Recherche et publications

• Ranf lab publications
  35 publications

  2024 2023 2022 2021 2020 2019 2018 2017 2016 2015 2014 2012 2011 2009 2008 2007 2002

  LORE receptor homomerization is required for 3-hydroxydecanoic acid-induced immune signaling and determines the natural variation of immunosensitivity within the Arabidopsis genus.
  New phytologist (2024) | Article

  β-D-XYLOSIDASE 4 modulates systemic immune signaling in Arabidopsis thaliana
  Frontiers in Plant Science (2023) | Article

  The power of patterns: new insights into pattern-triggered immunity
  New Phytologist (2023) | Article

  Mechanosensing and Sphingolipid-Docking Mediate Lipopeptide-Induced Immunity in Arabidopsis
  Pr?i?, J. and Gilliard, G. and Ibrahim, H. and Argüelles-Arias, A. and Rondelli, V. and Crowet, J.-M. and Genva, M. and Luzuriaga-Loaiza, W.P. and Deboever, E. and Nasir, M.N. and Lins, L. and Mathelie-Guinlet, M. and Boubsi, F. and Eschrig, S. and Ranf, S. and Dorey, S. and De Coninck, B. and Nürnberger, T. and Mongrand, S. and Höfte, M. and Zipfel, C. and Dufrene, Y.F. and Koutsioubas, A. and Brocca, P. and Deleu, M. and Ongena, M. , bioRxiv (2023) | Autre

  Remodeling of Lipid A in Pseudomonas syringae pv. phaseolicola In Vitro
  International Journal of Molecular Sciences (2022) | Article

  Low cost, medium throughput depletion-binding assay for screening S-domain-receptor ligand interactions using in planta protein expression
  Shu, L.-J. and Schäffer, M. and Eschrig, S. and Ranf, S. , bioRxiv (2021) | Autre

  LORE homomerization is required for 3-OH-C10:0 induced immune signaling
  Eschrig, S. and Schäffer, M. and Illig, T. and Eibel, S. and Shu, L.-J. and Fernandez, A. and Ranf, S. , bioRxiv (2021) | Autre

  Bacterial rhamnolipids and their 3-hydroxyalkanoate precursors activate Arabidopsis innate immunity through two independent mechanisms
  Proceedings of the National Academy of Sciences of the United States of America (2021) | Article

  Analysis of the structure and biosynthesis of the lipopolysaccharide core oligosaccharide of pseudomonas syringae pv. Tomato dc3000
  International Journal of Molecular Sciences (2021) | Article

  The Arabidopsis leucine-rich repeat receptor-like kinase MIK2 is a crucial component of early immune responses to a fungal-derived elicitor
  New Phytologist (2021) | Article

  A mutation in Asparagine-Linked Glycosylation 12 (ALG12) leads to receptor misglycosylation and attenuated responses to multiple microbial elicitors
  FEBS Letters (2020) | Article

  Rhamnolipids and their 3-(3-hydroxyalkanoyloxy)alkanoic acid precursors activate arabidopsis innate immunity through two independent mechanisms
  Schellenberger, R. and Crouzet, J. and Nickzad, A. and Kutschera, A. and Gerster, T. and Borie, N. and Dawid, C. and Cloutier, M. and Villaume, S. and Dhondt-Cordelier, S. and Hubert, J. and Cordelier, S. and Mazeyrat-Gourbeyre, F. and Schmid, C. and Ongena, M. and Renault, J.-H. and Haudrechy, A. and Hofmann, T. and Baillieul, F. and Clément, C. and Zipfel, C. and Gauthier, C. and Déziel, E. and Ranf, S. and Dorey, S. , bioRxiv (2020) | Autre

  Activation of pattern-triggered immunity in plants by LipoOligosaccharid-specific Reduced Elicitation (LORE) and variants thereof (pending)
  Alexander Kutschera, Stefanie Ranf, Ralph Hückelhoven, Milena Schäffer, Lars Raasch, Corinna Dawid, Thomas Hofmann (2019) | Autre

  The multifaceted functions of lipopolysaccharide in plant-bacteria interactions
  Biochimie (2019) | Article

  Bacterial medium-chain 3-hydroxy fatty acid metabolites trigger immunity in Arabidopsis plants
  Science (2019) | Article

  Loss of wbpL disrupts O-polysaccharide synthesis and impairs virulence of plant-associated Pseudomonas strains
  Molecular Plant Pathology (2019) | Article

  The Arabidopsis leucine-rich repeat receptor kinase MIK2 is a crucial component of pattern-triggered immunity responses to Fusarium fungi
  Coleman, A.D. and Raasch, L. and Maroschek, J. and Ranf, S. and Hückelhoven, R. , bioRxiv (2019) | Autre

  Pattern recognition receptors-versatile genetic tools for engineering broad-spectrum disease resistance in crops
  Agronomy (2018) | Article

  The cell wall-localized atypical β-1,3 glucanase ZERZAUST controls tissue morphogenesis in Arabidopsis thaliana
  Development (Cambridge) (2017) | Article

  Sensing of molecular patterns through cell surface immune receptors
  Current Opinion in Plant Biology (2017) | Article

  Quantitative analysis of microbe-associated molecular pattern (MAMP)-induced Ca²⁺ transients in plants
  Trempel, F. and Ranf, S. and Scheel, D. and Lee, J. (Methods in Molecular Biology, 2016) | Livre

