Phospholipase D Affects Translocation of NPR1 to the Nucleus in Arabidopsis Thaliana

Overview

Journal Front Plant Sci

Date 2015 Mar 6

PMID 25741350

Citations 13

Authors

Martin Janda

Vladimir Sasek

Hana Chmelarova

Jan Andrejch

Miroslava Novakova

Jana Hajslova

Lenka Burketova

Olga Valentova

Affiliations

Soon will be listed here.

Abstract

Phytohormone salicylic acid (SA) is a crucial component of plant-induced defense against biotrophic pathogens. Although the key players of the SA pathway are known, there are still gaps in the understanding of the molecular mechanism and the regulation of particular steps. In our previous research, we showed in Arabidopsis suspension cells that n-butanol, which specifically modulates phospholipase D activity, significantly suppresses the transcription of the pathogenesis related (PR-1) gene, which is generally accepted as the SA pathway marker. In the presented study, we have investigated the site of n-butanol action in the SA pathway. We were able to show in Arabidopsis plants treated with SA that n-butanol inhibits the transcription of defense genes (PR-1, WRKY38). Fluorescence microscopy of Arabidopsis thaliana mutants expressing 35S::NPR1-GFP (nonexpressor pathogenesis related 1) revealed significantly decreased nuclear localization of NPR1 in the presence of n-butanol. On the other hand, n-butanol did not decrease the nuclear localization of NPR1 in 35S::npr1C82A-GFP and 35S::npr1C216A-GFP mutants constitutively expressing NPR1 monomers. Mass spectrometric analysis of plant extracts showed that n-butanol significantly changes the metabolic fingerprinting while t-butanol had no effect. We found groups of the plant metabolites, influenced differently by SA and n-butanol treatment. Thus, we proposed several metabolites as markers for n-butanol action.

Citing Articles

Phosphatidic acid signaling and function in nuclei.

Yao S, Kim S, Li J, Tang S, Wang X Prog Lipid Res. 2023; 93:101267.

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Phosphatidic Acid in Plant Hormonal Signaling: From Target Proteins to Membrane Conformations.

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Phospholipid Signaling Is a Component of the Salicylic Acid Response in Plant Cell Suspension Cultures.

Rodas-Junco B, Nic-Can G, Munoz-Sanchez A, Hernandez-Sotomayor S Int J Mol Sci. 2020; 21(15).

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