Maxfield L F, Spector D J
Department of Microbiology and Immunology, College of Medicine, Pennsylvania State University, Hershey 17033, USA.
J Virol. 1997 Nov;71(11):8321-9. doi: 10.1128/JVI.71.11.8321-8329.1997.
In cells productively infected with adenovirus type 5, transcription is not terminated between the E1a gene and the adjacent downstream E1b gene. Insertion of the mouse beta(maj)-globin transcription termination sequence (GGT) into the E1a coding region dramatically reduces early, but not late, E1b expression (E. Falck-Pedersen, J. Logan, T. Shenk, and J. E. Darnell, Jr., Cell 40:897-905, 1985). In the study described herein, we showed that base substitution mutations in the globin DNA that specifically relieved transcription termination also restored early E1b promoter activity in cis, establishing that maximal early E1b expression requires readthrough transcription originating from the adjacent upstream gene. To identify potential targets of readthrough activation, a series of recombinant viruses with double mutations was constructed. Each double-mutant virus strain had the transcription termination sequences in the first exon of E1a and a deletion within the transcription control region of E1b. Early E1b expression from the double-mutant strains was more defective than that from strains containing either mutation alone, indicating that the deleted regions (positions -362 to -35) are not the target for readthrough activation. Two findings suggested that a cis-dominant property of early viral templates is important for readthrough activation. First, the early E1b defect caused by the GGT insertion was not complemented in trans by factors present in late-infected cells. Second, restoration of E1b transcription at late times occurred concurrently with viral DNA replication. Readthrough activation may help convert virion DNA into a transcriptionally competent template prior to DNA replication and late transcription.
在被5型腺病毒有效感染的细胞中,转录不会在E1a基因和相邻的下游E1b基因之间终止。将小鼠β(maj)-珠蛋白转录终止序列(GGT)插入E1a编码区可显著降低早期E1b的表达,但不影响晚期E1b的表达(E. Falck-Pedersen、J. Logan、T. Shenk和J. E. Darnell, Jr.,《细胞》40:897 - 905, 1985)。在本文所述的研究中,我们表明,珠蛋白DNA中特异性解除转录终止的碱基替代突变也能在顺式作用下恢复早期E1b启动子活性,这表明E1b早期最大表达需要来自相邻上游基因的通读转录。为了确定通读激活的潜在靶点,构建了一系列具有双重突变的重组病毒。每个双突变病毒株在E1a的第一个外显子中有转录终止序列,并且在E1b的转录控制区内有一个缺失。双突变株的早期E1b表达比单独含有任何一种突变的株系更有缺陷,这表明缺失区域(位置-362至-35)不是通读激活的靶点。两项发现表明早期病毒模板的顺式显性特性对通读激活很重要。第一,由GGT插入引起的早期E1b缺陷不能被晚期感染细胞中存在的因子反式互补。第二,E1b转录在晚期的恢复与病毒DNA复制同时发生。通读激活可能有助于在DNA复制和晚期转录之前将病毒粒子DNA转化为转录活性模板。