Expression of a recombinant Cry1Ac crystal protein fused with a green fluorescent protein in Bacillus thuringiensis subsp. kurstaki Cry-B

To investigate the co-expression and crystallization of a fusion gene between the Bacillus thuringiensis crystal protein and a foreign protein in B. thuringiensis, the expression of the Cry1Ac fused with green fluorescent protein (GFP) genes in a B. thuringiensis Cry(-)B strain was examined. The cry1Ac gene was cloned in the B. thuringiensis-E. coli shuttle vector, pHT3101, under the control of the native cry1Ac gene promoter, while the GFP gene was inserted into the XhoI site upstream of the proteolytic cleavage site, in the middle region of the cry1Ac gene (pProAc-GFP). The B. thuringiensis Cry(-)B strain carrying pProAc-GFP (ProAc-GFP/CB) did not produce any inclusion bodies. However, the transformed strain expressed fusion protein forms although the expression level was relatively low. Furthermore, an immunoblot analysis using GFP and Cry1Ac antibodies showed that the fusion protein was not a single species, but rather multiple forms. In addition, the N-terminal fragment of Cry1Ac and a non-fused GFP were also found in the B. thuringiensis Cry(-)B strain after autolysis. The sporulated cells before autolysis and the spore-crystal mixture after autolysis of ProAc-GFP/CB exhibited insecticidal activities against Plutella xylostella larvae. Accordingly, the current results suggest that a fusion crystal protein produced by the transfomant, ProAc-GFP/CB, can be functionally expressed but easily degraded in B. thuringiensis.     

苏云金芽胞杆菌cry1Ac与烟草几丁质酶tchiB双价基因克隆表达及其杀虫增效作用研究

将苏云金芽胞杆菌(Bacillus thuringiensis,Bt)4.0718菌株质粒上的cry1Ac基因和烟草几丁质酶tchiB基因 (去掉信号肽或去信号肽再加肠激酶位点)构建了重组基因。经过双酶切和亚克隆,将带有cry1Ac基因上游启动序列和下游终止序列的重组基因片段克隆至穿梭载体pHT315,分别构建重组质粒pHUAccB6、pHUAccB7,在大肠杆菌中扩增后,将两个重组质粒分别电转化苏云金芽胞杆菌无晶体突变株XBU001中,获得重组菌株HAccB6和HAccB7。经液体双相胞晶分离提取离心后,将晶体和上清液分别进行SDS-PAGE分析,双价基因重组与cry1Ac基因在无晶体突变株中表达量相比较,几丁质酶活性提高5.2倍,双价重组蛋白表达量显著提高,主要产生130kDa蛋白条带。经定量分析：双价重组目的晶体蛋白占总蛋白量的61.38%;Cry1Ac蛋白占总蛋白量的42%。发酵上清液经60％硫酸铵沉淀,显示出一条分子量为18kDa新蛋白条带。经原子力显微镜和电子显微镜观察,表达后的重组蛋白呈菱形或椭原形晶体,其规格约为1.5×3.0μm;经生测分析,重组菌株HAccB6和 HAccB7毒力相近,与HAc菌株比较毒力提高4.5倍,对棉铃虫（Helicourpa armigora）具有高效杀虫活性,其3d LC₅₀值分别为9.1μg/mL和11.34μg/mL。研究结果表明,烟草几丁质酶与cry1Ac双价基因重组表达产物具有杀虫增效作用。     

Effects of the 20-kilodalton helper protein on Cry1Ac production and spore formation in Bacillus thuringiensis.

