Hurdles to horizontal gene transfer: species-specific effects of synonymous variation and plasmid copy number determine antibiotic resistance phenotype
Michael Finnegan, Caroline J. Rose, Jeanne Hamet, Benjamin Prat, Stephanie Bedhomme

TL;DR
This study shows that codon composition and plasmid copy number affect how well bacteria gain antibiotic resistance through gene transfer, and these effects vary by species.
Contribution
The study demonstrates species-specific effects of synonymous codon variation and plasmid copy number on the success of horizontal gene transfer.
Findings
Resistance levels conferred by a gene depend strongly on the bacterial species due to plasmid copy number differences.
Synonymous variants show significant resistance differences within species, but these effects are not consistent across species.
Codon usage similarity only partially explains resistance variation in Pseudomonas aeruginosa.
Abstract
Could codon composition condition the immediate success and the orientation of horizontal gene transfer? Horizontal gene transfer represents a change in the genome of expression of the transferred gene, and experimental evidence has accumulated indicating that the codon composition of a sequence is an important determinant of its compatibility with the translation machinery of the genome in which it is expressed. This suggests that codon composition influences the phenotype and the fitness conferred by a transferred gene and thus the immediate success of the transfer. To directly test this hypothesis, we characterized the resistance conferred by synonymous variants of a gentamicin resistance gene in three bacterial species: Escherichia coli, Acinetobacter baylyi and Pseudomonas aeruginosa. The strongest determinant of the resistance level conferred was the species in which the…
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Taxonomy
TopicsRNA and protein synthesis mechanisms · Genomics and Phylogenetic Studies · Bacterial Genetics and Biotechnology