  Altered glycosylation of exported proteins, including surface immune receptors, compromises calcium and downstream signaling responses to microbe-associated molecular patterns in Arabidopsis thaliana
  BMC Plant Biology (2016) | Article

  Barley disease susceptibility factor RACB acts in epidermal cell polarity and positioning of the nucleus
  Journal of Experimental Botany (2016) | Article

  Challenges in the identification of microbe-associated molecular patterns in plant and animal innate immunity: a case study with bacterial lipopolysaccharide
  Molecular plant pathology (2016) | Article

  Immune Sensing of Lipopolysaccharide in Plants and Animals: Same but Different
  PLoS Pathogens (2016) | Article

  A lectin S-domain receptor kinase mediates lipopolysaccharide sensing in Arabidopsis thaliana
  Nature Immunology (2015) | Article

  Ca²⁺ signalling in plant immune response: From pattern recognition receptors to Ca²⁺ decoding mechanisms
  New Phytologist (2014) | Article

  Microbe-associated molecular pattern-induced calcium signaling requires the receptor-like cytoplasmic kinases, PBL1 and BIK1
  BMC Plant Biology (2014) | Article

  Defense-related calcium signaling mutants uncovered via a quantitative high-throughput screen in arabidopsis thaliana
  Molecular Plant (2012) | Article

  Interplay between calcium signalling and early signalling elements during defence responses to microbe- or damage-associated molecular patterns
  Plant Journal (2011) | Article

  A cell wall extract from the endophytic fungus Piriformospora indica promotes growth of Arabidopsis seedlings and induces intracellular calcium elevation in roots
  Plant Journal (2009) | Article

  Loss of the vacuolar cation channel, AtTPC1, does not impair Ca ²⁺ signals induced by abiotic and biotic stresses
  Plant Journal (2008) | Article

  Bacteria-derived peptidoglycans constitute pathogen-associated molecular patterns triggering innate immunity in Arabidopsis
  Journal of Biological Chemistry (2007) | Article

  Tomato MAPKs LeMPK1, LeMPK2, and LeMPK3 function in the systemin-mediated defense response against herbivorous insects
  Proceedings of the National Academy of Sciences of the United States of America (2007) | Article

  Nucleoprotein structure of immediate-early promoters Zp and Rp and of oriLyt of latent Epstein-Barr virus genomes
  Journal of Virology (2002) | Article

• Projets de recherche

  Molecular mechanisms of early LORE immune signalling
  Statut: En cours

  Début	01.06.2022
  Fin	31.05.2026
  Financement	FNS  Voir la fiche du projet
  Plants have a largely extended repertoire of cell-surface receptor-like kinases (RLKs) to sense a multitude of external and internal signals and to translate them into adaptive cellular and physiological responses. In order to sense a wide variety of signals, the extracellular domains of RLKs are highly diverse in composition, resulting in many different subclasses. Despite their fundamental role in virtually all aspects of plant life, only a few RLKs from a few classes have been studied mechanistically in detail. While they have become important models for their RLK classes, models of other RLK classes are needed to understand plant RLK signalling in its entirety. Many RLKs serve as pattern recognition receptors (PRRs) that sense microbe-associated molecular patterns (MAMPs) and activate broad-spectrum pattern-triggered immunity (PTI). Due to the conserved nature of PTI, PRRs are prime candidates for genetic plant protection. The engineering of plant immune sensing capacity through cross-family transfer of PRRs and PRR signal transduction are important tools for sustainable and environmentally friendly disease management. To successfully develop PRR-based disease resistance strategies in crops in the future, we need a comprehensive mechanistic understanding of PRR signalling and regulation. We have identified the Arabidopsis thaliana S-domain-RLK LORE as a PRR that senses medium-chain 3-hydroxy fatty acid (3-OH-FA) metabolites in antibacterial immunity. As one of only very few SD-RLKs with a known ligand and thus a controllable means of activation, LORE is an excellent and important prototype model for the large class of SD-RLKs that is widely distributed in plants. To date, we have gained a basic understanding of LORE signalling and its role in plant immunity, but the molecular details remain largely unresolved. Here, we will use LORE and its small synthetic ligand 3-OH-FA as a model to gain new insights into SD-RLK signalling mechanisms. We aim to characterize the early signalling dynamics of the LORE receptor complex in unprecedented molecular detail. The proposed work builds on a set of molecular tools we have developed recently and that are specifically tailored to study SD-type RLKs. In scope of the proposed project, we will employ a combination of state-of-the-art analytics, biochemical and genetic approaches, and in silico modelling to investigate: (1) activation and regulation of the LORE receptor complex by phosphorylation, (2) a proposed regulatory crosstalk of LORE phosphorylation and Ca2+ signalling through phospho- and Ca2+-sensors, (3) the role of heteromerization of LORE and related SD-RLKs in immune signalling, and (4) their regulation by FERONIA. We will examine in depth how these components work together to fine-tune LORE activation and immune responses. Phosphorylation and the second messenger Ca2+ are universal signalling components in eukaryotes and also central to RLK signalling in plants. Yet, our understanding of how these network components cooperate in translating extracellular stimuli into cellular responses and in fine-tuning these responses in the face of the multitude of stimuli perceived by a single plant cell is limited. The regulatory principles obtained from this project will improve our understanding of biological signalling processes in general. As they are broadly applicable to other RLK signalling pathways involved in development, growth, reproduction, and adaptation to abiotic and biotic stresses, they will help in the development of future strategies to improve stress resistance and other yield-related traits in crops, which is of utmost importance to society.

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