RESUMO
Entomopathogenic agents are viable and effective options due to their selective action against insects but benign effects on humans and the environment. The most promising entomopathogens include subspecies of Bacillus thuringiensis (Bt), which are widely used for the biological control of insects, including mosquito vectors of human pathogens. The efficacy of B. thuringiensis toxicity has led to the search for new potentially toxic isolates in different regions of the world. Therefore, soil samples from the Amazon, Cerrado and Caatinga biomes of the state of Maranhão were evaluated for their potential larvicidal action against Aedes aegypti. The isolates with high toxicity to mosquito larvae, as detected by bioassays, were subjected to histological evaluation under a light microscope to identify the genes potentially responsible for the toxicity. Additionally, the toxic effects of these isolates on the intestinal epithelium were assessed. In the new B. thuringiensis isolates toxic to A. aegypti larvae, cry and cyt genes were amplified at different frequencies, with cry4, cyt1, cry32, cry10 and cry11 being the most frequent (33-55%) among those investigated. These genes encode specific proteins toxic to dipterans and may explain the severe morphological changes in the intestine of A. aegypti larvae caused by the toxins of the isolates.(AU)
Os agentes entomopatógenos são alternativas viáveis e eficazes, devido à sua ação seletiva para insetos sendo inofensivos ao homem e ao meio ambiente. Dentre os entomopatógenos mais promissores, destacam-se as subespécies de Bacillus thuringiensis (Bt) amplamente utilizadas no controle biológico de insetos incluindo espécies de mosquitos vetores de agentes patogênicos ao homem. A eficiência da toxicidade de Bt incentiva a prospecção de novos isolados em diversas regiões do mundo. Desta forma, em busca de novos isolados de B. thuringiensis potencialmente tóxicos, amostras de solo provenientes dos biomas Amazônia, Cerrado e Caatinga do estado do Maranhão foram avaliadas em relação ao seu potencial larvicida para Aedes aegypti. Os isolados que provocaram elevada toxicidade para larvas do mosquito, detectada por bioensaios, foram avaliados em relação aos potenciais genes responsáveis pela atividade tóxica, além da avaliação de efeitos tóxicos no epitélio intestinal através de análises histológicas em microscopia de luz. Os novos isolados de Bt tóxicos para larva de A. aegypti amplificaram frequências diferentes de genes cry e cyt sendo os mais frequentes (55-33%) os cry4, cyt1, cry32, cry10 e cry11 dentre os investigados. Esses genes codificam para proteínas tóxicas específicas para ordem Diptera, e podem explicar as severas alterações morfológicas provocadas pelas toxinas dos isolados observadas no intestino das larvas de A. aegypti.(AU)
Assuntos
Bacillus thuringiensis/isolamento & purificação , Inseticidas , Aedes , Insetos VetoresRESUMO
Abstract Entomopathogenic agents are viable and effective options due to their selective action against insects but benign effects on humans and the environment. The most promising entomopathogens include subspecies of Bacillus thuringiensis (Bt), which are widely used for the biological control of insects, including mosquito vectors of human pathogens. The efficacy of B. thuringiensis toxicity has led to the search for new potentially toxic isolates in different regions of the world. Therefore, soil samples from the Amazon, Cerrado and Caatinga biomes of the state of Maranhão were evaluated for their potential larvicidal action against Aedes aegypti. The isolates with high toxicity to mosquito larvae, as detected by bioassays, were subjected to histological evaluation under a light microscope to identify the genes potentially responsible for the toxicity. Additionally, the toxic effects of these isolates on the intestinal epithelium were assessed. In the new B. thuringiensis isolates toxic to A. aegypti larvae, cry and cyt genes were amplified at different frequencies, with cry4, cyt1, cry32, cry10 and cry11 being the most frequent (33-55%) among those investigated. These genes encode specific proteins toxic to dipterans and may explain the severe morphological changes in the intestine of A. aegypti larvae caused by the toxins of the isolates.
Resumo Os agentes entomopatógenos são alternativas viáveis e eficazes, devido à sua ação seletiva para insetos sendo inofensivos ao homem e ao meio ambiente. Dentre os entomopatógenos mais promissores, destacam-se as subespécies de Bacillus thuringiensis (Bt) amplamente utilizadas no controle biológico de insetos incluindo espécies de mosquitos vetores de agentes patogênicos ao homem. A eficiência da toxicidade de Bt incentiva a prospecção de novos isolados em diversas regiões do mundo. Desta forma, em busca de novos isolados de B. thuringiensis potencialmente tóxicos, amostras de solo provenientes dos biomas Amazônia, Cerrado e Caatinga do estado do Maranhão foram avaliadas em relação ao seu potencial larvicida para Aedes aegypti. Os isolados que provocaram elevada toxicidade para larvas do mosquito, detectada por bioensaios, foram avaliados em relação aos potenciais genes responsáveis pela atividade tóxica, além da avaliação de efeitos tóxicos no epitélio intestinal através de análises histológicas em microscopia de luz. Os novos isolados de Bt tóxicos para larva de A. aegypti amplificaram frequências diferentes de genes cry e cyt sendo os mais frequentes (55-33%) os cry4, cyt1, cry32, cry10 e cry11 dentre os investigados. Esses genes codificam para proteínas tóxicas específicas para ordem Diptera, e podem explicar as severas alterações morfológicas provocadas pelas toxinas dos isolados observadas no intestino das larvas de A. aegypti.
