Overproduction of Delta-Endotoxins by Sporeless <Emphasis Type="Italic">Bacillus</Emphasis><Emphasis Type="Italic">thuringiensis</Emphasis> Mutants Obtained by Nitrous Acid Mutagenesis

Asporogenic and oligosporogenic Bacillus thuringiensis mutants having the ability to overproduce insecticidal crystal protein were generated by using nitrous acid (50 mg/ml), as chemical mutagenic agent. Insecticidal crystal proteins produced by asporogenic mutants remained encapsulated within the cells. Delta-endotoxin production by most of mutants was improved compared to the corresponding wild strains BNS3 and a mutant M26. The overproduction by asporogenic and oligosporogenic mutants was attributed to defect in genes involved in sporulation and to random mutations affecting cell metabolism at different pathways and delta-endotoxin synthesis. Sporeless bioinsecticides could be developed based on stable and environmentally safe Bacillus thuringiensis mutants.     

Improvement of Bioinsecticides Production by Sporeless <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Strains in Response to Various Stresses in Low Cost Medium

The use of bioinsecticides, particularly those produced by sporeless Bacillus thuringiensis strains, has been shown to be a good alternative in pest management. Two types of sporeless mutants were distinguished. The asporogenic mutants which completely lack spores produce a regular bipyramidal crystal inclusion. The oligosporogenic mutants kept the ability to produce insecticidal crystal proteins. However, sporulation in such mutants was not totally blocked and very few of them could still produce spores. In order to improve bioinsecticides production, adaptation of sporeless strains to heat shock and osmotic stress was investigated. Delta-endotoxin production by 78% of sporeless mutants was significantly improved by osmotic stress with an overproduction of about 17%, compared to the wild strain BNS3. However, toxin production was improved by only 21% of mutants after heat shock, in low cost medium. The statistical analysis proved that delta-endotoxin production, cell growth, and spore formation of asporogenic and oligosporogenic mutants depended on the type of applied stress. Each strain has an important potential when applying the adequate stress. Moreover, adaptation of sporeless mutants to NaCl may allow the substitution of all minerals of the medium by diluted sea water which appeared to be a good alternative for the economic production of bioinsecticides at industrial scale which is of great importance from the practical point of view.     

Affinity Maturation of Cry1Aa Toxin to the Bombyx mori Cadherin-Like Receptor by Directed Evolution

Improvement of the activity and insecticidal spectrum of cloned Cry toxins of Bacillus thuringiensis should allow for their wider application as biopesticides and a gene source for gene-modified crops. The insecticidal activity of Cry toxins depends on their binding to the receptor. Therefore, as a model, we aimed to generate improved binding affinity mutant toxins against Bombyx mori cadherin-like receptor (BtR175) using methods of directed evolution with the expectation of insecticidal activity improved mutants. Four serial amino acid residues of ⁴³⁹QAAG⁴⁴² or ⁴⁴³AVYT⁴⁴⁶ of Cry1Aa were replaced with random amino acids and were displayed on the T7 phage for library construction. Through five cycles of panning of the phage libraries using BtR175, 11 mutant phage clones were concentrated, and mutant toxin sequences were confirmed. The binding affinities of the three mutants were 42-, 15-, and 13-fold higher than that of the wild type, indicating that mutants with improved binding affinity to cadherin can be easily selected from randomly replaced loop 3 mutant libraries using directed evolution. We discuss the development of a genetic engineering method based on directed evolution to improve the binding affinity of Cry toxin to receptors.     

Evidence of DNA rearrangements in the 128-kilobase pBtoxis plasmid of Bacillus thuringiensis israelensis

BUPM97 is a novel Tunisian isolate of Bacillus thuringiensis israelensis presenting insecticidal activity against Culex pipiens larvae. The δ-endotoxins pattern of this strain was different from that of the reference strain B. thuringiensis israelensis H14. Therefore, the study of its cry genes content was carried out by restriction-fragment-length-polymorphism (RFLP) using specific cry genes probes and by DNA sequencing. It was clearly demonstrated that in the strain BUPM97 the cry4A and cry10A genes were deleted from the B. thuringiensis israelensis 128-kb pBtoxis plasmid. In addition, a strong DNA sequence polymorphism was evidenced in the same plasmid downstream from the cry4B gene. This very particular DNA dynamic evidenced in this new strain of B. thuringiensis israelensis should be taken into consideration, regarding the strain stability during the industrial production of B. thuringiensis bioinsecticides.     

