Your search keyword '"Birgit Löffelhardt"' showing total 7 results

1. Convergent evolution of plant pattern recognition receptors sensing cysteine-rich patterns from three microbial kingdoms

Author

Yuankun Yang, Christina E. Steidele, Clemens Rössner, Birgit Löffelhardt, Dagmar Kolb, Thomas Leisen, Weiguo Zhang, Christina Ludwig, Georg Felix, Michael F. Seidl, Annette Becker, Thorsten Nürnberger, Matthias Hahn, Bertolt Gust, Harald Gross, Ralph Hückelhoven, and Andrea A. Gust

Subjects

Science

Abstract

Abstract The Arabidopsis thaliana Receptor-Like Protein RLP30 contributes to immunity against the fungal pathogen Sclerotinia sclerotiorum. Here we identify the RLP30-ligand as a small cysteine-rich protein (SCP) that occurs in many fungi and oomycetes and is also recognized by the Nicotiana benthamiana RLP RE02. However, RLP30 and RE02 share little sequence similarity and respond to different parts of the native/folded protein. Moreover, some Brassicaceae other than Arabidopsis also respond to a linear SCP peptide instead of the folded protein, suggesting that SCP is an eminent immune target that led to the convergent evolution of distinct immune receptors in plants. Surprisingly, RLP30 shows a second ligand specificity for a SCP-nonhomologous protein secreted by bacterial Pseudomonads. RLP30 expression in N. tabacum results in quantitatively lower susceptibility to bacterial, fungal and oomycete pathogens, thus demonstrating that detection of immunogenic patterns by Arabidopsis RLP30 is involved in defense against pathogens from three microbial kingdoms.

Published

2023

2. The grapevine LysM receptor-like kinase VvLYK5-1 recognizes chitin oligomers through its association with VvLYK1-1

Author

Thibault Roudaire, Tania Marzari, David Landry, Birgit Löffelhardt, Andrea A. Gust, Angelica Jermakow, Ian Dry, Pascale Winckler, Marie-Claire Héloir, and Benoit Poinssot

Subjects

microbe-associated molecular pattern (MAMP)-triggered immunity, pattern recognition receptors (PRR), LysM receptor-like kinase (LYK), Vitis vinifera, Chitooligosaccharides (COS), Chitin (N-acetyl-D-glucosamine), Plant culture, SB1-1110

Abstract

The establishment of defense reactions to protect plants against pathogens requires the recognition of invasion patterns (IPs), mainly detected by plasma membrane-bound pattern recognition receptors (PRRs). Some IPs, also termed elicitors, are used in several biocontrol products that are gradually being developed to reduce the use of chemicals in agriculture. Chitin, the major component of fungal cell walls, as well as its deacetylated derivative, chitosan, are two elicitors known to activate plant defense responses. However, recognition of chitooligosaccharides (COS) in Vitis vinifera is still poorly understood, hampering the improvement and generalization of protection tools for this important crop. In contrast, COS perception in the model plant Arabidopsis thaliana is well described and mainly relies on a tripartite complex formed by the cell surface lysin motif receptor-like kinases (LysM-RLKs) AtLYK1/CERK1, AtLYK4 and AtLYK5, the latter having the strongest affinity for COS. In grapevine, COS perception has for the moment only been demonstrated to rely on two PRRs VvLYK1-1 and VvLYK1-2. Here, we investigated additional players by overexpressing in Arabidopsis the two putative AtLYK5 orthologs from grapevine, VvLYK5-1 and VvLYK5-2. Expression of VvLYK5-1 in the atlyk4/5 double mutant background restored COS sensitivity, such as chitin-induced MAPK activation, defense gene expression, callose deposition and conferred non-host resistance to grapevine downy mildew (Erysiphe necator). Protein-protein interaction studies conducted in planta revealed a chitin oligomer-triggered interaction between VvLYK5-1 and VvLYK1-1. Interestingly, our results also indicate that VvLYK5-1 mediates the perception of chitin but not chitosan oligomers showing a part of its specificity.

