Translation elongation can control translation initiation on eukaryotic mRNAs |
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Authors: | Dominique Chu Eleanna Kazana Noémie Bellanger Tarun Singh Mick F Tuite Tobias von der Haar |
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Institution: | 1. School of Computing, University of Kent, Canterbury, UK;2. Kent Fungal Group, School of Biosciences, University of Kent, Canterbury, UK |
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Abstract: | Synonymous codons encode the same amino acid, but differ in other biophysical properties. The evolutionary selection of codons whose properties are optimal for a cell generates the phenomenon of codon bias. Although recent studies have shown strong effects of codon usage changes on protein expression levels and cellular physiology, no translational control mechanism is known that links codon usage to protein expression levels. Here, we demonstrate a novel translational control mechanism that responds to the speed of ribosome movement immediately after the start codon. High initiation rates are only possible if start codons are liberated sufficiently fast, thus accounting for the observation that fast codons are overrepresented in highly expressed proteins. In contrast, slow codons lead to slow liberation of the start codon by initiating ribosomes, thereby interfering with efficient translation initiation. Codon usage thus evolved as a means to optimise translation on individual mRNAs, as well as global optimisation of ribosome availability. |
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Keywords: | codon usage ribosome speed translation translation elongation translational control |
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