Abstract

This is a proposal to continue studies of eukaryotic ribosomal RNA transcription initiation and regulation. RNA polymerase I (pol I) transcribes this gene. The rRNA gene of the eukaryotic organism being studied, Acanthamoeba, has properties making it especially good for the biochemical studies proposed; properties no other pol I system currently exhibits. In particular, the unusual stability of the complex between its core promoter and transcription factor allow analysis by techniques not available in other systems. Recent findings lead logically into this proposal. The entire rRNA intergenic spacer was sequenced, pol I enhancers were identified, and shown to bind a vertebrate UBF homolog. The TATA-binding protein (TBP)- containing initiation factor (TIF-IB) was purified to homogeneity, its subunits (TAFIS) identified, and TBP's distinctive role in pol I transcription revealed. NTP beta-gamma hydrolysis was shown not to be needed for initiation, and the DNA melting process by pol I was examined in detail. Site-direct photocross-linking of TIF-IB and pol I to promoter DNA resulted in mapping the topology of TAFIS and TBP on the rRNA promoter. Coupled with STEM pictures, this study has given insights into the activated promoter complex never before detailed, and gave significant insights into how pol I promoters function. Regulatory studies implicated the pol alpha subunit homolog (AC39) in regulation, and inroads into its cloning and sequencing were made. Funds are now requested to attain the following aims: (A) Protein-protein and protein- DNA interaction will further detailed using new sophisticated photoaffinity probes, heterobifunctionals cross-linking agents, and high resolution STEM. (B) The role, if any, of several potential additional transcription factors which influence rRNA transcription will be evaluated. These include a Ku-like factor and a factor required for stable complex formation on the core promoter. (C) The regulatory mechanism of rRNA transcription will be investigated, placing emphasis on the chemical events resulting in the inactivity of pol I purified from transcriptionally inactive cells. Investigation of the known modification of the AC39 subunits, and its role in regulation, will be a particular aim. (D) Genes for the TAFIS and key pol I subunits will be cloned. (E) A method for transient and stable transformation of Acanthamoeba will be developed.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM022580-23
Application #
2857074
Study Section
Molecular Biology Study Section (MBY)
Program Officer
Tompkins, Laurie
Project Start
1979-04-01
Project End
2000-12-14
Budget Start
1999-01-01
Budget End
2000-12-14
Support Year
23
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
Colorado State University-Fort Collins
Department
Biochemistry
Type
Schools of Arts and Sciences
DUNS #
112617480
City
Fort Collins
State
CO
Country
United States
Zip Code
80523

  Publications

Gogain, Joseph C; Paule, Marvin R (2005) The association of TIF-IA and polymerase I mediates promoter recruitment and regulation of ribosomal RNA transcription in Acanthamoeba castellanii. Gene Expr 12:259-71
Robinson, M M; Yatherajam, G; Ranallo, R T et al. (2005) Mapping and functional characterization of the TAF11 interaction with TFIIA. Mol Cell Biol 25:945-57
Bric, Anka; Radebaugh, Catherine A; Paule, Marvin R (2004) Photocross-linking of the RNA polymerase I preinitiation and immediate postinitiation complexes: implications for promoter recruitment. J Biol Chem 279:31259-67
Georgel, Philippe T; Robert, Charles H (2002) Differential core histone binding behavior: RNA polymerase I promoter region vs 5S rDNA positioning DNA sequences. Cell Biochem Biophys 37:1-13
Al-Khouri, Anna Maria; Paule, Marvin R (2002) A novel RNA polymerase I transcription initiation factor, TIF-IE, commits rRNA genes by interaction with TIF-IB, not by DNA binding. Mol Cell Biol 22:750-61
Polakowski, Nicholas; Paule, Marvin R (2002) Purification and characterization of transcription factor IIIA from Acanthamoeba castellanii. Nucleic Acids Res 30:1977-84
Slodzinski, M K; Blaustein, M P (1998) Physiological effects of Na+/Ca2+ exchanger knockdown by antisense oligodeoxynucleotides in arterial myocytes. Am J Physiol 275:C251-9
Radebaugh, C A; Kubaska, W M; Hoffman, L H et al. (1998) A novel transcription initiation factor (TIF), TIF-IE, is required for homogeneous Acanthamoeba castellanii TIF-IB (SL1) to form a committed complex. J Biol Chem 273:27708-15
Geiss, G K; Radebaugh, C A; Paule, M R (1997) The fundamental ribosomal RNA transcription initiation factor-IB (TIF-IB, SL1, factor D) binds to the rRNA core promoter primarily by minor groove contacts. J Biol Chem 272:29243-54
Gong, X; Radebaugh, C A; Geiss, G K et al. (1995) Site-directed photo-cross-linking of rRNA transcription initiation complexes. Mol Cell Biol 15:4956-63

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