Your search keyword '"Poinssot B"' showing total 47 results

1. In vitro tolerance to Botrytis cinerea of grapevine 41B rootstock in transgenic plants expressing the stilbene synthase Vst1 gene under the control of a pathogen-inducible PR 10 promoter

Author

Coutos-Thévenot, P., Poinssot, B., Bonomelli, A., Yean, H., Breda, C., Buffard, D., Esnault, R., Hain, R., and Boulay, M.

Published

2001

2. The grapevine (Vitis vinifera) LysM receptor kinases VvLYK1-1 and VvLYK1-2 mediate chitooligosaccharide-triggered immunity

Author

Universitat Politècnica de València. Instituto Universitario Mixto de Biología Molecular y Celular de Plantas - Institut Universitari Mixt de Biologia Molecular i Cel·lular de Plantes, Gatsby Charitable Foundation, European Regional Development Fund, Agence Nationale de la Recherche, Francia, Institut National de la Recherche Agronomique, Francia, Biotechnology and Biological Sciences Research Council, Reino Unido, Brule, D., Villano, C., Davies, L., Trda, L., Clavierie, J., Heloir, MC, Chiltz, A., Adrian, M., Darblade, B., Tornero Feliciano, Pablo, Stransfeld, L., Boutrot, F., Zipfel, C., Dry, I., Poinssot, B., Universitat Politècnica de València. Instituto Universitario Mixto de Biología Molecular y Celular de Plantas - Institut Universitari Mixt de Biologia Molecular i Cel·lular de Plantes, Gatsby Charitable Foundation, European Regional Development Fund, Agence Nationale de la Recherche, Francia, Institut National de la Recherche Agronomique, Francia, Biotechnology and Biological Sciences Research Council, Reino Unido, Brule, D., Villano, C., Davies, L., Trda, L., Clavierie, J., Heloir, MC, Chiltz, A., Adrian, M., Darblade, B., Tornero Feliciano, Pablo, Stransfeld, L., Boutrot, F., Zipfel, C., Dry, I., and Poinssot, B.

Abstract

[EN] Chitin, a major component of fungal cell walls, is a well-known pathogen-associated molecular pattern (PAMP) that triggers defense responses in several mammal and plant species. Here, we show that two chitooligosaccharides, chitin and chitosan, act as PAMPs in grapevine (Vitis vinifera) as they elicit immune signalling events, defense gene expression and resistance against fungal diseases. To identify their cognate receptors, the grapevine family of LysM receptor kinases (LysM-RKs) was annotated and their gene expression profiles were characterized. Phylogenetic analysis clearly distinguished three V. vinifera LysM-RKs (VvLYKs) located in the same clade as the Arabidopsis CHITIN ELICITOR RECEPTOR KINASE1 (AtCERK1), which mediates chitin-induced immune responses. The Arabidopsis mutant Atcerk1, impaired in chitin perception, was transformed with these three putative orthologous genes encoding VvLYK1-1, -2, or -3 to determine if they would complement the loss of AtCERK1 function. Our results provide evidence that VvLYK1-1 and VvLYK1-2, but not VvLYK1-3, functionally complement the Atcerk1 mutant by restoring chitooligosaccharide-induced MAPK activation and immune gene expression. Moreover, expression of VvLYK1-1 in Atcerk1 restored penetration resistance to the non-adapted grapevine powdery mildew (Erysiphe necator). On the whole, our results indicate that the grapevine VvLYK1-1 and VvLYK1-2 participate in chitin- and chitosan-triggered immunity and that VvLYK1-1 plays an important role in basal resistance against E. necator.

Published

2018

3. Resveratrol from vine to wine

Author

Adrian, M., Rosso, M., Luigi BAVARESCO, Poinssot, B., Héloir, M. -C, Agroécologie [Dijon], Institut National de la Recherche Agronomique (INRA)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, Agricultural Research Council (CRA), and ProdInra, Migration

Subjects

[SDV] Life Sciences [q-bio], [SDE] Environmental Sciences, stilbene, Settore AGR/13 - CHIMICA AGRARIA, [SDV]Life Sciences [q-bio], [SDE]Environmental Sciences, food and beverages, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, [SDV.BV] Life Sciences [q-bio]/Vegetal Biology, resveratrol

Abstract

SPE IPM Biochemistry Research Trends Chapitre I; The stilbene compound resveratrol and its derivatives are produced by various plant families and possess a wide spectrum of interesting medical properties. In Vitaceae, these compounds are phytoalexins ie antifungal metabolites synthesized and accumulated in response to biotic or abiotic stresses. Therefore, even if their level in wines is influenced by winemaking process and fermentative micro-organisms, it largely depends on their initial level in berries. Resveratrol is synthesized via the phenylalanine / polymalonate pathway and can undergo glycosylation, methylation or polymerization, leading to a set of derivatives. Due to their distinct chemical structures, these molecules possess different activity and efficiency regarding their biological properties. Vitis species and Vitis vinifera varieties do not have the same genetic ability to produce these compounds and there is a positive correlation between their ability to accumulate them and their level of resistance to pathogens. In this chapter, we propose to list different biotic and abiotic factors able to induce stilbene accumulation in grapevine organs.

Published

2013

4. Elicitor and resistance-inducing activities of β-1,4 cellodextrins in grapevine, comparison with β-1,3 glucans and α-1,4 oligogalacturonides

Author

Aziz, A., Gauthier, A., Bezier, A., Poinssot, B., Joubert, J.M., Pugin, A., Heyraud, A., Baillieul, F., Centre de Recherches sur les Macromolécules Végétales (CERMAV), and Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Joseph Fourier - Grenoble 1 (UJF)

Subjects

ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2007

5. Priming: getting ready for battle

Author

Conrath, U., Beckers, G.J.M., Flors, V., Garcia-Augustin, P., Jakab, G., Mauch, F., Newman, M.-A., Pieterse, C.M.J., Poinssot, B., Pozo, M.J., Pugin, A., Schaffrath, U., Ton, J., Wendehenne, D., Zimmerli, L., Mauch-Mani, B., Phytopathology, and Dep Biologie

Subjects

fungi, food and beverages, Plant biology (Botany), Life sciences

Abstract

Infection of plants by necrotizing pathogens or colonization of plant roots with certain beneficial microbes causes the induction of a unique physiological state called "priming." The primed state can also be induced by treatment of plants with various natural and synthetic compounds. Primed plants display either faster, stronger, or both activation of the various cellular defense responses that are induced following attack by either pathogens or insects or in response to abiotic stress. Although the phenomenon has been known for decades, most progress in our understanding of priming has been made over the past few years. Here, we summarize the current knowledge of priming in various induced-resistance phenomena in plants.

Published

2006

6. Characterization of grapevine defense reactions triggered by the elicitor endopolygalacturonase 1 from Botrytis cinerea

Author

Vandelle, Elodie Genevieve Germaine, Poinssot, B., Bentéjac, M., and Pugin, A.

Subjects

plant defense responses, Botrytis cinerea, signal transduction, grapevine

Published

2003

7. Resveratrol from Vine to Wine

Author

Adrian, M, De Rosso, M, Bavaresco, Luigi, Poinssot, B, Heloir, M. C., Bavaresco, Luigi (ORCID:0000-0002-1278-6587), Adrian, M, De Rosso, M, Bavaresco, Luigi, Poinssot, B, Heloir, M. C., and Bavaresco, Luigi (ORCID:0000-0002-1278-6587)

Abstract

The stilbene compound resveratrol and its derivatives are produced by various plant families and possess a wide spectrum of interesting medical properties. In Vitaceae, these compounds are phytoalexins ie antifungal metabolites synthesized and accumulated in response to biotic or abiotic stresses. Therefore, even if their level in wines is influenced by winemaking process and fermentative micro-organisms, it largely depends on their initial level in berries. Resveratrol is synthesized via the phenylalanine / polymalonate pathway and can undergo glycosylation, methylation or polymerization, leading to a set of derivatives. Due to their distinct chemical structures, these molecules possess different activity and efficiency regarding their biological properties. Vitis species and Vitis vinifera varieties do not have the same genetic ability to produce these compounds and there is a positive correlation between their ability to accumulate them and their level of resistance to pathogens. In this chapter, we propose to list different biotic and abiotic factors able to induce stilbene accumulation in grapevine organs. © 2013 by Nova Science Publishers, Inc. All rights reserved.

Published

2013

8. OCHRATOXIN A EFFECTS IN VITIS VINÍFERA CELLS AT CYTOTOXIC AND IMMUNOLOGICAL LEVELS.

Author

Penalva Olcina, R., Roudaire, T., Fernández-Franzón, M., Juan-García, A., and Poinssot, B.

