DNA damage response (DDR) pathways are initiated to prevent mutations from being passed on in the event of DNA damage. Mutations in DDR proteins can contribute to the development and maintenance of cancer cells, but many mutations observed in human tumors have not been functionally characterized. Because a proper response to DNA damage is fundamental to living organisms, DDR proteins and processes are often highly conserved. The goal of this project was to use Saccharomyces cerevisiae as a model for functional screening of human cancer mutations in conserved DDR proteins. After comparing the cancer mutation frequency and conservation of DDR proteins, Mre11 was selected for functional screening. A subset of mutations in conserved residues was analyzed by structural modeling and screened for functional effects in yeast Mre11. Yeast expressing wild type or mutant Mre11 were then assessed for DNA damage sensitivity using hydroxyurea (HU) and methyl methanesulfonate (MMS). The results were further validated in human cancer cells. The N-terminal point mutations tested in yeast Mre11 do not confer sensitivity to DNA damage sensitivity, suggesting that these residues are dispensable for yeast Mre11 function and may have conserved sequence without conserved function. However, a mutation near the capping domain associated with breast and colorectal cancers compromises Mre11 function in both yeast and human cells. These results provide novel insight into the function of this conserved capping domain residue and demonstrate a framework for yeast-based screening of cancer mutations.
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