Cross-resistance spectra of Culex quinquefasciatus resistant to mosquitocidal toxins of Bacillus thuringiensis towards recombinant Escherichia coli expressing genes from B. thuringiensis ssp. israelensis

Sixteen Escherichia coli clones were assayed against susceptible and Bacillus thuringiensis-resistant Culex quinquefasciatus larvae. The clones expressed different combinations of four genes from Bacillus thuringiensis ssp. israelensis; three genes encoded mosquitocidal toxins (Cry11Aa, Cry4Aa and Cyt1Aa) and the fourth encoded an accessory protein (P20). The cross-resistance spectra of the mosquitoes were similar to the profiles for recombinant B. thuringiensis strains expressing B. thuringiensis toxin genes, but with varied toxicity levels. The toxicity of the recombinants towards resistant mosquito larvae was improved when p20 and cyt1Aa were expressed in combination with cry4Aa and/or cry11Aa. Recombinant pVE4-ADRC, expressing cry4Aa, cry11Aa, p20 and cyt1Aa, was the most active against the resistant Culex, and resistance levels did not exceed fourfold. These results indicate that B. thuringiensis ssp. israelensis genes expressed in a heterologous host such as E. coli can be effective against susceptible and B. thuringiensis-resistant larvae and suppress resistance.     

苏云金杆菌以色列亚种杀蚊蛋白Cyt1Aa在离中不粘柄菌中的表达

在蚊幼虫生活水域里的离中不粘柄菌(Asticcacaulis excentricus,Ae)中已成功表达苏云金芽孢杆菌以色列亚种(Bacillus thuringiensis subsp.israelensis,Bti)杀蚊蛋白基因cry11Aa的基础上,将另一Bti杀蚊蛋白基因cyt1Aa转化入Ae中表达。构建并转化了分别单独含有cyt1Aa基因、及同时含有cry11Aa基因的表达质粒pSODCyt20和pSODCryCyt20,蛋白免疫杂交检测相应的Ae重组子分别表达产生了Cyt1Aa和Cry11Aa蛋白。为了探究Ae(pSODCryCyt20)重组子不能表达cyt1Aa的原因,提取了重组子总RNA、并与同是革兰氏染色阴性的大肠杆菌的总RNA比较,结果显示两者RNA系统显著不同,推测Ae中多个外源基因的表达,可能要求每个基因必需一个启动子。     

Mosquito larvicidal activity of transgenic Anabaena PCC 7120 expressing toxin genes from Bacillus thuringiensis subsp. israelensis

Genes encoding the mosquito larvicidal toxins Cry4Aa, Cry11Aa, Cyt1Aa and the regulatory P20 from Bacillus thuringiensis subsp. israelensis were introduced into the nitrogen-fixing, filamentous cyanobacterium Anabaena PCC 7120 for expression under control of two strong promoters P(psbA) and P(A1). The clone pRVE4-ADRC displayed toxicity against fourth-instar larvae of Aedes aegypti, the highest ever achieved in cyanobacteria. It was about 2.5-fold more toxic than the respective clone without cyt1Aa [Wu et al., Appl. Environ. Microbiol. 63 (1997) 4971-4975]. Cyt1Aa synergized the combination of Crys by about five-fold. Consistently, the lethal times exerted by pRVE4-ADRC were also reduced (it killed exposed larvae more quickly). This clone may become a useful biological control agent which reduces the probability of resistance development in the target organisms [Wirth et al., Proc. Natl. Acad. Sci. USA 94 (1997) 10536-10540].     

Toxic activity of Bacillus Thuringiensis isolates to Aedes Aegypti (L.) (Diptera: Culicidae) larvae

Aedes aegypti (L.), the main vector of dengue fever in Brazil, has been controlled with the use of massive chemical products, contributing to the development of resistance and decreasing the insect control efficiency. The control of dipterans with bioinsecticides based on Bacillus thuringiensis has been satisfactory, due to the production of insecticidal proteins denominated Cry (crystal), Cyt (cytolytic) toxins and Chi (chitinase), and to the synergistic effects among them. The present work aimed to select B. thuringiensis isolates efficient against A. aegypti larvae. A bacterial collection containing 1,073 isolates of B. thuringiensis, obtained from different locations of Brazilian territory, had the DNA isolated and submitted to PCR amplifications using specific primers for cry4Aa, cry4Ba, cry11Aa, cry11Ba, cyt1Aa, cyt1Ab, cyt2Aa and chi genes. For the LC50 and LC90 determination, the entomopathogenic isolates were evaluated by selective and quantitative bioassays. Only 45 isolates (4.2%) presented amplicons for the cry and cyt genes. The chi gene sequence was detected in 25 (54.3%) of those isolates. From the 45 isolates submitted to the selective bioassays, 13 caused 100% mortality of A. aegypti larvae. The identification of cry, cyt and chi genes of B. thuringiensis and the toxicity analysis on A. aegypti led to the selection of a set of isolates that have the potential to be used in the formulation of new bioinsecticides.     

