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1. Soluções para problemáticas forenses da Cannabis sp. no Brasil com foco genético e genômico

Author: Alho, Clarice Sampaio, Astarita, Leandro Vieira, Alho, Clarice Sampaio, and Astarita, Leandro Vieira
Published: 2023

2. Promoção do crescimento de plantas de milho (Zea mays L.) por rizobactérias Streptomyces

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Published: 2023

3. Promoção do crescimento de plantas de milho (Zea mays L.) por rizobactérias Streptomyces

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Published: 2023

4. Soluções para problemáticas forenses da Cannabis sp. no Brasil com foco genético e genômico

Author: Alho, Clarice Sampaio, Astarita, Leandro Vieira, Alho, Clarice Sampaio, and Astarita, Leandro Vieira
Published: 2023

5. Avaliação de rizobactérias Streptomyces para o controle do fitopatógeno Sclerotinia sclerotiorum

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: O Brasil é o maior produtor e exportador no mundo de uma das principais commodities mundiais – a soja. Há diversos fatores que podem prejudicar o potencial de rendimento da soja, entre os quais é possível destacar os danos causados por doenças fúngicas, como o mofo-branco (Sclerotinia sclerotiorum). Este patógeno pode provocar perdas de até 80% na produtividade de uma lavoura. O manejo do mofo branco deve ser realizado através da adoção de várias medidas de controle que visam reduzir a taxa de incidência do mesmo. Dessa forma o controle biológico entra como uma alternativa ao uso de agroquímicos por manter o equilíbrio ecológico do ambiente. O gênero Streptomyces, pertence ao filo Actinobacteria, e possui grande potencial como agente de controle biológico de fitopatógenos devido a produção de compostos bioativos oriundos do seu metabolismo secundário, resultando em moléculas com diversidade química e ação biológica variada, como antibióticos, anti-inflamatórios, além da produção de vitaminas e enzimas, as quais interferem no ciclo celular de fungos. Pretendeu-se neste trabalho avaliar quatro isolados (CLV16, CLV100, CLV103 e CLV115) do gênero Streptomyces para controlar o fungo S. sclerotiorum. Os resultados mostram que os isolados são eficientes em inibir o crescimento do fitopatógeno, ocorrendo a redução no crescimento em 60% (CLV16), 53,2% (CLV103), 30,4% (CLV100) e 31,7% (CLV115). Os resultados indicam que a inibição promovida pelos CLVs não pode ser atribuída a presença de compostos orgânicos voláteis (P=0,18). O crescimento do fungo S. sclerotiorum não foi inibido pelos exsudatos extraídos de culturas líquidas e sólidas de Streptomyces. A ausência de atividade antimicrobiana nos exsudatos dos CLVs sugere que os compostos inibidores podem ser instáveis e terem sido degradados no processo de obtenção das frações semi-purificadas.Análises dos exsudatos produzidos pelos CLVs cultivados em meio sólido indicaram que o CLV16 possuía os maiores níveis de proteínas sol, Brazil is the largest producer and exporter in the world of one of the main world commodities – soybean. There are several factors that can impair the yield potential of soybeans, among which it is possible to highlight the damage caused by fungal diseases, such as white white mold (Sclerotinia sclerotiorum). This pathogen can cause losses of up to 80% in the productivity of a crop. The management of white mold must be carried out through the adoption of several control measures aimed at reducing its incidence rate. In this way, biological control comes as an alternative to the use of agrochemicals for maintaining the ecological balance of the environment. The genus Streptomyces, belongs to the Actinobacteria phylum, and has great potential as a biological control agent for phytopathogens due to the production of bioactive compounds from its secondary metabolism, resulting in molecules with chemical diversity and varied biological action, such as antibiotics, anti-inflammatory drugs, in addition to production of vitamins and enzymes, which interfere with the fungal cell cycle. The aim of this work was to evaluate four isolates (CLV16, CLV100, CLV103 and CLV115) of the genus Streptomyces to control the fungus S. sclerotiorum. The results show that the isolates are efficient in inhibiting the growth of the phytopathogen, with a reduction in growth of 60% (CLV16), 53.2% (CLV103), 30.4% (CLV100) and 31.7% (CLV115). CLV results cannot be attributed to the presence of organic volatiles (P=0.18). The growth of the fungus S. sclerotiorum was not inhibited by exudates extracted from liquid and solid cultures of Streptomyces. The absence of antimicrobial activity in CLV exudates suggests that the inhibitors may be unstable and degraded in the process of obtaining semi-purified fractions. Analysis of exudates, CLVs cultured in solid medium indicate that CLV16 had the highest levels of soluble proteins.No proteins were identified in CLV103. The CLVs are stronger when cultivated
Published: 2022

6. Avaliação de rizobactérias Streptomyces para o controle do fitopatógeno Sclerotinia sclerotiorum

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: O Brasil é o maior produtor e exportador no mundo de uma das principais commodities mundiais – a soja. Há diversos fatores que podem prejudicar o potencial de rendimento da soja, entre os quais é possível destacar os danos causados por doenças fúngicas, como o mofo-branco (Sclerotinia sclerotiorum). Este patógeno pode provocar perdas de até 80% na produtividade de uma lavoura. O manejo do mofo branco deve ser realizado através da adoção de várias medidas de controle que visam reduzir a taxa de incidência do mesmo. Dessa forma o controle biológico entra como uma alternativa ao uso de agroquímicos por manter o equilíbrio ecológico do ambiente. O gênero Streptomyces, pertence ao filo Actinobacteria, e possui grande potencial como agente de controle biológico de fitopatógenos devido a produção de compostos bioativos oriundos do seu metabolismo secundário, resultando em moléculas com diversidade química e ação biológica variada, como antibióticos, anti-inflamatórios, além da produção de vitaminas e enzimas, as quais interferem no ciclo celular de fungos. Pretendeu-se neste trabalho avaliar quatro isolados (CLV16, CLV100, CLV103 e CLV115) do gênero Streptomyces para controlar o fungo S. sclerotiorum. Os resultados mostram que os isolados são eficientes em inibir o crescimento do fitopatógeno, ocorrendo a redução no crescimento em 60% (CLV16), 53,2% (CLV103), 30,4% (CLV100) e 31,7% (CLV115). Os resultados indicam que a inibição promovida pelos CLVs não pode ser atribuída a presença de compostos orgânicos voláteis (P=0,18). O crescimento do fungo S. sclerotiorum não foi inibido pelos exsudatos extraídos de culturas líquidas e sólidas de Streptomyces. A ausência de atividade antimicrobiana nos exsudatos dos CLVs sugere que os compostos inibidores podem ser instáveis e terem sido degradados no processo de obtenção das frações semi-purificadas.Análises dos exsudatos produzidos pelos CLVs cultivados em meio sólido indicaram que o CLV16 possuía os maiores níveis de proteínas sol, Brazil is the largest producer and exporter in the world of one of the main world commodities – soybean. There are several factors that can impair the yield potential of soybeans, among which it is possible to highlight the damage caused by fungal diseases, such as white white mold (Sclerotinia sclerotiorum). This pathogen can cause losses of up to 80% in the productivity of a crop. The management of white mold must be carried out through the adoption of several control measures aimed at reducing its incidence rate. In this way, biological control comes as an alternative to the use of agrochemicals for maintaining the ecological balance of the environment. The genus Streptomyces, belongs to the Actinobacteria phylum, and has great potential as a biological control agent for phytopathogens due to the production of bioactive compounds from its secondary metabolism, resulting in molecules with chemical diversity and varied biological action, such as antibiotics, anti-inflammatory drugs, in addition to production of vitamins and enzymes, which interfere with the fungal cell cycle. The aim of this work was to evaluate four isolates (CLV16, CLV100, CLV103 and CLV115) of the genus Streptomyces to control the fungus S. sclerotiorum. The results show that the isolates are efficient in inhibiting the growth of the phytopathogen, with a reduction in growth of 60% (CLV16), 53.2% (CLV103), 30.4% (CLV100) and 31.7% (CLV115). CLV results cannot be attributed to the presence of organic volatiles (P=0.18). The growth of the fungus S. sclerotiorum was not inhibited by exudates extracted from liquid and solid cultures of Streptomyces. The absence of antimicrobial activity in CLV exudates suggests that the inhibitors may be unstable and degraded in the process of obtaining semi-purified fractions. Analysis of exudates, CLVs cultured in solid medium indicate that CLV16 had the highest levels of soluble proteins.No proteins were identified in CLV103. The CLVs are stronger when cultivated
Published: 2022

7. Efeito de nanopartículas de sílica em plantas de milho (Zea mays L.) tratadas com a rizobactéria Streptomyces (CLV16)

Author: Astarita, Leandro Vieira, Papaléo, Ricardo Meurer, Astarita, Leandro Vieira, and Papaléo, Ricardo Meurer
Abstract: A nanotecnologia abrange diversos campos de conhecimento e traz inúmeros avanços tecnológicos. Com o atual cenário de crescimento populacional e demanda por alimentos, a utilização de nanopartículas vem sendo avaliada como uma ferramenta inovadora para sistemas agrícolas. A cultura do milho está em terceiro lugar na produção mundial de cereais, sendo considerado essencial na alimentação humana e animal. Grande parte dos vegetais absorvem e polimerizam o silício (elemento não-nutriente) em estruturas amorfas de sílica, incorporadas na parede celular das plantas. As nanopartículas artificiais de sílica (NPSiO2) são pequenas (<100 nm), apresentam grande razão superfície-volume e características reativas de superfície. As rizobactérias promotoras de crescimento influenciam positivamente o desenvolvimento de diversas culturas agrícolas através da liberação de substâncias que auxiliam contra patógenos ou na absorção mineral, o gênero Sreptomyces se destaca dentre as diversas rizobactérias promotoras de crescimento. O objetivo deste trabalho foi avaliar o potencial uso de NPSiO2 em plantas de milho e sua interação com o isolado CLV16 de Streptomyces. A toxicidade das NPSiO2 foi determinada através da avaliação da taxa de germinação, do crescimento das plantas e da atividade de enzimas relacionadas ao estresse oxidativo. A interação com a bactéria foi avaliada através de testes in vitro e do crescimento de plantas. Os resultados demonstraram que as NPSiO2 não afetam a taxa de germinação de sementes de milho. NPSiO2 63 nm e 110 nm prejudicaram o crescimento inicial das raízes das plântulas. Contudo, este efeito prejudicial não foi observado em plantas após 45 dias de cultivo. As NPSiO2 não prejudicaram o crescimento do isolado CLV16, independentemente do tamanho e concentração.O isolado CLV16 promoveu o crescimento de plantas de milho de forma semelhante ao observado quando se utilizou somente NPSiO2. A associação de NPSiO2+CLV16 não apresentou diferenças significativas quan, Nanotechnology comprehend a broad range of areas and represents an innovative approach for food production and crop management in the modern agriculture. Maize is in third place in the world cereal production, being considered essential in food. Silicon (non-nutritive element) is absorbed by many plants and polymerized in amorphous silica structures, and incorporated into biological structures such as stem, leaves and roots. Nanoparticles present a high surface-volume ratio, with the size <100 nm. Rhizobacteria that promote plant growth, such as Sreptomyces, are used in the management of many agricultural crops due to their beneficial effects by releasing of substances that help against pathogens or mineral absorption. The aim of this work was to evaluate the NPSiO2 in maize plants and its interaction with the rhizobacteria Streptomyces (CLV16). The toxicity of NPSiO2 was determined through the evaluation of germination rate, plant growth and enzyme activity related to oxidative stress. The interaction with the bacteria was evaluated through in vitro tests and plant growth. According to the results, NPSiO2 does not affect the germination rate. NPSiO2 63 nm and 110 nm impaired the initial growth of seedling roots. However, this harmful effect was not observed in plants after 45 days of growth. NPSiO2 did not interfere the growth of the CLV16, regardless of nanoparticle size and concentration. The CLV16 promoted the growth of maize plants in a similar way to that observed when using only NPSiO2. When seeds were exposed to NPSiO2 220 nm, plant growth was reduced. Plants germinated from seeds treated with NPSiO2 110 nm showed an increment in root growth and fresh and dry shoot mass. Plants sprayed with NPSiO2 showed an increase in the activities of antioxidant enzymes, suggesting that these nanoparticles were plant stressors. .However, plants sprayed with NPSiO2 presented an increment in shoot length and fresh root mass. Thus, NPSiO2 modulated the growth of maize plants
Published: 2020

8. Efeito de nanopartículas de sílica em plantas de milho (Zea mays L.) tratadas com a rizobactéria Streptomyces (CLV16)

Author: Astarita, Leandro Vieira, Papaléo, Ricardo Meurer, Astarita, Leandro Vieira, and Papaléo, Ricardo Meurer
Abstract: A nanotecnologia abrange diversos campos de conhecimento e traz inúmeros avanços tecnológicos. Com o atual cenário de crescimento populacional e demanda por alimentos, a utilização de nanopartículas vem sendo avaliada como uma ferramenta inovadora para sistemas agrícolas. A cultura do milho está em terceiro lugar na produção mundial de cereais, sendo considerado essencial na alimentação humana e animal. Grande parte dos vegetais absorvem e polimerizam o silício (elemento não-nutriente) em estruturas amorfas de sílica, incorporadas na parede celular das plantas. As nanopartículas artificiais de sílica (NPSiO2) são pequenas (<100 nm), apresentam grande razão superfície-volume e características reativas de superfície. As rizobactérias promotoras de crescimento influenciam positivamente o desenvolvimento de diversas culturas agrícolas através da liberação de substâncias que auxiliam contra patógenos ou na absorção mineral, o gênero Sreptomyces se destaca dentre as diversas rizobactérias promotoras de crescimento. O objetivo deste trabalho foi avaliar o potencial uso de NPSiO2 em plantas de milho e sua interação com o isolado CLV16 de Streptomyces. A toxicidade das NPSiO2 foi determinada através da avaliação da taxa de germinação, do crescimento das plantas e da atividade de enzimas relacionadas ao estresse oxidativo. A interação com a bactéria foi avaliada através de testes in vitro e do crescimento de plantas. Os resultados demonstraram que as NPSiO2 não afetam a taxa de germinação de sementes de milho. NPSiO2 63 nm e 110 nm prejudicaram o crescimento inicial das raízes das plântulas. Contudo, este efeito prejudicial não foi observado em plantas após 45 dias de cultivo. As NPSiO2 não prejudicaram o crescimento do isolado CLV16, independentemente do tamanho e concentração.O isolado CLV16 promoveu o crescimento de plantas de milho de forma semelhante ao observado quando se utilizou somente NPSiO2. A associação de NPSiO2+CLV16 não apresentou diferenças significativas quan, Nanotechnology comprehend a broad range of areas and represents an innovative approach for food production and crop management in the modern agriculture. Maize is in third place in the world cereal production, being considered essential in food. Silicon (non-nutritive element) is absorbed by many plants and polymerized in amorphous silica structures, and incorporated into biological structures such as stem, leaves and roots. Nanoparticles present a high surface-volume ratio, with the size <100 nm. Rhizobacteria that promote plant growth, such as Sreptomyces, are used in the management of many agricultural crops due to their beneficial effects by releasing of substances that help against pathogens or mineral absorption. The aim of this work was to evaluate the NPSiO2 in maize plants and its interaction with the rhizobacteria Streptomyces (CLV16). The toxicity of NPSiO2 was determined through the evaluation of germination rate, plant growth and enzyme activity related to oxidative stress. The interaction with the bacteria was evaluated through in vitro tests and plant growth. According to the results, NPSiO2 does not affect the germination rate. NPSiO2 63 nm and 110 nm impaired the initial growth of seedling roots. However, this harmful effect was not observed in plants after 45 days of growth. NPSiO2 did not interfere the growth of the CLV16, regardless of nanoparticle size and concentration. The CLV16 promoted the growth of maize plants in a similar way to that observed when using only NPSiO2. When seeds were exposed to NPSiO2 220 nm, plant growth was reduced. Plants germinated from seeds treated with NPSiO2 110 nm showed an increment in root growth and fresh and dry shoot mass. Plants sprayed with NPSiO2 showed an increase in the activities of antioxidant enzymes, suggesting that these nanoparticles were plant stressors. .However, plants sprayed with NPSiO2 presented an increment in shoot length and fresh root mass. Thus, NPSiO2 modulated the growth of maize plants
Published: 2020

9. Avaliação do crescimento e da imunidade de plantas de Solanum tuberosum (L.) tratadas com rizobactérias

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: A batata (Solanum tuberosum L.) é a terceira cultura agrícola mais consumida no mundo, ficando atrás somente do arroz e do trigo. Dentre as diversas doenças que afetam esta cultura, a canela-preta e a podridão-mole, causadas pela fitobactéria Pectobacterium spp., levam a importantes perdas na produção. Neste contexto, vários trabalhos vêm explorando o uso de indutores da defesa vegetal como estratégia para o controle de doenças. O uso de rizobactérias promotoras do crescimento vegetal (PGPR) na agricultura pode promover tanto o crescimento quanto o aumento da defesa das plantas através da indução da resistência sistêmica induzida (ISR). Contudo, ainda são pouco conhecidos os mecanismos envolvidos na promoção da ISR. Este estudo visou selecionar rizobactérias do gênero Streptomyces com características de promotoras de crescimento e indutoras da imunidade inata de Solanum tuberosum. Para tanto, foram avaliadas: i) a capacidade de isolados de Streptomyces produzirem auxina (ácido 3- indolacético), ACC desaminase (ácido 1-aminociclopropano-1-carboxílico desaminase) e sideróforos; ii) a capacidade destas rizobactérias em promover o crescimento das plantas; iii) a promoção da resistência em plantas de batata desafiadas com Pectobacterium carotovorum subsp. brasiliensis e iv) a expressão de genes relacionados a vias de sinalização de respostas de defesa em S. tuberosum, promovida por Streptomyces sp e a fitobactéria P. carotovorum. Os resultados indicam que o isolado CLV163 apresenta características de PGPR, sendo capaz de produzir auxina e sideróforos, além de promover o aumento da resistência das plantas contra P. carotovorum. Contudo, a rizobactéria CLV145, com a maior produção de auxina e sideróforos, causou a diminuição da matéria seca de parte aérea e não promoveu a defesa das plantas. A capacidade dos Streptomyces em produzirem ACC desaminase não foi determinante para a promoção de crescimento vegetal. O isolado CLV163 induziu um estado de priming nas plantas de S., Potatoes (Solanum tuberosum L.) are the third most consumed crop in the world, after rice and wheat. Among the diseases affecting potato, the blackleg and tuber soft rot, caused by phytobacteria Pectobacterium spp., lead to significant losses in the yield crop. Several studies have been exploring the use of plant defense inducers as a strategy to control plant diseases. The use of plant growth-promoting rhizobacteria (PGPR) in agriculture can lead to plant growth and enhancement of plant defense through the promotion of induced systemic resistance (ISR). However, the mechanisms involved in promoting ISR are still poorly understood. This study aimed to screen rhizobacteria of the genus Streptomyces with capacity to promote plant growth and induce Solanum tuberosum innate immunity. To achieve these objectives, we evaluated: i) the ability of Streptomyces isolates to produce auxin (3-indoleacetic acid), ACC deaminase (1-aminocyclopropane-1-carboxylic acid deaminase) and siderophores; ii) their capacity to promote the growth of potato plants; iii) the induction of resistance in potato plants challenged with Pectobacterium carotovorum subsp. brasiliensis and iv) the expression of genes related to defense pathways in S. tuberosum, promoted by Streptomyces and P. carotovorum. Results indicated that the CLV163 isolate presents PGPR features, such as high auxin and siderophores production, and promoted plant defense against P. carotovorum. Although CLV145 showed the highest auxin and siderophores production, it reduced the shoot dry mass and was inefficient in promoting plant defense. Moreover, the ability of Streptomyces in producing ACC deaminase was not critical for promoting plant growth. The CLV163 isolate induced a priming state in potato plants that has occurred through the activation of the AS and ET pathways, and its interaction with S. tuberosum plants did not impair the plant growth.
Published: 2017

