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(Journal Article) |
Plant & cell physiology 62 (2): 248-261 (2021)
A Novel Signaling Pathway Required for Arabidopsis Endodermal Root Organization Shapes the Rhizosphere Microbiome.
Julius Durr
,
Guilhem Reyt
,
Stijn Spaepen
,
Sally Hilton
,
Cathal Meehan
,
Wu Qi
,
Takehiro Kamiya
,
Paulina Flis
,
Hugh G Dickinson
,
Attila Feher
,
Umashankar Shivshankar
,
Shruti Pavagadhi
,
Sanjay Swarup
,
David Salt
,
Gary D Bending
,
Jose Gutierrez-Marcos
ABSTRACT
The Casparian strip (CS) constitutes a physical diffusion barrier to water and nutrients in plant roots, which is formed by the polar deposition of lignin polymer in the endodermis tissue. The precise pattern of lignin deposition is determined by the scaffolding activity of membrane-bound Casparian Strip domain proteins (CASPs), but little is known of the mechanism(s) directing this process. Here, we demonstrate that Endodermis-specific Receptor-like Kinase 1 (ERK1) and, to a lesser extent, ROP Binding Kinase1 (RBK1) are also involved in regulating CS formation, with the former playing an essential role in lignin deposition as well as in the localization of CASP1. We show that ERK1 is localized to the cytoplasm and nucleus of the endodermis and that together with the circadian clock regulator, Time for Coffee (TIC), forms part of a novel signaling pathway necessary for correct CS organization and suberization of the endodermis, with their single or combined loss of function resulting in altered root microbiome composition. In addition, we found that other mutants displaying defects in suberin deposition at the CS also display altered root exudates and microbiome composition. Thus, our work reveals a complex network of signaling factors operating within the root endodermis that establish both the CS diffusion barrier and influence the microbial composition of the rhizosphere.