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Dynein arms are oscillating force generators

Chikako Shingyoji (), Hideo Higuchi, Misako Yoshimura, Eisaku Katayama and Toshio Yanagida
Additional contact information
Chikako Shingyoji: Graduate School of Science, University of Tokyo
Hideo Higuchi: Yanagida BioMotron Project, ERATO, JRDC
Misako Yoshimura: Graduate School of Science, University of Tokyo
Eisaku Katayama: Institute of Medical Science, University of Tokyo
Toshio Yanagida: Yanagida BioMotron Project, ERATO, JRDC

Nature, 1998, vol. 393, issue 6686, 711-714

Abstract: Abstract Eukaryotic flagella beat rhythmically1. Dynein is a protein that powers flagellar motion, and oscillation may be inherent to this protein2,3,4,5. Here we determine whether oscillation is a property of dynein arms themselves or whether oscillation requires an intact axoneme6, which is the central core of the flagellum and consists ofa regular array of microtubules. Using optical trapping nanometry7,8, we measured the force generated by a few dynein arms on an isolated doublet microtubule. When the dynein arms on the doublet microtubule contact a singlet microtubule and are activated by photolysis of caged ATP8, they generate a peak force of ∼6 pN and move the singlet microtubule over the doublet microtubule in a processive manner. The force and displacement oscillate with a peak-to-peak force and amplitude of ∼2 pN and ∼30 nm, respectively. The geometry of the interaction indicates that very few (possibly one) dynein arms are needed to generate the oscillation. The maximum frequency of the oscillation at 0.75 mM ATP is ∼70 Hz; this frequency decreases as the ATP concentration decreases. A similar oscillatory force is also generated by inner dynein arms alone on doublet microtubules that are depleted of outer dynein arms. The oscillation of the dynein arm may be a basic mechanism underlying flagellar beating.

Date: 1998
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DOI: 10.1038/31520

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