PLoS ONE (Jan 2013)

Reconstruction of active regular motion in amoeba extract: dynamic cooperation between sol and gel states.

  • Yukinori Nishigami,
  • Masatoshi Ichikawa,
  • Toshiya Kazama,
  • Ryo Kobayashi,
  • Teruo Shimmen,
  • Kenichi Yoshikawa,
  • Seiji Sonobe

DOI
https://doi.org/10.1371/journal.pone.0070317
Journal volume & issue
Vol. 8, no. 8
p. e70317

Abstract

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Amoeboid locomotion is one of the typical modes of biological cell migration. Cytoplasmic sol-gel conversion of an actomyosin system is thought to play an important role in locomotion. However, the mechanisms underlying sol-gel conversion, including trigger, signal, and regulating factors, remain unclear. We developed a novel model system in which an actomyosin fraction moves like an amoeba in a cytoplasmic extract. Rheological study of this model system revealed that the actomyosin fraction exhibits shear banding: the sol-gel state of actomyosin can be regulated by shear rate or mechanical force. Furthermore, study of the living cell indicated that the shear-banding property also causes sol-gel conversion with the same order of magnitude as that of shear rate. Our results suggest that the inherent sol-gel transition property plays an essential role in the self-regulation of autonomous translational motion in amoeba.