56 research outputs found
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A protein complex required for polar growth of rhizobial infection threads
Abstract: During root nodule symbiosis, intracellular accommodation of rhizobia by legumes is a prerequisite for nitrogen fixation. For many legumes, rhizobial colonization initiates in root hairs through transcellular infection threads. In Medicago truncatula, VAPYRIN (VPY) and a putative E3 ligase LUMPY INFECTIONS (LIN) are required for infection thread development but their cellular and molecular roles are obscure. Here we show that LIN and its homolog LIN-LIKE interact with VPY and VPY-LIKE in a subcellular complex localized to puncta both at the tip of the growing infection thread and at the nuclear periphery in root hairs and that the punctate accumulation of VPY is positively regulated by LIN. We also show that an otherwise nuclear and cytoplasmic exocyst subunit, EXO70H4, systematically co-localizes with VPY and LIN during rhizobial infection. Genetic analysis shows that defective rhizobial infection in exo70h4 is similar to that in vpy and lin. Our results indicate that VPY, LIN and EXO70H4 are part of the symbiosis-specific machinery required for polar growth of infection threads
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A protein complex required for polar growth of rhizobial infection threads
Abstract: During root nodule symbiosis, intracellular accommodation of rhizobia by legumes is a prerequisite for nitrogen fixation. For many legumes, rhizobial colonization initiates in root hairs through transcellular infection threads. In Medicago truncatula, VAPYRIN (VPY) and a putative E3 ligase LUMPY INFECTIONS (LIN) are required for infection thread development but their cellular and molecular roles are obscure. Here we show that LIN and its homolog LIN-LIKE interact with VPY and VPY-LIKE in a subcellular complex localized to puncta both at the tip of the growing infection thread and at the nuclear periphery in root hairs and that the punctate accumulation of VPY is positively regulated by LIN. We also show that an otherwise nuclear and cytoplasmic exocyst subunit, EXO70H4, systematically co-localizes with VPY and LIN during rhizobial infection. Genetic analysis shows that defective rhizobial infection in exo70h4 is similar to that in vpy and lin. Our results indicate that VPY, LIN and EXO70H4 are part of the symbiosis-specific machinery required for polar growth of infection threads
The Medicago truncatula MtAnn1 Gene Encoding an Annexin Is Induced by Nod Factors and During the Symbiotic Interaction with Rhizobium meliloti
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Efficient transformation of Medicago truncatula cv. Jemalong using the hypervirulent Agrobacterium tumefaciens strain AGL1
International audienceThe efficiency of Agrobacterium tumefaciens transformation of the model legume Medicago truncatula cv. Jemalong (genotype 2HA) was evaluated for strains LBA 4404, C58pMP90, C58pGV2260 and AGL1. Binary vectors carrying promoter-gus/gfp reporter gene fusions and the nptII gene as selectable marker were used for plant in vitro transformation/regeneration. The highest transformation efficiency was obtained with the disarmed hypervirulent strain AGL1 (Ti plasmid TiBo542), for which the percentage of explants forming kanamycin (Km)-resistant calli was double that obtained with each of the other three strains. In addition, we were able to reduce the time necessary for plant regeneration using AGL1, with 24% of the explants generating Km-resistant transgenic plantlets within only 4-5 months of culture. Transgene expression in planta was analysed and found to be conserved in the T-1 descendents
Transcript enrichment of Nod factor-elicited early nodulin genes in purified root hair fractions of the model legume Medicago truncatula
International audienceThis article describes an efficient procedure to study Nod factor-induced gene expression in root hairs of the model legume Medicago truncatula. By developing an improved method of fracturing frozen root hairs, it has been possible to obtain a highly purified root hair fraction from M. truncatula seedlings yielding sufficient RNA for real-time quantitative RT-PCR expression analysis. After Nod factor treatment it was possible to detect up to 100-fold increases of MtENOD11 and pMtENOD11-gus transcript levels in root hair RNA. This corresponds to 5-7-fold higher induction levels than for entire root tissue preparations. Furthermore, the use of these enriched RNA samples has revealed for the first time a very significant induction (30-fold) of the MtENOD40 gene in root hairs in response to Nod factors. It is concluded that the rapid and convenient procedure described here will be particularly useful for detecting tissue-specific low-level gene expression in root hairs responding to Rhizobium Nod factors or other exogenous signals
Caractérisation de deux déterminants moléculaires impliqués dans le processus d'infection lors de l'interaction symbiotique entre la légumineuse modèle Medicago truncatula et sinorhizobium meliloti
TOULOUSE3-BU Sciences (315552104) / SudocSudocFranceF
La régulation transcriptionnelle du gène MtENOD11 au cours des endosymbioses racinaires (caractérisation des éléments cis-régulateurs spécifiques de la réponse aux facteurs Nod)
TOULOUSE3-BU Sciences (315552104) / SudocSudocFranceF
La régulation transcriptionnelle du gène MtENOD11 au cours des endosymbioses racinaires (caractérisation des éléments cis-régulateurs spécifiques de la réponse aux facteurs Nod)
TOULOUSE3-BU Sciences (315552104) / SudocSudocFranceF
The Medicago truncatula MtAnn1 gene encoding an annexin is induced by nod factors and during the symbiotic interaction with Rhizobium meliloti
International audienc
A simple Agrobacterium tumefaciens-mediated transformation method for rapid transgene expression in Medicago truncatula root hairs
International audienceMedicago truncatula is widely used as a model legume for symbiotic and pathogenic microbial interaction studies. Although a number of Agrobacterium-mediated transformation methods have been developed for M. truncatula, a rapid root transformation system was not yet available for this model plant. Here, we describe an easy method for rapid transgene expression in root hairs of M. truncatula, using young seedlings co-cultivated with the disarmed hypervirulent A. tumefaciens strain AGL1. This method leads to efficient expression of various GUS and fluorescent reporters in M. truncatula root hairs. We showed that transgene expression is detected as soon as 2 days following co-culture, in root hairs of a particular responsive zone lying 0.5–2 cm behind the root tip. This method can be used with a variety of M. truncatula genotypes, and is particularly useful for rapid investigation of the sub-cellular localization of fluorescent fusion proteins. Moreover, combining distinct Agrobacterium strains during the initial co-culture step efficiently generates co-transformed root hairs, suitable for co-localization of different fluorescent fusion proteins in the same cell
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