Biological, Immunological, and Genetic Analysis of Bacillus thuringiensis Isolated from Granary in Korea

To isolate a naturally occurring novel Bacillus thuringiensis strain, we investigated the distribution, toxicity, morphology, H serotype, and gene type of B. thuringiensis from residue samples of granary in Korea. A total of 163 B. thuringiensis isolates out of 411 samples producing spore and crystal were obtained. In toxicity tests, 80% of all isolates were toxic to lepidoptera, and 12% were not toxic to any of tested insects. And dipteran-active and lepidopteran/dipteran-active isolates were rare (2% and 6%, respectively). 152 B. thuringiensis isolates produced typical rhomboidal crystals, and the remainder produced parasporal inclusions with various morphologies. Serological test showed that B. thuringiensis isolates in granary represented 12 H serotypes, indicating varied distribution of B. thuringiensis. Of these, the serotype 3ab predominated, followed by the serotype 7 and 4ac. B. thuringiensis isolates of the serotype 3ab, 4ac, 5ab, 7, 8ab, 9, and 23 were toxic to lepidoptera, and the serotype 8bd, 12, 18, and 20ac were nontoxic, while 14 isolates were untypable by 33 B. thuringiensis H antisera. The frequency of toxicity against lepidoptera and diptera was primarily highly toxic. PCR analysis using cryI gene type-specific primers showed that cryIA(b) genes are frequently found and cryIE gene exists in only one isolate. Analysis of B. thuringiensis crystals and plasmid DNAs indicated a diversity of crystal and gene types. Received: 15 January 1998 / Accepted: 18 February 1998     

Bacillus thuringiensis: A Common Member of Microflora in Activated Sludges of a Sewage Treatment Plant

Bacillus thuringiensis was recovered at a high frequency from activated-sludge system environments in an urban sewage-digestive plant. All of the test materials, sampled at several digesting steps, contained the organism. Of 515 colonies belonging to the B. cereus/B. thuringiensis group, 45 (8.7%) were assigned to B. thuringiensis. The highest density of this bacterium was 1.6 × 10³ cfu/ml in a scum sample of the first aeration basin. Among the 45 isolates, 7 were assigned to the known H serovars. Two isolates of the serovar kenyae isolates exhibited Lepidoptera-specific toxicity. Diptera-specific toxicity was shown by an isolate of serovar israelensis and a serologically undefined isolate. Lectin activity was associated with 12 isolates. Received: 10 October 2000 / Accepted: 17 November 2001     

Secondary Structural and Phylogenetic Implications of Nuclear Large Subunit Ribosomal RNA in the Ectomycorrhizal Fungus Tricholoma matsutake

A number of Bacillus thuringiensis isolates from sericultural farm, soil, and granary samples in Korea were found. B. thuringiensis isolates were predominant in granary (40%), followed by sericultural farm (33% and 25% in the spring and fall isolation), and soil (10%). In toxicity tests for three areas, lepidopteran-active isolates were rich in the spring of sericultural farm and granary, but the fall isolation of sericultural farm displayed that a large number of B. thuringiensis isolates having dual specificity against both lepidopteran and dipteran larvae were found. The soil showed even distribution against lepidoptera and/or diptera. Most of B. thuringiensis isolates showed strong toxicity against tested insects. PCR analysis using cryI, cryII, cryIII, cryIV, and cryV gene-specific primers for determination of the cry gene contents of B. thuringiensis isolates indicated that the frequency of the cryIA, cryIC, cryID, and cryII among cry genes predominated, and the cryIB, cryIE, cryIF, cryIG, and cryIV were not popular. In contrast, no PCR products were detected for the cryIII and cryV templates. Several B. thuringiensis isolates produced unusual PCR products and complicated combinations consisting of multiple cry genes. Seven out of 11 B. thuringiensis isolates undetected by specific primers from sericultural farm, all out of 9 isolates from soil, and 19 out of 25 isolates from granary were toxic to lepidoptera and/or diptera. In addition, five nontoxic isolates of sericultural farm, all of five nontoxic isolates of soil, and 13 nontoxic isolates of granary produced the expected PCR products. PCR results showed varied distribution of cry genes for three areas, respectively. An evaluation of this novel activity demands that several criteria be measured: the frequency, flagellar serotype, crystal morphology, toxicity, and combination of the cry genes. Received: 28 March 2000 / Accepted: 26 April 2000     