Larvicidal activities against agricultural pests of transgenic Escherichia coli expressing combinations of four genes from Bacillus thuringiensis

The genes cry1Ac and cry1Ca from Bacillus thuringiensis subsps. kurstaki HD-73 and aizawai 4J4, respectively, encoding δ-endotoxins against lepidopteran larvae were isolated, cloned and expressed in Escherichia coli, with and without cyt1Aa (encoding cytolytic protein) and p20 (accessory protein) from subsp. israelensis. Nine combinations of the genes under control of an early T7, P _A1 inducible promoter, produced the encoding proteins. Toxicities were examined against larvae of three major agricultural pests: Pectinophora gossypiella, Helicoverpa armigera and Spodoptera littoralis. The clones expressing cyt1Aa, with or without p20, were not toxic. The clone expressing cry1Ac (pBt-1A) was the most toxic to P. gossypiella (LC₅₀ of 0.27 × 10⁸ cells g⁻¹). Clone pBt-1CA expressing cry1Ca and cry1Ac displayed the highest toxicity (LC₅₀ of 0.12 × 10⁸ cells ml⁻¹) against S. littoralis. Clone pBt-1CARCy expressing all four genes (cry1Ca, cry1Ac, p20, cyt1Aa) in tandem exhibited the highest toxicity to H. armigera (LC₅₀ of 0.16 × 10⁸ cells ml⁻¹). Cyt1Aa failed to raise the toxicity of these Cry toxins against P. gossypiella and S. littoralis but significantly enhanced toxicity against H. armigera. Two additional clones expressing either cry1Ac or cry1Ca under tandem promoters, P _A1 and P _psbA (constitutive), displayed significantly higher toxicities (7.5- to 140-fold) than their counterparts with P _A1 alone, reducing the LC₅₀ values to below 10⁷ cells ml⁻¹. Vadim Khasdan and Maria Sapojnik are contributed equally to this work.     

Variations in the mosquito larvicidal activities of toxins from Bacillus thuringiensis ssp. israelensis

Comparing activities of purified toxins from Bacillus thuringiensis ssp. israelensis against larvae of seven mosquito species (vectors of tropical diseases) that belong to three genera, gleaned from the literature, disclosed highly significant variations in the levels of LC₅₀ as well as in the hierarchy of susceptibilities. Similar toxicity comparisons were performed between nine transgenic Gram-negative species, four of which are cyanobacterial, expressing various combinations of cry genes, cyt1Aa and p20 , against larvae of four mosquito species as potential agents for biological control. Reasons for inconsistencies are listed and discussed. Standard conditions for toxin isolation and presentation to larvae are sought. A set of lyophilized powders prepared identically from six Escherichia coli clones expressing combinations of four genes displayed toxicities against larvae of three mosquito species, with levels that differed between them but with identical hierarchy.     

Enduring toxicity of transgenic Anabaena PCC 7120 expressing mosquito larvicidal genes from Bacillus thuringiensis ssp. israelensis

Persistence of biological control agents against mosquito larvae was tested under simulated field conditions. Mosquito larvicidal activity of transgenic Anabaena PCC 7120 expressing cry4Aa, cry11Aa and p20 from Bacillus thuringiensis ssp. israelensis was greater than B. thuringiensis ssp. israelensis primary powder (fun 89C06D) or wettable powder (WP) (Bactimos products) when either mixed with silt or exposed to sunlight outdoors. Reduction of Bactimos primary powder toxicity was at least 10-fold higher than Anabaena's after mixing with silt. In outdoors experiments, Bactimos WP remained toxic (over 30% mortality of 3rd instar Aedes aegypti larvae) for 2-4 days only, while transgenic Anabaena's toxicity endured 8-21 days.     

Mosquito larvicidal activity of transgenic Anabaena strain PCC 7120 expressing combinations of genes from Bacillus thuringiensis subsp. israelensis.