Assuntos
Humanos , Animais , Bacillus thuringiensis/genética , Aedes , Inseticidas , Culicidae , Controle Biológico de Vetores , Ecossistema , Mosquitos Vetores , LarvaRESUMO
Abstract Entomopathogenic agents are viable and effective options due to their selective action against insects but benign effects on humans and the environment. The most promising entomopathogens include subspecies of Bacillus thuringiensis (Bt), which are widely used for the biological control of insects, including mosquito vectors of human pathogens. The efficacy of B. thuringiensis toxicity has led to the search for new potentially toxic isolates in different regions of the world. Therefore, soil samples from the Amazon, Cerrado and Caatinga biomes of the state of Maranhão were evaluated for their potential larvicidal action against Aedes aegypti. The isolates with high toxicity to mosquito larvae, as detected by bioassays, were subjected to histological evaluation under a light microscope to identify the genes potentially responsible for the toxicity. Additionally, the toxic effects of these isolates on the intestinal epithelium were assessed. In the new B. thuringiensis isolates toxic to A. aegypti larvae, cry and cyt genes were amplified at different frequencies, with cry4, cyt1, cry32, cry10 and cry11 being the most frequent (33-55%) among those investigated. These genes encode specific proteins toxic to dipterans and may explain the severe morphological changes in the intestine of A. aegypti larvae caused by the toxins of the isolates.
Resumo Os agentes entomopatógenos são alternativas viáveis e eficazes, devido à sua ação seletiva para insetos sendo inofensivos ao homem e ao meio ambiente. Dentre os entomopatógenos mais promissores, destacam-se as subespécies de Bacillus thuringiensis (Bt) amplamente utilizadas no controle biológico de insetos incluindo espécies de mosquitos vetores de agentes patogênicos ao homem. A eficiência da toxicidade de Bt incentiva a prospecção de novos isolados em diversas regiões do mundo. Desta forma, em busca de novos isolados de B. thuringiensis potencialmente tóxicos, amostras de solo provenientes dos biomas Amazônia, Cerrado e Caatinga do estado do Maranhão foram avaliadas em relação ao seu potencial larvicida para Aedes aegypti. Os isolados que provocaram elevada toxicidade para larvas do mosquito, detectada por bioensaios, foram avaliados em relação aos potenciais genes responsáveis pela atividade tóxica, além da avaliação de efeitos tóxicos no epitélio intestinal através de análises histológicas em microscopia de luz. Os novos isolados de Bt tóxicos para larva de A. aegypti amplificaram frequências diferentes de genes cry e cyt sendo os mais frequentes (55-33%) os cry4, cyt1, cry32, cry10 e cry11 dentre os investigados. Esses genes codificam para proteínas tóxicas específicas para ordem Diptera, e podem explicar as severas alterações morfológicas provocadas pelas toxinas dos isolados observadas no intestino das larvas de A. aegypti.
