Litcius/Paper detail

Splicing inactivation generates hybrid mRNA-snoRNA transcripts targeted by cytoplasmic RNA decay

Yanru Liu, Samuel DeMario, Kevin He, Michelle R. Gibbs, Keaton Barr, Guillaume Chanfreau

2022Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

Many small nucleolar RNAs (snoRNA)s are processed from introns of host genes, but the importance of splicing for proper biogenesis and the fate of the snoRNAs is not well understood. Here, we show that inactivation of splicing factors or mutation of splicing signals leads to the accumulation of partially processed hybrid messenger RNA-snoRNA (hmsnoRNA) transcripts. hmsnoRNAs are processed to the mature 3' ends of the snoRNAs by the nuclear exosome and bound by small nucleolar ribonucleoproteins. hmsnoRNAs are unaffected by translation-coupled RNA quality-control pathways, but they are degraded by the major cytoplasmic exonuclease Xrn1p, due to their messenger RNA (mRNA)-like 5' extensions. These results show that completion of splicing is required to promote complete and accurate processing of intron-encoded snoRNAs and that splicing defects lead to degradation of hybrid mRNA-snoRNA species by cytoplasmic decay, underscoring the importance of splicing for the biogenesis of intron-encoded snoRNAs.

Topics & Concepts

Small nucleolar RNARNA splicingIntronBiologyRibonucleoproteinRNAHeterogeneous ribonucleoprotein particleCell biologyMessenger RNABiogenesisAlternative splicingLong non-coding RNAGeneticsGeneRNA Research and SplicingRNA modifications and cancerRNA regulation and disease