Author: ["Raquel A. Oliveira","Russell S. Hamilton","Andrea Pauli","Ilan Davis","Kim Nasmyth"]
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Abstract
Whether cohesion-independent forces hold chromosomes together in metaphase is a debated issue. Artificial cleavage of cohesin is sufficient to induce chromosome disjunction in Drosophila syncytical embryos but cdk1 inactivation is required for normal subsequent chromosome separation. The metaphase–anaphase transition is orchestrated through proteolysis of numerous proteins by a ubiquitin protein ligase called the anaphase-promoting complex or cyclosome (APC/C)1. A crucial aspect of this process is sister chromatid separation, which is thought to be mediated by separase, a thiol protease activated by the APC/C. Separase cleaves cohesin, a ring-shaped complex that entraps sister DNAs2,3. It is a matter of debate whether cohesin-independent forces also contribute to sister chromatid cohesion4,5,6. Using 4D live-cell imaging of Drosophila melanogaster syncytial embryos blocked in metaphase (via APC/C inhibition), we show that artificial cohesin cleavage7 is sufficient to trigger chromosome disjunction. This is nevertheless insufficient for correct chromosome segregation. Kinetochore–microtubule attachments are rapidly destabilized by the loss of tension caused by cohesin cleavage in the presence of high Cdk1 (cyclin-dependent kinase 1) activity, as occurs when the APC/C cannot destroy mitotic cyclins. Metaphase chromosomes undergo a bona fide anaphase when cohesin cleavage is combined with Cdk1 inhibition. We conclude that only two key events, opening of cohesin rings and downregulation of Cdk1, are sufficient to drive proper segregation of chromosomes in anaphase.Cite this article
Oliveira, R., Hamilton, R., Pauli, A. et al. Cohesin cleavage and Cdk inhibition trigger formation of daughter nuclei. Nat Cell Biol 12, 185–192 (2010). https://doi.org/10.1038/ncb2018 