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Berlin 2024 – scientific programme

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BP: Fachverband Biologische Physik

BP 32: Tissue Mechanics II

BP 32.9: Talk

Thursday, March 21, 2024, 17:15–17:30, H 2032

Mechanotransduction in Lateral Root Initiation: A Model Integrating Growth Mechanics and Auxin Signaling — •João R. D. Ramos1, Karen Alim1, and Alexis Maizel21School of Natural Sciences, Technical University of Munich, Germany — 2Centre for Organismal Studies, University of Heidelberg, Germany

Plant development relies on the precise coordination of cell growth, which is influenced by the mechanical constraints imposed by rigid cell walls. The hormone auxin plays a crucial role in regulating this growth by altering the mechanical properties of cell walls. During the post-embryonic formation of lateral roots, pericycle cells deep within the main root are triggered by auxin to resume growth and divide to form a new root. This growth involves a complex interplay between auxin, growth, and the resolution of mechanical conflicts, that is still not well understood. We propose a model that integrates tissue mechanics and auxin transport, revealing a connection between the auxin-induced relaxation of mechanical stress in the pericycle and auxin signalling in the endodermis. We show that the growth of pericycle cells is initially limited by the endodermis. However, the resulting modest growth is sufficient to redirect auxin to the overlying endodermis, which then actively accommodates the growth, allowing for the subsequent development of the lateral root. Our model uncovers the mechanical parameters that underlie endodermal accommodation and how the structure and shape of the endodermis influence the formation of the new root. These findings emphasize the vital role of the endodermis in shaping root development through mechanotransduction and auxin signalling.

Keywords: plant development; intercellular coordination; auxin signaling; mechanical feedback; lateral root initiation

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