RESUMO
The occurrence of Aedes aegypti, Culex quinquefasciatus, and mosquitoes of the genus Anopheles potentiate the spread of several diseases, such as dengue, Zika, chikungunya, urban yellow fever, filariasis, and malaria, a situation currently existing in Brazil and in Latin America. Control of the disease vectors is the most effective tool for containing the transmission of the pathogens causing these diseases, and the bacterium Bacillus thuringiensis var. israelensis has been widely used and has shown efficacy over many years. However, new B. thuringiensis (Bt) strains with different gene combinations should be sought for use as an alternative to Bti and to prevent the resistant insects selected. Aiming to identify diversity in the Bt in different Brazilian ecosystems and to assess the pathogenicity of this bacterium to larvae of Ae. aegypti, C. quinquefasciatus, and Anopheles darlingi, Bt strains were obtained from the Amazon, Caatinga (semi-arid region), and Cerrado (Brazilian savanna) biomes and tested in pathogenicity bioassays in third-instar larvae of Ae. aegypti under controlled conditions in the laboratory. The isolates with larvicidal activity to larvae of Ae. aegypti were used in bioassays with the larvae of C. quinquefasciatus and An. darlingi and characterized according to the presence of 14 cry genes (cry1, cry2, cry4, cry10, cry11, cry24, cry32, cry44Aa, cry1Ab, cry4Aa, cry4Ba, cry10Aa, cry11Aa, and cry11Ba), six cyt genes (cyt1, cyt2, cyt1Aa, cyt1Ab, cyt2Aa and cyt2Ba), and the chi gene. Four hundred strains of Bt were isolated: 244 from insects, 85 from Amazon soil, and 71 from the Caatinga biome. These strains, in addition to the 153 strains isolated from Cerrado soil and obtained from the Entomopathogenic Bacillus Bank of Maranhão, were tested in bioassays with Ae. aegypti larvae. A total of 37 (6.7%) strains showed larvicidal activity, with positive amplification of the cry, cyt, and chi genes. The most frequently amplified genes were cry4Aa and cry4Ba, both occurring in 59.4% in these strains, followed by cyt1Aa and cyt2Aa, with 56.7% and 48% occurrence, respectively. Twelve (2.2%) strains that presented 100% mortality within 24h were used in bioassays to estimate the median lethal concentration (LC50) for Ae. aegypti larvae. Two strains (BtMA-690 and BtMA-1114) showed toxicity equal to that of the Bti standard strain, and the same LC50 value (0.003mg/L) was recorded for the three bacteria after 48h of exposure. Detection of the presence of the Bt strains that showed pathogenicity for mosquito larvae in the three biomes studied was possible. Therefore, these strains are promising for the control of insect vectors, particularly the BtMA-1114 strain, which presents a gene profile different from that of Bti but with the same toxic effect.
Assuntos
Bacillus thuringiensis/genética , Culicidae/efeitos dos fármacos , Insetos Vetores/efeitos dos fármacos , Inseticidas , Larva/efeitos dos fármacos , Animais , Brasil , EcossistemaRESUMO
Abstract Entomopathogenic agents are viable and effective options due to their selective action against insects but benign effects on humans and the environment. The most promising entomopathogens include subspecies of Bacillus thuringiensis (Bt), which are widely used for the biological control of insects, including mosquito vectors of human pathogens. The efficacy of B. thuringiensis toxicity has led to the search for new potentially toxic isolates in different regions of the world. Therefore, soil samples from the Amazon, Cerrado and Caatinga biomes of the state of Maranhão were evaluated for their potential larvicidal action against Aedes aegypti. The isolates with high toxicity to mosquito larvae, as detected by bioassays, were subjected to histological evaluation under a light microscope to identify the genes potentially responsible for the toxicity. Additionally, the toxic effects of these isolates on the intestinal epithelium were assessed. In the new B. thuringiensis isolates toxic to A. aegypti larvae, cry and cyt genes were amplified at different frequencies, with cry4, cyt1, cry32, cry10 and cry11 being the most frequent (33-55%) among those investigated. These genes encode specific proteins toxic to dipterans and may explain the severe morphological changes in the intestine of A. aegypti larvae caused by the toxins of the isolates.
Resumo Os agentes entomopatógenos são alternativas viáveis e eficazes, devido à sua ação seletiva para insetos sendo inofensivos ao homem e ao meio ambiente. Dentre os entomopatógenos mais promissores, destacam-se as subespécies de Bacillus thuringiensis (Bt) amplamente utilizadas no controle biológico de insetos incluindo espécies de mosquitos vetores de agentes patogênicos ao homem. A eficiência da toxicidade de Bt incentiva a prospecção de novos isolados em diversas regiões do mundo. Desta forma, em busca de novos isolados de B. thuringiensis potencialmente tóxicos, amostras de solo provenientes dos biomas Amazônia, Cerrado e Caatinga do estado do Maranhão foram avaliadas em relação ao seu potencial larvicida para Aedes aegypti. Os isolados que provocaram elevada toxicidade para larvas do mosquito, detectada por bioensaios, foram avaliados em relação aos potenciais genes responsáveis pela atividade tóxica, além da avaliação de efeitos tóxicos no epitélio intestinal através de análises histológicas em microscopia de luz. Os novos isolados de Bt tóxicos para larva de A. aegypti amplificaram frequências diferentes de genes cry e cyt sendo os mais frequentes (55-33%) os cry4, cyt1, cry32, cry10 e cry11 dentre os investigados. Esses genes codificam para proteínas tóxicas específicas para ordem Diptera, e podem explicar as severas alterações morfológicas provocadas pelas toxinas dos isolados observadas no intestino das larvas de A. aegypti.
