Deciphering the role of early molecular interactions between Eucalyptus spp. x Austropuccinia psidii and its pathogenesis / Desvendando a patogênese e o papel das interações moleculares precoces entre Eucalyptus spp. x Austropuccinia psidii

Santos, Isaneli Batista dos

13 March 2019

Austropuccinia psidii, the causal agent of myrtle rust, is a biotrophic pathogen, and therefore its growth and development depend on the host tissues. The uredospores of A. psidii infect Eucalyptus by engaging in close contact with the host surface and interacting with the leaf cuticle that provides important chemical and physical signals to trigger the infection process. Due to the inherent characteristics of the Eucalyptus cuticle, it was hypothesized that the preformed mechanism, comprised mostly by cuticular waxes, plays a crucial role in Eucalyptus resistance against A. psidii and its ability to modulate the expression of genes associated to the pathogenicity of A. psidii during the early stage of infection. In chapter 2, the cuticular waxes of Eucalyptus spp. were analyzed to determine their composition or structure and then correlated to susceptibility/resistance to Austropuccinia psidii. Twenty-one Eucalyptus spp. in the field were classified as resistant or susceptible. From these, the resistance/susceptibility level of six Eucalyptus spp. was evaluated in controlled conditions using qPCR, revealing that the pathogen can germinate on the eucalyptus surface of some species without multiplying in the host. CG-TOF-MS analysis detected 26 compounds in the Eucalyptus spp. cuticle and led to the discovery of the role of hexadecanoic acid in the susceptibility of E. grandis and E. phaeotricha to A. psidii. The scanning electron microscopy check revealed differences in A. psidii germination during host infection. It was found a correlation between epicuticular morphology and the resistance to A. psidii. In chapter 3, we investigated gene expression of A. psidii through bioassays in vitro containing cuticular waxes from E. grandis (E. g), E. urograndis (E. ug) and E. urophylla (E. u). Mineral oil (MO) treatment was used to all comparative analysis (negative control). The presence of cuticular waxes from E. g induced the expression of genes encoding proteins related to growth and colonization of A. psidii such as binding proteins (peptidylprolyl isomerase and ribosomal) and cell wall degrading proteins (beta-xylanase). However, other pathogenic proteins were repressed in presence of cuticular wax of E. g, for instance, triosephosphate isomerase, family 18 glycoside hydrolase, mitochondrial ATP carrier, and glutamine-dependent NAD synthetase. The E. ug x MO analysis resulted in DEGs associated with proteins related to membrane transporters and receptors, DNA repair and glycine dehydrogenase. As to the cuticular wax of E. u, it up-regulated the expression of genes encoding proteins associated with pheromone, cutinases, and prefoldin. Thus, for the first time, it was demonstrated a considerable interspecific variation in Eucalyptus species on the susceptibility to A. psidii and its correlation with cuticular waxes chemical compounds that seem to play a synergistic role as a preformed defense mechanism. We also demonstrated that Eucalyptus spp. cuticular waxes may modulate the A. psidii