Abstract
ABSTRACTSegmented RNA viruses are a taxonomically diverse group of 11 families that can infect plant, wildlife, livestock and human hosts. A shared feature of these viruses is the ability to exchange genome segments during co-infection of a host by a process termed ‘reassortment’. Reassortment enables rapid evolutionary change, but in the case of segmented RNA viruses utilising an arthropod vector is set against the constraint of purifying selection and genetic bottlenecks imposed by replication in two evolutionarily distant hosts. In this study, we use an in vivo host: arbovirus: vector model to investigate the impact of reassortment on two phenotypic traits: vector competence and virulence in the host. Bluetongue virus (BTV) (Reoviridae) is the causative agent of bluetongue (BT), an economically important disease of domestic and wild ruminants and deer. The genome of BTV is comprised of 10 linear segments of dsRNA and the virus is transmitted between ruminants by Culicoides biting midges (Diptera: Ceratopogonidae). Five strains of BTV representing three serotypes (BTV-1, BTV-4 and BTV-8) were isolated from naturally infected ruminants in Europe and parental/reassortant lineage status assigned through full genome sequencing. Each strain was then assessed in parallel for the ability to infect Culicoides and to cause BT in sheep. Our results demonstrate that two reassortment strains, which themselves became established in the field, had obtained high replication ability in C. sonorensis from one of the parental virus strains which allowed inferences of the genome segments conferring this phenotypic trait.IMPORTANCEReassortment between strains can lead to major shifts in the transmission parameters and virulence of segmented RNA viruses with consequences for spread, persistence and impact. The ability of these pathogens to change their phenotypes rapidly in response to selection pressure in new environments presents a major challenge in understanding factors driving emergence. Utilising a natural mammalian host-insect vector infection and transmission model, we demonstrated for the first time the genetic basis for a phenotypic trait of BTV within strains directly isolated from the field and, hence, selected and relevant for natural transmission.
Publisher
Cold Spring Harbor Laboratory
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