0000000000736204

AUTHOR

Doan T Luu

0000-0001-9765-2125

showing 3 related works from this author

Regulation of endocytosis by external stimuli in plant cells

2009

International audience; Endocytosis is an essential process for the normal growth and development of eukaryotic cells. This mini-review presents an overview of endocytosis regulation in challenging environmental conditions such as nutrient availability, hormonal treatment or abiotic/biotic stress in plant cells. Recent data establishing a relationship between endocytosis and reactive oxygen species (ROS) production are also discussed.

0106 biological sciences[ SDV.BV ] Life Sciences [q-bio]/Vegetal BiologyplantPlant ScienceBiologyabiotic and biotic cuesEndocytosisreactive oxygen species (ROS)01 natural sciencesFight-or-flight response03 medical and health sciencesnutrients[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyEcology Evolution Behavior and Systematics030304 developmental biologyAbiotic componentchemistry.chemical_classification0303 health sciencesReactive oxygen speciesBiotic stressPlant cellEndocytosisCell biologyPlant developmentchemistryNormal growth010606 plant biology & botany
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Cytosolic pH regulates root water transport during anoxic stress through gating of aquaporins.

2003

Flooding of soils results in acute oxygen deprivation (anoxia) of plant roots during winter in temperate latitudes, or after irrigation1, and is a major problem for agriculture. One early response of plants to anoxia and other environmental stresses is downregulation of water uptake due to inhibition of the water permeability (hydraulic conductivity) of roots (Lpr)2,3,4,5. Root water uptake is mediated largely by water channel proteins (aquaporins) of the plasma membrane intrinsic protein (PIP) subgroup6,7,8. These aquaporins may mediate stress-induced inhibition of Lpr2,4,9 but the mechanisms involved are unknown. Here we delineate the whole-root and cell bases for inhibition of water upta…

0106 biological sciencesCell signalingMagnetic Resonance SpectroscopyCell RespirationArabidopsisAquaporin[SDV.BC]Life Sciences [q-bio]/Cellular BiologyGatingBiologyAquaporins01 natural sciencesPlant RootsPermeability03 medical and health sciencesXenopus laevisCytosolAnimalsComputingMilieux_MISCELLANEOUS030304 developmental biologyPlant Diseases0303 health sciencesMultidisciplinaryWater transportMajor intrinsic proteinsWaterBiological TransportHydrogen-Ion Concentration6. Clean waterOxygenCytosolBiochemistryBiophysicsOocytesMembrane channelSignal transductionProtonsABSORPTION HYDRIQUEIon Channel Gating010606 plant biology & botanyNature
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Pollen-stigma adhesion in Brassica spp involves SLG and SLR1 glycoproteins.

1999

The adhesion of pollen grains to the stigma is the first step of pollination in flowering plants. During this step, stigmas discriminate between pollen grains that can and cannot be permitted to effect fertilization. This selection is operated by various constituents of the cell walls of both partners. Several genes structurally related to the self-incompatibility system that prevents self-pollination in Brassica spp are known to target their products into the stigma cell wall. We proposed previously that one of these genes, the one encoding the S locus glycoprotein (SLG)-like receptor 1 (SLR1), which is coexpressed with that encoding SLG, may participate in pollen-stigma adhesion. Here, we…

PollinationPlant ScienceBrassicaBiologymedicine.disease_causeAntibodiesCell wallPollenmedicineCell AdhesionPollen adhesionCell adhesionMicroscopy ImmunoelectronGeneGlycoproteinsPlant Proteinschemistry.chemical_classificationGeneticsfood and beveragesCell BiologyOligonucleotides AntisensePlants Genetically ModifiedPollen hydrationCell biologychemistryMicroscopy Electron ScanningPollenIsoelectric FocusingGlycoproteinResearch ArticleThe Plant cell
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