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Codon usage of highly expressed genes affects proteome-wide translation efficiency
by
Frumkin, Idan
, Lajoie, Marc J.
, Hornung, Gil
, Church, George M.
, Gregg, Christopher J.
, Pilpel, Yitzhak
in
Amino acids
/ Bias
/ Biological evolution
/ Biological Sciences
/ Codon - genetics
/ Codons
/ E coli
/ Efficiency
/ Escherichia coli - genetics
/ Escherichia coli - growth & development
/ Escherichia coli - metabolism
/ Escherichia coli Proteins - genetics
/ Escherichia coli Proteins - metabolism
/ Evolution, Molecular
/ Evolutionary genetics
/ Fitness
/ Gene expression
/ Genes
/ Genetic code
/ Genetic engineering
/ Genomes
/ Open Reading Frames
/ Phenotypes
/ PNAS Plus
/ Protein Biosynthesis
/ Proteins
/ Proteome - analysis
/ Proteome - genetics
/ Proteomes
/ Proteomics
/ Reproductive fitness
/ Ribonucleic acid
/ RNA
/ RNA, Transfer - genetics
/ RNA, Transfer - metabolism
/ Systems Biology
/ Transcriptome
/ Translation
/ tRNA
2018
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Codon usage of highly expressed genes affects proteome-wide translation efficiency
by
Frumkin, Idan
, Lajoie, Marc J.
, Hornung, Gil
, Church, George M.
, Gregg, Christopher J.
, Pilpel, Yitzhak
in
Amino acids
/ Bias
/ Biological evolution
/ Biological Sciences
/ Codon - genetics
/ Codons
/ E coli
/ Efficiency
/ Escherichia coli - genetics
/ Escherichia coli - growth & development
/ Escherichia coli - metabolism
/ Escherichia coli Proteins - genetics
/ Escherichia coli Proteins - metabolism
/ Evolution, Molecular
/ Evolutionary genetics
/ Fitness
/ Gene expression
/ Genes
/ Genetic code
/ Genetic engineering
/ Genomes
/ Open Reading Frames
/ Phenotypes
/ PNAS Plus
/ Protein Biosynthesis
/ Proteins
/ Proteome - analysis
/ Proteome - genetics
/ Proteomes
/ Proteomics
/ Reproductive fitness
/ Ribonucleic acid
/ RNA
/ RNA, Transfer - genetics
/ RNA, Transfer - metabolism
/ Systems Biology
/ Transcriptome
/ Translation
/ tRNA
2018
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Codon usage of highly expressed genes affects proteome-wide translation efficiency
by
Frumkin, Idan
, Lajoie, Marc J.
, Hornung, Gil
, Church, George M.
, Gregg, Christopher J.
, Pilpel, Yitzhak
in
Amino acids
/ Bias
/ Biological evolution
/ Biological Sciences
/ Codon - genetics
/ Codons
/ E coli
/ Efficiency
/ Escherichia coli - genetics
/ Escherichia coli - growth & development
/ Escherichia coli - metabolism
/ Escherichia coli Proteins - genetics
/ Escherichia coli Proteins - metabolism
/ Evolution, Molecular
/ Evolutionary genetics
/ Fitness
/ Gene expression
/ Genes
/ Genetic code
/ Genetic engineering
/ Genomes
/ Open Reading Frames
/ Phenotypes
/ PNAS Plus
/ Protein Biosynthesis
/ Proteins
/ Proteome - analysis
/ Proteome - genetics
/ Proteomes
/ Proteomics
/ Reproductive fitness
/ Ribonucleic acid
/ RNA
/ RNA, Transfer - genetics
/ RNA, Transfer - metabolism
/ Systems Biology
/ Transcriptome
/ Translation
/ tRNA
2018
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Codon usage of highly expressed genes affects proteome-wide translation efficiency
Journal Article
Codon usage of highly expressed genes affects proteome-wide translation efficiency
2018
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Overview
Although the genetic code is redundant, synonymous codons for the same amino acid are not used with equal frequencies in genomes, a phenomenon termed “codon usage bias.” Previous studies have demonstrated that synonymous changes in a coding sequence can exert significant cis effects on the gene’s expression level. However, whether the codon composition of a gene can also affect the translation efficiency of other genes has not been thoroughly explored. To study how codon usage bias influences the cellular economy of translation, we massively converted abundant codons to their rare synonymous counterpart in several highly expressed genes in Escherichia coli. This perturbation reduces both the cellular fitness and the translation efficiency of genes that have high initiation rates and are naturally enriched with the manipulated codon, in agreement with theoretical predictions. Interestingly, we could alleviate the observed phenotypes by increasing the supply of the tRNA for the highly demanded codon, thus demonstrating that the codon usage of highly expressed genes was selected in evolution to maintain the efficiency of global protein translation.
Publisher
National Academy of Sciences
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