Direct Evidence for Rapid Degradation of Bacillus thuringiensis Toxin mRNA as a Cause of Poor Expression in Plants1

It is well established that the expression of Bacillus thuringiensis (B.t.) toxin genes in higher plants is severely limited at the mRNA level, but the cause remains controversial. Elucidating whether mRNA accumulation is limited transcriptionally or posttranscriptionally could contribute to effective gene design as well as provide insights about endogenous plant gene-expression mechanisms. To resolve this controversy, we compared the expression of an A/U-rich wild-type cryIA(c) gene and a G/C-rich synthetic cryIA(c) B.t.-toxin gene under the control of identical 5′ and 3′ flanking sequences. Transcriptional activities of the genes were equal as determined by nuclear run-on transcription assays. In contrast, mRNA half-life measurements demonstrated directly that the wild-type transcript was markedly less stable than that encoded by the synthetic gene. Sequences that limit mRNA accumulation were located at more than one site within the coding region, and some appeared to be recognized in Arabidopsis but not in tobacco (Nicotiana tabacum). These results support previous observations that some A/U-rich sequences can contribute to mRNA instability in plants. Our studies further indicate that some of these sequences may be differentially recognized in tobacco cells and Arabidopsis.

Vip3A, a novel Bacillus thuringiensis vegetative insecticidal protein with a wide spectrum of activities against lepidopteran insects.

A novel vegetative insecticidal gene, vip3A(a), whose gene product shows activity against lepidopteran insect larvae including black cutworm (Agrotis ipsilon), fall armyworm (Spodoptera frugiperda), beet armyworm (Spodoptera exigua), tobacco budworm (Heliothis virescens), and corn earworm (Helicoverpa zea) has been isolated from Bacillus thuringiensis strain AB88. VIP3-insecticidal gene homologues have been detected in approximately 15% of Bacillus strains analyzed. The sequence of the vip3A(b) gene, a homologue of vip3A(a) isolated from B. thuringiensis strain AB424 is also reported. Vip3A(a) and (b) proteins confer upon Escherichia coli insecticidal activity against the lepidopteran insect larvae mentioned above. The sequence of the gene predicts a 791-amino acid (88.5 kDa) protein that contains no homology with known proteins. Vip3A insecticidal proteins are secreted without N-terminal processing. Unlike the B. thuringiensis 5-endotoxins, whose expression is restricted to sporulation, Vip3A insecticidal proteins are expressed in the vegetative stage of growth starting at mid-log phase as well as during sporulation. Vip3A represents a novel class of proteins insecticidal to lepidopteran insect larvae.

Evaluation of three application rates of Bacillus thuringiensis : efficacy and deposit analysis /

"April 1993"--P. [4] of cover.

Bioassay of Bacillus thuringiensis (Berliner) endotoxin using the tobacco budworm /

Issued May 1976.

Induction and transmission of Bacillus thuringiensis tolerance in the flour moth Ephestia kuehniella

The use of Bacillus thuringiensis (Bt) endotoxins to control insect vectors of human diseases and agricultural pests is threatened by the possible evolution of resistance in major pest species. In addition to high levels of resistance produced by receptor insensitivity (5, 16, 17), several cases of tolerance to low to medium levels of toxin have been reported in laboratory colonies of lepidopteran species (3, 18). Because the molecular basis of some of these cases of tolerance to the toxin are not known, we explored alternative mechanisms. Here, we present evidence that tolerance to a Bt formulation in a laboratory colony of the flour moth Ephestia kuehniella can be induced by preexposure to a low concentration of the Bt formulation and that the tolerance correlates with an elevated immune response. The data also indicate that both immune induction and Bt tolerance can be transmitted to offspring by a maternal effect and that their magnitudes are determined by more than one gene.

Effect after introducing Bacillus thuringiensis gene on nitrogen metabolism in cotton

