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Reconstitution of yeast translation elongation and termination in vitro utilizing CrPV IRES-containing mRNA

Taisho Abe, Riku Nagai, Hiroaki Imataka, Nono Takeuchi-Tomita

2020The Journal of Biochemistry16 citationsDOI

Abstract

We developed an in vitro translation system from yeast, reconstituted with purified translation elongation and termination factors and programmed by CrPV IGR IRES-containing mRNA, which functions in the absence of initiation factors. The system is capable of synthesizing the active reporter protein, nanoLuciferase, with a molecular weight of 19 kDa. The protein synthesis by the system is appropriately regulated by controlling its composition, including translation factors, amino acids and antibiotics. We found that a high eEF1A concentration relative to the ribosome concentration is critically required for efficient IRES-mediated translation initiation, to ensure its dominance over IRES-independent random internal translation initiation.

Topics & Concepts

Internal ribosome entry siteProtein biosynthesisTranslation (biology)Messenger RNARibosomeEukaryotic translationYeastIn vitroBiologyInitiation factorElongationCell biologyMolecular biologyRNABiochemistryGeneMaterials scienceMetallurgyUltimate tensile strengthRNA and protein synthesis mechanismsViral Infections and Immunology ResearchRNA Research and Splicing
Reconstitution of yeast translation elongation and termination in vitro utilizing CrPV IRES-containing mRNA | Litcius