Characterization of Flagellar Antigens and Insecticidal Activities of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Populations in Animal Feces

In total, 287 Bacillus thuringiensis isolates, recovered from feces of 28 zoo-maintained animal species, were examined for flagellar (H) antigenicity and insecticidal activity. Serologically, 209 isolates (72.8%) were allocated to the 8 H serogroups, 4 were untypable, and 74 were untestable. Among the 8 H serotypes detected, H3abc (serovar kurstaki) predominated at a high frequency of 88.0%, followed by H6 (serovar entomocidus) with a frequency of 7.7%. Insecticidal activity was associated with 67.2% of the fecal populations: 188 isolates were toxic to both Bombyx mori (Lepidoptera: Bombycidae) and Aedes aegypti (Diptera: Culicidae), 2 isolates were specific for B. mori, and 3 isolates were toxic to A. aegypti only. Of the isolates with dual toxicity, 97.9% belonged to the serovar kurstaki, producing bipyramidal parasporal inclusions. All of the H7 (serovar aizawai) isolates were toxic to both insects. Received: 4 June 2002 / Accepted: 5 July 2002     

Distribution, Serological Identification, and PCR Analysis of Bacillus thuringiensis Isolated from Soils of Korea

A total, 58 strains of Bacillus thuringiensis were isolated from soils of various regions in Korea. Serological tests showed that B. thuringiensis isolates represented 10 H serotypes, indicating a varied flora of B. thuringiensis. But the H serotypes did not have a significantly uneven distribution, ranging from 1 to 11 isolates. In toxicity tests, 35% of all isolates were toxic to lepidoptera, 20% were toxic to diptera, and 9% were non-toxic isolates. Especially, a large number of lepidopteran/dipteran-active isolates (36%) were found. Forty all lepidopteran-active isolates produced typical rhomboidial inclusions, and the remainder, which belong to dipteran-active and non-toxic isolates, were spherical in shape. In addition, lepidopteran/dipteran-active isolates produced rhomboidal or spherical inclusions. PCR analysis using cryI, II, III, IV, and V gene-specific primers showed that the frequency of the cryIC gene (57%) predominated, followed by the cryIA(b) (45%) and cryIIA genes (34%). But, the cryIE, cryIF, cryIII, cryIVC and cryV genes were not reactive. Several isolates had unusual PCR products and multiple insecticidal crystal protein genes. PCR results showed varied distribution of the cry-type gene. Seven isolates were selected for evaluation of novel activity according to the following criteria: flagellar serotypes, parasporal inclusion morphology, SDS-PAGE, plasmid DNA patterns, toxicity, and the cry-type gene in PCR analysis. Two isolates, named S333 (H7) and S225 (H7), among them synthesized PCR products of the cryIC gene, but the S333 isolate producing rhomboidal inclusion was toxic to both Plutella xylostella and Culex pipiens, whereas the S225 isolate having toxicity to only C. pipiens produced spherical inclusion. Received: 13 March 1998 / Accepted: 14 April 1998     

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.     

Natural occurrence of Bacillus thuringiensis on cabbage foliage and in insects associated with cabbage crops

Bacillus thuringiensis was isolated from the phylloplane of organically grown cabbage in one field during two growth seasons (1992-93). The frequency of B. thuringiensis varied between 0.02 and 0.67 of the total B. cereus/B. thuringiensis population, with an average of 0.11. Characterization of the B. thuringiensis isolates from foliage showed that the majority (64% of 150 isolates) belonged to serovar kurstaki, had bipyramidal crystals and toxicity towards Pieris brassicae and/or Trichoplusia ni. Other serovars were also found on the foliage but occurred at very low frequencies (one to three isolates of each serovar). Bacillus thuringiensis was also isolated from insects associated with the cabbage crop (Pieris rapae (Lep.), Delia radicum (Dip.), Syrphidae ribesii (Dip.) and Aleochara bilineata (Col.)), which were collected alive at different developmental stages in the same field. Serologically these isolates were assigned to the serovars kurstaki, aizawai, tochigiensis, colmeri and indiana/colmeri.     

