Microtubule cross-linking triggers the directional motility of kinesin-5

doi:10.1083/jcb.200801145

Published online
doi:10.1083/jcb.200801145
The Journal of Cell Biology, Vol. 182, No. 3, 421-428
The Rockefeller University Press, 0021-9525 $30.00
© Kapitein et al.

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Microtubule cross-linking triggers the directional motility of kinesin-5

Lukas C. Kapitein¹^,2^,3, Benjamin H. Kwok⁴, Joshua S. Weinger⁴, Christoph F. Schmidt¹^,2^,5, Tarun M. Kapoor⁴, and Erwin J.G. Peterman¹

¹ Department of Physics and Astronomy and ² Laser Centre, Vrije Universiteit, 1081 HV Amsterdam, Netherlands
³ Department of Neuroscience, Erasmus Medical Center, 3015 GE Rotterdam, Netherlands
⁴ Laboratory of Chemistry and Cell Biology, The Rockefeller University, New York, NY 10021
⁵ III. Physikalisches Institut, Fakultät für Physik, Georg-August-Universität, 37077 Göttingen, Germany

Correspondence to Christoph F. Schmidt: cfs{at}nat.vu.nl; or Tarun M. Kapoor: kapoor{at}mail.rockefeller.edu

Although assembly of the mitotic spindle is known to be a preciselycontrolled process, regulation of the key motor proteins involvedremains poorly understood. In eukaryotes, homotetrameric kinesin-5motors are required for bipolar spindle formation. Eg5, thevertebrate kinesin-5, has two modes of motion: an adenosinetriphosphate (ATP)–dependent directional mode and a diffusivemode that does not require ATP hydrolysis. We use single-moleculeexperiments to examine how the switching between these modesis controlled. We find that Eg5 diffuses along individual microtubuleswithout detectable directional bias at close to physiologicalionic strength. Eg5's motility becomes directional when boundbetween two microtubules. Such activation through binding cargo,which, for Eg5, is a second microtubule, is analogous to knownmechanisms for other kinesins. In the spindle, this might allowEg5 to diffuse on single microtubules without hydrolyzing ATPuntil the motor is activated by binding to another microtubule.This mechanism would increase energy and filament cross-linkingefficiency.

L.C. Kapitein and B.H. Kwok contributed equally to this paper.

T.M. Kapoor and E.J.G. Peterman contributed equally to thispaper.

Abbreviations used in this paper: MD, mean displacement; MSD,mean squared displacement; TIRF, total internal reflection fluorescence.

© 2008 Kapitein et al. This article is distributed underthe terms of an Attribution–Noncommercial–ShareAlike–No Mirror Sites license for the first six monthsafter the publication date (see http://www.jcb.org/misc/terms.shtml).After six months it is available under a Creative Commons License(Attribution–Noncommercial–Share Alike 3.0 Unportedlicense, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).

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