Monika Kalde scite author profile

Attack by the host powdery mildew Erysiphe cichoracearum usually results in successful penetration and rapid proliferation of the fungus on Arabidopsis. By contrast, the nonhost barley powdery mildew Blumeria graminis f. sp. hordei (Bgh) typically fails to penetrate Arabidopsis epidermal cells. In both instances the plant secretes cell wall appositions or papillae beneath the penetration peg of the fungus. Genetic screens for mutations that result in increased penetration of Bgh on Arabidopsis have recently identified the PEN1 syntaxin. Here we examine the role of PEN1 and of its closest homologue, SYP122, identified as a syntaxin whose expression is responsive to infection. pen1 syp122 double mutants are both dwarfed and necrotic, suggesting that the two syntaxins have overlapping functions. Although syp122-1 and the cell wall mur mutants have considerably more pronounced primary cell wall defects than pen1 mutants, these have relatively subtle or no effects on penetration resistance. Upon fungal attack, PEN1 appears to be actively recruited to papillae, and there is a 2-h delay in papillae formation in the pen1-1 mutant. We conclude that SYP122 may have a general function in secretion, including a role in cell wall deposition. By contrast, PEN1 appears to have a basal function in secretion and a specialized defense-related function, being required for the polarized secretion events that give rise to papilla formation.

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Members of the Arabidopsis WRKY Group III Transcription Factors Are Part of Different Plant Defense Signaling Pathways

Kalde¹,

Barth²,

Somssich³

et al. 2003

MPMI

266

205

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WRKY proteins are a large group of transcription factors restricted to the plant kingdom. In Arabidopsis thaliana, the gene family consists of 74 members. Here, we analyzed the expression of all 13 members of one main WRKY subgroup and found that the majority are responsive both to pathogen infection and to salicylic acid. Temporal expression studies during compatible, incompatible, and nonhost interactions and employing plant defense-signaling mutants allowed us to define four distinct WRKY subsets responding to different signaling queues along defense pathways. These subsets did not reflect phylogenetic relationships. Promoter studies of one member, AtWRKY54, using a reporter gene construct in transgenic Arabidopsis plants, revealed that regulatory regions mediating pathogen and SA inducibility are clearly separable. In an AtWRKY54 knockout line, resistance to Peronospora parasitica was not compromised, but the transient expression kinetics of several WRKY genes was affected, suggesting both the existence of functional redundancy and intense cross-talk between signaling networks.

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The syntaxin SYP132 contributes to plant resistance against bacteria and secretion of pathogenesis-related protein 1

Kalde

Nühse

Findlay

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

187

173

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In contrast to many mammalian pathogens, potential bacterial pathogens of plants remain outside the host cell. The plant must, therefore, promote an active resistance mechanism to combat the extracellular infection. How this resistance against bacteria is manifested and whether similar processes mediate basal, genefor-gene, and salicylate-associated defense, however, are poorly understood. Here, we identify a specific plasma membrane syntaxin, NbSYP132, as a component contributing to gene-for-gene resistance in Nicotiana benthamiana. Silencing NbSYP132 but not NbSYP121, the apparent orthologue of a syntaxin required for resistance to powdery mildew fungus, compromised AvrPto-Pto resistance. Because syntaxins may play a role in secretion of proteins to the extracellular space, we performed a limited proteomic analysis of the apoplastic fluid. We found that NbSYP132-silenced plants were impaired in the accumulation of at least a subset of pathogenesis-related (PR) proteins in the cell wall. These results were confirmed by both immunoblot analysis and imunolocalization of a PR protein, PR1a. These results implicate NbSYP132 as the cognate target soluble N-ethylmaleimide-sensitive factor attachment protein receptor for exocytosis of vesicles containing antimicrobial PR proteins. NbSYP132 also contributes to basal and salicylate-associated defense, indicating that SYP132-dependent secretion is a component of multiple forms of defense against bacterial pathogens in plants.bacterial defense ͉ defense response ͉ Nicotiana benthamiana

