Laura K. Thompson scite author profile

Bacteria harness an impressive repertoire of resistance mechanisms to evade the inhibitory action of antibiotics. One such mechanism involves efflux pump-mediated extrusion of drugs from the bacterial cell, which significantly contributes to multidrug resistance. Intriguingly, most drug efflux pumps are chromosomally encoded components of the intrinsic antibiotic resistome. In addition, in terms of xenobiotic detoxification, bacterial efflux systems often exhibit significant levels of functional redundancy. Efflux pumps are also considered to be highly conserved; however, the extent of conservation in many bacterial species has not been reported and the majority of genes that encode efflux pumps appear to be dispensable for growth. These observations, in combination with an increasing body of experimental evidence, imply alternative roles in bacterial physiology. Indeed, the ability of efflux pumps to facilitate antibiotic resistance could be a fortuitous by-product of ancient physiological functions. Using Escherichia coli as a model organism, here we evaluated the evolutionary conservation of drug efflux pumps and we provide phylogenetic analysis of the major efflux families. We show the E. coli drug efflux system has remained relatively stable and the majority (∼80%) of pumps are present in the core proteome. This analysis further supports the importance of drug efflux pumps in E. coli physiology. In this review, we also provide an update on the role of drug efflux pumps in the detoxification of endogenously synthesized substrates and pH homeostasis. Overall, gaining insight into drug efflux pump conservation, common evolutionary ancestors and physiological functions, could enable strategies to combat these intrinsic and ancient elements.

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Photocontrol of Peanut (Arachis hypogaea L.) Embryo and Ovule Development in Vitro

Thompson

Ziv²,

Deitzer³

1985

Plant Physiol.

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Localization of Phytochrome During Peanut (Arachis hypogaea) Gynophore and Ovule Development

Thompson

Burgess

Skinner

1992

American Journal of Botany

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Localization of the ganglioside-binding site of fibronectin.

Thompson¹,

Horowitz²,

Bentley³

et al. 1986

Journal of Biological Chemistry

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Laura K. Thompson

A genetic platform to investigate the functions of bacterial drug efflux pumps

The Evolutionary Conservation of Escherichia coli Drug Efflux Pumps Supports Physiological Functions

Photocontrol of Peanut (Arachis hypogaea L.) Embryo and Ovule Development in Vitro

Localization of Phytochrome During Peanut (Arachis hypogaea) Gynophore and Ovule Development

Localization of the ganglioside-binding site of fibronectin.

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