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Premature sister chromatid separation is poorly detected by the spindle assembly checkpoint as a result of system-level feedback

Abstract:
Sister chromatid cohesion, mediated by the cohesin complex, is essential for faithful mitosis. Nevertheless, evidence suggests that the surveillance mechanism that governs mitotic fidelity, the spindle assembly checkpoint (SAC), is not robust enough to halt cell division when cohesion loss occurs prematurely. The mechanism behind this poor response is not properly understood. Using developing Drosophila brains, we show that full sister chromatid separation elicits a weak checkpoint response resulting in abnormal mitotic exit after a short delay. Quantitative live-cell imaging approaches combined with mathematical modeling indicate that weak SAC activation upon cohesion loss is caused by weak signal generation. This is further attenuated by several feedback loops in the mitotic signaling network. We propose that multiple feedback loops involving cyclin-dependent kinase 1 (Cdk1) gradually impair error-correction efficiency and accelerate mitotic exit upon premature loss of cohesion. Our findings explain how cohesion defects may escape SAC surveillance.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1016/j.celrep.2015.09.020

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Institution:
University of Oxford
Division:
MSD
Department:
Biochemistry
Role:
Author
More by this author
Institution:
University of Oxford
Division:
MSD
Department:
Biochemistry
Role:
Author


Publisher:
Cell Press
Journal:
Cell Reports More from this journal
Volume:
13
Issue:
3
Pages:
469–478
Publication date:
2015-10-01
DOI:
ISSN:
2211-1247


Pubs id:
pubs:575156
UUID:
uuid:12e3cdbf-d416-4006-867e-792a0c1d5cb1
Local pid:
pubs:575156
Source identifiers:
575156
Deposit date:
2015-11-25
ARK identifier:

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