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1. Functional characterization of Microplitis demolitor bracovirus genes that encode nucleocapsid components

   https://doi.org/10.1128/jvi.00817-23  

   Lorenzi, Ange; Arvin, Michael J; Burke, Gaelen R; Strand, Michael R (November 2023, Journal of Virology)

   Parrish, Colin R (Ed.)

   ABSTRACT Bracoviruses (BVs) are endogenized nudiviruses in parasitoid wasps of the microgastroid complex (order Hymenoptera: Family Braconidae). BVs produce replication-defective virions that adult female wasps use to transfer DNAs encoding virulence genes to parasitized hosts. Some BV genes are shared with nudiviruses and baculoviruses with studies of the latter providing insights on function, whereas other genes are only known from nudiviruses or other BVs which provide no functional insights. A proteomic analysis ofMicroplitis demolitorbracovirus (MdBV) virions recently identified 16 genes encoding nucleocapsid components. In this study, we further characterized most of these genes. Some nucleocapsid genes exhibited early or intermediate expression profiles, while others exhibited late expression profiles. RNA interference (RNAi) assays together with transmission electron microscopy indicatedvp39,HzNVorf9-like2,HzNVorf93-like,HzNVorf106-like,HzNVorf118-like,and 27bare required to produce capsids with a normal barrel-shaped morphology. RNAi knockdown ofvlf-1a,vlf-1b-1,vlf-1b-2,int-1,andp6.9-1did not alter the formation of barrel-shaped capsids but each reduced processing of amplified proviral segments and DNA packaging as evidenced by the formation of electron translucent capsids. All of the genes required for normal capsid assembly were also required for proviral segment processing and DNA packaging. Collectively, our results deorphanize several BV genes with previously unknown roles in virion morphogenesis. IMPORTANCEUnderstanding how bracoviruses (BVs) function in wasps is of broad interest in the study of virus evolution. This study characterizes most of theMicroplitis demolitorbracovirus (MdBV) genes whose products are nucleocapsid components. Results indicate several genes unknown outside of nudiviruses and BVs are essential for normal capsid assembly. Results also indicate most MdBV tyrosine recombinase family members and the DNA binding proteinp6.9-1are required for DNA processing and packaging into nucleocapsids. 

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2. Genomic analysis reveals an exogenous viral symbiont with dual functionality in parasitoid wasps and their hosts

   https://doi.org/10.1371/journal.ppat.1009069  

   Coffman, Kelsey A.; Burke, Gaelen R. (November 2020, PLOS Pathogens)

   Roossinck, Marilyn J. (Ed.)

   Insects are known to host a wide variety of beneficial microbes that are fundamental to many aspects of their biology and have substantially shaped their evolution. Notably, parasitoid wasps have repeatedly evolved beneficial associations with viruses that enable developing wasps to survive as parasites that feed from other insects. Ongoing genomic sequencing efforts have revealed that most of these virus-derived entities are fully integrated into the genomes of parasitoid wasp lineages, representing endogenous viral elements (EVEs) that retain the ability to produce virus or virus-like particles within wasp reproductive tissues. All documented parasitoid EVEs have undergone similar genomic rearrangements compared to their viral ancestors characterized by viral genes scattered across wasp genomes and specific viral gene losses. The recurrent presence of viral endogenization and genomic reorganization in beneficial virus systems identified to date suggest that these features are crucial to forming heritable alliances between parasitoid wasps and viruses. Here, our genomic characterization of a mutualistic poxvirus associated with the wasp Diachasmimorpha longicaudata , known as Diachasmimorpha longicaudata entomopoxvirus (DlEPV), has uncovered the first instance of beneficial virus evolution that does not conform to the genomic architecture shared by parasitoid EVEs with which it displays evolutionary convergence. Rather, DlEPV retains the exogenous viral genome of its poxvirus ancestor and the majority of conserved poxvirus core genes. Additional comparative analyses indicate that DlEPV is related to a fly pathogen and contains a novel gene expansion that may be adaptive to its symbiotic role. Finally, differential expression analysis during virus replication in wasps and fly hosts demonstrates a unique mechanism of functional partitioning that allows DlEPV to persist within and provide benefit to its parasitoid wasp host. 

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3. The Presence of Ancient Core Genes Reveals Endogenization from Diverse Viral Ancestors in Parasitoid Wasps

   https://doi.org/10.1093/gbe/evab105  

   Burke, Gaelen R; Hines, Heather M; Sharanowski, Barbara J (July 2021, Genome Biology and Evolution)

   Wayne, Marta (Ed.)

