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A versatile toolbox for determining IRES activity in cells and embryonic tissues

Philipp Koch, Zijian Zhang, Naomi R. Genuth, Teodorus Theo Susanto, Martin Haimann, Alena Khmelinskaia, Gun Woo Byeon, Saurabh Dey, Maria Barna, Kathrin Leppek

2025The EMBO Journal11 citationsDOIOpen Access PDF

Abstract

Widespread control of gene expression through translation has emerged as a key level of spatiotemporal regulation of protein expression. A prominent mechanism by which ribosomes can confer gene regulation is via internal ribosomal entry sites (IRESes), whose functions have however, remained difficult to rigorously characterize. Here we present a set of technologies in embryos and cells, including IRES-mediated translation of circular RNA (circRNA) reporters, single-molecule messenger (m)RNA isoform imaging, PacBio long-read sequencing, and isoform-sensitive mRNA quantification along polysome profiles as a new toolbox for understanding IRES regulation. Using these techniques, we investigate a broad range of cellular IRES RNA elements including Hox IRESes. We show IRES-dependent translation in circRNAs, as well as the relative expression, localization, and translation of an IRES-containing mRNA isoform in specific embryonic tissues. We thereby provide a new resource of technologies to elucidate the roles of versatile IRES elements in gene regulation and embryonic development.

Topics & Concepts

Internal ribosome entry siteBiologyTranslation (biology)Cell biologyGene isoformMessenger RNARibosomePolysomeEukaryotic translationRNAGene expressionComputational biologyTranslational regulationEmbryonic stem cellGeneGeneticsRNA modifications and cancerRNA and protein synthesis mechanismsCircular RNAs in diseases
A versatile toolbox for determining IRES activity in cells and embryonic tissues | Litcius