Effect of Bacillus thuringiensis naturally colonising Brassica campestris var. chinensis leaves on neonate larvae of Pieris brassicae

The feeding of neonate larvae of Pieris brassicae (Order Lepidoptera) on leaves of brassica plants that had been colonised by Bacillus thuringiensis resulted in the death of 35% of the population within 72 h. The bacteria multiplied in the cadavers, resulting in an increase of about 50-fold compared to the living insects. Surviving insects showed no ill effects during the time of the study. There was negligible multiplication of B. thuringiensis in the frass.     

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.     

Responses of production and storage walnut pests to Bacillus thuringiensis insecticidal crystal protein fragments

Recent advances in genetic engineering have provided the opportunity to induce walnut plants to produce Bacillus thuringiensis Berliner insecticidal crystal protein fragments (ICPFs) for insect control. We studied the effects of two ICPFs CryIA(b) and CrylA(c) previously shown to be encoded by the cryIA(b) and cryIA(c) genes in the B. thuringiensis strains HD-1 and HD-73, respectively. The lethal effects on larvae of codling moth, Cydia pomonella (L.), navel orangeworm, Amyelois transitella (Walker), and the major postharvest pest Indianmeal moth, Plodia interpunctella (Hübner), were investigated. Both proteins were toxic to the three species tested. Indianmeal moth larvae were the most susceptible and navel orangeworm the least; CryIA(b) was generally more toxic to navel orangeworm. Similar relationships resulted when ICPFs were incorporated into the diet. Both ICPFs caused decreased rate of development of navel orangeworm. Effects on pupal weight occurred only at the highest concentration (100 ng/cm²). Neither ICPF affected frequency of mating or fecundity. In addition to the lethal effects, the extended development times observed could have considerable effects on the population dynamics of the navel orangeworm and possibly other species.     

Bt新菌株资源的采集与鉴定

【目的】寻找对致倦库蚊高效的苏云金芽胞杆菌(Bacillus thuringiensis,Bt)杀蚊菌株新资源。【方法】从福建省的武夷山自然保护区、建阳、建瓯、浦城等多个地区采集土壤样品,采用热处理法从土壤中分离Bt菌株,并测定其对致倦库蚊活性的效果。【结果】从125份土壤样品中分离出71株Bt菌株,经生物测定得到4株对致倦库蚊有效菌株(QQ13、QQ42、QQ66和QQ92)。其中,QQ66和QQ92有较高的毒性,均有几丁质酶基因,没有检测到cry1、cry1Ⅰ、cry2、cry4、cry5、cry6、cry7、cry8、cry9、cry10和cry11基因,在75～100 ku处各有一条杀虫晶体蛋白条带。【结论】采集和鉴定到的Bt新菌株资源将对致倦库蚊的生物防治起到促进作用。     

Effect of different additives on the persistence and insecticidal activity of native strains of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis>

The persistence and insecticidal activity of native strains of Bacillus thuringiensis was evaluated in formulations containing different additives such as arrow-root powder, carboxy methyl cellulose (CMC), gum acacia, non-food grade (NFG) starch, and soluble starch. Persistence of B. thuringiensis varied with different additives used in the formulations. Among the different additives used, NFG starch provided maximum protection to B. thuringiensis and native strain 42 showed maximum persistence (83%) which was higher than that obtained in commercial formulation. In commercial formulation, the persistence of B. thuringiensis was 47% only after 3 d of spray. The feeding trials conducted on second instar larvae of H. armigera using leaves sprayed with NFG starch formulation revealed 70% larval mortality while commercial formulation showed 50% mortality during the same period.     

