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1. The Case for Studying New Viruses of New Hosts

   https://doi.org/10.1146/annurev-virology-100220-112915  

   Stenglein, Mark D. (September 2022, Annual Review of Virology)

   Virology has largely focused on viruses that are pathogenic to humans or to the other species that we care most about. There is no doubt that this has been a worthwhile investment. But many transformative advances have been made through the in-depth study of relatively obscure viruses that do not appear on lists of prioritized pathogens. In this review, I highlight the benefits that can accrue from the study of viruses and hosts off the beaten track. I take stock of viral sequence diversity across host taxa as an estimate of the bias that exists in our understanding of host-virus interactions. I describe the gains that have been made through the metagenomic discovery of thousands of new viruses in previously unsampled hosts as well as the limitations of metagenomic surveys. I conclude by suggesting that the study of viruses that naturally infect existing and emerging model organisms represents an opportunity to push virology forward in useful and hard to predict ways. 

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2. Metagenomics and the development of viral water quality tools

   https://doi.org/10.1038/s41545-019-0032-3  

   Bibby, Kyle; Crank, Katherine; Greaves, Justin; Li, Xiang; Wu, Zhenyu; Hamza, Ibrahim A.; Stachler, Elyse (March 2019, npj Clean Water)

   Abstract Human exposure to pathogenic viruses in environmental waters results in a significant global disease burden. Current microbial water quality monitoring approaches, mainly based on fecal indicator bacteria, insufficiently capture human health impacts posed by pathogenic viruses in water. The emergence of the ‘microbiome era’ and high-throughput metagenome sequencing has led to the discovery of novel human-associated viruses, including both pathogenic and commensal viruses in the human microbiome. The discovery of novel human-associated viruses is often followed by their detection in wastewater, highlighting the great diversity of human-associated viruses potentially present in the water environment. Novel human-associated viruses provide a rich reservoir to develop viral water quality management tools with diverse applications, such as regulating wastewater reuse and monitoring agricultural and recreational waters. Here, we review the pathway from viral discovery to water quality monitoring tool, and highlight select human-associated viruses identified by metagenomics and subsequently detected in the water environment (namely Bocavirus, Cosavirus, CrAssphage, Klassevirus, and Pepper Mild Mottle Virus). We also discuss research needs to enable the application of recently discovered human-associated viruses in water quality monitoring, including investigating the geographic distribution, environmental fate, and viability of potential indicator viruses. Examples suggest that recently discovered human pathogens are likely to be less abundant in sewage, while other human-associated viruses (e.g., bacteriophages or viruses from food) are more abundant but less human-specific. The improved resolution of human-associated viral diversity enabled by metagenomic tools provides a significant opportunity for improved viral water quality management tools. 

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3. Adaptive duplication and genetic diversification of protein kinase R contribute to the specificity of bat-virus interactions

   https://doi.org/10.1126/sciadv.add7540  

   Jacquet, Stéphanie; Culbertson, Michelle; Zhang, Chi; El_Filali, Adil; De_La_Myre_Mory, Clément; Pons, Jean-Baptiste; Filippi-Codaccioni, Ondine; Lauterbur, M Elise; Ngoubangoye, Barthélémy; Duhayer, Jeanne; et al (November 2022, Science Advances)

   Several bat species act as asymptomatic reservoirs for many viruses that are highly pathogenic in other mammals. Here, we have characterized the functional diversification of the protein kinase R (PKR), a major antiviral innate defense system. Our data indicate that PKR has evolved under positive selection and has undergone repeated genomic duplications in bats in contrast to all studied mammals that have a single copy of the gene. Functional testing of the relationship between PKR and poxvirus antagonists revealed how an evolutionary conflict with ancient pathogenic poxviruses has shaped a specific bat host-virus interface. We determined that duplicated PKRs of theMyotisspecies have undergone genetic diversification, allowing them to collectively escape from and enhance the control of DNA and RNA viruses. These findings suggest that viral-driven adaptations in PKR contribute to modern virus-bat interactions and may account for bat-specific immunity. 

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4. Effector-mediated plant–virus–vector interactions

   https://doi.org/10.1093/plcell/koac058  

   Ray, Swayamjit; Casteel, Clare L (February 2022, The Plant Cell)

   Abstract Hemipterans (such as aphids, whiteflies, and leafhoppers) are some of the most devastating insect pests due to the numerous plant pathogens they transmit as vectors, which are primarily viral. Over the past decade, tremendous progress has been made in broadening our understanding of plant–virus–vector interactions, yet on the molecular level, viruses and vectors have typically been studied in isolation of each other until recently. From that work, it is clear that both hemipteran vectors and viruses use effectors to manipulate host physiology and successfully colonize a plant and that co-evolutionary dynamics have resulted in effective host immune responses, as well as diverse mechanisms of counterattack by both challengers. In this review, we focus on advances in effector-mediated plant–virus–vector interactions and the underlying mechanisms. We propose that molecular synergisms in vector–virus interactions occur in cases where both the virus and vector benefit from the interaction (mutualism). To support this view, we show that mutualisms are common in virus–vector interactions and that virus and vector effectors target conserved mechanisms of plant immunity, including plant transcription factors, and plant protein degradation pathways. Finally, we outline ways to identify true effector synergisms in the future and propose future research directions concerning the roles effectors play in plant–virus–vector interactions. 

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5. Novel viruses of the family Partitiviridae discovered in Saccharomyces cerevisiae

   https://doi.org/10.1371/journal.ppat.1011418  

   Taggart, Nathan T.; Crabtree, Angela M.; Creagh, Jack W.; Bizarria, Rodolfo; Li, Shunji; de la Higuera, Ignacio; Barnes, Jonathan E.; Shipley, Mason A.; Boyer, Josephine M.; Stedman, Kenneth M.; et al (June 2023, PLOS Pathogens)

   Wang, Aiming (Ed.)

   It has been 49 years since the last discovery of a new virus family in the model yeastSaccharomyces cerevisiae. A large-scale screen to determine the diversity of double-stranded RNA (dsRNA) viruses inS.cerevisiaehas identified multiple novel viruses from the familyPartitiviridaethat have been previously shown to infect plants, fungi, protozoans, and insects. MostS.cerevisiaepartitiviruses (ScPVs) are associated with strains of yeasts isolated from coffee and cacao beans. The presence of partitiviruses was confirmed by sequencing the viral dsRNAs and purifying and visualizing isometric, non-enveloped viral particles. ScPVs have a typical bipartite genome encoding an RNA-dependent RNA polymerase (RdRP) and a coat protein (CP). Phylogenetic analysis of ScPVs identified three species of ScPV, which are most closely related to viruses of the genusCryspovirusfrom the mammalian pathogenic protozoanCryptosporidium parvum. Molecular modeling of the ScPV RdRP revealed a conserved tertiary structure and catalytic site organization when compared to the RdRPs of thePicornaviridae. The ScPV CP is the smallest so far identified in thePartitiviridaeand has structural homology with the CP of other partitiviruses but likely lacks a protrusion domain that is a conspicuous feature of other partitivirus particles. ScPVs were stably maintained during laboratory growth and were successfully transferred to haploid progeny after sporulation, which provides future opportunities to study partitivirus-host interactions using the powerful genetic tools available for the model organismS.cerevisiae. 

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