Subjects

MITOGEN-activated protein kinases, PROTEIN kinases, CYTOTOXINS, CELL suspensions, WINE industry

Abstract

Ochratoxin A (OTA) is classified as a possible human carcinogenic by the International Agency of Research on Cancer and is also associated with nephrotoxicity, hepatotoxicity, and immunosuppressive effects. In addition, the high occurrence of OTA in grapes may result in a threatening factor especially for wine industries, which have to carry out strict controls on this compound. In this study, OTA was tested at different concentrations from 50 µM to 3.25 µM for 24h and 48 h in a Vitis vinífera cell suspension to elucidate its cytotoxic effect and ability to elicit immune responses. For this purpose, i) evaluation of grapevine cell cytotoxicity by using FDA (fluorescein di-acetate) and ii) activation kinetics of mitogen-activated protein kinase (MAPK) detected by Western Blot with a human phosphorylated extracellular regulated protein kinase 1/2 (a-pERK1/2) assays were performed. Cytotoxicity results showed that the viability of Vitis vinífera cells was not affected by the presence of OTA over the concentrations range assayed, in contrast with the marked increase in the MAPK activation with increasing OTA concentrations. Thus, OTA did not show a cytotoxic effect at the concentrations assayed but, it clearly has an effect as biotic stressor as it increases MAPK activation. This work has been supported by the Spanish Ministry of Science and Innovation PID2020-115871RB-100 and the FORTHEM alliance. [ABSTRACT FROM AUTHOR]

Published

2022

9. Identification of Plasmopara viticola Genes Potentially Involved in Pathogenesis on Grapevine Suggests New Similarities Between Oomycetes and True Fungi

Author

Luis, P., primary, Gauthier, A., additional, Trouvelot, S., additional, Poinssot, B., additional, and Frettinger, P., additional

Published

2013

10. Priming: getting ready for battle

Author

Phytopathology, Dep Biologie, Conrath, U., Beckers, G.J.M., Flors, V., Garcia-Augustin, P., Jakab, G., Mauch, F., Newman, M.-A., Pieterse, C.M.J., Poinssot, B., Pozo, M.J., Pugin, A., Schaffrath, U., Ton, J., Wendehenne, D., Zimmerli, L., Mauch-Mani, B., Phytopathology, Dep Biologie, Conrath, U., Beckers, G.J.M., Flors, V., Garcia-Augustin, P., Jakab, G., Mauch, F., Newman, M.-A., Pieterse, C.M.J., Poinssot, B., Pozo, M.J., Pugin, A., Schaffrath, U., Ton, J., Wendehenne, D., Zimmerli, L., and Mauch-Mani, B.

Published

2006

11. Nitric oxide production mediates oligogalacturonide-triggered immunity and resistance to Botrytis cinerea in Arabidopsis thaliana

Author

RASUL, S., primary, DUBREUIL-MAURIZI, C., additional, LAMOTTE, O., additional, KOEN, E., additional, POINSSOT, B., additional, ALCARAZ, G., additional, WENDEHENNE, D., additional, and JEANDROZ, S., additional

Published

2012

12. Elicitor and resistance-inducing activities of -1,4 cellodextrins in grapevine, comparison with -1,3 glucans and -1,4 oligogalacturonides

Author

Aziz, A., primary, Gauthier, A., additional, Bezier, A., additional, Poinssot, B., additional, Joubert, J.-M., additional, Pugin, A., additional, Heyraud, A., additional, and Baillieul, F., additional

Published

2007

13. Publisher Correction: New improvements in grapevine genome editing: high efficiency biallelic homozygous knock-out from regenerated plantlets by using an optimized zCas9i.

Author

Villette J, Lecourieux F, Bastiancig E, Héloir MC, and Poinssot B

Published

2024

14. New improvements in grapevine genome editing: high efficiency biallelic homozygous knock-out from regenerated plantlets by using an optimized zCas9i.

Author

Villette J, Lecourieux F, Bastiancig E, Héloir MC, and Poinssot B

Abstract

Background: For ten years, CRISPR/cas9 system has become a very useful tool for obtaining site-specific mutations on targeted genes in many plant organisms. This technology opens up a wide range of possibilities for improved plant breeding in the future. In plants, the CRISPR/Cas9 system is mostly used through stable transformation with constructs that allow for the expression of the Cas9 gene and sgRNA. Numerous studies have shown that site-specific mutation efficiency can vary greatly between different plant species due to factors such as plant transformation efficiency, Cas9 expression, Cas9 nucleotide sequence, the addition of intronic sequences, and many other parameters. Since 2016, when the first edited grapevine was created, the number of studies using functional genomic approaches in grapevine has remained low due to difficulties with plant transformation and gene editing efficiency. In this study, we optimized the process to obtain site-specific mutations and generate knock-out mutants of grapevine (Vitis vinifera cv. 'Chardonnay'). Building on existing methods of grapevine transformation, we improved the method for selecting transformed plants at chosen steps of the developing process using fluorescence microscopy., Results: By comparison of two different Cas9 gene and two different promoters, we increased site-specific mutation efficiency using a maize-codon optimized Cas9 containing 13 introns (zCas9i), achieving up to 100% biallelic mutation in grapevine plantlets cv. 'Chardonnay'. These results are directly correlated with Cas9 expression level., Conclusions: Taken together, our results highlight a complete methodology for obtaining a wide range of homozygous knock-out mutants for functional genomic studies and future breeding programs in grapevine., (© 2024. The Author(s).)

Published

2024

15. Increasing vineyard sustainability: innovating a targeted chitosan-derived biocontrol solution to induce grapevine resistance against downy and powdery mildews.

Author

Brulé D, Héloir MC, Roudaire T, Villette J, Bonnet S, Pascal Y, Darblade B, Crozier P, Hugueney P, Coma V, and Poinssot B

Abstract

The European Green Deal aims to reduce the pesticide use, notably by developing biocontrol products to protect crops from diseases. Indeed, the use of significant amounts of chemicals negatively impact the environment such as soil microbial biodiversity or groundwater quality, and human health. Grapevine ( Vitis vinifera ) was selected as one of the first targeted crop due to its economic importance and its dependence on fungicides to control the main damaging diseases worldwide: grey mold, downy and powdery mildews. Chitosan, a biopolymer extracted from crustacean exoskeletons, has been used as a biocontrol agent in many plant species, including grapevine, against a variety of cryptogamic diseases such as downy mildew ( Plasmopara viticola ), powdery mildew ( Erysiphe necator ) and grey mold ( Botrytis cinerea ). However, the precise molecular mechanisms underlying its mode of action remain unclear: is it a direct biopesticide effect or an indirect elicitation activity, or both? In this study, we investigated six chitosans with diverse degrees of polymerization (DP) ranging from low to high DP (12, 25, 33, 44, 100, and 470). We scrutinized their biological activities by evaluating both their antifungal properties and their abilities to induce grapevine immune responses. To investigate their elicitor activity, we analyzed their ability to induce MAPKs phosphorylation, the activation of defense genes and metabolite changes in grapevine. Our results indicate that the chitosans with a low DP are more effective in inducing grapevine defenses and possess the strongest biopesticide effect against B. cinerea and P. viticola . We identified chitosan with DP12 as the most efficient resistance inducer. Then, chitosan DP12 has been tested against downy and powdery mildews in the vineyard trials performed during the last three years. Results obtained indicated that a chitosan-based biocontrol product could be sufficiently efficient when the amount of pathogen inoculum is quite low and could be combined with only two fungicide treatments during whole season programs to obtain a good protection efficiency. On the whole, a chitosan-based biocontrol product could become an interesting alternative to meet the chemicals reduction targeted in sustainable viticulture., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Brulé, Héloir, Roudaire, Villette, Bonnet, Pascal, Darblade, Crozier, Hugueney, Coma and Poinssot.)

Published

2024

16. Impact of UV Irradiation on the Chitosan Bioactivity for Biopesticide Applications.

Author

Meynaud S, Huet G, Brulé D, Gardrat C, Poinssot B, and Coma V

Subjects

Biological Control Agents, Antifungal Agents pharmacology, Sunlight, Ultraviolet Rays, Chitosan pharmacology, Chitosan chemistry

Abstract

Chitosan is known for its antimicrobial and antifungal properties that make it a promising candidate for plant protection. However, when sprayed in open fields, the bioactivity of chitosan significantly diminishes, suggesting a possible influence of sunlight on chitosan structure. This study aimed to investigate the effects of UV radiation, by using artificial UV sources simulating sunlight, on the stability of chitosan. A powdered chitosan with a low polymerization degree was selected and analyzed using various physicochemical methods, both before and after irradiation. Some minor differences appeared. UV spectra analysis revealed the disappearance of initially present chromophores and the emergence of a new band around 340 nm, potentially indicating the formation of carbonyl compounds. However, elemental analysis, MALDI-TOF spectra, polymerization degree, and infrared spectra did not exhibit any clear structural modifications of chitosan. Interestingly, irradiated powdered chitosan samples maintained their bioactivity, including their eliciting and antifungal properties. In the case of grapevine, irradiated chitosan demonstrated effectiveness in controlling grapevine diseases such as downy mildew, contradicting the assumption that sunlight is responsible for the decreased effectiveness of chitosan in open field conditions.

Published

2023

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

Author

Roudaire T, Marzari T, Landry D, Löffelhardt B, Gust AA, Jermakow A, Dry I, Winckler P, Héloir MC, and Poinssot B

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., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Roudaire, Marzari, Landry, Löffelhardt, Gust, Jermakow, Dry, Winckler, Héloir and Poinssot.)

