Gene expression analysis in sweet orange in response to Xanthomonas axonopodis pv. citri and Xanthomonas axonopodis pv. aurantifolii / Expressão diferencial de genes de laranja doce em resposta a infecção por Xanthomonas axonopodis pv. citri e axonopodis pv. aurantifolii

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

The most aggressive form of the citrus canker disease is caused by the bacteria Xanthomonas axonopodis pv. citri (Xac), which can infect all commercial varieties or species of citrus. In addition to Xac, Xanthomonas axonopodis pv. aurantifolii (Xaa) causes a weaker form of the disease, known as cancrose C, which is restricted to Mexican Lime (Citrus aurantifolii). In sweet orange (Citrus sinensis), Xaa triggers a defense response that halts the canker-symptoms development including the epidermal rupture, which is essential for bacterial dissemination. In this work, we approached the differential pathogenicity existing between Xac and Xaa in order to survey the host gene expression associated with symptoms development (cellular hypertrophy and hyperplasia) and defense response in sweet orange. The project presents the identification and initial characterization of differentially expressed genes in response to the infection with the citrus canker pathogens, Xac and Xaa. Three independent strategies were conducted in order to have a detailed transcriptional profiling of orange leaves infected with Xaa, Xac or water as mock control (Differential Display PCR, Suppression Subtractive Hybridization and GeneChip Microarrays). More than 120 candidate genes were validated through quantitative real time PCR or Northern blot. The differentially expressed genes at 6 or 48 hours after infection (hai) were grouped into functional categories: cell-wall remodeling, cell division and expansion, vesicle trafficking, carbon and nitrogen metabolism or hormone signaling, auxin, gibberellin and ethylene. Initially, both Xaa and Xac elicit a defense response associated with pathogen attack that includes the production of reactive oxygen species (ROS) and cell-wall lignification. Notably, the changes in the transcriptional profiles show that Xac suppresses the plant defenses between 6 and 48 hai and at the same time it induces genes related to the cell-wall metabolism, cell division and vesicle trafficking among others. The consequence of this host manipulation by Xac originates a physiological state very similar to that of cell expansion (hypertrophy). The vesicle trafficking inhibitor, Brefeldin A, delayed the development of canker symptoms indicating that this activity is more related to the cellular enlargement than to the defense responses. The transcriptional profile of Xaa-infiltrated leaves highlights the activation of amitogen-activated protein kinase (MAPK) signaling pathway related to pathogen attack with the involvement of other components of defense responses like WRKY-transcriptional factors and ethylene-response elements. Both Xac and Xaa appear to modulate the transcription of genes related to auxin signaling and transport and gibberellin biosynthesis. Treatments of orange leaves with 1- naphthylphthalamic acid (NAA) Resumo: A forma mais agressiva de cancro cítrico, cancrose A, é causada pela bactéria Xanthomonas axonopodis pv citri (Xac), que ataca qualquer variedade ou espécie de citros. Além de Xac, Xanthomonas axonopodis pv aurantifolii (Xaa) causa um tipo mais leve da doença, cancrose C, restrita ao limão Galego (Citrus aurantifolii). Na laranja Pêra (Citrus sinensis), Xaa provoca uma resposta de defesa que impede o desenvolvimento dos sintomas do cancro incluindo a ruptura da epiderme que é fundamental à disseminação da bactéria. Neste trabalho, abordamos a patogenicidade diferencial entre Xac e Xaa na laranja Pêra para estudar a expressão gênica na planta associada ao desenvolvimento dos sintomas (hipertrofia e hiperplasia celular) e à resposta de defesa. O projeto apresenta a identificação e caracterização de genes expressos diferencialmente em resposta à infecção por Xac e Xaa responsáveis pelo cancro cítrico. A partir de três estratégias independentes (Display diferencial de PCR, Hibridação subtrativa suprimida e micro arranjos de DNA) detalhou-se o perfil transcricional de folhas de laranja infiltradas com Xaa, Xac ou água como controle. Mais de 120 genes candidatos foram validados através de PCR quantitativo em tempo real ou hibridação Northern. Os genes diferencialmente expressos a 6 ou 48 hs após da infecção (hai) aparecem agrupados em categorias funcionais como: remodelamento de parede celular, divisão e expansão celular, tráfego de vesículas, resposta de defesa, metabolismo de nitrogênio e carbono e sinalização de hormônios como auxina, giberelina e etileno. Inicialmente, tanto Xaa quanto Xac induzem respostas de defesa associadas com ataque de patógenos incluindo a produção de espécies reativas de oxigênio e lignificação da parede celular. Notavelmente, a mudança no perfil transcricional mostra que Xac suprime as defesas da planta entre 6 e 48 hai, ao mesmo tempo em que induz genes relacionados com o metabolismo da parede celular, divisão celular e trafego de vesículas, entre outros. A conseqüência dessa manipulação transcricional no hospedeiro por parte de Xac dá origem à um estado fisiológico típico de^expansão celular (hipertrofia). O inibidor de trafego de vesículas, Brefeldina A, atrasou o desenvolvimento dos sintomas do cancro, indicando que essa atividade está mais relacionada com hipertrofia celular do que com respostas de defesa.No perfil transcricional de folhas infectadas com Xaa destaca-se a ativação de uma via