Isolation of a non-insecticidal Bacillus thuringiensis strain belonging to serotype H8a8b

Bacillus thuringiensis strains non-toxic to Lepidoptera, Bombyx mori and Diptera, Culex pipiens pallens larvae were isolated from Korean soil samples during an investigation of B. thuringiensis isolates highly toxic to insect pests. One of these isolates, NTB-88, produces parasporal inclusions about 138 kDa in size and is non-toxic to 19 insect species of three orders, Lepidoptera, Diptera and Coleoptera, even though it is highly susceptible to tryptic cleavage. Study of flagellar (H) antibodies of 33 B. thuringiensis strains revealed that NTB-88 has an H antigen identical with that of subsp. morrisoni (serotype 8a8b). Comparison of parasporal inclusion proteins and plasmid DNA patterns of strain NTB-88 with B. thuringiensis subsp. morrisoni HD-12 and B. thuringiensis subsp. morrisoni PG-14 showed that the isolate is a novel non-insecticidal B. thuringiensis strain belonging to serotype 8a8b.     

Two novel strains of Bacillus thuringiensis toxic to coleopterans.

Two novel strains of Bacillus thuringiensis were isolated from native habitats by the use of genes coding for proteins toxic to coleopterans (cryIII genes) as hybridization probes. Strain EG2838 (isolated by the use of the cryIIIA probe) contained a cryIIIA-hybridizing plasmid of approximately 100 MDa and synthesized crystal proteins of approximately 200 (doublet), 74, 70, 32, and 28 kDa. Strain EG4961 (isolated by the use of a cryIIIA-related probe) contained a cryIIIA-hybridizing plasmid of approximately 95 MDa and synthesized crystal proteins of 74, 70, and 30 kDa. Structural relationships among the crystal proteins of strains EG2838 and EG4961 were detected; antibodies to the CryIIIA protein toxic to coleopterans reacted with the 74- and 70-kDa proteins of EG2838 and EG4961, antibodies to the 32-kDa plus 28-kDa proteins of EG2838 reacted with the 30-kDa protein of EG4961, and antibodies to the 200-kDa proteins of EG2838 reacted with the 28-kDa protein of EG2838. Experiments with B. thuringiensis flagella antibody reagents demonstrated that EG2838 belongs to H serotype 9 (reference strain B. thuringiensis subsp. tolworthi) and that EG4961 belongs to H serotype 18 (reference strain B. thuringiensis subsp. kumamotoensis). A mixture of spores plus crystal proteins of either EG2838 or EG4961 was toxic to the larvae of Colorado potato beetle (Leptinotarsa decemlineata), and significantly, the EG4961 mixture was also toxic to the larvae of southern corn rootworm (Diabrotica undecimpunctata howardi). DNA restriction blot analysis suggested that strains EG2838 and EG4961 each contained a unique gene coding for a protein toxic to coleopterans.     

Two novel strains of Bacillus thuringiensis toxic to coleopterans.

Two novel strains of Bacillus thuringiensis were isolated from native habitats by the use of genes coding for proteins toxic to coleopterans (cryIII genes) as hybridization probes. Strain EG2838 (isolated by the use of the cryIIIA probe) contained a cryIIIA-hybridizing plasmid of approximately 100 MDa and synthesized crystal proteins of approximately 200 (doublet), 74, 70, 32, and 28 kDa. Strain EG4961 (isolated by the use of a cryIIIA-related probe) contained a cryIIIA-hybridizing plasmid of approximately 95 MDa and synthesized crystal proteins of 74, 70, and 30 kDa. Structural relationships among the crystal proteins of strains EG2838 and EG4961 were detected; antibodies to the CryIIIA protein toxic to coleopterans reacted with the 74- and 70-kDa proteins of EG2838 and EG4961, antibodies to the 32-kDa plus 28-kDa proteins of EG2838 reacted with the 30-kDa protein of EG4961, and antibodies to the 200-kDa proteins of EG2838 reacted with the 28-kDa protein of EG2838. Experiments with B. thuringiensis flagella antibody reagents demonstrated that EG2838 belongs to H serotype 9 (reference strain B. thuringiensis subsp. tolworthi) and that EG4961 belongs to H serotype 18 (reference strain B. thuringiensis subsp. kumamotoensis). A mixture of spores plus crystal proteins of either EG2838 or EG4961 was toxic to the larvae of Colorado potato beetle (Leptinotarsa decemlineata), and significantly, the EG4961 mixture was also toxic to the larvae of southern corn rootworm (Diabrotica undecimpunctata howardi). DNA restriction blot analysis suggested that strains EG2838 and EG4961 each contained a unique gene coding for a protein toxic to coleopterans.     

