Characterization of Bacillus thuringiensis Cry toxin binding novel GPI anchored aminopeptidase from fat body of the moth Spodoptera litura

Aminopeptidase N (APN) isoforms were identified as candidate receptors for Bacillus thuringiensis Cry toxins from the midgut of several insect species. In this study a partial cDNA encoding aminopeptidase (slfbAPN) was cloned from fat body of the moth Spodoptera litura. In the deduced amino acid sequence the characteristic metallopeptidase sequences, HEXXHX₁₈E and GAMENWG were conserved but the sequence showed only 33–39% identity to other insect APNs, which were also reported to be Cry toxin receptors. The presence of a putative GPI anchor signal sequence at the C-terminus indicated that it is a membrane-anchored protein. The slfbAPN expression was restricted to the fat body as suggested by northern blot analysis of different tissues. Biochemical analyses including immunoblotting, ligand blotting and lectin blotting, demonstrated that slfbAPN is a membrane-anchored glycoprotein in the fat body and it binds to Cry toxins. The nucleotide sequence shown here has been submitted to the GenBank sequence data bank and is available under accession number EF372603.     

Effects of individual Bacillus thuringiensis insecticidal crystal proteins on adult Heliothis virescens (F.) and Spodoptera exigua (Hubner) (Lepidoptera: Noctuidae)

Bacillus thuringiensis (Bt) is a grampositive, spore forming bacterium, which is principally distinguishedfrom other bacilli by the production of large, insecticidal,protein crystals (Insecticidal Crystal Proteins, or ICPs). Theseproteins are usually thought to act only on the actively feedinglarvae of susceptible species by a mechanism which involvesconsumption and proteolytic processing of the protein followed bybinding to, and lysis of, midgut epithelial cells. However, few authorshave reported Bt toxicity to adult insects. In the followingpaper, we expand on previous reports of toxicity to adult insects andpresent data which demonstrate that: (1) proteolytically activated ICPssignificantly reduce the lifespans of adult Heliothis virescensand Spodoptera exigua at concentrations of 500 g/ml, butnot 167 or 25 g/ml, (2) individual activated ICPs are differentiallytoxic to adult H. virescens and S. exigua, and (3)adult S. exigua are sensitive to Cry1C protoxin at aconcentration of 1 mg/ml.Deceased     

Secondary structure of the entomocidal toxin from Bacillus thuringiensis subsp. kurstaki HD-73

The secondary structure of the toxin fromBacillus thuringiensis subsp.kurstaki (Btk) HD-73 was estimated by Raman, infrared, and circular dichroism spectroscopy, and by predictive methods. Circular dichroism and infrared spectroscopy gave an estimate of 33–40% -helix, whereas Raman and predictive methods gave approximately 20%. Raman and circular dichroism spectra, as well as predictive methods, indicated that the toxin contains 32–40% -sheet structure, whereas infrared spectroscopy gave a slightly lower estimate. Thus, all of these approaches are in agreement that the native conformation of Btk HD-73 toxin is highly folded and contains considerable amounts of both -helical and -sheet structures. No significant differences were detected in the secondary structure of the toxin either in solution or as a hydrated pellet.     

RNA interference of an antimicrobial peptide, gloverin, of the beet armyworm, Spodoptera exigua, enhances susceptibility to Bacillus thuringiensis

Gloverin is known to be an inducible antimicrobial peptide. This study reports a gloverin gene (Seglv) identified from the beet armyworm, Spodoptera exigua. Seglv encodes 175 amino acids with a signal peptide. Its amino acid sequence is highly homologous (>95%) to other known gloverins. Seglv was expressed from egg to adult stages even without immune challenge. Especially, in larval stage, it was expressed in all tested tissues, such as hemocyte, fat body, gut, and epidermis. However, the constitutive expression level was significantly elevated in response to bacterial challenge. Expression of a Toll gene was required for expression of Seglv. A recombinant Seglv protein was synthesized using a bacterial expression system and purified with an affinity chromatography. The recombinant protein showed a specific antibacterial activity against a Gram-positive bacterium, but no activity against a Gram-negative Escherichia coli. Injection of specific double stranded RNA (dsRNA) against Seglv could suppress its expression. Knockdown of Seglv expression induced a significant developmental retardation and resulted in hypotrophy pupae. The larvae treated with dsRNA were much more susceptible to Bacillus thuringiensis than the control larvae. These results suggest that Seglv acts as an antimicrobial peptide especially against Gram-positive bacteria including B. thuringiensis.     

