AI Article Synopsis

  • The study investigates the genetic diversity of Ostreid herpesvirus 1 (OsHV-1), which causes Pacific oyster mortality syndrome, across major oyster-farming regions in France.
  • Using ultra-deep sequencing and advanced bioinformatics, researchers assembled 21 new OsHV-1 genomes to analyze their genetic variations and evolutionary relationships.
  • The findings indicate that the Marennes-Oléron Bay is the main source of OsHV-1 diversity, highlighting the impact of oyster transfer practices on viral dispersion and demonstrating the applicability of phylodynamic methods to DNA viruses.

Article Abstract

The genetic diversity of viral populations is a key driver of the spatial and temporal diffusion of viruses; yet, studying the diversity of whole genomes from natural populations still remains a challenge. Phylodynamic approaches are commonly used for RNA viruses harboring small genomes but have only rarely been applied to DNA viruses with larger genomes. Here, we used the Pacific oyster mortality syndrome (a disease that affects oyster farms around the world) as a model to study the genetic diversity of its causative agent, the Ostreid herpesvirus 1 (OsHV-1) in the three main French oyster-farming areas. Using ultra-deep sequencing on individual moribund oysters and an innovative combination of bioinformatics tools, we assembled twenty-one OsHV-1 new genomes. Combining quantification of major and minor genetic variations, phylogenetic analysis, and ancestral state reconstruction of discrete traits approaches, we assessed the connectivity of OsHV-1 viral populations between the three oyster-farming areas. Our results suggest that the Marennes-Oléron Bay represents the main source of OsHV-1 diversity, from where the virus has dispersed to other farming areas, a scenario consistent with current practices of oyster transfers in France. We demonstrate that phylodynamic approaches can be applied to aquatic DNA viruses to determine how epidemiological, immunological, and evolutionary processes act and potentially interact to shape their diversity patterns.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9119428PMC
http://dx.doi.org/10.1093/ve/veac039DOI Listing

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