Rates of vaccine evolution show strong effects of latency: implications for Varicella Zoster Virus epidemiology

Journal article

Weinert, L., Depledge, D., Kundu, S., Gershon, A., Nichols, R., Balloux, F., Welch, J. and Breuer, J. 2015. Rates of vaccine evolution show strong effects of latency: implications for Varicella Zoster Virus epidemiology. Molecular Biology and Evolution. https://doi.org/10.1093/molbev/msu406

Publication dates
Authors	Weinert, L., Depledge, D., Kundu, S., Gershon, A., Nichols, R., Balloux, F., Welch, J. and Breuer, J.
Abstract	Varicella-zoster virus (VZV) causes chickenpox and shingles, and is found in human populations worldwide. The lack of temporal signal in the diversity of VZV makes substitution rate estimates unreliable, which is a barrier to understanding the context of its global spread. Here, we estimate rates of evolution by studying live attenuated vaccines, which evolved in 22 vaccinated patients for known periods of time, sometimes, but not always undergoing latency. We show that the attenuated virus evolves rapidly (~10-6 substitutions/site/day), but that rates decrease dramatically when the virus undergoes latency. These data are best explained by a model in which viral populations evolve for around 13 days before becoming latent, but then undergo no replication during latency. This implies that rates of viral evolution will depend strongly on transmission patterns. Nevertheless, we show that implausibly long latency periods are required to date the most recent common ancestor of extant VZV to an “out-of-Africa” migration with humans, as has been previously suggested.
Year	2015
Journal	Molecular Biology and Evolution
Publisher	Oxford University Press
ISSN	0737-4038
Digital Object Identifier (DOI)	https://doi.org/10.1093/molbev/msu406
Print	06 Jan 2015
Publication process dates
Deposited	20 May 2015
Accepted	23 Dec 2014
Output status	Published

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