Published

2023

18. Deep Chemical and Physico-Chemical Characterization of Antifungal Industrial Chitosans-Biocontrol Applications.

Author

Huet G, Wang Y, Gardrat C, Brulé D, Vax A, Le Coz C, Pichavant F, Bonnet S, Poinssot B, and Coma V

Subjects

Antifungal Agents pharmacology, Antifungal Agents chemistry, Antioxidants pharmacology, Antioxidants chemistry, Molecular Weight, Chitosan pharmacology, Chitosan chemistry, Oomycetes

Abstract

Five different chitosan samples (CHI-1 to CHI-5) from crustacean shells with high deacetylation degrees (>93%) have been deeply characterized from a chemical and physicochemical point of view in order to better understand the impact of some parameters on the bioactivity against two pathogens frequently encountered in vineyards, Plasmopara viticola and Botrytis cinerea . All the samples were analyzed by SEC-MALS, 1 H-NMR, elemental analysis, XPS, FTIR, mass spectrometry, pyrolysis, and TGA and their antioxidant activities were measured (DPPH method). Molecular weights were in the order: CHI-4 and CHI-5 (MW >50 kDa) > CHI-3 > CHI-2 and CHI-1 (MW < 20 kDa). CHI-1, CHI-2 and CHI-3 are under their hydrochloride form, CHI-4 and CHI-5 are under their NH 2 form, and CHI-3 contains a high amount of a chitosan calcium complex. CHI-2 and CHI-3 showed higher scavenging activity than others. The bioactivity against B. cinerea was molecular weight dependent with an IC50 for CHI-1 = CHI-2 (13 mg/L) ≤ CHI-3 (17 mg/L) < CHI-4 (75 mg/L) < CHI-5 (152 mg/L). The bioactivity on P. viticola zoospores was important, even at a very low concentration for all chitosans (no moving spores between 1 and 0.01 g/L). These results show that even at low concentrations and under hydrochloride form, chitosan could be a good alternative to pesticides.

Published

2023

19. Cross Kingdom Immunity: The Role of Immune Receptors and Downstream Signaling in Animal and Plant Cell Death.

Author

Roudaire T, Héloir MC, Wendehenne D, Zadoroznyj A, Dubrez L, and Poinssot B

Subjects

Animals, Humans, Immunity, Innate immunology, Inflammasomes immunology, Receptors, Pattern Recognition immunology, Cell Death immunology, Plant Cells immunology, Plant Immunity immunology, Plants immunology, Receptors, Immunologic immunology, Signal Transduction immunology

Abstract

Both plants and animals are endowed with sophisticated innate immune systems to combat microbial attack. In these multicellular eukaryotes, innate immunity implies the presence of cell surface receptors and intracellular receptors able to detect danger signal referred as damage-associated molecular patterns (DAMPs) and pathogen-associated molecular patterns (PAMPs). Membrane-associated pattern recognition receptors (PRRs), such as Toll-like receptors (TLRs), C-type lectin receptors (CLRs), receptor-like kinases (RLKs), and receptor-like proteins (RLPs) are employed by these organisms for sensing different invasion patterns before triggering antimicrobial defenses that can be associated with a form of regulated cell death. Intracellularly, animals nucleotide-binding and oligomerization domain (NOD)-like receptors or plants nucleotide-binding domain (NBD)-containing leucine rich repeats (NLRs) immune receptors likely detect effectors injected into the host cell by the pathogen to hijack the immune signaling cascade. Interestingly, during the co-evolution between the hosts and their invaders, key cross-kingdom cell death-signaling macromolecular NLR-complexes have been selected, such as the inflammasome in mammals and the recently discovered resistosome in plants. In both cases, a regulated cell death located at the site of infection constitutes a very effective mean for blocking the pathogen spread and protecting the whole organism from invasion. This review aims to describe the immune mechanisms in animals and plants, mainly focusing on cell death signaling pathways, in order to highlight recent advances that could be used on one side or the other to identify the missing signaling elements between the perception of the invasion pattern by immune receptors, the induction of defenses or the transmission of danger signals to other cells. Although knowledge of plant immunity is less advanced, these organisms have certain advantages allowing easier identification of signaling events, regulators and executors of cell death, which could then be exploited directly for crop protection purposes or by analogy for medical research., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Roudaire, Héloir, Wendehenne, Zadoroznyj, Dubrez and Poinssot.)

Published

2021

20. Recognition of Elicitors in Grapevine: From MAMP and DAMP Perception to Induced Resistance.

Author

Héloir MC, Adrian M, Brulé D, Claverie J, Cordelier S, Daire X, Dorey S, Gauthier A, Lemaître-Guillier C, Negrel J, Trdá L, Trouvelot S, Vandelle E, and Poinssot B

Abstract

In a context of a sustainable viticulture, the implementation of innovative eco-friendly strategies, such as elicitor-triggered immunity, requires a deep knowledge of the molecular mechanisms underlying grapevine defense activation, from pathogen perception to resistance induction. During plant-pathogen interaction, the first step of plant defense activation is ensured by the recognition of microbe-associated molecular patterns, which are elicitors directly derived from pathogenic or beneficial microbes. Vitis vinifera , like other plants, can perceive elicitors of different nature, including proteins, amphiphilic glycolipid, and lipopeptide molecules as well as polysaccharides, thanks to their cognate pattern recognition receptors, the discovery of which recently began in this plant species. Furthermore, damage-associated molecular patterns are another class of elicitors perceived by V. vinifera as an invader's hallmark. They are mainly polysaccharides derived from the plant cell wall and are generally released through the activity of cell wall-degrading enzymes secreted by microbes. Elicitor perception and subsequent activation of grapevine immunity end in some cases in efficient grapevine resistance against pathogens. Using complementary approaches, several molecular markers have been identified as hallmarks of this induced resistance stage. This review thus focuses on the recognition of elicitors by Vitis vinifera describing the molecular mechanisms triggered from the elicitor perception to the activation of immune responses. Finally, we discuss the fact that the link between elicitation and induced resistance is not so obvious and that the formulation of resistance inducers remains a key step before their application in vineyards., (Copyright © 2019 Héloir, Adrian, Brulé, Claverie, Cordelier, Daire, Dorey, Gauthier, Lemaître-Guillier, Negrel, Trdá, Trouvelot, Vandelle and Poinssot.)

Published

2019

21. Dual Mode of Action of Grape Cane Extracts against Botrytis cinerea.

Author

De Bona GS, Adrian M, Negrel J, Chiltz A, Klinguer A, Poinssot B, Héloir MC, Angelini E, Vincenzi S, and Bertazzon N

Subjects

Botrytis growth & development, Gene Expression Regulation, Plant, Mycelium drug effects, Mycelium growth & development, Plant Leaves microbiology, Plant Proteins genetics, Plant Proteins metabolism, Stilbenes pharmacology, Botrytis drug effects, Fungicides, Industrial pharmacology, Plant Diseases microbiology, Plant Extracts pharmacology, Plant Stems chemistry, Vitis chemistry, Vitis microbiology

Abstract

Crude extracts of Vitis vinifera canes represent a natural source of stilbene compounds with well characterized antifungals properties. In our trials, exogenous application of a stilbene extract (SE) obtained from grape canes on grapevine leaves reduces the necrotic lesions caused by Botrytis cinerea. The SE showed to possess a direct antifungal activity by inhibiting the mycelium growth. The activation of some grapevine defense mechanism was also investigated. H 2 O 2 production and activation of mitogen-activated protein kinase (MAPK) phosphorylation cascades as well as accumulation of stilbenoid phytoalexins were explored on grapevine cell suspension. Moreover, the transcription of genes encoding for proteins affecting defense responses was analyzed on grapevine plants. The SE induced some grapevine defense mechanisms including MAPK activation, and the expression of pathogenesis-related (PR) genes and of a gene encoding the glutathione-S-transferase 1 ( GST1) . By contrast, treatment of grapevine leaves with SE negatively regulates de novo stilbene production.

Published

2019

22. The grapevine (Vitis vinifera) LysM receptor kinases VvLYK1-1 and VvLYK1-2 mediate chitooligosaccharide-triggered immunity.

Author

Brulé D, Villano C, Davies LJ, Trdá L, Claverie J, Héloir MC, Chiltz A, Adrian M, Darblade B, Tornero P, Stransfeld L, Boutrot F, Zipfel C, Dry IB, and Poinssot B

Subjects

Arabidopsis enzymology, Arabidopsis genetics, Arabidopsis immunology, Arabidopsis Proteins genetics, Chitin metabolism, Chitin pharmacology, Chitosan, Oligosaccharides, Phylogeny, Plant Diseases microbiology, Plant Proteins genetics, Plant Proteins metabolism, Protein Serine-Threonine Kinases genetics, Vitis genetics, Vitis immunology, Arabidopsis Proteins metabolism, Ascomycota physiology, Chitin analogs & derivatives, Plant Diseases immunology, Plant Immunity genetics, Protein Serine-Threonine Kinases metabolism, Vitis enzymology

Abstract

Chitin, a major component of fungal cell walls, is a well-known pathogen-associated molecular pattern (PAMP) that triggers defense responses in several mammal and plant species. Here, we show that two chitooligosaccharides, chitin and chitosan, act as PAMPs in grapevine (Vitis vinifera) as they elicit immune signalling events, defense gene expression and resistance against fungal diseases. To identify their cognate receptors, the grapevine family of LysM receptor kinases (LysM-RKs) was annotated and their gene expression profiles were characterized. Phylogenetic analysis clearly distinguished three V. vinifera LysM-RKs (VvLYKs) located in the same clade as the Arabidopsis CHITIN ELICITOR RECEPTOR KINASE1 (AtCERK1), which mediates chitin-induced immune responses. The Arabidopsis mutant Atcerk1, impaired in chitin perception, was transformed with these three putative orthologous genes encoding VvLYK1-1, -2, or -3 to determine if they would complement the loss of AtCERK1 function. Our results provide evidence that VvLYK1-1 and VvLYK1-2, but not VvLYK1-3, functionally complement the Atcerk1 mutant by restoring chitooligosaccharide-induced MAPK activation and immune gene expression. Moreover, expression of VvLYK1-1 in Atcerk1 restored penetration resistance to the non-adapted grapevine powdery mildew (Erysiphe necator). On the whole, our results indicate that the grapevine VvLYK1-1 and VvLYK1-2 participate in chitin- and chitosan-triggered immunity and that VvLYK1-1 plays an important role in basal resistance against E. necator., (© 2018 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.)

