Inefficient degradation of cyclin B1 re-activates the spindle checkpoint right after sister chromatid disjunction

Linda Clijsters; W. van Zon; B. Ter. Riet; Erik Voets; Michiel Boekhout; Janneke Ogink; C. Rumpf-Kienzl; Rob M. F. Wolthuis

doi:https://doi.org/10.4161/cc.29336

doi.org/10.4161/cc.29336

Inefficient degradation of cyclin B1 re-activates the spindle checkpoint right after sister chromatid disjunction

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..., Rob M. F. Wolthuis

29

Cell Cycle4.30

Volume: 13, Issue: 15, Pages: 2370 - 2378

Published: Jun 17, 2014

Abstract

Sister chromatid separation creates a sudden loss of tension on kinetochores, which could, in principle, re-activate the spindle checkpoint in anaphase. This so-called “anaphase problem” is probably avoided by timely inactivation of cyclin B1-Cdk1, which may prevent the spindle tension sensing Aurora B kinase from destabilizing kinetochore–microtubule interactions as they lose tension in anaphase. However, exactly how spindle checkpoint...

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Paper Details

Title

Inefficient degradation of cyclin B1 re-activates the spindle checkpoint right after sister chromatid disjunction

DOI

doi.org/10.4161/cc.29336

Published Date

Jun 17, 2014

Journal

Cell Cycle

Volume

13

Issue

15

Pages

2370 - 2378

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