Bacillus thuringiensis produces large amounts of various pesticidal proteins during the stationary phase. In order to achieve a high yield and form crystals, some pesticidal proteins require the presence of other proteins. Helper protein P20 is required for efficient production of both the Cyt1A and Cry11A crystal proteins in B. thuringiensis subsp. israelensis. Although full-length Cry1 protoxins are usually independent in terms of expression and crystallization in B. thuringiensis, in this study P20 significantly enhanced production of Cry1Ac protoxin (133 kDa) in an acrystalliferous and plasmid-negative strain. In the presence of P20, the yield of Cry1Ac protoxin increased 2.5-fold, and on average the resulting crystals were 1.85 microm long and 0.85 microm wide, three times the size of the crystals formed in the control lacking P20. Correspondingly, the recombinant strain that coexpressed P20 and Cry1Ac exhibited higher toxicity against Heliothis armigera larvae than the control. Furthermore, serious degradation of Cry1Ac in vivo was observed, which has seldom been reported previously. Actually, most protein was completely degraded during synthesis, and after synthesis about one-third of the expressed protoxins were degraded further before crystallization. In this process, P20 protected only nascent Cry1Ac from degradation, indicating that it acted as a molecular chaperon. In addition, spores were smaller and rounder and had a thinner exosporium layer when they were produced in the presence of P20. In summary, Cry1Ac was severely degraded during synthesis; this degradation was effectively relieved by P20, which resulted in enhanced production. Our results indicated that P20 is an effective tool for optimizing protein production in vivo.     

Unique regulation of crystal protein production in Bacillus thuringiensis subsp. yunnanensis is mediated by the cry protein-encoding 103-megadalton plasmid.

In sporulating cultures of Bacillus thuringiensis subsp. yunnanensis HD977, two cell types are observed: cells forming only spores and cells forming only crystals. Curing analysis suggested that the crystal proteins are plasmid encoded. Through plasmid transfer experiments, it was established that a 103-MDa plasmid is involved in the crystal production. Conjugal transfer of this plasmid to Cry- recipient cells of Bacillus thuringiensis subsp. kurstaki HD73-26 conferred the ability to produce crystals exclusively on asporogenous cells of the recipient, indicating that the 103-MDa plasmid mediates the unique regulation of Cry protein production. When the dipteran-specific cryIVB gene was introduced into wild-type (Cry+) and Cry- backgrounds of B. thuringiensis subsp. yunnanensis by phage CP51ts45-mediated transduction, similar to all other B. thuringiensis strains, irregular crystals of CryIVB protein were produced by spore-forming cells in both backgrounds. However, the synthesis of the bipyramidal inclusions of B. thuringiensis subsp. yunnanensis was still limited only to asporogenous cells of the transductant. Thus, it appears that the unique property of exclusive crystal formation in asporogenous cells of B. thuringiensis subsp. yunnanensis is associated with the crystal protein gene(s) per se or its cis acting elements. As the crystals in B. thuringiensis subsp. yunnanensis were formed only in asporogenous cells, attempts were made to find out whether crystal formation had any inhibitory effect on sporulation. It was observed that both Cry+ and Cry- strains of B. thuringiensis subsp. yunnanensis (HD977 and HD977-1, respectively) exhibited comparable sporulation efficiencies. In addition, the Cry- B. thuringiensis subsp. kurstaki host (HD73-26) and its Cry+ transconjugant (HD73-26-16), expressing the B. thuringiensis subsp. yunnanensis crystal protein, were also comparable in their sporulation efficiencies, indicating that production of the crystal proteins of B. thuringiensis subsp. yunnanensis does not affect the process of sporulation.     

苏云金芽孢杆菌工程菌伴孢晶体的形态发生

苏云金芽孢杆菌在有帮助蛋白存在的情况下杀虫晶体蛋白获得了超量表达。通过透射电镜观察了Cry1Ac超量表达工程菌伴孢晶体的形态发生以及不同芽孢发育时期的晶体形态变化。结果表明,该工程菌的伴孢晶体在细胞不对称分裂的隔膜形成前就已出现,而且晶体发生的部位与芽孢无关。但晶体在形成初期往往靠近母细胞膜。观察结果还表明,大量表达的晶体蛋白不能马上参与到晶体合成,晶体形成的最佳时期是芽孢皮层形成期。母细胞大量液泡的产生与消失可能与晶体形成有关。此外,在超量表达工程菌中,Cry1Ac蛋白能在一个细胞内形成多个伴孢晶体,这在天然菌株中是罕见的。     

