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The BIR2/BIR3-Associated Phospholipase D𝛾1 Negatively Regulates Plant Immunity
by
van Wijk, Ringo
, Wan, Wei-Lin
, Schlöffel, Maria A.
, Slaby, Peter
, Salzer, Andrea
, Kilian, Joachim
, Gust, Andrea A.
, Munnik, Teun
, Symeonidi, Efthymia
, Šemanjski, Maja
, Del Corvo, Raffaele
, Maček, Boris
in
SIGNALLING AND RESPONSE
2020
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The BIR2/BIR3-Associated Phospholipase D𝛾1 Negatively Regulates Plant Immunity
by
van Wijk, Ringo
, Wan, Wei-Lin
, Schlöffel, Maria A.
, Slaby, Peter
, Salzer, Andrea
, Kilian, Joachim
, Gust, Andrea A.
, Munnik, Teun
, Symeonidi, Efthymia
, Šemanjski, Maja
, Del Corvo, Raffaele
, Maček, Boris
in
SIGNALLING AND RESPONSE
2020
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The BIR2/BIR3-Associated Phospholipase D𝛾1 Negatively Regulates Plant Immunity
by
van Wijk, Ringo
, Wan, Wei-Lin
, Schlöffel, Maria A.
, Slaby, Peter
, Salzer, Andrea
, Kilian, Joachim
, Gust, Andrea A.
, Munnik, Teun
, Symeonidi, Efthymia
, Šemanjski, Maja
, Del Corvo, Raffaele
, Maček, Boris
in
SIGNALLING AND RESPONSE
2020
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The BIR2/BIR3-Associated Phospholipase D𝛾1 Negatively Regulates Plant Immunity
Journal Article
The BIR2/BIR3-Associated Phospholipase D𝛾1 Negatively Regulates Plant Immunity
2020
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Overview
Plants have evolved effective strategies to defend themselves against pathogen invasion. Starting from the plasma membrane with the recognition of microbe-associated molecular patterns (MAMPs) via pattern recognition receptors, internal cellular signaling pathways are induced to ultimately fend off the attack. Phospholipase D (PLD) hydrolyzes membrane phospholipids to produce phosphatidic acid (PA), which has been proposed to play a second messenger role in immunity. The Arabidopsis (Arabidopsis thaliana) PLD family consists of 12 members, and for some of these, a specific function in resistance toward a subset of pathogens has been shown. We demonstrate here that Arabidopsis PLD𝛾1, but not its close homologs PLD𝛾2 and PLD𝛾3, is specifically involved in plant immunity. Genetic inactivation of PLD𝛾1 resulted in increased resistance toward the virulent bacterium Pseudomonas syringae pv. tomato DC3000 and the necrotrophic fungus Botrytis cinerea. As pld𝛾1 mutant plants responded with elevated levels of reactive oxygen species to MAMP treatment, a negative regulatory function for this PLD isoform is proposed. Importantly, PA levels in pld𝛾1 mutants were not affected compared to stressed wild-type plants, suggesting that alterations in PA levels are not likely the cause for the enhanced immunity in the pld𝛾1 line. Instead, the plasma-membrane-attached PLD𝛾1 protein colocalized and associated with the BAK1-INTERACTING RECEPTOR-LIKE KINASES BIR2 and BIR3, which are known negative regulators of pattern-triggered immunity. Moreover, complex formation of PLD𝛾1 and BIR2 was further promoted upon MAMP treatment. Hence, we propose that PLD𝛾1 acts as a negative regulator of plant immune responses in complex with immunity-related proteins BIR2 and BIR3.
Publisher
American Society of Plant Biologists (ASPB)
Subject
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