RESUMO
Objetivos: Evaluar la diversidad genético molecular de cepas nativas aisladas de B. thuringiensis tóxicas contra Aedes aegypti, vector del dengue. Diseño: Estudio descriptivo, analítico. Institución: Centro de Investigación de Bioquímica y Nutrición, Facultad de Medicina, UNMSM. Material biológico: Cepas nativas y estándar de B. thuringiensis. Intervenciones: Se extrajo el ADN genómico de 53 cepas nativas y 10 cepas estándar de B. thuringiensis aisladas del suelo de distintas regiones geográficas del Perú. Para el análisis de diversidad, se evaluó secuencias repetitivas de ADN mediante la técnica REP-PCR, siendo visualizados en geles de agarosa teñidos con bromuro de etidio. Se hizo el análisis de clúster con el dendograma de similaridad de cepas estándares y nativas de B. thuringiensis, utilizando programas bioinformáticos. Principales medidas de resultados: Diversidad evaluada mediante los perfiles genéticos (bandas de ADN repetitivas) en geles de agarosa y dendograma de cepas B. thuringiensis. Resultados: Las cepas procedentes de Junín, Huaral, Ica, Cusco, Arequipa y Cajamarca tendieron a formar grupos según procedencia, destacándose dos caracterizadas como potencialmente tóxicas contra Aedes aegypti (de Ica y de Cajamarca); estas muestran el gen cry2 y cry4 (datos no presentados), formando un subgrupo con cepas estándar tóxicas HD-968 y GM 33, las que contienen el gen cry2. Conclusiones: Se observa gran diversidad de cepas nativas de B. thuringiensis procedentes de diferentes lugares del país, con cierta tendencia a formar subgrupos según procedencia geográfica y en relación de similaridad con las cepas B. thuringiensis estándares, algunas con potencial para ser utilizadas contra Aedes aegypti, vector del virus del dengue.
Objectives: To determine the molecular genetic diversity of native B. thuringiensis strains toxic against Aedes aegypti, vector of dengue. Design: Descriptive, analytical study. Setting: Biochemistry and Nutrition Research Center, Faculty of Medicine, San Marcos University, Lima, Peru. Participants: Native and standard strains of B. thuringiensis. Interventions: Extraction of B. thuringiensis genomic DNA from 53 native strains and 10 standard strains isolated from different Peruvian regions soil samples. Diversity was determined by repetitive DNA sequences using REP-PCR technique, visualized in agarose gels stained with ethidium bromide. B. thuringiensis standard and native strains cluster analysis was performed by dendrogram of similarity using bioinformatic programs. Main outcome measures: Diversity of B. thuringiensis strains. Results: Strains from Junin, Huaral, Ica, Cusco, Arequipa, and Cajamarca tended to form groups according to source, highlighting two strains characterized as potentially toxic against Aedes aegypti (Ica and Cajamarca), that presented cry4 and cry2 gene (data not shown), outlining a subgroup or cluster with toxic standard strains HD-968 and GM 33 containing the cry2 gene. Conclusions: A great diversity of B. thuringiensis native strains coming from different regions of the country have a tendency to form sub-groups according to geographical origin and in relation to standard strains, some of them with a bioinsecticidal potential against B. Thuringiensis, vector of dengue.
RESUMO
Se estandarizó la técnica LSSP-PCR (reacción en cadena de la polimerasa con un único oligonucleótido en condiciones de baja astringencia), para identificar polimorfismos del gen cry1B en aislamientos nativos de Bacillus thuringiensis (Bt) . Se evaluaron 164 aislamientos nativos colombianos identificándose el gen cry1Ba en 11 de estos aislamientos. Los 11 fragmentos amplificados, junto con el de la cepa de referencia Bt subsp. aizawai HD137, se analizaron por LSSP-PCR y los patrones electroforéticos obtenidos se compararon cualitativamente. Con los productos amplificados mediante el oligonucleótido directo se construyó un dendrograma utilizando UPGMA que mostró tres agrupamientos con similitud de 83, 79 y 68%. La agrupación con 68% de similaridad correspondió al aislamiento nativo BtGC120 que presentó el patrón de bandas más variable. Con el oligonucleótido reverso el aislamiento BtGC120 mostró una menor variabilidad (43%). La secuencia nucleotidica obtenida de este fragmento de 806 pares de bases mostró una identidad de 93% con la secuencia de los genes cry1Bc1 de Bt morrisoni y cry1Bb1 de la cepa BT-EG5847. Se predijo del marco de lectura +3 una proteína de 268 residuos aminoácidicos, con 88% de identidad con la proteína Cry1Bc. Esta secuencia reveló dos dominios, una endotoxina N implicada en la formación del poro y otra endotoxina M relacionada en el reconocimiento del receptor. La evaluación biológica del aislamiento BtGC120 sobre larvas de primer instar del insecto plaga Spodoptera frugiperda, mostró una CL50 de 1,896 ng de proteína total por cm2. Este estudio muestra que la LSSP-PCR es una técnica que permite identificar de una manera específica variaciones en las secuencias de los genes cry de Bt, con potencialidad de encontrar nuevos genes con novedosas actividades biológicas.