Published

2019

23. The Cell Wall-Derived Xyloglucan Is a New DAMP Triggering Plant Immunity in Vitis vinifera and Arabidopsis thaliana .

Author

Claverie J, Balacey S, Lemaître-Guillier C, Brulé D, Chiltz A, Granet L, Noirot E, Daire X, Darblade B, Héloir MC, and Poinssot B

Abstract

Damage-associated molecular patterns (DAMPs) are endogenous molecules that can activate the plant innate immunity. DAMPs can derive from the plant cell wall, which is composed of a complex mixture of cellulose, hemicellulose, and pectin polysaccharides. Fragments of pectin, called oligogalacturonides (OG), can be released after wounding or by pathogen-encoded cell wall degrading enzymes (CWDEs) such as polygalacturonases (PGs). OG are known to induce innate immune responses, including the activation of mitogen-activated protein kinases (MAPKs), production of H 2 O 2 , defense gene activation, and callose deposition. Thus, we hypothesized that xyloglucans (Xh), derived from the plant cell wall hemicellulose, could also act as an endogenous elicitor and trigger a signaling cascade similar to OG. Our results indicate that purified Xh elicit MAPK activation and immune gene expression in grapevine ( Vitis vinifera ) and Arabidopsis ( Arabidopsis thaliana ) to trigger induced resistance against necrotrophic ( Botrytis cinerea ) or biotrophic ( Hyaloperonospora arabidopsidis ) pathogens. Xh also induce resveratrol production in grapevine cell suspension and callose deposition in Arabidopsis which depends on the callose synthase PMR4. In addition, we characterized some signaling components of Xh-induced immunity using Arabidopsis mutants. Our data suggest that Xh-induced resistance against B. cinerea is dependent on the phytoalexin, salicylate, jasmonate, and ethylene pathways.

Published

2018

24. Correction: The Sulfated Laminarin Triggers a Stress Transcriptome before Priming the SA- and ROS-Dependent Defenses during Grapevine's Induced Resistance against Plasmopara viticola.

Author

Gauthier A, Trouvelot S, Kelloniemi J, Frettinger P, Wendehenne D, Daire X, Joubert JM, Ferrarini A, Delledonne M, Flors V, and Poinssot B

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0088145.].

Published

2018

25. Proteomics towards the understanding of elicitor induced resistance of grapevine against downy mildew.

Author

Lemaître-Guillier C, Hovasse A, Schaeffer-Reiss C, Recorbet G, Poinssot B, Trouvelot S, Daire X, Adrian M, and Héloir MC

Subjects

Electrophoresis, Polyacrylamide Gel, Gene Expression Regulation, Plant drug effects, Glucans pharmacology, Plant Leaves drug effects, Plant Leaves microbiology, Plant Proteins drug effects, Vitis physiology, Disease Resistance, Peronospora pathogenicity, Plant Diseases microbiology, Proteomics methods, Vitis microbiology

Abstract

Elicitors are known to trigger plant defenses in response to biotic stress, but do not systematically lead to effective resistance to pathogens. The reasons explaining such differences remain misunderstood. Therefore, elicitation and induced resistance (IR) were investigated through the comparison of two modified β-1,3 glucans applied on grapevine (Vitis vinifera) leaves before and after inoculation with Plasmopara viticola, the causal agent of downy mildew. The sulfated (PS3) and the shortened (H13) forms of laminarin are both known to elicit defense responses whereas only PS3 induces resistance against downy mildew. The analysis of the 2-DE gel electrophoresis revealed that PS3 and H13 induced distinct proteomic profiles after treatment and pathogen inoculation. Our results point out that the PS3-induced resistance is associated with the activation of the primary metabolism especially on amino acids and carbohydrates pathways. In addition, few proteins, such as the 12-oxophytodienoate reductase (OPR-like) related to the OPDA pathway, and an Arsenite-resistance protein (Serrate-like protein) could be considered as useful markers of induced resistance., Significance: One strategy to reduce the application of fungicides is the use of elicitors which induce plant defense responses. Nonetheless, the elicitors do not systematically lead to resistance against pathogens. The lack of correlation between plant defense activation and induced resistance (IR) requires the investigation of what makes the specificity of elicitor-IR. In this study, the two β-glucans elicitors, sulfated (PS3) and short (H13) laminarins, were used in the grapevine/Plasmopara viticola interaction since only the first one leads to resistance against downy mildew. To disclose IR specificity, proteomic approach has been employed to compare the two treatments before and after P. viticola inoculation. The analysis of the 2-DE revealed that PS3 and H13 induced distinct proteomic profiles after treatment and pathogen inoculation. Significant increase of the number of proteins regulated by PS3, relative to both H13 and time-points, is correlated with the resistance process establishment. Our results point that the PS3-induced resistance requires the activation of the primary metabolism especially on amino acids and carbohydrates pathways. In addition, few proteins, such as the 12-oxophytodienoate reductase (OPR-like) related to the OPDA pathway, and an Arsenite-resistance protein (Serrate-like protein) could constitute useful markers of PS3 induced resistance., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

26. Metabolic Fingerprint of PS3-Induced Resistance of Grapevine Leaves against Plasmopara viticola Revealed Differences in Elicitor-Triggered Defenses.

Author

Adrian M, Lucio M, Roullier-Gall C, Héloir MC, Trouvelot S, Daire X, Kanawati B, Lemaître-Guillier C, Poinssot B, Gougeon R, and Schmitt-Kopplin P

Abstract

Induction of plant resistance against pathogens by defense elicitors constitutes an attractive strategy to reduce the use of fungicides in crop protection. However, all elicitors do not systematically confer protection against pathogens. Elicitor-induced resistance (IR) thus merits to be further characterized in order to understand what makes an elicitor efficient. In this study, the oligosaccharidic defense elicitors H13 and PS3, respectively, ineffective and effective to trigger resistance of grapevine leaves against downy mildew, were used to compare their effect on the global leaf metabolism. Ultra high resolution mass spectrometry (FT-ICR-MS) analysis allowed us to obtain and compare the specific metabolic fingerprint induced by each elicitor and to characterize the associated metabolic pathways. Moreover, erythritol phosphate was identified as a putative marker of elicitor-IR.

Published

2017

27. [Fighting bacterial infections : the plant immune system is also very efficient!].

Author

Claverie J, Teyssier L, Brulé D, Héloir MC, Connat JL, Lamotte O, and Poinssot B

Subjects

Alarmins physiology, Animals, Arabidopsis genetics, Arabidopsis immunology, Arabidopsis metabolism, Humans, MAP Kinase Signaling System drug effects, MAP Kinase Signaling System physiology, Pathogen-Associated Molecular Pattern Molecules metabolism, Pathogen-Associated Molecular Pattern Molecules pharmacology, Plant Diseases microbiology, Signal Transduction immunology, Bacterial Infections immunology, Plant Diseases immunology, Plant Immunity physiology

Published

2016

28. Analysis of the Molecular Dialogue Between Gray Mold (Botrytis cinerea) and Grapevine (Vitis vinifera) Reveals a Clear Shift in Defense Mechanisms During Berry Ripening.

Author

Kelloniemi J, Trouvelot S, Héloir MC, Simon A, Dalmais B, Frettinger P, Cimerman A, Fermaud M, Roudet J, Baulande S, Bruel C, Choquer M, Couvelard L, Duthieuw M, Ferrarini A, Flors V, Le Pêcheur P, Loisel E, Morgant G, Poussereau N, Pradier JM, Rascle C, Trdá L, Poinssot B, and Viaud M

Subjects

Botrytis pathogenicity, Cell Wall genetics, Cell Wall metabolism, Cell Wall microbiology, Cyclopentanes metabolism, Fruit growth & development, Fruit microbiology, Gene Expression Profiling methods, Gene Expression Regulation, Developmental, Gene Expression Regulation, Fungal, Gene Expression Regulation, Plant, Gene Ontology, Host-Pathogen Interactions genetics, Oligonucleotide Array Sequence Analysis, Oxylipins metabolism, Plant Diseases microbiology, Reactive Oxygen Species metabolism, Resveratrol, Reverse Transcriptase Polymerase Chain Reaction, Salicylates metabolism, Sesquiterpenes metabolism, Stilbenes metabolism, Virulence genetics, Vitis growth & development, Vitis microbiology, Phytoalexins, Botrytis genetics, Disease Resistance genetics, Fruit genetics, Plant Diseases genetics, Vitis genetics

Abstract

Mature grapevine berries at the harvesting stage (MB) are very susceptible to the gray mold fungus Botrytis cinerea, while veraison berries (VB) are not. We conducted simultaneous microscopic and transcriptomic analyses of the pathogen and the host to investigate the infection process developed by B. cinerea on MB versus VB, and the plant defense mechanisms deployed to stop the fungus spreading. On the pathogen side, our genome-wide transcriptomic data revealed that B. cinerea genes upregulated during infection of MB are enriched in functional categories related to necrotrophy, such as degradation of the plant cell wall, proteolysis, membrane transport, reactive oxygen species (ROS) generation, and detoxification. Quantitative-polymerase chain reaction on a set of representative genes related to virulence and microscopic observations further demonstrated that the infection is also initiated on VB but is stopped at the penetration stage. On the plant side, genome-wide transcriptomic analysis and metabolic data revealed a defense pathway switch during berry ripening. In response to B. cinerea inoculation, VB activated a burst of ROS, the salicylate-dependent defense pathway, the synthesis of the resveratrol phytoalexin, and cell-wall strengthening. On the contrary, in infected MB, the jasmonate-dependent pathway was activated, which did not stop the fungal necrotrophic process.

