Expression of a human cytomegalovirus late gene is posttranscriptionally regulated by a 3'-end-processing event occurring exclusively late after infection.

A phenomenon of posttranscriptional regulation has been previously identified in cytomegalovirus-infected human fibroblast cells (Wathen and Stinski, J. Virol. 41:462, 1982). A region typifying this phenomenon has been located within the large unique component of the viral genome (map units 0.408 to 0.423). Even though this transcriptional unit was highly transcribed at early times after infection, mRNAs from this region were only detectable on the polyribosomes after viral DNA replication. Thus, this region is believed to code for a late gene. Single-strand-specific nuclease mapping experiments of viral transcripts established that the transcriptional initiation sites and the 5' ends of a downstream exon were identical at early and late times. However, the late transcripts differed from the early transcripts by the processing of the 3' end of the viral RNAs. This involved either the removal of a distinct region of the transcript by the selection of an upstream cleavage and polyadenylation site or the differential splicing of the RNA molecule. The upstream cleavage and polyadenylation site was identified by nuclease mapping analyses and DNA sequencing. The 3'-end processing of these transcripts is necessary for the detection of these viral RNAs within the cytoplasm of the infected cell. We propose that human cytomegalovirus either codes for a factor(s) that is involved in the 3'-end-processing event at late times after infection or stimulates the synthesis of a host cell factor(s) involved in this complex regulatory event. This level of regulation may have an influence on the types of cells that permit productive cytomegalovirus replication.