Mechanical stress contributes to the expression of the STM homeobox gene in Arabidopsis shoot meristems

Benoît Landrein; Annamaria Kiss; Massimiliano Sassi; Aurélie Chauvet; Pradeep Das; Millan Cortizo; Patrick Laufs; Seiji Takeda; Mitsuhiro Aida; Jan Traas; Teva Vernoux; Arezki Boudaoud; Olivier Hamant

doi:10.7554/eLife.07811

eLife (Dec 2015)

Mechanical stress contributes to the expression of the STM homeobox gene in Arabidopsis shoot meristems

Benoît Landrein,
Annamaria Kiss,
Massimiliano Sassi,
Aurélie Chauvet,
Pradeep Das,
Millan Cortizo,
Patrick Laufs,
Seiji Takeda,
Mitsuhiro Aida,
Jan Traas,
Teva Vernoux,
Arezki Boudaoud,
Olivier Hamant

Affiliations

Benoît Landrein: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France; Laboratoire Joliot-Curie, Laboratoire de Physique, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Annamaria Kiss: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France; Laboratoire Joliot-Curie, Laboratoire de Physique, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Massimiliano Sassi: ORCiD; Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Aurélie Chauvet: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France; Laboratoire Joliot-Curie, Laboratoire de Physique, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Pradeep Das: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France; Laboratoire Joliot-Curie, Laboratoire de Physique, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Millan Cortizo: INRA, Institut Jean-Pierre Bourgin, UMR 1318, ERL CNRS 3559, Saclay Plant Sciences, Versailles, France; AgroParisTech, Institut Jean-Pierre Bourgin, UMR 1318, ERL CNRS 3559, Saclay Plant Sciences, Versailles, France
Patrick Laufs: INRA, Institut Jean-Pierre Bourgin, UMR 1318, ERL CNRS 3559, Saclay Plant Sciences, Versailles, France; AgroParisTech, Institut Jean-Pierre Bourgin, UMR 1318, ERL CNRS 3559, Saclay Plant Sciences, Versailles, France
Seiji Takeda: Cell and Genome Biology, Graduate School of Life and Environmental Sciences, Kyoto Prefectural University, Kyoto, Japan
Mitsuhiro Aida: Graduate School of Biological Sciences, Nara Institute of Science and Technology, Nara, Japan
Jan Traas: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Teva Vernoux: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Arezki Boudaoud: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France; Laboratoire Joliot-Curie, Laboratoire de Physique, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France
Olivier Hamant: Laboratoire de Reproduction de développement des plantes, INRA, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France; Laboratoire Joliot-Curie, Laboratoire de Physique, CNRS, ENS Lyon, UCB Lyon 1, Université de Lyon, Lyon, France

DOI: https://doi.org/10.7554/eLife.07811
Journal volume & issue: Vol. 4

Abstract

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The role of mechanical signals in cell identity determination remains poorly explored in tissues. Furthermore, because mechanical stress is widespread, mechanical signals are difficult to uncouple from biochemical-based transduction pathways. Here we focus on the homeobox gene SHOOT MERISTEMLESS (STM), a master regulator and marker of meristematic identity in Arabidopsis. We found that STM expression is quantitatively correlated to curvature in the saddle-shaped boundary domain of the shoot apical meristem. As tissue folding reflects the presence of mechanical stress, we test and demonstrate that STM expression is induced after micromechanical perturbations. We also show that STM expression in the boundary domain is required for organ separation. While STM expression correlates with auxin depletion in this domain, auxin distribution and STM expression can also be uncoupled. STM expression and boundary identity are thus strengthened through a synergy between auxin depletion and an auxin-independent mechanotransduction pathway at the shoot apical meristem.

Published in eLife

ISSN: 2050-084X (Online)
Publisher: eLife Sciences Publications Ltd
Country of publisher: United Kingdom
LCC subjects: Medicine; Science: Biology (General)
Website: https://elifesciences.org

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