Eukaryotic meiosis is a specialized cell cycle of two nuclear divisions that give rise to haploid gametes. The phosphatase Cdc14 is essential for meiosis in the yeast Saccharomyces cerevisiae. Cdc14 is sequestered in the nucleolus, a nuclear domain containing the ribosomal DNA, by its binding partner Net1, and released in two distinct waves, first in early anaphase I, then in anaphase II. Current models posit that the meiosis I release is required for ribosomal DNA disjunction, disassembly of the anaphase spindle, spindle pole re-duplication and counteraction of cyclin-dependent kinase, all of which are essential events. We examined Cdc14 release in net1-6cdk mutant cells, which lack six key Net1 CDK phosphorylation sites. Cdc14 release in early anaphase I was partially inhibited, and disjunction of the rDNA was fully inhibited. Failure to disjoin the rDNA is lethal in mitosis, and we expected the same to be true for meiosis I. However, the cells reliably completed both meiotic divisions to produce four viable spores. Therefore, segregation of the rDNA into all four meiotic products can be postponed until meiosis II without decreasing the fidelity of chromosome inheritance.
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