Bacillus thuringiensis: laboratory tests against four species of biting lice (Mallophaga: Trichodectidae)

Four species of mammalian biting lice, Bovicola bovis, B. crassipes, B. limbata, and B. ovis, were more susceptible in the laboratory to the spore-δ-endotoxin complex of Bacillus thuringiensis than to the β-exotoxin. The relative potency of these active principles was thus reversed from that for avian biting lice. The activity of the preparations tested was not homologous with that of E-61, the international standard for δ-endotoxin activity.     

Resistance to Bacillus thuringiensis by the Indian meal moth, Plodia interpunctella: comparison of midgut proteinases from susceptible and resistant larvae

Midgut homogenates from susceptible and resistant strains of the Indian meal moth, Plodia interpunctella, were compared for their ability to activate the entomocidal parasporal crystal protein from Bacillus thuringiensis. The properties of midgut proteinases from both types of larvae were also examined. Electrophoretic patterns of crystal protein from B. thuringiensis subspecies kurstaki (HD-1) and aizawai (HD-133 and HD-144) were virtually unchanged following digestion by either type of midgut homogenate. Changes in pH (9.5 to 11.5) or midgut homogenate concentration during digestion failed to substantially alter protein electrophoretic patterns of B. thuringiensis HD-1 crystal toxin. In vitro toxicity of crystal protein activated by either type of midgut preparation was equal toward cultured insect cells from either Manduca sexta or Choristoneura fumiferana. Electrophoresis of midgut extracts in polyacrylamide gels containing gelatin as substrate also yielded matching mobility patterns of proteinases from both types of midguts. Quantitation of midgut proteolytic activity using tritiated casein as a substrate revealed variation between midgut preparations, but no statistically significant differences between proteolytic activities from susceptible and resistant Indian meal moth larvae. Inhibition studies indicated that a trypsin-like proteinase with maximal activity at pH 10 is a major constituent of Indian meal moth midguts. The results demonstrated that midguts from susceptible and resistant strains of P. interpunctella are similar both in their ability to activate B. thuringiensis protoxin and in their proteolytic activity.     

HD-187, a new isolate of Bacillus thuringiensis that produces high yields of δ-endotoxin

HD-187, a new isolate of Bacillus thuringiensis serotype 5 (5a,5b), produced higher yields of δ-endotoxin than any other isolate previously tested at the laboratories of the Agricultural Research Service of the U.S. Department of Agriculture at Brownsville, Texas. Recoveries of as high as 2,000 × 10⁶ international units (2,000 mIU)/liter of harvested beer were achieved from fermentations of HD-187, giving products with potencies as high as 200 × 10³ (200 kIU)/mg. These contrasted with recoveries of about 200 mIU/liter and products with potencies of about 15 kIU/mg obtained in fermentations of HD-1, the strain of B. thuringiensis serotype 3 (3a,3b), that is used in most commercial production of the δ-endotoxin.     

Importance of spores,crystals, and δ-endotoxins in the pathogenicity of different varieties of Bacillus thuringiensis in Galleria mellonella and Pieris brassicae

Physical methods were used to produce spores containing impurities of 0.02–0.05% crystals and crystals containing impurities of 0.001–0.01% spores from cultures of Bacillus thuringiensis. In Galleria mellonella larvae, these preparations from varieties galleriae, aizawai, and wuhanensis were only moderately active compared to 1:1 mixtures of spores and crystals. Spores of an acrystalliferous aizawai mutant were inactive and did not contain a polypeptide of the same size as the potent M_r 138000 δ-endotoxin present in spores and crystals of all three wild-type strains. Thus, this polypeptide probably contributed to the moderate activity of wild-type spores. Spore impurities in the crystal preparation were killed by γ irradiation without harming the crystals. The crystals without live spores were virtually inactive (LC₅₀s, ca. 10¹⁰ crystals/g insect food). Addition of 10³ spores to 10⁸ crystals/g food (0.001% spores) increased the mortality of larvae from 0 to 36%, and addition of 10⁴ spores (0.01% spores) killed 64% larvae. Thus, the addition of low levels of spores increased the potency of crystals in G. mellonella from virtually zero to moderate levels, suggesting that the live spore impurities in the crystal preparations were responsible for the observed moderate potency of crystals before γ irradiation, a view supported by a reduction of potency of crystal preparations following admixture of streptomycin to the insect food. In contrast to the results with G. mellonella, crystals were ca. 30 times as active as spores in Pieris brassicae larvae. Many authors have found crystals purified by physical methods to be highly active in a range of lepidopterous hosts. The present work indicates that the role of the spore impurities in these species may need further investigation. Absence of live spores of B. thuringiensis may impair the control of some insect species feeding on spore-free products and on microorganisms or plants into which endotoxins have been introduced by genetic manipulation.     