Published

2015

29. Perception of pathogenic or beneficial bacteria and their evasion of host immunity: pattern recognition receptors in the frontline.

Author

Trdá L, Boutrot F, Claverie J, Brulé D, Dorey S, and Poinssot B

Abstract

Plants are continuously monitoring the presence of microorganisms to establish an adapted response. Plants commonly use pattern recognition receptors (PRRs) to perceive microbe- or pathogen-associated molecular patterns (MAMPs/PAMPs) which are microorganism molecular signatures. Located at the plant plasma membrane, the PRRs are generally receptor-like kinases (RLKs) or receptor-like proteins (RLPs). MAMP detection will lead to the establishment of a plant defense program called MAMP-triggered immunity (MTI). In this review, we overview the RLKs and RLPs that assure early recognition and control of pathogenic or beneficial bacteria. We also highlight the crucial function of PRRs during plant-microbe interactions, with a special emphasis on the receptors of the bacterial flagellin and peptidoglycan. In addition, we discuss the multiple strategies used by bacteria to evade PRR-mediated recognition.

Published

2015

30. Soybean and casein hydrolysates induce grapevine immune responses and resistance against Plasmopara viticola.

Author

Lachhab N, Sanzani SM, Adrian M, Chiltz A, Balacey S, Boselli M, Ippolito A, and Poinssot B

Abstract

Plasmopara viticola, the causal agent of grapevine downy mildew, is one of the most devastating grape pathogen in Europe and North America. Although phytochemicals are used to control pathogen infections, the appearance of resistant strains and the concern for possible adverse effects on environment and human health are increasing the search for alternative strategies. In the present investigation, we successfully tested two protein hydrolysates from soybean (soy) and casein (cas) to trigger grapevine resistance against P. viticola. On Vitis vinifera cv. Marselan plants, the application of soy and cas reduced the infected leaf surface by 76 and 63%, as compared to the control, respectively. Since both hydrolysates might trigger the plant immunity, we investigated their ability to elicit grapevine defense responses. On grapevine cell suspensions, a different free cytosolic calcium signature was recorded for each hydrolysate, whereas a similar transient phosphorylation of two MAP kinases of 45 and 49 kDa was observed. These signaling events were followed by transcriptome reprogramming, including the up-regulation of defense genes encoding pathogenesis-related (PR) proteins and the stilbene synthase enzyme responsible for the biosynthesis of resveratrol, the main grapevine phytoalexin. Liquid chromatography analyses confirmed the production of resveratrol and its dimer metabolites, δ- and ε-viniferins. Overall, soy effects were more pronounced as compared to the cas ones. Both hydrolysates proved to act as elicitors to enhance grapevine immunity against pathogen attack.

Published

2014

31. Carbohydrates in plant immunity and plant protection: roles and potential application as foliar sprays.

Author

Trouvelot S, Héloir MC, Poinssot B, Gauthier A, Paris F, Guillier C, Combier M, Trdá L, Daire X, and Adrian M

Abstract

Increasing interest is devoted to carbohydrates for their roles in plant immunity. Some of them are elicitors of plant defenses whereas other ones act as signaling molecules in a manner similar to phytohormones. This review first describes the main classes of carbohydrates associated to plant immunity, their role and mode of action. More precisely, the state of the art about perception of "PAMP, MAMP, and DAMP (Pathogen-, Microbe-, Damage-Associated Molecular Patterns) type" oligosaccharides is presented and examples of induced defense events are provided. A particular attention is paid to the structure/activity relationships of these compounds. The role of sugars as signaling molecules, especially in plant microbe interactions, is also presented. Secondly, the potentialities and limits of foliar sprays of carbohydrates to stimulate plant immunity for crop protection against diseases are discussed, with focus on the roles of the leaf cuticle and phyllosphere microflora.

Published

2014

32. The grapevine flagellin receptor VvFLS2 differentially recognizes flagellin-derived epitopes from the endophytic growth-promoting bacterium Burkholderia phytofirmans and plant pathogenic bacteria.

Author

Trdá L, Fernandez O, Boutrot F, Héloir MC, Kelloniemi J, Daire X, Adrian M, Clément C, Zipfel C, Dorey S, and Poinssot B

Subjects

Amino Acid Sequence, Arabidopsis physiology, Botrytis drug effects, Botrytis physiology, Burkholderia growth & development, Cell Membrane drug effects, Cell Membrane metabolism, Colony Count, Microbial, Computer Simulation, Disease Resistance drug effects, Endophytes drug effects, Flagellin pharmacology, Genetic Complementation Test, Molecular Sequence Data, Mutation genetics, Plant Diseases immunology, Plant Diseases microbiology, Plant Immunity drug effects, Plant Proteins chemistry, Reactive Oxygen Species metabolism, Receptors, Cell Surface chemistry, Species Specificity, Vitis drug effects, Vitis growth & development, Burkholderia physiology, Endophytes growth & development, Epitopes immunology, Flagellin immunology, Plant Proteins metabolism, Receptors, Cell Surface metabolism, Vitis immunology, Vitis microbiology

Abstract

• The role of flagellin perception in the context of plant beneficial bacteria still remains unclear. Here, we characterized the flagellin sensing system flg22-FLAGELLIN SENSING 2 (FLS2) in grapevine, and analyzed the flagellin perception in the interaction with the endophytic plant growth-promoting rhizobacterium (PGPR) Burkholderia phytofirmans. • The functionality of the grapevine FLS2 receptor, VvFLS2, was demonstrated by complementation assays in the Arabidopsis thaliana fls2 mutant, which restored flg22-induced H₂O₂ production and growth inhibition. Using synthetic flg22 peptides from different bacterial origins, we compared recognition specificities between VvFLS2 and AtFLS2. • In grapevine, flg22-triggered immune responses are conserved and led to partial resistance against Botrytis cinerea. Unlike flg22 peptides derived from Pseudomonas aeruginosa or Xanthomonas campestris, flg22 peptide derived from B. phytofirmans triggered only a small oxidative burst, weak and transient defense gene induction and no growth inhibition in grapevine. Although, in Arabidopsis, all the flg22 epitopes exhibited similar biological activities, the expression of VvFLS2 into the fls2 background conferred differential flg22 responses characteristic for grapevine. • These results demonstrate that VvFLS2 differentially recognizes flg22 from different bacteria, and suggest that flagellin from the beneficial PGPR B. phytofirmans has evolved to evade this grapevine immune recognition system., (No claim to original European Union works. New Phytologist © 2013 New Phytologist Trust.)

Published

2014

33. The sulfated laminarin triggers a stress transcriptome before priming the SA- and ROS-dependent defenses during grapevine's induced resistance against Plasmopara viticola.

Author

Gauthier A, Trouvelot S, Kelloniemi J, Frettinger P, Wendehenne D, Daire X, Joubert JM, Ferrarini A, Delledonne M, Flors V, and Poinssot B

Subjects

Cell Death drug effects, Cell Membrane drug effects, Cell Membrane metabolism, Cyclopentanes pharmacology, Disease Resistance drug effects, Gene Expression Regulation, Plant drug effects, Oomycetes drug effects, Oxylipins pharmacology, Plant Diseases genetics, Plant Diseases immunology, Plant Diseases parasitology, Plant Immunity drug effects, Plant Immunity genetics, Signal Transduction genetics, Stress, Physiological drug effects, Stress, Physiological genetics, Transcriptome drug effects, Vitis genetics, Vitis parasitology, Vitis physiology, beta-Glucans pharmacology, Disease Resistance genetics, Glucans pharmacology, Oomycetes physiology, Reactive Oxygen Species metabolism, Salicylic Acid pharmacology, Transcriptome genetics, Vitis immunology

Abstract

Grapevine (Vitis vinifera) is susceptible to many pathogens which cause significant losses to viticulture worldwide. Chemical control is available, but agro-ecological concerns have raised interest in alternative methods, especially in triggering plant immunity by elicitor treatments. The β-glucan laminarin (Lam) and its sulfated derivative (PS3) have been previously demonstrated to induce resistance in grapevine against downy mildew (Plasmopara viticola). However, if Lam elicits classical grapevine defenses such as oxidative burst, pathogenesis-related (PR)-proteins and phytoalexin production, PS3 triggered grapevine resistance via a poorly understood priming phenomenon. The aim of this study was to identify the molecular mechanisms of the PS3-induced resistance. For this purpose we studied i) the signaling events and transcriptome reprogramming triggered by PS3 treatment on uninfected grapevine, ii) grapevine immune responses primed by PS3 during P. viticola infection. Our results showed that i) PS3 was unable to elicit reactive oxygen species (ROS) production, cytosolic Ca(2+) concentration variations, mitogen-activated protein kinase (MAPK) activation but triggered a long lasting plasma membrane depolarization in grapevine cells, ii) PS3 and Lam shared a common stress-responsive transcriptome profile that partly overlapped the salicylate- (SA) and jasmonate-(JA)-dependent ones. After P. viticola inoculation, PS3 specifically primed the SA- and ROS-dependent defense pathways leading to grapevine induced resistance against this biotroph. Interestingly pharmacological approaches suggested that the plasma membrane depolarization and the downstream ROS production are key events of the PS3-induced resistance.

