The mcm2-1 mutation of yeast causes DNA damage with a RAD9 requirement for repair

Abstract

The minichromosome maintenance mutation, mcm2-1, has been found to synthesize damaged DNA at 35°C. Growth at this temperature rendered the mutant strain more sensitive to killing by ultraviolet irradiation. DNA damage could also be detected by pulsed-field gel electrophoresis, where a higher fraction of the DNA loaded was retained in the inserts at the wells. During the exponential phase of growth at this temperature about 50% of the cells had large buds, with the nucleus at or near the neck of the bud in most cases. The incorporation of the rad9 deletion in the mcm2-1-carrying strain caused a reduction in the percentage of large-budded cells and a moderate loss of cell viability. The results are consistent with mcm2-1 causing DNA damage leading to the arrest of cells in the S/G₂ phase of the cell cycle, which was partially dependent on the RAD9 gene product.