Bonneau K R, Mullens B A, MacLachlan N J
Department of Pathology, Microbiology, and Immunology, School of Veterinary Medicine, University of California, Davis, California 95616, USA.
J Virol. 2001 Sep;75(17):8298-305. doi: 10.1128/jvi.75.17.8298-8305.2001.
Bluetongue virus (BTV) is the cause of an insect-transmitted virus infection of ruminants that occurs throughout much of the world. Individual gene segments differ between field strains of BTV; thus, we hypothesized that key viral genes undergo genetic drift during alternating passage of BTV in its ruminant and insect hosts. To test this hypothesis, variation in the consensus sequence and quasispecies heterogeneity of the VP2 and NS3/NS3A genes of a plaque-purified strain of BTV serotype 10 was determined during alternating infection of vector Culicoides sonorensis and a sheep and calf. Consensus sequences were determined after reverse transcriptase-nested PCR amplification of viral RNA directly from ruminant blood and homogenized insects, and quasispecies heterogeneity was determined by the sequencing of clones derived from directly amplified viral RNA. Comparison of these sequences to those of the original BTV inoculum used to initiate the cycle of BTV infection demonstrated, for the first time, that individual BTV gene segments evolve independently of one another by genetic drift in a host-specific fashion, generating quasispecies populations in both ruminant and insect hosts. Furthermore, a unique viral variant was randomly ingested by C. sonorensis insects that fed on a sheep with low-titer viremia, thereby fixing a novel genotype by founder effect. Thus, we conclude that genetic drift and founder effect contribute to diversification of individual gene segments of field strains of BTV.
蓝舌病病毒(BTV)是一种由昆虫传播的反刍动物病毒感染病因,在世界大部分地区都有发生。BTV的不同野外毒株之间的各个基因片段存在差异;因此,我们推测关键病毒基因在BTV于其反刍动物宿主和昆虫宿主之间交替传代过程中会发生基因漂移。为验证这一假说,在对媒介昆虫索诺拉库蠓以及一只绵羊和一头小牛进行交替感染期间,测定了一株经噬斑纯化的BTV血清型10的VP2和NS3/NS3A基因的共有序列变异和准种异质性。通过直接从反刍动物血液和匀浆昆虫中对病毒RNA进行逆转录巢式PCR扩增后测定共有序列,通过对直接扩增的病毒RNA衍生的克隆进行测序来测定准种异质性。将这些序列与用于启动BTV感染循环的原始BTV接种物的序列进行比较,首次证明了各个BTV基因片段通过基因漂移以宿主特异性方式彼此独立进化,在反刍动物和昆虫宿主中均产生准种种群。此外,以低滴度病毒血症绵羊为食的索诺拉库蠓随机摄取了一种独特的病毒变体,从而通过奠基者效应固定了一种新的基因型。因此,我们得出结论,基因漂移和奠基者效应促成了BTV野外毒株各个基因片段的多样化。