Everett R D, Orr A
Medical Research Council Virology Unit, Glasgow, United Kingdom.
Virology. 1991 Feb;180(2):509-17. doi: 10.1016/0042-6822(91)90064-i.
The immediate-early (IE) genes of herpes simplex virus type 1 (HSV-1) are the first to be expressed during infection in tissue culture. Since they are transcribed at abnormally high levels in the absence of IE protein synthesis they appear to be subject to repression during normal infection. One of the major HSV-1 regulatory proteins, Vmw175 (the product of IE gene 3), is required for normal IE gene regulation since mutations which inactivate it lead to abnormally high levels of IE gene expression. The mechanism of repression of the IE-3 promoter requires both the ability of Vmw175 to bind to DNA and the presence of a Vmw175 recognition DNA binding sequence at the cap site of the IE-3 promoter. A similar Vmw175 DNA binding sequence has been defined within the IE-1 promoter. This paper describes the construction of a variant of HSV-1 with a mutation within the IE-1 Vmw175 DNA binding site. Although the mutation destroyed the ability of Vmw175 to bind to the site, and greatly reduced the ability of Vmw175 to repress the IE-1 promoter in transfection assays, the mutation had no effect on the levels of Vmw110 expression during normal HSV-1 infection.
单纯疱疹病毒1型(HSV-1)的立即早期(IE)基因是在组织培养感染过程中最早表达的基因。由于它们在缺乏IE蛋白合成的情况下以异常高的水平转录,因此在正常感染期间似乎受到抑制。主要的HSV-1调节蛋白之一Vmw175(IE基因3的产物)是正常IE基因调节所必需的,因为使其失活的突变会导致IE基因表达异常高水平。IE-3启动子的抑制机制既需要Vmw175与DNA结合的能力,也需要在IE-3启动子的帽位点存在Vmw175识别DNA结合序列。在IE-1启动子内也定义了类似的Vmw175 DNA结合序列。本文描述了一种在IE-1 Vmw175 DNA结合位点内具有突变的HSV-1变体的构建。尽管该突变破坏了Vmw175与该位点结合的能力,并在转染试验中大大降低了Vmw175抑制IE-1启动子的能力,但该突变对正常HSV-1感染期间Vmw110的表达水平没有影响。