Various combinations of the genes cryIVA (cry4A), cryIVD (cry11A), and p20 from Bacillus thuringiensis subsp. israelensis were introduced into the nitrogen-fixing cyanobacterium Anabaena sp. strain PCC 7120 by means of Escherichia coli-Anabaena shuttle vector pRL488p and were expressed under control of two tandem strong promoters, a cyanobacterial promoter (PpsbA) and an E. coli T7 promoter (PA1). Two of the clones carrying cryIVA plus cryIVD, one with p20 and one without p20, displayed toxicity against third-instar larvae of Aedes aegypti at levels greater than any level previously reported for transgenic cyanobacteria.     

Molecular cloning and characterization of a novel mosquitocidal protein gene from Bacillus thuringiensis subsp. fukuokaensis.

A novel mosquitocidal protein gene, cry20Aa, was cloned from Bacillus thuringiensis subsp. fukuokaensis (H-3a: 3d: 3e). The gene product, Cry20Aa, was naturally truncated and had a molecular mass of 86,138 Da. The Cry20Aa protein possessed five conserved sequence blocks, as do most other insecticidal Cry toxins. However, an amino acid comparison of Cry20Aa with other mosquitocidal toxins, including Cry4A, Cry4B, Cry10A, Cry11A, and Cry11B, demonstrated that Cry20Aa was quite different from other toxins except for the conserved blocks. The N terminus of Cry20Aa was, however, homologous to the N termini of Cry4A and Cry10A. Interestingly, an inverted repeat (IR1) sequence in the open reading frame of the cry20Aa gene caused incomplete expression of Cry20Aa. When this internal IR1 sequence was altered with no change of amino acid sequence, acrystalliferous B. thuringiensis cells transformed with cry20Aa gene dramatically produced crystal inclusions. However, the intact 86-kDa Cry20Aa protein is highly labile, and it is rapidly degraded to polypeptides of 56 and 43 kDa. To increase expression of the cry20Aa gene, the p20 chaperonelike protein and the cyt1Aa promoter were utilized. While p20 did not increase Cry20Aa expression or stability, chimeric constructs in which the cry20Aa gene was under control of the cyt1Aa promoter overexpressed the Cry20Aa protein in acrystalliferous B. thuringiensis. The expressed Cry20Aa protein showed larvicidal activity against Aedes aegypti and Culex quinquefasciatus. However, the mosquitocidal activity was low, probably due to rapid proteolysis to inactive 56- and 43-kDa proteins.     

Co-Expression of the Mosquitocidal Toxins Cyt1Aa and Cry11Aa from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Subsp. <Emphasis Type="Italic">israelensis</Emphasis> in <Emphasis Type="Italic">Asticcacaulis excentricus</Emphasis>

The cyt1Aa gene from Bacillus thuringiensis subsp. israelensis (Bti), whose product synergizes other mosquitocidal toxins, and functions as a repressor of resistance developed by mosquitoes against Bacilli insecticides, was introduced into the aquatic Gram-negative bacterium Asticcacaulis excentricus alongside the cry11Aa gene. The genes were introduced as an operon, but although mRNA was detected for both genes, no Cyt1Aa toxin was detected. Both proteins were expressed using a construct in which a promoter was inserted upstream of each gene. Recombinant A. excentricus expressing both toxins was found to be approximately twice as toxic to third instar larvae of Culex quinquefasciatus as transformants expressing just Cry11Aa.     

Suitability of Anabaena PCC7120 expressing mosquitocidal toxin genes from Bacillus thuringiensis subsp. israelensis for biotechnological application

We present evidence that Anabaena PCC7120 (A.7120) strains expressing mosquitocidal toxin genes from Bacillus thuringiensis subsp. israelensis (Bti) have a strong potential for biotechnological application. Characterization of two 4-year-old recombinant A.7120 clones constructed previously in our laboratory [clone 7 and clone 11, each carrying three Bti genes (cry4Aa, cry11Aa, and p20)] revealed three facts. First, the Bti genes were stable in A.7120 even in the absence of antibiotic selection when the genes were integrated in the chromosome (in clone 11); and the genes were also stable as plasmid-borne constructs (in clone 7), provided the cultures were maintained under continued selection. Second, clone 7 (kept under selection) and clone 11 (either kept or not kept under selection) continued to be mosquitocidal through 4 years of culture. Third, growth of the recombinant clones was comparable to the wild type under optimal growth conditions, indicating that growth was not compromised by the expression of toxin genes. These results clear the way for the development of mass production techniques for A.7120 strains expressing Bti toxin genes.     