Characterization of melanin produced by a wild-type strain of Bacillus cereus

Bacillus cereus 58 (Bc58) is a UV-resistant wild type strain that has an ability to produce a sorrel pigment induced by L-tyrosine. The Fourier-transform infrared (FT-IR) spectra and chemical tests of its pigment are similar to that of the standard melanin (Sigma). A bioassay shows that the LC₅₀ of a Bacillus thuringiensis (Bt) formulation added with the melanin of Bc58 and exposed to UV for 5 h is 16.1 μg/ml, which is similar to that of the Bt formulation without UV treatment, however, it is almost double that of the Bt formulation exposed to UV without the melanin of Bc58. The result of SDS-PAGE indicates that the melanin of Bc58 can protect the insecticidal crystal proteins from degradation. This suggests that it is an excellent UV protective agent for the insecticidal crystal proteins of the Bt formulation. Translated from Microbiology, 2006, 33(1): 42–45 [译自: 微生物学通报]     

An improved bioassay for the detection of Bacillus thuringiensis β-exotoxin

Some Bacillus thuringiensis strains secrete β-exotoxin, which is an insecticidal, thermostable adenine nucleotide analogue. Discrepancies between detection of β-exotoxin by high-performance liquid chromatography and insect bioassays have shown the importance of bioassays in the determination of β-exotoxin production. With the aim of improving the fly β-exotoxin bioassay, a range of fly diets were evaluated and the best performing diet was incorporated into a novel β-exotoxin bioassay. The improved bioassay is characterised by good control pupation percentages, low variability, easy setup and monitoring. The bioassay allowed unambiguous differentiation between β-exotoxin producing and non-producing strains, and is suitable for the routine screening of B. thuringiensis strains for β-exotoxins.     

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.     

Hymenopteran specificity of Bacillus thuringiensis strain PS86Q3

The biological activity of Bacillus thuringiensis (Bt) strain PS86Q3 against five Hymenopteran species was determined by means of bioassays adapted to each species. Four species of sawfly that are important pests of conifers (Diprion pini, Gilpinia hercyniae and Pristiphora abietina) or ornamental plants (Arge rosae), as well as the non-target honeybee, Apis mellifera, were studied. Two out of the four sawfly species tested were found to be sensitive to PS86Q3 crystals or spore/crystal suspensions. A sporulated culture of this strain was moderately active on D. pini, and a complete bioassay with solubilized crystals was performed to estimate the LC₅₀ of 4.9 mg/ml. Pristiphora abietina was also found to be sensitive to PS86Q3, with an LC₅₀ of 1.6 mg/ml. By contrast, at the concentrations tested, PS86Q3 did not prove active on the remaining sawflies, G. hercyniae and A. rosae. The strain was administered orally to check its effects on honeybees which were fed sucrose solutions supplemented with a PS86Q3 sporulated suspension, in a field assay using commercial beehives. No significant differences in larval mortality (as deduced by comparing the number of larvae, pupae and empty cells) were found between the Bt and control treatments. On the basis of the results presented here, the suitability of PS86Q3 for the control of Hymenopteran pests, particularly sawflies, in terms of both potency and environmental safety, is discussed.     

Activity of natural toxins against the silverleaf whitefly, Bemisia argentifolii, using a novel feeding bioassay system

An assay system was developed for the adult silverleaf whitefly, Bemisia argentifolii Bellows & Perring (Homoptera: Aleyrodidae). This practical device was constructed from standard disposable laboratory materials. Whiteflies were harvested directly from the leaf and into a collection vial by vacuum aspiration, minimizing physical damage to the insect. Insects were fed through a cellulose mixed-ester membrane on a diet of 20–27% sucrose alone or sucrose in an extract of zucchini (Curcurbita moschata Duchense). Mortality and honeydew production were scored. At 22–25°C and 50–55% relative humidity, control mortality generally remained at or below 15% during a 48 h assay period. The bioassay system was first tested using the insecticide, Imidacloprid, then used to screen a number of natural products with potential insecticidal activity against the whitefly. Destruxins extracted from the entomopathogenic fungus, Metarhizium anisopliae, and the natural insecticide/nematicide, Ivermectin, as well as bee venom and two of its components, melittin and phospholipase A₂, were found to be toxic to B. argentifolii. Five lectins, Bacillus thuringiensis toxins, gossypol, an extract of Paeciliomyces fumosoroseus, wasp and scorpion venom, and a trypsin inhibitor were not found to be insecticidal to adult B. argentifolii.     