gene expression, suggesting the importance of early plant-pathogen molecular interaction to the development of myrtle rust. / Austropuccinia psidii é o agente causal da ferrugem das mirtáceas com crescimento biotrófico, ou seja, o patógeno depende dos tecidos do hospedeiro para crescer e se desenvolver. Os uredósporos de A. psidii infectam Eucalyptus por meio do contato inicial com a superfície do hospedeiro e também pela interação com a cutícula da folha que por sua vez fornece importantes sinais químicos e físicos capaz de desencadear o processo de infecção. Devido às características inerentes à cutícula de Eucalyptus, consideramos as hipóteses de que o mecanismo pré-formado, composto principalmente pelas ceras cuticulares, desempenha um papel crucial na resistência de Eucalyptus spp. contra A. psidii, e, também, é capaz de modular a expressão fúngica de genes associados a patogenicidade durante o estágio inicial de infecção de A. psidii. No capítulo 2, as ceras cuticulares de Eucalyptus spp. foram analisadas para determinar a composição/estrutura e sua correlação com suscetibilidade/resistência de A. psidii. Vinte e uma espécies de Eucalyptus foram classificadas em campo como resistentes ou suscetíveis. A análise de qPCR de seis Eucalyptus spp. revelou que o patógeno pode germinar na superfície de algumas espécies de eucaliptos sem se multiplicar no tecido hospedeiro. Foram identificados 26 compostos presentes na cutícula de Eucalyptus spp. e descobrimos o papel do ácido hexadecanóico na suscetibilidade de E. grandis e E. phaeotricha à ferrugem. Por meio da microscopia eletrônica de varredura encontramos uma correlação entre a morfologia epicuticular e a resistência contra A. psidii. No capítulo 3 para compreender a expressão gênica de A. psidii realizamos bioensaios (in vitro) contendo as ceras cuticulares de E. grandis (E. g), E. urograndis (E. ug) e E. urophylla (E. u). O tratamento com óleo mineral (MO) foi utilizado em todas as análises comparativas como controle negativo. A presença de ceras cuticulares de E. g induziu a expressão de genes que codificam proteínas relacionadas ao crescimento e colonização de A. psidii, como proteínas de ligação (peptidylprolyl isomerase e ribosomal) e proteínas de degradação da parede celular (beta xilanase). No entanto, outras proteínas patogênicas foram reprimidas na presença da cera cuticular de E. g, por exemplo, triosephosphate isomerase, family 18 glycoside hydrolase, mitochondrial ATP carrier e glutamine-dependent NAD synthetase. A análise de E. ug x MO resultou na ativação de proteínas associadas a transportadores e receptores de membrana, reparo de DNA e glycine dehydrogenase. Já a cera cuticular de E. u induziu a expressão de genes que codificam proteínas associadas a feromônios, cutinases e prefoldin. Pela primeira vez, está sendo apresentado a considerável variação interespecífica em espécies de Eucalyptus quanto à suscetibilidade a ferrugem, e, sua correlação com os compostos químicos de ceras cuticulares, os quais parecem ser um importante mecanismo de defesa pré-formado. Também foi revelado que as ceras cuticulares de Eucalyptus spp. são capazes de modular a expressão gênica de A. psidii, evidenciando o papel da interação molecular planta-patógeno precoce no desenvolvimento da ferrugem das mirtáceas.