Relationship between plasmid loss and gene expression in Bacillus thuringiensis

The large genome of Bacillus thuringiensis was shortened by provoking plasmid loss, and the effect of such loss on the expression of both chromosomal and plasmid-harboured genes was studied. It was evidenced that the genomic material shortening of B. thuringiensis allows for the improvement of the expression of some of the constructive genes. Indeed, it was shown that curing was an efficient tool to obtain mutant strains with better expression of chromosomal genes. In fact, totally cured strains, HD1Cry-B and BNS3Cry, showed higher chitinolytic and/or proteolytic activities than the corresponding wild and/or partially cured ones. Although total curing is drastic for plasmid-harboured gene expression, the authors obtained partially cured strains, Cur255 and CurHD1, with a doubled level of delta-endotoxin production, and a 1.5-fold improvement of the bacteriocin-specific activity, respectively. In addition, the latter strains showed better relative proteolytic activities.     

Hyper-Production of Insecticidal Crystal Protein (δ-Endotoxin)by Bacillus thuringiensis var. israelensis Is Not Related toSporulation-Specific Biochemical Functions

Hypertoxic mutant strains of Bacillus thuringiensis var. israelensis were isolated by mutagenesis of the parent strain. The correlation, if any, between hyper-production of insecticidal crystal protein (δ-endotoxin) by hypertoxic mutant strains of Bacillus thuringiensis var. israelensis and sporulation-specific biochemical functions was studied. No increase in sporulation-specific biochemical markers was observed in the hypertoxic mutant strains. Asporogenous mutants of hypertoxic mutant strains blocked at different stages of sporulation were isolated, and larvicidal activity was studied. The hypertoxic parent strains and the sporulation-deficient, hypertoxic mutant strains showed almost identical larvicidal activity. Therefore, the increased production of toxin is not related to sporulation-specific biochemical changes. Received: 14 February 2000 / Accepted: 21 March 2000     

<Emphasis Type="Italic">Prays oleae</Emphasis> Midgut Putative Receptor of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Vegetative Insecticidal Protein Vip3LB Differs from that of Cry1Ac Toxin

Vegetative insecticidal protein (Vip) is a class of insecticidal proteins produced by many Bacillus thuringiensis strains during their vegetative growth stage. The vip3LB gene of B. thuringiensis strain BUPM95, which encodes a protein active against the Lepidoptera olive tree pathogenic insect Prays oleae, was cloned into pET-14b vector and overexpressed in Escherichia coli. The expressed Vip3LB protein, found in the E. coli cytoplasmic fraction, was purified and used to produce anti-Vip3LB antibodies. Using the midgut extract of P. oleae, the purified Vip3LB bound to a 65-kDa protein, whereas Cry1Ac toxin bound to a 210-kDa midgut putative receptor. This result justifies the importance of the biological pest control agent Vip3LB that could be used as another alternative particularly in case of resistance to Cry toxins.     

A Cry1Ac Toxin Variant Generated by Directed Evolution has Enhanced Toxicity against Lepidopteran Insects

