In all eukaryotic cells, molecular motor proteins play essential roles in spindle assembly and function. The homotetrameric kinesin-5 motors in particular generate outward forces that establish and maintain spindle bipolarity and contribute to microtubule flux. Cell cycle dependent phosphorylation of kinesin-5 motors regulates their localization to the mitotic spindle. Analysis of live cells further shows that kinesin-5 motors are highly dynamic in the spindle. Understanding the interactions of kinesin-5 motors with microtubules and other spindle proteins is likely to broaden the documented roles of kinesin-5 motors during cell division.
The kinesin Eg5 moves toward minus ends of astral microtubules in early mitosis, switching to plus-end motion in anaphase. Dynein is required for minus-end motion; depletion of TPX2 results in a switch to plus-end motion. On midzone microtubules, Eg5 moves in both directions. Our results explain the redistribution of Eg5 throughout mitosis.
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