Mass spectrometric sequencing of endotoxin proteins of Bacillus thuringiensis ssp. konkukian extracted from polyacrylamide gels

The amino acid sequences of the crystal proteins of Bacillus thuringiensis ssp. konkukian strain HL-47 are unknown. We used 1-D denaturing polyacrylamide electrophoresis, nano-ESI-Q-TOF-MS, and protein database searching to analyze these proteins. On SDS-PAGE gels, a preparation of purified crystal proteins exhibited 110, 102, 76, 55, 37, and 30 kDa protein bands. Immunoblotting of the gel with antiserum raised to this preparation revealed that four crystal proteins, of 110, 102, 55, and 37 kDa, reacted with the specific antiserum. The 102-kDa major protein reacted strongly. The other crystal proteins showed weak immunoreactivity. The 102 and 55 kDa proteins were analyzed by ESI-MS. The internal amino acid sequence of the 102-kDa major protein has similarity to the sequences of the surface layer protein of B. thuringiensis ssp. finitimus and B. anthracis. However, the internal amino acid sequences of the 55 kDa protein did not show any homology to proteins in the databases. Proteomic analysis of these proteins leads to the conclusion that the sequence data provided the protein databases of the crystal proteins of the konkukian ssp.     

Characterization of a new strain of Bacillus thuringiensis, a producer of an endotoxin against coleoptera

A new strain of Bacillus thuringiensis 2-7 was found to belong to the serotype H8. Cells of this strain contained irregular and flat crystalline inclusions and two large plasmids. The gene responsible for crystal formation is most likely located on the large plasmid greater than 105 MDa in size. Comparison of the cry gene of B. thuringiensis 2-7 and the cryIIIA gene of B. thuringiensis subsp. tenebrionis showed that their nucleotide sequences are identical.     

Extracellular production of a heat-stable somatic antigen by Bacillus thuringiensis

Extracellular production of a heat-stable somatic antigen (HSSA) by Bacillus thuringiensis subsp. dendrolimus strain T84A1-A [flagellar (H) serotype 4a: 4b] was serologically detected. In Ouchterlony tests, the HSSA antiserum gave single precipitin lines against both untreated and heat-treated culture supernatants. These two precipitin lines fused completely. When colonies of strain T84A1-A were grown on nutrient agar plates containing the homologous HSSA antiserum, precipitin halos were formed around the colonies. Of 27 type strains of B. thuringiensis subspecies tested, only the type strains of B. thuringiensis subsp. sotto (H serotype 4a: 4b) and B. thuringiensis subsp. israelensis (H serotype 14) formed [precipitin halos on nutrient agar plates containing antiserum against the HSSA of strain T84A1-A.     

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.     

Characterization of mosquito larvicidal parasporal inclusions of a Bacillus thuringiensis serovar higo strain

The parasporal inclusion proteins of the type strain of Bacillus thuringiensis serovar higo (H44), that have moderate mosquitocidal activity, were characterized. The purified parasporal inclusions, spherical in shape, were examined for activity against the two mosquito species, Culex pipiens molestus and Anopheles stephensi and the moth-fly, Telmatoscopus albipunctatus . The LC₅₀ values of the inclusion for the two mosquitoes were 3·41 and 0·15 μg ml⁻¹, respectively. No mortality was shown for T. albipunctatus larvae by the inclusions at concentrations up to 1 mg ml⁻¹. Solubilized parasporal inclusions exhibited no haemolytic activity against sheep erythrocytes. Parasporal inclusions consisted of eight proteins with molecular masses of 98, 91, 71, 63, 59, 50, 44 and 27 kDa. Of these, the 50 and 44 kDa proteins were the major components. Analysis with immunoblotting revealed that, among several inclusion proteins of B. thuringiensis serovar israelensis, only two proteins of 130 kDa and 110 kDa reacted weakly with antibodies against higo proteins. N-terminal amino acid sequences of the 98, 91, and 71 kDa proteins showed 85–100% identity to those of the two established Cry protein classes, Cry4A and Cry10A.     

