mRNA stability, abundance, and subcellular localization.

Topics & Concepts

Cell biologyRNACell nucleusRNA splicingBiologyMessenger RNANuclear transportCytoplasmChemistryGeneticsGeneRNA Research and SplicingRNA modifications and cancerRNA and protein synthesis mechanisms