Host range and gene contents of Bacillus thuringiensis strains toxic towards Spodoptera exigua

Thirty-five strains of the entomopathogenic bacterium Bacillus thuringiensisactive on Spodoptera exigua, were characterized by means of serological identification and determination of crygene contents by PCR. The insecticidal activity of these 35 strains was further confirmed against S. exiguaand tested against two other species of the same genus: S. littoralisand S. frugiperda. The results indicate that serovars aizawai, thuringiensis, and kurstakiwere the most frequent within S. exigua-active strains and that serovar aizawaihad the highest number of strains exhibiting toxicity against the three species bioassayed. The presence in crygenes as determined by PCR suggests a non random distribution of some crygenes among serovars. Genes cry1C, cry1D, and cry1E, which are known to code for proteins toxic against Spodopteraspecies, were very common within S. exigua-active strains, specially in those belonging to serovar aizawai. However, some strains harbouring one or more of these genes were not toxic to S. littoralisor S. frugiperda; and some strains lacking all of the Spodoptera-active genes were found to be toxic to all three species. This suggests differences in the expression levels among strains bearing toxic genes and the involvement of other genes toxic to Spodopteraspecies. Since strains sharing the same crygenes exhibited different host ranges, the results indicate the need to perform toxicity bioassays in addition to other tests (serological identification and PCR) in order to determine the insecticidal activity of B. thuringiensisstrains.     

Recovery of Bacillus thuringiensis from Marine Sediments of Japan

Marine sediments from a Japanese bay were examined for the occurrence of Bacillus thuringiensis. Of 1313 colonies belonging to the Bacillus cereus/B. thuringiensis group, 22 (1.7%) were allocated to B. thuringiensis. Marine isolates of B. thuringiensis consisted of heterogeneous multiple H serogroups; 10 isolates were assigned to the eight serovars (kurstaki, sumiyoshiensis, sotto, aizawai, darmstadiensis, thompsoni, neoleonensis, and higo); two motile isolates failed to react with the reference antisera; and the others were serologically untestable. Insecticidal activities were associated with two kurstaki isolates (toxic to both Lepidoptera and Diptera) and a higo isolate (Diptera-specific). None of the parasporal inclusion proteins of the 22 isolates exhibited in vitro cytotoxic activity against two vertebrate cells, sheep erythrocytes and HeLa cells. All B. thuringiensis isolates had no halophilism, although seawater-based medium supported their growth, sporulation, and formation of parasporal inclusions. Received: 29 November 1999 / Accepted: 10 January 2000     

Diversity of Bacillus thuringiensis strains in the maize and bean phylloplane and their respective soils in Colombia

AIMS: To evaluate the distribution of Bacillus thuringiensis strains from maize and bean phylloplane and their respective soils. METHODS AND RESULTS: B. thuringiensis was isolated from the phylloplane and soil of maize and bean from three municipalities in Antioquia, Colombia. Ninety six samples of phylloplane and 24 of soil were analyzed. A total of 214 isolates were obtained from 96 phylloplane samples while 59 isolates were recovered from 24 soil samples. Sixty five per cent and 12% of the phylloplane and soil isolates, respectively, showed activity against Spodoptera frugiperda. These isolates contained delta-endotoxin proteins of 57 and 130 kDa. The most toxic isolates against S. frugiperda had the genotype cry1Aa, cry1Ac, cry1B, and cry1D. In contrast, 27% of the phylloplane isolates and 88% of the soil isolates were active against Culex quinquefasciatus and had protein profiles similar to B. thuringiensis serovar. medellin and B. thuringiensis serovar. israelensis. The most active isolates contain cry4 and cry11 genes. CONCLUSIONS: The predominant population of B. thuringiensis on the phylloplane harbored the cry1 gene and was active against S. frugiperda, whereas in soil, isolates harboring cry11 gene and active against C. quinquefasciatus were the majority. SIGNIFICANCE AND IMPACT OF THE STUDY: The predominance of specific B. thuringiensis populations, both on the leaves and in the soil, suggests the presence of selection in B. thuringiensis populations on the studied environment.     

