Abstract
Mammalian centromeres are embedded within heterochromatin, a specialized chromatin assembled onto repetitive DNA that forms the primary constriction of chromosomes. In early mitosis, the bulk of cohesin dissociates from chromosomes, but a small fraction is spared at the centromere providing the ultimate linker between sister chromatid pairs, essential for their proper attachment to the mitotic spindle. Whether heterochromatin plays a role in the protection of centromere cohesion has long been controversial. In this issue of EMBO Reports , Yi et al show that heterochromatin protein 1 (HP1) isoforms α and γ act redundantly to protect mitotic centromere cohesion through the recruitment of the cohesion protector Haspin [1].
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