ABSTRACT
Birnaviruses, including the genus Entomobirnavirus, are socio-economically important viruses. Currently, only Drosophila X virus has been formally assigned to the genus Entomobirnavirus, but two more viruses were recently isolated, Espirito Santo virus (ESV) and Culex Y virus. The host mosquito has been reported to carry many viruses, but seldom entomobirnaviruses. To discover potential pathogens in mosquitoes, we exploited small-RNAs high-throughput sequencing of three mosquito species caught in South China. A virus that genetically likes entomobirnavirus, Mosquito X virus (MXV), was identified from Anopheles sinensis and was 97% identical to ESV, which co-infects with Dengue virus (DENV). However, the absence of DENV in the A. sinensis suggested the independence of MXV infection from dengue co-infection. Our discovery complements prior research on entomobirnaviruses and proved that MXV may be widespread in mosquitoes on different continents. This work also highlights the applying of high-throughput sequencing of small RNAs to survey viruses carried by insect vectors.
Subject(s)
Anopheles/virology , Culex/virology , Dengue Virus/isolation & purification , Entomobirnavirus/isolation & purification , Amino Acid Sequence , Animals , China , Gene Expression Regulation, Viral , Genome, Viral , Molecular Sequence Data , Phylogeny , RNA, Viral/genetics , Viral Proteins/genetics , Viral Proteins/metabolismABSTRACT
Drosophila X virus (DXV), the prototype Entomobirnavirus, is a well-studied RNA virus model. Its origin is unknown, and so is that of the only other entomobirnavirus, Espirito Santo virus (ESV). We isolated an entomobirnavirus tentatively named Culex Y virus (CYV) from hibernating Culex pipiens complex mosquitoes in Germany. CYV was detected in three pools consisting of 11 mosquitoes each. Full-genome sequencing and phylogenetic analyses suggested that CYV and ESV define one sister species to DXV within the genus Entomobirnavirus. In contrast to the laboratory-derived ESV, the ORF5 initiation codon AUG was mutated to (1927)GUG in all three wild-type CYV isolates. Also in contrast to ESV, replication of CYV was not dependent on other viruses in insect cell culture. CYV could provide a wild-type counterpart in research fields relying on DXV and other cell culture-adapted strains.