Expression of the sigma35 and cry2AB genes involved in Bacillus thuringiensis virulence

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.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

Characterization and selection of Bacillus thuringiensis isolates effective against Sitophilus oryzae

A bactéria entomopatogênica Bacillus thuringiensis (Bt) é um agente de controle com características tóxicas e ambientais que permitem o controle de insetos-praga de acordo com as premissas do Manejo integrado de pragas (MIP). Com o objetivo de buscar novas linhagens potencialmente tóxicas para Sitophilus oryzae L. 1763 (Coleoptera: Curculinidae), caracterizaram-se molecularmente 1,073 isolados de B. thuringiensis de regiões do Brasil. O material genético foi extraído através do kit InstaGene Matrix, utilizado para a amplificação das seqüências através da técnica de Polymerase chain reaction PCR, sendo os resultados visualizados em gel de agarose 1,5%. A classe do gene cry35Ba foi representada por 60 isolados (5,6%) de Bt, os quais foram submetidos a bioensaio com larvas de S. oryzae. Quatro causaram mortalidade acima de 50% nos testes de patogenicidade e os isolados 544 e 622 foram os mais virulentos, conforme determinado pela estimativa da CL50. Nos quatro isolados que demonstraram toxicidade, foram detectados cristais esféricos, bipiramidais e cubóides, além de proteínas com 44 kDa, referentes aos genes cry35Ba por Sodium dodecil sulphate - polyacrilamide gel electrophoresis (SDS-PAGE). Estes dados demonstram o potencial de Bt no manejo de S. oryzae.The entomopathogenic bacterium Bacillus thuringiensis is a control agent with toxic and environmental characteristics that allows the control of pest insects according to the Integrate Pest Management (IPM) precepts. In order to find new strains, potentially toxic to Sitophilus oryzae L. 1763 (Coleoptera: Curculinidae), 1.073 strains of B. thuringiensis from parts of Brazil were used. Genetic material was extracted with InstaGene Matrix kit, used for the amplification of sequences in Polymerase chain reaction (PCR), and viewed in 1.5% agarose gel. The gene cry35Ba class was represented by 60 B. thuringiensis isolates (5.6%), which were then subjected to bioassays with S. oryzae larvae. Among the isolates studied, four caused more than 50% mortality in pathogenicity tests, and the isolates 544 and 622 were the most virulent, as determined by CL50 estimates. The four toxic isolates had spherical, bi-pyramidal and cuboid crystals, and a 44-kDa protein was found in sodium dodecyl sulphate - polyacrylamide gel electrophoresis (SDS-PAGE), which coded for the product of cry35Ba genes. These data demonstrate the potential of B. thuringiensis for the management of S. oryzae larvae

Characterization of the vip3A gene and toxicity of Vip3Aa50 protein to fall armyworm and velvetbean caterpillar

O objetivo deste trabalho foi caracterizar o gene vip3A de Bacillus thuringiensis e verificar a toxicidade da proteína Vip3Aa50 a larvas da lagarta‑do‑cartucho (Spodoptera frugiperda) e da lagarta‑da‑soja (Anticarsia gemmatalis). O gene vip3A foi amplificado por PCR, com iniciadores específicos, e gerou um fragmento de 2.370 pb. Esse fragmento foi clonado em vetor pGEM‑T Easy e, em seguida, sequenciado, subclonado em vetor de expressão pET‑28a (+) e inserido em células de Escherichia coli BL21 (DE3). A expressão da proteína Vip3Aa50 foi induzida por isopropil‑β‑D‑1-tiogalactopiranosídeo (IPTG), visualizada em SDS‑PAGE e detectada por "Western blot". Os ensaios de toxicidade revelaram alta atividade da proteína Vip3Aa50 contra as larvas neonatas da lagarta‑da‑soja e da lagarta‑do‑cartucho, com CL50 de 20,3 e 79,6 ng cm-2, respectivamente. O gene vip3Aa50 é um novo gene da classe vip3A.The objective of this work was to characterize the vip3A gene of Bacillus thuringiensis and to evaluate the toxicity of Vip3Aa50 protein to the fall armyworm (Spodoptera frugiperda) and velvetbean caterpillar (Anticarsia gemmatalis) larvae. The gene vip3A was amplified by specific PCR primers, generating a 2,370‑bp fragment. This fragment was cloned into the pGEM‑T Easy vector, and then it was sequenced, subcloned into the pET‑28a (+)’s expression vector, and inserted into Escherichia coli BL21 (DE3) cells. The Vip3Aa50 protein expression was induced by isopropyl‑β‑D‑1‑thiogalactopyranoside (IPTG), visualized in SDS‑PAGE, and detected by Western blot. The toxicity bioassay showed a high activity of Vip3Aa50 protein against both velvetbean and fall armyworm neonate larvae, with LC50 at 20.3 and 79.6 ng cm-2 respectively. The vip3Aa50 gene, is a new gene of vip3A class

