Correlation between specific plasmids and δ-endotoxin production in Bacillus thuringiensis

Five strains of Bacillus thuringiensis that produce crystalline δ-endotoxin were used as parental strains in an effort to isolate acrystalliferous (Cry⁻) mutants: HD-2 (B. thuringiensis var. thuringiensis, flagellar serotype 1); HD-1 and HD-73 (both var. kurstaki, serotype 3ab); HD-4 (var. alesti, serotype 3a); and HD-8 (var. galleriae, serotype 5ab). The parental strains contain complex plasmid arrays that have been previously characterized (González and Carlton, 1980). The plasmid patterns of both Cry⁻ and Cry⁺ variants were analyzed and compared to the parental strains using a modified Eckhardt (1978) lysate-electrophoresis method. Most Cry⁻ mutants derived from strain HD-2 were found to exhibit a distinctive colony morphology which facilitated their isolation. Loss of crystal production was associated with loss of a 75-Md plasmid. A 50-Md plasmid of strain HD-73 was lost in the Cry⁻ mutants. Crystal production in strain HD-4 appears to be associated with a plasmid about 105 Md in size; in strain HD-1, a smaller plasmid (29 Md in size) seems to be involved. In strain HD-8, a large plasmid (˜130 Md in size) is implicated in crystal production. Direct bioassay of several of the mutant strains has confirmed the loss of δ-endotoxin activity in the acrystalliferous isolates. The evidence obtained supports the notion of a relationship between specific extrachromosomal DNA elements and δ-endotoxin production in B. thuringiensis, and suggests that in each strain only a single plasmid is involved, although the size of the implicated plasmid varies from one strain to another.     

Biological characterization of two <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strains toxic against <Emphasis Type="Italic">Spodoptera frugiperda</Emphasis>

Two Bacillus thuringiensis strains isolated from diseased Spodoptera frugiperda larvae collected in the northwest of Argentina were molecularly and phenotypically characterized. Insecticidal activity against Spodoptera frugiperda larvae was also determined. Both strains were highly toxic against first instar larvae. One strain (Bacillus thuringiensis LSM) was found to be even more toxic than the reference strain Bacillus thuringiensis var. kurstaki 4D1. This strong biological effect was represented by both a higher mortality which reached 90%, and a shorter LT₅₀. Molecular characterization showed that Bacillus thuringiensis LSM carried a cry gene profile identical to that of Bacillus thuringiensis var. kurstaki 4D1. Evaluation of length polymorphism of the intergenic transcribed spacers between the 16S and 23S rDNA genes revealed an identical pattern between native strains and Bacillus thuringiensis var. kurstaki 4D1. In contrast, phenotypic characterization allowed differentiation among the isolates by means of their extracellular esterase profiles. Lytic activity that would contribute to Bacillus thuringiensis effectiveness was also studied in both strains. Analyses like those presented in the current study are essential to identify the most toxic strains and to allow the exploitation of local biodiversity for its application in biological control programmes.     

Bacillus thuringiensis crystal protein (δ-endotoxin) gene expression is independent of early sporulation specific functions

Bacillus thuringiensis produces a parasporal insecticidal crystal protein. The correlation between sporulation and crystal protein production inBacillus thuringiensis var.israelensis was studied. The strain was made resistant’against streptomycin (St^R)-Acrystalliferous (Cry^-) cured derivatives and asporogenous acrystalliferous (Spo⁻ Cry⁻) mutants blocked at an early stage of sporulation were isolated. Plasmid transfer experiments were performed between St^R Spo⁺ Cry⁺ (streptomycin sensitive sporogeneous crystalliferous) and St^RR Spo⁺ Cry⁻ and also between St^s Spo⁺ Cry⁺ and St^R Spo⁻ Cry⁻ strains. StR colonies were selected. Insect toxicity was exhibited by the St^R isolates in both the cases. The process of crystal formation is, therefore, independent of early sporulative events.     

