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Journal Articles Nature Physics Year : 2019

Lattice defects induce microtubule self-renewal

L. Schaedel
  • Function : Author
CytoMorphoLab
S. Triclin
  • Function : Author
CytoMorphoLab
Denis Chrétien
Institut de Génétique et Développement de Rennes
Ariane Abrieu
Centre de recherche en Biologie cellulaire de Montpellier
C. Aumeier
  • Function : Author
CytoMorphoLab
J. Gaillard
  • Function : Author
CytoMorphoLab
L. Blanchoin
  • Function : Correspondent author
CytoMorphoLab
M. Théry
  • Function : Correspondent author
CytoMorphoLab
Karin John
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Laboratoire Interdisciplinaire de Physique [Saint Martin d’Hères]

Abstract

Microtubules are dynamic polymers, which grow and shrink by addition and removal of tubulin dimers at their extremities. Within the microtubule shaft, dimers adopt a densely packed and highly ordered crystal-like lattice structure, which is generally not considered to be dynamic. Here, we report that thermal forces are sufficient to remodel the microtubule shaft, despite its apparent stability. Our combined experimental data and numerical simulations on lattice dynamics and structure suggest that dimers can spontaneously leave and be incorporated into the lattice at structural defects. We propose a model mechanism, where the lattice dynamics is initiated via a passive breathing mechanism at dislocations, which are frequent in rapidly growing microtubules. These results show that we may need to extend the concept of dissipative dynamics, previously established for microtubule extremities, to the entire shaft, instead of considering it as a passive material.

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Life Sciences [q-bio]
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https://univ-rennes.hal.science/hal-02181481

Submitted on : Thursday, October 15, 2020-11:32:10 AM

Last modification on : Wednesday, May 10, 2023-8:39:33 AM

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hal-02181481 , version 1 (15-10-2020)

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L. Schaedel, S. Triclin, Denis Chrétien, Ariane Abrieu, C. Aumeier, et al.. Lattice defects induce microtubule self-renewal. Nature Physics, 2019, 15 (8), pp.830-838. ⟨10.1038/s41567-019-0542-4⟩. ⟨hal-02181481⟩

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