The dual-activity insecticidal protein,Cry2Aa,does not enhance the mosquitocidal activity of Bacillus thuringiensis subsp. israelensis

Cry2Aa, one of the major insecticidal proteins produced by Bacillus thuringiensis subsp. kurstaki HD1, is known to be active against both lepidopteran and dipteran larvae. In order to determine whether Cry2Aa could enhance or synergize the mosquitocidal activity of B. thuringiensis subsp. israelensis, we constructed a plasmid vector that harbored the cry2Aa operon and transformed crystalliferous and acrystalliferous strains of this bacterium. The wild-type B. thuringiensis subsp. israelensis, a recombinant B. thuringiensis subsp. israelensis producing Cry2A along with its native major mosquitocidal proteins, and a recombinant B. thuringiensis subsp. israelensis producing Cry2Aa alone were tested against three major mosquito species — Aedes aegypti, Anopheles gambiae and Culex quinquefasciatus. Our results demonstrated that Cry2Aa does not synergize or enhance the mosquitocidal activity of B. thuringiensis subsp. israelensis against these important vectors of disease.     

Investigation of the cyt gene in Bacillus thuringiensis and the biological activities of Bt isolates from the soil of China

The presence of cyt genes was investigated in 80 type strains of Bacillus thuringiensis and 143 isolates obtained from soil samples of China by PCR amplification using two pairs of primers for the cyt1 and cyt2 genes. Three type strains of serotypes H11ac, H14 and H36, eight isolates belonging to H3, H14, H18 and H21, and one isolate of unknown serotype harbored cyt genes. We also tested the cytolytic activity for mammal cells, the hemolytic activity for sheep erythrocytes and insecticidal activity against mosquitoes of five isolates that contained cyt genes but did not belong to B. thuringiensis serovar israelensis. The protein profiles of the five isolates were different from those of the type strains of B. thuringiensis serovar israelensis, and among the five isolates, only Y-5 showed mosquitocidal activity against larvae of Culex quinquefasciatus. All five of the isolates exhibited hemolytic activity, but only three could cause the cell death of A549 cells. The cytopathological changes induced by NX-4 in some A549 cells were characterized with cell-ballooning.     

Genome Stability of Bacillus thuringiensis subsp. israelensis Isolates

Swedish soil isolates biochemically classified as Bacillus thuringiensis subsp. israelensis were further examined for genetic diversity by multilocus enzyme electrophoresis (MLEE), random amplified polymorphic DNA analysis (RAPD), pulse field gel electrophoresis (PFGE), and Southern blotting, and were compared with reference strains. All the tested strains belonging to the Bt. israelensis serotype H14 were found to be identical, as judged from the RAPD analysis. MLEE analysis gave a similar result; only one H14 strain was found to differ from the remaining H14 strains by one null allele. PFGE analysis confirmed a very close relationship between the H14 strains but revealed an SfiI restriction fragment of variable size. Southern blot analyses were carried out with probes for the chromosomally encoded flagellin gene(s) and the plasmid-encoded mosquitocidal toxins. All probes gave similar hybridization patterns in the H14 strains. The mosquito toxin probes hybridized only to the H14 strains, except for one probe hybridizing to strain 6:3, which was originally isolated from the same soil sample as strains 6:11 and 6:12. Because the RAPD, MLEE, and PFGE analyses showed that strain 6:3 appears to be unrelated to strains 6:11 and 6:12, the presence of a mosquito toxin sequence in strain 6:3 may suggest that gene transfer has occurred. Received: 8 July 1999 / Accepted: 9 August 1999     

Investigation of the cyt gene in Bacillus thuringiensis and the biological activities of Bt isolates from the soil of China

The presence of cyt genes was investigated in 80 type strains of Bacillus thuringiensis and 143 isolates obtained from soil samples of China by PCR amplification using two pairs of primers for the cyt1 and cyt2 genes. Three type strains of serotypes H11ac, H14 and H36, eight isolates belonging to H3, H14, H18 and H21, and one isolate of unknown serotype harbored cyt genes. We also tested the cytolytic activity for mammal cells, the hemolytic activity for sheep erythrocytes and insecticidal activity against mosquitoes of five isolates that contained cyt genes but did not belong to B. thuringiensis serovar israelensis. The protein profiles of the five isolates were different from those of the type strains of B. thuringiensis serovar israelensis, and among the five isolates, only Y-5 showed mosquitocidal activity against larvae of Culex quinquefasciatus. All five of the isolates exhibited hemolytic activity, but only three could cause the cell death of A549 cells. The cytopathological changes induced by NX-4 in some A549 cells were characterized with cell-ballooning.     

