278 resultados para Xanthomonas citri
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Microbiologia Agropecuária - FCAV
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Abstract Background Citrus bacterial canker is a disease that has severe economic impact on citrus industries worldwide and is caused by a few species and pathotypes of Xanthomonas. X. citri subsp. citri strain 306 (XccA306) is a type A (Asiatic) strain with a wide host range, whereas its variant X. citri subsp. citri strain Aw12879 (Xcaw12879, Wellington strain) is restricted to Mexican lime. Results To characterize the mechanism for the differences in host range of XccA and Xcaw, the genome of Xcaw12879 that was completed recently was compared with XccA306 genome. Effectors xopAF and avrGf1 are present in Xcaw12879, but were absent in XccA306. AvrGf1 was shown previously for Xcaw to cause hypersensitive response in Duncan grapefruit. Mutation analysis of xopAF indicates that the gene contributes to Xcaw growth in Mexican lime but does not contribute to the limited host range of Xcaw. RNA-Seq analysis was conducted to compare the expression profiles of Xcaw12879 and XccA306 in Nutrient Broth (NB) medium and XVM2 medium, which induces hrp gene expression. Two hundred ninety two and 281 genes showed differential expression in XVM2 compared to in NB for XccA306 and Xcaw12879, respectively. Twenty-five type 3 secretion system genes were up-regulated in XVM2 for both XccA and Xcaw. Among the 4,370 common genes of Xcaw12879 compared to XccA306, 603 genes in NB and 450 genes in XVM2 conditions were differentially regulated. Xcaw12879 showed higher protease activity than XccA306 whereas Xcaw12879 showed lower pectate lyase activity in comparison to XccA306. Conclusions Comparative genomic analysis of XccA306 and Xcaw12879 identified strain specific genes. Our study indicated that AvrGf1 contributes to the host range limitation of Xcaw12879 whereas XopAF contributes to virulence. Transcriptome analyses of XccA306 and Xcaw12879 presented insights into the expression of the two closely related strains of X. citri subsp. citri. Virulence genes including genes encoding T3SS components and effectors are induced in XVM2 medium. Numerous genes with differential expression in Xcaw12879 and XccA306 were identified. This study provided the foundation to further characterize the mechanisms for virulence and host range of pathotypes of X. citri subsp. citri.
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La cancrosis o chancro bacteriano de los cítricos (CBC) causada por Xanthomonas citri subsp. citri (Xcc) y X. fuscans subsp. aurantifolii, afecta a un gran número de especies dentro de la familia de las rutáceas, especialmente cítricos. Esta enfermedad produce graves pérdidas económicas allí donde está presente, principalmente porque la comercialización de cítricos desde las zonas afectadas hacía zonas libres de cancrosis, está sujeta a fuertes medidas cuarentenarias. La cancrosis se encuentra distribuida a nivel mundial pero no se ha localizado ni en la Unión Europea ni en ningún área del Mediterráneo. Se han descrito tres tipos de cancrosis en función de la gama de huésped y de las características fenotípicas y genotípicas de las bacterias que las producen. La más extendida es la cancrosis tipo A producida por Xcc, dentro de la cual se distinguen los subtipos Aw y A*, originarios de Florida y Sudeste Asiático, respectivamente, que de forma natural solo son capaces de producir enfermedad en lima mejicana. En este trabajo se presentan estudios sobre mecanismos implicados en las primeras etapas de la infección, como la quimiotaxis y formación de biopelículas, en la cancrosis de los cítricos. La quimiotaxis es el proceso por el cual las bacterias se dirigen hacia zonas favorables para su supervivencia y desarrollo. Los perfiles quimiotácticos obtenidos frente a distintas fuentes de carbono, así como los estudios en relación al contenido de proteínas aceptoras de grupos metilo (MCPs), permitieron agrupar a las cepas de Xanthomonas estudiadas en este trabajo, de acuerdo a la enfermedad producida y a su gama de huésped. Todas las cepas mostraron quimiotaxis positiva frente a extractos de hoja y apoplasto de diferentes especies, sin embargo, Xcc 306, X. alfalfae subsp. citrumelonis (Xac) y X. campestris pv. campestris (Xc) manifestaron respuestas más específicas frente a extractos de apoplasto de hojas de naranjo dulce, lima y col china, respectivamente. Dicho resultado nos permite asociar el mecanismo de quimiotaxis con la capacidad de las cepas de Xanthomonas para colonizar estos huéspedes de forma específica. Las cepas estudiadas fueron capaces de realizar movimiento tipo swimming, twitching y sliding en distintos medios, siendo el movimiento swimming el único en el que se encontraron diferencias entre las cepas de Xcc con distinta gama de huésped. En este trabajo se ha estudiado además la formación de biopelículas en superficies bióticas y abióticas, un mecanismo importante tanto para la supervivencia en superficie vegetal como para el desarrollo de la infección. Las cepas de Xanthomonas estudiadas fueron capaces de formar biopelículas in vitro, siendo mayor en un medio que simula el apoplasto y que contiene una baja concentración de nutrientes en comparación con medios que contenían alta concentración de nutrientes. La formación de biopelículas en superficie vegetal se encontró relacionada, en las cepas patógenas de cítricos, con la capacidad para infectar un tejido o huésped determinado. Se han caracterizado algunos de los componentes de la matriz extracelular producida por Xcc, que compone hasta un 90% de las bipoelículas. Entre ellos destaca el ADN extracelular, que tiene un papel como adhesina en las primeras etapas de formación de biopelículas y estructural en