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.     

鳞翅目昆虫中肠Bt杀虫蛋白受体研究进展

杀虫晶体蛋白(insecticidal crystal proteins,ICPs;含有Cry和Cyt 2大家族)和营养期杀虫蛋白(vegetative insecticidal proteins,Vips)等Bt杀虫蛋白可有效防治鳞翅目害虫,其中Cry应用最广泛。然而,一些地区的鳞翅目害虫已对Bt杀虫蛋白产生了抗性。目前,普遍认为鳞翅目昆虫中肠受体与Bt杀虫蛋白结合能力的改变是导致其对Bt杀虫蛋白产生抗性的最主要因素。在鳞翅目昆虫中,Cry受体是研究得最为透彻的Bt受体,已经被证实的有氨肽酶N、钙黏蛋白、碱性磷酸酶和ABC转运蛋白等。Vips杀虫蛋白类与鳞翅目昆虫中肠受体的结合方式与Cry杀虫蛋白相似,但结合位点与Cry杀虫蛋白不同。本文从结构特点、作用机制及不同鳞翅目昆虫间的表达差异等角度对以上4种鳞翅目昆虫中肠Bt受体进行了综述,并提出如下展望:(1)以棉铃虫或小菜蛾等鳞翅目昆虫为农业害虫模式生物进行深入研究,阐明其对Bt杀虫蛋白产生抗性的机制,为研究其他鳞翅目农业害虫对Bt杀虫蛋白产生抗性的机制提供理论借鉴;(2)鉴于在不同鳞翅目昆虫间,中肠Bt受体与Bt杀虫蛋白结合存在差异,且同一Bt杀虫蛋白与鳞翅目昆虫Bt受体并不专一性结合,Bt杀虫蛋白多基因组合策略是较为有效的田间鳞翅目昆虫防治策略,是今后一段时间内Bt杀虫蛋白应用的发展方向。     

Assessing the utilization of a carbohydrate food source and the impact of insecticidal proteins on larvae of the green lacewing, Chrysoperla carnea

A concern with the widespread use of insecticidal transgenic crops is their potential to adversely affect non-target organisms, including biological control agents such as larvae of the green lacewing, Chrysoperla carnea (Neuroptera: Chrysopidae). Since the insecticidal proteins expressed by the current transgenic plants are active only after ingestion, dietary bioassays are required to test direct effects on non-target organisms. After showing that C. carnea larvae utilize carbohydrate foods, we exposed them to insecticidal proteins dissolved in a sucrose solution. Feeding on snowdrop lectin (Galanthus nivalis agglutinin, GNA) as a model compound, the larvae were negatively affected in a number of life-table parameters. Interestingly, GNA caused a prolongation in first instar development, but had no effect on subsequent utilization of prey resulting in an increased weight of second instars. Comparable studies with avidin, a biotin-binding protein, revealed strong effects on C. carnea survival at the concentration tested. Despite the fact that the proteolytic digestion of C. carnea larvae is reported to be dominated by serine proteases, ingestion of soybean trypsin inhibitor (SBTI) did not cause any detrimental effects. Similarly, two Cry proteins derived from Bacillus thuringiensis (Cry1Ac and Cry1Ab) did not cause negative effects on C. carnea, what is consistent with earlier studies. The here presented bioassay provides a valuable tool to assess direct impacts of insecticidal proteins to C. carnea larvae and other predators that are known to feed on carbohydrate solutions.     

