Author: Melnyk Anita H. Wong Alex Kassen Rees
Publisher: Blackwell Publishing
E-ISSN: 1752-4571|8|3|273-283
ISSN: 1752-4563
Source: Evolutionary Applications, Vol.8, Iss.3, 2015-03, pp. : 273-283
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Abstract
Antibiotic resistance is increasing in pathogenic microbial populations and is thus a major threat to public health. The fate of a resistance mutation in pathogen populations is determined in part by its fitness. Mutations that suffer little or no fitness cost are more likely to persist in the absence of antibiotic treatment. In this review, we performed a meta-analysis to investigate the fitness costs associated with single mutational events that confer resistance. Generally, these mutations were costly, although several drug classes and species of bacteria on average did not show a cost. Further investigations into the rate and fitness values of compensatory mutations that alleviate the costs of resistance will help us to better understand both the emergence and management of antibiotic resistance in clinical settings.
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