Larval feeding behavior of Dipel-resistant and susceptible Ostrinia nubilalis on diet containing Bacillus thuringiensis (Dipel ESTM)

Diet choice tests were conducted to examine the effects of Bacillus thuringiensis Berliner on larval feeding behavior of Dipel-resistant and susceptible strains of European corn borer, Ostrinia nubilalis (Hübner). Larvae (first through fourth instars) were presented an untreated standard diet and three diets incorporating different concentrations of a commercial formulation of B. thuringiensis, Dipel ES^TM. Significantly higher proportions of susceptible and resistant larvae were found on the control diet compared to the proportions recorded on any of the Dipel-treated diets. Soon after release (0.5 to 3 h), the occurrence of larvae on each of the diets was similar across different instars. The number of first and second instars on the control diet increased steadily over 72 h after release, when 43 to 75% of larvae were found on the control diet. The proportion of third and fourth instars on the control diet also increased initially, with an equilibrium occurring 12 to 24 h later when 30 to 40% of larvae were found on the control diet. Both strains appeared to avoid the Dipel-treated diets and their responses were similar over different Dipel concentrations. The Dipel-resistant strain showed higher ability to avoid the treated diets than the susceptible strain.     

Genes from Bacillus thuringiensis entomocidus 60.5 coding for insect-specific crystal proteins

Summary Five crystal protein genes have been isolated from DNA of Bacillus thuringiensis entomocidus 60.5, an isolate selected for its high toxicity against Spodoptera littoralis and Spodoptera exigua. Two of these genes belong to a family of well-described crystal protein genes. The toxic properties of the corresponding proteins are similar to those of isolate kurstaki HD1. The other three genes belong to gene families not described before. One of these genes codes for a protein product exhibiting a high degree of specificity towards Spodoptera species, explaining the high toxicity of isolate entomocidus 60.5 against these species. This gene product is much less toxic against larvae of Heliothis virescens and Pieris brassicae. Its coding sequence is separated from a supposed fourth crystal protein gene by a stretch of DNA of 3 kb. The crystal protein encoded by the fifth gene is mainly active against P. brassicae. Homology between the crystal protein genes is limited to the central region of the coding sequences, including the proteolytic cleavage site, except for the first two genes between which homology is extensive.     

Cytolytic activity of Bacillus thuringiensis CryIC and CryIAc toxins to Spodoptera sp. midgut epithelial cells in vitro

Summary A sensitive lactate dehydrogenase (LDH) assay was modified to determine the cytolytic activity of Bacillus thuringiensis CryIC and CryIAc delta endotoxins to viable collagenase-dissociated midgut epithelial cells (MEC) from larvae of Spodoptera frugiperda and Spodoptera exigua. The MEC preparations from these Spodoptera sp. consisted predominantly of columnar cells (65–75%) and goblet cells (25–35%). Time course microscopy experiments indicated that only the columnar cells became swollen during CryIC toxin incubation. Also, comparative cytotoxicity studies were run with cell lines of nonmidgut origin established from S. frugiperda (SF21AE) and S. exigua (SEUCR1A). Optimum conditions for the cytotoxicity assay were similar for MEC and cell lines of both species, and were met in an assay in which 0.1-ml cell concentrations (8.5±0.5×10⁴ cells) were incubated with toxin dilutions (0.01–20 μg) for 1 h at 24° C at a final pH of 7.8. The Spodoptera sp. MEC were twofold more sensitive to CryIC (68% lysis) than CryIAc (32% lysis) at optimum toxin levels (2.5–5 μg). Also, the SEUCR1A cells were more sensitive (2.3-fold) to CryIC (70% lysis) than CryIAc (30% lysis) at optimum toxin levels of 5–10 μg. The SF21AE cells, however, were twofold less sensitive to CryIC (30% lysis) than SEUCR1A cells and response to CryIAc and CryIC was similar. Immunoblot analysis of either Spodoptera sp. MEC or brush border membrane vesicles (BBMV) identified seven CryIC binding proteins with molecular mass of 137, 120, 115, 68, 65, 63, and 45 kDa. Occasionally, a 148-kDa protein band was observed. The CryIAc toxin bound to two proteins on MEC and BBMV with molecular mass of 137 and 120 kDa.     