biopelículas maduras. Además, se han identificado el pilus tipo IV como componente importante en las biopelículas, que también participa en motilidad. Finalmente, se han realizado estudios sobre la expresión de genes implicados en motilidad bacteriana y formación de biopelículas que han confirmado las diferencias existentes entre cepas de Xcc de amplia y limitada gama de huésped, así como el papel que juegan elementos como el pilus tipo IV o el flagelo en estos procesos. ABSTRACT Xanthomonas citri subsp. citri (Xcc) and X. fuscans subsp. aurantifolii are the causal agents of Citrus Bacterial Canker (CBC) which is one of the most important citrus diseases. CBC affects all Citrus species as well as other species from Rutaceae family. CBC produces strong economic losses; furthermore the commercialization of plants and fruits is restricted from infested to citrus canker free areas. The disease is worldwide distributed in tropical and subtropical areas, however it is not present in the European Union. Three types of CBC have been described according to the host range and phenotypic and genotypic characteristics. CBC type A caused by Xcc is he widest distributed. Within CBC A type two subtypes Aw and A* were described from Florida and Iran respectively, both infecting only Mexican lime. Herein mechanisms connected to early events in the citrus bacterial canker disease such as chemotaxis and biofilm formation, were studied. Chemotaxis allows bacteria to move towards the more suitable environments for its survival, host colonization and infection. Studies performed on citrus pathogenic Xanthomonas and X. campestris pv. campestris (Xc), a crucifer pathogen, have shown different chemotactic profiles towards carbon compound as well as different MCPs profile, which clustered strains according to host range and disease caused. Every strain showed positive chemotaxis toward leaf extracts and apoplastic fluids from sweet orange, Mexican lime and Chinese cabbage leaves. However, a more specific response was found for strains Xcc 306, X. alfalfae subsp. citrumelonis and Xc towards sweet orange, Mexican lime and Chinese cabbage apoplastic fluids, respectively. These results relate chemotaxis with the higher ability of those strains to specifically colonize their proper host. Xanthomonas strains studied were able to perform swimming, sliding and twitching motilities. The ability to swim was variable among CBC strains and seemed related to host range. Biofilm formation is an important virulence factor for Xcc because it allows a better survival onto the plant surface as well as facilitates the infection process. The studied Xanthomonas strains were able to form biofilm in vitro, on both nutrient rich and apoplast mimicking media, furthermore the biofilm formation by all the strains was higher in the apoplast mimicking media. The ability to form biofilm in planta by Xcc and Xac strains was dependent of the host and the tissue colonized. The wide host range CBC strain was able to form biofilm onto several citrus leaves and fruits, however the limited host range CBC strain produced biofilm solely onto Mexican lime leaves and fruits. Furthermore Xac strain, which solely infects leaves of young plants, was not able to develop biofilms on fruits. Some components of the extracellular matrix produced by Xcc strains have been characterized. Extracellular DNA acted as an adhesin at the very early stages of biofilm formation and as structural component of mature biofilm for citrus pathogenic Xanthomonas. Furthermore type IV pilus has been identified as a component of the extracellular matrix in biofilm and motility. Transcriptional studies of genes related with biofilm formation and motility have confirmed the differential behavior found among wide and limited host range CBC strains as well as the role of type IV pili and flagellum on those processes.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Abstract Background Citrus canker is a disease that has severe economic impact on the citrus industry worldwide. There are three types of canker, called A, B, and C. The three types have different phenotypes and affect different citrus species. The causative agent for type A is Xanthomonas citri subsp. citri, whose genome sequence was made available in 2002. Xanthomonas fuscans subsp. aurantifolii strain B causes canker B and Xanthomonas fuscans subsp. aurantifolii strain C causes canker C. Results We have sequenced the genomes of strains B and C to draft status. We have compared their genomic content to X. citri subsp. citri and to other Xanthomonas genomes, with special emphasis on type III secreted effector repertoires. In addition to pthA, already known to be present in all three citrus canker strains, two additional effector genes, xopE3 and xopAI, are also present in all three strains and are both located on the same putative genomic island. These two effector genes, along with one other effector-like gene in the same region, are thus good candidates for being pathogenicity factors on citrus. Numerous gene content differences also exist between the three cankers strains, which can be correlated with their different virulence and host range. Particular attention was placed on the analysis of genes involved in biofilm formation and quorum sensing, type IV secretion, flagellum synthesis and motility, lipopolysacharide synthesis, and on the gene xacPNP, which codes for a natriuretic protein. Conclusion We have uncovered numerous commonalities and differences in gene content between the genomes of the pathogenic agents causing citrus canker A, B, and C and other Xanthomonas genomes. Molecular genetics can now be employed to determine the role of these genes in plant-microbe interactions. The gained knowledge will be instrumental for improving citrus canker control.
