First genetic characterization of sturgeon mimiviruses in Ukraine.

A group of pathogenic nucleocytoplasmic large DNA viruses (NCLDVs) related to the Mimiviridae family infect farmed sturgeons across Europe, causing mild-to-severe losses. One of these viruses, Acipenser iridovirus-European (AcIV-E), was identified in six sturgeon species. During the 2018-2019 period, nine sick Siberian (A. baerii) and Russian (A. gueldenstaedtii) sturgeons were sampled in Ukrainian farms and tested for the presence of AcIV-E using real-time PCR. The presence of AcIV-E was confirmed in some samples. High-resolution melting (HRM) assay and Sanger sequencing demonstrated the presence in three farms of two alleles of the major capsid protein (MCP) gene, called var1 and var2. Five samples carried both var1 and var2 at varying ratios, and the sixth sample was infected with only var1. These results constitute the first detection of AcIV-E in Ukraine and the first detection of a sample carrying only var1. The full-length sequences of the MCP genes confirmed the existence of two genetic lineages of AcIV-E, tentatively named V1 and V2, each displaying multiple substitutions in the MCP gene. Some of the MCP sequences showed a genetic relationship to both V1 and V2 lineages, depending on the fragment examined. Most likely, these sequences resulted from recombination events.

Densoviruses for control and genetic manipulation of mosquitoes.

Mosquito densoviruses (MDV) are parvoviruses that replicate in the nuclei of mosquito cells and cause the characteristic nuclear hypertrophy (densonucleosis) that gives them their name. Several MDV that differ in pathogenicity both in vitro and in vivo have been isolated. MDV have a number of features that make them potentially attractive as biological control agents for mosquito-borne disease. They are nonenveloped and relatively stable in the environment. They are highly specific for mosquitoes and they infect and kill larvae in a dose dependent manner in the aqueous larval habitat. Infected larvae that survive to become adult mosquitoes exhibit a dose-dependent shortening of lifespan and many do not survive longer than the extrinsic incubation period for arboviruses. Thus they may have a significant impact on transmission of pathogens. Infected females can transmit the virus vertically by laying infected eggs in new oviposition sites. Studies on how MDV affect populations are relatively limited. Population cage studies suggest that they will persist and spread in populations and limited field studies have shown similar preimaginal mortality in wild populations to that seen in laboratory studies. The availability of infectious clones of MDV genomes allows the development of densovirus vectors for expressing genes of interest in mosquito cells and mosquitoes. Recently short hairpin RNA expression cassettes that induce RNA interference have been inserted into densovirus genomes. These expression cassettes should be useful for both research and disease-control applications.