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Control of protein synthesis through mRNA pseudouridylation by dyskerin

Chiara Pederiva, Davide M Trevisan, Dimitra Peirasmaki, Shan Chen, Sharon A. Savage, Ola Larsson, Jernej Ule, Laura Baranello, Federico Agostini, Marianne Farnebo

2023Science Advances28 citationsDOIOpen Access PDF

Abstract

Posttranscriptional modifications of mRNA have emerged as regulators of gene expression. Although pseudouridylation is the most abundant, its biological role remains poorly understood. Here, we demonstrate that the pseudouridine synthase dyskerin associates with RNA polymerase II, binds to thousands of mRNAs, and is responsible for their pseudouridylation, an action that occurs in chromatin and does not appear to require a guide RNA with full complementarity. In cells lacking dyskerin, mRNA pseudouridylation is reduced, while at the same time, de novo protein synthesis is enhanced, indicating that this modification interferes with translation. Accordingly, mRNAs with fewer pseudouridines due to knockdown of dyskerin are translated more efficiently. Moreover, mRNA pseudouridylation is severely reduced in patients with dyskeratosis congenita caused by inherited mutations in the gene encoding dyskerin (i.e., DKC1 ). Our findings demonstrate that pseudouridylation by dyskerin modulates mRNA translatability, with important implications for both normal development and disease.

Topics & Concepts

PseudouridineRNAMessenger RNABiologyGene knockdownSmall nucleolar RNADyskeratosis congenitaChromatinCell biologyGeneNon-coding RNAGeneticsTransfer RNATelomereRNA modifications and cancerRNA regulation and diseaseCancer-related molecular mechanisms research
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