Development of a cost-effective medium for the large scale production of Bacillus thuringiensis var israelensis

Bacillus thuringiensis var israelensis (B.t.i.) has been widely used in mosquito control programs, but the large scale production of this bacillus is expensive because of the high cost of the medium. In this study, we attempted to develop a cost-effective medium, based on inexpensive, locally available raw materials including soybean flour (Glycine max), groundnut cake powder (Arachis hypogea), and wheat bran extract (Triticum aestivum) by using 100-L fermentor. Sporulation, toxicity, and biomass were satisfactory after B.t.i. was produced on all the three media. Use of the soybean culture medium resulted in maximum toxicity (LC₅₀ 8.89 ng/ml against Culex quinquefasciatus IIIrd instar larvae), highest spore count (0.48 × 10¹¹ c.f.u./ml), and maximum biomass (7.8 g/L) within a short fermentation time of 24 h. Hence, this soybean-based culture medium was considered most economical for the large scale industrial production of B.t.i.     

Expression and activity of a probable toxin from Photorhabdus luminescens

As an insect pathogen, Photorhabdus luminescens possesses an arsenal of toxins. Here we cloned and expressed a probable toxin from P. luminescens subsp. akhurstii YNd185, designated as Photorhabdus insecticidal toxin (Pit). The pit gene shares 94% nucleotide and 98% predicted amino acid sequence identity with plu1537, a predicted ORF from P. luminescens subsp. laumondii TT01 and 30% predicted amino acid sequence similarity to a fragment of a 13.6 kDa insecticidal crystal protein gene of Bacillus thuringiensis (Bt). The pit was expressed as a GST-Pit fusion protein in E. coli, most of which was insoluble and sequestered into inclusion bodies. The inclusion bodies were harvested and dissolved. The resultant protein was purified and the Pit was cleaved from the fusion protein by thrombin and purified from GST then used for bioassay. Pit killed Galleria mellonella (LD₅₀, 30 ng/larva) and Spodoptera litura (LD₅₀, 191 ng/larva) via hemocoel injection. Relative to a control that lacked toxin, Pit did not significantly increase mortality of S. litura and Helicoverpa armigera when introduced orally, but the treatment did inhibit growth of the insects. The present study demonstrated that Pit possessed insecticidal activity.     

An engineered Bacillus thuringiensis strain with insecticidal activity against Scarabaeidae (Anomala corpulenta) and Chrysomelidae (Leptinotarsa decemlineata and Colaphellus bowringi)

A genetically-engineered Bacillus thuringiensis (Bt) strain, 3A-HBF, with a broad insecticidal spectrum was constructed by introducing the recombinant plasmid pSTK-3A containing cry3Aa7 into the wild-type Bt strain HBF-1 containing the cry8Ca2 gene. The Cry3Aa7 protein produced by strain 3A-HBF was verified by SDS-PAGE and Western blotting. Flat rectangular crystals of Cry3Aa7 protein were observed besides spherical crystals (Cry8Ca2). The plasmid pSTK-3A was stable when strain 3A-HBF was grown in medium without antibiotics. The growth rate of 3A-HBF was not significantly different from that of the recipient strain, HBF-1. Strain 3A-HBF showed toxicity against two families of pests, Scarabaeidae and Chrysomelidae pests, which are susceptible to Cry8Ca (Anomala corpulenta) and Cry3Aa (Leptinotarsa decemlineata and Colaphellus bowringi). The 50% lethal concentrations of 3A-HBF against A. corpulenta, L. decemlineata and C. bowringi were 0.730 × 10⁸ c.f.u./g dry soil, 1.74 μg/ml and 1.15 μg/ml, respectively.     

受体介导的鳞翅目昆虫对Bt毒素抗性机制进展

苏云金芽孢杆菌作为一种对人畜安全、环境友好型绿色杀虫剂在全球被广泛使用。Bt毒素与昆虫中肠上特定毒素受体结合并发挥作用,形成毒素穿孔导致昆虫死亡是其重要的杀虫机制之一,靶标害虫对Bt毒素产生抗性是制约转Bt作物长期有效种植和Bt毒素持续使用的重要因素。文中从鳞翅目昆虫中肠细胞Bt毒素重要受体的研究阐述昆虫对Bt的抗性机制,为Bt抗性机制的深入研究和对害虫的防控与治理提供了一定的理论参考。     

Abdominal gland secretion ofBledius rove beetles as an effective defence against predators

