14-3-3 Protein Homologs Required for the DNA Damage Checkpoint in Fission Yeast
Jon C. Ford(Brighton and Sussex Medical School), Fahad Al‐Khodairy(Brighton and Sussex Medical School), Eleftheria Fotou(Brighton and Sussex Medical School), Katherine S. Sheldrick(Brighton and Sussex Medical School), Dominic J. F. Griffiths(Brighton and Sussex Medical School), Antony M. Carr(Brighton and Sussex Medical School)
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Abstract
During the cell cycle, DNA is replicated and segregated equally into two daughter cells. The DNA damage checkpoint ensures that DNA damage is repaired before mitosis is attempted. Genetic studies of the fission yeast Schizosaccharomyces pombe have identified two genes, rad24 and rad25, that are required for this checkpoint. These genes encode 14-3-3 protein homologs that together provide a function that is essential for cell proliferation. In addition, S. pombe rad24 null mutants, and to a lesser extent rad25 null mutants, enter mitosis prematurely, which indicates that 14-3-3 proteins have a role in determining the timing of mitosis.
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