Biotrophic fungal

Fungo biotrófico

Lipdomic

Lipidômica

Mecanismo de defesa pré-formado

Preformed defense mechanism

Transcriptoma

Transcriptome

Analyse biologique, génétique et moléculaire de la résistance partielle du riz à Magnaporthe oryzae / Biological, genetic and molecular analysis of partial resistance of rice to Magnaporthe oryzae

Grand, Xavier

15 December 2011

La résistance partielle aux agents pathogènes représente une source importante pour l'amélioration des plantes. Cependant les mécanismes moléculaires sous-jacents à ce type de résistance sont encore mal connus. L'interaction entre le riz et le champignon Magnaporthe oryzae est un modèle de choix pour ce type d'analyse, de nombreuses ressources génétiques et outils d'analyse fonctionnelle étant disponibles. Chez le riz, hormis le gène Pi21 qui contrôle la résistance partielle, aucune information biologique et fonctionnelle ne permet d'expliquer cette forme de résistance. En amont de ce travail de thèse, le phénomène de défense préformée a récemment été identifié ; il est défini par la corrélation entre l'expression des gènes liés à la défense avant infection et la résistance partielle à M. oryzae. L'identification de régulateurs de la résistance partielle et des défenses préformées a été l'objectif de cette thèse. Deux stratégies ont été adoptées. Une étude du transcriptome visant à sélectionner et caractériser des gènes candidats sur la base de leur profil d'expression constitutive a été réalisée. Une méthode de sélection par « guilt-by-association » s'est avérée efficace pour identifier des gènes impliqués dans la résistance de la plante. Les gènes AGO18, Z-BED, HSF23 et CaMBP ont été identifiés comme des régulateurs positifs des défenses de la plante. Les gènes HSF23 et CaMBP contrôlent l'expression constitutive des gènes liés à la défense mais leur sur-expression modifie la croissance des plantes. La sur-expression des gènes Z-BED et AGO18 n'a entraîné aucune modification de la croissance de la plante mais une augmentation de la résistance à M. oryzae, sans modification apparente de l'expression des gènes de défense testés. Le gène Z-BED code pour un facteur de transcription putatif dont on peut faire l'hypothèse qu'il contrôle un ensemble encore inconnu de l'arsenal de défense. Le gène AGO18 code pour une protéine argonaute potentiellement impliquée dans l'extinction de gène via la méthylation de la chromatine. Enfin le gène OB-fold est un régulateur négatif des défenses de la plante dont les cibles, potentiellement des ARN, restent à identifier.La deuxième approche a consisté en une détection de loci contrôlant la densité de lésions causées par M. oryzae. Une zone du génome, PRM1, contrôle ce phénotype, confère une résistance à un spectre de souches relativement large, semble contrôler l'expression de gènes de défense avant et au cours de l'infection, et enfin semble ralentir la croissance du champignon avant pénétration. Cette approche sans a priori renforce l'hypothèse que l'expression des gènes de défense avant infection est associée à la résistance partielle du riz à M. oryzae.De plus amples investigations seront nécessaires pour relier les phénotypes de résistance partielle tels que l'inhibition de la croissance pré-pénétration et la densité de lésions entre eux d'une part et d'autre part à l'expression des gènes de défenses avant infection / Partial resistance to pathogens is a major source for plant breeding. However, the molecular mechanisms underlying this type of resistance are still poorly understood. The interaction between rice and the fungus Magnaporthe oryzae is a model of choice for this type of analysis, many genetic and functional analysis tools being available. In rice, except for the Pi21 gene that controls partial resistance, no biological and functional information can explain this form of resistance. Prior to this thesis, the phenomenon of preformed defense has recently been identified; it is defined by the correlation between the expression of genes related to defense before infection and partial resistance to M. oryzae. Identification of partial resistance and preformed defense regulators has been the objective of this thesis. Two strategies were adopted.A transcriptome analysis to select and characterize candidate genes based on their constitutive expression pattern was performed. A method of selection by "guilt-by-association" has been effective in identifying genes involved in plant resistance. The genes AGO18, Z-BED, HSF23 and CaMBP were identified as positive regulators of plant defenses. The genes HSF23 and CaMBP control the constitutive expression of defense related genes, but their over-expression modifies plant growth. Over-expression of Z-BED and AGO18 genes does not affect plant growth but increases the resistance to M. oryzae, without apparent change in the expression of the defense genes tested. The Z-BED gene encodes for a putative transcription factor that likely controls an unknown set of the defense arsenal. The AGO18 gene encodes an Argonaute protein potentially involved in gene silencing via chromatin methylation. Finally the OB-fold gene is a negative plant defense regulator, and its hypothetical RNA targets remain to be identified.The second approach consisted of detection of loci controlling the lesions density caused by M. oryzae. A region of the genome, PRM1, controls this phenotype, confers resistance to a relatively wide range of isolates, appears to control the expression of defense genes before and during the infection, and finally seems to inhibit the growth of the fungus before penetration. This approach without a priori supports the hypothesis that the expression of defense genes before infection is associated with partial resistance of rice to M. oryzae.Further investigations are needed to link the resistance phenotypes such as partial inhibition of fungal growth pre-penetration and density of these lesions on the one hand, and the defense gene expression before infection on the other hand.

Riz

Magnaporthe oryzae

Résistance partielle

Défense préformée

Résistance quantitative

Transcriptome

Rice

Magnaporthe oryzae

Partial resistance

Preformed defense

Quantitative resistance

Transcriptome