Marginal cross-resistance to mosquitocidal Bacillus thuringiensis strains in Cry11A-resistant larvae: presence of Cry11A-like toxins in these strains

Culex quinquefasciatus mosquito larvae resistant to the Cry11A toxin showed marginal cross-resistance to the multiple toxin crystals from B. thuringiensis subsp. israelensis and also to toxin crystals from three other mosquitocidal strains, i.e. B. thuringiensis subsp. fukuokaensis, subsp. jegathesan, and subsp. kyushuensis. Cross-resistance patterns of the Cry11A-resistant larvae to mosquitocidal strains of B. thuringiensis together with the immunological screening using antisera raised against Cry11A indicated the presence of Cry11A-like toxins in these strains and could be used as a screening tool for the identification of novel toxins. The Cry11A-resistant larvae had significantly less resistance to the Cry11B toxin from B. thuringiensis subsp. jegathesan. The occurrence of cytolytic toxins in all of these mosquitocidal strains partially explains the marginal cross-resistance observed with multiple toxin crystals since each of these crystals also contains cytolytic toxins.     

Phenotypic characterization of Bacillus thuringiensis and Bacillus cereus

One hundred and thirty-seven strains of Bacillus thuringiensis and 35 strains of Bacillus cereus were tested for the presence or absence of 99 traits. An analysis of these data indicated that strains of B. thuringiensis were indistinguishable from B. cereus, except for their ability to produce parasporal crystals. This conclusion was based on a comparison of the phenotypic properties of B. thuringiensis and B. cereus, as well as on the results of numerical analyses of the data which grouped strains into clusters on the basis of phenotypic similarity. In the resulting dendrograms, strains of B. thuringiensis and B. cereus were interspersed, exhibiting no tendency to segregate. In addition, with the exception of serovar israelensis, strains on B. thuringiensis belonging to the same flagellar serovar showed little or no tendency to group in different clusters. A comparison of the phenotypic differences between serovars indicated that the greater the number of strains in the serovars, the fewer, if any, phenotypic traits separating them. This suggests that the properties reported to differentiate serovars can be attributed to the internal phenotypic diversity of the species. Characterization of 10 mosquitocidal strains of Bacillus sphaericus indicated that the traits employed in this study readily distinguished these highly related organisms from strains of B. thuringiensis and B. cereus.     

Properties and applied use of the mosquitocidal bacterium,Bacillus sphaericus

Strains of Bacillus sphaericus exhibit varying levels of virulence against mosquito larvae. The most potent strain, B. sphaericus 2362, which is the active ingredient in the commercial product VectoLex^®, together with another well-known larvicide Bacillus thuringiensis subsp. israelensis, is used to control vector and nuisance mosquito larvae in many regions of the world. Although not all strains of B. sphaericus are mosquitocidal, lethal strains produce one or two combinations of three different types of toxins. These are (1) the binary toxin (Bin) composed of two proteins of 42 kDa (BinA) and 51 kDa (BinB), which are synthesized during sporulation and co-crystallize, (2) the soluble mosquitocidal toxins (Mtx1, Mtx2 and Mtx3) produced during vegetative growth, and (3) the two-component crystal toxin (Cry48Aa1/Cry49Aa1). Non-mosquitocidal toxins are also produced by certain strains of B. sphaericus, for example sphaericolysin, a novel insecticidal protein toxic to cockroaches. Larvicides based on B. sphaericus-based have the advantage of longer persistence in treated habitats compared to B. thuringiensis subsp. israelensis. However, resistance is a much greater threat, and has already emerged at significant levels in field populations in China and Thailand treated with B. sphaericus. This likely occurred because toxicity depends principally on Bin rather than various combinations of crystal (Cry) and cytolytic (Cyt) toxins present in B. thuringiensis subsp. israelensis. Here we review both the general characteristics of B. sphaericus, particularly as they relate to larvicidal isolates, and strategies or considerations for engineering more potent strains of this bacterium that contain built-in mechanisms that delay or overcome resistance to Bin in natural mosquito populations.     

