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Interactions entre résistance induite chez Solanum tuberosum et traits d’histoire de vie et effecteurs de Phytophthora infestans / Interactions between induced resistance in Solanum tuberosum and Phytophthora infestans life history traits and effectors by Cécile THOMASThomas, Cécile 21 March 2019 (has links)
La gestion de Phytophthora infestans, agent du mildiou de la pomme de terre, nécessite l’application d’une quinzaine de traitements par saison culturale. Pour réduire l’usage des fongicides, combiner résistance induite et résistance quantitative pourrait être une bonne stratégie. Elle nécessite cependant une meilleure connaissance des interactions entre les réponses physiologiques de Solanum tuberosum et l’écologie de P. infestans. Dans cet objectif, les réponses de défense induites chez la pomme de terre ont été confrontées aux traits d’histoire de vie et effecteurs de P. infestans. Quatre génotypes présentant différents niveaux de résistance ont été traités avec un filtrat de culture concentré (CCF) de P. infestans induisant la PAMP-triggered immunity (PTI). Des folioles détachées ont ensuite été inoculées avec des souches rapides ou lentes de P. infestans. Les expressions de 14 gènes de défense et de 6 effecteurs ont été analysée simultanément par qRT-PCR.Les symptômes de la maladie ont été mesurés classiquement ou par analyse d’images dans le visible et en fluorescence. Les résultats obtenus montrent que la réduction des symptômes après induction de la PTI est fonction du couple génotype-souche. En effet, l’efficacité des défenses induites par le CCF dépend des stratégies d’échappement (vitesse de croissance) ou d’adaptation (effecteurs) de P. infestans et du potentiel d’inductibilité du génotype (expression des protéines PR). Ainsi, pour optimiser l’utilisation de la résistante induite il serait nécessaire de sélectionner des génotypes inductibles et capables de modu / The management of Phytophthora infestans, responsible for potato late blight, requires the application of about 15 fungicide treatments per cropping season. To reduce the use of pesticides, combining induced resistance and quantitative resistance could be a positive strategy. However, this method requires a better understanding of the interactions between Solanum tuberosum physiological responses and P. infestans ecology. To this end, defense responses induced in potato have been opposed to the pathogen life history traits and effectors. Four potato genotypes with different resistance levels were treated with a concentrated culture filtrate (CCF) of P. infestans inducing PAMPtriggered immunity (PTI). Then, detached leaflets were inoculated with fast- or slow-growing strains of P. infestans.The expression of 14 defense genes and the expression of 6 effectors were analyzed simultaneously by qRT-PCR. Disease symptoms were measured either conventionally or by visible and fluorescence image analysis. The results obtained show that the reduction of symptoms after induction of PTI was specific to the genotype-strain pair. Indeed, the effectiveness of induced defenses by CCF depends on either the escape (growth rate) or adaptation (effectors) strategies of P. infestans and on the genotype inductibility potential (expression of PR proteins). Thus, to optimize the use of induced resistance, it would be necessary to breed inducible genotypes that are able to modulate strains growth rate.
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Investigation of SAR-associated small molecules as inducers of resistance in cucumber and biofilm formation by Pseudomonas syringae pv. tomato in ArabidopsisFufeng, Angela B. 13 June 2019 (has links)
Greenhouse environments often promote bacterial and fungal infections in important crop plants. Exogenous application of chemical inducers could help reduce the severity of infection, or even prevent infection. Small molecules such as glycerol, azelaic acid and pipecolic acid have been implicated as being important signaling molecules during Systemic Acquired Resistance (SAR). To examine if these small molecules could be used to induce resistance in crop plants, exogenous treatment assays were developed in cucumber. Glycerol spray and azelaic acid infiltration induced modest resistance at locally treated leaves. Pipecolic acid soil treatment induced modest resistance in aerial tissue of cucumber plants, and strong resistance when plants were treated weekly. This knowledge may be useful in promoting the commercialization of SAR-associated compounds to protect important crop plants against disease.
Plants possess multiple defense pathways that include an SA signaling component to initiate resistance to microbial pathogens. However, during Age-Related Resistance (ARR) in Arabidopsis, a number of studies support that SA acts as an anti-microbial and anti-biofilm agent against Pseudomonas syringae pv. tomato (Pst) in the plant intercellular space. Little is known about the role of Pst biofilm formation during infection of young plants or if other defense responses act to suppress bacterial biofilm formation. Therefore Pst biofilm formation and the effect of PAMP Triggered Immunity (PTI) on bacterial biofilm formation was examined. PTI was induced with flg22 in wild-type Col-0, fls2, bak1-3 (PTI mutants) and sid2-2 (SA biosynthesis mutant). In vivo bacterial biofilm-like aggregate formation was monitored using Pst DC3000 PDSK-GFPuv and epifluorescence microscopy. Pst aggregate occurrence and size were positively correlated with bacterial success in susceptible plants (wild-type Col-0, fls2, bak1-3, sid2-2), while fewer and smaller bacterial aggregates were observed in Col-0 undergoing PTI. To determine if the extracellular polysaccharide, alginate was a major contributor to biofilm formation, in vivo bacterial aggregate formation was monitored using alginate deficient Pst-GFP. Alginate deficient Pst-GFP and wild-type Pst grew to similar levels in wild-type plants suggesting that the ability to produce alginate was not necessary for Pst pathogenicity and success in planta. Fewer alginate-deficient Pst aggregates were observed compared to wild-type Pst in inoculated plants, suggesting that the ability to produce alginate was modestly important for aggregate formation. These data provide novel insights into how biofilms form in planta, the association between pathogen virulence and biofilm formation, and how plant defense responses such as PTI not only reduce bacterial growth, but also target biofilms. / Thesis / Master of Science (MSc)
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