Sequence diversity of the Bacillus thuringiensis and B. cereus sensu lato flagellin (H antigen) protein: comparison with H serotype diversity

We set out to analyze the sequence diversity of the Bacillus thuringiensis flagellin (H antigen [Hag]) protein and compare it with H serotype diversity. Some other Bacillus cereus sensu lato species and strains were added for comparison. The internal sequences of the flagellin (hag) alleles from 80 Bacillus thuringiensis strains and 16 strains from the B. cereus sensu lato group were amplified and cloned, and their nucleotide sequences were determined and translated into amino acids. The flagellin allele nucleotide sequences for 10 additional strains were retrieved from GenBank for a total of 106 Bacillus species and strains used in this study. These included 82 B. thuringiensis strains from 67 H serotypes, 5 B. cereus strains, 3 Bacillus anthracis strains, 3 Bacillus mycoides strains, 11 Bacillus weihenstephanensis strains, 1 Bacillus halodurans strain, and 1 Bacillus subtilis strain. The first 111 and the last 66 amino acids were conserved. They were referred to as the C1 and C2 regions, respectively. The central region, however, was highly variable and is referred to as the V region. Two bootstrapped neighbor-joining trees were generated: a first one from the alignment of the translated amino acid sequences of the amplified internal sequences of the hag alleles and a second one from the alignment of the V region amino acid sequences, respectively. Of the eight clusters revealed in the tree inferred from the entire C1-V-C2 region amino acid sequences, seven were present in corresponding clusters in the tree inferred from the V region amino acid sequences. With regard to B. thuringiensis, in most cases, different serovars had different flagellin amino acid sequences, as might have been expected. Surprisingly, however, some different B. thuringiensis serovars shared identical flagellin amino acid sequences. Likewise, serovars from the same H serotypes were most often found clustered together, with exceptions. Indeed, some serovars from the same H serotype carried flagellins with sufficiently different amino acid sequences as to be located on distant clusters. Species-wise, B. halodurans, B. subtilis, and B. anthracis formed specific branches, whereas the other four species, all in the B. cereus sensu lato group, B. mycoides, B. weihenstephanensis, B. cereus, and B. thuringiensis, did not form four specific clusters as might have been expected. Rather, strains from any of these four species were placed side by side with strains from the other species. In the B. cereus sensu lato group, B. anthracis excepted, the distribution of strains was not species specific.     

A high homology exists in N-terminal amino acid sequences of δ-endotoxins between Lepidoptera-specific and Coleoptera-specific Bacillus thuringiensis strains

The 130 kDa parasporal inclusion proteins of the Lepidoptera-specific Bacillus thuringiensis reference strains for four H serovars were examined for sequences of 14 N-terminal amino acids. The four sequences fell into a single category, MNRNNQNEYEVIDA, and were dissimilar to any of the established sequences for Lepidoptera- and/or Diptera-killing crystal proteins. They were highly related to the reported sequence of the 130 kDa protein of the strain Buibui (serovar japonensis ), which is specific for scarabaeid coleopterans.     

Isolation of Bacillus thuringiensis subsp. israelensis from diseased field-collected larvae of the saturniid moth, Hylesia metabus, in French Guiana

Abstract An isolate of Bacillus thuringiensis subsp. israelensis (BTI) was obtained from field-collected larvae of the saturniid moth, Hylesia metabus . This isolate was shown to belong to serotype H 14, and to produce a spherical parasporal body identical to that of the type strain of BTI. With an LC₅₀ of 0.764 μg cm⁻², this isolate was more toxic to H. metabus than the HD-1 strain of B. thuringiensis subsp. kurstaki (HD-1). These results demonstrate that BTI can be active against lepidopterous insects, a wider spectrum of activity than previously realized.     

