Entomophthovirus: an insect-derived iflavirus that infects a behavior-manipulating fungal pathogen of dipterans

Abstract

Abstract We report a virus infecting Entomophthora muscae, a behavior-manipulating fungal pathogen of dipterans. The virus, which we name Berkeley Entomophthovirus, is a positive-strand RNA virus in the iflaviridae family of capsid-forming viruses, which are mostly known to infect insects. The viral RNA is expressed at high levels in fungal cells in vitro and during in vivo infections of Drosophila melanogaster, and virus particles can be seen intracellularly in E. muscae. This virus, of which we find two closely related variants in our culture of E. muscae, is also closely related to three different viruses reported from metagenomic surveys, two of which were isolated from wild dipterans, and a third isolated from wild ticks. By analyzing sequencing data from these earlier reports, we find abundant reads aligning to E. muscae specifically in the samples from which viral reads were sequenced. These data establish a wide and perhaps obligate association with E. muscae in the wild, consistent with our laboratory data that E. muscae is the host for these closely related viruses. Because of this, we propose the name Entomophthovirus (EV) for this group of highly related virus variants. As other members of the iflaviridae have been reported to cause behavioral changes in insects, we speculate on the possibility that EV plays a role in the behavioral manipulation of flies infected with E. muscae.