Liljeström P, Lusa S, Huylebroeck D, Garoff H
Department of Molecular Biology, Karolinska Institute, Huddinge, Sweden.
J Virol. 1991 Aug;65(8):4107-13. doi: 10.1128/JVI.65.8.4107-4113.1991.
We report on the construction of a full-length cDNA clone of Semliki Forest virus (SFV). By placing the cDNA under the SP6 promoter, infectious RNA can be produced in vitro and used to transfect cells to initiate virus infection. To achieve efficient transfections, a new protocol for electroporation of RNA was developed. This method gave up to 500-fold improvement over the traditional DEAE-dextran transfection procedure. Since virtually 100% of the cells can be transfected by electroporation, this method is a useful tool for detailed biochemical studies of null mutations of SFV that abolish production of infections virus particles. We used the cDNA clone of SFV to study what effects a deletion of the 6,000-molecular-weight membrane protein (6K membrane protein) had on virus replication. The small 6K protein is part of the structural precursor molecule (C-p62-6K-E1) of the virus. Our results conclusively show that the 6K protein is not needed for the heterodimerization of the p62 and E1 spike membrane proteins in the endoplasmic reticulum, nor is it needed for their transport out to the cell surface. The absence of the 6K protein did, however, result in a dramatic reduction in virus release, suggesting that the protein exerts its function late in the assembly pathway, possibly during virus budding.
我们报道了塞姆利基森林病毒(SFV)全长cDNA克隆的构建。通过将cDNA置于SP6启动子之下,可在体外产生感染性RNA,并用于转染细胞以引发病毒感染。为实现高效转染,开发了一种新的RNA电穿孔方案。该方法比传统的DEAE-葡聚糖转染程序提高了多达500倍。由于几乎100%的细胞可通过电穿孔进行转染,因此该方法是对SFV无效突变进行详细生化研究的有用工具,这些突变会消除感染性病毒颗粒的产生。我们利用SFV的cDNA克隆研究了6000分子量膜蛋白(6K膜蛋白)缺失对病毒复制的影响。小的6K蛋白是病毒结构前体分子(C-p62-6K-E1)的一部分。我们的结果确凿地表明,6K蛋白对于内质网中p62和E1刺突膜蛋白的异二聚化不是必需的,其转运至细胞表面也不需要该蛋白。然而,6K蛋白的缺失确实导致病毒释放显著减少,这表明该蛋白在组装途径后期发挥作用,可能是在病毒出芽期间。
