Regulation of cytomegalovirus late-gene expression: differential use of three start sites in the transcriptional activation of ICP36 gene expression.

We have investigated the transcriptional regulation of the human cytomegalovirus gamma gene encoding the ICP36 family (p52, the major late DNA-binding protein). The ICP36 transcription unit initiates at three distinct sites which are separated by approximately 50 nucleotides and are differentially regulated during infection. At early times (8 h postinfection), only two of these start sites, the most proximal and distal site, were active whereas at late times (36 h postinfection), the middle start site was activated. Expression from this late start site was dependent upon DNA replication. Consensus TATA elements were located upstream of all three start sites, although the element upstream of the late start site was unusual in both sequence and position when compared with conventional TATA elements. Deletion analysis was used in conjunction with transient assays to define independent promoters in this region. The two early start sites and associated TATA elements functioned as separable independently regulated promoters. The region containing the late start site and TATA element but excluding either of the flanking TATA elements was inactive in transient assays. Our work establishes that the ICP36 gene is under complex early and late transcriptional regulation and that the sequences regulating transcriptional activation are temporally and spatially distinct.