Published

2014

34. Involvement of the glutamate receptor AtGLR3.3 in plant defense signaling and resistance to Hyaloperonospora arabidopsidis.

Author

Manzoor H, Kelloniemi J, Chiltz A, Wendehenne D, Pugin A, Poinssot B, and Garcia-Brugger A

Subjects

Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins genetics, Gene Expression Regulation, Plant, Nitric Oxide metabolism, Oligosaccharides metabolism, Plant Immunity, Reactive Oxygen Species metabolism, Receptors, Glutamate genetics, Signal Transduction, Arabidopsis immunology, Arabidopsis Proteins metabolism, Calcium Signaling, Host-Pathogen Interactions, Oomycetes physiology, Receptors, Glutamate metabolism

Abstract

Like their animal counterparts, plant glutamate receptor-like (GLR) homologs are intimately associated with Ca(2+) influx through plasma membrane and participate in various physiological processes. In pathogen-associated molecular patterns (PAMP)-/elicitor-mediated resistance, Ca(2+) fluxes are necessary for activating downstream signaling events related to plant defense. In this study, oligogalacturonides (OGs), which are endogenous elicitors derived from cell wall degradation, were used to investigate the role of Arabidopsis GLRs in defense signaling. Pharmacological investigations indicated that GLRs are partly involved in free cytosolic [Ca(2+)] ([Ca(2+)]cyt) variations, nitric oxide (NO) production, reactive oxygen species (ROS) production and expression of defense-related genes by OGs. In addition, wild-type Col-0 plants treated with the glutamate-receptor antagonist 6,7-dinitriquinoxaline-2,3-dione (DNQX) had a compromised resistance to Botrytis cinerea and Hyaloperonospora arabidopsidis. Moreover, we provide genetic evidence that AtGLR3.3 is a key component of resistance against H. arabidopsidis. In addition, some OGs-triggered immune events such as defense gene expression, NO and ROS production are also to different extents dependent on AtGLR3.3. Taken together, these data provide evidence for the involvement of GLRs in elicitor/pathogen-mediated plant defense signaling pathways in Arabidopsis thaliana., (© 2013 The Authors The Plant Journal © 2013 John Wiley & Sons Ltd.)

Published

2013

35. Role of glutathione in plant signaling under biotic stress.

Author

Dubreuil-Maurizi C and Poinssot B

Subjects

Arabidopsis genetics, Arabidopsis microbiology, Arabidopsis Proteins genetics, Glutathione genetics, Mutation, Oxidative Stress genetics, Phytophthora, Plant Diseases genetics, Signal Transduction genetics, Stress, Physiological genetics, Arabidopsis metabolism, Arabidopsis Proteins metabolism, Gene Expression Regulation, Plant, Genes, Plant, Glutathione metabolism, Plant Diseases microbiology, Plant Immunity genetics

Abstract

Glutathione (GSH) is a non-protein thiol compound which has been repeatedly reported to play an important role in plant responses during biotic stresses. However, our knowledge of glutathione-related molecular mechanisms underlying plant defense responses still remains limited. We first discovered that the Arabidopsis thaliana phytoalexin deficient 2-1 (pad2-1) mutant was linked to glutathione deficiency since the mutation was identified in the GSH1 gene encoding the first enzyme of glutathione biosynthesis: Glutamate Cysteine Ligase (GCL). Interestingly, this glutathione-deficient mutant pad2-1 also displays a high susceptibility to a wide range of invaders. We recently reported that the glutathione deficiency in pad2-1 is directly related to a low content of GCL protein. In parallel, we highlighted that the altered redox potential in pad2-1 upregulates the oxidative-stress marker genes GR1, GSTF6 and RbohD during infection with the hemibiotrophic oomycete Phytophthora brassicae. Moreover, the impairment of early signaling events such as plasma membrane depolarization, production of nitric oxide and reactive oxygen species also correlates with the reduced hypersensitive response (HR) observed during P. brassicae infection. Concerning the impaired salicylic acid (SA)-dependent pathway in pad2-1, our results indicated that transcripts of IsoChorismate Synthase1 (ICS1, a main enzyme of SA biosynthesis) do not accumulate in response to pathogen. In this review, we integrate previous knowledge and recent discoveries about pad2-1 to better understand the involvement of glutathione in the pad2-1 pleiotropic phenotype observed during biotic stresses.

Published

2012

36. Glutathione deficiency of the Arabidopsis mutant pad2-1 affects oxidative stress-related events, defense gene expression, and the hypersensitive response.

Author

Dubreuil-Maurizi C, Vitecek J, Marty L, Branciard L, Frettinger P, Wendehenne D, Meyer AJ, Mauch F, and Poinssot B

Subjects

Anti-Infective Agents metabolism, Arabidopsis drug effects, Arabidopsis genetics, Arabidopsis parasitology, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Cell Membrane metabolism, Disease Susceptibility, Glutamate-Cysteine Ligase genetics, Host-Pathogen Interactions, Hydrogen Peroxide metabolism, Mutation, Nitric Oxide metabolism, Oxidation-Reduction, Oxidative Stress, Plant Diseases parasitology, Plant Leaves drug effects, Plant Leaves genetics, Plant Leaves parasitology, Plant Leaves physiology, Reactive Oxygen Species metabolism, Salicylic Acid metabolism, Signal Transduction, Stress, Physiological, Arabidopsis physiology, Gene Expression Regulation, Plant physiology, Glutamate-Cysteine Ligase metabolism, Glutathione metabolism, Oligosaccharides pharmacology, Phytophthora physiology

Abstract

The Arabidopsis (Arabidopsis thaliana) phytoalexin-deficient mutant pad2-1 displays enhanced susceptibility to a broad range of pathogens and herbivorous insects that correlates with deficiencies in the production of camalexin, indole glucosinolates, and salicylic acid (SA). The pad2-1 mutation is localized in the GLUTAMATE-CYSTEINE LIGASE (GCL) gene encoding the first enzyme of glutathione biosynthesis. While pad2-1 glutathione deficiency is not caused by a decrease in GCL transcripts, analysis of GCL protein level revealed that pad2-1 plants contained only 48% of the wild-type protein amount. In contrast to the wild type, the oxidized form of GCL was dominant in pad2-1, suggesting a distinct redox environment. This finding was corroborated by the expression of GRX1-roGFP2, showing that the cytosolic glutathione redox potential was significantly less negative in pad2-1. Analysis of oxidative stress-related gene expression showed a higher transcript accumulation in pad2-1 of GLUTATHIONE REDUCTASE, GLUTATHIONE-S-TRANSFERASE, and RESPIRATORY BURST OXIDASE HOMOLOG D in response to the oomycete Phytophthora brassicae. Interestingly, oligogalacturonide elicitation in pad2-1 revealed a lower plasma membrane depolarization that was found to act upstream of an impaired hydrogen peroxide production. This impaired hydrogen peroxide production was also observed during pathogen infection and correlated with a reduced hypersensitive response in pad2-1. In addition, a lack of pathogen-triggered expression of the ISOCHORISMATE SYNTHASE1 gene, coding for the SA-biosynthetic enzyme isochorismate synthase, was identified as the cause of the SA deficiency in pad2-1. Together, our results indicate that the pad2-1 mutation is related to a decrease in GCL protein and that the resulting glutathione deficiency negatively affects important processes of disease resistance.

Published

2011

37. Identification of reference genes suitable for qRT-PCR in grapevine and application for the study of the expression of genes involved in pterostilbene synthesis.

Author

Gamm M, Héloir MC, Kelloniemi J, Poinssot B, Wendehenne D, and Adrian M

Subjects

DNA Primers metabolism, Reference Standards, Reproducibility of Results, Software, Statistics as Topic, Vitis enzymology, Gene Expression Regulation, Plant, Genes, Plant genetics, Reverse Transcriptase Polymerase Chain Reaction methods, Reverse Transcriptase Polymerase Chain Reaction standards, Stilbenes metabolism, Vitis genetics

Abstract

The recent publication of the grapevine genome sequence facilitates the use of qRT-PCR to study gene expression changes. For this approach, reference genes are commonly used to normalize data and their stability of expression should be systematically validated. Among grapevine defenses is the production of the antimicrobial stilbenic phytoalexins, notably the highly fungitoxic pterostilbene, which plays a crucial role in grapevine interaction with Plasmopara viticola and Botrytis cinerea. As a resveratrol O-methyltransferase (ROMT) gene involved in pterostilbene synthesis was recently identified, we investigated the accumulation of the corresponding transcripts to those of two other stilbene biosynthesis related genes phenylalanine ammonia lyase (PAL) and stilbene synthase (STS) in response to pathogen infection. Using three computer-based statistical methods and C(t) values or LRE method generated values as input data, we have first identified two reference genes (VATP16 and 60SRP) suitable for normalization of qPCR expression data obtained in grapevine leaves and berries infected by P. viticola and B. cinerea, respectively. Next, we have highlighted that the expression of ROMT is induced in P. viticola-infected leaves and also in B. cinerea-infected berries, confirming the involvement of pterostilbene in grapevine defenses.