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The Specification of Geometric Edges by a Plant Rab GTPase Is an Essential Cell-Patterning Principle During Organogenesis in Arabidopsis

et al. 2016

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SummaryPlant organogenesis requires control over division planes and anisotropic cell wall growth, which each require spatial patterning of cells. Polyhedral plant cells can display complex patterning in which individual faces are established as biochemically distinct domains by endomembrane trafficking. We now show that, during organogenesis, the Arabidopsis endomembrane system specifies an important additional cellular spatial domain: the geometric edges. Previously unidentified membrane vesicles lying immediately beneath the plasma membrane at cell edges were revealed through localization of RAB-A5c, a plant GTPase of the Rab family of membrane-trafficking regulators. Specific inhibition of RAB-A5c activity grossly perturbed cell geometry in developing lateral organs by interfering independently with growth anisotropy and cytokinesis without disrupting default membrane trafficking. The initial loss of normal cell geometry can be explained by a failure to maintain wall stiffness specifically at geometric edges. RAB-A5c thus meets a requirement to specify this cellular spatial domain during organogenesis.

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Interactions between Transport Protein Particle (TRAPP) complexes and Rab GTPases in Arabidopsis

et al. 2019

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Transport Protein Particle II (TRAPPII) is essential for exocytosis, endocytosis, protein sorting and cytokinesis. In spite of a considerable understanding of its biological role, little information is known about Arabidopsis TRAPPII complex topology and molecular function. In this study, independent proteomic approaches initiated with TRAPP components or Rab-A GTPase variants converge on the TRAPPII complex. We show that the Arabidopsis genome encodes the full complement of 13 TRAPPC subunits, including four previously unidentified components. A dimerization model is proposed to account for binary interactions between TRAPPII subunits. Preferential binding to dominant negative (GDP-bound) versus wild-type or constitutively active (GTP-bound) RAB-A2a variants discriminates between TRAPPII and TRAPPIII subunits and shows that Arabidopsis complexes differ from yeast but resemble metazoan TRAPP complexes. Analyzes of Rab-A mutant variants in trappii backgrounds provide genetic evidence that TRAPPII functions upstream of RAB-A2a, allowing us to propose that TRAPPII is likely to behave as a guanine nucleotide exchange factor (GEF) for the RAB-A2a GTPase. GEFs catalyze exchange of GDP for GTP; the GTP-bound, activated, Rab then recruits a diverse local network of Rab effectors to specify membrane identity in subsequent vesicle fusion events. Understanding GEFÀRab interactions will be crucial to unravel the co-ordination of plant membrane traffic.280 Monika Kalde et al. c The log 2 intensity ratio for each protein was calculated from its average signal intensity in the experiment divided by its average intensity in the control, which was an empty soluble GFP vector. Detected TRAPP subunits were ranked according to their ratio between the experiment and negative control. The proteins are sorted by rank. Note that TRS65/TRAPPC13, which is a TRAPPII subunit in yeast but a TRAPPIII subunit in metazoans, had an intermediate intensity ratio of 7. 3 (see Figure S1). The high confidence interactors include shared and TRAP-PII-specific subunits. d P-values were calculated using the t-test (two-sided) and are all significant (P < 0.02) with the exception of those for TRAPPIII homologues, which are in red. This table lists only TRAPP components detected in the IPs. Related to Figure S1 on the CLUB interactome.

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Monika Kalde

The PEN1 Syntaxin Defines a Novel Cellular Compartment upon Fungal Attack and Is Required for the Timely Assembly of Papillae

Members of the Arabidopsis WRKY Group III Transcription Factors Are Part of Different Plant Defense Signaling Pathways

The syntaxin SYP132 contributes to plant resistance against bacteria and secretion of pathogenesis-related protein 1

The Specification of Geometric Edges by a Plant Rab GTPase Is an Essential Cell-Patterning Principle During Organogenesis in Arabidopsis

Interactions between Transport Protein Particle (TRAPP) complexes and Rab GTPases in Arabidopsis

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