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Plant plasmodesmata bridges form through ER-dependent incomplete cytokinesis

Ziqiang Patrick Li, Hortense Moreau, Jules D. Petit, Tatiana de Souza Moraes, Marija Smokvarska, Jessica Pérez‐Sancho, Mélina Petrel, Fanny Decoeur, Lysiane Brocard, Clément Chambaud, Magali Grison, Andrea Paterlini, Marie Glavier, Lucie Hoornaert, Amit S. Joshi, Étienne Gontier, William A. Prinz, Yvon Jaillais, Antoine Taly, Felix Campelo, Marie‐Cécile Caillaud, Emmanuelle Bayer

2024Science23 citationsDOI

Abstract

Diverging from conventional cell division models, plant cells undergo incomplete division to generate plasmodesmata communication bridges between daughter cells. Although fundamental for plant multicellularity, the molecular events leading to bridge stabilization, as opposed to severing, remain unknown. Using electron tomography, we mapped the transition from cell plate fenestrae to plasmodesmata. We show that the endoplasmic reticulum (ER) connects daughter cells across fenestrae, and as the cell plate matures, fenestrae contract, causing the plasma membrane (PM) to mold around constricted ER tubes. The ER’s presence prevents fenestrae fusion, forming plasmodesmata, whereas its absence results in closure. The ER-PM protein tethers MCTP3, MCTP4, and MCTP6 further stabilize nascent plasmodesmata during fenestrae contraction. Genetic deletion in Arabidopsis reduces plasmodesmata formation. Our findings reveal how plants undergo incomplete division to promote intercellular communication.

Topics & Concepts

PlasmodesmaCytokinesisEndoplasmic reticulumCell biologyCell divisionPlant cellBiologyCellBiophysicsGeneticsCytoplasmGenePlant nutrient uptake and metabolismPlant Molecular Biology ResearchLegume Nitrogen Fixing Symbiosis
Plant plasmodesmata bridges form through ER-dependent incomplete cytokinesis | Litcius