A gene encoding alanine racemase is involved in spore germination in <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis>

Alanine racemase is a major component of the exosporium of Bacillus cereus spores. A gene homologous to that of alanine racemase (alrA) was cloned from Bacillus thuringiensis subsp. kurstaki, and RT-PCR showed that alrA was transcribed only in the sporulating cells. Disruption of alrA did not affect the growth and sporulation of B. thuringiensis, but promoted l-alanine-induced spore germination. When the spore germination rate was measured by monitoring DPA release, complementation of the alrA disruptant reduced the rate of l-alanine-induced spore germination below that of even wild-type spores. As previously reported for spores of other Bacillus species, d-alanine was an effective and competitive inhibitor of l-alanine-induced germination of B. thuringiensis spores. d-cycloserine alone stimulated inosine-induced germination of B. thuringiensis spores in addition to increasing l-alanine-induced germination by inhibiting alanine racemase. d-Alanine also increased the rate of inosine-induced germination of wild-type spores. However, d-alanine inhibited inosine-induced germination of the alrA disruptant spores. It is possible that AlrA converted d-alanine to l-alanine, and this in turn, stimulated spore germination in B. thuringiensis. These results suggest that alrA plays a crucial role in moderating the germination rate of B. thuringiensis spores.     

Involvement of a transmissible plasmid in heat-stable exotoxin and delta-endotoxin production inBacillus thuringiensis subspeciesdarmstadiensis

A strain ofBacillus thuringiensis subsp.darmstadiensis (serotype 10), which produces heat-stable exotoxin and delta-endotoxin (Exo⁺Cry⁺), was used for curing and conjugation-like transformation experiments. After treatment with sodium dodecyl sulfate, nine independent mutants that lacked exotoxin productivity (Exo^–) were obtained. Agarose gel electrophoresis showed that all Exo^– strains had lost a plasmid, whose size was 62 megadaltons (Mdal). WhenB. thuringiensis was mated with a streptomycin-resistant (Str^r)B. cereus strain, five Exo⁺Str^r transformants that had acquired the 62-Mdal plasmid were isolated. Furthermore, the Cry⁺ phenotype was consistently associated with the Exo⁺ phenotype. These results indicate that a transmissible plasmid is involved in production of both heat-stable exotoxin and delta-endotoxin.     

A potential economical substrate for large-scale production of Bacillus thuringiensis var. kurstaki for caterpillar control

Bacillus thuringiensis var. kurstaki has been widely used in caterpillar control programs. Large-scale production of this bacterium is expensive because of the high cost of the raw materials used in the medium. In this study, we attempted to develop an economical medium, based on inexpensive, locally available raw materials using a 3-L fermenter. Parthenium hysterophorus L. extract based culture medium resulted in highest toxicity (LC₅₀ 14.628 µg mL–¹) against 7-day-old Spodoptera litura (Fab) larvae, spore count (4.1 × 10⁹ spores mL^–1) and biomass (4.9 g L^–1) within a short fermentation time of 36 h. It was 512 times cheaper than the nutrient broth (standard medium) used for B. thuringiensis production. Hence, this parthenium extract based culture medium was considered most economical with potential for the large-scale industrial production of B. thuringiensis.     

Un nouveau candidat a la lutte biologique contre les moustiques:Bacillus thuringiensis var.Israelensis

Résumé Le nouveau sérotype H₁₄ individualisé dans le groupe desBacillus thuringiensis Berliner, sous le nom de variétéisraelensis est un pathogène puissant et essentiel des larves de moustiques. Son pouvoir larvicide n'a aucun équivalent chez les autres sérotypes connus deB. thuringiensis et appara?t très compétitif avec celui deB. sphaericus. A dose forte,B. thuringiensis var.israelensis tue les larves d'Aedes aegypti L. en 20 à 30 mn et celles d'Anopheles stephensi (Liston), en 100 à 110 mn, les DL 50 en 24 h étant de l'ordre de 2,4.10⁴ spores/ml pourAedes et de 9,8.10⁴ spores/ml pourAnopheles. La toxicité deB. thuringiensis var.israelensis pour les larves de moustiques est liée à une endotoxine protéique présente dans les cristaux, de nature et de mode d'action comparables à ceux des endotoxines des autres souches deB. thuringiensis pathogènes pour les lépidoptères. L'étude histopathologique surAedes aegypti montre que l'effet primaire correspond à une désintégration de l'épithélium intestinal par gonflement, distorsion puis éclatement des cellules. L'absence d'action deB. thuringiensis var.israelensis sur les lépidoptères étudiés:Anagasta kuehniella, Z.,Plutella maculipennis Curtis etProdenia litura F., ainsi que son innocuité ?per os? pour les mammifères tendent à prouver une certaine spécificité pour les diptères. Toutes ces qualités, jointes à la parfaite connaissance du groupethuringiensis découlant de sa longue utilisation en forêts et en cultures, devraient faire de la variétéisraelensis un candidat préférentiel pour la lutte biologique contre les moustiques.