Adsorption of insecticidal toxin from Bacillus thuringiensis subsp. Kurstaki by some Chinese soils: effects of organic acid ligands addition

We have investigated the effects of low molecular weight organic acid ligands on the adsorption of the insecticidal toxin from Bacillus thuringiensis (Bt) by the colloidal (<2 μm particle-size) fraction of some soils. The desorption of the bound toxin by NaCl and phosphate buffer has also been measured. The soils used were a red soil (Ultisol), a latosol (Oxisol), a yellow brown soil (Alfisol) and a yellow cinnamon soil (Alfisol) from central and southern China. The adsorption isotherms were all of the L-type, and the data fitted the Langmuir equation (R² > 0.97). When present at low concentrations, organic acids (acetate, oxalate, citrate) had an inhibitory effect on toxin adsorption. Uptake, however, was promoted when the organic acid concentration exceeded 10 mM. The toxin was very strongly bound by the soils but the soil-toxin interaction weakened in the presence of organic acids. A small portion of the toxin was adsorbed by electrostatic and ligand exchange interactions. The addition of organic acids appeared to enhance these interactions. Responsible Editor: Thomas B. Kinraide     

Reduction of resistance of Culex pipiens larvae to the binary toxin from Bacillus sphaericus by coexpression of cry4Ba from Bacillus thuringiensis subsp. israelensis with the binary toxin gene

The cry4Ba gene from Bacillus thuringiensis subsp. israelensis and the binary toxin gene from B. sphaericus C3-41 were cloned together into a shuttle vector and expressed in an acrystalliferous strain of B. thuringiensis subsp. israelensis 4Q7. Transformed strain Bt-BW611, expressing both Cry4Ba protein and binary toxin protein, was more than 40-fold more toxic to Culex pipiens larvae resistant to B. sphaericus than the transformed strains expressing Cry4Ba protein or binary toxin protein independently. This result showed that the coexpression of cry4Ba of B. thuringiensis subsp. israelensis with B. sphaericus binary toxin gene partly suppressed more than 10,000-fold resistance of C. pipiens larvae to the binary toxin. It was suggested that production of Cry4Ba protein and binary toxin protein interacted synergistically, thereby increasing their mosquito-larvicidal toxicity.     

Molecular characterization of Bacillus thuringiensis strains from Argentina

Bacillus thuringiensis INTA 7-3, INTA 51-3, INTA Mo9-5 and INTA Mo14-4 strains were obtained from Argentina and characterized by determination of serotype, toxicity, plasmid composition, insecticidal gene content ( cry and vip ) and the cloning of the single- vip3A gene of the INTA Mo9-5 strain. The serotype analysis identified the serovars tohokuensis and darmstadiensis for the INTA 51-3 and INTA Mo14-4 strains, respectively, whereas the INTA Mo9-5 strain was classified as "autoagglutinated". In contrast to the plasmid patterns of INTA 7-3, INTA 51-3 and INTA Mo9-5 (which were similar to B. thuringiensis HD-1 strain), strain INTA Mo14-4 showed a unique plasmid array. PCR analysis of the four strains revealed the presence of cry genes and vip3A genes. Interestingly, it was found that B. thuringiensis 4Q7 strain, which is a plasmid cured strain, contained vip3A genes indicating the presence of these insecticidal genes in the chromosome. Bioassays towards various lepidopteran species revealed that B. thuringiensis INTA Mo9-5 and INTA 7-3 strains were highly active. In particular, the mean LC(50) obtained against A. gemmatalis larvae with the INTA Mo9-5 and INTA 7-3 strains were 7 (5.7-8.6) and 6.7 (5.6-8.0) ppm, respectively. The INTA Mo14-4 strain was non-toxic and strain INTA 51-3 showed only a weak larvicidal activity.     

An evaluation of some natural enemies of Spodoptera exigua on sugarbeet in northern California