Published

2011

38. beta-aminobutyric acid primes an NADPH oxidase-dependent reactive oxygen species production during grapevine-triggered immunity.

Author

Dubreuil-Maurizi C, Trouvelot S, Frettinger P, Pugin A, Wendehenne D, and Poinssot B

Subjects

Arabidopsis genetics, Arabidopsis immunology, Arabidopsis microbiology, Calcium metabolism, DNA Primers, Hydrogen Peroxide metabolism, Kinetics, Phytophthora immunology, Reverse Transcriptase Polymerase Chain Reaction, Nicotiana microbiology, Vitis genetics, Vitis metabolism, Vitis microbiology, Aminobutyrates pharmacology, NADPH Oxidases metabolism, Phytophthora pathogenicity, Reactive Oxygen Species metabolism, Vitis immunology

Abstract

The molecular mechanisms underlying the process of priming are poorly understood. In the present study, we investigated the early signaling events triggered by beta-aminobutyric acid (BABA), a well-known priming-mediated plant resistance inducer. Our results indicate that, in contrast to oligogalacturonides (OG), BABA does not elicit typical defense-related early signaling events nor defense-gene expression in grapevine. However, in OG-elicited cells pretreated with BABA, production of reactive oxygen species (ROS) and expression of the respiratory-burst oxidase homolog RbohD gene were primed. In response to the causal agent of downy mildew Plasmopara viticola, a stronger ROS production was specifically observed in BABA-treated leaves. This process was correlated with an increased resistance. The NADPH oxidase inhibitor diphenylene iodonium (DPI) abolished this primed ROS production and reduced the BABA-induced resistance (BABA-IR). These results suggest that priming of an NADPH oxidase-dependent ROS production contributes to BABA-IR in the Vitis-Plasmopara pathosystem.

Published

2010

39. Identification of PAD2 as a gamma-glutamylcysteine synthetase highlights the importance of glutathione in disease resistance of Arabidopsis.

Author

Parisy V, Poinssot B, Owsianowski L, Buchala A, Glazebrook J, and Mauch F

Subjects

Amino Acid Sequence, Arabidopsis genetics, Glutamate-Cysteine Ligase genetics, Molecular Sequence Data, Phytophthora physiology, Pseudomonas syringae physiology, Arabidopsis metabolism, Arabidopsis microbiology, Glutamate-Cysteine Ligase metabolism, Glutathione metabolism, Plant Diseases microbiology

Abstract

The Arabidopsis pad2-1 mutant belongs to a series of non-allelic camalexin-deficient mutants. It was originally described as showing enhanced susceptibility to virulent strains of Pseudomonas syringae and was later shown to be hyper-susceptible to the oomycete pathogen Phytophthora brassicae (formerly P. porri). Surprisingly, in both pathosystems, the disease susceptibility of pad2-1 was not caused by the camalexin deficiency, suggesting additional roles of PAD2 in disease resistance. The susceptibility of pad2-1 to P. brassicae was used to map the mutation to the gene At4g23100, which encodes gamma-glutamylcysteine synthetase (gamma-ECS, GSH1). GSH1 catalyzes the first committed step of glutathione (GSH) biosynthesis. The pad2-1 mutation caused an S to N transition at amino acid position 298 close to the active center. The conclusion that PAD2 encodes GSH1 is supported by several lines of evidence: (i) pad2-1 mutants contained only about 22% of wild-type amounts of GSH, (ii) genetic complementation of pad2-1 with wild-type GSH1 cDNA restored GSH production, accumulation of camalexin in response to P. syringae and resistance to P. brassicae and P. syringae, (iii) another GSH1 mutant, cad2-1, showed pad2-like phenotypes, and (iv) feeding of GSH to excised leaves of pad2-1 restored camalexin production and resistance to P. brassicae. Inoculation of Col-0 with P. brassicae caused a coordinated increase in the transcript abundance of GSH1 and GSH2, the gene encoding the second enzyme in GSH biosynthesis, and resulted in enhanced foliar GSH accumulation. The pad2-1 mutant showed enhanced susceptibility to additional pathogens, suggesting an important general role of GSH in disease resistance of Arabidopsis.

Published

2007

40. Elicitor and resistance-inducing activities of beta-1,4 cellodextrins in grapevine, comparison with beta-1,3 glucans and alpha-1,4 oligogalacturonides.

Author

Aziz A, Gauthier A, Bézier A, Poinssot B, Joubert JM, Pugin A, Heyraud A, and Baillieul F

Subjects

Calcium metabolism, Cellulose pharmacology, Cytosol metabolism, Hexuronic Acids pharmacology, RNA, Plant genetics, Reverse Transcriptase Polymerase Chain Reaction, Seedlings drug effects, Seedlings physiology, Transcription, Genetic, Vitis drug effects, Vitis growth & development, Cellulose analogs & derivatives, Dextrins pharmacology, Glucans pharmacology, Oligosaccharides pharmacology, Vitis physiology

Abstract

Cellodextrins (CD), water-soluble derivatives of cellulose composed of beta-1,4 glucoside residues, have been shown to induce a variety of defence responses in grapevine (Vitis vinifera L.) cells. The larger oligomers of CD rapidly induced transient generation of H2O2 and elevation in free cytosolic calcium, followed by a differential expression of genes encoding key enzymes of the phenylpropanoid pathway and pathogenesis-related (PR) proteins as well as stimulation of chitinase and beta-1,3 glucanase activities. Most of these defence reactions were also induced by linear beta-1,3 glucans (betaGlu) and alpha-1,4 oligogalacturonides (OGA) of different degree of polymerization (DP), but the intensity of some reactions induced by CD was different when compared with betaGlu and OGA effects. Moreover, desensitization assays using H2O2 production showed that cells treated with CD remained fully responsive to a second application of OGA, suggesting a different mode of perception of these oligosaccharides by grape cells. None of CD, betaGlu, or OGA induced HSR gene expression nor did they induce cell death. In accordance with elicitor activity in grapevine cells, CD-incubated leaves challenged with Botrytis cinerea also resulted in a significant reduction of the disease. Data suggest that CD could operate via other distinct reaction pathways than betaGlu and OGA. They also highlight the requirement of a specific DP for each oligosaccharide to induce the defence response.

Published

2007

41. Priming: getting ready for battle.

Author

Conrath U, Beckers GJ, Flors V, García-Agustín P, Jakab G, Mauch F, Newman MA, Pieterse CM, Poinssot B, Pozo MJ, Pugin A, Schaffrath U, Ton J, Wendehenne D, Zimmerli L, and Mauch-Mani B

Subjects

Aminobutyrates pharmacology, Animals, Ethylenes pharmacology, Immunity, Innate physiology, Insecta physiology, Plants drug effects, Plants metabolism, Salicylic Acid pharmacology, Signal Transduction drug effects, Plant Physiological Phenomena, Plants microbiology

Abstract

Infection of plants by necrotizing pathogens or colonization of plant roots with certain beneficial microbes causes the induction of a unique physiological state called "priming." The primed state can also be induced by treatment of plants with various natural and synthetic compounds. Primed plants display either faster, stronger, or both activation of the various cellular defense responses that are induced following attack by either pathogens or insects or in response to abiotic stress. Although the phenomenon has been known for decades, most progress in our understanding of priming has been made over the past few years. Here, we summarize the current knowledge of priming in various induced-resistance phenomena in plants.

Published

2006

42. Early signaling events induced by elicitors of plant defenses.

Author

Garcia-Brugger A, Lamotte O, Vandelle E, Bourque S, Lecourieux D, Poinssot B, Wendehenne D, and Pugin A

Subjects

Plants microbiology, Plant Diseases microbiology, Plant Proteins metabolism, Plants metabolism, Signal Transduction physiology

Abstract

Plant pathogen attacks are perceived through pathogen-issued compounds or plant-derived molecules that elicit defense reactions. Despite the large variety of elicitors, general schemes for cellular elicitor signaling leading to plant resistance can be drawn. In this article, we review early signaling events that happen after elicitor perception, including reversible protein phosphorylations, changes in the activities of plasma membrane proteins, variations in free calcium concentrations in cytosol and nucleus, and production of nitric oxide and active oxygen species. These events occur within the first minutes to a few hours after elicitor perception. One specific elicitor transduction pathway can use a combination or a partial combination of such events which can differ in kinetics and intensity depending on the stimulus. The links between the signaling events allow amplification of the signal transduction and ensure specificity to get appropriate plant defense reactions. This review first describes the early events induced by cryptogein, an elicitor of tobacco defense reactions, in order to give a general scheme for signal transduction that will be use as a thread to review signaling events monitored in different elicitor or plant models.

Published

2006

43. Integrated signaling network involving calcium, nitric oxide, and active oxygen species but not mitogen-activated protein kinases in BcPG1-elicited grapevine defenses.