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Summary The new serotype 14 which has been discovered in theBacillus thuringiensis Berliner group and named varietyisraelensis is a major pathogen for mosquito larvae. Its larvicidal power has been found without any equivalence in comparison with the other knownB. thuringiensis serotypes, and very competitive with the larvicidal activity ofBacillus sphaericus. At high doses,B. thuringiensis var.israelensis kills theAedes aegypti L. larvae in 20 to 30 mn, and theAnopheles stephensi (Liston) larvae in 100 to 110 mn. The DL₅₀ in 24 h are about 2,4.10⁴ spores/ml forA. aegypti and 9,8.10⁴ spores/ml forA. stephensi. The toxicity ofB. thuringiensis var.israelensis for mosquito larvae is linked with a proteic endotoxin in its crystals, the nature and mode of action of which look like these ones of the otherB. thuringiensis strains, pathogens for lepidoptera larvae. The histopathological study onA. aegypti has shown that the primary action consists in the loss of integrity of the gut epithelium, as a result of the swelling, distortion and finally bursting of the cells. The lack of activity ofB. thuringiensis var.israelensis on the tested Lepidoptera:Anagasta kuehniella Z.,Plutella maculipennis Curtis andProdenia litura F. and its innocuity “per os” for mammals lead to suggest some specificity for Diptera. All these qualities, which are enhanced by the detailed knowledge ofB. thuringiensis group coming from its long practical use on large scale in forests and cultures, ought to put theisraelensis variety as a preferential candidate for the biological control of mosquitoes.

     

Toxic effects of spore/crystal ratios of Bacillus thuringiensis on European corn borer larvae

Bioassays to determine LC₅₀ values of spores and crystals of four varieties of Bacillus thuringiensis grown on nutrient agar plates were carried out against neonate and 6-day-old European corn borer, Ostrinia nubilalis, larvae. The four bacterial varieties were equally toxic against the neonates, but only B. thuringiensis var. kenyae, var. galleriae, and var. kurstaki were toxic to 6-day-old larvae. B. thuringiensis var. tolworthi was inactive against 6-day-old larvae. Different ratios of pure spores and crystals of the bacteria also were tested against neonate and 6-day-old larvae. Pure spores are not pathogenic to neonates or 6-day-old larvae. Pure crystals were toxic to both ages of the larvae, but a combination of spores and crystals was necessary for maximum larval mortality.     

Dual Insecticidal Activity of Spodoptera-Toxic Bacillus thuringiensis Strain Transformed with Lepidopteran-Specific Cry Toxin

The E. coli-B. thuringiensis shuttle vector for expression of cry1Ac, pHT1K-1Ac plasmid was introduced into acrystalliferous B. thuringiensis Cry⁻B and Spodoptera toxic STB-3 strain. The presence of a recombinant plasmid in transformants after electroporation was confirmed by PCR. The 1K-1Ac/Cry⁻B(Cry⁻B transformant) and 1K-1Ac/STB-3 (STB-3 transformant) produced bipyramidal-shaped parasporal inclusion that was 130 kDa in size as like B. thuringiensis subsp. kurstaki HD-73. In P. xylostella bioassay, these transformants showed significantly high toxicity than the wild-type recipients and further, in case of B. thuringiensis STB-3 transformant still had original Spodoptera toxicity. These results suggested that the pHT1K could be successfully applied for generating individual B. thuringiensis strains that produce various combinations of insecticidal proteins to expand their host spectrum and enhance insecticidal activity.     