Towards novel Cry toxins with enhanced toxicity/broader: a new chimeric Cry4Ba / Cry1Ac toxin

Attempts have been made to express or to merge different Cry proteins in order to enhance toxic effects against various insects. Cry1A proteins of Bacillus thuringiensis form a typical bipyramidal parasporal crystal and their protoxins contain a highly conserved C-terminal region. A chimerical gene, called cry(4Ba-1Ac), formed by a fusion of the N-terminus part of cry4Ba and the C-terminus part of cry1Ac, was constructed. Its transformation to an acrystalliferous B. thuringiensis strain showed that it was expressed as a chimerical protein of 116 kDa, assembled in spherical to amorphous parasporal crystals. The chimerical gene cry(4Ba-1Ac) was introduced in a B. thuringiensis kurstaki strain. In the generated crystals of the recombinant strain, the presence of Cry(4Ba-1Ac) was evidenced by MALDI-TOF. The recombinant strain showed an important increase of the toxicity against Culex pipiens larvae (LC₅₀ = 0.84 mg l^?1 ± 0.08) compared to the wild type strain through the synergistic activity of Cry2Aa with Cry(4Ba-1Ac). The enhancement of toxicity of B. thuringiensis kurstaki expressing Cry(4Ba-1Ac) compared to that expressing the native toxin Cry4Ba, might be related to its a typical crystallization properties. The developed fusion protein could serve as a potent toxin against different pests of mosquitoes and major crop plants.     

Cloning and expression of a novel toxin gene from Bacillus thuringiensis subsp. jegathesan encoding a highly mosquitocidal protein.

A gene, designated cry11B, encoding a 81,293-Da crystal protein of Bacillus thuringiensis subsp. jegathesan was cloned by using a gene-specific oligonucleotide probe. The sequence of the Cry11B protein, as deduced from the sequence of the cry11B gene, contains large regions of similarity with the Cry11A toxin (previously CryIVD) from B. thuringiensis subsp. israelensis. The Cry11B protein was immunologically related to both Cry11A and Cry4A proteins. The cry11B gene was expressed in a nontoxic strain of B. thuringiensis, in which Cry11B was produced in large amounts during sporulation and accumulated as inclusions. Purified Cry11B inclusions were highly toxic for mosquito larvae of the species Aedes aegypti, Culex pipiens, and Anopheles stephensi. The activity of Cry11B toxin was higher than that of Cry11A and similar to that of the native crystals from B. thuringiensis subsp. jegathesan, which contain at least seven polypeptides.     

Expression and characterization of a recombinant Cry1Ac crystal protein fused with an insect-specific neurotoxin ω-ACTX-Hv1a in Bacillus thuringiensis

In order to assess possible enhancement of biopesticide activity, the fusion gene of crystal protein gene cry1Ac with the insect-specific neurotoxin ω-ACTX-Hv1a gene and egfp was expressed in Bacillus thuringiensis acrystalliferous strain Cry-B under the control of the native gene expression system. The fusion recombinant Cry-B(1Ac-ACTX-EGFP) generally produced two or three small crystal-like inclusion bodies in each cell and the GFP signal could be clearly observed. A 166 kDa full-length fusion protein was identified by immunoblot analysis. Virulence of the fusion inclusions was at least fivefold higher toward larvae of Spodoptera exigua. These results demonstrated that a foreign protein could be expressed and accumulate as parasporal inclusions in B. thuringiensis by C-terminal fusion with the native endotoxin while retaining partial insecticidal activity.     