Development of low-cost media for the culture of mosquito larvicides, Bacillus sphaericus and Bacillus thuringiensis serovar. israelensis

Mosquito larvicides like Bacillus sphaericus and Bacillus thuringiensis serovar. israelensis have been widely and effectively used in mosquito control programs, but the industrial production of these bacilli is expensive. Here we have attempted to develop three cost-effective media, based on cheap sources, potato, common sugar and bengalgram. Growth and production of the insecticidal proteins from these bacteria were satisfactory. Bioassay studies with different mosquito larvae showed considerable toxicity. Therefore the investigation suggests that potato-based culture media are more economical for the industrial production of B. sphaericus and B. thuringiensis serovar. israelensis.     

Leishmania (Viannia) braziliensis genotypes identified in lesions of patients with atypical or typical manifestations of tegumentary leishmaniasis: Evaluation by two molecular markers

Analyses of MLEE, RAPD and LSSP-PCR were used to compare the panel of american tegumentary leishmaniasis (ATL) isolates obtained from lesions of patients with rare clinical manifestations of the disease and typical lesions. All of the 34 samples analyzed by MLEE demonstrated similar electromorphic profiles with Leishmania (Viannia) braziliensis reference strain. Through the RAPD analysis, nine genetic profiles (genotypes) were identified. LSSP-PCR corroborates the initial screening and phenetic analysis has grouped the isolates into two major clusters comprising the nine different genotypes. Prevalent genotype defined as LbmtDNAgen1 was detected in the largest number of isolates. There was no association between genotypes and clinical symptoms. However, two different genotypes could be identified in the initial (LbmtDNAGen9) and reactivated lesion (LbmtDNAGen3) of the same patient. Our results support the idea of a less pronounced genotypic diversity among L. (V.) braziliensis circulating in the State of Rio de Janeiro and demonstrate the useful application of these molecular markers in genetics variability studies.     

The Bacillus thuringiensis cyt Genes for Hemolytic Endotoxins Constitute a Gene Family

In the same way that cry genes, coding for larvicidal delta endotoxins, constitute a large and diverse gene family, the cyt genes for hemolytic toxins seem to compose another set of highly related genes in Bacillus thuringiensis. Although the occurrence of Cyt hemolytic factors in B. thuringiensis has been typically associated with mosquitocidal strains, we have recently shown that cyt genes are also present in strains with different pathotypes; this is the case for the morrisoni subspecies, which includes strains biologically active against dipteran, lepidopteran, and coleopteran larvae. In addition, while one Cyt type of protein has been described in all of the mosquitocidal strains studied so far, the present study confirms that at least two Cyt toxins coexist in the more toxic antidipteran strains, such as B. thuringiensis subsp. israelensis and subsp. morrisoni PG14, and that this could also be the case for many others. In fact, PCR screening and Western blot analysis of 50 B. thuringiensis strains revealed that cyt2-related genes are present in all strains with known antidipteran activity, as well as in some others with different or unknown host ranges. Partial DNA sequences for several of these genes were determined, and protein sequence alignments revealed a high degree of conservation of the structural domains. These findings point to an important biological role for Cyt toxins in the final in vivo toxic activity of many B. thuringiensis strains.     

Variable Cross-Resistance to Cry11B from Bacillus thuringiensis subsp. jegathesan in Culex quinquefasciatus (Diptera: Culicidae) Resistant to Single or Multiple Toxins of Bacillus thuringienisis subsp. israelensis

A novel mosquitocidal bacterium, Bacillus thuringiensis subsp. jegathesan, and one of its toxins, Cry11B, in a recombinant B. thuringiensis strain were evaluated for cross-resistance with strains of the mosquito Culex quinquefasciatus that are resistant to single and multiple toxins of Bacillus thuringiensis subsp. israelensis. The levels of cross-resistance (resistance ratios [RR]) at concentrations which caused 95% mortality (LC₉₅) between B. thuringiensis subsp. jegathesan and the different B. thuringiensis subsp. israelensis-resistant mosquito strains were low, ranging from 2.3 to 5.1. However, the levels of cross-resistance to Cry11B were much higher and were directly related to the complexity of the B. thuringiensis subsp. israelensis Cry toxin mixtures used to select the resistant mosquito strains. The LC₉₅ RR obtained with the mosquito strains were as follows: 53.1 against Cq4D, which was resistant to Cry11A; 80.7 against Cq4AB, which was resistant to Cry4A plus Cry4B; and 347 against Cq4ABD, which was resistant to Cry4A plus Cry4B plus Cry11A. Combining Cyt1A with Cry11B at a 1:3 ratio had little effect on suppressing Cry11A resistance in Cq4D but resulted in synergism factors of 4.8 and 11.2 against strains Cq4AB and Cq4ABD, respectively; this procedure eliminated cross-resistance in the former mosquito strain and reduced it markedly in the latter strain. The high levels of activity of B. thuringiensis subsp. jegathesan and B. thuringiensis subsp. israelensis, both of which contain a complex mixture of Cry and Cyt proteins, against Cry4- and Cry11-resistant mosquitoes suggest that novel bacterial strains with multiple Cry and Cyt proteins may be useful in managing resistance to bacterial insecticides in mosquito populations.     

