Kobayashi Y, Saitoh S, Ogiyama Y, Soejima S, Takahashi K

Spindle assembly checkpoint (SAC) is an evolutionarily conserved surveillance system for chromosome missegregation. We isolated fission yeast Hos2, a component of the Dam1/DASH complex, as a multicopy suppressor of temperature-sensitive (ts) growth of nnf1-495 mutant that exhibits the minichromosome instability (mis) phenotype, producing lethal aneuploids without prominent mitotic delay. It ...

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remains elusive why SAC is satisfied in mis mutants despite the occurrence of missegregation. We found that Hos2 binds to the inner-kinetochore regions in both prometaphase and metaphase. Hos2 is essential for kinetochore localization of Dis1, a microtubule (MT) associated Dis1/XMAP215/TOG family protein that is required for proper MT dynamics. Cells lacking DASH exhibit cold-sensitive (cs) growth with the defective in sister-chromatid disjoining (dis) phenotype, which is characterized by hyper-condensed sister-chromatid pairs and elongated spindle MTs. Although DASH-deficient cells are viable at high temperatures, DASH-deletion transforms all the inner-kinetochore mis mutants so far tested into a constitutively active state of SAC, leading to the dis phenotype. We also discovered that Hos2 over-expression commonly suppresses growth retardation in a variety of inner-kinetochore mutants. These genetic interactions highlight the DASH-action(s) in satisfying SAC when aneuploids are formed during mitosis in the inner-kinetochore-defective mis mutants.

Date: Mar. 01, 2007

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