Nicholas Kline scite author profile

Messenger RNA degradation represents a critical regulated step in gene expression. While the major pathways in turnover have been identified, accounting for disparate half-lives has been elusive. We show that codon optimality is one feature that contributes greatly to mRNA stability. Genome-wide RNA decay analysis revealed that stable mRNAs are enriched in codons designated optimal, whereas unstable mRNAs contain predominately non-optimal codons. Substitution of optimal codons with synonymous, non-optimal codons results in dramatic mRNA destabilization, while the converse substitution significantly increases stability. Further, we demonstrate that codon optimality impacts ribosome translocation, connecting the processes of translation elongation and decay through codon optimality. Finally, we show that optimal codon content accounts for the similar stabilities observed in mRNAs encoding proteins with coordinated physiological function. This work demonstrates that codon optimization exists as an mechanism to finely tune levels of mRNAs, and ultimately, proteins.

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Translation of Small Open Reading Frames within Unannotated RNA Transcripts in Saccharomyces cerevisiae

Smith

et al. 2014

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SUMMARY High-throughput gene expression analysis has revealed a plethora of previously undetected transcripts in eukaryotic cells. In this study we investigate >1100 unannotated transcripts in yeast predicted to lack protein-coding capacity. We show that a majority of these RNAs are enriched on polyribosomes akin to mRNAs. Ribosome profiling demonstrates that many bind translocating ribosomes within predicted open-reading frames 10–96 codons in size. We validate expression of peptides encoded within a subset of these RNAs and provide evidence for conservation among yeast species. Consistent with their translation, many of these transcripts are targeted for degradation by the translation-dependent, nonsense-mediated RNA decay (NMD) pathway. We identify lncRNAs also sensitive to NMD, indicating translation of non-coding transcripts also occurs in mammals. These data demonstrate transcripts considered to lack coding potential are bona fide protein-coding, and expand the proteome of yeast and possibly other eukaryotes.

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Nicholas Kline

Codon Optimality Is a Major Determinant of mRNA Stability

Translation of Small Open Reading Frames within Unannotated RNA Transcripts in Saccharomyces cerevisiae

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