Eggs and small to medium-sizedlarvae of Spodoptera exigua (Hübner)(Lepidoptera: Noctuidae) are exploited by acomplex of natural enemies in spring-plantedsugarbeet fields in northern California. Fieldstudies revealed that predation on sentinel eggmasses ranged from 20 to 100%egg mass;predation rate was lowest in fields previouslytreated with methomyl and highest innon-treated fields. Predators typicallydestroyed all of the eggs in a given egg mass;percentage predation per egg mass was densityindependent (spatial context). Survival of eggs(to neonate larvae) in cages that excludedpredators ranged from 80 to $>$90%. Theegg-predator guild consisted of adults andnymphs of Orius tristicolor(White)(Anthocoridae), Nabis americoferusCarayon (Nabidae), Lygus hesperus Knight(Miridae), and Geocoris punctipes (Say)(Geocoridae); larvae of Chrysoperlacarnea (Stephens) (Chrysopidae); and adults ofCollops vittatus (Say) (Melyridae). Laboratory evaluation revealed that largelarvae of C. carnea and the adults of theother species (except for O. tristicolor)could consume 100 eggs of S. exigua in a48 h period. The parasite guild associatedwith small and medium-sized larvae consisted ofthree species: Hyposoter exiguae(Viereck) and Pristomerus spinator (F.)(Ichneumonidae), both larval endoparasites; andChelonus insularis Cresson (Braconidae),an egg-larval endoparasite. Parasitization in field samples ranged from 30 to 65%. Smalland medium-sized larvae were also infected witha nuclear polyhedrosis virus (NPV); rates ofNPV infection ranged from 0 to 35% in fieldsamples. These results are consistent withanecdotal evidence that natural enemies,primarily generalist predators, are largelyresponsible for maintaining populations ofS. exigua at relatively low levels innontreated sugarbeet fields.     

对甜菜夜蛾高毒苏云金芽孢杆菌菌株CZE99985的研究

分离到对甜菜夜蛾高毒的苏云金芽孢杆菌一个菌株CZE99985 ,并进行了研究。该菌具有鲇泽亚种的典型特征 ,属血清型H7,生理生化特性与鲇泽亚种略有差异。但对甜菜夜蛾的毒力大大高于对照菌株。     

Functional expression in insect cells of glycosylphosphatidylinositol-linked alkaline phosphatase from Aedes aegypti larval midgut: a Bacillus thuringiensis Cry4Ba toxin receptor

Bacillus thuringiensis produces insecticidal crystal (Cry) proteins which bind to cell surface receptors on the brush border membrane of susceptible midgut larvae. The toxin-receptor interaction generates pores in midgut epithelial cells resulting in cell lysis. Here, a cDNA encoding membrane-bound alkaline phosphatase from Aedes aegypti (Aa-mALP) midgut larvae, based on the sequence identity hit to Bombyx mori membrane-bound ALP, was amplified by RT-PCR and transiently expressed in Spodoptera frugiperda (Sf9) insect cells as a 58-kDa membrane-bound protein via the baculovirus expression system and confirmed by digestion with phosphatidylinositol-specific phospholipase C and LC-MS/MS analysis. Immunolocalization results showed that Cry4Ba is able to bind to only Sf9 cells-expressing Aa-mALP. Moreover, these cells were shown to undergo cell lysis in the presence of 100 ??g/ml trypsin-treated toxin. Finally, trypan blue exclusion assay also demonstrated an increase in cell death in recombinant cells treated with Cry4Ba. Overall results indicated that Aa-mALP protein was responsible for mediating Cry4Ba toxicity against Sf9 cells, suggesting its role as a receptor for Cry4Ba toxin in A. aegypti mosquito larvae.     

Lepidopteran-specific crystal toxins from Bacillus thuringiensis form cation- and anion-selective channels in planar lipid bilayers

Summary Previous studies in our laboratory have shown that CryIC, a lepidopteran-specific toxin from Bacillus thuringiensis, triggers calcium and chloride channel activity in SF-9 cells (Spodoptera frugiperda, fall armyworm). Chloride currents were also observed in SF-9 membrane patches upon addition of CryIC toxin to the cytoplasmic side of the membrane. In the present study the ability of activated CryIC toxin to form channels was investigated in a receptor-free, artificial phospholipid membrane system. We demonstrate that this toxin can partition in planar lipid bilayers and form ion-selective channels with a large range of conductances. These channels display complex activity patterns, often possess subconducting states and are selective to either anions or cations. These properties appeared to be pH dependent. At pH 9.5, cation-selective channels of 100 to 200 pS were most frequently observed. Among the channels recorded at pH 6.0, a 25–35 pS anion-selective channel was often seen at pH 6.0, with permeation and kinetic properties similar to those of the channels previously observed in cultured lepidopteran cells under comparable pH environment and for the same CryIC toxin doses. We conclude that insertion of CryIC toxin in SF-9 cell native membranes and in artificial planar phospholipid bilayers may result from an identical lipid-protein interaction mechanism.The assistance of A. Mazza and G.A.R. Mealing is gratefully acknowledged. The trypsin-activated, HPLC-purified CryIC toxin isolated from B. thuringiensis var. entomocidus crystal was a kind gift from M. Pusztai, Institute for Biological Sciences, NRC, Ottawa.     