苏云金杆菌辅助蛋白P19对杀虫晶体蛋白Cry11Aa表达的影响

苏云金杆菌以色列亚种的p19基因、cry11Aa基因和p20基因位于同一操纵子上,据推测辅助蛋白P19可能与Cry11Aa蛋白的晶体化相关。本研究利用穿梭载体pHT3101构建了两个重组质粒pHcy1和pHcy3,两质粒均携带cry11Aa基因,但后者完全缺失了cry11Aa基因上游的p19基因。将重组质粒电激转化至苏云金杆菌无晶体突变株4Q7中进行蛋白表达,SDS-PAGE结果表明在4Q7(pHcy1)和4Q7(pHcy3)中均能检测到正常表达的Cry11Aa蛋白,但单位体积培养液的Cry11Aa蛋白在辅助蛋白P19存在时的表达量明显高于其单独表达的表达量;透射电镜观察显示两菌株中的Cry11Aa蛋白形成了大小相近、形状相似的双梯形晶体;另外,生物测定结果表明重组菌株4Q7(pHcy1)和4Q7(pHcy3)对三龄致倦库蚊的杀虫活性没有显著性差异。该现象说明辅助蛋白P19的缺失对Cry11Aa蛋白的晶体形成和杀蚊活性没有影响,但P19作为分子伴侣在一定程度上帮助提高了Cry11Aa蛋白的表达水平。     

Novel cry gene from Paenibacillus lentimorbus strain Semadara inhibits ingestion and promotes insecticidal activity in Anomala cuprea larvae

A positive clone was selected from a library of total cell DNA of Paenibacillus lentimorbus strain Semadara that reacted with an antiserum that was raised against parasporal crystal proteins produced by this strain. The positive clone had a DNA insert containing two whole cry genes (cry43Aa1, cry43Ba1), one partial cry gene (cry43-like), and three smaller genes located upstream. Eight blocks that are conserved in the Cry proteins of Bacillus thuringiensis [Microbiol. Mol. Biol. Rev. 62 (1998) 775] were detected in their deduced amino acid sequences. The Escherichia coli transformant expressing cry43Aa1 caused inhibition of ingestion and 90% mortality in the first stadium larvae of Anomala cuprea. A low concentration of sporangia mixed with the transformant expressing cry43Aa1 easily infected the larvae of A. cuprea. The protein of approximately 150 kDa produced by the transformants expressing the cry genes reacted with antiserum specific for the parasporal crystal proteins. Southern hybridization analysis demonstrated that the cry genes were located on the chromosomal DNA of this strain, which possessed at least four cry genes.     

Diversity of Bacillus thuringiensis strains from Latin America with insecticidal activity against different mosquito species

The characterization of selected Bacillus thuringiensis strains isolated from different Latin America countries is presented. Characterization was based on their insecticidal activity against Aedes aegypti, Culex quinquefasciatus, and Anopheles albimanus larvae, scanning electron microscopy, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and plasmid profiles as well as PCR analysis using novel general and specific primers for cry and cyt genes encoding proteins active against mosquitoes (cyt1, cyt2, cry2, cry4A, cry4B, cry10, cry11, cry17, cry19, cry24, cry25, cry27, cry29, cry30, cry32, cry39, and cry40). Strains LBIT315, LBIT348, and IB604 showed threefold higher mosquitocidal activity against A. aegypti and C. quinquefasciatus larvae than B. thuringiensis subsp. israelensis and displayed high similarities with the B. thuringiensis subsp. israelensis used in this study with regard to protein and plasmid profiles and the presence of cry genes. Strain 147-8906 has activity against A. aegypti similar to that of B. thuringiensis subsp. israelensis but has different protein and plasmid profiles. This strain, harboring cry11, cry30, cyt1, and cyt2 genes, could be relevant for future resistance management interventions. Finally, the PCR screening strategy presented here led us to identify a putative novel cry11B gene.     

Bacillus thuringiensis cry3Ca1 protein is toxic to the Colorado potato beetle, Leptinotarsa decemlineata (Say)

We expressed the wild-type cry3Aa3 and cry3Ca1 Bacillus thuringiensis genes, which code for insecticidal proteins, in an Escherichia coli expression system. Highly purified preparations of the soluble delta-endotoxins were used to perform comparative bioassays with third-instar larvae of the Colorado potato beetle (CPB). Acute mortality data showed that Cry3Ca1 (LD(50) = 320.1 ng) was 2-fold more toxic than Cry3Aa3 (LD(50) = 672.9 ng). We also compared the chronic effects of sublethal doses of these toxins by measuring the consumption of untreated foliage and monitoring survival and development for 6 days after intoxication. No significant additional mortality was recorded, but we found that surviving larvae fed Cry3Ca1 consumed foliage at a slower rate than the larvae fed Cry3Aa3, suggesting more damage to their digestive epithelium. This study, the first assessment of the toxicity of cry3Ca1 in third-instar CPB, suggests cry3Ca1 will prove useful for the control of this important insect pest.     

