A comparison of deformed wing virus in deformed and asymptomatic honey bees

Brettell, Laura; Mordecai, GJ; Schroeder, DC; Jones, IM; da Silva, JR; Vicente-Rubiano, M; Martin, SJ

doi:10.3390/insects8010028

A comparison of deformed wing virus in deformed and asymptomatic honey bees

Brettell, Laura; Mordecai, GJ; Schroeder, DC; Jones, IM; da Silva, JR; Vicente-Rubiano, M; Martin, SJ

Authors

Dr Laura Brettell L.E.Brettell1@salford.ac.uk
University Fellow

GJ Mordecai

DC Schroeder

IM Jones

JR da Silva

M Vicente-Rubiano

Prof Stephen Martin S.J.Martin@salford.ac.uk

Abstract

Deformed wing virus (DWV) in association with Varroa destructor is currently attributed to being responsible for colony collapse in the western honey bee (Apis mellifera). The appearance of deformed individuals within an infested colony has long been associated with colony losses. However, it is unknown why only a fraction of DWV positive bees develop deformed wings. This study concerns two small studies comparing deformed and non-deformed bees. In Brazil, asymptomatic bees (no wing deformity) that had been parasitised by Varroa as pupae had higher DWV loads than non-parasitised bees. However, we found no greater bilateral asymmetry in wing morphology due to DWV titres or parasitisation. As expected, using RT-qPCR, deformed bees were found to contain the highest viral loads. In a separate study, next generation sequencing (NGS) was applied to compare the entire DWV genomes from paired symptomatic and asymptomatic bees from three colonies on two different Hawaiian islands. This revealed no consistent differences between DWV genomes from deformed or asymptomatic bees, with the greatest variation seen between locations, not phenotypes. All samples, except one, were dominated by DWV type A. This small-scale study suggests that there is no unique genetic variant associated with wing deformity; but that many DWV variants have the potential to cause deformity.

Journal Article Type	Article
Acceptance Date	Mar 2, 2017
Online Publication Date	Mar 7, 2017
Publication Date	Mar 7, 2017
Deposit Date	Mar 3, 2017
Publicly Available Date	Mar 8, 2017
Journal	Insects
Electronic ISSN	2075-4450
Publisher	MDPI
Volume	8
Issue	1
DOI	https://doi.org/10.3390/insects8010028
Publisher URL	http://dx.doi.org/10.3390/insects8010028
Related Public URLs	http://www.mdpi.com/journal/insects
Additional Information	Funders : CNPq;Santander Travel Bursary;British Beekeeping Association;C. B. Dennis, Apis_m;Marine Biological;Biotechnology and Biosciences Sciences Research Council (BBSRC) Projects : Studies into honeybee pathogens Grant Number: CNPq 400425/2014-9