Au WC, Crisp MJ, DeLuca SZ, Rando OJ, Basrai MA

Cse4p is an essential histone H3 variant in Saccharomyces cerevisiae that defines centromere identity and is required for proper segregation of chromosomes. In this study, we investigated phenotypic consequences of Cse4p mislocalization and increased dosage of histone H3 and Cse4p, and established a direct link between histone stoichiometry, mislocalization of ...

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Cse4p, and chromosome segregation. Overexpression of the stable Cse4p mutant, cse4(K16R), resulted in its mislocalization, increased association with chromatin, and a high rate of chromosome loss, all of which were suppressed by constitutive expression of histone H3 (delta 16H3). We determined that delta 16H3 did not lead to increased chromosome loss; however, increasing the dosage of histone H3 (GALH3) resulted in significant chromosome loss due to reduced levels of centromere (CEN)-associated Cse4p and synthetic dosage lethality (SDL) in kinetochore mutants. These phenotypes were suppressed by GALCSE4. We conclude that the chromosome missegregation of GALcse4(K16R) and GALH3 strains is due to mislocalization and a functionally compromised kinetochore, respectively. Suppression of these phenotypes by histone delta 16H3 and GALCSE4 supports the conclusion that proper stoichiometry affects the localization of histone H3 and Cse4p and is thus essential for accurate chromosome segregation.

Date: May. 01, 2008

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