Interpreting the SDS-PAGE protein patterns with self-organizing maps: application for the characterization of mosquito-pathogenic Bacillus strains

Aims: To present the pairwise comparison of potential mosquito‐pathogenic Bacillus strains based on their SDS‐PAGE protein patterns and to evaluate their characteristic toxicity patterns. Methods and Results: In this work, 20 Bacillus strains were subjected to qualitative toxicity tests against Aedes aegypti and Culex quinquefasciatus larvae. The selected strains were then characterized by SDS‐PAGE protein profiles. The highly heterogeneous multiple protein components of protein patterns were analysed using self‐organizing map (SOM), a ‘visualization and clustering’ tool. Members of mosquitocidal Bacillus species were classified in four distinct clusters, and then toxicity patterns were examined. Cluster (1, 1) comprised of three highly toxic strains of Bacillus sphaericus: SPH88, 1593 and KSD‐4; cluster (1, 2) consisted of two B. sphaericus strains: SSII‐1 and Bsp‐R that showed weak larvicidal activity; cluster (2, 1) constituted two B. sphaericus strains: WHO2297 and ISPC‐5 that possessed moderate toxicity; and cluster (2, 2) contained four B. thuringiensis ssp. israelensis strains: ONR‐60A, HD500, IPS70 and IPS82 belonging to serotype H14 but exhibited moderate to high mosquito larvicidal toxicity. Conclusions: SOM served as a colour‐coded alternate for easy visualization of similarities or dissimilarities between the strains even at the infra subspecies level. Furthermore, characteristic toxicity patterns of Bacillus strains of different clusters were determined. Significance and Impact of the Study: Analysis of electrophoretic protein patterns using SOM provides a better insight into the inter‐relationships of bacterial strains through similarity‐based clustering and pairwise comparison of two strains.     

Conjugal transfer between Bacillus thuringiensis and Bacillus cereus strains is not directly correlated with growth of recipient strains

Bacillus thuringiensis and Bacillus cereus belong to the B. cereus species group. The two species share substantial chromosomal similarity and differ mostly in their plasmid content. The phylogenetic relationship between these species remains a matter of debate. There is genetic exchange both within and between these species, and current evidence indicates that insects are a particularly suitable environment for the growth of and genetic exchange between these species. We investigated the conjugation efficiency of B. thuringiensis var. kurstaki KT0 (pHT73-Em^R) as a donor and a B. thuringiensis and several B. cereus strains as recipients; we used one-recipient and two-recipient conjugal transfer systems in vitro (broth and filter) and in Bombyx mori larvae, and assessed multiplication following conjugation between Bacillus strains. The B. thuringiensis KT0 strain did not show preference for genetic exchange with the B. thuringiensis recipient strain over that with the B. cereus recipient strains. However, B. thuringiensis strains germinated and multiplied more efficiently than B. cereus strains in insect larvae and only B. thuringiensis maintained complete spore germination for at least 24 h in B. mori larvae. These findings show that there is no positive association between bacterial multiplication efficiency and conjugation ability in infected insects for the used strains.     