Characterization of Cry34/Cry35 binary insecticidal proteins from diverse Bacillus thuringiensis strain collections

Bacillus thuringiensis crystal proteins of the Cry34 and Cry35 classes function as binary toxins showing activity on the western corn rootworm, Diabrotica virgifera virgifera LeConte. We surveyed 6,499 B. thuringiensis isolates by hybridization for sequences related to cry35A genes, identifying 78 strains. Proteins of the appropriate molecular mass (ca. 44 kDa) for Cry35 were observed in 42 of the strains. Full-length, or nearly full-length, sequences of 34 cry34 genes and 16 cry35 genes were also obtained from cloning, PCR analysis, and DNA sequencing. These included representatives of all known Cry34A, Cry34B, Cry35A, and Cry35B classes, as well as a novel Cry34A/Cry35A-like pair. Bioassay analysis indicated that cry35-hybridizing strains not producing a ca. 14-kDa protein, indicative of Cry34, were not active on corn rootworms, and that the previously identified Cry34A/Cry35A pairs were more active than the Cry34B/Cry35B pairs. The cry35-hybridizing B. thuringiensis strains were found in locales and materials typical for other B. thuringiensis strains. Comparison of the sequences with the geographic origins of the strains showed that identical, or nearly identical, sequences were found in strains from both Australasia and the Americas. Sequence similarity searches revealed that Cry34 proteins are similar to predicted proteins in Photorhabdus luminescens and Dictyostelium discoidium, and that Cry35Ab1 contains a segment similar to beta-trefoil domains that may be a binding motif. The binary Cry34/Cry35 B. thuringiensis crystal proteins thus appear closely related to each other, are environmentally ubiquitous, and share sequence similarities consistent with activity through membrane disruption in target organisms.     

Isolation of Multiple Subspecies of Bacillus thuringiensis from a Population of the European Sunflower Moth, Homoeosoma nebulella

Five subspecies of Bacillus thuringiensis were isolated from dead and diseased larvae obtained from a laboratory colony of the European sunflower moth, Homoeosoma nebulella. The subspecies isolated were B. thuringiensis subspp. thuringiensis (H 1a), kurstaki (H 3a3b3c), aizawai (H 7), morrisoni (H 8a8b), and thompsoni (H 12). Most isolates produced typical bipyramidal crystals, but the B. thuringiensis subsp. thuringiensis isolate produced spherical crystals and the B. thuringiensis subsp. thompsoni isolate produced a pyramidal crystal. Analysis of the parasporal crystals by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the crystals from the B. thuringiensis subsp. kurstaki and aizawai isolates contained a protein of 138 kDa whereas those from B. thuringiensis subsp. morrisoni contained a protein of 145 kDa. The crystals from B. thuringiensis subsp. thuringiensis contained proteins of 125, 128, and 138 kDa, whereas those from B. thuringiensis subsp. thompsoni were the most unusual, containing proteins of 37 and 42 kDa. Bioassays of purified crystals conducted against second-instar larvae of H. nebulella showed that the isolates of B. thuringiensis subspp. aizawai, kurstaki, and thuringiensis were the most toxic, with 50% lethal concentrations (LC(inf50)s) of 0.15, 0.17, and 0.26 (mu)g/ml, respectively. The isolates of B. thuringiensis subspp. morrisoni and thompsoni had LC(inf50)s of 2.62 and 37.5 (mu)g/ml, respectively. These results show that a single insect species can simultaneously host and be affected by a variety of subspecies of B. thuringiensis producing different insecticidal proteins.     

Description of Bacillus thuringiensis wratislaviensis (H-47), a new serotype originating from WrocŁaw (Poland), and other soil isolates from the same area

Twenty-four Bacillus thuringienis ( Bt ) strains were isolated and examined in respect of serotype, plasmid content crystal-composing proteins and insecticidal activity. Strains PO1–PO11 and PO14–PO15 were recognized as B. thuringiensis kurstaki H3a3b3c. The strains PO12 and PO13 were found to share a common novel antigen determining the new serotype H-47, and were designated as serovar wratislaviensis . Further investigations showed that all strains carried multiple plasmids (for example six different large plasmids in PO12 strain) and formed crystals composed of either two proteins, 135·8 kDa and 66·2 kDa (strains PO1–PO11 and PO14–PO24), or on protein, 66·2 kDa (strains PO12 and PO13). Preliminary toxicity tests with crude suspensions of spores and crystals showed rather low activity (<50% mortality) against fruitfly larvae and nymphs of cockroaches and high toxic effects (up to 90% mortality) against house fly larvae.     