Efficient constitutive expression of chitinase in the mother cell of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> and its potential to enhance the toxicity of Cry1Ac protoxin

Previous studies revealed that chitinase could enhance the insecticidal activity of Bacillus thuringiensis and it has been used in combination with B. thuringiensis widely. However, the expression of B. thuringiensis chitinase is rather low and needs induction by chitin, which limits its field application. It would make sense to constitutively express the chitinase at a sufficiently high level to offer advantages in biological control of pests. In this study, a signal peptide-encoding sequence-deleted chitinase gene from B. thuringiensis strain 4.0718 under the control of dual overlapping promoters plus Shine–Dalgarno sequence and terminator sequence of cry1Ac3 gene was cloned into shuttle vector pHT315 and introduced into an acrystalliferous B. thuringiensis strain Cry⁻B. The recombinant plasmid was stably maintained over 240 generations in Cry⁻B. Chitinase was overexpressed within the sporangial mother cells in the form of spherical crystal-like inclusion bodies. The chitinase inclusions could be solubilized and exhibit chitinolytic activity in 30 mmol l⁻¹ Na₂CO₃–0.2% β-mercaptoethanol buffer at a wide range of alkaline pH values, and what’s more, the chitinase inclusions potentiated the insecticidal effect of Cry1Ac protoxin when used against larvae of Spodoptera exigua and Helicoverpa armigera.     

Formation of spontaneous asporogenic variants of Bacillus thuringiensis subsp. galleriae in continuous cultures

Bacillus thuringiensis subsp. galleriae forms spontaneous asporogenic, crystalliferous variants (Spo^–Cry⁺) especially under continuous culture conditions. These variants gradually replace the wild-type strain (Spo⁺Cry⁺) entirely in the culture. Spo^–Cry⁺ variants form amorphous insecticidal crystalline inclusion bodies, that are difficult to solubilize and less toxic to the caterpillars of Bombyx mori. However, the defective inclusion bodies and their trypsin-digested peptides exhibited similar antigenic profiles to that of native crystals in Western blot analysis. Apparently a block in the formation of spores does not affect the synthesis of the constitutive peptides of the crystals but may interfere with the proper assembly of the crystalline endotoxin. Correspondence to: K. Jayaraman     

Recoverability of heat-injured Bacillus spores by lysozyme and EDTA or alkaline thioglycollate

The D_95°C value of Bacillus thuringiensis spores plated in the presence of lysozyme increased from 3.0 min to 3.6 min by post-treatment of heat-injured spores with 50mm EDTA. In the case of Bacillus alvei and Bacillus polymyxa spores D-values decreased from 4.9 to 4.3 min and from 4.7 to 4.1 min respectively. Post-treatment of heat-injured spores treated with alkaline thioglycollate increased D_95°C values of Bacillus alvei from 4.2 to 5.3 min, B. thuringiensis 3.6 to 4.7 min, and Bacillus polymyxa from 4.2 to 5.0 min when spores were plated in the presence of lysozyme. Electron micrographs of heat-injured B. alvei spores treated with sodium thioglycollate indicated that the coat layers of the treated spores were granulated and less intact than the control spores.     

Assessment of protoxin composition of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strains by use of polyacrylamide gel block and mass spectrometry

Assessment of protoxin composition in Bacillus thuringiensis parasporal crystals is principally hampered by the fact that protoxins in a single strain usually possess high sequence homology. Therefore, new strategies towards the identification of protoxins have been developed. Here, we established a powerful method through embedding solubilized protoxins in a polyacrylamide gel block coupled to liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis of in-gel-generated peptides for protoxin identification. Our model study revealed that four protoxins (Cry1Aa, Cry1Ab, Cry1Ac and Cry2Aa) and six protoxins (Cry4Aa, Cry4Ba, Cry10Aa, Cry11Aa, Cyt1Aa, and Cyt2Ba) could be rapidly identified from B. thuringiensis subsp. kurstaki HD1 and subsp. israelensis 4Q2-72, respectively. The experimental results indicated that our method is a straightforward tool for analyzing protoxin expression profile in B. thuringiensis strains. Given its technical simplicity and sensitivity, our method might facilitate the present screening program for B. thuringiensis strains with new insecticidal properties. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users. Zujiao Fu and Yunjun Sun contributed equally to this work.     