10. Rizobactérias Streptomyces no crescimento e na defesa de plantas de Solanum lycopersicum (L.)

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: O tomateiro (Solanum lycopersicum) é constantemente atacado por diversos patógenos, levando a perdas de produtividade. Dentre os principais patógenos, destaca-se o fungo Alternaria solani que causa a doença “pinta-preta” (“Early blight”), capaz de reduzir a produção e/ou levar à formação de frutos de baixa qualidade. Devido à grande susceptibilidade do tomateiro a patógenos, as práticas agrícolas incluem o uso intensivo de agroquímicos que resultam, frequentemente, em tomates com altos níveis residuais de pesticidas. A promoção do crescimento e da defesa vegetal utilizando microrganismos representa uma ferramenta para o manejo do tomateiro. Dentre as diversas rizobactérias com capacidade de modular o crescimento e a defesa vegetal, o gênero Streptomyces vem se destacando. Estas bactérias são capazes de sintetizar moléculas que interferem tanto diretamente no crescimento, como a auxina e a ACC desaminase, quanto indiretamente, através da produção de antibióticos e sideróforos. Pretendeu-se, neste trabalho, selecionar isolados de Streptomyces (CLV04, CLV05 e CLV07) com capacidade de promover a germinação e o crescimento de plantas de tomate, além de aumentar a resistência vegetal contra A. solani. Os resultados demonstram que o CLV07 causou retardo na germinação, mas não reduziu a taxa final de germinação. Apesar das rizobactérias CLV04, CLV05 e CLV07 produzirem elevados níveis de auxina, elas causaram a redução do crescimento tanto da raiz quanto da parte aérea de plântulas de tomate cultivadas in vitro. O CLV07 foi eficiente na promoção da defesa de plantas de tomate contra A. solani. Todas as rizobactérias apresentaram antagonismo por competição, reduzindo o crescimento do micélio do fungo A. solani. Considerando todos os resultados, as diferentes bactérias Streptomyces foram prejudiciais à germinação e ao crescimento inicial de plântulas de tomate. Desta forma, não é recomendável a utilização destas bactérias em sementes e plântulas jovens. Contudo, o CLV07 aprese, Tomato (Solanum lycopersicum) cultures are frequently attacked by many pathogens, leading to yield losses. Among the pathogens, the fungus Alternaria solani (“Early blight” disease) can cause significant yield reductions and decreases the fruit quality. Due to the high susceptibility of tomato to fungal pathogens, the agricultural practices include the intensive use of agrochemicals, which may result in fruits with high levels of residual pesticides and higher production costs. The promotion of plant defense system represents an additional tool for disease control and plant growth management. Some rhizobacteria have been shown the ability to affect plant development and modulate plant defense against pathogens. Among those bacteria, the genus Streptomyces is able to synthesize molecules that directly interfere with growth, through auxin and ACC deaminase production, and indirectly, through antibiotics and siderophores synthesis. The aim of this work was to select Streptomyces (CLV04, CLV05 and CLV07) with the ability to promote seed germination and plant growth, as well as improve tomato plant resistance against A. solani. Results showed that CLV07 delayed the initial seed germination, but it did not impair the final germination process. However, CLV04, CLV05 and CLV07 reduced the early root and shoot growth. All these rhizobacteria produced high auxin levels. CLV07 was efficient for inducing plant resistance against A. solani. Furthermore, all CLVs showed antagonism by competition, decreasing the A. solani growth. Taking together all results, Streptomyces tested were deleterious for seed and initial plant growth, but CLV07 showed a potential to be used for inducing plant resistance. However, the inoculation of these rhizobacteria on seeds is not recommended.
Published: 2017

11. Rizobactérias Streptomyces no crescimento e na defesa de plantas de Solanum lycopersicum (L.)

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: O tomateiro (Solanum lycopersicum) é constantemente atacado por diversos patógenos, levando a perdas de produtividade. Dentre os principais patógenos, destaca-se o fungo Alternaria solani que causa a doença “pinta-preta” (“Early blight”), capaz de reduzir a produção e/ou levar à formação de frutos de baixa qualidade. Devido à grande susceptibilidade do tomateiro a patógenos, as práticas agrícolas incluem o uso intensivo de agroquímicos que resultam, frequentemente, em tomates com altos níveis residuais de pesticidas. A promoção do crescimento e da defesa vegetal utilizando microrganismos representa uma ferramenta para o manejo do tomateiro. Dentre as diversas rizobactérias com capacidade de modular o crescimento e a defesa vegetal, o gênero Streptomyces vem se destacando. Estas bactérias são capazes de sintetizar moléculas que interferem tanto diretamente no crescimento, como a auxina e a ACC desaminase, quanto indiretamente, através da produção de antibióticos e sideróforos. Pretendeu-se, neste trabalho, selecionar isolados de Streptomyces (CLV04, CLV05 e CLV07) com capacidade de promover a germinação e o crescimento de plantas de tomate, além de aumentar a resistência vegetal contra A. solani. Os resultados demonstram que o CLV07 causou retardo na germinação, mas não reduziu a taxa final de germinação. Apesar das rizobactérias CLV04, CLV05 e CLV07 produzirem elevados níveis de auxina, elas causaram a redução do crescimento tanto da raiz quanto da parte aérea de plântulas de tomate cultivadas in vitro. O CLV07 foi eficiente na promoção da defesa de plantas de tomate contra A. solani. Todas as rizobactérias apresentaram antagonismo por competição, reduzindo o crescimento do micélio do fungo A. solani. Considerando todos os resultados, as diferentes bactérias Streptomyces foram prejudiciais à germinação e ao crescimento inicial de plântulas de tomate. Desta forma, não é recomendável a utilização destas bactérias em sementes e plântulas jovens. Contudo, o CLV07 aprese, Tomato (Solanum lycopersicum) cultures are frequently attacked by many pathogens, leading to yield losses. Among the pathogens, the fungus Alternaria solani (“Early blight” disease) can cause significant yield reductions and decreases the fruit quality. Due to the high susceptibility of tomato to fungal pathogens, the agricultural practices include the intensive use of agrochemicals, which may result in fruits with high levels of residual pesticides and higher production costs. The promotion of plant defense system represents an additional tool for disease control and plant growth management. Some rhizobacteria have been shown the ability to affect plant development and modulate plant defense against pathogens. Among those bacteria, the genus Streptomyces is able to synthesize molecules that directly interfere with growth, through auxin and ACC deaminase production, and indirectly, through antibiotics and siderophores synthesis. The aim of this work was to select Streptomyces (CLV04, CLV05 and CLV07) with the ability to promote seed germination and plant growth, as well as improve tomato plant resistance against A. solani. Results showed that CLV07 delayed the initial seed germination, but it did not impair the final germination process. However, CLV04, CLV05 and CLV07 reduced the early root and shoot growth. All these rhizobacteria produced high auxin levels. CLV07 was efficient for inducing plant resistance against A. solani. Furthermore, all CLVs showed antagonism by competition, decreasing the A. solani growth. Taking together all results, Streptomyces tested were deleterious for seed and initial plant growth, but CLV07 showed a potential to be used for inducing plant resistance. However, the inoculation of these rhizobacteria on seeds is not recommended.
Published: 2017

12. Avaliação do crescimento e da imunidade de plantas de Solanum tuberosum (L.) tratadas com rizobactérias

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: A batata (Solanum tuberosum L.) é a terceira cultura agrícola mais consumida no mundo, ficando atrás somente do arroz e do trigo. Dentre as diversas doenças que afetam esta cultura, a canela-preta e a podridão-mole, causadas pela fitobactéria Pectobacterium spp., levam a importantes perdas na produção. Neste contexto, vários trabalhos vêm explorando o uso de indutores da defesa vegetal como estratégia para o controle de doenças. O uso de rizobactérias promotoras do crescimento vegetal (PGPR) na agricultura pode promover tanto o crescimento quanto o aumento da defesa das plantas através da indução da resistência sistêmica induzida (ISR). Contudo, ainda são pouco conhecidos os mecanismos envolvidos na promoção da ISR. Este estudo visou selecionar rizobactérias do gênero Streptomyces com características de promotoras de crescimento e indutoras da imunidade inata de Solanum tuberosum. Para tanto, foram avaliadas: i) a capacidade de isolados de Streptomyces produzirem auxina (ácido 3- indolacético), ACC desaminase (ácido 1-aminociclopropano-1-carboxílico desaminase) e sideróforos; ii) a capacidade destas rizobactérias em promover o crescimento das plantas; iii) a promoção da resistência em plantas de batata desafiadas com Pectobacterium carotovorum subsp. brasiliensis e iv) a expressão de genes relacionados a vias de sinalização de respostas de defesa em S. tuberosum, promovida por Streptomyces sp e a fitobactéria P. carotovorum. Os resultados indicam que o isolado CLV163 apresenta características de PGPR, sendo capaz de produzir auxina e sideróforos, além de promover o aumento da resistência das plantas contra P. carotovorum. Contudo, a rizobactéria CLV145, com a maior produção de auxina e sideróforos, causou a diminuição da matéria seca de parte aérea e não promoveu a defesa das plantas. A capacidade dos Streptomyces em produzirem ACC desaminase não foi determinante para a promoção de crescimento vegetal. O isolado CLV163 induziu um estado de priming nas plantas de S., Potatoes (Solanum tuberosum L.) are the third most consumed crop in the world, after rice and wheat. Among the diseases affecting potato, the blackleg and tuber soft rot, caused by phytobacteria Pectobacterium spp., lead to significant losses in the yield crop. Several studies have been exploring the use of plant defense inducers as a strategy to control plant diseases. The use of plant growth-promoting rhizobacteria (PGPR) in agriculture can lead to plant growth and enhancement of plant defense through the promotion of induced systemic resistance (ISR). However, the mechanisms involved in promoting ISR are still poorly understood. This study aimed to screen rhizobacteria of the genus Streptomyces with capacity to promote plant growth and induce Solanum tuberosum innate immunity. To achieve these objectives, we evaluated: i) the ability of Streptomyces isolates to produce auxin (3-indoleacetic acid), ACC deaminase (1-aminocyclopropane-1-carboxylic acid deaminase) and siderophores; ii) their capacity to promote the growth of potato plants; iii) the induction of resistance in potato plants challenged with Pectobacterium carotovorum subsp. brasiliensis and iv) the expression of genes related to defense pathways in S. tuberosum, promoted by Streptomyces and P. carotovorum. Results indicated that the CLV163 isolate presents PGPR features, such as high auxin and siderophores production, and promoted plant defense against P. carotovorum. Although CLV145 showed the highest auxin and siderophores production, it reduced the shoot dry mass and was inefficient in promoting plant defense. Moreover, the ability of Streptomyces in producing ACC deaminase was not critical for promoting plant growth. The CLV163 isolate induced a priming state in potato plants that has occurred through the activation of the AS and ET pathways, and its interaction with S. tuberosum plants did not impair the plant growth.
Published: 2017

13. Rizobactérias Streptomyces no crescimento e na defesa de plantas de Solanum lycopersicum (L.)

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: O tomateiro (Solanum lycopersicum) é constantemente atacado por diversos patógenos, levando a perdas de produtividade. Dentre os principais patógenos, destaca-se o fungo Alternaria solani que causa a doença “pinta-preta” (“Early blight”), capaz de reduzir a produção e/ou levar à formação de frutos de baixa qualidade. Devido à grande susceptibilidade do tomateiro a patógenos, as práticas agrícolas incluem o uso intensivo de agroquímicos que resultam, frequentemente, em tomates com altos níveis residuais de pesticidas. A promoção do crescimento e da defesa vegetal utilizando microrganismos representa uma ferramenta para o manejo do tomateiro. Dentre as diversas rizobactérias com capacidade de modular o crescimento e a defesa vegetal, o gênero Streptomyces vem se destacando. Estas bactérias são capazes de sintetizar moléculas que interferem tanto diretamente no crescimento, como a auxina e a ACC desaminase, quanto indiretamente, através da produção de antibióticos e sideróforos. Pretendeu-se, neste trabalho, selecionar isolados de Streptomyces (CLV04, CLV05 e CLV07) com capacidade de promover a germinação e o crescimento de plantas de tomate, além de aumentar a resistência vegetal contra A. solani. Os resultados demonstram que o CLV07 causou retardo na germinação, mas não reduziu a taxa final de germinação. Apesar das rizobactérias CLV04, CLV05 e CLV07 produzirem elevados níveis de auxina, elas causaram a redução do crescimento tanto da raiz quanto da parte aérea de plântulas de tomate cultivadas in vitro. O CLV07 foi eficiente na promoção da defesa de plantas de tomate contra A. solani. Todas as rizobactérias apresentaram antagonismo por competição, reduzindo o crescimento do micélio do fungo A. solani. Considerando todos os resultados, as diferentes bactérias Streptomyces foram prejudiciais à germinação e ao crescimento inicial de plântulas de tomate. Desta forma, não é recomendável a utilização destas bactérias em sementes e plântulas jovens. Contudo, o CLV07 aprese, Tomato (Solanum lycopersicum) cultures are frequently attacked by many pathogens, leading to yield losses. Among the pathogens, the fungus Alternaria solani (“Early blight” disease) can cause significant yield reductions and decreases the fruit quality. Due to the high susceptibility of tomato to fungal pathogens, the agricultural practices include the intensive use of agrochemicals, which may result in fruits with high levels of residual pesticides and higher production costs. The promotion of plant defense system represents an additional tool for disease control and plant growth management. Some rhizobacteria have been shown the ability to affect plant development and modulate plant defense against pathogens. Among those bacteria, the genus Streptomyces is able to synthesize molecules that directly interfere with growth, through auxin and ACC deaminase production, and indirectly, through antibiotics and siderophores synthesis. The aim of this work was to select Streptomyces (CLV04, CLV05 and CLV07) with the ability to promote seed germination and plant growth, as well as improve tomato plant resistance against A. solani. Results showed that CLV07 delayed the initial seed germination, but it did not impair the final germination process. However, CLV04, CLV05 and CLV07 reduced the early root and shoot growth. All these rhizobacteria produced high auxin levels. CLV07 was efficient for inducing plant resistance against A. solani. Furthermore, all CLVs showed antagonism by competition, decreasing the A. solani growth. Taking together all results, Streptomyces tested were deleterious for seed and initial plant growth, but CLV07 showed a potential to be used for inducing plant resistance. However, the inoculation of these rhizobacteria on seeds is not recommended.
Published: 2017

14. Avaliação do crescimento e da imunidade de plantas de Solanum tuberosum (L.) tratadas com rizobactérias

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: A batata (Solanum tuberosum L.) é a terceira cultura agrícola mais consumida no mundo, ficando atrás somente do arroz e do trigo. Dentre as diversas doenças que afetam esta cultura, a canela-preta e a podridão-mole, causadas pela fitobactéria Pectobacterium spp., levam a importantes perdas na produção. Neste contexto, vários trabalhos vêm explorando o uso de indutores da defesa vegetal como estratégia para o controle de doenças. O uso de rizobactérias promotoras do crescimento vegetal (PGPR) na agricultura pode promover tanto o crescimento quanto o aumento da defesa das plantas através da indução da resistência sistêmica induzida (ISR). Contudo, ainda são pouco conhecidos os mecanismos envolvidos na promoção da ISR. Este estudo visou selecionar rizobactérias do gênero Streptomyces com características de promotoras de crescimento e indutoras da imunidade inata de Solanum tuberosum. Para tanto, foram avaliadas: i) a capacidade de isolados de Streptomyces produzirem auxina (ácido 3- indolacético), ACC desaminase (ácido 1-aminociclopropano-1-carboxílico desaminase) e sideróforos; ii) a capacidade destas rizobactérias em promover o crescimento das plantas; iii) a promoção da resistência em plantas de batata desafiadas com Pectobacterium carotovorum subsp. brasiliensis e iv) a expressão de genes relacionados a vias de sinalização de respostas de defesa em S. tuberosum, promovida por Streptomyces sp e a fitobactéria P. carotovorum. Os resultados indicam que o isolado CLV163 apresenta características de PGPR, sendo capaz de produzir auxina e sideróforos, além de promover o aumento da resistência das plantas contra P. carotovorum. Contudo, a rizobactéria CLV145, com a maior produção de auxina e sideróforos, causou a diminuição da matéria seca de parte aérea e não promoveu a defesa das plantas. A capacidade dos Streptomyces em produzirem ACC desaminase não foi determinante para a promoção de crescimento vegetal. O isolado CLV163 induziu um estado de priming nas plantas de S., Potatoes (Solanum tuberosum L.) are the third most consumed crop in the world, after rice and wheat. Among the diseases affecting potato, the blackleg and tuber soft rot, caused by phytobacteria Pectobacterium spp., lead to significant losses in the yield crop. Several studies have been exploring the use of plant defense inducers as a strategy to control plant diseases. The use of plant growth-promoting rhizobacteria (PGPR) in agriculture can lead to plant growth and enhancement of plant defense through the promotion of induced systemic resistance (ISR). However, the mechanisms involved in promoting ISR are still poorly understood. This study aimed to screen rhizobacteria of the genus Streptomyces with capacity to promote plant growth and induce Solanum tuberosum innate immunity. To achieve these objectives, we evaluated: i) the ability of Streptomyces isolates to produce auxin (3-indoleacetic acid), ACC deaminase (1-aminocyclopropane-1-carboxylic acid deaminase) and siderophores; ii) their capacity to promote the growth of potato plants; iii) the induction of resistance in potato plants challenged with Pectobacterium carotovorum subsp. brasiliensis and iv) the expression of genes related to defense pathways in S. tuberosum, promoted by Streptomyces and P. carotovorum. Results indicated that the CLV163 isolate presents PGPR features, such as high auxin and siderophores production, and promoted plant defense against P. carotovorum. Although CLV145 showed the highest auxin and siderophores production, it reduced the shoot dry mass and was inefficient in promoting plant defense. Moreover, the ability of Streptomyces in producing ACC deaminase was not critical for promoting plant growth. The CLV163 isolate induced a priming state in potato plants that has occurred through the activation of the AS and ET pathways, and its interaction with S. tuberosum plants did not impair the plant growth.
Published: 2017