The 60-kilodalton protein encoded by orf2 in the cry19A operon of Bacillus thuringiensis subsp. jegathesan functions like a C-terminal crystallization domain

The cry19A operon of Bacillus thuringiensis subsp. jegathesan encodes two proteins, mosquitocidal Cry19A (ORF1; 75 kDa) and an ORF2 (60 kDa) of unknown function. Expression of the cry19A operon in an acrystalliferous strain of B. thuringiensis (4Q7) yielded one small crystal per cell, whereas no crystals were produced when cry19A or orf2 was expressed alone. To determine the function of the ORF2 protein, different combinations of Cry19A, ORF2, and the N- or C-terminal half of Cry1C were synthesized in strain 4Q7. Stable crystalline inclusions of these fusion proteins similar in shape to those in the strain harboring the wild-type operon were observed in sporulating cells. Comparative analysis showed that ORF2 shares considerable amino acid sequence identity with the C-terminal region of large Cry proteins. Together, these results suggest that ORF2 assists in synthesis and crystallization of Cry19A by functioning like the C-terminal domain characteristic of Cry protein in the 130-kDa mass range. In addition, to determine whether overexpression of the cry19A operon stabilized its shape and increased Cry19A yield, it was expressed under the control of the strong chimeric cyt1A-p/STAB-SD promoter. Interestingly, in contrast to the expression seen with the native promoter, overexpression of the operon yielded uniform bipyramidal crystals that were 4-fold larger on average than the wild-type crystal. In bioassays using the 4th instar larvae of Culex quinquefasciatus, the strain producing the larger Cry19A crystal showed moderate larvicidal activity that was 4-fold (95% lethal concentration [LC(95)] = 1.9 μg/ml) more toxic than the activity produced in the strain harboring the wild-type operon (LC(95) = 8.2 μg/ml).     

Baculoviral polyhedrin-Bacillus thuringiensis toxin fusion protein: a protein-based bio-insecticide expressed in Escherichia coli

Previously, we found that baculoviral polyhedrin (Polh) used as a fusion partner for recombinant expression in Escherichia coli showed almost the same characteristics (rapid solubilization under alkaline conditions and specific degradation by specific alkaline proteases in insect midgut) as the native baculoviral Polh, and formed easily isolatable inclusion bodies. Here, Polh derived from the Autographa californica nuclear polyhedrosis virus (AcNPV) was fused with a Bacillus thuringiensis (Bt) toxin protein (truncated Cry1Ac having toxin region as a model Bt toxin) for the novel generation of a new bio-insecticide. The Polh-Cry1Ac fusion protein (approximately 99 kDa) was highly expressed (3.6-fold induction as compared to E. coli-derived single Cry1Ac (approximately 68 kDa)) as an insoluble inclusion body fraction in E. coli. Trypsin and alpha-chymotrypsin, which have similar properties to the insect midgut alkaline proteases, rapidly degraded the Polh portion in vitro, leaving only the toxic Cry1Ac protein behind. In vivo, the Polh-Cry1Ac fusion protein showed high insecticidal activity against the pest, Plutella xylostella. Because this novel bio-insecticide employs E. coli as the host, mass production at a low cost should be possible. Also, since this is a protein-based insecticide, living modified organism (LMO) issues such as environmental and ecological safety can be avoided.     

A novel Bacillus thuringiensis strain LLB6, isolated from bryophytes, and its new cry2Ac-type gene

AIMS: To isolate and characterize the novel Bacillus thuringiensis strains from bryophytes collected from Wuyi Mountain, Fujian Province of China, and identify new B. thuringiensis strains and toxins active against mosquitoes. METHODS AND RESULTS: Twelve novel B. thuringiensis strains were isolated from 76 bryophyte samples. According to the results of this preliminary screening, LLB6 was the most toxic to Aedes albopictus. Then phase-contrast as well as scanning electron microscopy, bioassays, cloning, sequencing and expression were performed to characterize the novel isolate LLB6 and its new gene cry2Ac5. CONCLUSIONS: Bacillus thuringiensis occurred naturally on bryophytes. LLB6 isolated from Physcomitrium japonicum was toxic to A. albopictus. A new cry2Ac5 gene of LLB6 was detected, cloned and expressed successfully. Bioassays on A. albopictus showed that the expressed Cry2Ac5 was also toxic to the third instar larvae. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first report of B. thuringiensis strains isolated from bryophytes. It represents a specific source of new B. thuringiensis strains and is of great importance for the knowledge of the ecology of B. thuringiensis. Novel LLB6 harboring the new gene cry2Ac5 and its expressed Cry2Ac5 protein revealed activity against A. albopictus and became a new member of B. thuringiensis toxins.     

