Origins, diversity, and adaptive evolution of DWV in the honey bees of the Azores: the impact of the invasive mite Varroa destructor

IF 5.5 2区医学 Q1 VIROLOGY

Virus Evolution Pub Date : 2024-07-12 DOI:10.1093/ve/veae053

Ana R Lopes, Matthew Low, Raquel Martín-Hernández, M Alice Pinto, Joachim R de Miranda

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引用次数: 0

Abstract

Deformed wing virus (DWV) is a honey bee virus, whose emergence from relative obscurity is driven by the recent host-switch, adaptation and global dispersal of the ectoparasitic mite Varroa destructor (a highly efficient vector of DWV) to reproduction on honey bees (Apis mellifera). Our study examines how varroa affects the continuing evolution of DWV, using the Azores archipelago, where varroa is only present on only three out of the eight islands, as a natural experimental system for comparing different evolutionary conditions and trajectories. We combined qPCR of 494 honey bee colonies sampled across the archipelago with amplicon deep sequencing to reveal how the DWV genetic landscape is altered by varroa. Two of the varroa-free islands were also free of DWV, while a further two islands were intriguingly dominated by the rare DWV-C major variant. The other four islands, including the three varroa-infested islands, were dominated by the common DWV-A and DWV-B variants. The varroa-infested islands had, as expected, an elevated DWV prevalence relative to the uninfested islands, but not elevated DWV loads, due the relatively high prevalence and loads of DWV-C on the varroa-free islands. This establishes the Azores as a stable refuge for DWV-C and provides the most convincing evidence to date that at least some major strains of DWV may be capable of not just surviving, but actually thriving in honey bees in the absence of varroa-mediated transmission. We did not detect any change in DWV genetic diversity associated with island varroa status but did find a positive association of DWV diversity with virus load, irrespective of island varroa status.

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亚速尔群岛蜜蜂 DWV 的起源、多样性和适应性进化：入侵螨虫 Varroa destructor 的影响

畸形翅病毒（DWV）是一种蜜蜂病毒，它之所以能够从相对默默无闻的状态中脱颖而出，是因为外寄生螨Varroa destructor（DWV的高效载体）最近在蜜蜂（Apis mellifera）身上进行了宿主转换、适应和全球传播。亚速尔群岛的八个岛屿中只有三个存在变种螨，我们的研究将亚速尔群岛作为一个天然的实验系统，比较不同的进化条件和轨迹，研究变种螨如何影响 DWV 的持续进化。我们将对群岛上 494 个蜜蜂群采样的 qPCR 与扩增子深度测序结合起来，揭示了变种虫如何改变 DWV 遗传景观。其中两个没有变种的岛屿也没有DWV，而另外两个岛屿则以罕见的DWV-C主要变种为主。其他四个岛屿，包括三个变异虫肆虐的岛屿，则以常见的 DWV-A 和 DWV-B 变种为主。与未受变异侵扰的岛屿相比，受变异侵扰的岛屿的 DWV 感染率高于未受变异侵扰的岛屿，但 DWV 负荷却没有增加，这是由于无变异侵扰的岛屿上 DWV-C 的感染率和负载量相对较高。这确定了亚速尔群岛是 DWV-C 的稳定避难所，并提供了迄今为止最有说服力的证据，表明在没有变种虫介导的传播的情况下，至少一些主要的 DWV 株系可能不仅能够在蜜蜂体内存活，而且实际上能够在蜜蜂体内茁壮成长。我们没有发现 DWV 遗传多样性与岛屿 varroa 状态相关的任何变化，但发现 DWV 多样性与病毒载量呈正相关，与岛屿 varroa 状态无关。

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来源期刊

Virus Evolution Immunology and Microbiology-Microbiology

CiteScore

10.50

自引率

5.70%

发文量

108

审稿时长

14 weeks

期刊介绍： Virus Evolution is a new Open Access journal focusing on the long-term evolution of viruses, viruses as a model system for studying evolutionary processes, viral molecular epidemiology and environmental virology. The aim of the journal is to provide a forum for original research papers, reviews, commentaries and a venue for in-depth discussion on the topics relevant to virus evolution.