Occurrence of Bacillus thuringiensis in Fresh Waters of Japan

Bacillus thuringiensis was recovered at a relatively high frequency from both running and still fresh waters in natural environments of Kyushu, Japan. Of 107 water samples examined, 53 (49.5%) contained this organism. The frequency of B. thuringiensis colonies was 4.4% among 4414 colonies of the Bacillus cereus/B. thuringiensis group. The density of this bacterium in fresh waters averaged 0.45 cfu/ml. Serologically, B. thuringiensis isolates were assigned to 26 H serotypes. Of these, H14/36 (H serovar israelensis/malaysiensis) was the predominant, followed by the serotypes H3abc (kurstaki), H27 (mexicanensis), H3ad (sumiyoshiensis), and H35 (seoulensis). Of 195 isolates, 52 (26.7%) exhibited larvicidal activity against aquatic Diptera; 21 killed Culex pipiens molestus (Culicidae) only, and 31 were active on both the culicine mosquito and the moth-fly, Clogmia albipunctata (Psychodidae). The Diptera-toxic isolates produced spherical or irregularly pointed parasporal inclusions. Received: 4 September 1999 / Accepted: 8 October 1999     

Isolation of Bacillus thuringiensis from intertidal brackish sediments in mangroves

Intertidal brackish sediments in mangroves were examined for isolation of Bacillus thuringiensis strains with novel toxicity spectra. A total of 18 B. thuringiensis isolates were recovered from eight sediment samples (36.4%) out of 22 samples tested. The frequency of B. thuringiensis was 1.3% among the colonies of Bacillus cereus/B. thuringiensis group. While five isolates were allocated to the four H serogroups, the majority of the isolates were serologically untypable or untestable. Two isolates belonging to the serovar israelensis/tochigiensis (H14/19) exhibited strong toxicities against larvae of the mosquito, Culex pipiens molestus, and mammalian cells (sheep erythrocyte and two human cancer cell lines) in vitro. The other 16 isolates showed no toxicity against the mosquito and mammalian cells. None of the isolates showed larvicidal activity against the diamondback moth, Plutella xylostella. Strong lectin activities against sheep erythrocytes were associated with two serologically untestable isolates and an H3 isolate.     

Spore Coat Protein Synergizes Bacillus thuringiensis Crystal Toxicity for the Indianmeal Moth (Plodia interpunctella)

Spores from Bacillus thuringiensis serovars kurstaki and entomocidus synergized crystal protein toxicity for larvae of the Indianmeal moth (Plodia interpunctella). Preparations of spore-crystal mixtures of either serovar were more toxic for the larvae than either purified spores or crystals alone (based on dry weight). Spores lost 53% of their toxicity for the Indianmeal moth after 2 h of UV-irradiation, but remained partially toxic (28%) even after 4 h of irradiation. Spore coat protein was toxic for the Indianmeal moth and was synergistic with B. thuringiensis serovar kurstaki HD-1 crystal protein. Enhanced toxicity of the combined spore-crystal preparation was attributed to a combination of crystal and spore coat protein, and included the effects of spore germination and resulting septicemia in the larval hemolymph. Ultraviolet irradiation of spores reduced the toxicity from septicemia but not the synergism caused by spore coat protein. The potencies of spore-crystal preparations must be carefully evaluated on the basis of contributions from all three factors. Received: 15 September 1997/Accepted: 21 October 1997     

Bacillus thuringiensis isolates from northeastern Brazil and their activities against Plutella xylostella (Lepidoptera: Plutellidae) and Spodoptera frugiperda (Lepidoptera: Noctuidae)

