Department of Genetics and Microbiology, Faculty of Science BIOCEV, Charles Universitygrid.4491.8, Prumyslova, Vestec, Czech Republic.
Crop Research Institute, Prague, Czech Republic.
mSystems. 2022 Jun 28;7(3):e0007222. doi: 10.1128/msystems.00072-22. Epub 2022 May 9.
Honey bees are globally important pollinators threatened by many different pathogens, including viruses. We investigated the virome of honey bees collected at the end of the beekeeping season (August/September) in Czechia, a Central European country. Samples were examined in biological replicates to assess the homogeneity, stability, and composition of the virome inside a single hive. By choice of healthy workers from colonies, where Varroa destructor was under control, we could identify ubiquitous bee viruses. Deformed wing virus (DWV) was highly prevalent, even though the bees were healthy, without any noticeable disease signs. The overall virome composition (consisting of honey bee-, plant-, and bacterium-infecting viruses) was driven primarily by the hive and its location. However, honey bee-specific viruses showed an uneven distribution within the same hive. In addition, our results point to an unusual cooccurrence between two rhabdoviruses and reveal the presence of five distinct lineages of Lake Sinai viruses (LSVs) clustering with other LSV strains described globally. Comparison of our results with the virome of Australian honey bees, the last truly and DWV-free population, showed a strong difference with respect to DWV and a set of diverse members of the , of which the latter were absent in our samples. We hypothesize that the occurrence of DWV introduced by strongly affects the virome structure despite the mite being under control. The Western honey bee, Apis mellifera, is a vital part of our ecosystem as well as cultural heritage. Annual colony losses endanger beekeeping. In this study, we examined healthy bees from the heart of Central Europe, where honey bee colonies have been commonly affected by varroosis over 5 decades. Our virome analysis showed the presence of ubiquitous viruses in colonies where the mite was under control and no honey bee disease signs were observed. Compared to previous studies, an important part of our study was the analysis of multiple replicates from individual hives. Our overall results indicate that the virome structure (including bee-infecting viruses, plant-infecting viruses, and bacteriophages) is stable within hives; however, the bee-infecting viruses varied largely within interhive replicates, suggesting variation of honey bee viruses within individual bees. Of interest was the striking difference between the viromes of our 39 pools and 9 pools of honey bee viromes previously analyzed in Australia. It could be suggested that not only affects DWV spread in bee colonies but also affects diverse members of the , which were strongly decreased in Czech bees compared to the - and DWV-naive Australian bees.
蜜蜂是全球重要的传粉媒介,受到多种不同病原体的威胁,包括病毒。我们研究了在捷克(中欧国家)养蜂季节结束时(8/9 月)采集的蜜蜂的病毒组。通过对单个蜂群内的生物重复样本进行检查,评估病毒组的同质性、稳定性和组成。通过选择控制了瓦螨的、健康工蜂的样本,我们可以识别出无处不在的蜜蜂病毒。变形翅膀病毒(DWV)非常普遍,尽管蜜蜂健康,没有任何明显的疾病迹象。总体病毒组组成(由感染蜜蜂、植物和细菌的病毒组成)主要由蜂群及其位置决定。然而,在同一蜂群内,蜜蜂特异性病毒的分布不均匀。此外,我们的结果表明,两种弹状病毒的异常共存,并揭示了存在五个不同的西湖病毒(LSV)谱系,与全球描述的其他 LSV 株聚类。将我们的结果与澳大利亚蜜蜂的病毒组进行比较,澳大利亚是最后一个真正无 DWV 的种群,结果表明,DWV 和一组不同的 病毒存在强烈差异,而后者在我们的样本中不存在。我们假设,尽管螨已得到控制,但由 引入的 DWV 的存在强烈影响病毒组结构。西方蜜蜂,Apis mellifera,是我们生态系统以及文化遗产的重要组成部分。每年的蜂群损失都威胁着养蜂业。在这项研究中,我们检查了来自中欧中心的健康蜜蜂,那里的蜜蜂种群在过去 5 个十年中普遍受到瓦螨病的影响。我们的病毒组分析表明,在螨得到控制且没有观察到蜜蜂疾病迹象的蜂群中存在普遍存在的病毒。与以前的研究相比,我们研究的一个重要部分是对单个蜂群的多个重复样本进行分析。我们的总体结果表明,蜂群内的病毒组结构(包括感染蜜蜂的病毒、感染植物的病毒和噬菌体)是稳定的;然而,在蜂群间的重复样本中,感染蜜蜂的病毒差异很大,表明单个蜜蜂体内的蜜蜂病毒存在差异。有趣的是,我们 39 个样本池和之前在澳大利亚分析的 9 个蜜蜂病毒组之间的病毒组存在显著差异。这表明, 不仅影响蜜蜂种群中 DWV 的传播,还影响 ,与 DWV 无感染且无 感染的澳大利亚蜜蜂相比,捷克蜜蜂中的 显著减少。
