Michel Labouesse
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Explore the profile of Michel Labouesse including associated specialties, affiliations and a list of published articles.
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68
Citations
1873
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Recent Articles
1.
Molnar K, Suman S, Eichelbrenner J, Plancke C, Robin F, Labouesse M
Genetics
. 2024 Jul;
228(1).
PMID: 39053622
The elongation of Caenorhabditis elegans embryos allows examination of mechanical interactions between adjacent tissues. Muscle contractions during late elongation induce the remodeling of epidermal circumferential actin filaments through mechanotransduction. Force...
2.
Molnar K, Labouesse M
Open Biol
. 2021 Feb;
11(2):210006.
PMID: 33529554
Epithelial cells possess the ability to change their shape in response to mechanical stress by remodelling their junctions and their cytoskeleton. This property lies at the heart of tissue morphogenesis...
3.
Llense F, Labouesse M
Dev Cell
. 2021 Jan;
56(2):161-163.
PMID: 33497622
Most tissues include several cell types, which generally develop or get repaired synchronously so as to remain properly organized. In a recent Cell Stem Cell article, Ning et al. (2020)...
4.
Bell K, Werner M, Doshi A, Cortes D, Sattler A, Vuong-Brender T, et al.
Mol Biol Cell
. 2020 Jun;
31(15):1623-1636.
PMID: 32491957
Actomyosin cortical contractility drives many cell shape changes including cytokinetic furrowing. While positive regulation of contractility is well characterized, counterbalancing negative regulation and mechanical brakes are less well understood. The...
5.
Suman S, Daday C, Ferraro T, Vuong-Brender T, Tak S, Quintin S, et al.
Development
. 2019 Dec;
146(24).
PMID: 31784459
Mechanical forces can elicit a mechanotransduction response through junction-associated proteins. In contrast to the wealth of knowledge available for focal adhesions and adherens junctions, much less is known about mechanotransduction...
6.
Lardennois A, Pasti G, Ferraro T, Llense F, Mahou P, Pontabry J, et al.
Nature
. 2019 Oct;
574(7778):E17.
PMID: 31582857
An Amendment to this paper has been published and can be accessed via a link at the top of the paper.
7.
Lardennois A, Pasti G, Ferraro T, Llense F, Mahou P, Pontabry J, et al.
Nature
. 2019 Sep;
573(7775):E4.
PMID: 31488913
An Amendment to this paper has been published and can be accessed via a link at the top of the paper.
8.
Lardennois A, Pasti G, Ferraro T, Llense F, Mahou P, Pontabry J, et al.
Nature
. 2019 Aug;
573(7773):266-270.
PMID: 31462781
Body-axis elongation constitutes a key step in animal development, laying out the final form of the entire animal. It relies on the interplay between intrinsic forces generated by molecular motors,...
9.
Ben Amar M, Qiuyang-Qu P, Vuong-Brender T, Labouesse M
Phys Rev Lett
. 2019 Jan;
121(26):268102.
PMID: 30636158
The role of the actomyosin network is investigated in the elongation of C. elegans during embryonic morphogenesis. We present a model of active elongating matter that combines prestress and passive...
10.
Quintin S, Wang S, Pontabry J, Bender A, Robin F, Hyenne V, et al.
Development
. 2018 May;
145(10).
PMID: 29759977
No abstract available.