Search results for "LOTUS-JAPONICUS"

showing 3 items of 3 documents

Sulfate transporters in the plant’s response to drought and salinity: regulation and possible functions

2014

International audience; Drought and salinity are two frequently combined abiotic stresses that affect plant growth, development, and crop productivity. Sulfate, and molecules derived from this anion such as glutathione, play important roles in the intrinsic responses of plants to such abiotic stresses. Therefore, understanding how plants facing environmental constraints re-equilibrate the flux of sulfate between and within different tissues might uncover perspectives for improving tolerance against abiotic stresses. In this review, we took advantage of genomics and post-genomics resources available in Arabidopsis thaliana and in the model legume species Medicago truncatula to highlight and …

[SDV]Life Sciences [q-bio]ArabidopsisPlant Sciencetransporterssulfatelcsh:Plant cultureSULFUR STARVATIONVESICULAR-ARBUSCULAR MYCORRHIZAEchemistry.chemical_compoundMini Review ArticleArabidopsisBotanyArabidopsis thalianaLOTUS-JAPONICUS[SDV.BV]Life Sciences [q-bio]/Vegetal Biologylcsh:SB1-1110SulfateROOT-NODULESGENE-EXPRESSION2. Zero hungerAbiotic componentbiologyIDENTIFICATIONEcologyfungisulfate;transporters;abiotic stresses;M. truncatula;Arabidopsis;VESICULAR-ARBUSCULAR MYCORRHIZAE;ARABIDOPSIS-THALIANA;MEDICAGO-TRUNCATULA;SALT STRESS;GENE-EXPRESSION;SULFUR STARVATION;LOTUS-JAPONICUS;ROOT-NODULES;MAIZE ROOTS;IDENTIFICATIONfood and beverages15. Life on landbiology.organism_classificationMEDICAGO-TRUNCATULAMAIZE ROOTSSulfate transportMedicago truncatulaabiotic stressesSalinitySALT STRESSchemistry[SDE]Environmental SciencesARABIDOPSIS-THALIANAAdaptationM. truncatulaFrontiers in Plant Science

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Transcriptome analysis of the Populus trichocarpa–Rhizophagus irregularis Mycorrhizal Symbiosis: Regulation of Plant and Fungal Transportomes under N…

2017

Nutrient transfer is a key feature of the arbuscular mycorrhizal (AM) symbiosis. Valuable mineral nutrients are transferred from the AM fungus to the plant, increasing its fitness and productivity, and, in exchange, the AM fungus receives carbohydrates as an energy source from the plant. Here, we analyzed the transcriptome of the Populus trichocarpa-Rhizophagus irregularis symbiosis using RNA-sequencing of non-mycorrhizal or mycorrhizal fine roots, with a focus on the effect of nitrogen (N) starvation. In R. irregularis, we identified 1,015 differentially expressed genes, whereby N starvation led to a general induction of gene expression. Genes of the functional classes of cell growth, memb…

0106 biological sciences0301 basic medicineRhizophagus irregularisMICROBE INTERACTIONSPhysiologyarbuscule[SDV]Life Sciences [q-bio]racine finePlant Science01 natural sciencesnitrogenTranscriptomeGene Expression Regulation PlantMycorrhizaeLOTUS-JAPONICUSGLOMUS-INTRARADICESPlant ProteinsGENE-EXPRESSION2. Zero hungerazotePHOSPHATE TRANSPORTERAMMONIUM TRANSPORTERSorgan transplantationGeneral Medicinefood shortageMedicago truncatulaArbuscular mycorrhizasymbiose mycorhiziennePopulusfamineEnergy sourceARBUSCULAR MYCORRHIZABiologySULFUR STARVATION03 medical and health sciencesPHOSPHORUS ACQUISITIONSymbiosistransport de nutrimentsBotanySymbiosisGene Expression Profilingblack cottonwoodCell Biologybiology.organism_classificationMEDICAGO-TRUNCATULATransplantationpopulus trichocarpa030104 developmental biologyMembrane biogenesis010606 plant biology & botanytransplantation

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Protein actors sustaining arbuscular mycorrhizal symbiosis: underground artists break the silence

2013

'Summary' 26 I. 'Casting for a scenario' 26 II. 'Nominees for a preliminary role' 27 III. 'Nominees for a leading role' 32 IV. 'Future artists' 37 'Acknowledgements' 38 References 38 Summary The roots of most land plants can enter a relationship with soil-borne fungi belonging to the phylum Glomeromycota. This symbiosis with arbuscular mycorrhizal (AM) fungi belongs to the so-called biotrophic interactions, involving the intracellular accommodation of a microorganism by a living plant cell without causing the death of the host. Although profiling technologies have generated an increasing depository of plant and fungal proteins eligible for sustaining AM accommodation and functioning, a …

0106 biological sciencesLASER MICRODISSECTIONPhysiologycarbon (C)phosphorus (P)[SDV]Life Sciences [q-bio]Plant Science01 natural sciencesPlant RootsGlomeromycotaMEDICAGO-TRUNCATULA ROOTSRNA interferenceMycorrhizaeLOTUS-JAPONICUSPlastidsMycorrhizaFUNGUS GLOMUS-INTRARADICESPlant ProteinsGENE-EXPRESSIONGenetics0303 health sciencesGene knockdownFungal proteinPHOSPHATE TRANSPORTERarbuscular mycorrhizaCADMIUM STRESS ALLEVIATIONfood and beveragesSTRIGOLACTONE BIOSYNTHESISArbuscular mycorrhizaEPIDERMAL-CELLSProtein Transportmembranes[SDE]Environmental SciencesSignal TransductionINTRACELLULAR ACCOMMODATIONHyphaeBiologybiotrophyPhosphatesFungal Proteins03 medical and health sciencesSymbiosisBotanyGene silencing[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyGlomeromycotaSymbiosis030304 developmental biologyfungi15. Life on landbiology.organism_classificationCarbonsilencing010606 plant biology & botany

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