de sinalização por proteína quinase ativada por patógeno, envolvendo também fatores de transcrição do tipo WRKY, assim como elementos de resposta a etileno. Tanto Xac quanto Xaa parecem modular a transcrição de genes relacionados com sinalização e transporte de auxinas e biosíntese de giberelina. O tratamento de folhas de laranja com, ácido naftalenoacético (NAA) e ácido giberélico (GA3) demonstrou que esses hormônios induzem a expressão de genes de remodelamento de parede celular, biosíntese de giberelina e sinalização de auxína. Além disso, o inibidor de biosíntese de giberelina (Chlorocoline Chloridè) diminuiu significativamente a expressão de genes induzidos por NAA sugerindo que exista uma regulação cruzada entre auxina e giberelina que controla a expressão de genes relacionados com divisão e expansão celular em citros. Finalmente, duas regiões promotoras de genes que codificam proteínas relacionadas com patogenicidade (PR-1 e PR-5) foram isoladas e caracterizadas. Esses genes são fortemente induzidos por Xaa e Xac em 6 e 48 hai. Substancialmente, existem elementos similares com o "upa box" nas regiões promotoras de PR-1 e PR-5. Mediante experimentos de Electrophoretic Mobility Shift Assays (EMSA) demonstrou-se que a proteína PthA4 de Xanthomonas é capaz de ligar-se no "upa box" presente nos promotores de PR-1 e PR-5. Tanto o promotor de PR-1 quanto o de PR-5 dirigem a expressão transitória do gene repórter uidA em N. benthamiana mediante Agro infiltração Abstract: The most aggressive form of the citrus canker disease is caused by the bacteria Xanthomonas axonopodis pv. citri (Xac), which can infect all commercial varieties or species of citrus. In addition to Xac,Xanlhomonas axonopodis pv. aurantifolii (Xaa) causes a weaker form of the disease, known as cancrose C, which is restricted to Mexican Lime {Citrus aurantifolii). In sweet orange {Citrus sinensis), Xaa triggers a defense response that halts the canker-symptoms development including the epidermal rupture, which is essential for bacterial dissemination. In this work, we approached the differential pathogenicity existing between Xac and Xaa in order to survey the host gene expression associated with symptoms development (cellular hypertrophy and hyperplasia) and defense response in sweet orange. The project presents the identification and initial characterization of differentially expressed genes in response to the infection with the citrus canker pathogens, Xac and Xaa. Three independent strategies were conducted in order to have a detailed transcriptional profiling of orange leaves infected with Xaa, Xac or water as mock control (Differential Display PCR, Suppression Subtractive Hybridization and GeneChip Microarrays). More than 120 candidate genes were validated through quantitative real time PCR or Northern blot. The differentially expressed genes at 6 or 48 hours after infection (hai) were grouped into functional categories: cell-wall remodeling, cell division and expansion, vesicle trafficking, carbon and nitrogen metabolism or hormone signaling, auxin, gibberellin and ethylene. Initially, both Xaa and Xac elicit a defense response associated with pathogen attack that includes the production of reactive oxygen species (ROS) and cell-wall lignification. T Notably, the changes in the transcriptional profiles show that Xac suppresses the plant defenses between 6 and 48 hai and at the same time it induces genes related to the cell-wall metabolism, cell division and vesicle trafficking among others. The consequence of this host manipulation by Xac originates a physiological state very similar to that of cell expansion (hypertrophy). The vesicle trafficking inhibitor, Brefeldin A, delayed the development of canker symptoms indicating that this activity is more related to the cellular enlargement than to the defense responses. The transcriptional profile of Xaa-infiltrated leaves highlights the activation of a mitogen-activated protein kinase (MAPK) signaling pathway related to pathogen attack with the involvement of other components of defense responses like WRKY-transcriptional factors and ethylene-response elements. Both Xac and Xaa appear to modulate the transcription of genes related to auxin signaling and transport and gibberellin biosynthesis. Treatments of orange leaves with 1-naphthylphihalamic acid (NAA) e Gihherellic Acid (GKi) demonstrated that these hormones induce the expression of genes related to cell-wall remodeling, gibberellin biosynthesis and auxin signaling. Moreover, the gibberellin-biosynthesis inhibitor (Chlorocoline Chloride) decreased significantly the expression of auxin-induced genes suggesting a cross-talk regulation between auxin and gibberellin controlling the expression of citrus genes associated with cell division and expansion. Finally, two promoter regions of the pathogenesis related (PR) genes, PR-I and PR-5.2, were isolated and characterized. These genes are strongly up-regulated by Xaa and Xac at 6 or 48 hai. Substantially, there are "upd" box-like motifs in the promoter regions of both PR-I and PR-5.2. By means of Electrophoretic Mobility Shift Assays (EMSA) we have demonstrated that PthA4 from Xac is capable of binding the "upd" box-like regions found in PR-1 e PR-5 promoters. Furthermore, both of the isolated promoters (PR-1 and PR-5) address the transient expression of the reporter gene uidA in JV. bethamiana leaves through agro infiltration

ASSUNTO(S)

expressão genica gene expression xanthomonas axonopodis pv. citri xanthomonas axonopodis pv. citri cancro citrico citrus canker

ACESSO AO ARTIGO

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