Delineation of regulatory domains of early (beta) and late (gamma 2) genes by construction of chimeric genes expressed in herpes simplex virus 1 genomes.

The expression of the gamma 2 class of viral genes in cells infected with herpes simplex virus 1 requires viral DNA synthesis and functional viral products made earlier in infection. To identify the sequences required for gamma 2 gene expression, we constructed recombinant viruses in which regions of the thymidine kinase gene (tk), a beta gene normally expressed early in infection, were replaced by specific domains of a gamma 2 gene. The phenotypic attributes examined were (i) sensitivity or resistance of expression in cells exposed to sufficient phosphonoacetate to block viral DNA synthesis, properties of gamma 2 and beta genes, respectively; (ii) expression early in infection, a property of beta genes; and (iii) expression late in infection, a property of gamma 2 genes. We report that replacement of nucleotides -200 to +51 of tk with nucleotides -77 to +104 of the gamma 2 gene conferred upon tk all of the tested attributes of gamma 2 genes. The tk sequence in the 5' transcribed noncoding domain downstream of nucleotide +51 played no apparent role in the expression of the chimeric genes. Similarly, tk sequence downstream of -16 and gamma 2 sequence upstream of -12, when juxtaposed in correct orientations, yielded a chimeric gene that was poorly expressed. In contrast, the chimeric gene consisting of tk sequence upstream of -16 fused to gamma 2 sequence downstream of -12 had the attributes of both beta and gamma 2 genes in that it was expressed both early and late in infection and was partially resistant to phosphonoacetate. The capacity for expression late in infection encoded in the gamma 2 5' transcribed noncoding domain was observed in cells infected with a recombinant virus in which gamma 2 nucleotides +17 to +104 were inserted into the 5' transcribed noncoding domain of the tk gene. We conclude that whereas in the beta genes exemplified by the tk gene the regulatory domains are mainly upstream from nucleotide +51, the sequence(s) that confers gamma 2 regulation is downstream from the TATAA box.