Differential Activity and Activation of Bacillus thuringiensis Insecticidal Proteins in Diamondback Moth, Plutella xylostella

Whole-crystal preparations from strains HD-1 and HD-133, activated Cry1Ab and Cry1C toxins as well as Cry1Aa, Cry1Ac, Cry1D, and Cry2Aa protoxins were tested for toxicity to 2nd-instar larvae of the diamondback moth, Plutella xylostella. Mortality data recorded after 2 and 5 days provided different results that were related to differential rates of solubilization, activation, and degradation of insecticidal crystal proteins. The two most active proteins are Cry1Ab and Cry1C, which are both present in HD-133. The Cry1Ab protoxin is activated within 2 days, whereas activation of the Cry1C protoxin occurs between 2 and 5 days. HD-133 is more active than HD-1 immediately after infection and remains toxic over 5 days owing to the sequential activation of its crystal components. Solubility properties of crystals and rates of activation of protoxins influence the overall toxicity of HD-1 and HD-133 to the diamondback moth. Received: 30 March 1999 / Accepted: 3 May 1999     

Rapid Identification of δ-endotoxin from Bacillus thuringiensis subsp. kurstaki HD-1 with Proteomic Analysis

This study was carried out to identify rapidly δ-endotoxin from Bacillus thuringiensis (Bt) subsp. kurstaki HD-1 with proteomic analysis. Protoxin was isolated from sporulated cells and purified by ultracen-trifugation using 40-70% sucrose density gradient. Protoxin was treated with trypsin to analyze digested peptides by liquid chromatographytandem mass spectrometry. The proteomic analysis for detected peptides revealed that this methodology is available for discriminating similar Bt strains by identifying Bt subsp. kurstaki HD-1-specific peptides, suggesting that proteomic analysis can be used for rapid identification of Bt strains.     

In vitro assay for testing the toxicity of Bacillus thuringiensis subsp. israelensis delta endotoxin using blood agarose plates

An in vitro assay system that used erythrocytes was developed to assess the toxicity of delta endotoxin of Bacillus thuringiensis subsp. israelensis (Bti), a mosquito larvicidal agent. This endotoxin was activated at high alkaline pH without causing alkaline injury to the erythrocytes. The assay is carried out on blood agarose plates, prepared in MOPS-buffered saline (0·01 mol 1^-1), pH 7·0. The threshold dose for toxicity of Bti HD-567 was 8 ng protein and that of Bti H-14 and IPS-82 standard were 6 ng and 4 ng protein respectively. The assay is rapid, sensitive, quantitative and applicable to different Bti formulations to assess the toxicity of the products. Only the activated toxin is detected by this method and has good correlation with insect bioassay. The percentage toxicity dose of different Bti preparations agrees well with percentages of LC₅₀ values when the second instar larvae of Aedes aegypti were tested.     

Insecticidal activity of spore-free mutants of Bacillus thuringiensis against the Indian meal moth and almond moth

Three oligosporogenic mutants of Bacillus thuringiensis were assayed for toxicity against larvae of the Indian meal moth, Plodia interpunctella, and the almond moth, Ephestia cautella. The results were compared with insecticidal activity obtained from the parent strain (HD-1) and two standard B. thuringiensis formulations (HD-1-S-1971 and HD-1-S-1980) against the same insect species. The toxicity of the sporeless mutant preparations was significantly diminished against the Indian meal moth (10- to 26-fold increase in LC₅₀) but exceeded the toxicity of the standards against the almond moth. The toxicities of the B. thuringiensis preparations toward the Indian meal moth were consistent with the number of spores in the test samples, but spores did not contribute to toxicity to E. cautella larvae. A rationale for basing dosage on soluble protein was demonstrated for use in situations where spores are not a contributing factor in toxicity.     

