Search results for " Medicago truncatula"

showing 4 items of 4 documents

Medicago truncatula

2012

In plants, long distance transport of sugars from photosynthetic source leaves to sink organs comprises different crucial steps depending on the species and organ types. Sucrose, the main carbohydrate for long distance transport is synthesized in the mesophyll and then loaded into the phloem. After long distance transport through the phloem vessels, sucrose is finally unloaded towards sink organs. Alternatively, sugar can also be transferred to non‐plant sinks and plant colonization by heterotrophic organisms increases the sink strength and creates an additional sugar demand for the host plant. These sugar fluxes are coordinated by transport systems. Main sugar transporters in plants compri…

[SDE] Environmental Sciences570Sucrose transporterMonosaccharide transporterMST[SDV.SA] Life Sciences [q-bio]/Agricultural scienceschampignonfungifood and beverages500Sugar partitioningArbuscular mycorrhizal symbiosisSUTsugar transport sucrose transporter SUT monosaccharide transporter MST sugar partitioning Medicago truncatula Glomus intraradices arbuscular mycorrhizal symbiosis.Pas de mot-clé en français[SDV] Life Sciences [q-bio]sucreFOS: Biological sciencesSugar transportMedicago truncatulaGlomus intraradices[SDV.BV] Life Sciences [q-bio]/Vegetal Biologyluzerne tronquée
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Transcriptional response of Medicago truncatula sulphate transporters to arbuscular mycorrhizal symbiosis with and without sulphur stress

2013

Sulphur is an essential macronutrient for plant growth, development and response to various abiotic and biotic stresses due to its key role in the biosynthesis of many S-containing compounds. Sulphate represents a very small portion of soil S pull and it is the only form that plant roots can uptake and mobilize through H(+)-dependent co-transport processes implying sulphate transporters. Unlike the other organically bound forms of S, sulphate is normally leached from soils due to its solubility in water, thus reducing its availability to plants. Although our knowledge of plant sulphate transporters has been growing significantly in the past decades, little is still known about the effect of…

[SDE] Environmental SciencesmycorhizesTranscription Genetic[SDV]Life Sciences [q-bio]Anion Transport Proteinschemistry.chemical_elementmycorrhizaPlant Sciencesulfatechemistry.chemical_compoundBiosynthesisGene Expression Regulation PlantStress PhysiologicalMycorrhizaeBotanyGenetics[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal BiologyRNA MessengerSymbiosisGeneMedicagiPhylogenyAbiotic componentMedicagobiologyarbuscular mycorrhiza ; glomus intraradices ; medicago truncatula ; sulphate ; transportersGene Expression ProfilingfungiComputational Biologyfood and beveragesTransportermedicago truncatulabiology.organism_classificationSulfurMedicago truncatulaArbuscular mycorrhiza[SDV] Life Sciences [q-bio]chemistryOrgan Specificitytransportertransport[SDE]Environmental SciencessulphurSulfur
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Plant gene responses to Glomus mosseae in compatible and incompatible genotypes of Medicago truncatula

2006

International audience

[SDV] Life Sciences [q-bio]Glomus mosseae[SDV]Life Sciences [q-bio][SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal Biologygenotypes of Medicago truncatulaComputingMilieux_MISCELLANEOUS
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Etude de l’interaction plante-communautés microbiennes de la rhizosphère chez l’espèce modèle Medicago truncatula par une approche multidisciplinaire…

2012

The soil microbial communities can improve plant growth by increasing soil nutrient availability, thereby promoting their uptake by the plant. In an overall context of input reduction, the plant nutrition should be increasingly based on plant- rhizosphere microbial communities’ interactions. Yet, very few studies have examined the entire rhizosphere microbial communities in relationship with both plant genotype and phenotype. The aim of this thesis was to study the plant genotype effect on the rhizosphere microbial communities in relationship with the plant nutritional strategies. To do so, the plant-rhizosphere microbial communities’ interaction was assessed by a multidisciplinary approach…

[SDV] Life Sciences [q-bio][SDE] Environmental Sciencesstructure génétiquecommunauté microbienneMedicago truncatulanutrition carbonée et azotée[SDV.BV] Life Sciences [q-bio]/Vegetal Biologycommunautés microbiennes croissance diversité environnement génotype Medicago truncatula nutrition carbonée et azotée rhizosphère structure génétiquegénotyperhizosphèrecroissanceenvironnementdiversité
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