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Your Environment. Your Health.

DNA REPAIR GENES AND PROTEINS OF THE RAD52 GROUP

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Principal Investigator: Sung, Patrick
Institute Receiving Award University Of Texas Hlth Science Center
Location San Antonio, TX
Grant Number R01ES007061
Funding Organization National Institute of Environmental Health Sciences
Award Funding Period 01 Apr 2019 to 31 May 2021
DESCRIPTION (provided by applicant):  : Studies in the model eukaryote Saccharomyces cerevisiae have revealed that homologous recombination (HR) provides a major mechanism for eliminating DNA double-stranded breaks (DSBs) induced by ionizing radiation or are associated with injured DNA replication forks. During the repair process, the ends of the DNA breaks are resected nucleolytically to yield 3' ssDNA tails, which are bound by HR factors. The nucleoprotein complex thus formed then conducts a search to locate an undamaged DNA homolog, and catalyzes the formation of a DNA joint, called D-loop, with the homolog. Resolution of the D-loop can proceed via at least three mechanistically distinct pathways, two of which generate only non-crossover recombinants and are therefore more adept at genome preservation, with the remaining pathway being able to produce crossovers frequently. Proteins encoded by evolutionarily conserved genes of the RAD52 epistasis group catalyze the HR reaction. Our studies have provided insights into the mechanistic underpinnings of the HR machinery that harbors proteins of this gene group. In this renewal project, a combination of biochemical, genetic, and other cell-based approaches will be employed to (i) define the mechanism of action of the DNA motor-driven path of DSB end resection and its functional crosstalk with Exo1-mediated resection in both yeast and human cells, and (ii) delineate the roles that the conserved Rad51 paralogs fulfill in the assembly of Rad51-ssDNA nucleoprotein filaments. The results from our endeavors will allow us to formulate detailed models to elucidate HR mechanisms in eukaryotes. Given the importance of HR-mediated chromosome damage repair in tumor suppression, our work also has direct, strong relevance to cancer biology.
Science Code(s)/Area of Science(s) Primary: 09 - Genome Integrity
Publications See publications associated with this Grant.
Program Officer Kimberly Mcallister
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