Antagonism between Cry1Ac1 and Cyt1A1 toxins of bacillus thuringiensis

Most strains of the insecticidal bacterium Bacillus thuringiensis have a combination of different protoxins in their parasporal crystals. Some of the combinations clearly interact synergistically, like the toxins present in B. thuringiensis subsp. israelensis. In this paper we describe a novel joint activity of toxins from different strains of B. thuringiensis. In vitro bioassays in which we used pure, trypsin-activated Cry1Ac1 proteins from B. thuringiensis subsp. kurstaki, Cyt1A1 from B. thuringiensis subsp. israelensis, and Trichoplusia ni BTI-Tn5B1-4 cells revealed contrasting susceptibility characteristics. The 50% lethal concentrations (LC50s) were estimated to be 4,967 of Cry1Ac1 per ml of medium and 11.69 ng of Cyt1A1 per ml of medium. When mixtures of these toxins in different proportions were assayed, eight different LC50s were obtained. All of these LC50s were significantly higher than the expected LC50s of the mixtures. In addition, a series of bioassays were performed with late first-instar larvae of the cabbage looper and pure Cry1Ac1 and Cyt1A1 crystals, as well as two different combinations of the two toxins. The estimated mean LC50 of Cry1Ac1 was 2.46 ng/cm2 of diet, while Cyt1A1 crystals exhibited no toxicity, even at very high concentrations. The estimated mean LC50s of Cry1Ac1 crystals were 15.69 and 19.05 ng per cm2 of diet when these crystals were mixed with 100 and 1,000 ng of Cyt1A1 crystals per cm2 of diet, respectively. These results indicate that there is clear antagonism between the two toxins both in vitro and in vivo. Other joint-action analyses corroborated these results. Although this is the second report of antagonism between B. thuringiensis toxins, our evidence is the first evidence of antagonism between toxins from different subspecies of B. thuringiensis (B. thuringiensis subsp. kurstaki and B. thuringiensis subsp. israelensis) detected both in vivo and in vitro. Some possible explanations for this relationship are discussed.     

一些化学物质对苏云金芽孢杆菌Cry1Ac毒素与昆虫离体细胞相互作用的影响

为探讨苏云金芽孢杆菌Bacillus thuringiensis（Bt）杀虫晶体蛋白与昆虫细胞的相互作用,以Bt Cry1Ac毒素和对该毒素敏感的粉纹夜蛾Trichoplusia ni离体细胞BTI-TN-5B1-4为材料,研究了一些化学物质对Cry1Ac毒素与昆虫离体细胞相互作用的影响.结果表明：N-糖基化抑制剂衣霉素、蛋白质合成抑制剂放线菌酮、胞吞作用抑制剂莫能菌素和胰蛋白酶预处理,都能不同程度地提高BTI-TN-5B1-4细胞对Cry1Ac毒素的敏感性,其中胰蛋白酶预处理的作用最明显;而N-乙酰半乳糖胺不能抑制Cry1Ac毒素对这种离体细胞的毒力.     

