In Arabidopsis Thaliana Codon Volatility Scores Reflect GC3 Composition Rather Than Selective Pressure

Overview

Journal BMC Res Notes

Publisher Biomed Central

Specialties Biology
General Medicine

Date 2012 Jul 19

PMID 22805311

Citations 2

Authors

Mary J OConnell

Aisling M Doyle

Thomas E Juenger

Mark T A Donoghue

Channa Keshavaiah

Reetu Tuteja

Charles Spillane

Affiliations

Soon will be listed here.

Abstract

Background: Synonymous codon usage bias has typically been correlated with, and attributed to translational efficiency. However, there are other pressures on genomic sequence composition that can affect codon usage patterns such as mutational biases. This study provides an analysis of the codon usage patterns in Arabidopsis thaliana in relation to gene expression levels, codon volatility, mutational biases and selective pressures.

Results: We have performed synonymous codon usage and codon volatility analyses for all genes in the A. thaliana genome. In contrast to reports for species from other kingdoms, we find that neither codon usage nor volatility are correlated with selection pressure (as measured by dN/dS), nor with gene expression levels on a genome wide level. Our results show that codon volatility and usage are not synonymous, rather that they are correlated with the abundance of G and C at the third codon position (GC3).

Conclusions: Our results indicate that while the A. thaliana genome shows evidence for synonymous codon usage bias, this is not related to the expression levels of its constituent genes. Neither codon volatility nor codon usage are correlated with expression levels or selective pressures but, because they are directly related to the composition of G and C at the third codon position, they are the result of mutational bias. Therefore, in A. thaliana codon volatility and usage do not result from selection for translation efficiency or protein functional shift as measured by positive selection.

Citing Articles

Codon usage patterns across seven Rosales species.

Zhang Y, Shen Z, Meng X, Zhang L, Liu Z, Liu M BMC Plant Biol. 2022; 22(1):65.

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Genes Common in Primary Immunodeficiencies and Cancer Display Overrepresentation of Codon CTG and Dominant Role of Selection Pressure in Shaping Codon Usage.

Khandia R, Alqahtani T, Alqahtani A Biomedicines. 2021; 9(8).

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