Recent investigations indicated thatBacillus thuringiensis delta-endotoxins (DET) possess aphidicidal activity in an artificial diet bioassay. Crystalline preparations of CryIIA, CryIIIA and CryIVD solubilized in a slightly alkaline sucrose/amino acid diet clearly imparted toxicity toward adults of potato aphid,Macrosiphum euphorbiae (Thomas) (Homoptera: Aphididae) after 4–5 days of continuous feeding. No obvious feeding deterrence was noted in these assays, as copious honeydew was produced and aphids often died in a feeding position. CryIIIA which was solubilized in aphid diet, but filtered to remove spores or crystalline toxin lacked aphidicidal activity. Spores from an acrystalliferous strain (EG2205) were not toxic by themselves at 7.75×10⁵ spores/ml aphid diet, but did restore toxicity to the filtered CryIIIA solution. Therefore, low levels of spores may be very effective in concert with DET for aphicidal activity. Results also clearly demonstrated that a suspension of crystalline CryIIIA alone, without spores, exhibited toxicity. Therefore, DET may be more toxic to the aphids when imbibed as a fine suspension, perhaps indicating the need for slow solubilization into the aphid midgut.     

Mapping and characterization of the entomocidal domain of the Bacillus thuringiensis CrylA(b) protoxin

The amino acid sequences necessary for entomocidal activity of the CryIA(b) protoxin of Bacillus thuringiensis were determined. Introduction of stop codons behind codons Arg601, Phe604 or Ala607 showed that amino acid residues C-terminal to Ala607 are not required for insecticidal activity and that activation by midgut proteases takes place distal to Ala607. The two shortest polypeptides, deleted for part of the highly conserved -strand, were prone to proteolytic degradation, explaining their lack of toxicity. Apparently, this -strand is essential for folding of the molecule into a stable conformation. Proteolytic activation at the N-terminus was investigated by removing the first 28 codons, resulting in a translation product extending from amino acid 29 to 607. This protein appeared to be toxic not only to susceptible insect larvae such as Manduca sexta and Heliothis virescens, but also to Escherichia coli cells. An additional mutant, encoding only amino acid residues 29–429, encompassing the complete putative pore forming domain, but lacking a large part of the receptor-binding domain, was similarly toxic to E. coli cells. This suggests a role for the N-terminal 28 amino acids in rendering the toxin inactive in Bacillus thuringiensis, and indicates that the cytolytic potential of the pore forming domain is only realized after proteolytic removal of these residues by proteases in the insect gut. In line with this hypothesis are results obtained with a mutant protein in which Arg28 at the cleavage site was replaced by Asp. This substitution prevented the protein from being cleaved by trypsin in vitro, and reduced its toxicity to M. sexta larvae.     

Effect of rice lines transformed with Bacillus thuringiensis toxin genes on the brown planthopper and its predator Cyrtorhinus lividipennis

Five transgenic rice lines, each containing an insecticidal toxin gene from Bacillus thuringiensis (Bt) under control of a different promoter, were tested for effects on two non-target insects: the brown planthopper, Nilaparvata lugens (Stål) (Homoptera: Delphacidae), and its predator Cyrtorhinus lividipennis (Hemiptera: Miridae). Bt toxin was detected by ELISA in the honeydew of N. lugens that fed on rice lines with the CaMV 35S and actin promoters. Nilaparvata lugens produced greater volumes of acidic honeydew (derived from xylem feeding) on all five Bt rice lines than on non-transgenic control lines. The amount of honeydew derived from phloem feeding did not differ between Bt and control lines. There were no differences between N. lugens reared on Bt and control lines in any of the five fitness parameters measured (survival to the adult stage, male and female weight, and male and female developmental time). There were no differences between C. lividipennis reared on N. lugens nymphs from Bt and control lines, in any of the three fitness parameters examined (survival to the adult stage and male and female developmental time). Our results indicate that N. lugens and its natural enemies will be exposed to Bt toxins from rice lines transformed with some Bt gene constructs, but that this exposure might not affect N. lugens and C. lividipennis fitness.