Composition and ecological distribution of cry proteins and their genotypes of Bacillus thuringiensis isolates from warehouses in China

The composition and distribution of insecticidal crystal proteins (Cry proteins) and their genotypes of Bacillus thuringiensis isolates from warehouses were evaluated through SDS-PAGE and PCR techniques. The results showed that the electrophoretic patterns of delta-endotoxin crystal preparations were divided into five types. The isolates containing approximately 135 kDa with a 65-kDa protein or only a approximately 135-kDa protein, which amounted to 55.74 and 35.25% of all isolates respectively, were the two major profiles of Cry protein isolated. The distribution of cry genes of B. thuringiensis from warehouses was highly variable. Cry protein genotypes detected in B. thuringiensis isolates included cry1Aa5, cry1Ab9, cry1Ac5, cry1Ba, cry1Ca1, cry1Da1, cry1Ea3, cry2, and cry3 genes, but not cry1Fa2. Among them, cry2, cry1Ac5, and cry1Ab9 genes were the most common in our B. thuringiensis isolates. Most B. thuringiensis isolates contained several cry genes in a total of 18 profiles. Among them, cry1Ac5 with cry1Ea3; cry1Aa5, cry1Ab9, cry1Ac5 with cry1Ea3; and cry1Aa5, cry1Ab9 with cry1Ac5 were the three principal profiles. The distribution of the Cry proteins and cry genes in isolates depended on geography and type of warehouses. Gene profiles may be used as markers for insecticidal activity of B. thuringiensis strains, but they did not directly reflect the toxic level of B. thuringiensis strains. The serotype of B. thuringiensis strains did not directly reflect the specific cry gene profiles in the strains, but certain relationships can be established between the serotype and cry genotype.     

Detection of chromosomally located and plasmid-borne genes on 20 kb DNA fragments in parasporal crystals from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis>

The association of 20 kb heterologous DNA fragments with the parasporal crystals from native and recombinant Bacillus thuringiensis strains was analyzed, respectively. The cry2Aa10 gene cloned in plasmid pHC39 was transformed into B. thuringiensis subsp. kurstaki strains CryˉB and HD73, producing recombinant strains CryˉB(pHC39) and HD73(pHC39). SDS-PAGE and scanning electron microscopy analyses demonstrated that the recombinant CryˉB(pHC39) produced cuboidal crystals of Cry2Aa10 protoxin, while recombinant HD73(pHC39) produced both bipyramidal crystals of Cry1Ac1 protoxin and cuboidal crystals of Cry2Aa10 protoxin. Bioassay results proved that recombinant HD73(pHC39) showed higher insecticidal activity to Helicoverpa armigera than CryˉB(pHC39). It was found that 20 kb DNA fragments were present in bipyramidal and cuboidal crystals from both native and recombinant strains, and the 20 kb heterologous DNAs contained chromosome-specific and resident large plasmid-borne DNA fragments, suggesting the 20 kb heterologous DNA fragment embodied in crystals came randomly from the bacterial chromosomal and plasmid genome. This was the first investigation devoted exclusively on the origin of 20 kb DNA fragments in the parasporal crystals of B. thuringiensis. The data provides a basis for further investigation of the origin of 20 kb DNAs in the crystals and the interaction of DNA and protoxins.     

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

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

Expression and crystallization of a Cry3Aa–Cry1Ac chimerical proteinof Bacillus thuringiensis

The insecticidal Cry1 proteins of Bacillus thuringiensis form a typical bipyramidal parasporal crystal and their protoxins contain a highly conserved C-terminal region. A chimerical gene was constructed with the coding regions of the Cry3Aa protein's toxic domain, and of the Cry1Ac protoxin's C-terminal fragment. This chimerical construction expressed a truncated (70kDa) protein in the acrystalliferous strain 4Q7 of B. thuringiensis, assembled in spherical to amorphous parasporal crystals. This protein was recognized only by antibodies raised against the Cry3Aa protein. When the protease-deficient mutant BL21 of Escherichia coli was transformed with the same chimerical construction, a complete (140kDa) chimerical protein was expressed. However, the formation of a crystalline inclusion was unclear. This protein was recognized by antibodies raised against the proteins Cry1Ac and Cry3Aa. Both chimerical proteins showed toxicity against larvae of Leptinotarsa texana, being much more active when expressed truncated in B. thuringiensis. These results suggest that the formation of bipyramidal crystals requires more than just the presence of the C-terminal region of Cryl protoxins. They also suggest that proteolysis plays an important role during the post-translational processing of Cry proteins.