a b s t r a c tTick-borne encephalitis is a natural focal transmissible zooanthroponosis. The causative agent of the disease is a tick-borne encephalitis virus (TBEV) belonging to the genus Flavivirus of the family Flaviviridae and is widespread in Eurasia. Current TBEV classification based on molecular genetic data comprises three phylogenetically separate subtypes: Far Eastern, European and Siberian (TBEV-Sib). Further differentiation of TBEV isn't developed, making it difficult to investigate the origins, distribution and evolution of the virus. In the present study we determined the nucleotide sequence of the gene E fragment for 282 TBEV-Sib isolates from Ixodes persulcatus ticks or their pools from various natural foci in Russia. Analysis of these sequences and sequences obtained from the GenBank database (more than 600), made it possible to cluster TBEV-Sib strains by identical amino acid sequences of a glycoprotein E fragment. In total, 18 groups were identified (from 3 to 285 strains in the group). It was shown that TBEV strains belonging to the same group are phylogenetically related and have a territorial attachment showing either a local or a corridor type distribution. These groups were named as clusterons showed to be the smallest unit of TBEV classification. The grouping of TBEV strains allows characterization of endemic areas both in quantitative and qualitative composition of the clusterons. The approach could be successfully used to record and monitor the TBEV populations.
Tick-borne encephalitis is the most important human arthropod-borne virus disease in Europe and Russia, with an annual incidence of about 13 thousand people. Tick-borne encephalitis virus (TBEV) is distributed in the natural foci of forest and taiga zones of Eurasia, from the Pacific to the Atlantic coast. Currently, there are three mutually exclusive hypotheses about the origin and distribution of TBEV subtypes, although they are based on the same assumption of gradual evolution. Recently, we have described the structure of TBEV populations in terms of a clusteron approach, a clusteron being a structural unit of viral population [Kovalev and Mukhacheva (2013) Infect. Genet. Evol., 14, 22–28]. This approach allowed us to investigate questions of TBEV evolution in a new way and to propose a hypothesis of quantum evolution due to a vector switch. We also consider a possible mechanism for this switch occurring in interspecific hybrids of ticks. It is necessarily accompanied by a rapid accumulation of mutations in the virus genome, which is contrary to the generally accepted view of gradual evolution in assessing the ages of TBEV populations. The proposed hypothesis could explain and predict not only the formation of new subtypes, but also the emergence of new vector-borne viruses.
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