Characterization of a Novel <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Phenotype Possessing Multiple Appendages Attached to a Parasporal Body

Bacillus thuringiensis is a bacterium best known for its production of crystal-like bodies comprised of one or more Cry-proteins, which can be toxic to insects, nematodes or cancer cells. Although strains of B. thuringiensis have occasionally been observed with filamentous appendages attached to their spores, appendages in association with their parasporal bodies are extremely rare. Herein we report the characterization of Bt1-88, a bacterial strain isolated from the Caribbean that produces a spore–crystal complex containing six long appendages, each comprised of numerous thinner filaments approximately 10 nm in diameter and 2.5 μm in length. Each of the multi-filament appendages was attached to a single, small parasporal body located at one end of the bacterial spore. Biochemical tests, 16S rDNA gene sequencing, and the identification of two Cry proteins by partial protein sequencing (putatively Cry1A and Cry2A), unambiguously identified Bt1-88 as a strain of B. thuringiensis. Bt1-88 represents the second reported strain of B. thuringiensis possessing a parasporal body/appendage phenotype characterized by one or more long appendages, comprised of numerous filaments in association with a parasporal body. This finding suggests that Bt1-88 is a member of a new phenotypic class of B. thuringiensis, in which the parasporal body may perform a novel structural role through its association with multi-filament appendages.     

Evaluation of Pakistanian Bacillus thuringiensis isolates against Scirpophaga incertulas and Cnaphalocrocis medinalis

A large number of Bacillus thuringiensis (Bt) isolates separated from different ecological regions of Pakistan were characterized for crystal protein gene composition and pesticidal activity against two lepidopteran rice insect pests, the yellow stem borer (Scirpophaga incertulas) and the rice leaf folders (Cnaphalocrocis medinalis). A representative seventeen isolates were selected on the basis of initial screening and further characterization of pesticidal activity was performed according to following criteria; colony and parasporal inclusion morphology, SDS-PAGE, western blot analysis and comparative biotoxicity assays to determine LC₅₀ values. All isolates produced parasporal inclusion bodies and spores in their cells. Immunoblotting results showed that Pakistanian isolates synthesized entomocidal proteins belonging to Cry1A and Cry2A toxin groups. The biological activity of local isolates demonstarted a wide range of LC₅₀ values against both target insects pests. The most potent isolates, INS 1.13, INS 2.25 and NW 4.1 against S. incertulas showed LC₅₀ values of 29.83, 30.37 and 24.77 ng/ml of toxin, respectively. The LC₅₀ values of 57.37 and 73.09 ng/ml of toxin were exhibited by local isolates, INS 2.25 and RL 4.8 against C. medinalis, respectively.     

Detection and characterisation of a Bacillus thuringiensis crystal protein with nematicidal activity against the pinewood nematode Bursaphelenchus xylophilus

Nematicidal Bacillus thuringiensis (Bt) strains were isolated from forests in Zhejiang, China for further characterisation. PCR analysis was performed with nine pairs of primers specific for cry1, cry2, cry3, cry4, cry5, cry6, cry9, cry11 and cry13 to characterise and classify cry gene groups from Bt isolates. The isolates from individual cry groups were tested for nematicidal activity against the pinewood nematode Bursaphelenchus xylophilus, which is implicated in pine wilt disease. PCR identified 14 different categories of cry gene combinations, indicating a large diversity of cry genes. The cry1 gene was by far the most abundant in Bt isolates and was found in 68% of samples. The Bt isolates zjfc85 and zjfc392 were from two distinct classes, but shared the same cry5 amplification profile and the same ~130 kDa protein; they had the highest nematicidal activity against pinewood nematode during the 48 h exposure tests, resulting in 90 and 59% mortality (9% of mortality under control conditions), respectively. The ~130 kDa Cry protein from isolate zjfc85 was purified and named as Cry5Ba3. Bioassay results indicated pinewood nematode was highly susceptible to Cry5Ba3 and exhibited profound growth abnormalities after exposure to Cry5Ba3. Our results are a novel finding and provide a potential strategy to manage pine wilt disease caused by B. xylophilus based on a nematicidal Bt.     