Comparative analysis of the virulence of invertebrate and mammalian pathogenic bacteria in the oral insect infection model Galleria mellonella

Infection of Galleria mellonella by feeding a mixture of Bacillus thuringiensis spores or vegetative bacteria in association with the toxin Cry1C results in high levels of larval mortality. Under these conditions the toxin or bacteria have minimal effects on the larva when inoculated separately. In order to evaluate whether G. mellonella can function as an oral infection model for human and entomo-bacterial pathogens, we tested strains of Bacillus cereus, Bacillus anthracis, Enterococcus faecalis, Listeria monocytogenes, Pseudomonas aeruginosa and a Drosophila targeting Pseudomonas entomophila strain. Six B. cereus strains (5 diarrheal, 1 environmental isolate) were first screened in 2nd instar G. mellonella larvae by free ingestion and four of them were analyzed by force-feeding 5th instar larvae. The virulence of these B. cereus strains did not differ from the B. thuringiensis virulent reference strain 407Cry⁻ with the exception of strain D19 (NVH391/98) that showed a lower virulence. Following force-feeding, 5th instar G. mellonella larvae survived infection with B. anthracis, L. monocytogenes, E. faecalis and P. aeruginosa strains in contrast to the P. entomophila strain which led to high mortality even without Cry1C toxin co-ingestion. Thus, specific virulence factors adapted to the insect intestine might exist in B. thuringiensis/B. cereus and P. entomophila. This suggests a co-evolution between host and pathogens and supports the close links between B. thuringiensis and B. cereus and more distant links to their relative B. anthracis.     

Bacillus thuringiensis serovar mogi (flagellar serotype 3a3b3d), a novel serogroup with a mosquitocidal activity

The flagellated vegetative cells of the Bacillus thuringiensis strain K4 were agglutinated with the H3 reference antiserum and further, agglutinated with 3b and 3d monospecific factor sera but non-reactive for 3c and 3e factor sera. This creates a new serogroup with flagellar antigenic structure of 3a3b3d: B. thuringiensis serovar mogi. The strain K4 showed high activity against dipteran larvae, Anopheles sinensis and Culex pipienspallens while no lepidopteran toxicity. It produced ovoidal parasporal inclusions (crystals) whose SDS-PAGE protein profile consisted of several bands ranging from 75 to 30 kDa. Through the protein identification by nano-LC-ESI-IT MS analysis, the putative peptides of Cry19Ba, Cry40ORF2, Cry27Aa and Cry20Aa were detected.     

Application of different downstream processing methods and their comparison for the large-scale preparation of Bacillus thuringiensis var. israelensis after fermentation for mosquito control

Bacillus thuringiensis var. israelensis, a gram positive, spore-forming bacillus, produces parasporal crystal protein during sporulation, which is toxic in the mosquito larvae gut. An efficient downstream processing method for separating the spore crystal complex (SCC) from the fermented broth of B. thuringiensis var. israelensis is required to achieve maximum mosquitocidal activity. The different downstream processing methods, viz., tangential flow ultra-filtration, continuous centrifugation and acid precipitation were compared for their efficiency in separating SCC from broth obtained from a pilot-scale fermentor (100 l capacity). Among the three downstream processing methods, tangential flow ultra-filtration yielded the maximum amount of biomass (53.3 g/l), maximum number of spores (2.30 × 10¹⁸ CFU/ml) and highest level of larvicidal activity (LC₅₀ 28 nl/ml) against Aedes aegypti Bora-Bora strain followed by continuous centrifugation and acid precipitation methods.     

Comparison of the activities of Bacillus thuringiensis mosquitocidal crystal proteins on mosquito cell lines (Diptera,Culicidae), using two colorimetric methods

Two colorimetric methods were compared for assaying the cell toxicity of soluble crystal proteins from five mosquitocidal serovarieties of Bacillus thuringiensis: israelensis, jegathesan, medellin, darmstadiensis and fukuokaensis. In mosquitoes cell lines from Culex quinquefasciatus, Aedes aegypti and Anopheles gambiae, all the crystal proteins were equally toxic. Both colorimetric methods MTT (tetrazolium salt) and Alamar Blue gave similar results, but the Alamar Blue method was simpler, faster, cheaper, and could be used to take readings from the same cell population at various time points. The most active crystal proteins were those of B. thuringiensis israelensis, followed by those of B. thuringiensis jegathesan, and B. thuringiensis medellin, which were much less active.     