Cry1Ac insecticidal crystal proteins produced by Bacillus thuringiensis (Bt) have become an important natural biological agent for the control of lepidopteran insects. In this study, a cry1Ac toxin gene from Bacillus thuringiensis 4.0718 was modified by using error-prone PCR, staggered extension process (StEP) shuffling combined with Red/ET homologous recombination to investigate the insecticidal activity of delta-endotoxin Cry1Ac. A Cry1Ac toxin variant (designated as T524N) screened by insect bioassay showed increased insecticidal activity against Spodoptera exigua larvae while its original insecticidal activity against Helicoverpa armigera larvae was still retained. The mutant toxin T524N had one amino acid substitution at position 524 relative to the original Cry1Ac toxin, and it can accumulate within the acrystalliferous strain Cry-B and form more but a little smaller bipyramidal crystals than the original Cry1Ac toxin. Analysis of theoretical molecular models of mutant and original Cry1Ac proteins indicated that the mutation T524N located in the loop linking β16–β17 of domain III in Cry1Ac toxin happens in the fourth conserved block which is an arginine-rich region to form a highly hydrophobic surface involving interaction with receptor molecules. This study showed for the first time that single mutation T524N played an essential role in the insecticidal activity. This finding provides the biological evidence of the structural function of domain III in insecticidal activity of the Cry1Ac toxin, which probably leads to a deep understanding between the interaction of toxic proteins and receptor macromolecules.     

Improvement of Bacillus thuringiensis Bacteriocin Production Through Culture Conditions Optimization

Abstract

BUPM4 is a Bacillus thuringiensis subsp. kurstaki strain, isolated from Tunisian soil, producing an original bacteriocin named Bacthuricin F4. The optimization of the latter production conditions was carried out under several physicochemical conditions. It was found that the highest bacteriocin activity was reached at low aeration while bacteriocin synthesis yields were strongly reduced at higher ones. A balance between growth and bacteriocin synthesis, both highly dependent on aeration, was taken into account for the overproduction of bacteriocin. Both glucose and glycerol were shown to be necessary for Bacthuricin F4 maximal synthesis. In addition, the optimal carbon/nitrogen ratio for bacteriocin production is 9. In such optimal conditions, more than 4-fold greater bacteriocin production was obtained than when using TSB medium.     

Construction of a <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> genetically-engineered strain harbouring the secreted Cry1Ia delta-endotoxin in its crystal

Unlike other Bacillus thuringiensis Cry proteins, Cry1Ia does not form a crystal since it is a secreted delta-endotoxin. We have engineered a Cry1Iac chimeric protein by substituting the C-terminal part of Cry1Ia by the corresponding Cry1Ac part. When expressed in an acrystalliferous B. thuringiensis strain, Cry1Iac did not crystallize, but when expressed in the crystalliferous strain BNS3, the chimeric protein co-crystallized with the endogenous Cry1A delta-endotoxins forming a typical bipyramidal crystal. The integration of Cry1Ia in the composition of the crystal of BNS3 led to an increase of its delta-endotoxin production (13%) and to an improvement (60%) of its toxicity against Agrotis ipsilon.     

Selection and characterization of Bacillus thuringiensis strains toxic against pyralid stored‐product pests

In this study, we present the selection and the characterization of Bacillus thuringiensis strains toxic against pyralid pests of stored products. Among 201 new B. thuringiensis strains isolated from different countries, two strains (BLB249 and BLB384) showed greater toxicity than the commercialized strain B. thuringiensis kurstaki HD1 against Ephestia kuehniella larvae. Morphological, molecular and biochemical investigations revealed that these strains were similar to HD1 but presented different cry gene content. Additional bioassays revealed that only strain BLB249 displayed higher toxicity than HD1 against Plodia interpunctella larvae. The study of Cry protoxin activation by midgut proteases of E. kuehniella and P. interpunctella larvae supported that higher toxicity of BLB249 and BLB384 strains compared to HD1 was not due to differential protoxin activation. Moreover, the toxic strains produced δ‐endotoxins and spores in similar amounts to HD1. Interestingly, the δ‐endotoxin production and the yield of BUPM26 strain were 32.87% and 35.12% greater than that of HD1. The potent insecticidal activities of BLB249 and BLB384 strains and the high level of δ‐endotoxin production by BUPM26 strain make them excellent candidates for use against E. kuehniella and P. interpunctella larvae.     

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.     

