CASP microdomain formation requires cross cell wall stabilization of domains and non-cell autonomous action of LOTR1.

Kolbeck, A.; Marhavý, P.; De Bellis, D.; Li, B.; Kamiya, T.; Fujiwara, T.; Kalmbach, L.; Geldner, N.

doi:10.7554/eLife.69602

CASP microdomain formation requires cross cell wall stabilization of domains and non-cell autonomous action of LOTR1.

Détails

Télécharger: 35029147_BIB_27275F0FABB8.pdf (7191.63 [Ko])
Etat: Public
Version: Final published version
Licence: CC BY 4.0

ID Serval

serval:BIB_27275F0FABB8

Type

Article: article d'un périodique ou d'un magazine.

Collection

Publications

Institution

UNIL/CHUV

Titre

CASP microdomain formation requires cross cell wall stabilization of domains and non-cell autonomous action of LOTR1.

Périodique

eLife

Auteur⸱e⸱s

Kolbeck A., Marhavý P., De Bellis D., Li B., Kamiya T., Fujiwara T., Kalmbach L., Geldner N.

ISSN

2050-084X (Electronic)

ISSN-L

2050-084X

Statut éditorial

Publié

Date de publication

14/01/2022

Peer-reviewed

Oui

Volume

Pages

e69602

Langue

anglais

Notes

Publication types: Journal Article ; Research Support, Non-U.S. Gov't
Publication Status: epublish

Résumé

Efficient uptake of nutrients in both animal and plant cells requires tissue-spanning diffusion barriers separating inner tissues from the outer lumen/soil. However, we poorly understand how such contiguous three-dimensional superstructures are formed in plants. Here, we show that correct establishment of the plant Casparian Strip (CS) network relies on local neighbor communication. We show that positioning of Casparian Strip membrane domains (CSDs) is tightly coordinated between neighbors in wild-type and that restriction of domain formation involves the putative extracellular protease LOTR1. Impaired domain restriction in lotr1 leads to fully functional CSDs at ectopic positions, forming 'half strips'. LOTR1 action in the endodermis requires its expression in the stele. LOTR1 endodermal expression cannot complement, while cortex expression causes a dominant-negative phenotype. Our findings establish LOTR1 as a crucial player in CSD positioning acting in a directional, non-cell-autonomous manner to restrict and coordinate CS positioning.

Mots-clé

Arabidopsis/cytology, Arabidopsis/genetics, Arabidopsis/physiology, Arabidopsis Proteins/chemistry, Arabidopsis Proteins/genetics, Arabidopsis Proteins/metabolism, Cell Wall/chemistry, Cell Wall/metabolism, Cell Wall/physiology, Lignin/chemistry, Lignin/genetics, Lignin/physiology, Promoter Regions, Genetic/genetics, A. thaliana, arabidopsis, casparian strip, endodermis, microdomains, neprosin, network, plant biology

URN

urn:nbn:ch:serval-BIB_27275F0FABB81

OAI-PMH

oai:serval.unil.ch:BIB_27275F0FABB8

DOI

10.7554/eLife.69602

Pubmed

35029147

Web of science

000751409500001

Open Access

Oui