Characterization of lipid rafts from Medicago truncatula root plasma membranes: a proteomic study reveals the presence of a raft-associated redox system
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Nitric oxide-sphingolipid interplays in plant signalling: a new enigma from the Sphinx?Annexin-Mediated Calcium Signalling in PlantsImpaired sterol ester synthesis alters the response of Arabidopsis thaliana to Phytophthora infestans.Plasma membrane localization of Solanum tuberosum remorin from group 1, homolog 3 is mediated by conformational changes in a novel C-terminal anchor and required for the restriction of potato virus X movement].Large-scale phosphoprotein analysis in Medicago truncatula roots provides insight into in vivo kinase activity in legumes.Cell wall constrains lateral diffusion of plant plasma-membrane proteins.Refurbishing the plasmodesmal chamber: a role for lipid bodies?Functional association of cell death suppressor, Arabidopsis Bax inhibitor-1, with fatty acid 2-hydroxylation through cytochrome b₅.Auxin-responsive genes AIR12 code for a new family of plasma membrane b-type cytochromes specific to flowering plants.Plant flotillins are required for infection by nitrogen-fixing bacteria.Membrane-bound guaiacol peroxidases from maize (Zea mays L.) roots are regulated by methyl jasmonate, salicylic acid, and pathogen elicitors.Toward atomic force microscopy and mass spectrometry to visualize and identify lipid rafts in plasmodesmataA remorin protein interacts with symbiotic receptors and regulates bacterial infectionPositioning of the SCRAMBLED receptor requires UDP-Glc:sterol glucosyltransferase 80B1 in Arabidopsis rootsFunctional domain analysis of the Remorin protein LjSYMREM1 in Lotus japonicus.Arabidopsis thaliana Remorins Interact with SnRK1 and Play a Role in Susceptibility to Beet Curly Top Virus and Beet Severe Curly Top VirusEmerging roles for microtubules in angiosperm pollen tube growth highlight new research cues.Lipid raft redox signaling: molecular mechanisms in health and disease.Differential effect of plant lipids on membrane organization: specificities of phytosphingolipids and phytosterols.Characterisation of detergent-insoluble membranes in pollen tubes of Nicotiana tabacum (L.).Direct purification of detergent-insoluble membranes from Medicago truncatula root microsomes: comparison between floatation and sedimentation.Grain setting defect1 (GSD1) function in rice depends on S-acylation and interacts with actin 1 (OsACT1) at its C-terminal.Mapping of Membrane Lipid Order in Root Apex Zones of Arabidopsis thaliana.CXCR4-tropic, but not CCR5-tropic, human immunodeficiency virus infection is inhibited by the lipid raft-associated factors, acyclic retinoid analogs, and cholera toxin B subunit.Detergent-resistant plasma membrane proteome to elucidate microdomain functions in plant cellsAnnexins: multifunctional components of growth and adaptation.Plant lectins: the ties that bind in root symbiosis and plant defenseProteome analysis of detergent-resistant membranes (DRMs) associated with OsRac1-mediated innate immunity in riceQuantitative proteomics reveals a dynamic association of proteins to detergent-resistant membranes upon elicitor signaling in tobacco.How Very-Long-Chain Fatty Acids Could Signal Stressful Conditions in Plants?Very long chain fatty acid and lipid signaling in the response of plants to pathogens.Cytochromes b561: ascorbate-mediated trans-membrane electron transport.Biotrophic transportome in mutualistic plant-fungal interactions.Sub-cellular proteomics of Medicago truncatulaTrafficking of plant plasma membrane aquaporins: multiple regulation levels and complex sorting signals.At the border: the plasma membrane-cell wall continuum.Raft-like membrane domains in pathogenic microorganisms.The Potential of α-Spinasterol to Mimic the Membrane Properties of Natural Cholesterol.Legume proteomics: Progress, prospects, and challenges.Role of the NAD(P)H quinone oxidoreductase NQR and the cytochrome b AIR12 in controlling superoxide generation at the plasma membrane.
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P2860
Characterization of lipid rafts from Medicago truncatula root plasma membranes: a proteomic study reveals the presence of a raft-associated redox system
description
im März 2007 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 02 March 2007
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в травні 2007
@uk
name
Characterization of lipid raft ...... a raft-associated redox system
@en
Characterization of lipid raft ...... a raft-associated redox system
@nl
type
label
Characterization of lipid raft ...... a raft-associated redox system
@en
Characterization of lipid raft ...... a raft-associated redox system
@nl
prefLabel
Characterization of lipid raft ...... a raft-associated redox system
@en
Characterization of lipid raft ...... a raft-associated redox system
@nl
P2093
P2860
P356
P1433
P1476
Characterization of lipid raft ...... a raft-associated redox system
@en
P2093
Benoit Lefebvre
Fabienne Furt
Françoise Sargueil-Boiron
Jean-Jacques Bessoule
Jean-Pierre Carde
Julie Cullimore
Marie-Andrée Hartmann
Michel Rossignol
Sébastien Mongrand
P2860
P304
P356
10.1104/PP.106.094102
P407
P577
2007-03-02T00:00:00Z