Identification of Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) as a binding protein for a 68-kDa <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> parasporal protein cytotoxic against leukaemic cells

Background  

Bacillus thuringiensis (Bt), an ubiquitous gram-positive spore-forming bacterium forms parasporal proteins during the stationary phase of its growth. Recent findings of selective human cancer cell-killing activity in non-insecticidal Bt isolates resulted in a new category of Bt parasporal protein called parasporin. However, little is known about the receptor molecules that bind parasporins and the mechanism of anti-cancer activity. A Malaysian Bt isolate, designated Bt18 produces parasporal protein that exhibit preferential cytotoxic activity for human leukaemic T cells (CEM-SS) but is non-cytotoxic to normal T cells or other cancer cell lines such as human cervical cancer (HeLa), human breast cancer (MCF-7) and colon cancer (HT-29) suggesting properties similar to parasporin. In this study we aim to identify the binding protein for Bt18 in human leukaemic T cells.     

Characterization of Bacillus thuringiensis Strain Bt185 Toxic to the Asian Cockchafer: Holotrichia parallela

A new Bacillus thuringiensis strain, Bt185, was isolated from HeBei soil samples in China. Observations after transmission electron microscopy found that the strain produced spherical parasporal inclusions similar to that of the B. thuringiensis subsp. japonensis Buibui strain, which showed toxicity to both Anomala corpulenta and Popillia japonica. The plasmid profile seen on an agarose gel revealed that Bt185 contained six large bands of 191 kb, 161 kb, 104 kb, 84 kb, 56 kb, and 37 kb. Sodium dodecyl sulfate–polyacrylamide gel electrophoresis analysis revealed one major band with an estimated molecular mass of 130 kDa. Polymerase chain reaction–restriction fragment length polymorphism results showed that a novel cry8-type gene sequence was found in the Bt185 strain. When we screened for this novel gene sequence, an additional novel cry8-type gene was isolated, having a partial sequence of 2340 bp and encoding a protein of 780 amino acids. Bioassay results showed that Bt185 had no toxicity against several Coleopteran and Lepidopteran pests. However, Bt185 exhibited toxicity against larvae of the Asian cockchafer, Holotrichia parallela. This is the first report of the occurrence of a Bacillus strain that has insecticidal activity against Holotrichia parallela larvae.     

Cloning and characterisation of a novel cry1H gene effective against lepidopterous larvae from a Bacillus thuringiensis strain

We characterised a novel holotype cry gene (cry1Hc1) harboured in BN23-5 Bt strain which was isolated from soil samples in Sichuan, China. In this study, the full length of the cry1Hc1 gene was cloned from the strain. The cry1Hc1 gene was inserted into a shuttle vector (pSTK) and expressed in an acrystalliferous mutant Bacillus thuringiensis HD73^?. In this transformant, cry1Hc1 was expressed and diamond-shaped parasporal crystals were formed. The resulting insecticidal activity showed that the Cry1Hc1 protein exhibited high larvicidal activity against larvae of Plutella xyllostella and Ostrinia furnacalis with lethal concentration 50 of 55.21 and 118.44?μg/ml, respectively. Sequence analysis of the gene was also performed; the Cry1Hc1 protein retained eight conserved regions commonly found in the existing Cry proteins.     

Diversity of Bacillus thuringiensis Isolated from Western Ghats of Tamil Nadu State, India

The Western Ghats of India is the one of the world’s 10 “Hottest biodiversity hotspots” that runs along the western part of India through four states including Tamil Nadu. The only biodiversity reserve in the Western Ghats is the Nilgiri biosphere located in the Tamil Nadu state. In the present study, 525 soil samples were collected from all the 14 different divisions of the Western Ghats in Tamil Nadu state, India. A total of 316 new isolates of Bacillus thuringiensis (Bt) that produce parasporal crystalline inclusions were isolated from 525 soil samples. Seven different types of crystalline inclusions were observed in the 316 new isolates of Bt. Cuboidal inclusion was predominantly present in 26.9% of the Bt isolates when compared to other shapes. Further characterization of 70 of the 316 Bt isolates for crystal protein profile through SDS-PAGE revealed six different types of crystal protein profile viz., 135 and 65, 135, 95, 65, 43, and 30 kDa crystal proteins. Variation in the mass of crystal protein(s) purified from the isolates of Bt revealed molecular diversity of this bacterium prevalent in the Western Ghats of Tamil Nadu, India.     