Characterization of the anti-cancer-cell parasporal proteins of a Bacillus thuringiensis isolate

An unusual activity, associated with non-insecticidal and non-haemolytic parasporal inclusion proteins of a Bacillus thuringiensis soil isolate, designated 89-T-26-17, was characterized. The parasporal inclusion of this isolate was bipyramidal, rounded at both ends, containing proteins of 180, 150, 120, 100, and 88 kDa. No homologies with the Cry and Cyt proteins of B. thuringiensis were detected based on N-terminal sequences. Proteolytic processing of the inclusion proteins by proteinase K, trypsin, and chymotrypsin produced a major protein of 64 kDa exhibiting cytocidal activity against human leukaemic T cells and uterus cervix cancer (HeLa) cells. The protease-activated proteins showed no cytotoxicity to normal T cells.     

类似S-层蛋白的苏云金芽胞杆菌伴胞晶体蛋白基因的克隆

芽胞杆菌CTC菌被鉴定为苏云金芽胞杆菌,鞭毛血清型H2,幕虫亚种;产生卵圆形伴胞晶体,伴胞晶体蛋白为100kD;测定了该蛋白 N－末端序列,该序列与炭疽芽胞杆菌的细胞表面S－层蛋白具92－93％相似性,根据Southern杂交制作了该晶体蛋白基因ctc所在位置的限制性酶切图谱,分别克隆了该基因5’和3’端所在2．9kb XbaI片段和3．1kb Cla I DNA片段,彼此间具0．6kb重叠,通过拼接获得含完整ctc基因的克隆,含该基因的大肠杆菌与表达S－层蛋白的大肠杆菌具相似生长特征,初步表明CTC菌株的伴胞晶体由细胞表面S－层蛋白组成,苏云金芽胞杆菌区别于蜡状芽胞杆菌和炭疽芽胞杆菌的唯一标准是能形成伴胞晶体,由于S－层是细胞表面的结构成分,本文对CTC菌株鉴定为苏云金芽胞杆菌以及伴胞晶体作为苏云金芽胞杆菌鉴别的唯一标准提出了质疑。     

Characterization of Bacillus thuringiensis serovar bolivia (serotype H63), a novel serovar isolated from the Bolivian high valleys

The type strain Bacillus thuringiensis var. bolivia (serotype H63), isolated from the Bolivian high valleys, has been characterized at different levels. Its parasporal crystal has an unusual shape and it is composed of a protein of 155 kDa which shows two bands of 75 and 80 kDa after activation. Analysis by PCR shows the presence of cry1 genes, and amplification with specific primers gave products for cry1 E, cry1 D, cry4 A and cry4 B with sizes different to those expected. Immunoblotting tests showed positive reaction for Cry1 E, Cry3 A, Cry4 A and Cry11 A crystal proteins. The plasmid pattern revealed two large and two small plasmids. Toxicity tests were performed against 14 insects and a slight toxicity was found against Plutella xylotella and Trichoplusia ni.     

Characterization of Bacillus thuringiensis ser. jordanica (serotype H71), a novel serovariety isolated in Jordan