DNA homology between the crystal toxin genes of several mosquito pathogenicBacillus thuringiensis strains

With the recombinant pVB131 plasmid, which encodes the mosquitocidal 130 kilodalton peptide ofBacillus thuringiensis var.israelensis as a probe, DNA homology between crystal toxin genes of several dipteran-toxic strains was tested. Results from this study indicate that, while the crystal toxin genes ofB. thuringiensis var.kyushuensis and var.morrisoni isolate PG-14 share homology to the crystal toxin gene of var.israelensis, the -endotoxin genes of other dipteran-active strains tested (i.e., var.colmeri and var.kurstaki) do not exhibit any homology. The crystal toxin genes of vars.kyushuensis andmorrisoni isolate PG-14 were found to be located on plasmids of 60 and 94 megadaltons, respectively.     

Carbon:nitrogen ratio interacts with initial concentration of total solids on insecticidal crystal protein and spore production in Bacillus thuringiensis HD-73

A response-surface methodology was used to study the effect of carbon:nitrogen ratio (C:N) and initial concentration of total solids (C _TS) on insecticidal crystal protein production and final spore count. Bacillus thuringiensis var. kurstaki HD-73 was grown in a stirred-tank reactor using soybean meal, glucose, yeast extract, corn steep solids and mineral salts. Soybean meal and glucose were added according to a central composite experimental design to test C:N ratios ranging from 3:1 to 11:1 and C _TS levels from 60␣g/l to 150 g/l. Cry production was quantified using sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The response-surface model, adjusted to the data, indicated that media with a C:N of 7:1 yielded the highest relative Cry production at each C _TS. The spore count was higher at low C:N ratio (4:1) and high C _TS (near 150 g/l). Specific Cry production varied from 0.6 to 2.2 g Cry/10¹⁰ spores. A 2.5-fold increase in C _TS resulted in a six-fold increase of protoxin production at a 7:1 C:N ratio. It is concluded that the best production conditions for Cry and for spores are different and optimization of B. thuringiensis processes should not be done on a spore-count basis but on the amount of Cry synthesized. Received: 5 September 1997 / Received revision: 22 December 1997 / Accepted: 2 January 1998     

Quantifying the reproduction of Bacillus thuringiensis HD1 in cadavers and live larvae of Plutella xylostella

The Bacillus cereus group comprises a range of micro-organisms with diverse habits, including gut commensals, opportunistic pathogens and soil saprophytes. Using quantitative microbiological methods we tested whether Bacillus thuringiensis (Bt) could reproduce in cadavers of Plutella xylostella killed by Bt, or in the gut of live insects, or be transmitted vertically from females to their offspring. We also tested whether diverse Bt strains could grow in high nutrient broth at a pH similar to that in the larval midgut. Low levels of reproduction were found in insect cadavers but there was no evidence of vertical transmission, or of significant reproduction in live insects. Four strains of B. thuringiensis var. kurstaki and one of B. thuringiensis var. tenebrionis were found to be capable of growth at high pH. Greater spore recovery rates in frass were found in hosts that were resistant or tolerant of infection. We concluded that that spores recovered in frass represent, in general, an ungerminated fraction of ingested inoculum and that germination rates are reduced in unsuitable hosts.     

