Characterization and nucleotide sequence of two herpes simplex virus 1 genes whose products modulate alpha-trans-inducing factor-dependent activation of alpha genes.

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J Virol. 1987 April; 61(4): 992-1001

Characterization and nucleotide sequence of two herpes simplex virus 1 genes whose products modulate alpha-trans-inducing factor-dependent activation of alpha genes.

J L McKnight, P E Pellett, F J Jenkins and B Roizman

ABSTRACT

Herpes simplex viruses encode a structural protein which induces,in trans, expression of alpha genes, the first set of genesto be expressed after infection of permissive cells. This protein,designated as the alpha-trans-inducing factor (alpha-TIF), mapswithin the BamHI F fragment, and its gene has been sequenced.In the course of mapping the domain of the alpha-TIF gene, itwas noted that the intact BamHI fragment was consistently moreeffective than the complete domain of the alpha-TIF gene ininducing expression of alpha genes. Cotransfections of DNA fragmentscontaining an alpha indicator gene and the alpha-TIF gene withvarious regions of the BamHI F DNA fragment revealed that thesequences located 3' to the alpha-TIF gene raised the activityof the alpha-TIF gene to nearly the same level as that of theintact BamHI F fragment. The nucleotide sequence and S1 nucleasemapping analyses revealed the presence of two transcribed openreading frames capable of encoding polypeptides with translatedmolecular weights of 77,357 and 70,527. To determine whetherthe effect of these sequences in trans on alpha-TIF-mediatedinduction of alpha genes was due to expression of these genesor competition for transcriptional factors, we constructed plasmidsthat contained both genes. Into each or both of these geneswe inserted, near the translation initiation sites, 14-base-pairlinkers carrying translational stop codons (TAG) in all threereading frames. Analyses of these plasmids indicated that thegene encoding the 70,527-molecular-weight polypeptide reducedalpha-TIF-dependent induction of alpha genes, whereas the geneencoding the 77,357-molecular-weight polypeptide increased thisactivity. Insertion of the stop codons abolished these activities.

J Virol. 1987 April; 61(4): 992-1001

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