LSSP-PCR (low stringency specific primer-PCR), technique was standardized for polymorphisms in native isolates cry1B genes Bacillus thuringiensis (Bt) identify. 164 isolates were evaluated by identifying the gene colombian native cry1Ba, in 11 of these isolates. The 11 amplified fragments, along with the reference strain Bt subsp. aizawai HD137 were analyzed by LSSP-PCR and electrophoretic patterns obtained were compared qualitatively. With the amplified products with direct oligonucleotide was constructed using UPGMA dendrogram showed three clusters with similarity of 83, 79 and 68%. The group with 68% similarity corresponded to the isolation BtGC 120 native who introduced the variable pattern of bands. With the isolation BtGC 120 reverse oligonucleotide showed less variability (43%). The nucleotide sequence obtained from this fragment of 806 bp showed 93% identity with the sequence of the genes of Bt morrisoni cry1Bc1 and cry1Bb1 BT-strain EG5847. Predicted reading frame of 268 +3 a protein amino acid residues with 88% identity with the protein Cry1Bc. This sequence revealed two domains, an N endotoxin involved in the formation of the pore and other related M endotoxin in receptor recognition. The biological evaluation BtGC120 insulation on first instar larvae of Spodoptera frugiperda insect pest, showed an LC50 of 1.896 ng of total protein per cm2. This study shows that the LSSP-PCR is a technique that identifies a specific way variation in the sequences of cry genes of Bt, with the potential to find new genes with novel biological activities.
Assuntos
Bacillus thuringiensis/genética , Reação em Cadeia da Polimerase/métodos , Reação em Cadeia da Polimerase , Bioensaio/métodosRESUMO
Bacillus thuringiensis is a bacterium used for biopesticides production and pest-resistant plants due to the synthesis of protein crystals by cry genes, which are effective in controlling several insect orders such as Lepidoptera. This work aimed at the evaluation and characterisation of two new B. thuringiensis isolates active against A. gemmatalis (Hübner 1818) larvae, which is the soybean major pest. The results showed that Bt117-4 isolate amplified fragments corresponding to cry2 and cry9 genes, and synthesised protein fragments equivalent to 130, 90 and 45 kDa. The Bt3146-4 isolate amplified DNA fragments corresponding to cry9 gene and synthesised protein fragments of 70, 58 and 38 kDa. Transmission electron microscopy revealed the presence of protein crystals in both isolates. CL50 with Cry purified proteins from Bt117-4 and Bt3146-4, corresponded to 0.195 and 0.191 µg larvae-1, respectively. The two B. thuringiensis isolates selected in this study were effective to control velvetbean caterpillar at laboratory conditions. Field tests should be carried on to develop new biopesticides formulation as well for cry genes resource for Anticarsia gemmatalis resistant transgenic plants.
Bacillus thuringiensis é uma bactéria utilizada na produção de biopesticidas e de plantas resistentes às pragas por causa da síntese de cristais proteicos pelos genes cry, os quais são eficazes no controle de diversas ordens de insetos, como os lepidópteros. O presente trabalho objetivou a avaliação e a caracterização de dois novos isolados de B. thuringiensis ativos contra lagartas de A. gemmatalis (Hübner 1818), que é a principal praga da cultura da soja. Os resultados obtidos revelaram que o isolado Bt117-4 amplificou fragmentos correspondentes aos genes cry2 e cry9, sendo que os fragmentos proteicos sintetizados foram equivalentes a 130, 90 e 45 kDa. O isolado Bt3146-4 amplificou fragmentos de DNA que correspondem ao gene cry9 e sintetizou fragmentos proteicos de 70, 58, e 38 kDa. Os dados de microscopia eletrônica de transmissão revelam a presença de cristais proteicos em ambos os isolados. A CL50, com proteínas Cry purificadas de Bt117-4 e Bt3146-4, correspondeu a 0,195 e 0,191 µg lagarta-1, respectivamente. Os dois isolados de B. thuringiensis selecionados neste trabalho mostraram-se eficientes no controle da lagarta-da-soja em laboratório, sendo recomendada sua avaliação a campo para posterior aplicação na formulação de biopesticidas ou como fonte de genes cry para a obtenção de plantas geneticamente modificadas resistentes à Anticarsia gemmatalis.
