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Balanced activity of three mitotic motors is required for bipolar spindle assembly and chromosome segregation.

Roy G H P van Heesbeen ,
Marvin E Tanenbaum ,
René H Medema

Abstract

Bipolar spindle assembly requires force to organize the microtubule network. Here, we show that three motor proteins, namely Eg5, Kif15, and dynein, act together to produce the right force balance in the spindle. Excessive inward force results in monopolar spindle formation, while excessive outward force generation results in unstable spindles with splayed spindle poles. Blocking activity of all three motors prevents bipolar spindle formation, but established bipolar spindles are refractory to loss of all motor activity. Further analysis shows that although these preformed spindles remain bipolar, outward force generation is required to establish sufficient tension on kinetochores and to accomplish successful chromosome segregation. Together, these results show how Eg5, Kif15, and dynein work together to build a bipolar spindle and reveal an important role for antagonistic motors in chromosome segregation.

More about this publication

Cell reports

Volume 8
Issue nr. 4
Pages 948-56
Publication date 21-08-2014

Full text links

Publisher website (DOI) 10.1016/j.celrep.2014.07.015
Europe PubMed Central 25127142
Pubmed 25127142

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