Matthieu Courtois scite author profile

Matthieu Courtois

2Publications

42Citation Statements Received

111Citation Statements Given

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Affiliations

Institute Curie, French National Centre for Scientific Research

Publications

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Villin Severing Activity Enhances Actin-based Motility In Vivo

Revenu

Courtois

Michelot

et al. 2007

MBoC

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Villin, an actin-binding protein associated with the actin bundles that support microvilli, bundles, caps, nucleates, and severs actin in a calcium-dependant manner in vitro. We hypothesized that the severing activity of villin is responsible for its reported role in enhancing cell plasticity and motility. To test this hypothesis, we chose a loss of function strategy and introduced mutations in villin based on sequence comparison with CapG. By pyrene-actin assays, we demonstrate that this mutant has a strongly reduced severing activity, whereas nucleation and capping remain unaffected. The bundling activity and the morphogenic effects of villin in cells are also preserved in this mutant. We thus succeeded in dissociating the severing from the three other activities of villin. The contribution of villin severing to actin dynamics is analyzed in vivo through the actin-based movement of the intracellular bacteria Shigella flexneri in cells expressing villin and its severing variant. The severing mutations abolish the gain of velocity induced by villin. To further analyze this effect, we reconstituted an in vitro actin-based bead movement in which the usual capping protein is replaced by either the wild type or the severing mutant of villin. Confirming the in vivo results, villin-severing activity enhances the velocity of beads by more than two-fold and reduces the density of actin in the comets. We propose a model in which, by severing actin filaments and capping their barbed ends, villin increases the concentration of actin monomers available for polymerization, a mechanism that might be paralleled in vivo when an enterocyte undergoes an epithelio-mesenchymal transition.

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Tuning the pitch of a wine glass by playing with the liquid inside

2008

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It is well known that the pitch of the sound produced by an excited glass shell can be tuned by adding some liquid in it. In this paper, it will be proved that the distribution of the liquid inside the shell plays a crucial role in this frequency shift. Thus it provides another way to tune the pitch of the sound by modifying the liquid distribution inside the glass. Both adding a cylinder in the liquid or rotating it results in a pitch lowering. A simple model based on energy conservation is in good agreement with the measured experimental results. This paper assumes some basic knowledge about mechanics and hydrodynamics. It addresses instructors of physics at the undergraduate and advanced secondary school level as well as their students.

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