15. Rizobactérias Streptomyces no crescimento e na defesa de plantas de Solanum lycopersicum (L.)

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: O tomateiro (Solanum lycopersicum) é constantemente atacado por diversos patógenos, levando a perdas de produtividade. Dentre os principais patógenos, destaca-se o fungo Alternaria solani que causa a doença “pinta-preta” (“Early blight”), capaz de reduzir a produção e/ou levar à formação de frutos de baixa qualidade. Devido à grande susceptibilidade do tomateiro a patógenos, as práticas agrícolas incluem o uso intensivo de agroquímicos que resultam, frequentemente, em tomates com altos níveis residuais de pesticidas. A promoção do crescimento e da defesa vegetal utilizando microrganismos representa uma ferramenta para o manejo do tomateiro. Dentre as diversas rizobactérias com capacidade de modular o crescimento e a defesa vegetal, o gênero Streptomyces vem se destacando. Estas bactérias são capazes de sintetizar moléculas que interferem tanto diretamente no crescimento, como a auxina e a ACC desaminase, quanto indiretamente, através da produção de antibióticos e sideróforos. Pretendeu-se, neste trabalho, selecionar isolados de Streptomyces (CLV04, CLV05 e CLV07) com capacidade de promover a germinação e o crescimento de plantas de tomate, além de aumentar a resistência vegetal contra A. solani. Os resultados demonstram que o CLV07 causou retardo na germinação, mas não reduziu a taxa final de germinação. Apesar das rizobactérias CLV04, CLV05 e CLV07 produzirem elevados níveis de auxina, elas causaram a redução do crescimento tanto da raiz quanto da parte aérea de plântulas de tomate cultivadas in vitro. O CLV07 foi eficiente na promoção da defesa de plantas de tomate contra A. solani. Todas as rizobactérias apresentaram antagonismo por competição, reduzindo o crescimento do micélio do fungo A. solani. Considerando todos os resultados, as diferentes bactérias Streptomyces foram prejudiciais à germinação e ao crescimento inicial de plântulas de tomate. Desta forma, não é recomendável a utilização destas bactérias em sementes e plântulas jovens. Contudo, o CLV07 aprese, Tomato (Solanum lycopersicum) cultures are frequently attacked by many pathogens, leading to yield losses. Among the pathogens, the fungus Alternaria solani (“Early blight” disease) can cause significant yield reductions and decreases the fruit quality. Due to the high susceptibility of tomato to fungal pathogens, the agricultural practices include the intensive use of agrochemicals, which may result in fruits with high levels of residual pesticides and higher production costs. The promotion of plant defense system represents an additional tool for disease control and plant growth management. Some rhizobacteria have been shown the ability to affect plant development and modulate plant defense against pathogens. Among those bacteria, the genus Streptomyces is able to synthesize molecules that directly interfere with growth, through auxin and ACC deaminase production, and indirectly, through antibiotics and siderophores synthesis. The aim of this work was to select Streptomyces (CLV04, CLV05 and CLV07) with the ability to promote seed germination and plant growth, as well as improve tomato plant resistance against A. solani. Results showed that CLV07 delayed the initial seed germination, but it did not impair the final germination process. However, CLV04, CLV05 and CLV07 reduced the early root and shoot growth. All these rhizobacteria produced high auxin levels. CLV07 was efficient for inducing plant resistance against A. solani. Furthermore, all CLVs showed antagonism by competition, decreasing the A. solani growth. Taking together all results, Streptomyces tested were deleterious for seed and initial plant growth, but CLV07 showed a potential to be used for inducing plant resistance. However, the inoculation of these rhizobacteria on seeds is not recommended.
Published: 2017

16. Avaliação do crescimento e da imunidade de plantas de Solanum tuberosum (L.) tratadas com rizobactérias

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: A batata (Solanum tuberosum L.) é a terceira cultura agrícola mais consumida no mundo, ficando atrás somente do arroz e do trigo. Dentre as diversas doenças que afetam esta cultura, a canela-preta e a podridão-mole, causadas pela fitobactéria Pectobacterium spp., levam a importantes perdas na produção. Neste contexto, vários trabalhos vêm explorando o uso de indutores da defesa vegetal como estratégia para o controle de doenças. O uso de rizobactérias promotoras do crescimento vegetal (PGPR) na agricultura pode promover tanto o crescimento quanto o aumento da defesa das plantas através da indução da resistência sistêmica induzida (ISR). Contudo, ainda são pouco conhecidos os mecanismos envolvidos na promoção da ISR. Este estudo visou selecionar rizobactérias do gênero Streptomyces com características de promotoras de crescimento e indutoras da imunidade inata de Solanum tuberosum. Para tanto, foram avaliadas: i) a capacidade de isolados de Streptomyces produzirem auxina (ácido 3- indolacético), ACC desaminase (ácido 1-aminociclopropano-1-carboxílico desaminase) e sideróforos; ii) a capacidade destas rizobactérias em promover o crescimento das plantas; iii) a promoção da resistência em plantas de batata desafiadas com Pectobacterium carotovorum subsp. brasiliensis e iv) a expressão de genes relacionados a vias de sinalização de respostas de defesa em S. tuberosum, promovida por Streptomyces sp e a fitobactéria P. carotovorum. Os resultados indicam que o isolado CLV163 apresenta características de PGPR, sendo capaz de produzir auxina e sideróforos, além de promover o aumento da resistência das plantas contra P. carotovorum. Contudo, a rizobactéria CLV145, com a maior produção de auxina e sideróforos, causou a diminuição da matéria seca de parte aérea e não promoveu a defesa das plantas. A capacidade dos Streptomyces em produzirem ACC desaminase não foi determinante para a promoção de crescimento vegetal. O isolado CLV163 induziu um estado de priming nas plantas de S., Potatoes (Solanum tuberosum L.) are the third most consumed crop in the world, after rice and wheat. Among the diseases affecting potato, the blackleg and tuber soft rot, caused by phytobacteria Pectobacterium spp., lead to significant losses in the yield crop. Several studies have been exploring the use of plant defense inducers as a strategy to control plant diseases. The use of plant growth-promoting rhizobacteria (PGPR) in agriculture can lead to plant growth and enhancement of plant defense through the promotion of induced systemic resistance (ISR). However, the mechanisms involved in promoting ISR are still poorly understood. This study aimed to screen rhizobacteria of the genus Streptomyces with capacity to promote plant growth and induce Solanum tuberosum innate immunity. To achieve these objectives, we evaluated: i) the ability of Streptomyces isolates to produce auxin (3-indoleacetic acid), ACC deaminase (1-aminocyclopropane-1-carboxylic acid deaminase) and siderophores; ii) their capacity to promote the growth of potato plants; iii) the induction of resistance in potato plants challenged with Pectobacterium carotovorum subsp. brasiliensis and iv) the expression of genes related to defense pathways in S. tuberosum, promoted by Streptomyces and P. carotovorum. Results indicated that the CLV163 isolate presents PGPR features, such as high auxin and siderophores production, and promoted plant defense against P. carotovorum. Although CLV145 showed the highest auxin and siderophores production, it reduced the shoot dry mass and was inefficient in promoting plant defense. Moreover, the ability of Streptomyces in producing ACC deaminase was not critical for promoting plant growth. The CLV163 isolate induced a priming state in potato plants that has occurred through the activation of the AS and ET pathways, and its interaction with S. tuberosum plants did not impair the plant growth.
Published: 2017

17. Avaliação do crescimento e da imunidade de plantas de Solanum tuberosum (L.) tratadas com rizobactérias

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: A batata (Solanum tuberosum L.) é a terceira cultura agrícola mais consumida no mundo, ficando atrás somente do arroz e do trigo. Dentre as diversas doenças que afetam esta cultura, a canela-preta e a podridão-mole, causadas pela fitobactéria Pectobacterium spp., levam a importantes perdas na produção. Neste contexto, vários trabalhos vêm explorando o uso de indutores da defesa vegetal como estratégia para o controle de doenças. O uso de rizobactérias promotoras do crescimento vegetal (PGPR) na agricultura pode promover tanto o crescimento quanto o aumento da defesa das plantas através da indução da resistência sistêmica induzida (ISR). Contudo, ainda são pouco conhecidos os mecanismos envolvidos na promoção da ISR. Este estudo visou selecionar rizobactérias do gênero Streptomyces com características de promotoras de crescimento e indutoras da imunidade inata de Solanum tuberosum. Para tanto, foram avaliadas: i) a capacidade de isolados de Streptomyces produzirem auxina (ácido 3- indolacético), ACC desaminase (ácido 1-aminociclopropano-1-carboxílico desaminase) e sideróforos; ii) a capacidade destas rizobactérias em promover o crescimento das plantas; iii) a promoção da resistência em plantas de batata desafiadas com Pectobacterium carotovorum subsp. brasiliensis e iv) a expressão de genes relacionados a vias de sinalização de respostas de defesa em S. tuberosum, promovida por Streptomyces sp e a fitobactéria P. carotovorum. Os resultados indicam que o isolado CLV163 apresenta características de PGPR, sendo capaz de produzir auxina e sideróforos, além de promover o aumento da resistência das plantas contra P. carotovorum. Contudo, a rizobactéria CLV145, com a maior produção de auxina e sideróforos, causou a diminuição da matéria seca de parte aérea e não promoveu a defesa das plantas. A capacidade dos Streptomyces em produzirem ACC desaminase não foi determinante para a promoção de crescimento vegetal. O isolado CLV163 induziu um estado de priming nas plantas de S., Potatoes (Solanum tuberosum L.) are the third most consumed crop in the world, after rice and wheat. Among the diseases affecting potato, the blackleg and tuber soft rot, caused by phytobacteria Pectobacterium spp., lead to significant losses in the yield crop. Several studies have been exploring the use of plant defense inducers as a strategy to control plant diseases. The use of plant growth-promoting rhizobacteria (PGPR) in agriculture can lead to plant growth and enhancement of plant defense through the promotion of induced systemic resistance (ISR). However, the mechanisms involved in promoting ISR are still poorly understood. This study aimed to screen rhizobacteria of the genus Streptomyces with capacity to promote plant growth and induce Solanum tuberosum innate immunity. To achieve these objectives, we evaluated: i) the ability of Streptomyces isolates to produce auxin (3-indoleacetic acid), ACC deaminase (1-aminocyclopropane-1-carboxylic acid deaminase) and siderophores; ii) their capacity to promote the growth of potato plants; iii) the induction of resistance in potato plants challenged with Pectobacterium carotovorum subsp. brasiliensis and iv) the expression of genes related to defense pathways in S. tuberosum, promoted by Streptomyces and P. carotovorum. Results indicated that the CLV163 isolate presents PGPR features, such as high auxin and siderophores production, and promoted plant defense against P. carotovorum. Although CLV145 showed the highest auxin and siderophores production, it reduced the shoot dry mass and was inefficient in promoting plant defense. Moreover, the ability of Streptomyces in producing ACC deaminase was not critical for promoting plant growth. The CLV163 isolate induced a priming state in potato plants that has occurred through the activation of the AS and ET pathways, and its interaction with S. tuberosum plants did not impair the plant growth.
Published: 2017

18. Rizobactérias Streptomyces no crescimento e na defesa de plantas de Solanum lycopersicum (L.)

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: O tomateiro (Solanum lycopersicum) é constantemente atacado por diversos patógenos, levando a perdas de produtividade. Dentre os principais patógenos, destaca-se o fungo Alternaria solani que causa a doença “pinta-preta” (“Early blight”), capaz de reduzir a produção e/ou levar à formação de frutos de baixa qualidade. Devido à grande susceptibilidade do tomateiro a patógenos, as práticas agrícolas incluem o uso intensivo de agroquímicos que resultam, frequentemente, em tomates com altos níveis residuais de pesticidas. A promoção do crescimento e da defesa vegetal utilizando microrganismos representa uma ferramenta para o manejo do tomateiro. Dentre as diversas rizobactérias com capacidade de modular o crescimento e a defesa vegetal, o gênero Streptomyces vem se destacando. Estas bactérias são capazes de sintetizar moléculas que interferem tanto diretamente no crescimento, como a auxina e a ACC desaminase, quanto indiretamente, através da produção de antibióticos e sideróforos. Pretendeu-se, neste trabalho, selecionar isolados de Streptomyces (CLV04, CLV05 e CLV07) com capacidade de promover a germinação e o crescimento de plantas de tomate, além de aumentar a resistência vegetal contra A. solani. Os resultados demonstram que o CLV07 causou retardo na germinação, mas não reduziu a taxa final de germinação. Apesar das rizobactérias CLV04, CLV05 e CLV07 produzirem elevados níveis de auxina, elas causaram a redução do crescimento tanto da raiz quanto da parte aérea de plântulas de tomate cultivadas in vitro. O CLV07 foi eficiente na promoção da defesa de plantas de tomate contra A. solani. Todas as rizobactérias apresentaram antagonismo por competição, reduzindo o crescimento do micélio do fungo A. solani. Considerando todos os resultados, as diferentes bactérias Streptomyces foram prejudiciais à germinação e ao crescimento inicial de plântulas de tomate. Desta forma, não é recomendável a utilização destas bactérias em sementes e plântulas jovens. Contudo, o CLV07 aprese, Tomato (Solanum lycopersicum) cultures are frequently attacked by many pathogens, leading to yield losses. Among the pathogens, the fungus Alternaria solani (“Early blight” disease) can cause significant yield reductions and decreases the fruit quality. Due to the high susceptibility of tomato to fungal pathogens, the agricultural practices include the intensive use of agrochemicals, which may result in fruits with high levels of residual pesticides and higher production costs. The promotion of plant defense system represents an additional tool for disease control and plant growth management. Some rhizobacteria have been shown the ability to affect plant development and modulate plant defense against pathogens. Among those bacteria, the genus Streptomyces is able to synthesize molecules that directly interfere with growth, through auxin and ACC deaminase production, and indirectly, through antibiotics and siderophores synthesis. The aim of this work was to select Streptomyces (CLV04, CLV05 and CLV07) with the ability to promote seed germination and plant growth, as well as improve tomato plant resistance against A. solani. Results showed that CLV07 delayed the initial seed germination, but it did not impair the final germination process. However, CLV04, CLV05 and CLV07 reduced the early root and shoot growth. All these rhizobacteria produced high auxin levels. CLV07 was efficient for inducing plant resistance against A. solani. Furthermore, all CLVs showed antagonism by competition, decreasing the A. solani growth. Taking together all results, Streptomyces tested were deleterious for seed and initial plant growth, but CLV07 showed a potential to be used for inducing plant resistance. However, the inoculation of these rhizobacteria on seeds is not recommended.
Published: 2017

19. Rizobactérias Streptomyces no crescimento e na defesa de plantas de Solanum lycopersicum (L.)

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: O tomateiro (Solanum lycopersicum) é constantemente atacado por diversos patógenos, levando a perdas de produtividade. Dentre os principais patógenos, destaca-se o fungo Alternaria solani que causa a doença “pinta-preta” (“Early blight”), capaz de reduzir a produção e/ou levar à formação de frutos de baixa qualidade. Devido à grande susceptibilidade do tomateiro a patógenos, as práticas agrícolas incluem o uso intensivo de agroquímicos que resultam, frequentemente, em tomates com altos níveis residuais de pesticidas. A promoção do crescimento e da defesa vegetal utilizando microrganismos representa uma ferramenta para o manejo do tomateiro. Dentre as diversas rizobactérias com capacidade de modular o crescimento e a defesa vegetal, o gênero Streptomyces vem se destacando. Estas bactérias são capazes de sintetizar moléculas que interferem tanto diretamente no crescimento, como a auxina e a ACC desaminase, quanto indiretamente, através da produção de antibióticos e sideróforos. Pretendeu-se, neste trabalho, selecionar isolados de Streptomyces (CLV04, CLV05 e CLV07) com capacidade de promover a germinação e o crescimento de plantas de tomate, além de aumentar a resistência vegetal contra A. solani. Os resultados demonstram que o CLV07 causou retardo na germinação, mas não reduziu a taxa final de germinação. Apesar das rizobactérias CLV04, CLV05 e CLV07 produzirem elevados níveis de auxina, elas causaram a redução do crescimento tanto da raiz quanto da parte aérea de plântulas de tomate cultivadas in vitro. O CLV07 foi eficiente na promoção da defesa de plantas de tomate contra A. solani. Todas as rizobactérias apresentaram antagonismo por competição, reduzindo o crescimento do micélio do fungo A. solani. Considerando todos os resultados, as diferentes bactérias Streptomyces foram prejudiciais à germinação e ao crescimento inicial de plântulas de tomate. Desta forma, não é recomendável a utilização destas bactérias em sementes e plântulas jovens. Contudo, o CLV07 aprese, Tomato (Solanum lycopersicum) cultures are frequently attacked by many pathogens, leading to yield losses. Among the pathogens, the fungus Alternaria solani (“Early blight” disease) can cause significant yield reductions and decreases the fruit quality. Due to the high susceptibility of tomato to fungal pathogens, the agricultural practices include the intensive use of agrochemicals, which may result in fruits with high levels of residual pesticides and higher production costs. The promotion of plant defense system represents an additional tool for disease control and plant growth management. Some rhizobacteria have been shown the ability to affect plant development and modulate plant defense against pathogens. Among those bacteria, the genus Streptomyces is able to synthesize molecules that directly interfere with growth, through auxin and ACC deaminase production, and indirectly, through antibiotics and siderophores synthesis. The aim of this work was to select Streptomyces (CLV04, CLV05 and CLV07) with the ability to promote seed germination and plant growth, as well as improve tomato plant resistance against A. solani. Results showed that CLV07 delayed the initial seed germination, but it did not impair the final germination process. However, CLV04, CLV05 and CLV07 reduced the early root and shoot growth. All these rhizobacteria produced high auxin levels. CLV07 was efficient for inducing plant resistance against A. solani. Furthermore, all CLVs showed antagonism by competition, decreasing the A. solani growth. Taking together all results, Streptomyces tested were deleterious for seed and initial plant growth, but CLV07 showed a potential to be used for inducing plant resistance. However, the inoculation of these rhizobacteria on seeds is not recommended.
Published: 2017

