0000000000725767

AUTHOR

Thomas Stanislas

showing 3 related works from this author

Rôle de la Dynamique Membranaire dans la Mise en Place des Mécanismes de Défense chez le Tabac

2011

Cryptogein, a protein secreted by the oomycete Phytophthora cryptogea, induces defense mechanisms in tobacco. Several proteins involved in the associated signaling pathway were identified and localized on the plasma membrane (PM). A fraction resistant to solubilization by detergent named DIMs for Detergent Insoluble Membranes, enriched in sterols an sphigolipids had been isolated from tobacco PM. It was proved to contain proteins previously identified as actors of the signaling cascade triggered by cryptogein. In animal cells, the dynamic association of proteins to sterol and sphingolipid rich microdomains under the influence of a biological stimulus plays an essential role in the regulatio…

[SDV.SA]Life Sciences [q-bio]/Agricultural sciences[SDV.SA] Life Sciences [q-bio]/Agricultural sciencesCryptogéineDynamin Related Protein (DRP)Mécanisme de défenseLipid raftQuantitative proteomic analysisTabacMicrodomaine membranaireTobaccoDynamin-Related Protein (DRP)Analyse proteomique quantitativeCryptogein[ SDV.SA ] Life Sciences [q-bio]/Agricultural sciencesDefense mechanism
researchProduct

Quantitative proteomics reveals a dynamic association of proteins to detergent-resistant membranes upon elicitor signaling in tobacco.

2009

International audience; A large body of evidence from the past decade supports the existence, in membrane from animal and yeast cells, of functional microdomains playing important roles in protein sorting, signal transduction, or infection by pathogens. In plants, as previously observed for animal microdomains, detergent-resistant fractions, enriched in sphingolipids and sterols, were isolated from plasma membrane. A characterization of their proteic content revealed their enrichment in proteins involved in signaling and response to biotic and abiotic stress and cell trafficking suggesting that these domains were likely to be involved in such physiological processes. In the present study, w…

0106 biological sciencesProteomicsGTPase-activating proteinQuantitative proteomicsDetergentsPlasma protein bindingBiologymedicine.disease_causeProteomics01 natural sciencesBiochemistryMass SpectrometryAnalytical ChemistryCell membraneFungal Proteins03 medical and health sciencesProtein targetingTobaccomedicine[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyMolecular Biology030304 developmental biologyPlant Proteins0303 health sciencesFungal proteinStaining and LabelingResearchAlgal ProteinsCell MembraneCell biologymedicine.anatomical_structureBiochemistryLuminescent MeasurementsSignal transductionPeptidesReactive Oxygen Species010606 plant biology & botanyProtein BindingSignal TransductionMolecularcellular proteomics : MCP
researchProduct

Ratiometric fluorescence live imaging analysis of membrane lipid order in Arabidopsis mitotic cells using a lipid order-sensitive probe

2016

SPE Pôle IPM; International audience; Eukaryotic cells contain membranes exhibiting different levels of lipid order mostly related to their relative amount of sterol-rich domains, thought to mediate temporal and spatial organization of cellular processes. We previously provided evidence in Arabidopsis thaliana that sterols are crucial for execution of cytokinesis, the last stage of cell division. Recently, we used di-4-ANEPPDHQ, a fluorescent probe sensitive to order of lipid phases, to quantify the level of membrane order of the cell plate, the membrane structure separating daughter cells during somatic cytokinesis of higher plant cells. By employing quantitative, ratiometric fluorescence …

0301 basic medicineDi-4-ANEPPDHQmembrane orderbiologyCell divisionMembrane lipidsarabidopsis suspension cellCell platemitosis protocolbiology.organism_classificationCell biology03 medical and health sciences030104 developmental biologyLive cell imagingarabidopsis rootArabidopsisArabidopsis thalianacell plate[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyMitosisCytokinesis
researchProduct