Assuntos
Animais , Bacillus thuringiensis/química , Proteínas de Bactérias/isolamento & purificação , Endotoxinas/isolamento & purificação , Proteínas Hemolisinas/isolamento & purificação , Lepidópteros/microbiologia , Controle Biológico de Vetores/métodos , Bacillus thuringiensis/isolamento & purificação , Bacillus thuringiensis/patogenicidade , Proteínas de Bactérias/genética , Endotoxinas/genética , Proteínas Hemolisinas/genéticaRESUMO
Bacillus thuringiensis is a bacterium used for biopesticides production and pest-resistant plants due to the synthesis of protein crystals by cry genes, which are effective in controlling several insect orders such as Lepidoptera. This work aimed at the evaluation and characterisation of two new B. thuringiensis isolates active against A. gemmatalis (Hübner 1818) larvae, which is the soybean major pest. The results showed that Bt117-4 isolate amplified fragments corresponding to cry2 and cry9 genes, and synthesised protein fragments equivalent to 130, 90 and 45 kDa. The Bt3146-4 isolate amplified DNA fragments corresponding to cry9 gene and synthesised protein fragments of 70, 58 and 38 kDa. Transmission electron microscopy revealed the presence of protein crystals in both isolates. CL50 with Cry purified proteins from Bt117-4 and Bt3146-4, corresponded to 0.195 and 0.191 µg larvae-1, respectively. The two B. thuringiensis isolates selected in this study were effective to control velvetbean caterpillar at laboratory conditions. Field tests should be carried on to develop new biopesticides formulation as well for cry genes resource for Anticarsia gemmatalis resistant transgenic plants.
Bacillus thuringiensis é uma bactéria utilizada na produção de biopesticidas e de plantas resistentes às pragas por causa da síntese de cristais proteicos pelos genes cry, os quais são eficazes no controle de diversas ordens de insetos, como os lepidópteros. O presente trabalho objetivou a avaliação e a caracterização de dois novos isolados de B. thuringiensis ativos contra lagartas de A. gemmatalis (Hübner 1818), que é a principal praga da cultura da soja. Os resultados obtidos revelaram que o isolado Bt117-4 amplificou fragmentos correspondentes aos genes cry2 e cry9, sendo que os fragmentos proteicos sintetizados foram equivalentes a 130, 90 e 45 kDa. O isolado Bt3146-4 amplificou fragmentos de DNA que correspondem ao gene cry9 e sintetizou fragmentos proteicos de 70, 58, e 38 kDa. Os dados de microscopia eletrônica de transmissão revelam a presença de cristais proteicos em ambos os isolados. A CL50, com proteínas Cry purificadas de Bt117-4 e Bt3146-4, correspondeu a 0,195 e 0,191 µg lagarta-1, respectivamente. Os dois isolados de B. thuringiensis selecionados neste trabalho mostraram-se eficientes no controle da lagarta-da-soja em laboratório, sendo recomendada sua avaliação a campo para posterior aplicação na formulação de biopesticidas ou como fonte de genes cry para a obtenção de plantas geneticamente modificadas resistentes à Anticarsia gemmatalis.
RESUMO
There are several genes involved in Bacillus thuringiensis sporulation. The regulation and expression of these genes results in an upregulation in Cry protein production, and this is responsible for the death of insect larvae infected by Bacillus thuringiensis. Gene expression was monitored in Bacillus thuringiensis during three developmental phases. DNA macroarrays were constructed for selected genes whose sequences are available in the GenBank database. These genes were hybridized to cDNA sequences from B. thuringiensis var. kurstaki HD-1. cDNA probes were synthesized by reverse transcription from B. thuringiensis RNA templates extracted during the exponential (log) growth, stationary and sporulation phases, and labeled with 33PadCTP. Two genes were differentially expressed levels during the different developmental phases. One of these genes is related to sigma factor (sigma35), and the other is a cry gene (cry2Ab). There were differences between the differential levels of expression of various genes and among the expression detected for different combinations of the sigma factor and cry2Ab genes. The maximum difference in expression was observed for the gene encoding sigma35 factor in the log phase, which was also expressed at a high level during the sporulation phase. The cry2Ab gene was only expressed at a high level in the log phase, but at very low levels in the other phases when compared to the sigma35.
