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Proc Natl Acad Sci U S A. 2005 Sep 27;102(39):13903-8. Epub 2005 Sep 20.

Microtubule movements on the arms of mitotic chromosomes: polar ejection forces quantified in vitro.

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1
Department of Biomedical Engineering, University of Michigan, 2131 Gerstacker, 2200 Bonisteel Boulevard, Ann Arbor, MI 48109, USA.

Abstract

During mitosis, "polar ejection forces" (PEFs) are hypothesized to direct prometaphase chromosome movements by pushing chromosome arms toward the spindle equator. PEFs are postulated to be caused by (i) plus-end-directed microtubule (MT)-based motor proteins on the chromosome arms, namely chromokinesins, and (ii) the polymerization of spindle MTs into the chromosome. However, the exact role of PEFs is unclear, because little is known about their magnitude or their forms (e.g., impulsive vs. sustained, etc.). In this study, we employ optical tweezers to bring about the lateral interaction between chromosome arms and MTs in vitro to directly measure the speed and force of the PEFs developed on chromosome arms. We find that forces are unidirectional and frequently exceed 1 pN, with maximum forces of 2-3 pN and peak velocities of 63 +/- 41 nm/s; the movements are ATP-dependent and exhibit a characteristic noncontinuous motion that includes displacements of >50 nm, stalls, and backwards slippage of the MT even under low loads. We perform experiments using antibodies to the chromokinesins Kid and KIF4 that identify Kid as the principal force-producing agent for PEFs. At first glance, this motor activity appears surprisingly weak and erratic, but it explains how PEFs can guide chromosome movements without severely deforming or damaging the local chromosome structure.

PMID:
16174726
PMCID:
PMC1236563
DOI:
10.1073/pnas.0506017102
[Indexed for MEDLINE]
Free PMC Article
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