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Abstract
The ongoing decline of honey bee health worldwide is a serious economic and ecological concern. One major contributor to the decline are pathogens, including several honey bee viruses. However, information is limited on the biology of bee viruses and molecular interactions with their hosts. An experimental protocol to test these systems was developed, using injections of Israeli Acute Paralysis Virus (IAPV) into honey bee pupae reared ex-situ under laboratory conditions. The infected pupae developed pronounced but variable patterns of disease. Symptoms varied from complete cessation of development with no visual evidence of disease to rapid darkening of a part or the entire body. Considerable differences in IAPV titer dynamics were observed, suggesting significant variation in resistance to IAPV among and possibly within honey bee colonies. Thus, selective breeding for virus resistance should be possible. Gene expression analyses of three separate experiments suggest IAPV disruption of transcriptional homeostasis of several fundamental cellular functions, including an up-regulation of the ribosomal biogenesis pathway. These results provide first insights into the mechanisms of IAPV pathogenicity. They mirror a transcriptional survey of honey bees afflicted with Colony Collapse Disorder and thus support the hypothesis that viruses play a critical role in declining honey bee health.
Highlights
IntroductionThe declining health of the honey bee (Apis mellifera) and other pollinators has caused concern all over the world
Over the last years, the declining health of the honey bee (Apis mellifera) and other pollinators has caused concern all over the world
Israeli Acute Paralysis Virus (IAPV), and small amounts of Acute Bee Paralysis Virus (ABPV), Deformed Wing Virus (DWV), and Black Queen Cell Virus (BQCV) were detected in the purified viral solution
Summary
The declining health of the honey bee (Apis mellifera) and other pollinators has caused concern all over the world. Insufficient knowledge on honey bee pathogens compromises our ability to assess their importance and to develop control measures. This is true for honey bee viruses their importance for honey bee losses has become evident in recent years [6,7,8,10,11,12]. In combination with the ectoparasitic bee mite Varroa destructor [13,14,15] that serves as a vector, several viruses appear to become more virulent [16,17,18]. The increased virulence of viruses has been confirmed experimentally by direct inoculation of bees with viruses [23,24,25,26,27], opening an important research field to explore
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