Bacillus thuringiensis (Bt) transgenic cotton has shown changes of vegetative and reproductive growth characteristics. The objective of this study was to investigate the physiological change of nitrogen metabolism that related closely to the growth in Bt cotton cultivars. The study Was undertaken on two 131 transgenic cotton cultivars and their parents, one conventional (Xingyang822) and recurrent parent (Sumian No. 9), the other a hybrid (Kumian No. 1) and female parent (Yumian No. 1), during the 2001 and 2002 growing seasons at the Yangzhou University Farm, Yangzhou, China. In the 2001 study, The results indicated that the Bt cotton cultivars were higher than their parents in leaf total nitrogen, free amino acid and soluble protein content, greater in NR and GPT activity, and lower in protease activity, during peak square and boll developing period. The biggest increase of total nitrogen was at peak boll period, which increased by 36.01 and 18.96% for Kumian No. I and Xingyang822, respectively. There were similar results for free amino acid and soluble protein content. The results showed further in 2002 study that NR activity increased dramatically at peak square and early boll open period, the biggest increase at early boll open period, with Kumian No. I and Xingyan,822 being 87.5 and 61.4% higher than their parent, respectively, the biggest increase of GPT activity was at peak boll period, with Kumian No. I and Xingyang822 being 39.1 and 29.1% higher than their parent, respectively. However, protease activity of Bt cultivars reduced significantly before flowering and early boll open period, the biggest decrease was before flowering period, with Kumian No. I being more than 30%, Xingyang822 being 26.5% at peak square period. Moreover, the boll total nitrogen content reduced sharply. The results suggest that the Bt cotton cultivars have higher intensity of leaf nitrogen metabolism than their parent, especially during square and boll development period. It is disadvantage for square development and earlier boll maturity under high nitrogen condition. The cultural practice should aim at reducing leaf nitrogen metabolic strength and keep the balance of vegetative and reproductive growth. (C) 2003 Elsevier B.V. All rights reserved.

Resistance of three different populations of mulberry silkworm (Bombyx mori L.) to Bacillus thuringiensis

The relative resistance levels of three different populations of mulberry silkworm, Bombyx mori L. to Bacillus thuringiensis (Bt) has been studied. All three populations (two Australian and one Indonesian) were observed for similar characteristics including 3rd instar larval mortality at 24, 48, 72 and 96 h after treatment (HAT), LD50 ratio and probit mortality. Among the Australian two populations, the QuBill (yellow coloured, oval shaped cocoon) population showed higher larval mortality to Bt toxicity compared to the QuBite (white coloured, oval shaped cocoon) population. When all the populations were compared, the Insab (Indonesian population with white Coloured, peanut shaped cocoon) showed lower larval mortality and highest LD50 ratio up to 48 HAT. The Insab population also showed a 24 It longer incubation/latent period prior to the start Of Mortality.

Mechanisms of inducible resistance against Bacillus thuringiensis endotoxins in invertebrates

Abstract Resistance in insect pests against the endotoxin of Bacillus thuringiensis (Berliner) (Bt) is a major threat to the usefulness of this biopesticide, both used as traditional formulations and in transgenic crops. A crucial requirement for the development of successful resistance management strategies is a molecular understanding of the nature and inheritance of resistance mechanisms. This information can be used to design management strategies that will delay or counteract Bt resistance. The best known Bt resistance mechanism is inactivation of brush border membrane receptors. This type of resistance has a largely recessive mode of inheritance, which has enabled the design of resistance management approaches involving high dose and refuge strategies. Recent observations suggest that other resistance mechanisms are possible, including a mechanism that sequesters the toxin in the gut lumen through inducible immune reactions. The elevated immune status associated with tolerance to the toxin can be transmitted to subsequent generations by a maternal effect, which has implications for resistance management in the field. The high dose/refuge strategy may not be appropriate for the management of these alternative resistance mechanisms and other strategies have to be developed if inducible dominant resistance or tolerance mechanisms occur frequently in the field.

Pesquisa de proteínas citotóxicas e nematicidas em isolados Bacillus thuringiensis dos Açores

Dissertação de Mestrado, Ciências Biomédicas, 25 de Maio de 2016, Universidade dos Açores.

Avaliação de risco do biopesticida Bacillus thuringiensis (CEPA 344) em organismos bioindicadores presentes em sistemas de produção aqüícola.

A piscicultura e outras atividades aqüícolas vêm ganhando importância por contribuir para a produção de alimentos diferenciados e como uma nova alternativa de renda nas propriedades rurais. O uso de agroquímicos nas regiões de entorno dos sistemas de produção aqüícola constitui uma ameaça para os organismos presentes nos mesmos e para a saúde do consumidor. Assim, tem-se incentivado o uso de produtos de menor risco a base de agentes biológicos de controle utilizados como biopesticidas. Apesar da conhecida inocuidade do uso de biopesticidas usados no combate a pragas, alguns relatos tem ocorrido sobre infecções e efeitos adversos em organismos não-alvo, entre estes, espécies aquáticas. No presente trabalho foi avaliado o efeito decorrente da exposição à cepa 344 de Bacillus thuringiensis (Bt344), em organismos de diferentes níveis tróficos da cadeia alimentar do compartimento aquático. Os organismos-teste foram expostos a concentrações correspondentes a mais de 1.000 vezes a dose de aplicação. O Bt344 não alterou os padrões de crescimento da alga Pseudokirchneriella subcapitata. Uma mortalidade significativa (8,9%), porém inferior ao limite aceitável para o controle (10%), foi constatada para o peixe Hyphessobrycon scholzei. Entretanto, a exposição ao agente biológico reduziu a sobrevivência de Dapnhia similis em 44,8% em relação ao controle, o que sugere um risco para espécies de invertebrados aquáticos.