Susceptibility of Spodoptera exigua to 9 toxins from Bacillus thuringiensis

Nine of the most common lepidopteran active Cry proteins from Bacillus thuringiensis have been tested for activity against Spodoptera exigua. Because of possible intraspecific variability, three laboratory strains (FRA, HOL, and MUR) have been used. Mortality assays were performed with the three strains. LC₅₀ values for the active toxins were determined to the FRA and the HOL strains, whereas susceptibility of the MUR strain was assessed using only two concentrations. The results showed that Cry1Ca, Cry1Da, and Cry1Fa were the most effective toxins with all strains. Cry1Ab was found effective for the HOL strain, but very little effective against FRA (6.5-fold) and MUR strains. Cry1Aa and Cry1Ac were marginally toxic to all strains, whereas the rest of the toxins tested (Cry1Ba, Cry2Aa, and Cry2Ab) were non toxic. Significant differences in susceptibility among strains were also found for Cry1Da, being the FRA strain 25-fold more susceptible than the HOL strain. Growth inhibition, as an additional susceptibility parameter, was determined in the FRA strain with the 9 toxins. The toxicity profile obtained differed from that observed in mortality assays. Cry1Aa, Cry1Ab, Cry1Ac, Cry1Ca, Cry1Da, and Cry1Fa toxins produced a similar larval growth inhibition. Cry2Aa had a lower but clear effect on larval growth inhibition, whereas Cry1Ba and Cry2Ab did not have any effect.     

Effects of plant chemical extracts and physical characteristics of Apium graveolens and Chenopodium murale on host choice by Spodoptera exigua larvae

Choice tests with whole plants and leaf discs indicated that fourth instar Spodoptera exigua (Hübner) (Noctuidae: Amphypyrini) were found more frequently and ate significantly more of the weed Chenopodium murale than the associated crop plant Apium graveolens. In order to explain the preference, plant extracts, plant volatiles, soluble protein concentrations, water contents, and leaf toughness of the two plants were investigated. Bioassays of aqueous methanol (90%) and hexane extracts of leaves on cellulose discs indicated that neither attractants in C. murale nor repellents in A. graveolens could account for the observed preference. No significant difference could be found between the effects of plant volatiles from C. murale, A. graveolens and a control on larval dispersal by S. exigua. Selective feeding for higher levels of proteins also was not a factor, because A. graveolens had nearly twice the soluble protein of C. murale. Water content was approximately 6% higher (by weight) in C. murale than A. graveolens but most polyphagous larvae do not typically show compensatory feeding for water alone. However, the potentially related characteristic of leaf toughness was significantly different, with A. graveolens exhibiting 1.53 times the toughness of C. murale. Studies comparing five types of larval behavior on both plant species showed that the time spent in swallowing behavior was significantly greater on the tougher A. graveolens leaves relative to C. murale. To test the hypothesis that leaf toughness was affecting larval host choice, both plants were finely ground and incorporated into agar blocks. No differences in feeding behavior were detected. The implications of leaf toughness for larval diet and host choice are discussed.     

Selection of chitinolytic strains of Bacillus thuringiensis

Three selected strains of Bacillus thuringiensis native to Mexico produced endochitinases, chitobiosidases, and N-acetyl--glucosaminidases in a medium containing colloidal chitin as a main carbon source. Two types of chitinases were clearly identified: endochitinases and chitobiosidases. Chromosomal location of a chitinase gene in B. thuringiensis LBIT-82 was resolved.     

Feeding and dispersion of Spodoptera exigua larvae and its relevance for control with a nuclear polyhedrosis virus

On chrysanthemum crops the larvae of the beet armyworm Spodoptera exigua (Hübner) (Lep.: Noctuidae) moved upwards to the top of plants after hatching and predominantly fed on the upper foliage layers. On tomato, however, the larvae did not move upwards and mainly fed on the lower leaves. On chrysanthemums up to the fourth instar most feeding occurred at the underside of foliage while the upper-epidermis remained intact. Larvae dispersing from a single egg batch of 35 eggs damaged about 90 small and 50 tall chrysanthemum plants during their development. The successive larval stages contributed respectively 0.1, 0.4, 4, 20 and 75 percent to the total foliage consumption.The results indicated that the virus preferably should be applied to the lower leaves of tomatoes and chrysanthemums when young instars are present, but to the upper-middle and top leaves of chrysanthemums when the larvae are older than second instars.

