The DNA tumor virus, SV40, has been an invaluable tool for studying molecular aspects of eukaryotic gene regulation, DNA replication, and viral oncogenesis. A major focus on the structure, function and regulated expression of the SV40 large T antigen has already revealed an unusually large number of important findings concerning viral and cellular processes. Thus far, our studies have been largely directed at understanding the structure and function of this interesting multi-functional regulatory protein. For example, a careful and systematic study of T antigen has provided insights into the mechanism of repression and autoregulation, initiation of viral DNA synthesis, viral coded enzymatic activities, sequence-specific protein-DNA interactions, and virally-induced oncogenesis. In this grant renewal, we turn our attention to a concerted and systematic effort at investigating how T antigen expression is regulated by the interplay of viral and cellular trans-activating factors. In addition, we will continue to use SV40 as a model to study complex regulatory processes occurring in the cells, such as transcription. At the same time, we hope to compare the mechanisms mediating expression of several other viral and cellular genes related to SV40 T antigen by the occurrence of common regulatory networks. A major effort will be devoted to identifying, purifying and characterizing various trans-activating cellular factors such as transcription factor Sp1, TATA binding factor (TBF), CAAT transcription factor (CTF), and enhancer binding protein (EBP), that are known to be involved with transcription in eukaryotic cells. Many of these transcription factors have been identified by biochemical fractionation and in vitro transcription studies of SV40, which revealed that they are DNA binding proteins. Thus, the methods that we have already developed for T antigen DNA binding experiments can now be applied to dissect the nature and specificity of the protein-DNA interactions for Sp1, TBF, CTF, and EBP. We will also raise antibodies directed against these proteins and attempt cloning of the genes encoding these factors. The antibodies and molecular clones will be used to help us unravel the mechanism of action and define potential protein- protein interactions that mediate transcriptional specificity. In addition, we plan to continue our studies of the SV40 large T antigen protein by devising large-scale isolation procedures, and attempting to crystallize and carry out X-ray diffraction studies of this virally-encoded protein. Finally, we will make use of in vitro DNA replication reactions to investigate the role of T antigen in triggering SV40-DNA replication and as a regulator of transcription.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37CA025417-11
Application #
3482023
Study Section
Experimental Virology Study Section (EVR)
Project Start
1979-04-01
Project End
1992-03-31
Budget Start
1989-04-01
Budget End
1990-03-31
Support Year
11
Fiscal Year
1989
Total Cost
Indirect Cost
Name
University of California Berkeley
Department
Type
Schools of Arts and Sciences
DUNS #
094878337
City
Berkeley
State
CA
Country
United States
Zip Code
94704
Levine, Michael; Cattoglio, Claudia; Tjian, Robert (2014) Looping back to leap forward: transcription enters a new era. Cell 157:13-25
Zhou, Haiying; Kaplan, Tommy; Li, Yan et al. (2013) Dual functions of TAF7L in adipocyte differentiation. Elife 2:e00170
Guglielmi, Benjamin; La Rochelle, Natalie; Tjian, Robert (2013) Gene-specific transcriptional mechanisms at the histone gene cluster revealed by single-cell imaging. Mol Cell 51:480-92
Fong, Yick W; Cattoglio, Claudia; Tjian, Robert (2013) The intertwined roles of transcription and repair proteins. Mol Cell 52:291-302
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Fong, Yick W; Inouye, Carla; Yamaguchi, Teppei et al. (2011) A DNA repair complex functions as an Oct4/Sox2 coactivator in embryonic stem cells. Cell 147:120-31

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