Effects of stilbene optical brighteners on the insecticidal activity of Bacillus thuringiensis and a single nucleopolyhedrovirus on Helicoverpa armigera

The incorporation of certain stilbene optical brighteners into virus-based formulations has been demonstrated to increase viral pathogenicity (as indicated by reduced LD/LC₅₀ values) but their effect on Bacillus thuringiensis activity has been scarcely investigated. We determined the effect of nine optical brighteners on the insecticidal activity of B. thuringiensis ser. kurstaki HD-1 strain (Bt HD-1) on Helicoverpa armigera and also compared the effect of two optical brighteners on the insecticidal activity of Bt HD-1 and occlusion bodies (OBs) of a Spanish isolate of H. armigera single nucleocapsid nucleopolyhedrovirus (HearNPV-SP1). Blankophor CLE, Blankophor DRS, Blankophor ER, and Leucophor SAC significantly increased the pathogenicity of Bt HD-1. In contrast, Tinopal UNPA-GX, Tinopal CBS, Blankophor BA, Leucophor AP, and Leucophor UO had an adverse or no effect on its insecticidal activity. Mixtures of HearNPV-SP1 OBs with Tinopal UNPA-GX or Leucophor UO resulted in 31.4- and 11.4-fold increases in pathogenicity, respectively, at 1%, and 11.4- and 6.3-fold increases in pathogenicity, respectively, at 0.1%, compared to the OBs alone. However, none of these brighteners increased Bt HD-1 activity. These results appear consistent with the hypothesis that the enhancement of HearNPV-SP1 pathogenicity and the null or antagonistic effects observed in Bt HD-1 against H. armigera were due to optical brightener-mediated degradation of the peritrophic membrane, but additional systematic studies involving a broad range of brighteners and electron microscope observations are required to confirm this premise.     

Potency factors in the delta-endotoxin of Bacillus thuringiensis var. aizawi and the significance of plasmids in their control

Mutants defective in delta-endotoxin crystal production from four closely related isolates of Bacillus thuringiensis var. aizawi with aizawi serotype crystals were as vigorous as the parents in terms of growth, extracellular protease production, sporulation and heat resistance of spores. Spores produced by mutants germinated faster than wild type spores possibly due to deficiency of protein, in the form of delta-endotoxin in the spore coat. Acrystalliferous (cry—) mutants were not active in Galleria mellonella or Pieris brassicae larvae. Mutants with small crystals (sm cry) lost activity or gained extra activity against either one or the other host, revealing the presence of different toxicity factors. Solubilized crystals of parent isolates were composed of two major polypeptides with Mr values of 130 000 and 138 000. Sm cry mutants lost either polypeptide irrespective of which insect potency had been lost. Some cry — and some sm cry mutants had the same plasmid pattern as the parent; others lost one plasmid sometimes gaining another of different size. No consistent correlation was found between plasmid loss in mutants and any loss or increase of potency indicated by bioassays. It is concluded that the delta-endotoxins of the isolates under investigation are composed of at least two toxins. The results suggest that genes coding for the production of toxic factors or for their expression may be carried on both the plasmids and the chromosome.     

苏云金芽胞杆菌抗癌晶体蛋白的研究进展

抗癌晶体蛋白(parasporins,PS)是由没有杀虫活性的苏云金芽胞杆菌产生的一种晶体蛋白,在经过蛋白酶酶解后产生的活性多肽对来自人类不同组织的癌细胞具有特异性细胞毒性,而对正常细胞具有较低毒性或不具有毒性,是一种具有很大潜力的微生物抗癌蛋白。就最近几年苏云金芽胞杆菌中已发现的抗癌晶体蛋白的种类、结构特征、细胞活性谱和杀虫机制进行简要概述。     

Purification, crystallization and partial characterization of the antitumour and insecticidal protein subunit from the σ-endotoxin of Bacillus thuringiensis var. thuringiensis

The antitumour protein from the α-endotoxin of Bacillus thuringiensis var. thuringiensis has been purified, crystallized and partially characterized. The same protein also shows the insecticidal activity. According to amino acid analysis it is an acidic protein with a molecular weight of approx. 13 000.     

