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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Transcriptional regulation and chromatin remodeling mechanisms at PHO5

Carvin, Christopher Dumas 29 August 2005 (has links)
Regulation of gene expression is vital for proper growth and prevention of disease states. In eukaryotes this regulation occurs in the context of chromatin which creates an inherent barrier for the binding of trans-acting factors, such as transcription factors and RNA polymerase. This dissertation focuses on the role of transcriptional activators and chromatin remodeling coactivators in the regulation of the repressible acid phosphatase gene PHO5. Our studies show that histone methylation at lysine 4 of histone H3 is required for the full repression of PHO5and GAL1-10. We show that bromodomains, a domain conserved in chromatin remodeling coactivators, may function to stabilize binding. Finally, we present a strategy using DNA methyltransferases as in vivo probes to detect DNA-protein interactions and examine chromatin structure. We extend this strategy to zinc-finger proteins which can be engineered to bind to any desired DNA sequence as a means of targeting methylation with potential use in epigenetic silencing.
2

Chromatin dynamics at the Saccharomyces cerevisiae PHO5 promoter

Jessen, Walter Joseph 12 April 2006 (has links)
In eukaryotes, the organization of DNA into chromatin is a primary determinant of gene expression. Positioned nucleosomes in promoter regions are frequently found to regulate gene expression by obstructing the accessibility of cis-regulatory elements in DNA to trans-factors. This dissertation focuses on the chromatin structure and remodeling program at the S. cerevisiae PHO5 promoter, extending the use of DNA methyltransferases as in vivo probes of chromatin structure. Our studies address the diversity of histone-DNA interactions in vivo by examining nucleosome conformational stabilities at the PHO5 promoter. We present high-resolution chromatin structural mapping of the promoter, required to relate in vivo site accessibility to nucleosome stability and show that the PHO5 promoter nucleosomes have different accessibilities. We show a correlation between DNA curvature and nucleosome positioning, which is consistent with the observed differences in accessibility/stability. Kinetic analyses of the chromatin remodeling program at PHO5 show that nucleosomes proximal to the enhancer are disrupted preferentially and prior to those more distal, demonstrating bidirectional and finite propagation of chromatin remodeling from bound activators and providing a novel mechanism by which transactivation at a distance occurs.
3

Transcriptional regulation and chromatin remodeling mechanisms at PHO5

Carvin, Christopher Dumas 29 August 2005 (has links)
Regulation of gene expression is vital for proper growth and prevention of disease states. In eukaryotes this regulation occurs in the context of chromatin which creates an inherent barrier for the binding of trans-acting factors, such as transcription factors and RNA polymerase. This dissertation focuses on the role of transcriptional activators and chromatin remodeling coactivators in the regulation of the repressible acid phosphatase gene PHO5. Our studies show that histone methylation at lysine 4 of histone H3 is required for the full repression of PHO5and GAL1-10. We show that bromodomains, a domain conserved in chromatin remodeling coactivators, may function to stabilize binding. Finally, we present a strategy using DNA methyltransferases as in vivo probes to detect DNA-protein interactions and examine chromatin structure. We extend this strategy to zinc-finger proteins which can be engineered to bind to any desired DNA sequence as a means of targeting methylation with potential use in epigenetic silencing.
4

Chromatin dynamics at the Saccharomyces cerevisiae PHO5 promoter

Jessen, Walter Joseph 12 April 2006 (has links)
In eukaryotes, the organization of DNA into chromatin is a primary determinant of gene expression. Positioned nucleosomes in promoter regions are frequently found to regulate gene expression by obstructing the accessibility of cis-regulatory elements in DNA to trans-factors. This dissertation focuses on the chromatin structure and remodeling program at the S. cerevisiae PHO5 promoter, extending the use of DNA methyltransferases as in vivo probes of chromatin structure. Our studies address the diversity of histone-DNA interactions in vivo by examining nucleosome conformational stabilities at the PHO5 promoter. We present high-resolution chromatin structural mapping of the promoter, required to relate in vivo site accessibility to nucleosome stability and show that the PHO5 promoter nucleosomes have different accessibilities. We show a correlation between DNA curvature and nucleosome positioning, which is consistent with the observed differences in accessibility/stability. Kinetic analyses of the chromatin remodeling program at PHO5 show that nucleosomes proximal to the enhancer are disrupted preferentially and prior to those more distal, demonstrating bidirectional and finite propagation of chromatin remodeling from bound activators and providing a novel mechanism by which transactivation at a distance occurs.
5

Interplay between promoter occupancy and chromatin remodeling requirements in transactivation of the S.cerevisiae PHO5 gene

Dhasarathy, Archana 12 April 2006 (has links)
In higher eukaryotes, DNA is packaged with histones and other proteins into chromatin. While this is important in the control of unwanted gene expression, chromatin also serves as a barrier to many vital functions in the cell. Therefore, cells have evolved many different types of chromatin remodeling enzymes to contend with this inhibitory structure and enable gene expression and other functions. The Saccharomyces cerevisiae PHO5 gene is triggered in response to phosphate starvation. In this study, I evaluate the chromatin remodeling requirements of this gene with respect to the multisubunit complexes SWI/SNF and SAGA. I show, for the first time, physical recruitment of SWI/SNF to the PHO5 promoter. I also demonstrate the role of promoter occupancy in influencing requirements for chromatin remodeling enzymes. Further, I describe various interactions between these two complexes at the PHO5 promoter. This study presents evidence for the first instance of excess recruitment of an ATP-dependent remodeler potentially compensating for the lack of a histone acetyltransferase.

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