Inhibition of boar sperm hyaluronidase activity by tannic acid reduces polyspermy during in vitro fertilization of porcine oocytes

The present study was conducted to examine the effects of three polyphenols (tannic acid, apigenin and quercetin) on hyaluronidase activity and in vitro fertilization (IVF) parameters. Among them, tannic acid showed by far the strongest potency for blocking hyaluronidase activity extracted from preincubated boar sperm, causing a dose-dependent inhibition over the range of 2-10 microg/ml. When cumulus-intact and cumulus-free oocytes were inseminated in IVF medium containing tannic acid, the penetration and the polyspermy rates were significantly decreased in the presence of 10 microg/ml tannic acid compared with those in the absence of tannic acid, and the addition of 5 microg/ml tannic acid significantly reduced the polyspermy rate (p < 0.05) compared with that of the control while maintaining the high penetration rate. However, apigenin and quercetin had no effect on the rate of polyspermy. Interestingly, the incidence of polyspermy was significantly reduced in oocytes inseminated with sperm pretreated with 5 microg/ml tannic acid (p < 0.05), although the pretreatment of oocytes had no effect against the polyspermy after insemination with untreated sperm. Treatment with tannic acid caused neither a protective proteolytic modification of the zona pellucida matrix before fertilization, nor a reduction of the proteolytic activity of acrosomal contents or the number of zona-bound spermatozoa. These data suggest that an appropriate concentration of tannic acid prevents polyspermy through the inhibition of sperm hyaluronidase activity during IVF of porcine oocytes.     

Development of Bacillus thuringiensis CryIC Resistance by Spodoptera exigua (Hubner) (Lepidoptera: Noctuidae)

Selection of resistance in Spodoptera exigua (Hubner) to an HD-1 spore-crystal mixture, CryIC (HD-133) inclusion bodies, and trypsinized toxin from Bacillus thuringiensis subsp. aizawai and B. thuringiensis subsp. entomocidus was attempted by using laboratory bioassays. No resistance to the HD-1 spore-crystal mixture could be achieved after 20 generations of selection. Significant levels of resistance (11-fold) to CryIC inclusion bodies expressed in Escherichia coli were observed after seven generations. Subsequent selection of the CryIC-resistant population with trypsinized CryIC toxin resulted, after 21 generations of CryIC selection, in a population of S. exigua that exhibited only 8% mortality at the highest toxin concentration tested (320 (mu)g/g), whereas the 50% lethal concentration was 4.30 (mu)g/g for the susceptible colony. Insects resistant to CryIC toxin from HD-133 also were resistant to trypsinized CryIA(b), CryIC from B. thuringiensis subsp. entomocidus, CryIE-CryIC fusion protein (G27), CryIH, and CryIIA. In vitro binding experiments with brush border membrane vesicles showed a twofold decrease in maximum CryIC binding, a fivefold difference in K(infd), and no difference in the concentration of binding sites for the CryIC-resistant insects compared with those for the susceptible insects. Resistance to CryIC was significantly reduced by the addition of HD-1 spores. Resistance to the CryIC toxin was still observed 12 generations after CryIC selection was removed. These results suggest that, in S. exigua, resistance to a single protein is more likely to occur than resistance to spore-crystal mixtures and that once resistance occurs, insects will be resistant to many other Cry proteins. These results have important implications for devising S. exigua resistance management strategies in the field.     

New organisms—novel genetics

This report describes a method for quantifying -endotoxin contents in spray-dried preparations ofBacillus thuringiensis strain GC-91. -Endotoxin is solubilized in the pro-toxin form and separated from other soluble compounds by ion exchange chromatography. The method does not discriminate between the different -endotoxins produced by strain GC-91. It is suitable for quality control, since -endotoxin concentrations found in different preparations correlate inversely with the LC 50 in bioassays on artificial diet against freshly hatched larvae ofSpodoptera littoralis. A typical batch of spray-dried material contains 1.22%±0.08% -endotoxin. The method is most accurate with preparations containing 0.5 to 2.0% toxin, for which triplicate estimations give standard errors close to±0.2%.     

