Temperature-sensitive mutations in the gene encoding the small subunit of the vaccinia virus early transcription factor impair promoter binding, transcription activation, and packaging of multiple virion components.

AUTOR(ES)

Li, J

RESUMO

The vaccinia virus D6R open reading frame encodes the small subunit of the heterodimeric vaccinia virus early transcription factor (VETF) that activates transcription of early genes in vitro. VETF binds early gene promoters and has a DNA-dependent ATPase activity that is essential for activation of transcription. To examine the relationship between the structure and function of VETF, we have localized the mutations in two temperature-sensitive viruses whose lesions previously were mapped to the D6R gene. For both mutants, a single G-to-A nucleotide change that would alter protein coding potential was identified. In mutant E93, the codon for alanine 25 was changed to that of threonine, and in mutant S4 the codon for valine 278 was replaced with that for methionine. The molecular phenotype of each mutant was assessed by expressing mutant transcription factors in HeLa cells by using a vaccinia virus-T7 system and characterizing the proteins' activities in vitro. The A25T mutant activated transcription to a lesser extent than wild-type VETF, and the V278M mutant had no demonstrable transcription factor activity. Both mutant proteins were shown to be defective for promoter binding, accounting for their impairment in transcription activation. The functional defects for both mutants were observed at permissive as well as nonpermissive temperatures. The mutant proteins retained ATPase activity but required higher DNA concentrations to activate the ATPase. These results indicate that the small subunit of VETF is essential for its promoter binding activity and likely contacts the promoter DNA. Immunoblotting experiments showed that the virion particles from the two mutant viruses contained about half the VETF of wild-type virus, suggesting that promoter binding may contribute to packaging of VETF into the virion particle. RNA polymerase, mRNA capping enzyme, and nucleoside triphosphate phosphohydrolase I were found at similarly reduced levels in the virion, indicating that packaging of some virion core enzymes may be interdependent.

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