Toxicity and binding capacity of Cry1 proteins to Helicoverpa armigera (Lepidoptera: Noctuidae) intestine receptors

O objetivo deste trabalho foi avaliar a toxicidade e a capacidade de ligação das proteínas Cry1Aa, Cry1Ab, Cry1Ac e Cry1Ca, de Bacillus thuringiensis, a receptores intestinais de Helicoverpa armigera. Realizou-se análise de ligação das proteínas ativadas às vesículas de membrana da microvilosidade apical (VMMA) do intestino médio de H. armigera, além de ensaios de competição heteróloga para avaliar sua capacidade de ligação. Cry1Ac destacou-se como a proteína mais tóxica, seguida por Cry1Ab e Cry1Aa. A proteína Cry1Ca não foi tóxica às lagartas e, portanto, não foi possível determinar os seus parâmetros de toxicidade CL50 e CL90. As proteínas Cry1Aa, Cry1Ab e Cry1Ac são capazes de se ligar a um mesmo receptor nas membranas intestinais, o que aumenta o risco do desenvolvimento de resistência cruzada. Portanto, a utilização conjunta dessas proteínas deve ser evitada.The objective of this work was to evaluate the toxicity and the binding capacity of the Cry1Aa, Cry1Ab, Cry1Ac, and Cry1Ca proteins, from Bacillus thuringiensis, to Helicoverpa armigera intestine receptors. Binding analysis of the activated proteins to the brush‑border membrane vesicles (BBMV) in the midgut of H. armigera, besides heterologous competition assays to evaluate their binding capacity, was performed. Cry1Ac stood out as the most toxic protein, followed by Cry1Ab and Cry1Aa. The Cry1Ca protein had no toxicity to the caterpillars and, therefore, it was not possible to evaluate its LC50 and LC90 toxicity parameters. The Cry1Aa, Cry1Ab, and Cry1Ac proteins are able to bind themselves to the same receptor in the midgut membrane, which increases the risk of developing cross‑resistance. Therefore, the use of these proteins together should be avoided

Relação entre toxicidade de proteínas Vip3Aa e sua capacidade de ligação a receptores intestinais de lepidópteros‑praga

The objective of this work was to evaluate the toxicity of new Vip3Aa proteins and their binding capacity to brush‑border membrane vesicles (BBMV) in the intestine of Spodoptera frugiperda, Anticarsia gemmatalis, and Heliothis virescens neonate larvae. The proteins expressed by the genes vip3Aa42 and vip3Aa43 showed toxicity to S. frugiperda (LC50 of 78.2 and 113 ng cm‑2, respectively) and A. gemmatalis (LC50 of 239.2 and 57.5 ng cm‑2, respectively), but they showed low toxicity to H. virescens (LC50>5,000 ng cm‑2). BBMV binding assays showed that the proteins bind effectively to the receptors on vesicles of the evaluated species, but this binding capacity is only effective on the activation of toxicity to the evaluated populations of S. frugiperda and A. gemmatalis.O objetivo deste trabalho foi avaliar a toxicidade de novas proteínas Vip3Aa e sua capacidade de ligação a vesículas de membrana da microvilosidade apical (VMMA) do intestino de lagartas neonatas de Spodoptera frugiperda, Anticarsia gemmatalis e Heliothis virescens. Proteínas expressas pelos genes vip3Aa42 e vip3Aa43 mostraram-se tóxicas a S. frugiperda (CL50 de 78,2 e 113 ng cm‑2, respectivamente) e A. gemmatalis (CL50 de 239,2 e 57,5 ng cm‑2, respectivamente), e pouco tóxicas a H. virescens (CL50>5.000 ng cm‑2). Os ensaios de ligação às VMMA mostraram que as proteínas unem-se de forma efetiva aos receptores nas vesículas das espécies avaliadas, mas essa capacidade de ligação somente é efetiva na ativação da toxicidade para as populações avaliadas de S. frugiperda e A. gemmatalis

Plant Growth Promoting Rhizobacteria (PGPR) and Plutella xylostella (L.) (Lepidoptera: Plutellidae) interaction as a resistance inductor factor in Brassica oleracea var. capitata