Published

2023

3. The tomato receptor CuRe1 senses a cell wall protein to identify Cuscuta as a pathogen

Author

Volker Hegenauer, Peter Slaby, Max Körner, Julien-Alexander Bruckmüller, Ronja Burggraf, Isabell Albert, Bettina Kaiser, Birgit Löffelhardt, Irina Droste-Borel, Jan Sklenar, Frank L. H. Menke, Boris Maček, Aashish Ranjan, Neelima Sinha, Thorsten Nürnberger, Georg Felix, Kirsten Krause, Mark Stahl, and Markus Albert

Subjects

Science

Abstract

Parasitic plants such as Cuscuta penetrate the shoots of susceptible hosts to obtain sugars, solutes and water. Here the authors show that resistant varieties of tomato can trigger an immune response against Cuscuta by perceiving a small glycine rich protein produced by the parasite.

Published

2020

4. ABA-Dependent Salt Stress Tolerance Attenuates Botrytis Immunity in Arabidopsis

Author

Eva Haller, Tim Iven, Ivo Feussner, Mark Stahl, Katja Fröhlich, Birgit Löffelhardt, Andrea A. Gust, and Thorsten Nürnberger

Subjects

Arabidopsis thaliana, combinatorial stress, salt stress, immunity, Botrytis cinerea, Pseudomonas syringae, Plant culture, SB1-1110

Abstract

Plants have evolved adaptive measures to cope with abiotic and biotic challenges simultaneously. Combinatorial stress responses require environmental signal integration and response prioritization to balance stress adaptation and growth. We have investigated the impact of salt, an important environmental factor in arid regions, on the Arabidopsis innate immune response. Activation of a classical salt stress response resulted in increased susceptibility to infection with hemibiotrophic Pseudomonas syringae or necrotrophic Alternaria brassicicola, and Botrytis cinerea, respectively. Surprisingly, pattern-triggered immunity (PTI)-associated responses were largely unaffected upon salt pre-treatment. However, we further observed a strong increase in phytohormone levels. Particularly, abscisic acid (ABA) levels were already elevated before pathogen infection, and application of exogenous ABA substituted for salt-watering in increasing Arabidopsis susceptibility toward B. cinerea infection. We propose a regulatory role of ABA in attenuating Botrytis immunity in this plant under salt stress conditions.

Published

2020

5. Convergent evolution of plant pattern recognition receptors sensing cysteine-rich patterns from three microbial kingdoms

Author

Yuankun Yang, Christina E. Steidele, Birgit Löffelhardt, Dagmar Kolb, Thomas Leisen, Weiguo Zhang, Christina Ludwig, Georg Felix, Michael F. Seidl, Thorsten Nürnberger, Matthias Hahn, Bertolt Gust, Harald Gross, Ralph Hückelhoven, and Andrea A. Gust

Abstract

The Arabidopsis thaliana receptor-like protein RLP30 contributes to immunity against the fungal pathogen Sclerotinia sclerotiorum. Here we identified the RLP30-ligand as a small cysteine-rich protein (SCP) that occurs in many fungi and oomycetes and is also recognized by the Nicotiana benthamiana RLP RE02. However, RLP30 and RE02 share little sequence similarity and respond to different parts of the native/folded protein. Interestingly, some Brassicaceae other than Arabidopsis also respond to a linear SCP peptide, suggesting that SCP is an eminent immune target that led to the convergent evolution of distinct immune receptors in plants. Surprisingly, RLP30 shows a second ligand specificity for a SCP-nonhomologous protein secreted by bacterial Pseudomonads. RLP30 expression in N. tabacum resulted in lower susceptibility to bacterial, fungal and oomycete pathogens, thus demonstrating that detection of immunogenic patterns by Arabidopsis RLP30 is involved in defense against pathogens from three microbial kingdoms.

Published

2022

6. ArabidopsisRECEPTOR-LIKE PROTEIN30 and Receptor-Like Kinase SUPPRESSOR OF BIR1-1/EVERSHED Mediate Innate Immunity to Necrotrophic Fungi

Author

Yoshitake Desaki, Andrea A. Gust, Mahmut Tör, Weiguo Zhang, Malou Fraiture, Dagmar Kolb, Frédéric Brunner, Birgit Löffelhardt, Cyril Zipfel, and Freddy Boutrot

Subjects

Molecular Sequence Data, Arabidopsis, Plant Science, Protein Serine-Threonine Kinases, Fungal Proteins, Ascomycota, Botany, Plant defense against herbivory, Plant Immunity, Research Articles, Disease Resistance, Plant Diseases, Botrytis cinerea, Innate immune system, biology, Arabidopsis Proteins, fungi, Sclerotinia sclerotiorum, Pattern recognition receptor, Cell Biology, Plants, Genetically Modified, biology.organism_classification, Elicitor, Cell biology, Signal transduction