20. Avaliação do crescimento e da imunidade de plantas de Solanum tuberosum (L.) tratadas com rizobactérias

Author: Astarita, Leandro Vieira, Silva, Renata Medina da, Astarita, Leandro Vieira, and Silva, Renata Medina da
Abstract: A batata (Solanum tuberosum L.) é a terceira cultura agrícola mais consumida no mundo, ficando atrás somente do arroz e do trigo. Dentre as diversas doenças que afetam esta cultura, a canela-preta e a podridão-mole, causadas pela fitobactéria Pectobacterium spp., levam a importantes perdas na produção. Neste contexto, vários trabalhos vêm explorando o uso de indutores da defesa vegetal como estratégia para o controle de doenças. O uso de rizobactérias promotoras do crescimento vegetal (PGPR) na agricultura pode promover tanto o crescimento quanto o aumento da defesa das plantas através da indução da resistência sistêmica induzida (ISR). Contudo, ainda são pouco conhecidos os mecanismos envolvidos na promoção da ISR. Este estudo visou selecionar rizobactérias do gênero Streptomyces com características de promotoras de crescimento e indutoras da imunidade inata de Solanum tuberosum. Para tanto, foram avaliadas: i) a capacidade de isolados de Streptomyces produzirem auxina (ácido 3- indolacético), ACC desaminase (ácido 1-aminociclopropano-1-carboxílico desaminase) e sideróforos; ii) a capacidade destas rizobactérias em promover o crescimento das plantas; iii) a promoção da resistência em plantas de batata desafiadas com Pectobacterium carotovorum subsp. brasiliensis e iv) a expressão de genes relacionados a vias de sinalização de respostas de defesa em S. tuberosum, promovida por Streptomyces sp e a fitobactéria P. carotovorum. Os resultados indicam que o isolado CLV163 apresenta características de PGPR, sendo capaz de produzir auxina e sideróforos, além de promover o aumento da resistência das plantas contra P. carotovorum. Contudo, a rizobactéria CLV145, com a maior produção de auxina e sideróforos, causou a diminuição da matéria seca de parte aérea e não promoveu a defesa das plantas. A capacidade dos Streptomyces em produzirem ACC desaminase não foi determinante para a promoção de crescimento vegetal. O isolado CLV163 induziu um estado de priming nas plantas de S., Potatoes (Solanum tuberosum L.) are the third most consumed crop in the world, after rice and wheat. Among the diseases affecting potato, the blackleg and tuber soft rot, caused by phytobacteria Pectobacterium spp., lead to significant losses in the yield crop. Several studies have been exploring the use of plant defense inducers as a strategy to control plant diseases. The use of plant growth-promoting rhizobacteria (PGPR) in agriculture can lead to plant growth and enhancement of plant defense through the promotion of induced systemic resistance (ISR). However, the mechanisms involved in promoting ISR are still poorly understood. This study aimed to screen rhizobacteria of the genus Streptomyces with capacity to promote plant growth and induce Solanum tuberosum innate immunity. To achieve these objectives, we evaluated: i) the ability of Streptomyces isolates to produce auxin (3-indoleacetic acid), ACC deaminase (1-aminocyclopropane-1-carboxylic acid deaminase) and siderophores; ii) their capacity to promote the growth of potato plants; iii) the induction of resistance in potato plants challenged with Pectobacterium carotovorum subsp. brasiliensis and iv) the expression of genes related to defense pathways in S. tuberosum, promoted by Streptomyces and P. carotovorum. Results indicated that the CLV163 isolate presents PGPR features, such as high auxin and siderophores production, and promoted plant defense against P. carotovorum. Although CLV145 showed the highest auxin and siderophores production, it reduced the shoot dry mass and was inefficient in promoting plant defense. Moreover, the ability of Streptomyces in producing ACC deaminase was not critical for promoting plant growth. The CLV163 isolate induced a priming state in potato plants that has occurred through the activation of the AS and ET pathways, and its interaction with S. tuberosum plants did not impair the plant growth.
Published: 2017

21. Metabolismo de defesa em Solanum tuberosum em resposta à fitobactéria Pectobacterium atrosepticum e a indutores de resistência vegetal

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Published: 2015

22. Expressão de genes relacionados à defesa em plantas de Solanum tuberosum tratadas com acido salicílico e extrato bacteriano

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Potato is currently the third most consumed food crop after rice and wheat, and it is a valuable resource for alleviating poverty in undeveloped countries. However, potato crop fields are attacked by numerous pests and pathogens, which represent a threat to the global potato production. Unlike animals, plants do not possess an adaptive immune system. Therefore, each individual plant cell needs to be able to perceive the pathogen, release signals to neighbor cells, and produce a defense response. Plant cells recognize the pathogen through Pattern Recognition Receptors (PRRs), triggering a signaling cascade that results in the activation of defense-related genes, which characterize the occurrence of Systemic Acquired Resistance (SAR). Among the factors involved in the regulation of defense-related genes, salicylic acid is widely known as an elicitor of plant defense against biotrophic pathogens. Besides this hormone, it has been demonstrated that a bacterial extract of Xanthomonas axonopodis pv. citri (referred to as XTH) is capable of inducing resistance against pectolytic bacteria via poorly understood mechanisms. Considering the different signaling pathways involved in plant defense, we intended to investigate the occurrence of systemic resistance in Solanum tuberosum plants treated with XTH or salicylic acid, by analyzing the expression of PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A, and ERF1 genes. Our results suggest that XTH is capable of inducing systemic resistance in potato plants via concomitant activation of the salicylic acid, jasmonic acid, and ethylene signaling pathways., A batata é atualmente o terceiro alimento mais consumido no mundo, depois do arroz e do trigo, além de ser um recurso importante no combate à fome em países subdesenvolvidos. Entretanto, plantas de batata são atacadas por diversas pragas e patógenos, que representam uma ameaça à produção global de tubérculos. Ao contrário dos animais, as plantas não possuem um sistema imune adaptativo. Dessa forma, as plantas dependem que cada célula, individualmente, tenha a capacidade de perceber o patógeno, sinalizar às células vizinhas e produzir uma resposta de defesa. As células vegetais percebem o contato do patógeno através de Receptores de Reconhecimento de Padrões (PRRs), desencadeando cascatas de sinalização que levam à ativação de genes de defesa, os quais caracterizam a ocorrência de Resistência Sistêmica Adquirida (SAR). Dentre os fatores envolvidos na regulação de genes relacionados à defesa, o ácido salicílico é amplamente conhecido como um eliciador da defesa vegetal contra patógenos biotróficos. Além deste hormônio, foi demonstrado que o extrato bacteriano de Xanthomonas axonopodis pv. citri (denominado de indutor XTH) possui a característica de induzir resistência contra fitobactérias pectolíticas através de mecanismos ainda pouco conhecidos. Considerando as diferentes vias de sinalização envolvidas na defesa vegetal, pretendeu-se investigar a ocorrência de resistência sistêmica em plantas de Solanum tuberosum tratadas com indutor XTH ou ácido salicílico, através da análise transcricional dos genes PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A e ERF1. Os resultados sugerem que o indutor XTH tem a capacidade de induzir resistência sistêmica em plantas de batata através da ativação concomitante das vias de sinalização do ácido salicílico, jasmonato e etileno.
Published: 2015

23. Expressão de genes relacionados à defesa em plantas de Solanum tuberosum tratadas com acido salicílico e extrato bacteriano

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Potato is currently the third most consumed food crop after rice and wheat, and it is a valuable resource for alleviating poverty in undeveloped countries. However, potato crop fields are attacked by numerous pests and pathogens, which represent a threat to the global potato production. Unlike animals, plants do not possess an adaptive immune system. Therefore, each individual plant cell needs to be able to perceive the pathogen, release signals to neighbor cells, and produce a defense response. Plant cells recognize the pathogen through Pattern Recognition Receptors (PRRs), triggering a signaling cascade that results in the activation of defense-related genes, which characterize the occurrence of Systemic Acquired Resistance (SAR). Among the factors involved in the regulation of defense-related genes, salicylic acid is widely known as an elicitor of plant defense against biotrophic pathogens. Besides this hormone, it has been demonstrated that a bacterial extract of Xanthomonas axonopodis pv. citri (referred to as XTH) is capable of inducing resistance against pectolytic bacteria via poorly understood mechanisms. Considering the different signaling pathways involved in plant defense, we intended to investigate the occurrence of systemic resistance in Solanum tuberosum plants treated with XTH or salicylic acid, by analyzing the expression of PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A, and ERF1 genes. Our results suggest that XTH is capable of inducing systemic resistance in potato plants via concomitant activation of the salicylic acid, jasmonic acid, and ethylene signaling pathways., A batata é atualmente o terceiro alimento mais consumido no mundo, depois do arroz e do trigo, além de ser um recurso importante no combate à fome em países subdesenvolvidos. Entretanto, plantas de batata são atacadas por diversas pragas e patógenos, que representam uma ameaça à produção global de tubérculos. Ao contrário dos animais, as plantas não possuem um sistema imune adaptativo. Dessa forma, as plantas dependem que cada célula, individualmente, tenha a capacidade de perceber o patógeno, sinalizar às células vizinhas e produzir uma resposta de defesa. As células vegetais percebem o contato do patógeno através de Receptores de Reconhecimento de Padrões (PRRs), desencadeando cascatas de sinalização que levam à ativação de genes de defesa, os quais caracterizam a ocorrência de Resistência Sistêmica Adquirida (SAR). Dentre os fatores envolvidos na regulação de genes relacionados à defesa, o ácido salicílico é amplamente conhecido como um eliciador da defesa vegetal contra patógenos biotróficos. Além deste hormônio, foi demonstrado que o extrato bacteriano de Xanthomonas axonopodis pv. citri (denominado de indutor XTH) possui a característica de induzir resistência contra fitobactérias pectolíticas através de mecanismos ainda pouco conhecidos. Considerando as diferentes vias de sinalização envolvidas na defesa vegetal, pretendeu-se investigar a ocorrência de resistência sistêmica em plantas de Solanum tuberosum tratadas com indutor XTH ou ácido salicílico, através da análise transcricional dos genes PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A e ERF1. Os resultados sugerem que o indutor XTH tem a capacidade de induzir resistência sistêmica em plantas de batata através da ativação concomitante das vias de sinalização do ácido salicílico, jasmonato e etileno.
Published: 2015

24. Expressão de genes relacionados à defesa em plantas de Solanum tuberosum tratadas com acido salicílico e extrato bacteriano

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Potato is currently the third most consumed food crop after rice and wheat, and it is a valuable resource for alleviating poverty in undeveloped countries. However, potato crop fields are attacked by numerous pests and pathogens, which represent a threat to the global potato production. Unlike animals, plants do not possess an adaptive immune system. Therefore, each individual plant cell needs to be able to perceive the pathogen, release signals to neighbor cells, and produce a defense response. Plant cells recognize the pathogen through Pattern Recognition Receptors (PRRs), triggering a signaling cascade that results in the activation of defense-related genes, which characterize the occurrence of Systemic Acquired Resistance (SAR). Among the factors involved in the regulation of defense-related genes, salicylic acid is widely known as an elicitor of plant defense against biotrophic pathogens. Besides this hormone, it has been demonstrated that a bacterial extract of Xanthomonas axonopodis pv. citri (referred to as XTH) is capable of inducing resistance against pectolytic bacteria via poorly understood mechanisms. Considering the different signaling pathways involved in plant defense, we intended to investigate the occurrence of systemic resistance in Solanum tuberosum plants treated with XTH or salicylic acid, by analyzing the expression of PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A, and ERF1 genes. Our results suggest that XTH is capable of inducing systemic resistance in potato plants via concomitant activation of the salicylic acid, jasmonic acid, and ethylene signaling pathways., A batata é atualmente o terceiro alimento mais consumido no mundo, depois do arroz e do trigo, além de ser um recurso importante no combate à fome em países subdesenvolvidos. Entretanto, plantas de batata são atacadas por diversas pragas e patógenos, que representam uma ameaça à produção global de tubérculos. Ao contrário dos animais, as plantas não possuem um sistema imune adaptativo. Dessa forma, as plantas dependem que cada célula, individualmente, tenha a capacidade de perceber o patógeno, sinalizar às células vizinhas e produzir uma resposta de defesa. As células vegetais percebem o contato do patógeno através de Receptores de Reconhecimento de Padrões (PRRs), desencadeando cascatas de sinalização que levam à ativação de genes de defesa, os quais caracterizam a ocorrência de Resistência Sistêmica Adquirida (SAR). Dentre os fatores envolvidos na regulação de genes relacionados à defesa, o ácido salicílico é amplamente conhecido como um eliciador da defesa vegetal contra patógenos biotróficos. Além deste hormônio, foi demonstrado que o extrato bacteriano de Xanthomonas axonopodis pv. citri (denominado de indutor XTH) possui a característica de induzir resistência contra fitobactérias pectolíticas através de mecanismos ainda pouco conhecidos. Considerando as diferentes vias de sinalização envolvidas na defesa vegetal, pretendeu-se investigar a ocorrência de resistência sistêmica em plantas de Solanum tuberosum tratadas com indutor XTH ou ácido salicílico, através da análise transcricional dos genes PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A e ERF1. Os resultados sugerem que o indutor XTH tem a capacidade de induzir resistência sistêmica em plantas de batata através da ativação concomitante das vias de sinalização do ácido salicílico, jasmonato e etileno.
Published: 2015

25. Expressão de genes relacionados à defesa em plantas de Solanum tuberosum tratadas com acido salicílico e extrato bacteriano

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Potato is currently the third most consumed food crop after rice and wheat, and it is a valuable resource for alleviating poverty in undeveloped countries. However, potato crop fields are attacked by numerous pests and pathogens, which represent a threat to the global potato production. Unlike animals, plants do not possess an adaptive immune system. Therefore, each individual plant cell needs to be able to perceive the pathogen, release signals to neighbor cells, and produce a defense response. Plant cells recognize the pathogen through Pattern Recognition Receptors (PRRs), triggering a signaling cascade that results in the activation of defense-related genes, which characterize the occurrence of Systemic Acquired Resistance (SAR). Among the factors involved in the regulation of defense-related genes, salicylic acid is widely known as an elicitor of plant defense against biotrophic pathogens. Besides this hormone, it has been demonstrated that a bacterial extract of Xanthomonas axonopodis pv. citri (referred to as XTH) is capable of inducing resistance against pectolytic bacteria via poorly understood mechanisms. Considering the different signaling pathways involved in plant defense, we intended to investigate the occurrence of systemic resistance in Solanum tuberosum plants treated with XTH or salicylic acid, by analyzing the expression of PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A, and ERF1 genes. Our results suggest that XTH is capable of inducing systemic resistance in potato plants via concomitant activation of the salicylic acid, jasmonic acid, and ethylene signaling pathways., A batata é atualmente o terceiro alimento mais consumido no mundo, depois do arroz e do trigo, além de ser um recurso importante no combate à fome em países subdesenvolvidos. Entretanto, plantas de batata são atacadas por diversas pragas e patógenos, que representam uma ameaça à produção global de tubérculos. Ao contrário dos animais, as plantas não possuem um sistema imune adaptativo. Dessa forma, as plantas dependem que cada célula, individualmente, tenha a capacidade de perceber o patógeno, sinalizar às células vizinhas e produzir uma resposta de defesa. As células vegetais percebem o contato do patógeno através de Receptores de Reconhecimento de Padrões (PRRs), desencadeando cascatas de sinalização que levam à ativação de genes de defesa, os quais caracterizam a ocorrência de Resistência Sistêmica Adquirida (SAR). Dentre os fatores envolvidos na regulação de genes relacionados à defesa, o ácido salicílico é amplamente conhecido como um eliciador da defesa vegetal contra patógenos biotróficos. Além deste hormônio, foi demonstrado que o extrato bacteriano de Xanthomonas axonopodis pv. citri (denominado de indutor XTH) possui a característica de induzir resistência contra fitobactérias pectolíticas através de mecanismos ainda pouco conhecidos. Considerando as diferentes vias de sinalização envolvidas na defesa vegetal, pretendeu-se investigar a ocorrência de resistência sistêmica em plantas de Solanum tuberosum tratadas com indutor XTH ou ácido salicílico, através da análise transcricional dos genes PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A e ERF1. Os resultados sugerem que o indutor XTH tem a capacidade de induzir resistência sistêmica em plantas de batata através da ativação concomitante das vias de sinalização do ácido salicílico, jasmonato e etileno.
Published: 2015

26. Expressão de genes relacionados à defesa em plantas de Solanum tuberosum tratadas com acido salicílico e extrato bacteriano

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Potato is currently the third most consumed food crop after rice and wheat, and it is a valuable resource for alleviating poverty in undeveloped countries. However, potato crop fields are attacked by numerous pests and pathogens, which represent a threat to the global potato production. Unlike animals, plants do not possess an adaptive immune system. Therefore, each individual plant cell needs to be able to perceive the pathogen, release signals to neighbor cells, and produce a defense response. Plant cells recognize the pathogen through Pattern Recognition Receptors (PRRs), triggering a signaling cascade that results in the activation of defense-related genes, which characterize the occurrence of Systemic Acquired Resistance (SAR). Among the factors involved in the regulation of defense-related genes, salicylic acid is widely known as an elicitor of plant defense against biotrophic pathogens. Besides this hormone, it has been demonstrated that a bacterial extract of Xanthomonas axonopodis pv. citri (referred to as XTH) is capable of inducing resistance against pectolytic bacteria via poorly understood mechanisms. Considering the different signaling pathways involved in plant defense, we intended to investigate the occurrence of systemic resistance in Solanum tuberosum plants treated with XTH or salicylic acid, by analyzing the expression of PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A, and ERF1 genes. Our results suggest that XTH is capable of inducing systemic resistance in potato plants via concomitant activation of the salicylic acid, jasmonic acid, and ethylene signaling pathways., A batata é atualmente o terceiro alimento mais consumido no mundo, depois do arroz e do trigo, além de ser um recurso importante no combate à fome em países subdesenvolvidos. Entretanto, plantas de batata são atacadas por diversas pragas e patógenos, que representam uma ameaça à produção global de tubérculos. Ao contrário dos animais, as plantas não possuem um sistema imune adaptativo. Dessa forma, as plantas dependem que cada célula, individualmente, tenha a capacidade de perceber o patógeno, sinalizar às células vizinhas e produzir uma resposta de defesa. As células vegetais percebem o contato do patógeno através de Receptores de Reconhecimento de Padrões (PRRs), desencadeando cascatas de sinalização que levam à ativação de genes de defesa, os quais caracterizam a ocorrência de Resistência Sistêmica Adquirida (SAR). Dentre os fatores envolvidos na regulação de genes relacionados à defesa, o ácido salicílico é amplamente conhecido como um eliciador da defesa vegetal contra patógenos biotróficos. Além deste hormônio, foi demonstrado que o extrato bacteriano de Xanthomonas axonopodis pv. citri (denominado de indutor XTH) possui a característica de induzir resistência contra fitobactérias pectolíticas através de mecanismos ainda pouco conhecidos. Considerando as diferentes vias de sinalização envolvidas na defesa vegetal, pretendeu-se investigar a ocorrência de resistência sistêmica em plantas de Solanum tuberosum tratadas com indutor XTH ou ácido salicílico, através da análise transcricional dos genes PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A e ERF1. Os resultados sugerem que o indutor XTH tem a capacidade de induzir resistência sistêmica em plantas de batata através da ativação concomitante das vias de sinalização do ácido salicílico, jasmonato e etileno.
Published: 2015