Resistance of Plutella xylostella populations to chemical insecticides has made its management difficult, and the utilization of resistant cabbage cultivars has been shown to be a useful alternative. The objective of this study was to demonstrate the induction of cabbage plant resistance to P. xylostella using PGPR and injuries caused by the pest larvae as elicitors. Therefore, we evaluated the insects’ responses utilizing a specific bioassay. Furthermore, this assay was used for selecting a PGPR strain that affects the insect’s biology, and to examine molecular and biochemical responses of the plants influenced by the plant-microbe-insect interaction. Among the strains used in this study, Kluyvera ascorbata showed the most relevant results by influencing biological characteristics of the insect. Thus, the following tests demonstrated that the cited strain possesses a high influence on plant metabolism when it undergoes different types of stress such as injuries caused by the pest. These findings were determined from the different responses obtained by the chemical analyses of the tested plants and from the differentiation in the genetic sequences obtained from plants inoculated with or without PGPR that were injured by the pest. The PGPR K. ascorbata alters the metabolism of cabbage plants, which directs a specific plant defense against P. xylostella

Interação de proteínas Cry1 e Vip3A de Bacillus thuringiensis para controle de lepidópteros‑praga

The objective of this work was to evaluate the susceptibility of Anticarsia gemmatalis (Lepidoptera: Erebidae) and Chrysodeixis includens (Lepidoptera: Noctuidae) caterpillars to Cry1 and Vip3A proteins, as well as to determine if there is any interaction between these proteins on the control of the two species. Bioassays with both isolated and combined proteins were carried out, and lethal concentrations LC50 and LC90 were estimated for each condition. Cry1Aa, Cry1Ac, and Vip3Af were the more effective proteins for the control of A. gemmatalis, while Cry1Ac, Vip3Aa, and Vip3Af were more effective for the control of C. includens. Cry1Ac and Cry1Ca proteins caused the highest inhibition to the development of larvae that survived the LC50 dose in both species. Different combinations of Vip3A and Cry1 have synergistic effect in the control of both species, and the combination Vip3Aa + Cry1Ea showed an outstanding control of A. gemmatalis and C. includens. These proteins are promising for building pyramided plants for the simultaneous control of the pests.O objetivo deste trabalho foi avaliar a suscetibilidade das lagartas Anticarsia gemmatalis (Lepidoptera: Erebidae) e Chrysodeixis includens (Lepidoptera: Noctuidae) às proteínas Cry1 e Vip3A, bem como determinar se há a interação entre essas proteínas no controle das duas espécies. Bioensaios com as proteínas isoladas e em combinações foram realizados, e as concentrações letais CL50 e CL90 foram estimadas para cada condição. As proteínas Cry1Aa, Cry1Ac e Vip3Af foram as mais efetivas no controle de A. gemmatalis, enquanto Cry1Ac, Vip3Aa e Vip3Af foram mais efetivas no de C. includens. As proteínas Cry1Ac e Cry1Ca causaram maior inibição do desenvolvimento das larvas sobreviventes à CL50, em ambas as espécies. Combinações entre Vip3A e Cry1 apresentam efeito sinérgico no controle das espécies e a combinação Vip3Aa+Cry1Ea destaca-se no controle de A. gemmatalis e C. includens. Essas proteínas combinadas são promissoras na construção de plantas piramidadas, para o controle simultâneo das pragas

Identification and characterization of coleoptera‑specific vip and cry genes in Bacillus thuringiensis isolates

O objetivo deste trabalho foi identificar e caracterizar os genes cry3, vip1, vip2 e vip1/vip2 em uma coleção de 1.078 isolados de Bacillus thuringiensis potencialmente tóxicos para larvas de coleópteros. Foram utilizados pares de oligonucleotídeos iniciadores gerais obtidos a partir de regiões conservadas dos genes e do alinhamento de sequências consenso. Posteriormente, os isolados positivos foram caracterizados por meio da técnica de PCR‑RFLP, tendo‑se utilizado enzimas de restrição específicas, para identificar novas subclasses de genes nos isolados. Cento e cinquenta e um isolados foram positivos para os genes avaliados, com maior frequência para o gene vip1/vip2 (139 isolados). Pela técnica de PCR-RFLP, foram observados 14 perfis polimórficos, o que indica a presença de diferentes alelos e, consequentemente, de distintas subclasses desses genes.The objective of this work was to identify and characterize cry3, vip1, vip2 and vip1/vip2 genes in a collection of 1,078 Bacillus thuringiensis isolates potentially toxic against Coleoptera larvae. Pairs of primers derived from conserved regions of genes and from sequence alignment consensus were used. Subsequently, positive isolates were characterized by PCR‑RFLP, using specific restriction enzymes to identify new subclasses of genes in the isolates. One hundred and fifty‑one isolates were positive for the evaluated genes, with higher frequency for the vip1/vip2 gene (139  isolates). By PCR‑RFLP,  14  polymorphic profiles were  observed, indicating the presence of different alleles, and, therefore, of distinct subclasses of these genes