The western honeybee is the primary pollinator of numerous food crops. Furthermore, honeybees are essential for ecosystem stability by sustaining the diversity and abundance of wild flowering plants. However, the worldwide population of honeybees is under pressure from environmental stress and pathogens. Viruses from the families Iflaviridae and Dicistroviridae, together with their vector, the parasitic mite Varroa destructor, are the major threat to the world's honeybees. Dicistroviruses and iflaviruses have capsids with icosahedral symmetries. Acidic pH triggers the genome release of both dicistroviruses and iflaviruses. The capsids of iflaviruses expand, whereas those of dicistroviruses remain compact until the genome release. Furthermore, dicistroviruses use inner capsid proteins, whereas iflaviruses employ protruding domains or minor capsid proteins from the virion surface to penetrate membranes and deliver their genomes into the cell cytoplasm. The structural characterization of the infection process opens up possibilities for the development of antiviral compounds.

Department of Zoology Fishery Hydrobiology and Apidology Faculty of Agronomy Mendel University in Brno Zemědělská 1 1665 613 00 Brno Czech Republic

Structural Virology Group Central European Institute of Technology Masaryk University Kamenice 753 5 62500 Brno Czech Republic

References provided by Crossref.org

Honeybee Iflaviruses Pack Specific tRNA Fragments from Host Cells in Their Virions

ICAM-1 induced rearrangements of capsid and genome prime rhinovirus 14 for activation and uncoating

Virion structure and in vitro genome release mechanism of dicistrovirus Kashmir bee virus

Capsid opening enables genome release of iflaviruses