Specific activity of a Bacillus thuringiensis strain against Locusta migratoria manilensis

Bacillus thuringiensis (Bt) has played an important role in biocontrol of pests. However, insecticidal activity of B. thuringiensis against locusts has been rarely reported. Bt strain BTH-13 exhibiting specific activity to locusts was isolated from a soil sample in China and characterized. Its bipyramidal parasporal crystal is mainly composed of a protein of 129 kDa, and produces a mature toxin of 64 kDa after activation. The pattern of total DNA from BTH-13 showed a large and three small plasmid bands. Known δ-endotoxin genes, cry1Aa, cry1Ab, cry1Ac, cry1C, cry3, cry4 and cry7Aa were not found from strain BTH-13 by PCR amplification. The sequence analysis of a DNA fragment produced by PCR amplification with degenerate cry-selective primers revealed that the fragment encoded a δ-endotoxin segment, which exhibited some similarity to several Cry proteins (41% of the highest similarity to Cry7Ba1). Toxicity tests were performed against Locusta migratoria manilensis, and the results demonstrated that trypsin-treated sporulated cultures and crystal proteins had high toxicity to larval and adult locusts. Cry toxin of BTH-13 was detected on the midguts of treated locusts using immunofluorescent technology, which confirmed the site of action of the crystal proteins in their toxicity for locusts.     

Characterisation of lepidopteran-active Bacillus thuringiensis isolates recovered from infected larvae

Abstract

As a part of an ongoing nationwide programme focused on finding novel strains of Bacillus thuringiensis (Bt) that are toxic to some of the major pests that impact economically important crops, we initiated a search for Bt isolates native to Syria. We succeeded in assembling a collection of 40 Bt isolates recovered from infected larvae of Galleria mellonella, Helicoverpa armigera and Ephestia kuehniella. Light microscopy showed that all isolates produce bipyramidal and cuboidal crystal proteins. The 50% lethal concentration of the spore-crystal mixture of the 40 isolates against E. kuehniella larvae varied from 3 to more than 200 µg g^?1. A comparison of the LC₅₀ values of the tested isolates with the reference strain Bt kurstaki HD-1 (20.55 µg g^?1), showed that some of these isolates have a similar or up to six times higher toxicity potential. PCR screening revealed that all obtained isolates contain cry1 and cry2 genes, whereas only four contain cry9. Moreover, the proteins of 130 and 65/70 Kda encoded by these genes were detected in the SDS-PAGE of the purified parasporal bodies. Flagellar serotyping classified 30 as serovar kurstaki, six isolates serovar aizawai, one isolate cross-reacted with more than one H3 antisera and three were not typeable. Assays of toxicity of the aizawai isolates against third instar of G. mellonella showed that four, which contain cry9, have almost similar toxicity to the commercial strain Bt aizawai B401. Therefore, these isolates could be adopted for future applications to control G. mellonella. Moreover, this study contributes to our knowledge of Bt diversity in Syria where to date very few collections have been described.     

Biopolymer microencapsulations of Bacillus thuringiensis crystal preparations for increased stability and resistance to environmental stress

Parasporal crystals synthesized by Bacillus thuringiensis (Bt) have been widely used as microbial pesticides because of their toxicity to the larval stages of specific insects. However, parasporal crystals can be damaged by environmental stresses, such as high temperature, ultraviolet radiation, and desiccation. To reduce environmental susceptibility of parasporal crystals and extend the duration of their activity, we developed a new type of protection by making microcapsules of crystals (MCs). The microcapsules were self-assembled by alternate deposition (layer by layer) of low-cost chitosan and sodium alginate (or sodium carboxymethyl cellulose) on the crystal surface. Crystal toxins (Cry1Ac) were released from microcapsules at pH values above 9.0. Bioassay results demonstrated that microencapsulated preparations had larvicidal toxicity equivalent to the non-encapsulated form. Microencapsuled crystals were protected from environmental stresses such as high temperature and desiccation. The results indicate that microcapsule protection can enhance the efficacy of Bt in pest control, especially to Lepidoptera larvae that have a alkaline midgut.

