Isolation and characterization of Lepidoptera specific Bacillus thuringiensis strains predominantly from north-eastern states of India.

Both, the tobacco caterpillar Spodoptera litura (Fabricius) and the cotton bollworm Helicoverpa armigera (Hübner), are serious polyphagous pests causing considerable loss to crops. Indiscriminate use of chemical pesticides for controlling them has rather resulted in their resistance development. Microbial pesticides, Bacillus thuringiensis in particular, play an important role in pest management. Here, we isolated Bacillus thuringiensis-like bacteria from the soil samples primarily collected from North East region of India along with some states viz., Haryana, Punjab, Maharashtra, West Bengal and Uttarakhand and studied their toxicity against the above two insect pests at 10 µg/g along with standard strain B. thuringiensis subsp. kurstaki HD-1 and at 1 µg/g Pseudomonas fluorescens based MVPII expressing Cry1Ac toxin and AUG-5. Isolates AUG-5 and GTG-7 proved toxic to more than 75% larvae on the 4th as well as 7th day of the treatment of the neonates of H. armigera. The AUG-5 isolate was also effective against S. litura. Ten effective isolates (AUG-5, GTG-4, GTG-7, GTG-9, GTG-42, GTG-64, GTG-70, GTG-3S, GTG-4S and GTG-6S) were characterized using biochemical and 16S rDNA analysis. Nearly, all the isolates tested positive for utilizing monosaccharides. All selected B. thuringiensis isolates showed resistance to ampicillin and co-trimoxazole except AUG-5 to co-trimoxazole. AUG-5 and GTG-7 were highly toxic to both insects, and possessed cry1, cry1A and cry2 genes. These isolates AUG-5 and GTG-7 also contained high Cry1Ac (104.8 and 88.32 ng/mg) and Cry2Ab (3792 and 1305.9 ng/mg), respectively in their spore-crystal complex. Both, AUG-5 and GTG-7 isolates, could be considered for further development as bioinsecticides. The present study has established the diversity and richness of B. thuringiensis-like isolates in soils collected from north-eastern region of India.

Identification and characterization of the Sudanese Bacillus thuringiensis and related bacterial strains for their efficacy against Helicoverpa armigera and Tribolium castaneum.

Forty-four isolates of Bacillus thuringiensis like bacteria from various sources in different locations from Sudan were tested for their insecticidal activity. The toxicity of these isolates ranged from 6.6 to 70% to the neonates of cotton bollworm, Helicoverpa armigera at 10 ppm concentration. The most effective ones are Kb-29, St-6 and Wh-1 comparable with HD-1.  Toxicity of isolates to larvae of the red flour beetle, Tribolium castaneum ranged from 20 to 100%. Isolates St-2 and St-23 gave 100% larval mortality within 15 days of exposure and were at par with Ab-8, Ab-12, Kb-26, Kb-30, Om-4, Po-2, Po-5, Po-7, Sa-8 and Wh-5 and were also comparable with E. coli clone expressing Cry3 toxin. The most effective five isolates viz., Kb-29, St-2, St-6, St-23 and Wh-1 belonged to B. thuringiensis. The St-6 isolate, which also showed high toxicity to T. castaneum larvae, had cry1 genes along with coleopteran active cry28 genes, but not cry3 genes. Of the 25 isolates characterized with 16s DNA sequencing, seven belonged to Paenibacillus spp., one Lysinibacillus sphaericus, one Bacillus pumilus, four Bacillus spp., and rest 12 belonged to B. thuringiensis. Biochemical characterization in each species showed variation. The present study shows potential of some isolates like Kb-29, St-2, St-6, St-23 and Wh-1 as promising bioinsecticides.

Monitoring resistance to Bacillus thuringiensis subsp. israelensis in the field by performing bioassays with each Cry toxin separately

Bacillus thuringiensis subsp. israelensis (Bti) is increasingly used worldwide for mosquito control and is the only larvicide used in the French Rhône-Alpes region since decades. The artificial selection of mosquitoes with field-persistent Bti collected in breeding sites from this region led to a moderate level of resistance to Bti, but to relatively high levels of resistance to individual Bti Cry toxins. Based on this observation, we developed a bioassay procedure using each Bti Cry toxin separately to detect cryptic Bti-resistance evolving in field mosquito populations. Although no resistance to Bti was detected in none of the three mosquito species tested (Aedes rusticus, Aedes sticticus and Aedes vexans), an increased tolerance to Cry4Aa (3.5-fold) and Cry11Aa toxins (8-fold) was found in one Ae. sticticus population compared to other populations of the same species, suggesting that resistance to Bti may be arising in this population. This study confirms previous works showing a lack of Bti resistance in field mosquito populations treated for decades with this bioinsecticide. It also provides a first panorama of their susceptibility status to individual Bti Cry toxins. In combination with bioassays with Bti, bioassays with separate Cry toxins allow a more sensitive monitoring of Bti-resistance in the field.

