Article

First come, first served: superinfection exclusion in Deformed wing virus is dependent upon sequence identity and not the order of virus acquisition

Details

Citation

Gusachenko ON, Woodford L, Balbirnie-Cumming K & Evans DJ (2021) First come, first served: superinfection exclusion in Deformed wing virus is dependent upon sequence identity and not the order of virus acquisition. The ISME Journal, 15 (12), pp. 3704-3713. https://doi.org/10.1038/s41396-021-01043-4

Abstract
Deformed wing virus (DWV) is the most important globally distributed pathogen of honey bees and, when vectored by the ectoparasite Varroa destructor, is associated with high levels of colony losses. Divergent DWV types may differ in their pathogenicity and are reported to exhibit superinfection exclusion upon sequential infections, an inevitability in a Varroa-infested colony. We used a reverse genetic approach to investigate competition and interactions between genetically distinct or related virus strains, analysing viral load over time, tissue distribution with reporter gene-expressing viruses and recombination between virus variants. Transient competition occurred irrespective of the order of virus acquisition, indicating no directionality or dominance. Over longer periods, the ability to compete with a pre-existing infection correlated with the genetic divergence of the inoculae. Genetic recombination was observed throughout the DWV genome with recombinants accounting for ~2% of the population as determined by deep sequencing. We propose that superinfection exclusion, if it occurs at all, is a consequence of a cross-reactive RNAi response to the viruses involved, explaining the lack of dominance of one virus type over another. A better understanding of the consequences of dual- and superinfection will inform development of cross-protective honey bee vaccines and landscape-scale DWV transmission and evolution.

Journal
The ISME Journal: Volume 15, Issue 12

StatusPublished
FundersUniversity of St Andrews
Publication date31/12/2021
Publication date online30/06/2021
Date accepted by journal15/06/2021
URLhttp://hdl.handle.net/1893/36413
PublisherOxford University Press (OUP)
ISSN1751-7362
eISSN1751-7370

People (1)

Dr Luke Woodford

Dr Luke Woodford

Postdoctoral Research Fellow, Biological and Environmental Sciences

Files (1)