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Computational modeling of cambium activity provides a regulatory framework for simulating radial plant growth

Ivan Lebovka, Bruno Hay Mele, Xiaomin Liu, Alexandra Zakieva, Theresa Schlamp, Nial Gursanscky, Roeland M. H. Merks, Ruth Großeholz, Thomas Greb

2023eLife16 citationsDOIOpen Access PDF

Abstract

Precise organization of growing structures is a fundamental process in developmental biology. In plants, radial growth is mediated by the cambium, a stem cell niche continuously producing wood (xylem) and bast (phloem) in a strictly bidirectional manner. While this process contributes large parts to terrestrial biomass, cambium dynamics eludes direct experimental access due to obstacles in live-cell imaging. Here, we present a cell-based computational model visualizing cambium activity and integrating the function of central cambium regulators. Performing iterative comparisons of plant and model anatomies, we conclude that the receptor-like kinase PXY and its ligand CLE41 are part of a minimal framework sufficient for instructing tissue organization. By integrating tissue-specific cell wall stiffness values, we moreover probe the influence of physical constraints on tissue geometry. Our model highlights the role of intercellular communication within the cambium and shows that a limited number of factors are sufficient to create radial growth by bidirectional tissue production.

Topics & Concepts

CambiumXylemVascular cambiumProcess (computing)BiologyCell biologyPhloemBotanyBiological systemComputer scienceOperating systemPlant Molecular Biology ResearchPlant Reproductive BiologyPolysaccharides and Plant Cell Walls