     

Isolation and characterization of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strains from different grain habitats in Turkey

Bacillus thuringiensis (Bt) is a gram-positive, spore-forming bacterium and it produces insecticidal crystal (cry) proteins during sporulation. Because the genetic diversity and toxic potential of Bt strains differ from region to region, strains have been collected and characterized all over the world. The aim of this study is to isolate Bt strains in grain-related habitats in Turkey and to characterize them on the basis of crystal morphology, cry gene content, and chromosomal and plasmid DNA profiles. Four approaches were taken analysis with phase contrast (PC) microscopy, polymerase chain reaction (PCR), pulsed field gel electrophoresis (PFGE) and plasmid isolation. Ninety-six samples were collected from Central Anatolia and the Aegean region. Bt was isolated from 61 of 96 samples (63.5) and 500 Bt-like colonies were obtained. One hundred and sixty three of the colonies were identified as Bt based on cry protein formation using PC microscopy. Among the examined colonies, the overall proportion identified (as Bt index) was 0.33. We found that 103 isolates were positive for the five different cry genes (cry1, cry2, cry3, cry4 and cry9) examined with PCR. In addition, plasmid profiling of 37 cry gene-positive isolates indicated that the 15 kb plasmid band was present in all isolates; however, 11 of 37 isolates had more than one plasmid band at different sizes. Finally, chromosomal DNA profiling by PFGE gave rise to different DNA patterns for isolates containing the same cry gene which suggests a high level of diversity among the Bt strains isolated.     

Bacillus thuringiensis protein transfer between rootstock and scion of grafted poplar

Bacillus thuringiensis (Bt) Cry1Ac protein is a toxin against different leaf‐eating lepidopteran insects that attack poplar trees. In the present study, the mode of migration of the Bt‐Cry1Ac protein within poplar grafts was investigated. Grafting was done using Pb29 (transgenic poplar 741 with cry1Ac genes), CC71 (transgenic poplar 741 with cry3A genes), non‐transgenic poplar 741 and non‐transgenic Populus tomentosa, either as scion or as rootstock. In order to detect migration of Bt‐Cry1Ac protein from one portion of the graft union to different tissues in the grafted plant, ELISA analysis was employed to assess the content of Bt‐Cry1Ac protein in the phloem, xylem, pith and leaves of the grafted poplar. To further verify migration of Bt‐Cry1Ac protein, Clostera anachoreta larvae, which are susceptible to Bt‐Cry1Ac protein, were fed leaves from the control graft (i.e., graft portion that originally did not contain Bt‐Cry1Ac protein). The results showed that Bt‐Cry1Ac protein was transported between rootstock and scion mainly through the phloem. Migration of Bt‐Cry1Ac protein in the grafted union was also evidenced in that the leaves of the control graft did have a lethal effect on C. anachoreta larvae in laboratory feeding experiments.     

Evaluation of adult emergence and larval root injury for Cry3Bb1‐resistant populations of the western corn rootworm

The transgenic maize (Zea mays L.) event MON 88017 produces the Bacillus thuringiensis Berliner (Bt) toxin Cry3Bb1 to provide protection from western corn rootworm (Diabrotica virgifera virgifera LeConte) larval feeding. In response to reports of reduced performance of Cry3Bb1‐expressing maize at two locations in Illinois, we conducted a two‐year experiment at these sites to characterize suspected resistance, as well as to evaluate root injury and adult emergence. Single‐plant bioassays were performed on larvae from each population that was suspected to be resistant. Results indicate that these populations had reduced mortality on Cry3Bb1‐expressing maize relative to susceptible control populations. No evidence of cross‐resistance between Cry3Bb1 and Cry34/35Ab1 was documented for the Cry3Bb1‐resistant populations. Field studies were conducted that included treatments with commercially available rootworm Bt hybrids and their corresponding non‐Bt near‐isolines. When compared with their near‐isolines, larval root injury and adult emergence were typically reduced for hybrids expressing Cry34/35Ab1 either alone or in a pyramid. In many instances, larval root injury and adult emergence were not significantly different for hybrids expressing mCry3A or Cry3Bb1 alone when compared with their non‐Bt near‐isolines. These findings suggest that Cry34/35Ab1‐expressing Bt maize may represent a valuable option for maize growers where Cry3Bb1 resistance is either confirmed or suspected. Consistent trends in adult size (head capsule width and dry mass) for individuals recovered from emergence cages were not detected during either year of this experiment. Because of the global importance of transgenic crops for managing insect pests, these results suggest that improved decision‐making for insect resistance management is needed to ensure the durability of Bt maize.     

