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A quantitative gibberellin signaling biosensor reveals a role for gibberellins in internode specification at the shoot apical meristem

Bihai Shi, Amelia Felipo-Benavent, Guillaume Cerutti, Carlos S. Galván-Ampudia, Lucas Jilli, Géraldine Brunoud, Jérôme Mutterer, Elody Vallet, Lali Sakvarelidze-Achard, Jean‐Michel Davière, Alejandro Navarro-Galiano, Ankit Walia, Shani Lazary, Jonathan Legrand, Roy Weinstain, Alexander M. Jones, Salomé Prat, Patrick Achard, Teva Vernoux

2024Nature Communications29 citationsDOIOpen Access PDF

Abstract

Growth at the shoot apical meristem (SAM) is essential for shoot architecture construction. The phytohormones gibberellins (GA) play a pivotal role in coordinating plant growth, but their role in the SAM remains mostly unknown. Here, we developed a ratiometric GA signaling biosensor by engineering one of the DELLA proteins, to suppress its master regulatory function in GA transcriptional responses while preserving its degradation upon GA sensing. We demonstrate that this degradation-based biosensor accurately reports on cellular changes in GA levels and perception during development. We used this biosensor to map GA signaling activity in the SAM. We show that high GA signaling is found primarily in cells located between organ primordia that are the precursors of internodes. By gain- and loss-of-function approaches, we further demonstrate that GAs regulate cell division plane orientation to establish the typical cellular organization of internodes, thus contributing to internode specification in the SAM.

Topics & Concepts

MeristemGibberellinPrimordiumPlant stemCell biologyShootArabidopsisBiologyFunction (biology)Cell divisionBotanyCellMutantBiochemistryGenePlant Molecular Biology ResearchPlant Reproductive BiologyPolysaccharides and Plant Cell Walls