Viral host-adaptation: Insights from evolution experiments with phages

James PJ Hall; Ellie Harrison; Michael A. Brockhurst

doi:10.1016/j.coviro.2013.07.001

Viral host-adaptation: Insights from evolution experiments with phages

James PJ Hall, Ellie Harrison, Michael A. Brockhurst^*

^*Corresponding author for this work

Division of Evolution, Infection and Genomics

University of York

Research output: Contribution to journal › Review article › peer-review

Abstract

Phages, viral parasites of bacteria, share fundamental features of pathogenic animal and plant viruses and represent a highly tractable empirical model system to understand viral evolution and in particular viral host-adaptation. Phage adaptation to a particular host genotype often results in improved fitness by way of parallel evolution whereby independent lineages hit upon identical adaptive solutions. By contrast, phage adaptation to an evolving host population leads to the evolution of increasing host-range over time and correlated phenotypic and genetic divergence between populations. Phage host-range expansion frequently occurs by a process of stepwise evolution of multiple mutations, and host-shifts are often constrained by mutational availability, pleiotropic costs or ecological conditions.

Original language	English
Pages (from-to)	572-577
Number of pages	6
Journal	Current Opinion in Virology
Volume	3
Issue number	5
DOIs	https://doi.org/10.1016/j.coviro.2013.07.001
Publication status	Published - Oct 2013

Keywords

Adaptation, Physiological
Bacteria
Bacteriophages
Biological Evolution
Host Specificity
Mutation

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10.1016/j.coviro.2013.07.001

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title = "Viral host-adaptation: Insights from evolution experiments with phages",

abstract = "Phages, viral parasites of bacteria, share fundamental features of pathogenic animal and plant viruses and represent a highly tractable empirical model system to understand viral evolution and in particular viral host-adaptation. Phage adaptation to a particular host genotype often results in improved fitness by way of parallel evolution whereby independent lineages hit upon identical adaptive solutions. By contrast, phage adaptation to an evolving host population leads to the evolution of increasing host-range over time and correlated phenotypic and genetic divergence between populations. Phage host-range expansion frequently occurs by a process of stepwise evolution of multiple mutations, and host-shifts are often constrained by mutational availability, pleiotropic costs or ecological conditions.",

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AU - Harrison, Ellie

AU - Brockhurst, Michael A.

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N2 - Phages, viral parasites of bacteria, share fundamental features of pathogenic animal and plant viruses and represent a highly tractable empirical model system to understand viral evolution and in particular viral host-adaptation. Phage adaptation to a particular host genotype often results in improved fitness by way of parallel evolution whereby independent lineages hit upon identical adaptive solutions. By contrast, phage adaptation to an evolving host population leads to the evolution of increasing host-range over time and correlated phenotypic and genetic divergence between populations. Phage host-range expansion frequently occurs by a process of stepwise evolution of multiple mutations, and host-shifts are often constrained by mutational availability, pleiotropic costs or ecological conditions.

AB - Phages, viral parasites of bacteria, share fundamental features of pathogenic animal and plant viruses and represent a highly tractable empirical model system to understand viral evolution and in particular viral host-adaptation. Phage adaptation to a particular host genotype often results in improved fitness by way of parallel evolution whereby independent lineages hit upon identical adaptive solutions. By contrast, phage adaptation to an evolving host population leads to the evolution of increasing host-range over time and correlated phenotypic and genetic divergence between populations. Phage host-range expansion frequently occurs by a process of stepwise evolution of multiple mutations, and host-shifts are often constrained by mutational availability, pleiotropic costs or ecological conditions.

KW - Adaptation, Physiological

KW - Bacteria

KW - Bacteriophages

KW - Biological Evolution

KW - Host Specificity

KW - Mutation

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DO - 10.1016/j.coviro.2013.07.001

M3 - Review article

C2 - 23890845

AN - SCOPUS:84885959008

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JO - Current Opinion in Virology

JF - Current Opinion in Virology

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ER -

Viral host-adaptation: Insights from evolution experiments with phages

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Keywords

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