Bacillus thuringiensis isolates from Korean forest environments

We investigated the distribution, toxicity, morphology, and protein profiles of Bacillus thuringiensis isolates from forests in Korea to isolate naturally occurring novel B. thuringiensis. A total of 170 B. thuringiensis isolates were obtained from 832 samples producing spore and parasporal inclusion bodies. In toxicity tests for lepidopteran, dipteran, and coleopteran insects, 57.6% isolates were toxic only to Lepidoptera, 5.3% were toxic only to Diptera, and 24.1% were toxic to both Diptera and Lepidoptera. The remaining collections (13.0%) were not toxic to the tested insects. The shapes of the parasporal crystals produced in B. thuringiensis isolates were bipyramidal, spherical, ovoid, or irregular. As their toxicities varied with parasporal crystal shape, B. thuringiensis isolates possessing bipyramidal or irregular parasporal crystals were largely toxic to lepidopteran species whereas those producing spherical parasporal crystals were mainly toxic to dipteran species. B. thuringiensis toxic to both dipteran and lepidopteran insects contained 130- and 70-kDa parasporal crystals, whereas B. thuringiensis toxic to lepidopteran insects expressed 130-kDa parasporal crystals. The results suggest that forest areas in Korea are a rich source of B. thuringiensis and need to be further explored to discover novel B. thuringiensis isolates.     

Effect of Bt broccoli and resistant genotype of <Emphasis Type="Italic">Plutella xylostella</Emphasis> (Lepidoptera: Plutellidae) on development and host acceptance of the parasitoid <Emphasis Type="Italic">Diadegma insulare</Emphasis> (Hymenoptera: Ichneumonidae)

The ecological implications on biological control of insecticidal transgenic plants, which produce crystal (Cry) proteins from the soil bacterium Bacillus thuringiensis (Bt), remain a contentious issue and affect risk assessment decisions. In this study, we used a unique system of resistant insects, Bt plants and a parasitoid to critically evaluate this issue. The effects of broccoli type (normal or expressing Cry1Ac protein) and insect genotype (susceptible or Cry1Ac-resistant) of Plutella xylostella L. (Lepidoptera: Plutellidae) were examined for their effects on the development and host foraging behavior of the parasitoid, Diadegma insulare (Cresson) (Hymenoptera: Ichneumonidae) over two generations. Parasitism rate and development of D. insulare were not significantly different when different genotypes (Bt-resistant or susceptible) of insect host larvae fed on non-Bt broccoli plants. D. insulare could not discriminate between resistant and susceptible genotypes of P. xylostella, nor between Bt and normal broccoli plants with different genotypes of P. xylostella feeding on them. No D. insulare could emerge from Bt broccoli-fed susceptible and heterozygous P. xylostella larvae because these larvae were unable to survive on Bt broccoli. The parasitism rate, developmental period, pupal and adult weights of D. insulare that had developed on Bt broccoli-fed Cry1Ac-resistant P. xylostella larvae were not significantly different from those that developed on non-Bt broccoli-fed larvae. Female D. insulare emerged from Cry1Ac-resistant P. xylostella that fed on Bt plants could successfully parasitize P. xylostella larvae. The life parameters of the subsequent generation of D. insulare from P. xylostella reared on Bt broccoli were not significantly different from those from non-Bt broccoli. The Cry1Ac protein was detected in P. xylostella and in D. insulare when hosts fed on Bt broccoli. These results are the first to indicate that Cry1Ac did not harm the development or host acceptance of an important endoparasitoid after two generations of exposure. We suggest that using other Bt crops and resistant insect species would likely lead to similar conclusions about the safety of the presently used Bt proteins on parasitoids.     