Author

Vandelle E, Poinssot B, Wendehenne D, Bentéjac M, and Alain P

Subjects

Botrytis metabolism, Cells, Cultured, Gene Expression Regulation, Plant, Mitogen-Activated Protein Kinases metabolism, Plants, Genetically Modified, Time Factors, Vitis enzymology, Vitis genetics, Calcium metabolism, Fungal Proteins pharmacology, Nitric Oxide metabolism, Reactive Oxygen Species metabolism, Signal Transduction drug effects, Vitis drug effects, Vitis metabolism

Abstract

We have already reported the identification of the endopolygalacturonase 1 (BcPG1) from Botrytis cinerea as a potent elicitor of defense responses in grapevine, independently of its enzymatic activity. The aim of the present study is the analysis of the signaling pathways triggered by BcPG1 in grapevine cells. Our data indicate that BcPG1 induces a Ca2+ entry from the apoplasm, which triggers a phosphorylation-dependent nitric oxide (NO) production via an enzyme probably related to a NO synthase. Then NO is involved in (i) cytosolic calcium homeostasis, by activating Ca2+ release from internal stores and regulating Ca2+ fluxes across the plasma membrane, (ii) plasma membrane potential variation, (iii) the activation of active oxygen species (AOS) production, and (iv) defense gene expression, including phenylalanine ammonia lyase and stilbene synthase, which encode enzymes responsible for phytoalexin biosynthesis. Interestingly enough, mitogen-activated protein kinase (MAPK) activation is independent of this regulation pathway that closely connects Ca2+, NO, and AOS.

Published

2006

44. Characterization of a new, nonpathogenic mutant of Botrytis cinerea with impaired plant colonization capacity.

Author

Kunz C, Vandelle E, Rolland S, Poinssot B, Bruel C, Cimerman A, Zotti C, Moreau E, Vedel R, Pugin A, and Boccara M

Subjects

Arabidopsis anatomy & histology, Arabidopsis microbiology, Arabidopsis physiology, Botrytis genetics, Botrytis metabolism, Enzymes metabolism, Fungal Proteins genetics, Fungal Proteins physiology, Gene Expression Regulation, Fungal, Hydrogen-Ion Concentration, Immunity, Innate physiology, Mutagenesis, Insertional, Onions cytology, Onions microbiology, Oxalic Acid metabolism, Phaseolus anatomy & histology, Phaseolus microbiology, Phaseolus physiology, Plant Leaves anatomy & histology, Plant Leaves microbiology, Reactive Oxygen Species metabolism, Vitis anatomy & histology, Vitis physiology, Botrytis pathogenicity, Mutation, Vitis microbiology

Abstract

Botrytis cinerea is a necrotrophic pathogen that attacks more than 200 plant species. Here, the nonpathogenic mutant A336, obtained via insertional mutagenesis, was characterized. Mutant A336 was nonpathogenic on leaves and fruits, on intact and wounded tissue, while still able to penetrate the host plant. It grew normally in vitro on rich media but its conidiation pattern was altered. The mutant did not produce oxalic acid and exhibited a modified regulation of the production of some secreted proteins (acid protease 1 and endopolygalacturonase 1). Culture filtrates of the mutant triggered an important oxidative burst in grapevine (Vitis vinifera) suspension cells, and the mutant-plant interaction resulted in the formation of hypersensitive response-like necrosis. Genetic segregation analyses revealed that the pathogenicity phenotype was linked to a single locus, but showed that the mutated gene was not tagged by the plasmid pAN7-1. Mutant A336 is the first oxalate-deficient mutant to be described in B. cinerea and it differs from all the nonpathogenic B. cinerea mutants described to date.

Published

2006

45. Laminarin elicits defense responses in grapevine and induces protection against Botrytis cinerea and Plasmopara viticola.

Author

Aziz A, Poinssot B, Daire X, Adrian M, Bézier A, Lambert B, Joubert JM, and Pugin A

Subjects

Base Sequence, Cell Death physiology, Chitinases metabolism, DNA Primers, Gene Expression Regulation, Plant, Glucans, Glycoside Hydrolases metabolism, Plant Extracts biosynthesis, Sesquiterpenes, Signal Transduction, Terpenes, Vitis genetics, Vitis physiology, Phytoalexins, Botrytis pathogenicity, Oomycetes pathogenicity, Polysaccharides physiology, Vitis microbiology

Abstract

Grapevine (Vitis vinifera L.) is susceptible to many pathogens, such as Botrytis cinerea, Plasmopara viticola, Uncinula necator, and Eutypa lata. Phytochemicals are used intensively in vineyards to limit pathogen infections, but the appearance of pesticide-resistant pathogen strains and a desire to protect the environment require that alternative strategies be found. In the present study, the beta-1,3-glucan laminarin derived from the brown algae Laminaria digitata was shown both to be an efficient elicitor of defense responses in grapevine cells and plants and to effectively reduce B. cinerea and P. viticola development on infected grapevine plants. Defense reactions elicited by laminarin in grapevine cells include calcium influx, alkalinization of the extracellular medium, an oxidative burst, activation of two mitogen-activated protein kinases, expression of 10 defense-related genes with different kinetics and intensities, increases in chitinase and beta-1,3-glucanase activities, and the production of two phytoalexins (resveratrol and epsilon-viniferin). Several of these effects were checked and confirmed in whole plants. Laminarin did not induce cell death. When applied to grapevine plants, laminarin reduced infection by B. cinerea and P. viticola by approximately 55 and 75%, respectively. Our data describing a large set of defense reactions in grapevine indicate that the activation of defense responses using elicitors could be a valuable strategy to protect plants against pathogens.

Published

2003

46. The endopolygalacturonase 1 from Botrytis cinerea activates grapevine defense reactions unrelated to its enzymatic activity.

Author

Poinssot B, Vandelle E, Bentéjac M, Adrian M, Levis C, Brygoo Y, Garin J, Sicilia F, Coutos-Thévenot P, and Pugin A

Subjects

Amino Acid Sequence, Base Sequence, Calcium metabolism, Enzyme Activation drug effects, Gene Expression Regulation, Plant drug effects, Hydrogen Peroxide metabolism, Immunity, Innate drug effects, Immunity, Innate genetics, Mitogen-Activated Protein Kinases metabolism, Molecular Sequence Data, Oligosaccharides metabolism, Polygalacturonase metabolism, Polygalacturonase pharmacology, Sequence Homology, Amino Acid, Sequence Homology, Nucleic Acid, Vitis cytology, Vitis genetics, Botrytis enzymology, Polygalacturonase genetics, Vitis metabolism

Abstract

A purified glycoprotein from Botrytis cinerea (strain T4), identified as endopolygalacturonase 1 (T4BcPG1) by mass spectrometry analysis, has been shown to activate defense reactions in grapevine (Vitis vinifera cv. Gamay). These reactions include calcium influx, production of active oxygen species, activation of two mitogen-activated protein kinases, defense gene transcript accumulation, and phytoalexin production. Most of these defense reactions were also activated in grapevine in response to purified oligogalacturonides (OGA) with a degree of polymerization of 9 to 20. In vivo, these active OGA might be a part of the released products resulting from endopolygalacturonase activity on plant cell walls. Nevertheless, the intensity and kinetics of events triggered by OGA were very different when compared with T4BcPG1 effects. Moreover, chemical treatments of T4BcPG1 and desensitization assays have allowed us to discriminate enzymatic and elicitor activities, indicating that elicitor activity was not due to released oligogalacturonides. Thus, BcPG1 should be considered as both an avirulence and a virulence factor. The role of the secreted BcPG1 in the pathogenicity of Botrytis cinerea is discussed.

Published

2003

47. Nonspecific lipid-transfer protein genes expression in grape (Vitis sp.) cells in response to fungal elicitor treatments.

Author

Gomès E, Sagot E, Gaillard C, Laquitaine L, Poinssot B, Sanejouand YH, Delrot S, and Coutos-Thévenot P

Subjects

Amino Acid Sequence, Carrier Proteins metabolism, Cells, Cultured, Cholesterol pharmacology, Cloning, Molecular, Cyclopentanes pharmacology, DNA, Complementary chemistry, DNA, Complementary genetics, Ergosterol pharmacology, Gene Expression Regulation, Plant drug effects, Molecular Sequence Data, Oxylipins, Plant Diseases microbiology, Plant Proteins genetics, Plant Proteins metabolism, Protein Isoforms genetics, Protein Isoforms metabolism, Salicylic Acid pharmacology, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Sitosterols pharmacology, Vitis cytology, Vitis microbiology, Botrytis growth & development, Carrier Proteins genetics, Plant Diseases genetics, Vitis genetics

Abstract

Nonspecific lipid transfer proteins (nsLTPs) are small, basic cystein-rich proteins believed to be involved in plant defense mechanisms. Three cDNAs coding nsLTPs from grape (Vitis vinifera sp.) were cloned by reverse-transcriptase-polymerase chain reaction (RT-PCR) and PCR. The expression of nsLTP genes was investigated in 41B-rootstock grape cell suspension, in response to various defense-related signal molecules. Ergosterol (a fungi-specific sterol) and a proteinaceous elicitor purified from Botrytis cinerea strongly and rapidly induced the accumulation of nsLTP mRNAs. Jasmonic acid, cholesterol, and sitosterol also promoted nsLTPs mRNA accumulation, although to a lesser extent, whereas salicylic acid had no effect. High performance liquid chromatography analysis indicated that the amounts of three LTP isoforms (previously named P1, P2, and P4) were increased by ergosterol. None of the four isoforms displayed any significant antifungal properties, with the exception of the P4 isoform, which reduced Botrytis mycelium growth in vitro, but only in calcium-free medium. The results are discussed in the context of plant-pathogen interactions.

Published

2003