Carboxy-terminal extension effects on crystal formation and insecticidal properties of Cry15Aa

Cry15Aa protein, produced by Bacillus thuringiensis serovar thompsoni HD542, in a crystal together with a 40 kDa accompanying protein, is one of a small group of non-typical, less well-studied members of the Cry family of insecticidal proteins, and may provide an alternative for the more commonly used Cry proteins in insect pest management. In this study we examined the role of the C-terminal part of Cry15Aa and of the 40 kDa protein in crystal formation in recombinant B. thuringiensis. The contribution of the 40 kDa protein and of the Cry15Aa carboxy-terminal sequence for crystal formation, crystal solubilization, and insecticidal properties was assessed. No significant differences in toxicity against Cydia pomonella, before or after in vitro solubilization of crystal-spore preparations, were found. Although the 40 kDa protein significantly contributes to in vitro solubility and in vivo crystal formation of Cry15Aa, no direct evidence for involvement of the 40 kDa protein in toxicity of Cry15Aa was found.     

Fingerprinting of Bacillus thuringiensis Type Strains and Isolates by Using Bacillus cereus Group-Specific Repetitive Extragenic Palindromic Sequence-Based PCR Analysis

A total of 119 Bacillus thuringiensis strains (83 type strains and 26 native isolates), as well as five B. cereus group species, were analyzed by repetitive extragenic palindromic sequence-based PCR analysis (Rep-PCR) fingerprinting. Primers Bc-REP-1 and Bc-REP-2 were specifically designed according to an extragenic 26-bp repeated sequence found in the six B. cereus group genomes reported. A total of 47 polymorphic bands were detected, and the patterns varied from 5 to 13 bands in number and from 0.2 to 3.8 kb in size. Virtually each type strain showed a distinctive B. cereus (Bc)-Rep-PCR pattern, except for B. thuringiensis serovars dakota (H serotype 15 [H15]) and sotto (H4a,4b), as well as serovars amagiensis (H29) and seoulensis (H35), which shared the same patterns. As expected, serovar entomocidus (H6) and its biovar subtoxicus showed an identical pattern; similarly, serovars sumiyoshiensis (H3a,3d) and fukuokaensis (H3a,3d,3e), which share two antigenic determinants, also showed identical Bc-Rep-PCR patterns. Interestingly, serovars israelensis (H14) and malaysiensis (H36), which share several phenotypic attributes, also showed identical Bc-Rep-PCR patterns. Native, coleopteran-active strains, including the self-agglutinated LBIT-74 strain, showed Bc-Rep-PCR patterns identical or very similar to that of the tenebrionis strain. Likewise, native mosquitocidal strains (including some self-agglutinated strains) also showed patterns identical or very similar to that of the serovar israelensis IPS-82 strain. Additionally, native β-exotoxin-producing strains from serovar thuringiensis showed patterns identical to that of the B. thuringiensis type strain. The B. cereus group-specific Bc-Rep-PCR fingerprinting technique was shown to be highly discriminative, fast, easy, and able to identify B. thuringiensis serotypes, including nonflagellar and self-agglutinated strains.     

Crystal proteins from Bacillus thuringiensis serovar. medellin

Colombian strains 163-131 and 24-726 of the Bacillus thuringiensis serovar. medellin (Btmed), serotype H-30, are very toxic to mosquito larvae. Strain 24-726 was serologically and biochemically characterized. It is almost identical to the reference-strain 163-131. The parasporal inclusion of Btmed strain 163-131 was analysed by electron microscopy. The crystal protein matrix was very similar to that observed in B. thuringiensis serovar. israelensis (Bti). Aedes aegypti, Anopheles albimanus and Culex quinquefasciatus larvae were exposed to 500× the half-lethal concentration (LC₅₀) of Btmed strains, Bti strain 1884 and B. thuringiensis serovar. morrisoni (Btm) strain PG-14. Mortality of Aedes aegypti occurred within approx. 60 min with the four strains, whereas C. quinquefasciatus mortality was three times slower with Btmed than with strains 1884 and PG14. The onset mortality of Anopheles albimanus starts when other species are already dead. The thermolabilities of the mosquitocidal activities of the crystal proteins were tested by incubation of cultures of 20 min at various temperatures. Btmed lost all mosquitocidal activity at 73°C, and 1884 and PG-14 at 79°C. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis analysis of the crystals purified from strain 163-131 shows polypeptides at 100 kDa, multiple bands at 80, 75, 70, 67, and 65 kDa, and two doubles at 40–41 and 28–30 kDa. Immunodetection with antibodies raised against Bti toxins shows cross-reaction between the 30-kDa and to a lesser extent the 28-kDa polypeptides of Btmed crystals and Cyt A of Bti. A slight response is observed with the 65-kDa Btmed to serum raised against Cry IV D of Bti. Correspondence to: I. Thiéry