27. Expressão de genes relacionados à defesa em plantas de Solanum tuberosum tratadas com acido salicílico e extrato bacteriano

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Potato is currently the third most consumed food crop after rice and wheat, and it is a valuable resource for alleviating poverty in undeveloped countries. However, potato crop fields are attacked by numerous pests and pathogens, which represent a threat to the global potato production. Unlike animals, plants do not possess an adaptive immune system. Therefore, each individual plant cell needs to be able to perceive the pathogen, release signals to neighbor cells, and produce a defense response. Plant cells recognize the pathogen through Pattern Recognition Receptors (PRRs), triggering a signaling cascade that results in the activation of defense-related genes, which characterize the occurrence of Systemic Acquired Resistance (SAR). Among the factors involved in the regulation of defense-related genes, salicylic acid is widely known as an elicitor of plant defense against biotrophic pathogens. Besides this hormone, it has been demonstrated that a bacterial extract of Xanthomonas axonopodis pv. citri (referred to as XTH) is capable of inducing resistance against pectolytic bacteria via poorly understood mechanisms. Considering the different signaling pathways involved in plant defense, we intended to investigate the occurrence of systemic resistance in Solanum tuberosum plants treated with XTH or salicylic acid, by analyzing the expression of PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A, and ERF1 genes. Our results suggest that XTH is capable of inducing systemic resistance in potato plants via concomitant activation of the salicylic acid, jasmonic acid, and ethylene signaling pathways., A batata é atualmente o terceiro alimento mais consumido no mundo, depois do arroz e do trigo, além de ser um recurso importante no combate à fome em países subdesenvolvidos. Entretanto, plantas de batata são atacadas por diversas pragas e patógenos, que representam uma ameaça à produção global de tubérculos. Ao contrário dos animais, as plantas não possuem um sistema imune adaptativo. Dessa forma, as plantas dependem que cada célula, individualmente, tenha a capacidade de perceber o patógeno, sinalizar às células vizinhas e produzir uma resposta de defesa. As células vegetais percebem o contato do patógeno através de Receptores de Reconhecimento de Padrões (PRRs), desencadeando cascatas de sinalização que levam à ativação de genes de defesa, os quais caracterizam a ocorrência de Resistência Sistêmica Adquirida (SAR). Dentre os fatores envolvidos na regulação de genes relacionados à defesa, o ácido salicílico é amplamente conhecido como um eliciador da defesa vegetal contra patógenos biotróficos. Além deste hormônio, foi demonstrado que o extrato bacteriano de Xanthomonas axonopodis pv. citri (denominado de indutor XTH) possui a característica de induzir resistência contra fitobactérias pectolíticas através de mecanismos ainda pouco conhecidos. Considerando as diferentes vias de sinalização envolvidas na defesa vegetal, pretendeu-se investigar a ocorrência de resistência sistêmica em plantas de Solanum tuberosum tratadas com indutor XTH ou ácido salicílico, através da análise transcricional dos genes PR-1b, PR-2, ChtA, PAL, Pin2, JAZ1/TIFY10A e ERF1. Os resultados sugerem que o indutor XTH tem a capacidade de induzir resistência sistêmica em plantas de batata através da ativação concomitante das vias de sinalização do ácido salicílico, jasmonato e etileno.
Published: 2015

28. Indução de respostas de defesa cruzada em Solanum tuberosum utilizando indutores de resistência contra patógenos

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Rhizoctonia solani is a pathogenic ubiquitous fungus in Solanum tuberosum cultures, causing severe losses in production. Plant resistance can be induced by molecules that promote natural plant defense system. In the present study, the efficiency of the inducers Acibenzolar-Smethyl (BION®), Ceratocystis fimbriata extract and Xanthomonas axonopodis extract against the pathogenic fungus Rhizoctonia solani in potato plants was evaluated. Plants treated with the inducer XTH were resistant to the pathogen at 21 dpi. The biotic inducer XTH was more efficient than Bion® and CTS on promoting plant resistance. The highest activity of POX was observed at 9 dpi on the XTH treatment. Inoculation of R. solani caused a progressive increase in the PPO activity in XTH- and control-plants. Both inducers CTS and Bion® caused a reduction on PPO activity over time. Levels of phenolics compounds and flavonoids were similar among all treatments. Plants were more susceptible to R. solani when induced with CTS or Bion®. XTH did not show a negative effect on plant resistance. XTH presented a good potential as inducer, delaying disease progression and promoting plant resistance against R. solani., Apesar da batata ser um dos alimentos mais consumidos do mundo, a sua produção apresenta sérias dificuldades devido a doenças causadas por fungos, bactérias e vírus, reduzindo a produtividade e aumentando os custos de produção. Assim, este trabalho teve por objetivo analisar os mecanismos envolvidos na defesa cruzada de Solanum tuberosum cv. Ágata, através a ação de indutores bióticos no metabolismo de fenilpropanóides. Plantas jovens de S. tuberosum mantidas em casa de vegetação foram aspergidas com indutores de defesa: extratos autoclavados de Xanthomonas axonopodis e de Ceratocystis fimbriata, além do indutor sintético Bion®. Após cinco dias do tratamento, as plantas foram desafiadas com o fungo patogênico Rhizoctonia solani, sendo analisados o progresso da doença e os parâmetros bioquímicos: compostos fenólicos totais, flavonóides quercetínicos e atividade das enzimas polifenoloxidase e peroxidases. As plantas tratadas com o indutor XTH foram resistentes ao patógeno até 21 dpi. O indutor biótico XTH foi mais eficiente que o Bion® e CTS na promoção da resistência vegetal. A atividade mais elevada da POX foi observada em 9 dpi com o tratamento XTH. A inoculação de R. solani causou o aumento progressivo da atividade da PPO nas plantas dos tratamentos XTH e controle. Os indutores CTS e Bion® causaram a diminuição da atividade de PPO ao longo do experimento. Os níveis dos compostos fenólicos e dos flavonoides foram similares entre todos os tratamentos. As plantas foram mais suscetíveis ao patógeno R. solani quando aspergidas previamente com CTS ou Bion®. O XTH apresenta um bom potencial de utilização como indutor de resistência, retardando o progresso da doença e promovendo a resistência contra R. solani.
Published: 2014

29. Processos celulares envolvidos nas respostas de defesa de Solanum tuberosum L. contra Pectobacterium carotovorum

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Published: 2014

30. Processos celulares envolvidos nas respostas de defesa de Solanum tuberosum L. contra Pectobacterium carotovorum

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Published: 2014

31. Indução de respostas de defesa cruzada em Solanum tuberosum utilizando indutores de resistência contra patógenos

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Rhizoctonia solani is a pathogenic ubiquitous fungus in Solanum tuberosum cultures, causing severe losses in production. Plant resistance can be induced by molecules that promote natural plant defense system. In the present study, the efficiency of the inducers Acibenzolar-Smethyl (BION®), Ceratocystis fimbriata extract and Xanthomonas axonopodis extract against the pathogenic fungus Rhizoctonia solani in potato plants was evaluated. Plants treated with the inducer XTH were resistant to the pathogen at 21 dpi. The biotic inducer XTH was more efficient than Bion® and CTS on promoting plant resistance. The highest activity of POX was observed at 9 dpi on the XTH treatment. Inoculation of R. solani caused a progressive increase in the PPO activity in XTH- and control-plants. Both inducers CTS and Bion® caused a reduction on PPO activity over time. Levels of phenolics compounds and flavonoids were similar among all treatments. Plants were more susceptible to R. solani when induced with CTS or Bion®. XTH did not show a negative effect on plant resistance. XTH presented a good potential as inducer, delaying disease progression and promoting plant resistance against R. solani., Apesar da batata ser um dos alimentos mais consumidos do mundo, a sua produção apresenta sérias dificuldades devido a doenças causadas por fungos, bactérias e vírus, reduzindo a produtividade e aumentando os custos de produção. Assim, este trabalho teve por objetivo analisar os mecanismos envolvidos na defesa cruzada de Solanum tuberosum cv. Ágata, através a ação de indutores bióticos no metabolismo de fenilpropanóides. Plantas jovens de S. tuberosum mantidas em casa de vegetação foram aspergidas com indutores de defesa: extratos autoclavados de Xanthomonas axonopodis e de Ceratocystis fimbriata, além do indutor sintético Bion®. Após cinco dias do tratamento, as plantas foram desafiadas com o fungo patogênico Rhizoctonia solani, sendo analisados o progresso da doença e os parâmetros bioquímicos: compostos fenólicos totais, flavonóides quercetínicos e atividade das enzimas polifenoloxidase e peroxidases. As plantas tratadas com o indutor XTH foram resistentes ao patógeno até 21 dpi. O indutor biótico XTH foi mais eficiente que o Bion® e CTS na promoção da resistência vegetal. A atividade mais elevada da POX foi observada em 9 dpi com o tratamento XTH. A inoculação de R. solani causou o aumento progressivo da atividade da PPO nas plantas dos tratamentos XTH e controle. Os indutores CTS e Bion® causaram a diminuição da atividade de PPO ao longo do experimento. Os níveis dos compostos fenólicos e dos flavonoides foram similares entre todos os tratamentos. As plantas foram mais suscetíveis ao patógeno R. solani quando aspergidas previamente com CTS ou Bion®. O XTH apresenta um bom potencial de utilização como indutor de resistência, retardando o progresso da doença e promovendo a resistência contra R. solani.
Published: 2014

32. Indução de respostas de defesa cruzada em Solanum tuberosum utilizando indutores de resistência contra patógenos

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Rhizoctonia solani is a pathogenic ubiquitous fungus in Solanum tuberosum cultures, causing severe losses in production. Plant resistance can be induced by molecules that promote natural plant defense system. In the present study, the efficiency of the inducers Acibenzolar-Smethyl (BION®), Ceratocystis fimbriata extract and Xanthomonas axonopodis extract against the pathogenic fungus Rhizoctonia solani in potato plants was evaluated. Plants treated with the inducer XTH were resistant to the pathogen at 21 dpi. The biotic inducer XTH was more efficient than Bion® and CTS on promoting plant resistance. The highest activity of POX was observed at 9 dpi on the XTH treatment. Inoculation of R. solani caused a progressive increase in the PPO activity in XTH- and control-plants. Both inducers CTS and Bion® caused a reduction on PPO activity over time. Levels of phenolics compounds and flavonoids were similar among all treatments. Plants were more susceptible to R. solani when induced with CTS or Bion®. XTH did not show a negative effect on plant resistance. XTH presented a good potential as inducer, delaying disease progression and promoting plant resistance against R. solani., Apesar da batata ser um dos alimentos mais consumidos do mundo, a sua produção apresenta sérias dificuldades devido a doenças causadas por fungos, bactérias e vírus, reduzindo a produtividade e aumentando os custos de produção. Assim, este trabalho teve por objetivo analisar os mecanismos envolvidos na defesa cruzada de Solanum tuberosum cv. Ágata, através a ação de indutores bióticos no metabolismo de fenilpropanóides. Plantas jovens de S. tuberosum mantidas em casa de vegetação foram aspergidas com indutores de defesa: extratos autoclavados de Xanthomonas axonopodis e de Ceratocystis fimbriata, além do indutor sintético Bion®. Após cinco dias do tratamento, as plantas foram desafiadas com o fungo patogênico Rhizoctonia solani, sendo analisados o progresso da doença e os parâmetros bioquímicos: compostos fenólicos totais, flavonóides quercetínicos e atividade das enzimas polifenoloxidase e peroxidases. As plantas tratadas com o indutor XTH foram resistentes ao patógeno até 21 dpi. O indutor biótico XTH foi mais eficiente que o Bion® e CTS na promoção da resistência vegetal. A atividade mais elevada da POX foi observada em 9 dpi com o tratamento XTH. A inoculação de R. solani causou o aumento progressivo da atividade da PPO nas plantas dos tratamentos XTH e controle. Os indutores CTS e Bion® causaram a diminuição da atividade de PPO ao longo do experimento. Os níveis dos compostos fenólicos e dos flavonoides foram similares entre todos os tratamentos. As plantas foram mais suscetíveis ao patógeno R. solani quando aspergidas previamente com CTS ou Bion®. O XTH apresenta um bom potencial de utilização como indutor de resistência, retardando o progresso da doença e promovendo a resistência contra R. solani.
Published: 2014

33. Indução de respostas de defesa cruzada em Solanum tuberosum utilizando indutores de resistência contra patógenos

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Rhizoctonia solani is a pathogenic ubiquitous fungus in Solanum tuberosum cultures, causing severe losses in production. Plant resistance can be induced by molecules that promote natural plant defense system. In the present study, the efficiency of the inducers Acibenzolar-Smethyl (BION®), Ceratocystis fimbriata extract and Xanthomonas axonopodis extract against the pathogenic fungus Rhizoctonia solani in potato plants was evaluated. Plants treated with the inducer XTH were resistant to the pathogen at 21 dpi. The biotic inducer XTH was more efficient than Bion® and CTS on promoting plant resistance. The highest activity of POX was observed at 9 dpi on the XTH treatment. Inoculation of R. solani caused a progressive increase in the PPO activity in XTH- and control-plants. Both inducers CTS and Bion® caused a reduction on PPO activity over time. Levels of phenolics compounds and flavonoids were similar among all treatments. Plants were more susceptible to R. solani when induced with CTS or Bion®. XTH did not show a negative effect on plant resistance. XTH presented a good potential as inducer, delaying disease progression and promoting plant resistance against R. solani., Apesar da batata ser um dos alimentos mais consumidos do mundo, a sua produção apresenta sérias dificuldades devido a doenças causadas por fungos, bactérias e vírus, reduzindo a produtividade e aumentando os custos de produção. Assim, este trabalho teve por objetivo analisar os mecanismos envolvidos na defesa cruzada de Solanum tuberosum cv. Ágata, através a ação de indutores bióticos no metabolismo de fenilpropanóides. Plantas jovens de S. tuberosum mantidas em casa de vegetação foram aspergidas com indutores de defesa: extratos autoclavados de Xanthomonas axonopodis e de Ceratocystis fimbriata, além do indutor sintético Bion®. Após cinco dias do tratamento, as plantas foram desafiadas com o fungo patogênico Rhizoctonia solani, sendo analisados o progresso da doença e os parâmetros bioquímicos: compostos fenólicos totais, flavonóides quercetínicos e atividade das enzimas polifenoloxidase e peroxidases. As plantas tratadas com o indutor XTH foram resistentes ao patógeno até 21 dpi. O indutor biótico XTH foi mais eficiente que o Bion® e CTS na promoção da resistência vegetal. A atividade mais elevada da POX foi observada em 9 dpi com o tratamento XTH. A inoculação de R. solani causou o aumento progressivo da atividade da PPO nas plantas dos tratamentos XTH e controle. Os indutores CTS e Bion® causaram a diminuição da atividade de PPO ao longo do experimento. Os níveis dos compostos fenólicos e dos flavonoides foram similares entre todos os tratamentos. As plantas foram mais suscetíveis ao patógeno R. solani quando aspergidas previamente com CTS ou Bion®. O XTH apresenta um bom potencial de utilização como indutor de resistência, retardando o progresso da doença e promovendo a resistência contra R. solani.
Published: 2014

34. Indução de respostas de defesa cruzada em Solanum tuberosum utilizando indutores de resistência contra patógenos

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Rhizoctonia solani is a pathogenic ubiquitous fungus in Solanum tuberosum cultures, causing severe losses in production. Plant resistance can be induced by molecules that promote natural plant defense system. In the present study, the efficiency of the inducers Acibenzolar-Smethyl (BION®), Ceratocystis fimbriata extract and Xanthomonas axonopodis extract against the pathogenic fungus Rhizoctonia solani in potato plants was evaluated. Plants treated with the inducer XTH were resistant to the pathogen at 21 dpi. The biotic inducer XTH was more efficient than Bion® and CTS on promoting plant resistance. The highest activity of POX was observed at 9 dpi on the XTH treatment. Inoculation of R. solani caused a progressive increase in the PPO activity in XTH- and control-plants. Both inducers CTS and Bion® caused a reduction on PPO activity over time. Levels of phenolics compounds and flavonoids were similar among all treatments. Plants were more susceptible to R. solani when induced with CTS or Bion®. XTH did not show a negative effect on plant resistance. XTH presented a good potential as inducer, delaying disease progression and promoting plant resistance against R. solani., Apesar da batata ser um dos alimentos mais consumidos do mundo, a sua produção apresenta sérias dificuldades devido a doenças causadas por fungos, bactérias e vírus, reduzindo a produtividade e aumentando os custos de produção. Assim, este trabalho teve por objetivo analisar os mecanismos envolvidos na defesa cruzada de Solanum tuberosum cv. Ágata, através a ação de indutores bióticos no metabolismo de fenilpropanóides. Plantas jovens de S. tuberosum mantidas em casa de vegetação foram aspergidas com indutores de defesa: extratos autoclavados de Xanthomonas axonopodis e de Ceratocystis fimbriata, além do indutor sintético Bion®. Após cinco dias do tratamento, as plantas foram desafiadas com o fungo patogênico Rhizoctonia solani, sendo analisados o progresso da doença e os parâmetros bioquímicos: compostos fenólicos totais, flavonóides quercetínicos e atividade das enzimas polifenoloxidase e peroxidases. As plantas tratadas com o indutor XTH foram resistentes ao patógeno até 21 dpi. O indutor biótico XTH foi mais eficiente que o Bion® e CTS na promoção da resistência vegetal. A atividade mais elevada da POX foi observada em 9 dpi com o tratamento XTH. A inoculação de R. solani causou o aumento progressivo da atividade da PPO nas plantas dos tratamentos XTH e controle. Os indutores CTS e Bion® causaram a diminuição da atividade de PPO ao longo do experimento. Os níveis dos compostos fenólicos e dos flavonoides foram similares entre todos os tratamentos. As plantas foram mais suscetíveis ao patógeno R. solani quando aspergidas previamente com CTS ou Bion®. O XTH apresenta um bom potencial de utilização como indutor de resistência, retardando o progresso da doença e promovendo a resistência contra R. solani.
Published: 2014