Toxicity of Bacillus thuringiensis entomocidal protein toward cultured insect tissue

The entomocidal protein from crystalline inclusion bodies of Bacillus thuringiensis can be bioassayed in vitro using cultured insect tissue. Larval cells of the spruce budworm, Choristoneura fumiferana, are damaged by enzyme-digested (activated) protein isolated from B. thuringiensis crystals. Measurement of toxicity is accomplished by detection of adenosine triphosphate (ATP) in treated cultures using firefly bioluminescence. The ATP content of toxin-treated tissue is inversely proportional to the amount of toxin added. Tissue cells from the spruce budworm exhibited maximum susceptibility to activated δ-endotoxin after 120 hr incubation. Probit analysis of tissue ATP response to toxin dose indicated 50% of the cells were damaged by 14.6 μg or less of toxin protein per 2 × 10⁵ insect tissue cells. Activated δ-endotoxin was entomocidal to insects as well, as detemined by mortality studies with second-instar larvae of the European corn borer. Electron microscopic observations of insect tissue treated with activated δ-endotoxin protein for 60 min revealed massive outer membrane disruption and subsequent loss of cytoplasmic constituents, accompanied by swelling of the nuclear membrane.     

Dissolution and Degradation of Bacillus thuringiensis δ-Endotoxin by Gut Juice Protease of the Silkworm Bombyx mori

The dissolution and degradation of †-endotoxin (crystal) of Bacillus thuringiensis subsp. kurstaki strain HD-1 were investigated. Crystals were dissolved in 0.1 M phosphate-carbonate-NaOH buffer at pH > 12. Swelling of crystals occurred in the buffer between pH 10 and 11, and crystals dissolved in the same buffer supplemented with gut juice protease of the silkworm Bombyx mori. The proteolytic dissolution of crystals occurred after a time lag of several minutes in 0.1 M carbonate-NaOH buffer, pH 10.2. The time lag was not observed when crystals were suspended in the buffer for 30 min before the addition of protease. After the dissolution of the crystals and further degradation of the solubilized protein, the appearance of a toxic protein with a molecular weight of 59,000, designated P-59, was observed. Lower-molecular-weight peptides (less than 40,000) showed no toxicity to the silkworm larvae on feeding. Digestion of the 120,000-dalton subunit of the crystal by gut juice protease also produced P-59. These observations suggest the occurrence of a similar process in vivo, i.e., the swelling of crystals due to the alkalinity of gut juice and the production of P-59, dependent on the hydrolysis of swollen crystals by gut juice protease.     

苏云金芽孢杆菌δ—内毒素的杀虫机理及其增效途径

苏云金芽孢杆菌（Ｂａｃｉｌｕｓｔｈｕｒｉｎｇｉｅｎｓｉｓ,Ｂｔ）制剂是当前应用最广、最有效的微生物杀虫剂。Ｂｔ属于革兰氏阳性细菌,在形成芽孢的同时,产生伴孢晶体。伴孢晶体是Ｂｔ杀虫活性的主要来源,它可能由几种晶体蛋白即δ－内毒素组成。δ－内毒素的专一...     

Semi-solid state fermentation of food waste for production of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> biopesticide

In this study, Bacillus thuringiensis (Bt) biopesticide was produced through different fermentation processes using food waste with different water contents. The semi-solid state sample with 75% water content presented the highest δ-endotoxin efficiency of 862 μg/mL. δ-endotoxin efficiency increased by 30.2% from that of the solid-state sample (50% water content) and 73.8% from that of the submerged sample (99% water content). Results confirmed that semi-solid state fermentation presents considerable advantages compared with other fermentation types (solid-state and submerged). The timing adjustment of pH and recycling fermentation effectively counteracted the inhibition of pH and product, thereby increasing δ- endotoxin efficiency to 1,648 and 2,478 μg/mL (accumulated value of all four fermentation loops), respectively. A δ- endotoxin slow-release formulation using polylactic acid as the carrier was also developed to effectively promote the stability of Bt biopesticide.     