Characterization of Bacillus thuringiensis ser. jordanica (serotype H71), a novel serovariety isolated in Jordan

The novel strain of Bacillus thuringiensis J112 isolated from a soil sample in Jordan was classified and characterized in terms of toxicity against dipteran and nematode larvae, crystal protein pattern, plasmid profile, and cry gene content. A new name, Bacillus thuringiensis serovariety jordanica (H serotype 71), is proposed for the reference strain J112. The parasporal crystal proteins were toxic to 3(rd) instar larvae of Drosophila melanogaster and to 2(nd) stage juveniles of root knot nematodes Meloidogyne javanica and M. incognita, but showed poor mosquitocidal activity towards Culex pipiens molestus and Culiseta longiareolata larvae. Solubilized and trypsin-digested crystal proteins possessed moderate hemolytic activity against sheep erythrocytes. SDS-polyacrylamide gel electrophoresis revealed that crystals are composed of several polypeptides ranging from 24 to 170 kDa, of which the 20-, 42-, 140-, and 170-kDa proteins were the major components. Analysis of the plasmid pattern of J112 revealed the presence of two large plasmidic bands of about 160 and 205 kbp. PCR with total DNA from strain J112 and specific primers for cry1, cry2, cry3, cry4, and cyt2A genes revealed that cry1, cry3A, cry4, cry5 and cyt2a genes are present.     

Expression of the p20 gene from Bacillus thuringiensis H-14 increases Cry11A toxin production and enhances mosquito-larvicidal activity in recombinant gram-negative bacteria.

Experimental analyses with recombinant Escherichia coli and Pseudomonas putida transformed with plasmids bearing genes coding for the Cry11A toxin and P20 protein from Bacillus thuringiensis H-14 showed that cells producing both proteins were more toxic when fed to third-instar Aedes aegypti larvae than were cells expressing cry11A alone; the 50% lethal concentrations were in the range of 10(4) to 10(5) cells/ml. Western blots revealed a higher production of Cry11A when the p20 gene was coexpressed. Cry11A was detected primarily in insoluble form in recombinant cells. Cry11A was not detected in P. putida when P20 was not coproduced, and these recombinants were not toxic to larvae, whereas P. putida recombinants producing both proteins were toxic at concentrations similar to those for E. coli. A coelution experiment was conducted, in which a p20 gene construct producing the P20 protein with an extension of six histidines on the C terminus was mixed with the Cry11A protein. The results showed that Cry11A bound to the P20(His(6)) on a nickel chelating column, whereas Cry11A produced without the P20(His(6)) protein was washed through the column, thus indicating that Cry11A and P20 physically interact. Thus, P20 protein either stabilizes Cry11A or helps it attain the folding important for its toxic activity.     

Characterization of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Strain DOR4 Toxic to Castor Semilooper <Emphasis Type="Italic">Achaea janata</Emphasis>: Proteolytic Processing and Binding of Toxins to Receptors

We have isolated a strain of Bacillus thuringiensis (Bt) from Indian soil samples that was shown to be toxic to Achaea janata larvae. The isolate, named B. thuringiensis DOR4, serotypically identified with the standard subspecies kurstaki (H3a3b3c) and produced bipyramidal inclusions along with an amorphous type. Although the plasmid pattern of DOR4 was different from that of the reference strain, a crystal protein profile showed the presence of two major bands (130 and 65 kDa) similar to those of Bt subsp. kurstaki HD-1. To verify the cry gene content of DOR4, triplex PCR analysis was performed; it showed amplification of the cry1C gene in addition to cry1Aa, cry1Ac, cry2A, and cry2B genes, but not the cry1Ab gene. RT-PCR analysis showed the expression of cry1Aa and cry1Ac genes. In vitro proteolysis of DOR4 protoxin with midgut extract generated products of different sizes. Zymogram analysis of DOR4 protoxin as substrate pointed to a number of distinct proteases that were responsible for activation of protoxins. Furthermore, toxin overlay analysis revealed the presence of multiple toxin-binding proteins in midgut epithelium. Based on all these characterizations, we suggest that the Bt DOR4 strain can be exploited for an A. janata control program.