Muitos genes estão envolvidos nos mecanismos de esporulação da bactéria Bacillus thuringiensis. A regulação e expressão desses genes resultam em uma produção massiva da proteína Cry, responsável pela morte das larvas de muitos insetos. Neste trabalho monitorou-se a expressão de genes de Bacillus thuringiensis, ao longo de três fases de seu desenvolvimento. Foram construídos macroarrays de DNA dos genes selecionados, cujas seqüências estão disponibilizadas no GenBank. Estes genes foram hibridizados com cDNAs obtidos de B. thuringiensis kurstaki HD-1. As sondas de cDNA foram sintetizadas a partir da transcrição reversa do RNA da bactéria, extraído durante as fases de crescimento logarítmico, estacionária e esporulativa, marcadas com 33PadCTP. A expressão diferencial encontrada foi significativa para dois genes de B.thuringiensis, um relacionado aos fatores sigma (sigma35) e outro ao gene cry (cry2Ab). Detectaram-se diferenças entre as médias de expressão do fator sigma e do gene cry2Ab. Os valores máximos de expressão diferencial foram obtidos para o gene codificador do fator sigma35 na fase log e na fase esporulativa. Na análise de médias observou-se expressão do gene cry2Ab apenas na fase log; no entanto, de forma bem mais baixa quando comparado com a expressão de sigma35, nas três fases.
RESUMO
There are several genes involved in Bacillus thuringiensis sporulation. The regulation and expression of these genes results in an upregulation in Cry protein production, and this is responsible for the death of insect larvae infected by Bacillus thuringiensis. Gene expression was monitored in Bacillus thuringiensis during three developmental phases. DNA macroarrays were constructed for selected genes whose sequences are available in the GenBank database. These genes were hybridized to cDNA sequences from B. thuringiensis var. kurstaki HD-1. cDNA probes were synthesized by reverse transcription from B. thuringiensis RNA templates extracted during the exponential (log) growth, stationary and sporulation phases, and labeled with 33PadCTP. Two genes were differentially expressed levels during the different developmental phases. One of these genes is related to sigma factor (sigma35), and the other is a cry gene (cry2Ab). There were differences between the differential levels of expression of various genes and among the expression detected for different combinations of the sigma factor and cry2Ab genes. The maximum difference in expression was observed for the gene encoding sigma35 factor in the log phase, which was also expressed at a high level during the sporulation phase. The cry2Ab gene was only expressed at a high level in the log phase, but at very low levels in the other phases when compared to the sigma35.
Muitos genes estão envolvidos nos mecanismos de esporulação da bactéria Bacillus thuringiensis. A regulação e expressão desses genes resultam em uma produção massiva da proteína Cry, responsável pela morte das larvas de muitos insetos. Neste trabalho monitorou-se a expressão de genes de Bacillus thuringiensis, ao longo de três fases de seu desenvolvimento. Foram construídos macroarrays de DNA dos genes selecionados, cujas seqüências estão disponibilizadas no GenBank. Estes genes foram hibridizados com cDNAs obtidos de B. thuringiensis kurstaki HD-1. As sondas de cDNA foram sintetizadas a partir da transcrição reversa do RNA da bactéria, extraído durante as fases de crescimento logarítmico, estacionária e esporulativa, marcadas com 33PadCTP. A expressão diferencial encontrada foi significativa para dois genes de B.thuringiensis, um relacionado aos fatores sigma (sigma35) e outro ao gene cry (cry2Ab). Detectaram-se diferenças entre as médias de expressão do fator sigma e do gene cry2Ab. Os valores máximos de expressão diferencial foram obtidos para o gene codificador do fator sigma35 na fase log e na fase esporulativa. Na análise de médias observou-se expressão do gene cry2Ab apenas na fase log; no entanto, de forma bem mais baixa quando comparado com a expressão de sigma35, nas três fases.
RESUMO
Costa Rican natural ecosystems are among the most diverse in the world. For this reason, we isolated strains of the entomopathogenic bacteria Bacillus thuringiensis (Bt ) to determine their diversity, distribution and abundance. A total of 146 Bt strains were obtained from environmental samples collected from diverse natural ecosystems and life zones of Costa Rica. We recovered Bt strains from 71%, 63%, 61% and 54% of soil samples, fresh leaves, other substrates and leaf litter respectively. Bt was isolated in 65% of the samples collected in the humid tropical forest in national parks (Braulio Carrillo, Gandoca Manzanillo, Sierpe, Hitoy Cerere, and Cahuita), and in 59% of the samples collected in the dry tropical forest (Parque Nacional Marino las Baulas, Palo Verde and Santa Rosa). In the very humid tropical forest (Tortuguero) Bt was isolated in 75% of the samples and in the very humid tropical forest transition perhumid (Carara) it was found in 69% of the samples. The strains exhibit a diverse number, size and morphology of parasporal inclusion bodies: irregular (47%), oval (20%), bipyramidal (3%), bipyramidal and cubic (1%), bipyramidal, oval and irregular (5%) and bipyramidal, oval and cubic crystals (2%). Strains isolated from Braulio Carrillo, Tortuguero and Cahuita, presented predominantly irregular crystals. On the other hand, more than 60% of the isolates from Térraba-Sierpe and Hitoy-Cerere had medium oval crystals. Strains from Gandoca-Manzanillo, Palo Verde and Carara presented mainly combinations of oval and irregular crystals. Nevertheless, the greatest diversity in crystal morphology was observed in those from Santa Rosa, Llanos del Río Medio Queso and Parque Marino las Baulas. Protein analyses of the crystal-spore preparations showed -endotoxin with diverse electrophoretic patterns, with molecular weights in the range of 20 to 160 kDa. Fifty six percent of the strains amplified with the cry2 primer, 54% with vip3, 20% with cry1...