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Résumé La consommation et la dispersion des chenilles de Spodoptera exigua sont examinées sur chrysanthèmes et tomates de serre. Les adults déposent les oeufs généralement au feuilles près du sol. Apres l'éclosion les chenilles graduellement se mouvent en haute dans les chrysanthèmes et consomment principalement les feuilles les plus hautes. Dans tomate, cependant, les chenilles s'alimentent principalement au feuilles près du sol.Pendant leur dévelopment les chenilles originaires d'une seule pond de 35 oeufs peuvent endommager environ go petits ou so hautes crysanthè mes. Jusqu'à la quatrième stade larvale les chenilles s'alimentent principalement avec le surface inférieure des feuilles, sans consommer l'épiderme supérieure.Les cinq stades larvales contribuent respectivement 0,1, 0,4, 4, 20 et 75% a la consommation totale des feuilles de chrysanthème.Les resultats des expériments sur la conduite larvale suggestent que les viruses de la polyédrose nucléaire doivent être appliqués préférablement sur la face inférieure des feuilles bas de chrysanthème et de tomate avant que les chenilles se développent a la troisième stade larvale. Quand les larves sur chrysanthèmes sont déja dans le troisième stade larvale, application du virus sur les feuilles plus haute probablement donnait des resultats optimal.

     

Hemolysin II is more characteristic of Bacillus thuringiensis than Bacillus cereus

To investigate the distribution of the hemolysin II determinant among strains of Bacillus cereus and Bacillus thuringiensis, thirteen strains of B. cereus and fourteen strains of B. thuringiensis strains were tested for hybridization of their chromosomal DNAs with a DNA probe containing the B. cereus hemolysin II gene. In addition, the production of hemolysin II, whose activity is not inhibited by cholesterol, was tested. The presence (absence) of the hybridization response in the microorganism's genome correlated with the presence (absence) of cholesterol-unaffected hemolysin production. Only four out of thirteen B. cereus strains were found to give a positive response in hybridization experiments, whereas thirteen out of fourteen B. thuringiensis strains responded positively. DNAs from ten B. thuringiensis strains contained a 3.5 kb EcoRV fragment, which hybridized with the B. cereus hemolysin II gene probe. The 3.5 kb EcoRV DNA fragment from one of these strains (B. thuringiensis VKM-B1555) was cloned and expressed in Escherichia coli cells. The hemolysin encoded by the cloned DNA fragment was not inhibited by cholesterol and possessed all other properties of B. cereus hemolysin II. The obtained data clearly show limited distribution of hemolysin II among B. cereus strains and demonstrate that hemolysin II is more characteristic of B. thuringiensis than B. cereus.     

Host range and gene contents of Bacillus thuringiensis strains toxic towards Spodoptera exigua

Thirty-five strains of the entomopathogenic bacterium Bacillus thuringiensisactive on Spodoptera exigua, were characterized by means of serological identification and determination of crygene contents by PCR. The insecticidal activity of these 35 strains was further confirmed against S. exiguaand tested against two other species of the same genus: S. littoralisand S. frugiperda. The results indicate that serovars aizawai, thuringiensis, and kurstakiwere the most frequent within S. exigua-active strains and that serovar aizawaihad the highest number of strains exhibiting toxicity against the three species bioassayed. The presence in crygenes as determined by PCR suggests a non random distribution of some crygenes among serovars. Genes cry1C, cry1D, and cry1E, which are known to code for proteins toxic against Spodopteraspecies, were very common within S. exigua-active strains, specially in those belonging to serovar aizawai. However, some strains harbouring one or more of these genes were not toxic to S. littoralisor S. frugiperda; and some strains lacking all of the Spodoptera-active genes were found to be toxic to all three species. This suggests differences in the expression levels among strains bearing toxic genes and the involvement of other genes toxic to Spodopteraspecies. Since strains sharing the same crygenes exhibited different host ranges, the results indicate the need to perform toxicity bioassays in addition to other tests (serological identification and PCR) in order to determine the insecticidal activity of B. thuringiensisstrains.