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RESEARCH PRODUCT
Toward the Identification of Two Glycoproteins Involved in the Stomatal Deregulation of Downy Mildew–Infected Grapevine Leaves
Christelle GuillierDelphine PecqueurMarielle AdrianPatrick DucoroyMarie-claire HéloirCaroline TruntzerMagdalena GammGé Raldine Lucchisubject
[SDE] Environmental SciencesProteomicsPhysiology[SDV]Life Sciences [q-bio]stomataMolecular Sequence DataPlant EpidermisFungal ProteinsCell wallPlasmoparaPlasmopara viticolachemistry.chemical_compoundCell WallBotany[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal BiologyComputer SimulationVitisAmino Acid SequencePathogenAbscisic acidPhylogenyproteomicGlycoproteinsPlant DiseasesPlant Proteinsplant-microbe interactionFungal proteinSequence Homology Amino AcidbiologyfungiPlant Stomatafood and beveragesGeneral MedicineChromatography Ion Exchangebiology.organism_classificationApoplast[SDV] Life Sciences [q-bio]Plant LeavesOomycetesBiochemistrychemistryVitis viniferaHost-Pathogen InteractionsPlant Stomata[SDE]Environmental SciencesDowny mildewguard cellAgronomy and Crop Sciencedescription
SPE Pôle IPM UB; International audience; Stomata remain abnormally opened and unresponsive to abscisic acid in grapevine leaves infected by downy mildew. This deregulation occurs from 3 days post inoculation and increases concomitantly with leaf colonization by the pathogen. Using epidermal peels, we demonstrated that the active compound involved in this deregulation is located in the apoplast. Biochemical assays showed that the active compound present in the apoplastic fluids isolated from Plasmopara viticola infected grapevine leaves (IAF) is a CysCys bridge-independent, thermostable and glycosylated protein. Fractionation guided assays based on chromatography / stomatal response and proteomic analysis allowed the identification of both plant and pathogen proteins in the active fraction obtained from IAF. Further in silico analysis and discriminant filtrations based on the comparison between predictions and experimental indications lead to the identification of two V. vinifera proteins as candidates for the observed stomatal deregulation
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-01-01 | Molecular Plant-Microbe Interactions® |