Abstract
The canonical model of eukaryotic translation posits that efficient translation initiation increases protein expression and mRNA stability. Contrary to this model, we find that increasing initiation rate can decrease both protein expression and stability of certain mRNAs in the budding yeast Saccharomyces cerevisiae. These mRNAs encode a stretch of polybasic residues that cause ribosome stalling. Our computational modeling predicts that the observed decrease in gene expression at high initiation rates occurs when ribosome collisions at stalls stimulate abortive termination of the leading ribosome or cause endonucleolytic mRNA cleavage. Consistent with this prediction, the collision-associated quality-control factors Asc1 and Hel2 (orthologs of human RACK1 and ZNF598, respectively) decrease gene expression from stall-containing mRNAs only at high initiation rates. Remarkably, hundreds of S. cerevisiae mRNAs that contain ribosome stall sequences also exhibit lower translation efficiency. We propose that inefficient translation initiation allows these stall-containing endogenous mRNAs to escape collision-stimulated reduction in gene expression.
Highlights
Translation of mRNAs by ribosomes is a major point for regulation of eukaryotic gene expression
Our reporters consist of the PGK1 gene from S. cerevisiae, which has been extensively used in previous studies of mRNA translation and stability [5, 13]
We find that efficient translation initiation can decrease the protein expression and stability of certain eukaryotic mRNAs that undergo elongation stalls
Summary
Translation of mRNAs by ribosomes is a major point for regulation of eukaryotic gene expression. Higher initiation rates can protect eukaryotic mRNAs from decay. This protection can occur through preferential binding of translation initiation factors over mRNA decay factors to the 50 cap of mRNAs [2,3,4]. Such mRNA stabilization amplifies the positive effect of high initiation rate on protein expression [5, 6]. Efficient initiation is widely associated with increased mRNA stability and higher protein expression in eukaryotes [7,8,9]
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