Synergism between Bacillus thuringiensis Spores and Toxins against Resistant and Susceptible Diamondback Moths (Plutella xylostella)

We studied the effects of combinations of Bacillus thuringiensis spores and toxins on the mortality of diamondback moth (Plutella xylostella) larvae in leaf residue bioassays. Spores of B. thuringiensis subsp. kurstaki increased the toxicity of crystals of B. thuringiensis subsp. kurstaki to both resistant and susceptible larvae. For B. thuringiensis subsp. kurstaki, resistance ratios were 1,200 for a spore-crystal mixture and 56,000 for crystals without spores. Treatment of a spore-crystal formulation of B. thuringiensis subsp. kurstaki with the antibiotic streptomycin to inhibit spore germination reduced toxicity to resistant larvae but not to susceptible larvae. In contrast, analogous experiments with B. thuringiensis subsp. aizawai revealed no significant effects of adding spores to crystals or of treating a spore-crystal formulation with streptomycin. Synergism occurred between Cry2A and B. thuringiensis subsp. kurstaki spores against susceptible larvae and between Cry1C and B. thuringiensis subsp. aizawai spores against resistant and susceptible larvae. The results show that B. thuringiensis toxins combined with spores can be toxic even though the toxins and spores have little or no independent toxicity. Results reported here and previously suggest that, for diamondback moth larvae, the extent of synergism between spores and toxins of B. thuringiensis depends on the strain of insect, the type of spore, the set of toxins, the presence of other materials such as formulation ingredients, and the concentrations of spores and toxins.     

Evidence for plasmid-associated crystal toxin production in Bacillus thuringiensis subsp. israelensis

Three crystalliferous (Cry⁺) strains of Bacillus thuringiensis subsp. israelensis (serotype 14) that produce parasporal protein crystals toxic to dipteran larvae and several acrystalliferous (Cry^?) mutants, either induced or spontaneously derived from a single Cry⁺ parent, were examined for the presence of covalently closed circular (CCC) DNA in attempts to correlate toxin production with the presence of a specific plasmid. The plasmid profiles of both Cry⁺ and Cry^? variants were analyzed by both a cleared lysate- and a modified Eckhardt lysateelectrophoresis technique. All of the Cry^? mutants derived from the Cry⁺ parental strain had lost a 4.0- to 4.4-megadalton (Mdal) plasmid. Bioassay data confirmed loss of toxin production by the Cry^? variants. All three Cry⁺ strains, including the parent of the Cry^? strains, contained CCC plasmids DNAs of the following approximate molecular weights: 4.0 to 4.4, 5.2 to 6.0, and 11.4 to 13.0 Mdal. One Cry⁺ strain contained an additional CCC plasmid of 6.7 to 7.2 Mdal. The plasmid patterns for several Cry^? derivatives differed in other respects from the pattern for their parent strain. The various Cry⁺ and Cry^? strains could be distinguished either by phenotypical differences in antibiotic sensitivity, crystal production, and toxicity, or by differences in their plasmid profiles.     

Contribution of Bacillus thuringiensis Spores to Toxicity of Purified Cry Proteins Towards Indianmeal Moth Larvae

The influence of Bacillus thuringiensis subsp. kurstaki HD-1 spores upon the toxicity of purified Cry1Ab and Cry1C crystal proteins toward susceptible and BT-resistant Indianmeal moth (IMM, Plodia interpunctella) larvae was investigated. With susceptible larvae, HD-1 spores were toxic in the absence of crystal protein and highly synergistic (approximately 35- to 50-fold) with either Cry1Ab or Cry1C protein. With BT-resistant IMM larvae, HD-1 spores were synergistic with Cry1Ab and Cry1C protein in all three resistant strains examined. Synergism was highest (approximately 25- to 44-fold) in insects with primary resistance toward Cry1C (IMM larvae with resistance to B. thuringiensis subsp. aizawai or entomocidus). However, HD-1 spores also synergized either Cry1Ab or Cry1C toxicity toward larvae resistant to B. thuringiensis subsp. kurstaki at a lower level (approximately five- to sixfold). With susceptible larvae, the presence of spores reduced the time of death when combined with each of the purified Cry proteins. Without spores, the speed of intoxication and eventual death for larvae treated with Cry1C and Cry1Ab proteins was much slower than for the HD-1 preparation containing both spores and crystals together. Neither spores nor toxin dose affected the mean time of death of resistant larvae treated with either Cry1Ab or Cry1C toxins. Both Cry1Ab and Cry1C toxins appeared to reduce feeding and consequently toxin consumption. Received: 1 December 1995 / Accepted: 3 January 1996