Toxicity of a <Emphasis Type="Italic">Bacillus thuringiensis israelensis</Emphasis>-like strain against <Emphasis Type="Italic">Spodoptera frugiperda</Emphasis>

Bacillus thuringiensis (Bt) Berliner is a promising agent for microbial control of agriculturally and medically important insects. This study aimed at searching for Bt strains encoding Cry proteins that act more efficiently against fall armyworm. Thirty Bt strains were isolated from soil samples in Pernambuco State and evaluated through bioassays. Among these, strain I4A7 was the most efficient against the fall armyworm, Spodoptera frugiperda (J. E. Smith, 1797) (Lepidoptera: Noctuidae), and thus it was characterized by biochemical sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE) and molecular (polymerase chain reaction (PCR) and sequencing reaction) methods. The protein pattern of this strain on a SDS–PAGE was similar to that of B. thuringiensis israelensis (Bti). Moreover, I4A7 cry DNA sequence showed high identity (99–100%) to genes cry4Aa, 4Ba, 10Aa, 11Aa, cyt1Aa and cyt2B from Bti. The toxicity of the newly isolated Bti-like strain upon S. frugiperda should be considered as this strain might be used in combination with other Bt strains, such as B. thuringiensis var. kurstaki (Btk). Handling Editor: Helen Roy.     

A 54-kilodalton protein encoded by pBtoxis is required for parasporal body structural integrity in Bacillus thuringiensis subsp. israelensis

Strains of Bacillus thuringiensis such as B. thuringiensis subsp. israelensis (ONR-60A) and B. thuringiensis subsp. morrisoni (PG-14) pathogenic for mosquito larvae produce a complex parasporal body consisting of several protein endotoxins synthesized during sporulation that form an aggregate of crystalline inclusions bound together by a multilamellar fibrous matrix. Most studies of these strains focus on the molecular biology of the endotoxins, and although it is known that parasporal body structural integrity is important to achieving high toxicity, virtually nothing is known about the matrix that binds the toxin inclusions together. In the present study, we undertook a proteomic analysis of this matrix to identify proteins that potentially mediate assembly and stability of the parasporal body. In addition to fragments of their known major toxins, namely, Cry4Aa, Cry4Ba, Cry11Aa, and Cyt1Aa, we identified peptides with 100% identity to regions of Bt152, a protein coded for by pBtoxis of B. thuringiensis subsp. israelensis, the plasmid that encodes all endotoxins of this subspecies. As it is known that the Bt152 gene is expressed in B. thuringiensis subsp. israelensis, we disrupted its function and showed that inactivation destabilized the parasporal body matrix and, concomitantly, inclusion aggregation. Using fluorescence microscopy, we further demonstrate that Bt152 localizes to the parasporal body in both strains, is absent in other structural or soluble components of the cell, including the endospore and cytoplasm, and in ligand blots binds to purified multilamellar fibrous matrix. Together, the data show that Bt152 is essential for stability of the parasporal body of these strains.     

Susceptibility of field populations of sugarcane borer from non‐Bt and Bt maize plants to five individual Cry toxins

Abstract Sugarcane borer, Diatraea saccharalis (F.), is a major target of transgenic maize expressing Bacillus thuringiensis (Bt) proteins in South America and the US mid‐south region. Resistance development in target pest populations is a major threat to the sustainable use of Bt crops. In our field trials in 2009, a significant number of live borers and plant injury from D. saccharalis were observed in an experimental SmartStax? maize line. The objective of this study was to assess the relative susceptibility of two field populations of D. saccharalis collected from non‐Bt and Bt maize plants containing SmartStax? traits to five individual Cry proteins. The five Bt proteins included two proteins (Cry1A.105 and Cry2Ab2) that were expressed in SmartStax? maize plants and three other common Bt proteins (Cry1Aa, Cry1Ab and Cry1Ac) that were not produced in SmartStax?. Larval mortality and growth inhibition on Bt diet of the fourth generation after field collections were evaluated 7 days after release of neonates on the diet surface. The laboratory bioassays showed that 50% lethal concentration (LC₅₀) values for Cry1A.105 and Cry2Ab2 for the population originated from Bt plants were 3.55‐ and 1.34‐fold greater, respectively, than those of the population collected from non‐Bt plants. In contrast, relative to the population from non‐Bt plants, the LC₅₀ of the population sampled from Bt plants were 3.85‐, 2.5‐ and 1.64‐fold more sensitive to Cry1Aa, Cry1Ab and Cry1Ac, respectively. The results did not provide clear evidence to conclude that the observed field survival of D. saccharalis on Bt plants was associated with increased levels of resistance.     

