Computational modeling and quantitative physiology reveal central parameters for brassinosteroid-regulated early cell physiological processes linked to elongation growth of the Arabidopsis root

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Computational modeling and quantitative physiology reveal central parameters for brassinosteroid-regulated early cell physiological processes linked to elongation growth of the Arabidopsis root

Author: Grosseholz, Ruth; Wanke, Friederike; Rohr, Leander; Gloeckner, Nina; Rausch, Luiselotte; Scholl, Stefan; Scacchi, Emanuele; Spazierer, Amelie-Jette; Shabala, Lana; Shabala, Sergey; Schumacher, Karin; Kummer, Ursula; Harter, Klaus
Tübinger Autor(en):
Wanke, Friederike
Rohr, Leander
Rausch, Luiselotte
Scacchi, Emanuele
Spazierer, Amelie-Jette
Harter, Klaus
Glöckner, Nina
Published in: Elife (2022), Bd. 11, Article e73031
Verlagsangabe: elife Sciences Publ Ltd
Language: English
Full text: http://dx.doi.org/10.7554/eLife.73031
ISSN: 2050-084X
DDC Classifikation: 570 - Life sciences; biology
Dokumentart: Article
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