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A translation enhancer element from black beetle virus engages yeast eIF4G1 to drive cap-independent translation initiation

Brandon M. Trainor, Arnab Ghosh, Dimitri G. Pestov, Christopher U.T. Hellen, Natalia Shcherbik

2021Scientific Reports14 citationsDOIOpen Access PDF

Abstract

Cap-independent translation initiation plays crucial roles in fine-tuning gene expression under global translation shutdown conditions. Translation of uncapped or de-capped transcripts can be stimulated by Cap-independent translation enhancer (CITE) elements, but the mechanisms of CITE-mediated translation initiation remain understudied. Here, we characterized a short 5'-UTR RNA sequence from black beetle virus, BBV-seq. Mutational analysis indicates that the entire BBV-seq is required for efficient translation initiation, but this sequence does not operate as an IRES-type module. In yeast cell-free translation extracts, BBV-seq promoted efficient initiation on cap-free mRNA using a scanning mechanism. Moreover, BBV-seq can increase translation efficiency resulting from conventional cap-dependent translation initiation. Using genetic approaches, we found that BBV-seq exploits RNA-binding properties of eIF4G1 to promote initiation. Thus, BBV-seq constitutes a previously uncharacterized short, linear CITE that influences eIF4G1 to initiate 5' end-dependent, cap-independent translation. These findings bring new insights into CITE-mediated translational control of gene expression.

Topics & Concepts

Translation (biology)Eukaryotic translationEnhancerBiologyUntranslated regionFive prime untranslated regionInternal ribosome entry siteGeneticsGeneMessenger RNAComputational biologyGene expressionRNA and protein synthesis mechanismsViral Infections and Immunology ResearchRNA Research and Splicing
A translation enhancer element from black beetle virus engages yeast eIF4G1 to drive cap-independent translation initiation | Litcius