Determination of baseline susceptibility to Cry1Ab protein for Asian corn borer (Lep., Crambidae)

Abstract: Although transgenic Bacillus thuringiensis (Bt) corn can provide a new tool for control of the Asian corn borer (ACB), Ostrinia furnacalis (Guenée), concern has been raised regarding the possibility of the target insect evolving resistance to the Bt protein under intensive selection pressure from Bt corn. Therefore, it is necessary to establish baseline data to enable detection of changes in susceptibility in field populations after prolonged exposure to Bt corn. Susceptibility to purified Cry1Ab protein from Bt was determined for 10 populations of ACB from the major corn‐growing regions of China, ranging geographically from Heilongjiang Province in the northeast to Shaanxi Province in the east‐central part. Neonate ACB were exposed to semi‐artificial diet incorporated with increasing Cry1Ab protein concentrations, and mortality and growth inhibition were evaluated after 7 days. The range of LC₅₀ (50% lethal concentration) among the populations was 0.10 to 0.81 μg/g (Cry1Ab protein/diet). Differences (P < 0.05) in susceptibility among the populations were significant. LC₅₀s generated from the Huanghuaihai Summer Corn Region were higher than those from the Spring Corn Regions. Bt was one of the significant natural biomortality factors of overwintering generation ACB. There was a significant correlation between percentage of the larvae infected with Bt and their LC₅₀ values to Cry1Ab protein in geographic distinct populations (r = 0.7350*, d.f. = 8, _r0.05 = 0.632). Based on the background of Bt formulations used for corn insect pests control in these areas, these differences were not caused by prior exposure to Bt insecticides. Instead, the small differences likely reflect natural Bt selection pressure. Because the variation in susceptibility to Cry1Ab was small (<10‐fold), the ACB apparently is susceptible to Cry1Ab across its range within China.     

Novel Bacillus thuringiensis Binary Insecticidal Crystal Proteins Active on Western Corn Rootworm, Diabrotica virgifera virgifera LeConte

A new family of insecticidal crystal proteins was discovered by screening sporulated Bacillus thuringiensis cultures for oral activity against western corn rootworm (WCR) larvae. B. thuringiensis isolates PS80JJ1, PS149B1, and PS167H2 have WCR insecticidal activity attributable to parasporal inclusion bodies containing proteins with molecular masses of ca. 14 and 44 kDa. The genes encoding these polypeptides reside in apparent operons, and the 14-kDa protein open reading frame (ORF) precedes the 44-kDa protein ORF. Mutagenesis of either gene in the apparent operons dramatically reduced insecticidal activity of the corresponding recombinant B. thuringiensis strain. Bioassays performed with separately expressed, biochemically purified 14- and 44-kDa polypeptides also demonstrated that both proteins are required for WCR mortality. Sequence comparisons with other known B. thuringiensis insecticidal proteins failed to reveal homology with previously described Cry, Cyt, or Vip proteins. However, there is evidence that the 44-kDa polypeptide and the 41.9- and 51.4-kDa binary dipteran insecticidal proteins from Bacillus sphaericus are evolutionarily related. The 14- and 44-kDa polypeptides from isolates PS80JJ1, PS149B1, and PS167H2 have been designated Cry34Aa1, Cry34Ab1, and Cry34Ac1, respectively, and the 44-kDa polypeptides from these isolates have been designated Cry35Aa1, Cry35Ab1, and Cry35Ac1, respectively.