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Mutant and Recombinant Phages Selected from<i>In Vitro</i>Coevolution Conditions Overcome Phage-Resistant Listeria monocytogenes

Tracey L. Peters, Yaxiong Song, Daniel W. Bryan, Lauren K. Hudson, Thomas G. Denes

2020Applied and Environmental Microbiology39 citationsDOIOpen Access PDF

Abstract

Listeria monocytogenes is a life-threatening bacterial foodborne pathogen that can persist in food processing facilities for years. Phages can be used to control L. monocytogenes in food production, but phage-resistant bacterial subpopulations can regrow in phage-treated environments. Coevolution experiments were conducted on a Listeria phage-host system to provide insight into the genetic variation that emerges in both the phage and bacterial host under reciprocal selective pressure. As expected, mutations were identified in both phage and host, but additionally, recombination events were shown to have repeatedly occurred between closely related phages that coinfected L. monocytogenes . This study demonstrates that in vitro evolution of phages can be utilized to expand the host range and improve the long-term efficacy of phage-based control of L. monocytogenes . This approach may also be applied to other phage-host systems for applications in biocontrol, detection, and phage therapy.

Topics & Concepts

Listeria monocytogenesListeriaBiologyRecombinant DNAMutantMicrobiologyBacteriophageCoevolutionIn vitroVirologyBacteriaGeneticsEscherichia coliGenePaleontologyBacteriophages and microbial interactionsBiosensors and Analytical DetectionVibrio bacteria research studies