Role of Proteolysis in Determining Potency of Bacillus thuringiensis Cry1Ac δ-Endotoxin

Bacillus thuringiensis protein δ-endotoxins are toxic to a variety of different insect species. Larvicidal potency depends on the completion of a number of steps in the mode of action of the toxin. Here, we investigated the role of proteolytic processing in determining the potency of the B. thuringiensis Cry1Ac δ-endotoxin towards Pieris brassicae (family: Pieridae) and Mamestra brassicae (family: Noctuidae). In bioassays, Cry1Ac was over 2,000 times more active against P. brassicae than against M. brassicae larvae. Using gut juice purified from both insects, we processed Cry1Ac to soluble forms that had the same N terminus and the same apparent molecular weight. However, extended proteolysis of Cry1Ac in vitro with proteases from both insects resulted in the formation of an insoluble aggregate. With proteases from P. brassicae, the Cry1Ac-susceptible insect, Cry1Ac was processed to an insoluble product with a molecular mass of ~56 kDa, whereas proteases from M. brassicae, the non-susceptible insect, generated products with molecular masses of ~58, ~40, and ~20 kDa. N-terminal sequencing of the insoluble products revealed that both insects cleaved Cry1Ac within domain I, but M. brassicae proteases also cleaved the toxin at Arg423 in domain II. A similar pattern of processing was observed in vivo. When Arg423 was replaced with Gln or Ser, the resulting mutant toxins resisted degradation by M. brassicae proteases. However, this mutation had little effect on toxicity to M. brassicae. Differential processing of membrane-bound Cry1Ac was also observed in qualitative binding experiments performed with brush border membrane vesicles from the two insects and in midguts isolated from toxin-treated insects.     

Interaction between Cry9Ca and two Cry1A delta-endotoxins from Bacillus thuringiensis in larval toxicity and binding to brush border membrane vesicles of the spruce budworm,Choristoneura fumiferana Clemens

A genetically altered variant of Cry9Ca from Bacillus thuringiensis shows high potency against the spruce budworm, Choristoneura fumiferana Clemens. Its activity, as measured by feeding inhibition in frass-failure assays, is estimated to be four to seven times greater than B. thuringiensis subsp. kurstaki HD-1, the strain currently used in commercial products to control this insect. Bioassays against budworm of mixtures of the modified Cry9Ca and two of the Cry1A endotoxin proteins produced by HD-1 show neither synergism nor antagonism. Experiments with brush border membrane vesicles from budworm midgut revealed that Cry9Ca and the Cry1A toxins share a common binding site and that bound Cry9Ca can be displaced from the membrane to some extent by the Cry1A toxins. However, it is uncertain whether the binding site is actually the receptor molecule or a membrane protein associated with pore formation.     

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.     

Preparation, Sensitivity, and Specificity of Limulus Lysate for Endotoxin Assay

Limulus amoebocyte lysate was prepared from a total of 180 crabs during 1971 and 1972 by using a slightly modified lysate preparation procedure. Marked variability of lysate potency was noted both years. In addition, lysate quality appeared diminished in 1972 as compared with 1971. Different lysate batches were evaluated for potency by using a variety of endotoxin preparations. Variations in batch potencies were observed, but little variation in reactivity among different endotoxin preparations was noted. Use of potent lysate batches allowed detection of endotoxin concentrations as low as 100 pg/ml. No endotoxinlike activity was observed from 11 different strains of yeast by use of the Limulus assay.     

Development of some lepidopterous cotton pests as affected by exposure to sublethal levels of endotoxins of Bacillus thuringiensis for different periods

Three spore-δ-endotoxin preparations from Bacillus thuringiensis vars. kurstaki and entomocidus including a commercial biological insecticide, Thuricide, were studied with respect to their biological interactions with the lepidopterous cotton pests, Spodoptera littoralis, Spodoptera exigua, and Heliothis armigera. The biological effects of sublethal doses and the length of exposure time to low endotoxin concentrations were assessed during and after removal of toxin from the diet. Retardation in larval development, reduction in egg production of the moths, and fertility of the egg were observed together with significant reduction in pupal weight and appearance of deformities in both pupae and moth populations. The influence of exposure to sublethal toxin concentrations was also manifested in term of decreasing the adult emergence, fecundity reduction, and prolonging the generation period. In the exposed insects, the precentage of larvae that survived and succeeded to pupate increased with the decrease in the toxin concentration and with the decrease in exposure time. The reduction of the pupal weight significantly increased with the increase in either toxin concentration or the duration of exposure. The longevity of the moths was not affected by larval treatment and the data showed no clear correlation with the concentration and time of larval exposure to the toxin.