The biosynthesis of early viral mRNA in vaccinia virus (VV)-infected cells is catalyzed by enzymes most of which are not only encoded in the viral genome but also contained within the core of the virus. The availability of these enzymes and their corresponding genes makes the reactions of VV transcription, mRNA processing, and their control, uniquely accessible to study by genetic and enzymological approaches. In this proposal, we have focussed on the VV thymidine kinase (tk) gene, with the aim of understanding the molecular interactions that are involved in its expression and control. We have found that cloned VV genes that are introduced by calcium phosphate coprecipitation into VV-infected cells can be efficiently expressed from within their recombinant plasmids, and we propose to use this system to examine the nucleotide sequences and DNA template structure that are necessary for transcription of the VV tk gene. The functional elements within the tk promoter and the tk mRNA termination/cleavage and polyadenylation sites will be defined by deletion and localized mutagenesis, and the topology of the active templates within the transfected cells will be determined. We will attempt to establish a cell-free system in which purified VV RNA polymerase accurately initiates transcription of the isolated tk gene, and use this system to examine in detail the VV polymerase-promoter interaction. In order to understand the regulation of VV gene expression at the molecular level, we will examine the mechanisms of the transcriptional and translational repressions of the tk gene that occur late in infection. In other studies, the VV tk gene will be expressed from a prokaryotic promoter in tk- E. coli, so that wa may use bacterial genetics to select and characterize nonsense mutants of this gene. Such mutations will be reintroduced into VV to create viable nonsense mutant viruses for the study of nonsense suppression in animal cells. Finally, we will use the tk locus as a selectable site for the insertion and expression of heterologous genes from some cytoplasmically replicating RNA viruses such as poliovirus and respiratory syncytial virus.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI018270-06
Application #
3127787
Study Section
Experimental Virology Study Section (EVR)
Project Start
1981-08-01
Project End
1987-07-31
Budget Start
1986-08-01
Budget End
1987-07-31
Support Year
6
Fiscal Year
1986
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Type
Graduate Schools
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Price, B Duane; Eckerle, Lance D; Ball, L Andrew et al. (2005) Nodamura virus RNA replication in Saccharomyces cerevisiae: heterologous gene expression allows replication-dependent colony formation. J Virol 79:495-502
Novella, Isabel S; Ball, L Andrew; Wertz, Gail W (2004) Fitness analyses of vesicular stomatitis strains with rearranged genomes reveal replicative disadvantages. J Virol 78:9837-41
Johnson, Karyn N; Tang, Liang; Johnson, John E et al. (2004) Heterologous RNA encapsidated in Pariacoto virus-like particles forms a dodecahedral cage similar to genomic RNA in wild-type virions. J Virol 78:11371-8
Johnson, Kyle L; Price, B Duane; Eckerle, Lance D et al. (2004) Nodamura virus nonstructural protein B2 can enhance viral RNA accumulation in both mammalian and insect cells. J Virol 78:6698-704
Pringle, Fiona M; Johnson, Karyn N; Goodman, Cynthia L et al. (2003) Providence virus: a new member of the Tetraviridae that infects cultured insect cells. Virology 306:359-70
Albarino, Cesar G; Eckerle, Lance D; Ball, L Andrew (2003) The cis-acting replication signal at the 3' end of Flock House virus RNA2 is RNA3-dependent. Virology 311:181-91
Johnson, Kyle L; Price, B Duane; Ball, L Andrew (2003) Recovery of infectivity from cDNA clones of nodamura virus and identification of small nonstructural proteins. Virology 305:436-51
Eckerle, Lance D; Albarino, Cesar G; Ball, L Andrew (2003) Flock House virus subgenomic RNA3 is replicated and its replication correlates with transactivation of RNA2. Virology 317:95-108
Johnson, Karyn N; Ball, L Andrew (2003) Virions of Pariacoto virus contain a minor protein translated from the second AUG codon of the capsid protein open reading frame. J Gen Virol 84:2847-52
Eckerle, Lance D; Ball, L Andrew (2002) Replication of the RNA segments of a bipartite viral genome is coordinated by a transactivating subgenomic RNA. Virology 296:165-76

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