35. Streptomyces da floresta ombrófila mista: efeitos no desenvolvimento e no metabolismo de plântulas de Araucaria angustifolia (Bertol.) Kuntze

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Araucaria angustifolia, conhecida como Pinheiro Brasileiro, é uma espécie ameaçada de extinção de grande importância ecológica e econômica. Embora muitos esforços foram feitos para estabelecerem plantios comerciais desta espécie, ela apresenta crescimento lento e heterogêneo, com alta mortalidade. As plant-growth-promoting rhizobacteria (PGPR) representam uma classe de bactérias de solo não patogênicas que promovem efeito benéfico no crescimento do vegetal, destacando-se as actinobactérias do gênero Streptomyces. O trabalho avaliou o efeito de três isolados autóctones de Streptomyces spp. (PM1, PM4 e PM9) no desenvolvimento e no metabolismo inicial de plântulas de Araucaria angustifolia com 50 dias de idade. A atividade enzimática da fenilalanina amônio-liase (FAL), polifenol oxidase (PPO), peroxidase (POX) e os níveis de compostos fenólicos, flavonóides e clorofila foram determinados em extratos de raízes e folhas das plântulas. As análises foram realizadas em 1, 3 e 9 dias após a inoculação das raízes com as rizobactérias. O comprimento e a massa fresca da parte aérea e radicular assim como o volume e densidade das raízes foram avaliados após 100 dias da inoculação. Todos Streptomyces spp. apresentaram competência rizosférica e a capacidade de produzir ácido indol-3-acético (AIA). As atividades da PPO e POX exibiram regulação tecido-temporal na presença dos isolados; entretanto não foram alterados no período analisado os níveis de fenólicos, flavonóides e clorofila. A atividade da FAL foi reduzida somente 9 dias após a inoculação do isolado PM9. O volume, densidade e comprimento das raízes foram alterados nas plântulas inoculadas com as rizobactérias durante 100 dias. PM9 foi o isolado que promoveu as maiores alterações no metabolismo vegetal, aumentando o incremento da parte aérea., Araucaria angusifolia (Bertol. ) Kuntze, known as Brazilian pine, is an endangered species with great ecological and economic importance. Although many efforts have been made to establish commercial plantations of this species, it grows slowly and unevenly, with high mortality. Plant Growth-Promoting Rhizobacteria (PGPR), including some Strepromyces (actinobacteria), represent a class of non-pathogenic soil microorganisms and have a beneficial effect on plant growth. This study evaluated the effect of three autochthonous Streptomyces spp. isolates (PM1, PM4, and PM9) on the early development and metabolism of 50-day-oid A. angustifolia seedlings. The enzymatic activity of phenylalanine ammonialyase (PAL), polyphenol oxidase (PPO), and peroxidase (POX), and the levels of phenolic compounds, flavonoids, and chlorophyll were determined in extracts of roots and leaves from seedlings. Assays were carried out 1, 3 and 9 days after the roots were inoculated with each isolated. Length and fresh mass of shoots and roots as well as the volume and density of roots were evaluated at 100 days after seedlings inoculation. All Streptomyces spp. evaluated showed rhizospheric competence and produce indole-3-acetic acid (IAA). The activities of PPO and POX exhibited a tissue-temporal regulation in the presence of the isolates; however the levels of phenolics, flavonoids and chlorophylls did not change in the period analyzed. PAL activity was reduced only 9 days after root inoculation with PM9. The volume, density and length of roots changed in seedlings that were in contact with isolates for 100 days. The isolate PM9 caused significant changes in plant metabolism, increasing the shoot increment.
Published: 2010

36. Streptomyces da floresta ombrófila mista: efeitos no desenvolvimento e no metabolismo de plântulas de Araucaria angustifolia (Bertol.) Kuntze

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Araucaria angustifolia, conhecida como Pinheiro Brasileiro, é uma espécie ameaçada de extinção de grande importância ecológica e econômica. Embora muitos esforços foram feitos para estabelecerem plantios comerciais desta espécie, ela apresenta crescimento lento e heterogêneo, com alta mortalidade. As plant-growth-promoting rhizobacteria (PGPR) representam uma classe de bactérias de solo não patogênicas que promovem efeito benéfico no crescimento do vegetal, destacando-se as actinobactérias do gênero Streptomyces. O trabalho avaliou o efeito de três isolados autóctones de Streptomyces spp. (PM1, PM4 e PM9) no desenvolvimento e no metabolismo inicial de plântulas de Araucaria angustifolia com 50 dias de idade. A atividade enzimática da fenilalanina amônio-liase (FAL), polifenol oxidase (PPO), peroxidase (POX) e os níveis de compostos fenólicos, flavonóides e clorofila foram determinados em extratos de raízes e folhas das plântulas. As análises foram realizadas em 1, 3 e 9 dias após a inoculação das raízes com as rizobactérias. O comprimento e a massa fresca da parte aérea e radicular assim como o volume e densidade das raízes foram avaliados após 100 dias da inoculação. Todos Streptomyces spp. apresentaram competência rizosférica e a capacidade de produzir ácido indol-3-acético (AIA). As atividades da PPO e POX exibiram regulação tecido-temporal na presença dos isolados; entretanto não foram alterados no período analisado os níveis de fenólicos, flavonóides e clorofila. A atividade da FAL foi reduzida somente 9 dias após a inoculação do isolado PM9. O volume, densidade e comprimento das raízes foram alterados nas plântulas inoculadas com as rizobactérias durante 100 dias. PM9 foi o isolado que promoveu as maiores alterações no metabolismo vegetal, aumentando o incremento da parte aérea., Araucaria angusifolia (Bertol. ) Kuntze, known as Brazilian pine, is an endangered species with great ecological and economic importance. Although many efforts have been made to establish commercial plantations of this species, it grows slowly and unevenly, with high mortality. Plant Growth-Promoting Rhizobacteria (PGPR), including some Strepromyces (actinobacteria), represent a class of non-pathogenic soil microorganisms and have a beneficial effect on plant growth. This study evaluated the effect of three autochthonous Streptomyces spp. isolates (PM1, PM4, and PM9) on the early development and metabolism of 50-day-oid A. angustifolia seedlings. The enzymatic activity of phenylalanine ammonialyase (PAL), polyphenol oxidase (PPO), and peroxidase (POX), and the levels of phenolic compounds, flavonoids, and chlorophyll were determined in extracts of roots and leaves from seedlings. Assays were carried out 1, 3 and 9 days after the roots were inoculated with each isolated. Length and fresh mass of shoots and roots as well as the volume and density of roots were evaluated at 100 days after seedlings inoculation. All Streptomyces spp. evaluated showed rhizospheric competence and produce indole-3-acetic acid (IAA). The activities of PPO and POX exhibited a tissue-temporal regulation in the presence of the isolates; however the levels of phenolics, flavonoids and chlorophylls did not change in the period analyzed. PAL activity was reduced only 9 days after root inoculation with PM9. The volume, density and length of roots changed in seedlings that were in contact with isolates for 100 days. The isolate PM9 caused significant changes in plant metabolism, increasing the shoot increment.
Published: 2010

37. Streptomyces da floresta ombrófila mista: efeitos no desenvolvimento e no metabolismo de plântulas de Araucaria angustifolia (Bertol.) Kuntze

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Araucaria angustifolia, conhecida como Pinheiro Brasileiro, é uma espécie ameaçada de extinção de grande importância ecológica e econômica. Embora muitos esforços foram feitos para estabelecerem plantios comerciais desta espécie, ela apresenta crescimento lento e heterogêneo, com alta mortalidade. As plant-growth-promoting rhizobacteria (PGPR) representam uma classe de bactérias de solo não patogênicas que promovem efeito benéfico no crescimento do vegetal, destacando-se as actinobactérias do gênero Streptomyces. O trabalho avaliou o efeito de três isolados autóctones de Streptomyces spp. (PM1, PM4 e PM9) no desenvolvimento e no metabolismo inicial de plântulas de Araucaria angustifolia com 50 dias de idade. A atividade enzimática da fenilalanina amônio-liase (FAL), polifenol oxidase (PPO), peroxidase (POX) e os níveis de compostos fenólicos, flavonóides e clorofila foram determinados em extratos de raízes e folhas das plântulas. As análises foram realizadas em 1, 3 e 9 dias após a inoculação das raízes com as rizobactérias. O comprimento e a massa fresca da parte aérea e radicular assim como o volume e densidade das raízes foram avaliados após 100 dias da inoculação. Todos Streptomyces spp. apresentaram competência rizosférica e a capacidade de produzir ácido indol-3-acético (AIA). As atividades da PPO e POX exibiram regulação tecido-temporal na presença dos isolados; entretanto não foram alterados no período analisado os níveis de fenólicos, flavonóides e clorofila. A atividade da FAL foi reduzida somente 9 dias após a inoculação do isolado PM9. O volume, densidade e comprimento das raízes foram alterados nas plântulas inoculadas com as rizobactérias durante 100 dias. PM9 foi o isolado que promoveu as maiores alterações no metabolismo vegetal, aumentando o incremento da parte aérea., Araucaria angusifolia (Bertol. ) Kuntze, known as Brazilian pine, is an endangered species with great ecological and economic importance. Although many efforts have been made to establish commercial plantations of this species, it grows slowly and unevenly, with high mortality. Plant Growth-Promoting Rhizobacteria (PGPR), including some Strepromyces (actinobacteria), represent a class of non-pathogenic soil microorganisms and have a beneficial effect on plant growth. This study evaluated the effect of three autochthonous Streptomyces spp. isolates (PM1, PM4, and PM9) on the early development and metabolism of 50-day-oid A. angustifolia seedlings. The enzymatic activity of phenylalanine ammonialyase (PAL), polyphenol oxidase (PPO), and peroxidase (POX), and the levels of phenolic compounds, flavonoids, and chlorophyll were determined in extracts of roots and leaves from seedlings. Assays were carried out 1, 3 and 9 days after the roots were inoculated with each isolated. Length and fresh mass of shoots and roots as well as the volume and density of roots were evaluated at 100 days after seedlings inoculation. All Streptomyces spp. evaluated showed rhizospheric competence and produce indole-3-acetic acid (IAA). The activities of PPO and POX exhibited a tissue-temporal regulation in the presence of the isolates; however the levels of phenolics, flavonoids and chlorophylls did not change in the period analyzed. PAL activity was reduced only 9 days after root inoculation with PM9. The volume, density and length of roots changed in seedlings that were in contact with isolates for 100 days. The isolate PM9 caused significant changes in plant metabolism, increasing the shoot increment.
Published: 2010

38. Streptomyces da floresta ombrófila mista: efeitos no desenvolvimento e no metabolismo de plântulas de Araucaria angustifolia (Bertol.) Kuntze

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Araucaria angustifolia, conhecida como Pinheiro Brasileiro, é uma espécie ameaçada de extinção de grande importância ecológica e econômica. Embora muitos esforços foram feitos para estabelecerem plantios comerciais desta espécie, ela apresenta crescimento lento e heterogêneo, com alta mortalidade. As plant-growth-promoting rhizobacteria (PGPR) representam uma classe de bactérias de solo não patogênicas que promovem efeito benéfico no crescimento do vegetal, destacando-se as actinobactérias do gênero Streptomyces. O trabalho avaliou o efeito de três isolados autóctones de Streptomyces spp. (PM1, PM4 e PM9) no desenvolvimento e no metabolismo inicial de plântulas de Araucaria angustifolia com 50 dias de idade. A atividade enzimática da fenilalanina amônio-liase (FAL), polifenol oxidase (PPO), peroxidase (POX) e os níveis de compostos fenólicos, flavonóides e clorofila foram determinados em extratos de raízes e folhas das plântulas. As análises foram realizadas em 1, 3 e 9 dias após a inoculação das raízes com as rizobactérias. O comprimento e a massa fresca da parte aérea e radicular assim como o volume e densidade das raízes foram avaliados após 100 dias da inoculação. Todos Streptomyces spp. apresentaram competência rizosférica e a capacidade de produzir ácido indol-3-acético (AIA). As atividades da PPO e POX exibiram regulação tecido-temporal na presença dos isolados; entretanto não foram alterados no período analisado os níveis de fenólicos, flavonóides e clorofila. A atividade da FAL foi reduzida somente 9 dias após a inoculação do isolado PM9. O volume, densidade e comprimento das raízes foram alterados nas plântulas inoculadas com as rizobactérias durante 100 dias. PM9 foi o isolado que promoveu as maiores alterações no metabolismo vegetal, aumentando o incremento da parte aérea., Araucaria angusifolia (Bertol. ) Kuntze, known as Brazilian pine, is an endangered species with great ecological and economic importance. Although many efforts have been made to establish commercial plantations of this species, it grows slowly and unevenly, with high mortality. Plant Growth-Promoting Rhizobacteria (PGPR), including some Strepromyces (actinobacteria), represent a class of non-pathogenic soil microorganisms and have a beneficial effect on plant growth. This study evaluated the effect of three autochthonous Streptomyces spp. isolates (PM1, PM4, and PM9) on the early development and metabolism of 50-day-oid A. angustifolia seedlings. The enzymatic activity of phenylalanine ammonialyase (PAL), polyphenol oxidase (PPO), and peroxidase (POX), and the levels of phenolic compounds, flavonoids, and chlorophyll were determined in extracts of roots and leaves from seedlings. Assays were carried out 1, 3 and 9 days after the roots were inoculated with each isolated. Length and fresh mass of shoots and roots as well as the volume and density of roots were evaluated at 100 days after seedlings inoculation. All Streptomyces spp. evaluated showed rhizospheric competence and produce indole-3-acetic acid (IAA). The activities of PPO and POX exhibited a tissue-temporal regulation in the presence of the isolates; however the levels of phenolics, flavonoids and chlorophylls did not change in the period analyzed. PAL activity was reduced only 9 days after root inoculation with PM9. The volume, density and length of roots changed in seedlings that were in contact with isolates for 100 days. The isolate PM9 caused significant changes in plant metabolism, increasing the shoot increment.
Published: 2010

39. Streptomyces da floresta ombrófila mista: efeitos no desenvolvimento e no metabolismo de plântulas de Araucaria angustifolia (Bertol.) Kuntze

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Araucaria angustifolia, conhecida como Pinheiro Brasileiro, é uma espécie ameaçada de extinção de grande importância ecológica e econômica. Embora muitos esforços foram feitos para estabelecerem plantios comerciais desta espécie, ela apresenta crescimento lento e heterogêneo, com alta mortalidade. As plant-growth-promoting rhizobacteria (PGPR) representam uma classe de bactérias de solo não patogênicas que promovem efeito benéfico no crescimento do vegetal, destacando-se as actinobactérias do gênero Streptomyces. O trabalho avaliou o efeito de três isolados autóctones de Streptomyces spp. (PM1, PM4 e PM9) no desenvolvimento e no metabolismo inicial de plântulas de Araucaria angustifolia com 50 dias de idade. A atividade enzimática da fenilalanina amônio-liase (FAL), polifenol oxidase (PPO), peroxidase (POX) e os níveis de compostos fenólicos, flavonóides e clorofila foram determinados em extratos de raízes e folhas das plântulas. As análises foram realizadas em 1, 3 e 9 dias após a inoculação das raízes com as rizobactérias. O comprimento e a massa fresca da parte aérea e radicular assim como o volume e densidade das raízes foram avaliados após 100 dias da inoculação. Todos Streptomyces spp. apresentaram competência rizosférica e a capacidade de produzir ácido indol-3-acético (AIA). As atividades da PPO e POX exibiram regulação tecido-temporal na presença dos isolados; entretanto não foram alterados no período analisado os níveis de fenólicos, flavonóides e clorofila. A atividade da FAL foi reduzida somente 9 dias após a inoculação do isolado PM9. O volume, densidade e comprimento das raízes foram alterados nas plântulas inoculadas com as rizobactérias durante 100 dias. PM9 foi o isolado que promoveu as maiores alterações no metabolismo vegetal, aumentando o incremento da parte aérea., Araucaria angusifolia (Bertol. ) Kuntze, known as Brazilian pine, is an endangered species with great ecological and economic importance. Although many efforts have been made to establish commercial plantations of this species, it grows slowly and unevenly, with high mortality. Plant Growth-Promoting Rhizobacteria (PGPR), including some Strepromyces (actinobacteria), represent a class of non-pathogenic soil microorganisms and have a beneficial effect on plant growth. This study evaluated the effect of three autochthonous Streptomyces spp. isolates (PM1, PM4, and PM9) on the early development and metabolism of 50-day-oid A. angustifolia seedlings. The enzymatic activity of phenylalanine ammonialyase (PAL), polyphenol oxidase (PPO), and peroxidase (POX), and the levels of phenolic compounds, flavonoids, and chlorophyll were determined in extracts of roots and leaves from seedlings. Assays were carried out 1, 3 and 9 days after the roots were inoculated with each isolated. Length and fresh mass of shoots and roots as well as the volume and density of roots were evaluated at 100 days after seedlings inoculation. All Streptomyces spp. evaluated showed rhizospheric competence and produce indole-3-acetic acid (IAA). The activities of PPO and POX exhibited a tissue-temporal regulation in the presence of the isolates; however the levels of phenolics, flavonoids and chlorophylls did not change in the period analyzed. PAL activity was reduced only 9 days after root inoculation with PM9. The volume, density and length of roots changed in seedlings that were in contact with isolates for 100 days. The isolate PM9 caused significant changes in plant metabolism, increasing the shoot increment.
Published: 2010