Abstract

Effective plant defense strategies rely in part on the perception of non-self determinants, so-called microbe-associated molecular patterns (MAMPs), by transmembrane pattern recognition receptors leading to MAMP-triggered immunity. Plant resistance against necrotrophic pathogens with a broad host range is complex and yet not well understood. Particularly, it is unclear if resistance to necrotrophs involves pattern recognition receptors. Here, we partially purified a novel proteinaceous elicitor called SCLEROTINIA CULTURE FILTRATE ELICITOR1 (SCFE1) from the necrotrophic fungal pathogen Sclerotinia sclerotiorum that induces typical MAMP-triggered immune responses in Arabidopsis thaliana. Analysis of natural genetic variation revealed five Arabidopsis accessions (Mt-0, Lov-1, Lov-5, Br-0, and Sq-1) that are fully insensitive to the SCFE1-containing fraction. We used a forward genetics approach and mapped the locus determining SCFE1 sensitivity to RECEPTOR-LIKE PROTEIN30 (RLP30). We also show that SCFE1-triggered immune responses engage a signaling pathway dependent on the regulatory receptor-like kinases BRASSINOSTEROID INSENSITIVE1-ASSOCIATED RECEPTOR KINASE1 (BAK1) and SUPPRESSOR OF BIR1-1/EVERSHED (SOBIR1/EVR). Mutants of RLP30, BAK1, and SOBIR1 are more susceptible to S. sclerotiorum and the related fungus Botrytis cinerea. The presence of an elicitor in S. sclerotiorum evoking MAMP-triggered immune responses and sensed by RLP30/SOBIR1/BAK1 demonstrates the relevance of MAMP-triggered immunity in resistance to necrotrophic fungi.

Published

2013

7. Structural and Phylogenetic Analyses of the GP42 Transglutaminase from Phytophthora sojae Reveal an Evolutionary Relationship between Oomycetes and Marine Vibrio Bacteria*

Author

Eva Kirchner, Kerstin Reiss, Thorsten Nürnberger, Mark Gijzen, Thilo Stehle, Birgit Löffelhardt, Georg Zocher, and Frédéric Brunner

Subjects

Models, Molecular, Phytophthora, DNA Mutational Analysis, Molecular Sequence Data, Crystallography, X-Ray, Biochemistry, Evolution, Molecular, Catalytic Domain, Phytophthora sojae, Amino Acid Sequence, Molecular Biology, Peptide sequence, Phylogeny, Solanum tuberosum, Vibrio, Oomycete, chemistry.chemical_classification, Isopeptide bond, Transglutaminases, biology, Sequence Homology, Amino Acid, Cell Biology, biology.organism_classification, Cysteine protease, Immunity, Innate, Recombinant Proteins, chemistry, Oomycetes, Protein Structure and Folding, Mutagenesis, Site-Directed, Petroselinum, Water Microbiology, Bacteria

Abstract

Transglutaminases (TGases) are ubiquitous enzymes that catalyze selective cross-linking between protein-bound glutamine and lysine residues; the resulting isopeptide bond confers high resistance to proteolysis. Phytophthora sojae, a pathogen of soybean, secretes a Ca(2+)-dependent TGase (GP42) that is activating defense responses in both host and non-host plants. A GP42 fragment of 13 amino acids, termed Pep-13, was shown to be absolutely indispensable for both TGase and elicitor activity. GP42 does not share significant primary sequence similarity with known TGases from mammals or bacteria. This suggests that GP42 has evolved novel structural and catalytic features to support enzymatic activity. We have solved the crystal structure of the catalytically inactive point mutant GP42 (C290S) at 2.95 Å resolution and identified residues involved in catalysis by mutational analysis. The protein comprises three domains that assemble into an elongated structure. Although GP42 has no structural homolog, its core region displays significant similarity to the catalytic core of the Mac-1 cysteine protease from Group A Streptococcus, a member of the papain-like superfamily of cysteine proteases. Proteins that are taxonomically related to GP42 are only present in plant pathogenic oomycetes belonging to the order of the Peronosporales (e.g. Phytophthora, Hyaloperonospora, and Pythium spp.) and in marine Vibrio bacteria. This suggests that a lateral gene transfer event may have occurred between bacteria and oomycetes. Our results offer a basis to design and use highly specific inhibitors of the GP42-like TGase family that may impair the growth of important oomycete and bacterial pathogens.

Published

2011