Como los ecosistemas naturales de Costa Rica figuran entre los más diversos del mundo, se propuso aislar la bacteria entomopatógena Bacillus thuringiensis (Bt ) con el fin de conformar una colección de cepas y caracterizarlas molecularmente. Se obtuvieron 146 cepas a partir de muestras ambientales de diversas áreas protegidas, que incluían 9 de las 12 zonas de vida de Costa Rica. Se recobraron cepas del 71%, 63%, 61%y 54% de las muestras de suelo, hojas frescas, otros sustratos y hojarasca respectivamente. Se aisló Bt del 65% de las muestras del bosque tropical húmedo, un 59% de las muestras del bosque tropical seco. Del bosque tropical muy húmedo se aisló Bt del 75% de las muestras y finalmente del bosque tropical muy húmedo transición perhúmedo se encontró en el 69% de las muestras. Las cepas se caracterizaron según la morfología de los cuerpos paraesporales de inclusión, el peso molecular de las -endotoxinas y de genes cry,cyt y vip que contenían. Las cepas exhibieron cristales de diferente morfología, tamaño y número: irregulares, ovales, bipiramidales, cúbicos o mezclas de uno u otro. No se encontró correlación al comparar la forma de los cristales con el sitio de origen de la cepa. El análisis proteico de las mezclas de esporas y cristales mostró que las cepas contenían -endotoxinas de 20 a 160 kDa.El 66 por ciento de las cepas amplificaron con los imprimadores específicos para el gen cry2,54% con vip3, 20% con el cry1, 9% con el cry3-cry7 y 8% con el gen cry8. Los genes cry11 y cyt se encontraron en el 8%y 7% de las cepas respectivamente. Veinticuato cepas no amplificaron con los imprimadores utilizados por lo que podrían contener genes novedosos. Las cepas que contenían el gen cry1 se amplificaron posteriormente con imprimadores específicos para la subfamilia de dicho gen, obteniéndose 13 perfiles diferentes. En síntesis, la diversidad genética de las cepas sugiere que la colección tiene un gran potencial para el control de diferentes...
Assuntos
Bacillus thuringiensis/genética , Proteínas de Bactérias/genética , Toxinas Bacterianas/genética , Microbiologia Ambiental , Endotoxinas/genética , Variação Genética , Proteínas Hemolisinas/genética , Bacillus thuringiensis/isolamento & purificação , Costa Rica , Reação em Cadeia da Polimerase , Densidade Demográfica , Dinâmica PopulacionalRESUMO
The coffee berry borer Hypothenemus hampei Ferrari (Coleoptera: Scolytidae) was first reported infecting Costa Rican coffee plantations in the year 2000. Due to the impact that this plague has in the economy of the country, we were interested in seeking new alternatives for the biological control of H. hampei, based on the entomopathogenic bacteria Bacillus thuringiensis. A total of 202 B. thuringiensis isolates obtained from Costa Rican coffee plantations infested with H. hampei were analyzed through crystal morphology of the crystal inclusions and SDS-PAGE of 6-endotoxins, while 105 strains were further evaluated by PCR for the presence cry, cyt and vip genes. Most of the Bt strains showed diverse crystal morphologies: pleomorphic (35%), oval (37%), bipyramidal (3%), bipyramidal and oval (12%), bipyramidal, oval and pleomorphic (10%) and bipyramidal, oval and cubic (3%). The SDS-PAGE analyses of the crystal preparations showed five strains with delta-endotoxin from 20 to 40 kDa, six from 40 to 50 kDa, seven from 50 to 60 kDa, 19 from 60 to 70 kDa, 29 from 70 to 100 kDa and 39 from 100-145 kDa. PCR analyses demonstrated that the collection showed diverse cry genes profiles having several genes per strain: 78 strains contained the vip3 gene, 82 the cry2 gene, 45 the cry1 and 29 strains harbored cry3-cry7 genes. A total of 13 strains did not amplified with any of the cry primers used: cry1, cry2, cry3-7, cry5, cry11, cry12 and cry14. Forty-three different genetic profiles were found, mainly due to the combination of cry1A genes with other cry and vip genes. The genetic characterization of the collection provides opportunities for the selection of strains to be tested in bioassays against H. hampei and other insect pests of agricultural importance.