40. Mecanismos de defesa em plantas de Solanum tuberosum L. em resposta a bactérias fitopatogênicas

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: The natural resistance of plants to disease is based not only on preformed mechanisms, but also on induced mechanisms. The defense mechanisms present in resistant plants may also be found in susceptible ones. This study attempts to analyze phenolic compounds levels, including the flavonoid group and polyphenol oxidase (PPO) and peroxidase (POX) activities in Solanum tuberosum cv. Agata, in response to inoculation of the incompatible plant pathogenic bacteria Xanthomonas axonopodis and Ralstonia solanacearum, and the compatible bacteria Erwinia carotovora. Bacteria compatibility was evaluated using tubers infiltration. Tubers infiltrated with E. carotovora suspensions exhibited disease symptoms. On the other hand, bacteria R. solanacearum and X. axonopodis did not induce disease. Leaf inoculation was performed depending on the number and location of the leaves on the stem. Multiple-leaf inoculation was performed on basal, intermediate and apical leaves and single inoculations on intermediate leaves. Leaves inoculated with bacterial suspensions of X. axonopodis and R. solanacearum showed hypersensitive response (HR) within 24 hpi, while leaves inoculated with E. carotovora showed disease symptoms. Therefore, the R. solanacearum isolate used in the experiments did not exhibit virulence to this potato cultivar. Regardless of the bacterial treatments, multiple-inoculated basal leaves presented higher PPO and POX activities and lower levels of total phenolic compounds and flavonoids, when compared to apical leaves. Basal and intermediate leaves inoculated with R. solanacearum and X. axonopodis showed an increase in total phenolic compounds and flavonoid levels. These increases were similar or higher than the levels observed in non-inoculated apical leaves. In general, multiple-leaf inoculations showed the highest levels of phenolic compounds and flavonoids, while the single inoculations presented the highest increase in PPO activity. However, with POX activities there wer, A resistência natural das plantas a doenças é baseada tanto em mecanismos pré-formados quanto em mecanismos induzidos. Esse estudo pretendeu analisar os níveis de compostos fenólicos, incluindo o grupo dos flavonóides e as atividades das enzimas polifenoloxidases (PPOs) e peroxidases (POX) em Solanum tuberosum cv. Ágata, em resposta às inoculações com as bactérias fitopatogênicas incompatíveis Xanthomonas axonopodis, Ralstonia solanacearum, e compatíveis Erwinia carotovora. A compatibilidade das bactérias foi avaliada através da inoculação de tubérculos. Tubérculos infiltrados com E. carotovora exibiram sinais de doença e com R. solanacearum e X. axonopodis não desenvolveram doença. As inoculações nas folhas foram realizadas dependendo do número e das localizações das folhas nos ramos. As inoculações múltiplas foram realizadas nas folhas basais, intermediárias e apicais e as inoculações simples ocorreram nas folhas intermediárias. As folhas inoculadas com as suspensões de X. axonopodis e R. solanacearum exibiram a resposta de hipersensibilidade (HR) dentro de 24 hpi, enquanto que as folhas inoculadas com E. carotovora evidenciaram sintomas de doença. Portanto, o isolado de R. solanacearum utilizado nos experimentos não mostrou virulência a esta cultivar de batata. Independentemente do tratamento bacteriano, as folhas basais apresentaram nas inoculações múltiplas, as mais altas atividades das PPOs e das POX e os níveis mais baixos de compostos fenólicos totais e de flavonóides, quando comparadas com as folhas apicais. As folhas basais e as intermediárias inoculadas com R. solanacearum e com X. axonopodis mostraram um aumento nos níveis de compostos fenólicos totais e de flavonóides. Esses aumentos foram similares ou maiores que os níveis observados nas folhas apicais não inoculadas. De um modo geral, as inoculações múltiplas exibiram os maiores níveis de compostos fenólicos totais e de flavonóides, enquanto que as inoculações simples apresentaram os maiores aumentos
Published: 2007

41. Mecanismos de defesa em plantas de Solanum tuberosum L. em resposta a bactérias fitopatogênicas

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: The natural resistance of plants to disease is based not only on preformed mechanisms, but also on induced mechanisms. The defense mechanisms present in resistant plants may also be found in susceptible ones. This study attempts to analyze phenolic compounds levels, including the flavonoid group and polyphenol oxidase (PPO) and peroxidase (POX) activities in Solanum tuberosum cv. Agata, in response to inoculation of the incompatible plant pathogenic bacteria Xanthomonas axonopodis and Ralstonia solanacearum, and the compatible bacteria Erwinia carotovora. Bacteria compatibility was evaluated using tubers infiltration. Tubers infiltrated with E. carotovora suspensions exhibited disease symptoms. On the other hand, bacteria R. solanacearum and X. axonopodis did not induce disease. Leaf inoculation was performed depending on the number and location of the leaves on the stem. Multiple-leaf inoculation was performed on basal, intermediate and apical leaves and single inoculations on intermediate leaves. Leaves inoculated with bacterial suspensions of X. axonopodis and R. solanacearum showed hypersensitive response (HR) within 24 hpi, while leaves inoculated with E. carotovora showed disease symptoms. Therefore, the R. solanacearum isolate used in the experiments did not exhibit virulence to this potato cultivar. Regardless of the bacterial treatments, multiple-inoculated basal leaves presented higher PPO and POX activities and lower levels of total phenolic compounds and flavonoids, when compared to apical leaves. Basal and intermediate leaves inoculated with R. solanacearum and X. axonopodis showed an increase in total phenolic compounds and flavonoid levels. These increases were similar or higher than the levels observed in non-inoculated apical leaves. In general, multiple-leaf inoculations showed the highest levels of phenolic compounds and flavonoids, while the single inoculations presented the highest increase in PPO activity. However, with POX activities there wer, A resistência natural das plantas a doenças é baseada tanto em mecanismos pré-formados quanto em mecanismos induzidos. Esse estudo pretendeu analisar os níveis de compostos fenólicos, incluindo o grupo dos flavonóides e as atividades das enzimas polifenoloxidases (PPOs) e peroxidases (POX) em Solanum tuberosum cv. Ágata, em resposta às inoculações com as bactérias fitopatogênicas incompatíveis Xanthomonas axonopodis, Ralstonia solanacearum, e compatíveis Erwinia carotovora. A compatibilidade das bactérias foi avaliada através da inoculação de tubérculos. Tubérculos infiltrados com E. carotovora exibiram sinais de doença e com R. solanacearum e X. axonopodis não desenvolveram doença. As inoculações nas folhas foram realizadas dependendo do número e das localizações das folhas nos ramos. As inoculações múltiplas foram realizadas nas folhas basais, intermediárias e apicais e as inoculações simples ocorreram nas folhas intermediárias. As folhas inoculadas com as suspensões de X. axonopodis e R. solanacearum exibiram a resposta de hipersensibilidade (HR) dentro de 24 hpi, enquanto que as folhas inoculadas com E. carotovora evidenciaram sintomas de doença. Portanto, o isolado de R. solanacearum utilizado nos experimentos não mostrou virulência a esta cultivar de batata. Independentemente do tratamento bacteriano, as folhas basais apresentaram nas inoculações múltiplas, as mais altas atividades das PPOs e das POX e os níveis mais baixos de compostos fenólicos totais e de flavonóides, quando comparadas com as folhas apicais. As folhas basais e as intermediárias inoculadas com R. solanacearum e com X. axonopodis mostraram um aumento nos níveis de compostos fenólicos totais e de flavonóides. Esses aumentos foram similares ou maiores que os níveis observados nas folhas apicais não inoculadas. De um modo geral, as inoculações múltiplas exibiram os maiores níveis de compostos fenólicos totais e de flavonóides, enquanto que as inoculações simples apresentaram os maiores aumentos
Published: 2007

42. Mecanismos de defesa em plantas de Solanum tuberosum L. em resposta a bactérias fitopatogênicas

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: The natural resistance of plants to disease is based not only on preformed mechanisms, but also on induced mechanisms. The defense mechanisms present in resistant plants may also be found in susceptible ones. This study attempts to analyze phenolic compounds levels, including the flavonoid group and polyphenol oxidase (PPO) and peroxidase (POX) activities in Solanum tuberosum cv. Agata, in response to inoculation of the incompatible plant pathogenic bacteria Xanthomonas axonopodis and Ralstonia solanacearum, and the compatible bacteria Erwinia carotovora. Bacteria compatibility was evaluated using tubers infiltration. Tubers infiltrated with E. carotovora suspensions exhibited disease symptoms. On the other hand, bacteria R. solanacearum and X. axonopodis did not induce disease. Leaf inoculation was performed depending on the number and location of the leaves on the stem. Multiple-leaf inoculation was performed on basal, intermediate and apical leaves and single inoculations on intermediate leaves. Leaves inoculated with bacterial suspensions of X. axonopodis and R. solanacearum showed hypersensitive response (HR) within 24 hpi, while leaves inoculated with E. carotovora showed disease symptoms. Therefore, the R. solanacearum isolate used in the experiments did not exhibit virulence to this potato cultivar. Regardless of the bacterial treatments, multiple-inoculated basal leaves presented higher PPO and POX activities and lower levels of total phenolic compounds and flavonoids, when compared to apical leaves. Basal and intermediate leaves inoculated with R. solanacearum and X. axonopodis showed an increase in total phenolic compounds and flavonoid levels. These increases were similar or higher than the levels observed in non-inoculated apical leaves. In general, multiple-leaf inoculations showed the highest levels of phenolic compounds and flavonoids, while the single inoculations presented the highest increase in PPO activity. However, with POX activities there wer, A resistência natural das plantas a doenças é baseada tanto em mecanismos pré-formados quanto em mecanismos induzidos. Esse estudo pretendeu analisar os níveis de compostos fenólicos, incluindo o grupo dos flavonóides e as atividades das enzimas polifenoloxidases (PPOs) e peroxidases (POX) em Solanum tuberosum cv. Ágata, em resposta às inoculações com as bactérias fitopatogênicas incompatíveis Xanthomonas axonopodis, Ralstonia solanacearum, e compatíveis Erwinia carotovora. A compatibilidade das bactérias foi avaliada através da inoculação de tubérculos. Tubérculos infiltrados com E. carotovora exibiram sinais de doença e com R. solanacearum e X. axonopodis não desenvolveram doença. As inoculações nas folhas foram realizadas dependendo do número e das localizações das folhas nos ramos. As inoculações múltiplas foram realizadas nas folhas basais, intermediárias e apicais e as inoculações simples ocorreram nas folhas intermediárias. As folhas inoculadas com as suspensões de X. axonopodis e R. solanacearum exibiram a resposta de hipersensibilidade (HR) dentro de 24 hpi, enquanto que as folhas inoculadas com E. carotovora evidenciaram sintomas de doença. Portanto, o isolado de R. solanacearum utilizado nos experimentos não mostrou virulência a esta cultivar de batata. Independentemente do tratamento bacteriano, as folhas basais apresentaram nas inoculações múltiplas, as mais altas atividades das PPOs e das POX e os níveis mais baixos de compostos fenólicos totais e de flavonóides, quando comparadas com as folhas apicais. As folhas basais e as intermediárias inoculadas com R. solanacearum e com X. axonopodis mostraram um aumento nos níveis de compostos fenólicos totais e de flavonóides. Esses aumentos foram similares ou maiores que os níveis observados nas folhas apicais não inoculadas. De um modo geral, as inoculações múltiplas exibiram os maiores níveis de compostos fenólicos totais e de flavonóides, enquanto que as inoculações simples apresentaram os maiores aumentos
Published: 2007

43. Mecanismos de defesa em plantas de Solanum tuberosum L. em resposta a bactérias fitopatogênicas

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: The natural resistance of plants to disease is based not only on preformed mechanisms, but also on induced mechanisms. The defense mechanisms present in resistant plants may also be found in susceptible ones. This study attempts to analyze phenolic compounds levels, including the flavonoid group and polyphenol oxidase (PPO) and peroxidase (POX) activities in Solanum tuberosum cv. Agata, in response to inoculation of the incompatible plant pathogenic bacteria Xanthomonas axonopodis and Ralstonia solanacearum, and the compatible bacteria Erwinia carotovora. Bacteria compatibility was evaluated using tubers infiltration. Tubers infiltrated with E. carotovora suspensions exhibited disease symptoms. On the other hand, bacteria R. solanacearum and X. axonopodis did not induce disease. Leaf inoculation was performed depending on the number and location of the leaves on the stem. Multiple-leaf inoculation was performed on basal, intermediate and apical leaves and single inoculations on intermediate leaves. Leaves inoculated with bacterial suspensions of X. axonopodis and R. solanacearum showed hypersensitive response (HR) within 24 hpi, while leaves inoculated with E. carotovora showed disease symptoms. Therefore, the R. solanacearum isolate used in the experiments did not exhibit virulence to this potato cultivar. Regardless of the bacterial treatments, multiple-inoculated basal leaves presented higher PPO and POX activities and lower levels of total phenolic compounds and flavonoids, when compared to apical leaves. Basal and intermediate leaves inoculated with R. solanacearum and X. axonopodis showed an increase in total phenolic compounds and flavonoid levels. These increases were similar or higher than the levels observed in non-inoculated apical leaves. In general, multiple-leaf inoculations showed the highest levels of phenolic compounds and flavonoids, while the single inoculations presented the highest increase in PPO activity. However, with POX activities there wer, A resistência natural das plantas a doenças é baseada tanto em mecanismos pré-formados quanto em mecanismos induzidos. Esse estudo pretendeu analisar os níveis de compostos fenólicos, incluindo o grupo dos flavonóides e as atividades das enzimas polifenoloxidases (PPOs) e peroxidases (POX) em Solanum tuberosum cv. Ágata, em resposta às inoculações com as bactérias fitopatogênicas incompatíveis Xanthomonas axonopodis, Ralstonia solanacearum, e compatíveis Erwinia carotovora. A compatibilidade das bactérias foi avaliada através da inoculação de tubérculos. Tubérculos infiltrados com E. carotovora exibiram sinais de doença e com R. solanacearum e X. axonopodis não desenvolveram doença. As inoculações nas folhas foram realizadas dependendo do número e das localizações das folhas nos ramos. As inoculações múltiplas foram realizadas nas folhas basais, intermediárias e apicais e as inoculações simples ocorreram nas folhas intermediárias. As folhas inoculadas com as suspensões de X. axonopodis e R. solanacearum exibiram a resposta de hipersensibilidade (HR) dentro de 24 hpi, enquanto que as folhas inoculadas com E. carotovora evidenciaram sintomas de doença. Portanto, o isolado de R. solanacearum utilizado nos experimentos não mostrou virulência a esta cultivar de batata. Independentemente do tratamento bacteriano, as folhas basais apresentaram nas inoculações múltiplas, as mais altas atividades das PPOs e das POX e os níveis mais baixos de compostos fenólicos totais e de flavonóides, quando comparadas com as folhas apicais. As folhas basais e as intermediárias inoculadas com R. solanacearum e com X. axonopodis mostraram um aumento nos níveis de compostos fenólicos totais e de flavonóides. Esses aumentos foram similares ou maiores que os níveis observados nas folhas apicais não inoculadas. De um modo geral, as inoculações múltiplas exibiram os maiores níveis de compostos fenólicos totais e de flavonóides, enquanto que as inoculações simples apresentaram os maiores aumentos
Published: 2007

44. Mecanismos de defesa em plantas de Solanum tuberosum L. em resposta a bactérias fitopatogênicas

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: The natural resistance of plants to disease is based not only on preformed mechanisms, but also on induced mechanisms. The defense mechanisms present in resistant plants may also be found in susceptible ones. This study attempts to analyze phenolic compounds levels, including the flavonoid group and polyphenol oxidase (PPO) and peroxidase (POX) activities in Solanum tuberosum cv. Agata, in response to inoculation of the incompatible plant pathogenic bacteria Xanthomonas axonopodis and Ralstonia solanacearum, and the compatible bacteria Erwinia carotovora. Bacteria compatibility was evaluated using tubers infiltration. Tubers infiltrated with E. carotovora suspensions exhibited disease symptoms. On the other hand, bacteria R. solanacearum and X. axonopodis did not induce disease. Leaf inoculation was performed depending on the number and location of the leaves on the stem. Multiple-leaf inoculation was performed on basal, intermediate and apical leaves and single inoculations on intermediate leaves. Leaves inoculated with bacterial suspensions of X. axonopodis and R. solanacearum showed hypersensitive response (HR) within 24 hpi, while leaves inoculated with E. carotovora showed disease symptoms. Therefore, the R. solanacearum isolate used in the experiments did not exhibit virulence to this potato cultivar. Regardless of the bacterial treatments, multiple-inoculated basal leaves presented higher PPO and POX activities and lower levels of total phenolic compounds and flavonoids, when compared to apical leaves. Basal and intermediate leaves inoculated with R. solanacearum and X. axonopodis showed an increase in total phenolic compounds and flavonoid levels. These increases were similar or higher than the levels observed in non-inoculated apical leaves. In general, multiple-leaf inoculations showed the highest levels of phenolic compounds and flavonoids, while the single inoculations presented the highest increase in PPO activity. However, with POX activities there wer, A resistência natural das plantas a doenças é baseada tanto em mecanismos pré-formados quanto em mecanismos induzidos. Esse estudo pretendeu analisar os níveis de compostos fenólicos, incluindo o grupo dos flavonóides e as atividades das enzimas polifenoloxidases (PPOs) e peroxidases (POX) em Solanum tuberosum cv. Ágata, em resposta às inoculações com as bactérias fitopatogênicas incompatíveis Xanthomonas axonopodis, Ralstonia solanacearum, e compatíveis Erwinia carotovora. A compatibilidade das bactérias foi avaliada através da inoculação de tubérculos. Tubérculos infiltrados com E. carotovora exibiram sinais de doença e com R. solanacearum e X. axonopodis não desenvolveram doença. As inoculações nas folhas foram realizadas dependendo do número e das localizações das folhas nos ramos. As inoculações múltiplas foram realizadas nas folhas basais, intermediárias e apicais e as inoculações simples ocorreram nas folhas intermediárias. As folhas inoculadas com as suspensões de X. axonopodis e R. solanacearum exibiram a resposta de hipersensibilidade (HR) dentro de 24 hpi, enquanto que as folhas inoculadas com E. carotovora evidenciaram sintomas de doença. Portanto, o isolado de R. solanacearum utilizado nos experimentos não mostrou virulência a esta cultivar de batata. Independentemente do tratamento bacteriano, as folhas basais apresentaram nas inoculações múltiplas, as mais altas atividades das PPOs e das POX e os níveis mais baixos de compostos fenólicos totais e de flavonóides, quando comparadas com as folhas apicais. As folhas basais e as intermediárias inoculadas com R. solanacearum e com X. axonopodis mostraram um aumento nos níveis de compostos fenólicos totais e de flavonóides. Esses aumentos foram similares ou maiores que os níveis observados nas folhas apicais não inoculadas. De um modo geral, as inoculações múltiplas exibiram os maiores níveis de compostos fenólicos totais e de flavonóides, enquanto que as inoculações simples apresentaram os maiores aumentos
Published: 2007

