GDSL-domain proteins have key roles in suberin polymerization and degradation

Plant roots acquire nutrients and water while managing interactions with the soil microbiota. The root endodermis provides an extracellular diffusion barrier through a network of lignified cell walls called Casparian strips, supported by subsequent formation of suberin lamellae. Whereas lignificatio...

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Veröffentlicht in:Nature plants 2021-03, Vol.7 (3), p.353-364
Hauptverfasser: Ursache, Robertas, De Jesus Vieira Teixeira, Cristovāo, Dénervaud Tendon, Valérie, Gully, Kay, De Bellis, Damien, Schmid-Siegert, Emanuel, Grube Andersen, Tonni, Shekhar, Vinay, Calderon, Sandra, Pradervand, Sylvain, Nawrath, Christiane, Geldner, Niko, Vermeer, Joop E. M.
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Sprache:eng
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Zusammenfassung:Plant roots acquire nutrients and water while managing interactions with the soil microbiota. The root endodermis provides an extracellular diffusion barrier through a network of lignified cell walls called Casparian strips, supported by subsequent formation of suberin lamellae. Whereas lignification is thought to be irreversible, suberin lamellae display plasticity, which is crucial for root adaptative responses. Although suberin is a major plant polymer, fundamental aspects of its biosynthesis and turnover have remained obscure. Plants shape their root system via lateral root formation, an auxin-induced process requiring local breaking and re-sealing of endodermal lignin and suberin barriers. Here, we show that differentiated endodermal cells have a specific, auxin-mediated transcriptional response dominated by cell wall remodelling genes. We identified two sets of auxin-regulated GDSL lipases. One is required for suberin synthesis, while the other can drive suberin degradation. These enzymes have key roles in suberization, driving root suberin plasticity. Suberin is a complex hydrophobic biopolymer in the cell wall of various plant cell types, including the young root endodermis. Here, the authors identified two sets of auxin-regulated enzymes that mediate suberin biosynthesis and remodelling in the differentiated root endodermis in Arabidopsis .
ISSN:2055-026X
2055-0278
DOI:10.1038/s41477-021-00862-9