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Pathogen Evolution

Virus and Pathogen Evolution

Molecular Evolution

Molecular Evolution and Phylogenetic Analyses

Evolutionary Inference

Evolutionary Inference, Phylogenetic Methods, Population Genetic Models

Comparative Method

The Comparative Method and Macro-Evolutionary Models

Ecology & Evolution

General Evolutionary Biology and Ecology

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Andrew Rambaut

John Welch

Gytis Dudas

Trevor Bedford

Paul Wikramaratna

Jayna Raghwani

Jonathan Bollback

Jessica Hedge

Matthew Hall

Samantha Lycett

Carlijn Bogaardt

Luiz Carvalho

Verity Hill

Aine O'Toole

JT McCrone

Rachel Colquhoun

Xiaoyu Yu

Emily Scher

Ben Jackson

Zoe Vance

Ifeanyi Omah

Kate Duggan

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Evolutionary genomics of host adaptation in vesicular stomatitis virus (VSV)

Remold SK, Rambaut A & Turner PE

(2008) Mol Biol Evol 25, 1138-1147.

Populations experiencing similar selection pressures can sometimes diverge in the genetic architectures underlying evolved complex traits. We used RNA virus populations of large size and high mutation rate to study the impact of historical environment on genome evolution, thus increasing our ability to detect repeatable patterns in the evolution of genetic architecture. Experimental vesicular stomatitis virus (VSV) populations were evolved on HeLa cells, on MDCK cells, or on alternating hosts. Turner and Elena (2000) previously showed that virus populations evolved in single-host environments achieved high fitness on their selected hosts but failed to increase in fitness relative to their ancestor on the unselected host, and that alternating- host-evolved populations had high fitness on both hosts. Here we determined the complete consensus sequence for each evolved population after 95 generations to gauge whether the parallel phenotypic changes were associated with parallel genomic changes. We also analyzed the patterns of allele substitutions to discern whether differences in fitness across hosts arose through true pleiotropy, or the presence of a mutation that is beneficial in both hosts but also one or more mutation(s) at other loci that are costly in the unselected environment (mutation accumulation). We found that ecological history may influence to what extent pleiotropy and mutation accumulation contribute to fitness asymmetries across environments. We discuss the degree to which current genetic architecture is expected to constrain future evolution of complex traits, such as host use by RNA viruses.

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