Insecticidal crystal proteins from native <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis>: numerical analysis and biological activity against <Emphasis Type="Italic">Spodoptera frugiperda</Emphasis>

Fourteen strains of Bacillus thuringiensis collected from both larvae showing disease symptoms and soil samples in northwest Argentina were characterized by insecticidal activity against Spodoptera frugiperda. First instar larvae and protein profile SDS-PAGE analysis of whole cell proteins not only allowed the differentiation of native Bacillus thuringiensis but also revealed the possibility of applying protein profile analysis in classification of toxicity patterns. Cluster analysis showed that there were two main groups. Interestingly, one of them only contained the most pathogenic native strains. The biomass-bound protease activity of native pathogenic isolates and the reference strain Bt 4D1 is also reported.     

Expression of <Emphasis Type="Italic">Vitreoscilla</Emphasis> hemoglobin in <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> improve the cell density and insecticidal crystal proteins yield

The Vitreoscilla hemoglobin (VHb) gene (vgb) was integrated into the chromosome of Bacillus thuringiensis BMB171 using integrative vector pEG491. The production of VHb was confirmed by CO-difference spectra analysis. Fermentation experiments results showed that with the production of VHb, the critical oxygen concentration (COC) of the host strain was reduced from 18 to 12%. The maximum viable cell counts of the VHb⁺ strain in high, middle, and low aeration/agitation fermentations were 0.94-, 1.23-, and 1.59-fold of those of the VHb⁻ strain, respectively. Under the same conditions, the yields of insecticidal crystal proteins (ICP) by VHb⁺ strain were 1.22-, 1.63-, and 3.13-fold of those of the VHb⁻ strain. The production of VHb also accelerated the formation of ICP and spores. These results indicated that the production of VHb could improve the cell density and ICP yield of B. thuringiensis, especially under low aeration/agitation condition.     

Improving Toxicity of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Strain Contains the <Emphasis Type="Italic">cry8Ca</Emphasis> Gene Specific to <Emphasis Type="Italic">Anomala corpulenta</Emphasis> Larvae

The cry8C-type gene designated cry8Ca2, which was cloned and sequenced from a Bacillus thuringiensis isolate HBF-1 in China, consisted of an open reading frame of 3483 bp encoding a protein of 1160 amino-acid residues. Sequence analysis showed that the Cry8Ca2 protoxin of 130.5 kDa had 99.9% sequence homology with the previously reported Cry8Ca1 protein, with one mismatch between the two amino-acid sequences. When the Cry8Ca2 toxin was expressed in a crystal-negative strain of B. thuringiensis (HD-73⁻), elliptical crystals were produced. Cell extracts from this recombinant strain showed insecticidal activity against Anomala corpulenta larva. Mutant cry8Ca2 genes, produced by polymerase chain reaction amplification with Taq DNA polymerase, were used to develop recombinant B. thuringiensis strains. Mutants producing higher levels of insecticidal activity were identified by bioassay. Thirty-five mutants forming crystals were characterized, and two of them showed significantly increased insecticidal activity against A. corpulenta larva. The 50% lethality concentrations (LC₅₀) of the two mutants were 0.2334 × 10⁸ and 0.2591 × 10⁸ colony-forming units g⁻¹, considerably lower than the LC₅₀ of the wild-type strain HBF-1 (0.9583 × 10⁸ CFU g⁻¹) and that of B. thuringiensis serovar japonensis strain Buibui (1.0752 × 10⁸ CFU g⁻¹).     

Antitumor Activity of an Alkali Extract of Clostridium saccharoperbutylacetonicum Cells

Bacillus thuringiensis var. israelensis produces 130-kDa proteins which are toxic to mosquito larvae. The ISRH4 gene encoding 1,180 amino acids of the 130-kDa insecticidal protein was fused with lac Z′ on a plasmid, pUC19, and sequentially deleted from the C-terminus to construct a series of deletion mutants. All the deletion mutant genes directed the production of truncated ISRH4 proteins fused with the α-complementing fragment of β-galactosidase in Escherichia coli cells in the presence of isopropyl β-d-thiogalactopyranoside. Analysis of the mosquito larvicidal activity of deletion mutant proteins revealed that the N-terminal 29 amino acids and the C-terminal 485 amino acids could be removed without loss of the activity.