Northeastern Brazil has been little explored in the search for Bacillus thuringiensis (Berliner) variants for the control of agricultural pests such as Plutella xylostella (L.) and Spodoptera frugiperda (J.E. Smith). The aim of this study was to isolate B. thuringiensis from soil and insect samples collected from the northeastern states and to evaluate their lethal and sublethal activities against the neonate larvae of P. xylostella and S. frugiperda. One hundred and four isolates were bioassayed and visualised for the presence of crystals. Bipyramidal crystals were present in 31% of the isolates. In pathogenicity tests, 13 and 19 isolates caused >30% mortality in P. xylostella and S. frugiperda, respectively. The Laboratory of Insect-Toxic Interactions (LIIT)-4311 isolate was the most toxic for P. xylostella, with toxicity similar to B. thuringiensis var. kurstaki (Dipel® WP) and B. thuringiensis var. aizawai (Xentari® WDG). For S. frugiperda, the LIIT-4311, LIIT-4306 and LIIT-4406 isolates were more active than B. thuringiensis var. aizawai. The LIIT-4311 and LIIT-4306 isolates caused high rates of larval growth inhibition in both P. xylostella and S. frugiperda. These results suggest a broad distribution of B. thuringiensis variants in areas of northeastern Brazil. Because LIIT-4306 and LIIT-4311 provided the highest levels of toxicity and larval growth inhibition for both P. xylostella and S. frugiperda, these isolates can be exploited to develop new technologies for pest management.     

Screening of Brazilian Bacillus thuringiensis isolates active against Spodoptera frugiperda,Plutella xylostella and Anticarsia gemmatalis

The toxicity of a collection of 1400 isolates of Bacillus thuringiensis was assessed against the Lepidoptera Spodoptera frugiperda, Anticarsia gemmantalis and Plutella xylostella. Twenty seven isolates showed toxicity to the larvae of these insects with three isolates demonstrating significantly greater potency than the standard strain against Lepidoptera, B. thuringiensis serovar kurstaki HD1. These isolates were all found to produce bipyramidal crystals and major spore-associated protein bands of approximately 130 and 65 kDa, consistent with the detection of at least one cry1 and one cry2 family gene in each. The high level of insecticidal activity of these isolates makes them excellent candidates for further development for use in the field.     

Isolation and characterization of Bacillus thuringiensis strains from olive-related habitats in Turkey

Aims: To isolate Bacillus thuringiensis strains from different olive‐related habitats (olive groves and olive oil factories) in Turkey and to characterize these strains by molecular methods. Methods and Results: A total of 150 samples, consisting of olive grove soil, green olive leaves, olive leaf residues, animal faeces, olive pomace and dust, were examined for the presence of B. thuringiensis. One hundred B. thuringiensis strains were isolated from 54 environmental samples (36%) and characterized in terms of crystal morphology, cry and cyt gene content by polymerase chain reaction, plasmid profiles and 16S‐internal transcribed spacer ribosomal DNA restriction fragment length polymorphism (16S‐ITS rDNA RFLP). The highest percentage of samples containing B. thuringiensis was found in 38 out of 54 total soil samples (70%). Of the 100 B. thuringiensis isolates, the most frequent crystal shapes were irregularly shaped (24%), spherical‐irregular pointed (19%), cuboidal (17%) and spherical (16%). The cry1 plus cry4 genotype was the most abundant genotype in our collection (21%). RFLP analysis of the amplified 16S‐ITS rDNA revealed 11 distinct patterns for the isolates and 10 reference strains. Conclusions: Bacillus thuringiensis isolates showed a great genetic diversity and crystal shape heterogeneity. Significance and Impact of the Study: This is the first study on the isolation and characterization of B. thuringiensis from olive‐related habitats in Turkey. No correlation was observed between the cry genotypes and insecticidal crystal shapes of the isolates. Restriction profiles of 23% of the isolates were found to be different from those of the 10 reference strains used.     

