Transformation of flg22 perception into electrical signals decoded in vasculature leads to sieve tube blockage and pathogen resistance

Furch, Alexandra C. U. and Zimmermann, Matthias R. and Noll, Gundula A. and Wrobel, Lisa S. and Scholz, Sandra S. and Buxa-Kleeberg, Stefanie V. and Hafke, Jens B. and Fliegmann, Judith and Mithoefer, Axel and Ehlers, Katrin and Haufschild, Tom and Noetzold, Jonas and Koch, Aline M. and Grabe, Veit and Teutemacher, Florian and Maass, Jan-Peter and Pruefer, Dirk and Oelmueller, Ralf and Peiter, Edgar and Kogel, Karl-Heinz and van Bel, Aart J. E. (2025) Transformation of flg22 perception into electrical signals decoded in vasculature leads to sieve tube blockage and pathogen resistance. SCIENCE ADVANCES, 11 (9): eads6417. ISSN 2375-2548,

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Abstract

This study focuses on the question how and where information acquired by FLS2 perception of flg22 is transformed into electrical signals crucial for generation of local and systemic defense responses. In Arabidopsis thaliana and Vicia faba leaves, FLS2 density was high in the epidermis and vascular parenchyma, low in mesophyll, and absent in sieve elements (SEs). Aequorin-based examinations disclosed dual cytosolic Ca2+ peaks shortly after flg22 application, which corresponded with two voltage shifts from the epidermis to SEs. These signals were converted into rapid long-range action potentials (APs) or slower short-range variation potentials (VPs). Modified phytohormone-levels demonstrated systemic AP effects. Jasmonic acid up-regulation was significantly higher in wild-type than Atseor1/2 mutants. Abundant Ca2+ influx associated with VPs was responsible for transient sieve element occlusion (SEO) near the flg22 perception site, whereas SEO was absent in Atseor1/2 and Atfls2 mutants. Biological relevance of SEO was demonstrated by higher susceptibility of Atseor1/2 mutants to Pseudomonas syringae than wild-type plants.

Item Type: Article
Uncontrolled Keywords: PHLOEM MASS-FLOW; DEFENSE RESPONSES; RECEPTOR FLS2; NITRIC-OXIDE; CALCIUM; OCCLUSION; FLAGELLIN; PROTEINS; CELL; SENSITIVITY;
Subjects: 500 Science > 570 Life sciences
Divisions: Biology, Preclinical Medicine > Institut für Pflanzenwissenschaften > Lehrstuhl für Zellbiologie und Pflanzenphysiologie (Prof. Dr. Klaus Grasser)
Depositing User: Dr. Gernot Deinzer
Date Deposited: 31 Mar 2026 08:42
Last Modified: 31 Mar 2026 08:42
URI: https://pred.uni-regensburg.de/id/eprint/67853

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