Directional Cell-to-cell Transport in Plant Roots

Lea Jacquier, Celeste Fiorenza, Kevin Robe, Jian-Pu Han, Fabienne Cleard, Christelle Fuchs, Priya Ramakrishna, Sylvain Loubery, Linnka Lefebvre-Legendre, Marie Barberon
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Abstract

Cell-to-cell communication is critical for multicellular organisms. In plants, plasmodesmata - cytoplasmic channels - enable molecular transport between adjacent cells. In roots, this transport is predicted to be essential in nutrient acquisition and delivery to the vasculature. We demonstrate that plasmodesmatal transport persists in differentiated roots, despite apoplastic barriers such as Casparian strips and suberin lamellae in the endodermis, suggesting plasmodesmata as the sole pathway for water and nutrient flow at this stage. We also reveal a developmental switch in plasmodesmata function resulting in an unidirectional transport in differentiated roots. A genetic screen identified mutations that disrupt this directionality, leading to bidirectional transport. These mutations correlate with larger plasmodesmatal apertures, linked to defects in pectin composition and cell wall organization. This discovery underscores the role of plasmodesmatal aperture regulation and pectin in controlling directional transport. Our findings provide insights into plasmodesmata function and their regulation in roots.
植物根部细胞间的定向运输
细胞间通信对于多细胞生物至关重要。在植物中,质膜--细胞质通道--可实现相邻细胞间的分子运输。在根系中,这种运输被认为是获取养分和向脉管输送养分的关键。我们的研究表明,在分化的根中,尽管有内皮中的卡斯帕尔条和单宁薄片等细胞质屏障,质膜运输仍然存在,这表明质膜是这一阶段水分和养分流动的唯一途径。我们还揭示了质体功能的发育转换,导致分化根中的单向运输。基因筛选发现了能破坏这种方向性的突变,从而导致双向运输。这些突变与质膜孔径增大有关,与果胶组成和细胞壁组织缺陷有关。这一发现强调了质膜孔径调节和果胶在控制定向运输中的作用。我们的发现为了解根中质膜的功能及其调控提供了见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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