   Abstract The Ichneumonoidea (Ichneumonidae and Braconidae) is an incredibly diverse superfamily of parasitoid wasps that includes species that produce virus-like entities in their reproductive tracts to promote successful parasitism of host insects. Research on these entities has traditionally focused upon two viral genera Bracovirus (in Braconidae) and Ichnovirus (in Ichneumonidae). These viruses are produced using genes known collectively as endogenous viral elements (EVEs) that represent historical, now heritable viral integration events in wasp genomes. Here, new genome sequence assemblies for 11 species and 6 publicly available genomes from the Ichneumonoidea were screened with the goal of identifying novel EVEs and characterizing the breadth of species in lineages with known EVEs. Exhaustive similarity searches combined with the identification of ancient core genes revealed sequences from both known and novel EVEs. One species harbored a novel, independently derived EVE related to a divergent large double-stranded DNA (dsDNA) virus that manipulates behavior in other hymenopteran species. Although bracovirus or ichnovirus EVEs were identified as expected in three species, the absence of ichnoviruses in several species suggests that they are independently derived and present in two younger, less widespread lineages than previously thought. Overall, this study presents a novel bioinformatic approach for EVE discovery in genomes and shows that three divergent virus families (nudiviruses, the ancestors of ichnoviruses, and Leptopilina boulardi Filamentous Virus-like viruses) are recurrently acquired as EVEs in parasitoid wasps. Virus acquisition in the parasitoid wasps is a common process that has occurred in many more than two lineages from a diverse range of arthropod-infecting dsDNA viruses. 

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4. Large DNA Viruses That Parasitoid Wasps Transmit to Hosts

   https://doi.org/10.1146/annurev-ento-121423-013425  

   Strand, Michael R; Coffman, Kelsey A; Burke, Gaelen R (October 2025, Annual Review of Entomology)

   Many types of viruses have been identified in parasitoid wasps and other Hymenoptera. Parasitoid wasps also transmit several viruses to hosts through the piercing ovipositors that females use to lay eggs. Most viruses that are known to be transmitted by parasitoids have large double-stranded DNA genomes. We summarize the range of interactions that have evolved between parasitoid wasps and the viruses they transmit. Some viruses are mechanically transmitted to hosts, which can reduce the fitness of wasp offspring. Others have evolved into beneficial symbionts or reproductive parasites that replicate in wasps and hosts. Some large dsDNA viruses have also been co-opted into domesticated endogenized viruses that are vertically transmitted to offspring but still produce virions or virus-like particles that wasps use to parasitize hosts. We conclude by discussing future directions and why parasitoid wasps likely transmit many more viruses than are currently known. 

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5. Host JAK-STAT activity is a target of parasitoid wasp virulence strategies

   https://doi.org/10.1371/journal.ppat.1012349  

   Brantley, Susanna E; Stouthamer, Corinne M; Kr, Pooja; Fischer, Mary L; Hill, Joshua; Schlenke, Todd A; Mortimer, Nathan T (July 2024, PLOS Pathogens)

   Schneider, David S (Ed.)

   Innate immune responses that allow hosts to survive infection depend on the action of multiple conserved signaling pathways. Pathogens and parasites in turn have evolved virulence factors to target these immune signaling pathways in an attempt to overcome host immunity. Consequently, the interactions between host immune molecules and pathogen virulence factors play an important role in determining the outcome of an infection. The immune responses ofDrosophila melanogasterprovide a valuable model to understand immune signaling and host-pathogen interactions. Flies are commonly infected by parasitoid wasps and mount a coordinated cellular immune response following infection. This response is characterized by the production of specialized blood cells called lamellocytes that form a tight capsule around wasp eggs in the host hemocoel. The conserved JAK-STAT signaling pathway has been implicated in lamellocyte proliferation and is required for successful encapsulation of wasp eggs. Here we show that activity ofStat92E, theD.melanogasterSTAT ortholog, is induced in immune tissues following parasitoid infection. Virulent wasp species are able to suppressStat92Eactivity during infection, suggesting they target JAK-STAT pathway activation as a virulence strategy. Furthermore, two wasp species (Leptopilina guineaensisandGanaspis xanthopoda) suppress phenotypes associated with a gain-of-function mutation inhopscotch, theD.melanogasterJAK ortholog, indicating that they inhibit the activity of the core signaling components of the JAK-STAT pathway. Our data suggest that parasitoid wasp virulence factors block JAK-STAT signaling to overcome fly immune defenses. 

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