Search results for "medicago truncatula"
showing 10 items of 90 documents
Crosstalks between soil microbial communities and a nitrogen fixing legume species (medicago truncatula) during its Vegetative Stage
2010
International audience
Signalisation moléculaire des réponses immunes chez la plante Medicago truncatula - Rôle de la nutrition
2014
Rapport de stage de Master II R SPE IPM CT1; Master
Label-free 1-DE-LC-MS/MS to identify arbuscular mycorrhiza-related membrane proteins
2012
Deep changes in the shape and number of organelles, together with profound modifications in various membrane compartments, are induced within arbuscular mycorrhizal (AM) symbiosis. In this context, to investigate the membrane-associated proteins that are regulated in the model interaction Medicago truncatula – Rhizophagus irregularis, label-free 1DE-LC-MS/MS approach has been employed as alternative to two-dimensional gel electrophoresis. The existence of a correlation between protein abundance and peak areas or number of MS/MS spectra has widened the choice of label-free quantitative proteomics. The results highlighted microsomal protein candidates that could be involved in the symbiotic e…
The contribution of M. truncatula to the understanding of complex developmental processes in legumes: the case for seed reserve accumulation
2009
National audience
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…
Etude de la régulation du facteur de transcription ATB2 chez Medicago truncatula
2013
Rapport de stage de Master 2 Spécialité Biologie Intégrative des Interactions Plantes, Microbes, Environnement BAP GEAPSI; Master; Climatic changes since more than a century combined with the urge for better crop yields due to a huge demographic growth and coupled with the need for a more sustainable agriculture led to a number of stresses for plants. Understanding them and their effect on growth, seed quality and seed production of plants is one of the most important agronomical issues of our time. We have chosen to study legumes because they are a major lipid and protein source, as both food and feed, and for their unique ability to absorb the atmospheric nitrogen via a symbiosis with Rhi…
Medicago truncatula gene responses specific to arbuscular mycorrhiza interactions
2006
International audience
Influence de l'auxine sur le developpement in vitro de la graine de Medicago truncatula, genotype sauvage et transformants
2012
Rapport de stage Master 1 Sciences, Technologies, Vie, Terre et Santé. Spécialité Biologie Cellulaire et Physiologie BAP GEAPSI CT2
Influence du système de sécrétion de type III bactérien dans les intéractions plantes-Pseudomonas spp. fluorescents non pathogènes
2012
http://prodinra.inra.fr/record/271693SPEEAEcolDurCT3; L’objectif de cette thèse a été de contribuer à faire progresser les connaissances sur les interactions bénéfiques entre les plantes et les microorganismes en évaluant la contribution des systèmes de sécrétion de type III (SST3). Une synthèse des connaissances disponibles relatives aux SST3 chez les Pseudomonas non pathogènes, saprotrophes ou mutualistes, montre que les SST3 ne sont pas cantonnés aux interactions parasites ou pathogènes avec les plantes. Dans la première étude expérimentale, nous avons utilisé différents génotypes de Medicago truncatula Gaertn. cv. Jemalong capables (Myc+) ou non (Myc-) d’établir une symbiose mycorhizien…
Different Medicago truncatula genotypes, expressing different phenotypes, modulate microbial functional genes in the rhizosphere
2022
Plants host in their rhizosphere a remarkable diversity of microorganisms that in return promote plant growth and health. Thus, the plant microbiota emerges as a novel component that expand the capacity of plants to adapt to the environment, and thus pave the way for future breeding approaches.It is widely known that different plant species harbor different microbiota, but very few studies showed an impact of the plant genotypes on the microbiota. These contrasting results may depend on the choice of the tested genotypes.We formulate the hypothesis that only those plant genotypes showing high genetic diversity and expressing different phenotypes harbor different rhizosphere microbiota and a…