The novel strain of Bacillus thuringiensis J112 isolated from a soil sample in Jordan was classified and characterized in terms of toxicity against dipteran and nematode larvae, crystal protein pattern, plasmid profile, and cry gene content. A new name, Bacillus thuringiensis serovariety jordanica (H serotype 71), is proposed for the reference strain J112. The parasporal crystal proteins were toxic to 3(rd) instar larvae of Drosophila melanogaster and to 2(nd) stage juveniles of root knot nematodes Meloidogyne javanica and M. incognita, but showed poor mosquitocidal activity towards Culex pipiens molestus and Culiseta longiareolata larvae. Solubilized and trypsin-digested crystal proteins possessed moderate hemolytic activity against sheep erythrocytes. SDS-polyacrylamide gel electrophoresis revealed that crystals are composed of several polypeptides ranging from 24 to 170 kDa, of which the 20-, 42-, 140-, and 170-kDa proteins were the major components. Analysis of the plasmid pattern of J112 revealed the presence of two large plasmidic bands of about 160 and 205 kbp. PCR with total DNA from strain J112 and specific primers for cry1, cry2, cry3, cry4, and cyt2A genes revealed that cry1, cry3A, cry4, cry5 and cyt2a genes are present.     

Expression of the insecticidal crystal protein gene from a Gram-positive Bacillus thuringiensis in a Gram-negative Pseudomonas fluorescens mediated by protoplast fusion

Abstract Protoplast fusion between a Gram-negative strain Pseudomonas fluorescens having plant growth promoting activities and a Gram-positive Bacillus thuringiensis var. kurstaki HD 73 possessing insecticidal activity, was carried out to generate P. fluorescens hybrids possessing insecticidal activity. The antibiotic resistance markers of P. fluorescens (rif^r, nal^r) and the immunoreactivity to the antiserum raised against the crystal proteins of B. thuringiensis var. galleriae were used as selection markers for the hybrids. The hybrids exhibited lethal but differential activity in Heliothis armigera and in Spodoptera litura when compared to the parenthal B. thuringiensis strain. The anti-feedant activity which is characteristic of B. thuringiensis toxin was not observed in the hybrids. Although the presence of sequences homologous to the cloned insecticidal gene of B. thuringiensis was demonstrated, the Western blot analysis of cell extract of the hybrid (PK 105) showed that only low molecular mass crystal proteins (less than 40 kDa) could be detected under denaturing conditions. It indicates that the high molecular mass toxin peptide may be degraded by proteolysis. Besides this, a clear separation of lethal and anti-feedant activity of the B. thuringiensis toxin has been observed by this study.     

Fingerprinting of Bacillus thuringiensis type strains and isolates by using Bacillus cereus group-specific repetitive extragenic palindromic sequence-based PCR analysis

A total of 119 Bacillus thuringiensis strains (83 type strains and 26 native isolates), as well as five B. cereus group species, were analyzed by repetitive extragenic palindromic sequence-based PCR analysis (Rep-PCR) fingerprinting. Primers Bc-REP-1 and Bc-REP-2 were specifically designed according to an extragenic 26-bp repeated sequence found in the six B. cereus group genomes reported. A total of 47 polymorphic bands were detected, and the patterns varied from 5 to 13 bands in number and from 0.2 to 3.8 kb in size. Virtually each type strain showed a distinctive B. cereus (Bc)-Rep-PCR pattern, except for B. thuringiensis serovars dakota (H serotype 15 [H15]) and sotto (H4a,4b), as well as serovars amagiensis (H29) and seoulensis (H35), which shared the same patterns. As expected, serovar entomocidus (H6) and its biovar subtoxicus showed an identical pattern; similarly, serovars sumiyoshiensis (H3a,3d) and fukuokaensis (H3a,3d,3e), which share two antigenic determinants, also showed identical Bc-Rep-PCR patterns. Interestingly, serovars israelensis (H14) and malaysiensis (H36), which share several phenotypic attributes, also showed identical Bc-Rep-PCR patterns. Native, coleopteran-active strains, including the self-agglutinated LBIT-74 strain, showed Bc-Rep-PCR patterns identical or very similar to that of the tenebrionis strain. Likewise, native mosquitocidal strains (including some self-agglutinated strains) also showed patterns identical or very similar to that of the serovar israelensis IPS-82 strain. Additionally, native beta-exotoxin-producing strains from serovar thuringiensis showed patterns identical to that of the B. thuringiensis type strain. The B. cereus group-specific Bc-Rep-PCR fingerprinting technique was shown to be highly discriminative, fast, easy, and able to identify B. thuringiensis serotypes, including nonflagellar and self-agglutinated strains.