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Citrus canker is a disease of citrus and closely related species, caused by the bacterium Xanthomonas citri subsp. citri. This disease, previously exotic to Australia, was detected on a single farm [infested premise-1, (IP1). IP is the terminology used in official biosecurity protocols to describe a locality at which an exotic plant pest has been confirmed or is presumed to exist. IP are numbered sequentially as they are detected] in Emerald, Queensland in July 2004. During the following 10 months the disease was subsequently detected on two other farms (IP2 and IP3) within the same area and studies indicated the disease first occurred on IP1 and spread to IP2 and IP3. The oldest, naturally infected plant tissue observed on any of these farms indicated the disease was present on IP1 for several months before detection and established on IP2 and IP3 during the second quarter (i.e. autumn) 2004. Transect studies on some IP1 blocks showed disease incidences ranged between 52 and 100% (trees infected). This contrasted to very low disease incidence, less than 4% of trees within a block, on IP2 and IP3. The mechanisms proposed for disease spread within blocks include weather-assisted dispersal of the bacterium (e.g. wind-driven rain) and movement of contaminated farm equipment, in particular by pivot irrigator towers via mechanical damage in combination with abundant water. Spread between blocks on IP2 was attributed to movement of contaminated farm equipment and/or people. Epidemiology results suggest: (i) successive surveillance rounds increase the likelihood of disease detection; (ii) surveillance sensitivity is affected by tree size; and (iii) individual destruction zones (for the purpose of eradication) could be determined using disease incidence and severity data rather than a predefined set area.
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Citrus canker is a disease of citrus and closely related species, caused by the bacterium Xanthomonas citri subsp. citri. This disease, previously exotic to Australia, was detected on a single farm [infested premise-1, (IP1). IP is the terminology used in official biosecurity protocols to describe a locality at which an exotic plant pest has been confirmed or is presumed to exist. IP are numbered sequentially as they are detected] in Emerald, Queensland in July 2004. During the following 10 months the disease was subsequently detected on two other farms (IP2 and IP3) within the same area and studies indicated the disease first occurred on IP1 and spread to IP2 and IP3. The oldest, naturally infected plant tissue observed on any of these farms indicated the disease was present on IP1 for several months before detection and established on IP2 and IP3 during the second quarter (i.e. autumn) 2004. Transect studies on some IP1 blocks showed disease incidences ranged between 52 and 100% (trees infected). This contrasted to very low disease incidence, less than 4% of trees within a block, on IP2 and IP3. The mechanisms proposed for disease spread within blocks include weather-assisted dispersal of the bacterium (e.g. wind-driven rain) and movement of contaminated farm equipment, in particular by pivot irrigator towers via mechanical damage in combination with abundant water. Spread between blocks on IP2 was attributed to movement of contaminated farm equipment and/or people. Epidemiology results suggest: (i) successive surveillance rounds increase the likelihood of disease detection; (ii) surveillance sensitivity is affected by tree size; and (iii) individual destruction zones (for the purpose of eradication) could be determined using disease incidence and severity data rather than a predefined set area.
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Citrus canker is a serious disease caused by Xanthomonas citri subsp. citri bacteria, which infects citrus plants (Citrus spp.) leading to a large economic loss in citrus production worldwide. In Brazil citrus canker control is done by an official eradication campaign, therefore early detection of such disease is important to prevent greater economic losses. However, detection is difficult and so far it has been done by visual inspection of each tree. Suspicious leaves from citrus plants in the field are sent to the laboratory to confirm the infection by laboratory analysis, which is a time consuming. Our goal was to develop a new optical technique to detect and diagnose citrus canker in citrus plants with a portable field spectrometer unit. In this paper, we review two experiments on laser induced fluorescence spectroscopy (LIF) applied to detect citrus canker. We also present new data to show that the length of time a leaf has been detached is an important variable in our studies. Our results show that LIF has the potential to be applied to citrus plants.
