Chalcid wasp paleoviruses bridge the evolutionary gap between bracoviruses and nudiviruses

Abstract

Polydnaviruses are obligate mutualists of parasitoid wasps and are divided into two genera, Bracovirus and Ichnovirus. Bracoviruses are thought to originate from a single integration of an ancestral nudivirus into the ancestor of microgastroid complex ~100 million years ago. However, all the known nudiviruses are only distantly related to bracoviruses, and much remains obscure about the origin of bracoviruses. Here we employ a paleovirological method to screen endogenous nudivirus-like elements across arthropods. Interestingly, we identify many endogenous nudivirus-like elements within the genome of Eurytoma brunniventris, a species of the Chalcidoidea superfamily. Among them, we find 14 core gene sequences are likely to be derived from a betanudivirus (designated EbrENV-β), suggesting that betanudivirus has been circulating in parasitoid wasps. Phylogenomic analysis suggests that EbrENV-β is the known closest relative of bracoviruses. Synteny analyses show the order of core genes is not well conserved between EbrENV-β and nudiviruses, revealing the dynamic nature of the evolution of nudivirus genome structures. Our findings narrow down the evolutionary gap between bracoviruses and nudiviruses and provide novel insights into the origin and evolution of polydnaviruses.