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Kinesin 5-independent poleward flux of kinetochore microtubules in PtK1 cells.


ABSTRACT: Forces in the spindle that align and segregate chromosomes produce a steady poleward flux of kinetochore microtubules (MTs [kMTs]) in higher eukaryotes. In several nonmammalian systems, flux is driven by the tetrameric kinesin Eg5 (kinesin 5), which slides antiparallel MTs toward their minus ends. However, we find that the inhibition of kinesin 5 in mammalian cultured cells (PtK1) results in only minor reduction in the rate of kMT flux from approximately 0.7 to approximately 0.5 microm/min, the same rate measured in monopolar spindles that lack antiparallel MTs. These data reveal that the majority of poleward flux of kMTs in these cells is not driven by Eg5. Instead, we favor a polar "pulling-in" mechanism in which a depolymerase localized at kinetochore fiber minus ends makes a major contribution to poleward flux. One candidate, Kif2a (kinesin 13), was detected at minus ends of fluxing kinetochore fibers. Kif2a remains associated with the ends of K fibers upon disruption of the spindle by dynein/dynactin inhibition, and these K fibers flux.

SUBMITTER: Cameron LA 

PROVIDER: S-EPMC2063808 | biostudies-other | 2006 Apr

REPOSITORIES: biostudies-other

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Kinesin 5-independent poleward flux of kinetochore microtubules in PtK1 cells.

Cameron Lisa A LA   Yang Ge G   Cimini Daniela D   Canman Julie C JC   Kisurina-Evgenieva Olga O   Khodjakov Alexey A   Danuser Gaudenz G   Salmon E D ED  

The Journal of cell biology 20060401 2


Forces in the spindle that align and segregate chromosomes produce a steady poleward flux of kinetochore microtubules (MTs [kMTs]) in higher eukaryotes. In several nonmammalian systems, flux is driven by the tetrameric kinesin Eg5 (kinesin 5), which slides antiparallel MTs toward their minus ends. However, we find that the inhibition of kinesin 5 in mammalian cultured cells (PtK1) results in only minor reduction in the rate of kMT flux from approximately 0.7 to approximately 0.5 microm/min, the  ...[more]

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