Kaga E, Nakagomi O
Department of Microbiology, Akita University School of Medicine, Japan.
Arch Virol. 1994;136(1-2):63-71. doi: 10.1007/BF01538817.
To determine the relative frequency of intergenogroup reassortants of rotavirus in nature, we analyzed the genetic composition of 22 electrophoretically distinct stool isolates which accounted for 95.2% of stool rotaviruses with a short RNA pattern collected during 10 rotavirus seasons. These strains all showed subgroup I and G2 specificities, but two distinct hybridization patterns were observed when the probes prepared from Wa (a member of the Wa genogroup) and KUN (a member of the DS-1 genogroup) were used. Genomic RNAs from 10 strains (accounting for 64% of the field rotaviruses with short RNA pattern) hybridized exclusively to the KUN probe, and thus belonged to the DS-1 genogroup. On the other hand, genomic RNAs of the remaining 12 strains (accounting for 36% of the field rotaviruses with short RNA pattern) formed one hybrid band with the Wa probe and 10 hybrid bands with the KUN probe. Thus, they were single gene substitution intergenogroup reassortants between members of the Wa and DS-1 genogroups. They had a similar genetic constellation in that a gene segment encoding either NS35 or NS34 from a Wa-like strain was introduced into a DS-1-like genome background.
为了确定自然界中轮状病毒基因群组间重配体的相对频率,我们分析了22株电泳图谱不同的粪便分离株的基因组成,这些分离株占10个轮状病毒流行季收集的具有短RNA模式的粪便轮状病毒的95.2%。这些毒株均显示I亚组和G2特异性,但当使用由Wa(Wa基因群组的一个成员)和KUN(DS-1基因群组的一个成员)制备的探针时,观察到两种不同的杂交模式。10株毒株(占具有短RNA模式的现场轮状病毒的64%)的基因组RNA仅与KUN探针杂交,因此属于DS-1基因群组。另一方面,其余12株毒株(占具有短RNA模式的现场轮状病毒的36%)的基因组RNA与Wa探针形成一条杂交带,与KUN探针形成10条杂交带。因此,它们是Wa和DS-1基因群组成员之间的单基因替代基因群组间重配体。它们具有相似的基因组合,即将来自Wa样毒株的编码NS35或NS34的一个基因片段导入DS-1样基因组背景中。
