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Protein Synthesis in E. coli: Dependence of Codon-Specific Elongation on tRNA Concentration and Codon Usage

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  • Sophia Rudorf
  • Reinhard Lipowsky

Abstract

To synthesize a protein, a ribosome moves along a messenger RNA (mRNA), reads it codon by codon, and takes up the corresponding ternary complexes which consist of aminoacylated transfer RNAs (aa-tRNAs), elongation factor Tu (EF-Tu), and GTP. During this process of translation elongation, the ribosome proceeds with a codon-specific rate. Here, we present a general theoretical framework to calculate codon-specific elongation rates and error frequencies based on tRNA concentrations and codon usages. Our theory takes three important aspects of in-vivo translation elongation into account. First, non-cognate, near-cognate and cognate ternary complexes compete for the binding sites on the ribosomes. Second, the corresponding binding rates are determined by the concentrations of free ternary complexes, which must be distinguished from the total tRNA concentrations as measured in vivo. Third, for each tRNA species, the difference between total tRNA and ternary complex concentration depends on the codon usages of the corresponding cognate and near-cognate codons. Furthermore, we apply our theory to two alternative pathways for tRNA release from the ribosomal E site and show how the mechanism of tRNA release influences the concentrations of free ternary complexes and thus the codon-specific elongation rates. Using a recently introduced method to determine kinetic rates of in-vivo translation from in-vitro data, we compute elongation rates for all codons in Escherichia coli. We show that for some tRNA species only a few tRNA molecules are part of ternary complexes and, thus, available for the translating ribosomes. In addition, we find that codon-specific elongation rates strongly depend on the overall codon usage in the cell, which could be altered experimentally by overexpression of individual genes.

Suggested Citation

  • Sophia Rudorf & Reinhard Lipowsky, 2015. "Protein Synthesis in E. coli: Dependence of Codon-Specific Elongation on tRNA Concentration and Codon Usage," PLOS ONE, Public Library of Science, vol. 10(8), pages 1-22, August.
  • Handle: RePEc:plo:pone00:0134994
    DOI: 10.1371/journal.pone.0134994
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    Cited by:

    1. Josupeit, Mario & Krug, Joachim, 2021. "The fitness landscapes of translation," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 569(C).
    2. T.V., Binil Shyam & Sharma, Rati, 2024. "mRNA translation from a unidirectional traffic perspective," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 637(C).

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