Impacto de la microbiota intestinal de plodia interpunctella en su respuesta inmune y susceptibilidad a bacillus thuringiensis

El aumento en las poblaciones de insectos plaga genera fuertes pérdidas en la producción agrícola. El control de plagas inicialmente se enfocó al empleo de insecticidas químicos; sin embargo, estos han causado un considerable daño al medio ambiente y a la salud humana, por lo que dentro de las alternativas de control se están empleando biopesticidas como la bacteria Bacillus thuringiensis (Bt). El empleo de esta bacteria se ha dificultado por el potencial desarrollo de insectos resistentes, lo cual está relacionado en general con cambios en la actividad enzimática y en los receptores de toxinas Cry en el intestino. Recientes estudios sugieren que se requiere de la microbiota intestinal para la actividad insecticida de Bt y que la respuesta inmune de los insectos podría verse afectada por el bioinsecticida. Por ello, en este trabajo se analizó el efecto de las bacterias intestinales en la respuesta inmune y en la susceptibilidad a Bt en el lepidóptero Plodia interpunctella, una de las plagas de granos almacenados de mayor importancia a nivel mundial. Así mismo, se realizó una descripción de los géneros bacterianos de dicho ecosistema mediante el análisis de secuencias del ARNr 16S bacteriano del intestino de larvas del insecto. Nuestros resultados demuestran la importancia de las bacterias intestinales de P. interpunctella en la susceptibilidad a Bt, teniendo una mortalidad de un 21% al erradicar la microbiota respecto a un 60% de mortalidad en su estado normal (con microbiota). La ausencia de microorganismos en el intestino modificó la respuesta inmune basal, aumentando el número de hemocitos y disminuyendo la expresión de hemolina, lo cual retardó el proceso de metamorfosis del insecto. Las larvas expuestas a Bt presentaron una disminución en los siguientes factores de inmunidad evaluados: número de hemocitos, actividad fenol oxidasa y expresión de hemolina. En cuanto a la diversidad bacteriana del intestino, los principales géneros de bacterias encontrados fueron Pseudomonas con un 26%, Achromobacter 14%, Methylobacterium 11% y un 9% de Propionibacterium, que al igual que los hábitos alimenticios del insecto, su microbioma fue diferente al reportado para otros lepidópteros. Estos resultados nos permiten concluir que la microbiota de P. interpunctella es fundamental para mantener una respuesta inmune basal y ayuda a modular la expresión de la hemolina, la cual se requiere para la metamorfosis del insecto. Así también, Bt puede disminuir dicha respuesta y matar al insecto sin la presencia de otras bacterias; sin embargo, éstas aumentan su actividad insecticida.

Degradação da proteína Cry1Ac de Bacillus thuringiensis por bactérias de solo de cultura do algodão transgênico e convencional (Gossypium hirsutum).

2009

Microbial activities in soils cultivated with transgenic maize expressing Bacillus thuringiensis Cry1 Ab and Cry1 F genes.

A área brasileira plantada com milho geneticamente modificado (GM) expressando genes Cry derivados da bactéria do solo Bacillus thuringiensis (Bt) aumentou de 4,9% (5,0 milhões de hectares) da área total plantada em 2009 para 81,4% (15,83 milhões de hectares) em 2014. No entanto, estudos sobre os efeitos da tecnologia Bt-milho sobre microrganismos não alvo em solos tropicais são incipientes. Dessa forma, foi realizado experimento de campo para avaliar a atividade fisiológica das comunidades bacterianas associadas com genótipos de milho Bt plantados em Latossolo Vermelho Escuro do Cerrado e solos hidromórficos da planície com inundações localizadas. Um híbrido não transgênico (30F35) e seus homólogos transgênicos 30F35Y (Cry1Ab) e 30F35H (Cry1F) foram plantados com delineamento de blocos casualizados com quatro repetições. Solos rizosféricos e não rizosféricos coletados de plantas no estádio de florescimento foram submetidos aos ensaios de diversidade metabólica com Biolog e atividades enzimáticas de urease, arginase, fosfatase ácida e fosfatase alcalina. Solos rizosféricos apresentaram maior atividade microbiana e não foram detectadas diferenças significativas entre os genótipos em todos os parâmetros bioquímicos e de solo avaliados. Os resultados sugerem que o milho Bt não afeta negativamente a comunidade microbiana dos solos tropicais.