Characterization of flagellar antigens and insecticidal activities of Bacillus thuringiensis populations in animal feces

In total, 287 Bacillus thuringiensis isolates, recovered from feces of 28 zoo-maintained animal species, were examined for flagellar (H) antigenicity and insecticidal activity. Serologically, 209 isolates (72.8%) were allocated to the 8 H serogroups, 4 were untypable, and 74 were untestable. Among the 8 H serotypes detected, H3abc (serovar kurstaki) predominated at a high frequency of 88.0%, followed by H6 (serovar entomocidus) with a frequency of 7.7%. Insecticidal activity was associated with 67.2% of the fecal populations: 188 isolates were toxic to both Bombyx mori (Lepidoptera: Bombycidae) and Aedes aegypti (Diptera: Culicidae), 2 isolates were specific for B. mori, and 3 isolates were toxic to A. aegypti only. Of the isolates with dual toxicity, 97.9% belonged to the serovar kurstaki, producing bipyramidal parasporal inclusions. All of the H7 (serovar aizawai) isolates were toxic to both insects.     

Occurrence of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> in Canopies of a Natural Lucidophyllous Forest in Japan

A total of 39 Bacillus thuringiensis isolates were recovered from 38 leaves collected from 5- to 10-m-high canopies of 8 micro-/meso-phanerophyte species in a lucidophyllous forest of Japan. B. thuringiensis-positive leaves accounted for 1.4% of a total of 2805 leaves from 15 tree species. The frequency of the organism was 0.8% among the Bacillus cereus/B. thuringiensis group. Of 39 isolates obtained, 27 (69.2%) were allocated to 11 H serovars, and 12 isolates remained unidentified: 11 were motile but lacked reactivity to the 55 reference antisera, and 1 isolate was not flagellated. Two H serovars, kurstaki (H3abc) and tohokuensis (H17), occurred predominantly on canopy phylloplanes. Larvicidal activities against Bombyx mori and/or Aedes aegypti were associated with 49% of the canopy isolates. Strong hemolysis was induced by parasporal inclusion proteins of the two isolates of serovar israelensis (H14). Hemagglutinating (lectin) activity was associated with parasporal proteins of nine isolates. There was little correlation between insecticidal activity and lectin activity.     

Bacillus thuringiensis isolates from soil and diseased insects in Egyptian cotton fields and their activity against lepidopterous insects

The distribution of Bacillus thuringiensis in Egyptian soils of cotton cultivations represented by 11 governorates was studied. This study aimed to isolate indigenous strains that may be potent against some lepidopterous insect pests. Out of 45 isolates, only 10 were effective and they showed high levels of toxicity against the target insects at 500 μg/ml (80% larval mortality or higher). Among these 10 isolates, two isolates were potent against Spodoptera littoralis, two isolates were potent against Helicoverpa (= Heliothis) armigera, seven isolates were potent against Pectinophora gossypiella, but none were potent against Agrotis ypsilon. LC₅₀ and LC₉₀ values and the potency of the B. thuringiensis isolates have been determined. Trials were conducted to isolate B. thuringiensis from diseased lepidopterous insects collected from the same locations, but all isolates showed low potential activity against the target insects. These findings showed promise for the possible use of some indigenous B. thuringiensis strains in the control of lepidopterous pests in Egypt.     

Virulence of some native Bacillus thuringiensis isolates against Ephestia kuehniella (Zeller) (Lep., Pyralidae) and Pieris brassicae (Lep., Pieridae) larvae isolated from stored products of Urmia city

Bacillus thuringiensis isolates were recovered from numerous sources including soil, grain dust, plant leaves, diseased insect larvae from insectariums and sericulture environments. B. thuringiensis strains were isolated using acetate selection method with 0.025?M. concentration. The morphology of crystals was studied using light microscopy. Bioassay tests were conducted on Ephestia kuehniella (Zeller) (L.) as well as Pieris brassicae (L.). Based on the results, 35 B. thuringiensis strains were isolated from 140 samples. Majority of strains (%31.42) had bipyramidal crystals. There was a significant difference in toxicity to insects among B. thuringiensis isolates; 28.57 and 14.28% of the isolates were toxic to the larvae of P. brassicae and E. kuehniella, respectively, causing more than 50% mortality. Results indicated that B. thuringiensis isolates with insecticidal activity could be used in integrated pest management to control farm and stored product pests.