Seleção e caracterização molecular de Bacillus thuringiensis Berliner com atividade tóxica para Trichoplusia ni Huebner (Lepidoptera: Noctuidae) / Selection and molecular characterization of Bacillus thuringiensis Berliner with toxic activity against Trichoplusia ni Huebner (Lepidoptera: Noctuidae)

Trichoplusia ni é uma praga polífaga importante em plantios de crucíferas, soja e algodão. O presente estudo objetivou selecionar e caracterizar por método molecular isolados de Bacillus thuringiensis (Bt) com potencial para atuar com agentes de controle biológico de T. ni. Para os bioensaios de patogenicidade, uma alíquota com 3 x 108 esporos/mL de suspensão de Bt de cada isolado foi aplicada na superfície do disco de dieta artificial, previamente distribuída em placas de acrílico com 50 lagartas, distribuídas em 5 repetições. Nos bioensaios para a obtenção da CL50, apenas os isolados com 100% de mortalidade foram pré-selecionados, sendo testadas as seguintes concentrações: 102, 5 x 102, 103, 2 x 103, 4 x 103, 6 x 103, 8 x 103 esporos/mL, sendo os tratamentos compostos por 120 lagartas, distribuídas em 3 repetições. Foi feita caracterização molecular para detectar os genes cry1, cry2 e Vip para os isolados que obtiveram mortalidade acima de 95%. Os isolados HD-1 (Padrão), Bt-1043N-V, Bt-1034F, Bt-1009K, Bt-1000, Bt-969A causaram 100% de mortalidade nos testes de patogenicidade e CL50 de 1,17 x 103, 1,45 x 103, 1,46 x 103, 1,01 x 103, 9,43 x 102, 1,22 x 103, respectivamente. Não foram encontrados genes cry1, cry2 e Vip nos isolados testados, podendo outras toxinas Cry estar causando a mortalidade de T. ni, visto que os isolados testados são específicos para a ordem Lepidoptera. Estes isolados mostraram potencial para o controle de T. ni, sendo virulentos a este inseto, com potencial para serem utilizados em programa de manejo desta praga.

Trichoplusia ni is a polyphagous pest that is becoming a major pest in plantations of cruciferous crops, soybeans and cotton. This study was aimed to select and molecularly characterize efficient isolates of Bacillus thuringiensis (Bt) for the control of T. ni. For the bioassays of pathogenicity, an aliquot with a 3 x 108 spores/mL suspension of Bt of each isolate was applied on the surface of the artificial diet disk, previously distributed on acrylic plates with 50 larvae, distributed in 5 repetitions. In bioassays to obtain the LC50, only isolates with 100% mortality were preselected, and tests were carried out at the concentrations 102, 5 x 102, 103, 2 x 103, 4 x 103, 6 x 103, and 8 x 103 spores/mL, and the treatments consisting of 120 larvae, distributed in 3 repetitions. A molecular characterization was performed to detect the genes cry1, cry2 and Vip for the isolates which obtained mortality over 95%. Isolates HD-1 (Standard), Bt-1043N-V, Bt-1034F, Bt-1009K, Bt-1000 and Bt-969A caused 100% mortality in the test for pathogenicity and presented an LC50 of 1.17 x 103, 1.45 x 103, 1, 46 x 103, 1.01 x 103, 9.43 x 102, 1.22 x 103, respectively. Genes cry1, cry2 and Vip were not found in the isolates tested, and other Cry toxins may have been causing the mortality of T. ni, since the isolates tested are specific for the Lepidoptera order. These isolates showed potential for the control of T. ni, being aggressive to this insect, with a potential to be used in a pest management program for this species.

THREE-DIMENSIONAL STRUCTURE OF Bacillus thuringiensis TOXINS: A REVIEW / Estructura tridimensional de las toxinas de Bacillus thuringiensis: revisión

Structure-based protein engineering of Bacillus thuringiensis d-endotoxins may direct the search for variants with broader susceptible species spectra, optimal potency, and stability properties. Here, we revised the more important characteristics of the Cry and Cyt proteins three-dimensional structure; it is possible to conclude that an obvious general model exists with specific properties according to its function and target organism.

La ingeniería de proteínas de las d-endotoxinas de Bacillus thuringiensis puede orientar la búsqueda de variantes con un espectro mayor de especies susceptibles, potencia optimizada, y estabilidad apropiada. Aquí, nosotros revisamos las características más importantes de la estructura tridimensional de las proteínas Cry y Cyt. Es posible concluir que existe un modelo general obvio con propiedades específicas de acuerdo a su función y organismo susceptible.