45. Avaliação de eliciadores do metabolismo dos fenilpropanóides em melissa officinalis L. (Lamiaceae)

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Melissa officinalis (melissa) apresenta elevados níveis de compostos fenólicos com reconhecida ação biológica, sendo utilizada na prevenção de várias doenças, como asma brônquica, úlcera, inflamações, viroses e arteriosclerose. A síntese de compostos com atividade biológica depende da qualidade da planta, sua origem geográfica, condições climáticas, período de colheita e métodos de estocagem. Neste trabalho pretendeu-se avaliar o uso de eliciadores em brotos cultivados in vitro e em plantas cultivadas em vaso, na promoção da síntese e acúmulo de fenilpropanóides, bem como analisar a atividade das enzimas fenilalanina amônia-liase e polifenol oxidase. Pretendeu-se, ainda, otimizar a micropropagação de M. officinalis, regenerando plantas-clone. Os meios de cultura suplementados com 0,2 mg. L-1 BA, independende da presença de ANA, foram mais eficientes na formação de múltiplas brotações in vitro, sendo que a maior taxa de alongamento foi obtida no meio com 2 mg. L-1 de BA. A maior taxa de formação e crescimento de raízes foi obtida utilizando-se 1 mg. L-1 de AIB. O uso do eliciador ácido salicílico promoveu o aumento transitório dos níveis dos compostos fenólicos e flavonóides nas plântulas in vitro, entretanto não foi observada a mesma resposta em plantas envasadas. A suplementação do meio de cultura com suspensão de bactérias fitopatogênicas mortas, resultou na redução dos níveis dos compostos fenólicos e o espessamento de raízes e ramos. Contudo, nas plantas envasadas, a suspensão bacteriana ocasionou necrose nos bordos das folhas 24h após a aspersão. Os eliciadores não promoveram mudanças significativas na atividade da fenilalanina amônia-liase em ambos os experimentos. A atividade da polifenol oxidase teve um aumento transitório que coincidiu com a elevação dos fenólicos nas plantas eliciadas in vitro, fato este não observado nas plantas envasadas.
Published: 2006

46. Propriedades biológicas de extratos de melissa officinalis L. (Lamiaceae) em ratos wistar

Author: Astarita, Leandro Vieira, Oliveira, Jarbas Rodrigues de, Astarita, Leandro Vieira, and Oliveira, Jarbas Rodrigues de
Abstract: Melissa officinalis L. (Lemon balm) presents high levels of phenolic compounds such as flavonoids and rosmarinic acid. These compounds display a series of biological effects such as anti-inflammatory, cyclooxygenase activity inhibition and induction/inhibition of P450 cytochromes. Acetaminophen (APAP) is widely used as analgesic and antipyretic. However, when consumed in high doses it could cause hepatotoxicity and nephrotoxicity. This study attempted to analyze the bioactive properties of M. officinalis extracts in the protection against hepatic and renal lesion induced by acetaminophen as well as antiinflammatory actions in pleurisy induced by carrageenan. Male Wistar rats were used for evaluating the effect of aqueous extracts against hepatic and renal lesion. Animals were pre-treated for seven days with intragastric (ig. ) aqueous extracts administered at doses of 500 and 250 mg/kg or saline solution. After this phase, animals were treated with saline solution or APAP using intraperitoneal (ip. ) administration. Another experiment consisting of 200 mg/kg of extract ip., 30 minutes after 800 mg/kg of APAP administration ip was performed. Hepatic lesion was analyzed using the biochemical markers aspartate aminotransferase (AST) and alanine aminotransferase (ALT), while renal lesion was evaluated using the marker W-glutamyltransferase (GGT). There was an increase in the serum levels of AST and ALT in animals pre-treated with extracts way intragastric and intraperintoneal when compared to those pre-treated with saline solution and treated with APAP ip. The increase in the serum levels of AST and ALT and the urine levels of GGT of the animals pre-treated with M. officinalis extracts and that received APAP, indicated the increase of the hepatotoxicity and nephrotoxicity APAP-induced. The increase in the levels of biochemical hepatic lesion markers was not accompanied by the presence of necrosis in the centrolobular region during histopathological analysis. Female Wist, A Melissa officinalis L. (Lamiaceae) apresenta altos níveis de compostos fenólicos, como flavonóides e ácido rosmarínico. Estes compostos apresentam uma série de efeitos biológicos, como antiinflamatório, inibido a atividade da ciclooxigenase e a indução/inibição do citocromos P450. O acetaminofen (APAP) é amplamente utilizado como analgésico e antipirético. Porém consumido em altas doses pode provocar hepatotoxicidade e nefrotoxicidade. No presente estudo analisou-se as propriedades bioativas dos extratos de M. officinalis na proteção da lesão hepática e renal induzida por acetaminofen, bem como, a ação antiinflamatória na pleurisia induzida por carragenina. Para analisar os efeitos dos extratos aquosos na lesão hepática e na lesão renal foram utilizados ratos machos Wistar. Os animais foram pré-tratados por sete dias, via intragástrica (ig), com extratos aquosos de M. officinalis nas dosagens 500 e 250 mg/kg ou solução salina. Após esta fase, os animais foram tratados com solução salina ou 800 mg/kg de APAP via intraperitoneal (ip). Foram também administrados intraperitoneal extrato na dose 200 mg/kg, 30 minutos antes de administrar o APAP ip. Para lesão hepática foram analisados os marcadores bioquímicos aspartato aminotransferase (AST) e alanina aminotransferase (ALT), enquanto para lesão renal foi analisado o marcador W- glutamyltransferase (GGT). Ocorreu um aumento nos níveis de AST e ALT no soro em animais pré-tratados com extratos via intragástrica e via intraperitoneal, quando comparado com aqueles pré-tratados com solução salina ig. e tratados com APAP ip. O aumento nos níveis de AST e ALT no soro, e nos níveis GGT na urina dos animais pré-tratados com os extratos aquosos de M. officinalis e que receberam APAP, indicou um aumento na hepatotoxicidade e na nefrotoxicidade induzida por APAP.O aumento nos níveis dos marcadores bioquímicos de lesão hepática não foi acompanhado da presença de necrose na região centrolobular nas análises histopatológicas. Para an
Published: 2006

47. Avaliação de eliciadores do metabolismo dos fenilpropanóides em melissa officinalis L. (Lamiaceae)

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Melissa officinalis (melissa) apresenta elevados níveis de compostos fenólicos com reconhecida ação biológica, sendo utilizada na prevenção de várias doenças, como asma brônquica, úlcera, inflamações, viroses e arteriosclerose. A síntese de compostos com atividade biológica depende da qualidade da planta, sua origem geográfica, condições climáticas, período de colheita e métodos de estocagem. Neste trabalho pretendeu-se avaliar o uso de eliciadores em brotos cultivados in vitro e em plantas cultivadas em vaso, na promoção da síntese e acúmulo de fenilpropanóides, bem como analisar a atividade das enzimas fenilalanina amônia-liase e polifenol oxidase. Pretendeu-se, ainda, otimizar a micropropagação de M. officinalis, regenerando plantas-clone. Os meios de cultura suplementados com 0,2 mg. L-1 BA, independende da presença de ANA, foram mais eficientes na formação de múltiplas brotações in vitro, sendo que a maior taxa de alongamento foi obtida no meio com 2 mg. L-1 de BA. A maior taxa de formação e crescimento de raízes foi obtida utilizando-se 1 mg. L-1 de AIB. O uso do eliciador ácido salicílico promoveu o aumento transitório dos níveis dos compostos fenólicos e flavonóides nas plântulas in vitro, entretanto não foi observada a mesma resposta em plantas envasadas. A suplementação do meio de cultura com suspensão de bactérias fitopatogênicas mortas, resultou na redução dos níveis dos compostos fenólicos e o espessamento de raízes e ramos. Contudo, nas plantas envasadas, a suspensão bacteriana ocasionou necrose nos bordos das folhas 24h após a aspersão. Os eliciadores não promoveram mudanças significativas na atividade da fenilalanina amônia-liase em ambos os experimentos. A atividade da polifenol oxidase teve um aumento transitório que coincidiu com a elevação dos fenólicos nas plantas eliciadas in vitro, fato este não observado nas plantas envasadas.
Published: 2006

48. Propriedades biológicas de extratos de melissa officinalis L. (Lamiaceae) em ratos wistar

Author: Astarita, Leandro Vieira, Oliveira, Jarbas Rodrigues de, Astarita, Leandro Vieira, and Oliveira, Jarbas Rodrigues de
Abstract: Melissa officinalis L. (Lemon balm) presents high levels of phenolic compounds such as flavonoids and rosmarinic acid. These compounds display a series of biological effects such as anti-inflammatory, cyclooxygenase activity inhibition and induction/inhibition of P450 cytochromes. Acetaminophen (APAP) is widely used as analgesic and antipyretic. However, when consumed in high doses it could cause hepatotoxicity and nephrotoxicity. This study attempted to analyze the bioactive properties of M. officinalis extracts in the protection against hepatic and renal lesion induced by acetaminophen as well as antiinflammatory actions in pleurisy induced by carrageenan. Male Wistar rats were used for evaluating the effect of aqueous extracts against hepatic and renal lesion. Animals were pre-treated for seven days with intragastric (ig. ) aqueous extracts administered at doses of 500 and 250 mg/kg or saline solution. After this phase, animals were treated with saline solution or APAP using intraperitoneal (ip. ) administration. Another experiment consisting of 200 mg/kg of extract ip., 30 minutes after 800 mg/kg of APAP administration ip was performed. Hepatic lesion was analyzed using the biochemical markers aspartate aminotransferase (AST) and alanine aminotransferase (ALT), while renal lesion was evaluated using the marker W-glutamyltransferase (GGT). There was an increase in the serum levels of AST and ALT in animals pre-treated with extracts way intragastric and intraperintoneal when compared to those pre-treated with saline solution and treated with APAP ip. The increase in the serum levels of AST and ALT and the urine levels of GGT of the animals pre-treated with M. officinalis extracts and that received APAP, indicated the increase of the hepatotoxicity and nephrotoxicity APAP-induced. The increase in the levels of biochemical hepatic lesion markers was not accompanied by the presence of necrosis in the centrolobular region during histopathological analysis. Female Wist, A Melissa officinalis L. (Lamiaceae) apresenta altos níveis de compostos fenólicos, como flavonóides e ácido rosmarínico. Estes compostos apresentam uma série de efeitos biológicos, como antiinflamatório, inibido a atividade da ciclooxigenase e a indução/inibição do citocromos P450. O acetaminofen (APAP) é amplamente utilizado como analgésico e antipirético. Porém consumido em altas doses pode provocar hepatotoxicidade e nefrotoxicidade. No presente estudo analisou-se as propriedades bioativas dos extratos de M. officinalis na proteção da lesão hepática e renal induzida por acetaminofen, bem como, a ação antiinflamatória na pleurisia induzida por carragenina. Para analisar os efeitos dos extratos aquosos na lesão hepática e na lesão renal foram utilizados ratos machos Wistar. Os animais foram pré-tratados por sete dias, via intragástrica (ig), com extratos aquosos de M. officinalis nas dosagens 500 e 250 mg/kg ou solução salina. Após esta fase, os animais foram tratados com solução salina ou 800 mg/kg de APAP via intraperitoneal (ip). Foram também administrados intraperitoneal extrato na dose 200 mg/kg, 30 minutos antes de administrar o APAP ip. Para lesão hepática foram analisados os marcadores bioquímicos aspartato aminotransferase (AST) e alanina aminotransferase (ALT), enquanto para lesão renal foi analisado o marcador W- glutamyltransferase (GGT). Ocorreu um aumento nos níveis de AST e ALT no soro em animais pré-tratados com extratos via intragástrica e via intraperitoneal, quando comparado com aqueles pré-tratados com solução salina ig. e tratados com APAP ip. O aumento nos níveis de AST e ALT no soro, e nos níveis GGT na urina dos animais pré-tratados com os extratos aquosos de M. officinalis e que receberam APAP, indicou um aumento na hepatotoxicidade e na nefrotoxicidade induzida por APAP.O aumento nos níveis dos marcadores bioquímicos de lesão hepática não foi acompanhado da presença de necrose na região centrolobular nas análises histopatológicas. Para an
Published: 2006

49. Propriedades biológicas de extratos de melissa officinalis L. (Lamiaceae) em ratos wistar

Author: Astarita, Leandro Vieira, Oliveira, Jarbas Rodrigues de, Astarita, Leandro Vieira, and Oliveira, Jarbas Rodrigues de
Abstract: Melissa officinalis L. (Lemon balm) presents high levels of phenolic compounds such as flavonoids and rosmarinic acid. These compounds display a series of biological effects such as anti-inflammatory, cyclooxygenase activity inhibition and induction/inhibition of P450 cytochromes. Acetaminophen (APAP) is widely used as analgesic and antipyretic. However, when consumed in high doses it could cause hepatotoxicity and nephrotoxicity. This study attempted to analyze the bioactive properties of M. officinalis extracts in the protection against hepatic and renal lesion induced by acetaminophen as well as antiinflammatory actions in pleurisy induced by carrageenan. Male Wistar rats were used for evaluating the effect of aqueous extracts against hepatic and renal lesion. Animals were pre-treated for seven days with intragastric (ig. ) aqueous extracts administered at doses of 500 and 250 mg/kg or saline solution. After this phase, animals were treated with saline solution or APAP using intraperitoneal (ip. ) administration. Another experiment consisting of 200 mg/kg of extract ip., 30 minutes after 800 mg/kg of APAP administration ip was performed. Hepatic lesion was analyzed using the biochemical markers aspartate aminotransferase (AST) and alanine aminotransferase (ALT), while renal lesion was evaluated using the marker W-glutamyltransferase (GGT). There was an increase in the serum levels of AST and ALT in animals pre-treated with extracts way intragastric and intraperintoneal when compared to those pre-treated with saline solution and treated with APAP ip. The increase in the serum levels of AST and ALT and the urine levels of GGT of the animals pre-treated with M. officinalis extracts and that received APAP, indicated the increase of the hepatotoxicity and nephrotoxicity APAP-induced. The increase in the levels of biochemical hepatic lesion markers was not accompanied by the presence of necrosis in the centrolobular region during histopathological analysis. Female Wist, A Melissa officinalis L. (Lamiaceae) apresenta altos níveis de compostos fenólicos, como flavonóides e ácido rosmarínico. Estes compostos apresentam uma série de efeitos biológicos, como antiinflamatório, inibido a atividade da ciclooxigenase e a indução/inibição do citocromos P450. O acetaminofen (APAP) é amplamente utilizado como analgésico e antipirético. Porém consumido em altas doses pode provocar hepatotoxicidade e nefrotoxicidade. No presente estudo analisou-se as propriedades bioativas dos extratos de M. officinalis na proteção da lesão hepática e renal induzida por acetaminofen, bem como, a ação antiinflamatória na pleurisia induzida por carragenina. Para analisar os efeitos dos extratos aquosos na lesão hepática e na lesão renal foram utilizados ratos machos Wistar. Os animais foram pré-tratados por sete dias, via intragástrica (ig), com extratos aquosos de M. officinalis nas dosagens 500 e 250 mg/kg ou solução salina. Após esta fase, os animais foram tratados com solução salina ou 800 mg/kg de APAP via intraperitoneal (ip). Foram também administrados intraperitoneal extrato na dose 200 mg/kg, 30 minutos antes de administrar o APAP ip. Para lesão hepática foram analisados os marcadores bioquímicos aspartato aminotransferase (AST) e alanina aminotransferase (ALT), enquanto para lesão renal foi analisado o marcador W- glutamyltransferase (GGT). Ocorreu um aumento nos níveis de AST e ALT no soro em animais pré-tratados com extratos via intragástrica e via intraperitoneal, quando comparado com aqueles pré-tratados com solução salina ig. e tratados com APAP ip. O aumento nos níveis de AST e ALT no soro, e nos níveis GGT na urina dos animais pré-tratados com os extratos aquosos de M. officinalis e que receberam APAP, indicou um aumento na hepatotoxicidade e na nefrotoxicidade induzida por APAP.O aumento nos níveis dos marcadores bioquímicos de lesão hepática não foi acompanhado da presença de necrose na região centrolobular nas análises histopatológicas. Para an
Published: 2006

50. Avaliação de eliciadores do metabolismo dos fenilpropanóides em melissa officinalis L. (Lamiaceae)

Author: Astarita, Leandro Vieira and Astarita, Leandro Vieira
Abstract: Melissa officinalis (melissa) apresenta elevados níveis de compostos fenólicos com reconhecida ação biológica, sendo utilizada na prevenção de várias doenças, como asma brônquica, úlcera, inflamações, viroses e arteriosclerose. A síntese de compostos com atividade biológica depende da qualidade da planta, sua origem geográfica, condições climáticas, período de colheita e métodos de estocagem. Neste trabalho pretendeu-se avaliar o uso de eliciadores em brotos cultivados in vitro e em plantas cultivadas em vaso, na promoção da síntese e acúmulo de fenilpropanóides, bem como analisar a atividade das enzimas fenilalanina amônia-liase e polifenol oxidase. Pretendeu-se, ainda, otimizar a micropropagação de M. officinalis, regenerando plantas-clone. Os meios de cultura suplementados com 0,2 mg. L-1 BA, independende da presença de ANA, foram mais eficientes na formação de múltiplas brotações in vitro, sendo que a maior taxa de alongamento foi obtida no meio com 2 mg. L-1 de BA. A maior taxa de formação e crescimento de raízes foi obtida utilizando-se 1 mg. L-1 de AIB. O uso do eliciador ácido salicílico promoveu o aumento transitório dos níveis dos compostos fenólicos e flavonóides nas plântulas in vitro, entretanto não foi observada a mesma resposta em plantas envasadas. A suplementação do meio de cultura com suspensão de bactérias fitopatogênicas mortas, resultou na redução dos níveis dos compostos fenólicos e o espessamento de raízes e ramos. Contudo, nas plantas envasadas, a suspensão bacteriana ocasionou necrose nos bordos das folhas 24h após a aspersão. Os eliciadores não promoveram mudanças significativas na atividade da fenilalanina amônia-liase em ambos os experimentos. A atividade da polifenol oxidase teve um aumento transitório que coincidiu com a elevação dos fenólicos nas plantas eliciadas in vitro, fato este não observado nas plantas envasadas.
Published: 2006

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