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.     

Cloning,Characterization and Diversity of Insecticidal Crystal Protein Genes of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Native Isolates from Soils of Andaman and Nicobar Islands

Bt strains were isolated from soils of Andaman and Nicobar Islands and characterized by microscopic and molecular methods. Diversity was observed both in protein and cry gene profiles, where majority of the isolates showed presence of 65 kDa protein band on SDS-PAGE while rest of them showed 130, 72, 44, and 29 kDa bands. PCR analysis revealed predominance of cry1I and cry7, 8 genes in these isolates. The PCR screening strategy presented here led us to identify putative novel cry genes which could be active against Coleoptera insects. Variation in the nucleotide sequences of cry genes from the isolates suggests that the genetic diversity of Bt isolates results from the influence of different ecological factors and spatial separation between strains generated by the conquest of different habitats in the soils of Andaman and Nicobar islands. The implications of our studies are important from the point of view of identifying novel cry genes that could be toxic to insects other than lepidoptera.     

Coleopteran-specific and putative novel cry genes in Iranian native Bacillus thuringiensis collection

The characterization of the strains containing Coleopteran-specific and also putative novel cry genes in Iranian native Bacillus thuringiensis collection is presented. Characterization was based on PCR analysis using 31 general and specific primers for cry1B, cry1I, cry3A, cry3B, cry3C, cry7A, cry8A, cry8B, cry8C, cry14, cry18, cry26, cry28, cry34 and cry35 genes, protein band patterns as well as their insecticidal activity on Xanthogaleruca luteola Mull. larvae. Forty six isolates (65.7%) contained minimum one Coleopteran-active cry gene. Based on universal primers, strains containing cry18 and cry26 genes were the most abundant and represent 27.1% and 24% of the isolates, respectively, whereas cry14, cry3, cry28, cry34, cry35, cry7, cry8 genes were less abundant, found in 14.2, 12.5, 10, 7, 7 and 5.6% of the strains, respectively. Based on specific primers, isolates containing cry1I were the most abundant (48.5%). Two strains containing Coleopteran-active cry genes showed higher activity against X. luteola larvae than B. thuringiensis subsp. morrisoni pathovar tenebrionis. Thirty isolates, when assayed for cry1C, cry5, cry6, cry8b, cry9, cry10, cry11, cry18, cry24 and cry35 genes, showed unexpected size bands. Cloning and sequencing of the amplicons allowed both the identification of known cry genes and the detection of putative novel cry1C sequences.     

Screening of <Emphasis Type="Italic">cry2</Emphasis> genes in <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> isolates from Argentina

A polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method for identification of cry2 genes from Bacillus thuringiensis (Bt) was established. Strains from different sources of Argentina were analyzed to study the distribution of cry2 genes. The results showed that cry2Aa/cry2Ab profile was the most abundant irrespective of source and represented 56 of 59 Bt isolates (94.9%). Three different cry2 profiles were found in this collection, one of which was novel.     

Characterization of cry1, cry2, and cry9 genes in Bacillus thuringiensis isolates from China

Bacillus thuringiensis isolates from different ecological regions and sources of China were analyzed to study the distribution and diversity of cry genes and to detect the presence of novel cry genes. Strains containing cry1-type genes were the most abundant and represent 237 of the 310 B. thuringiensis isolates (76.5%). About 70 and 15.5% of the isolates contained a cry2 gene or cry9 gene, respectively, while 10.0% of the strains did not contain a cry1, cry2, or cry9 gene. Among the cry1 containing isolates, cry1A (67.7%), cry1I (60.6%), cry1C (43.9%), and cry1D (39.4%) genes were the most abundant. Forty-three different cry1 gene profiles were detected in this collection. Several cry1 genes were associated at a high frequency, such as the cry1C-cry1D and cry1A-cry1I gene combination. The cry1A and cry2 amplicons were digested with selected restriction enzymes to examine sequence diversity. Based on this RFLP analysis, one novel cry1A-type gene was observed.     

Diversity of Bacillus thuringiensis strains from soil in China and their pesticidal activities

A large number of Bacillus thuringiensis (Bt) isolates have been obtained from soil samples in China. The flagellar antigen serotypes, cry genes and crystal proteins of 570 Bt isolates were determined, and the pesticidal activity was assayed against the insects, Plutella xylostella, Heliothis armigera, Phaedon brassicae and Locusta migratoria manilensis, and the snail, Oncomelania hupensis. The results indicated that the Bt isolates were distributed within 35 H-serotypes, in which isolates of H3 were the most abundant (20%) followed by H5 (13%), H7 (9%) and H4 (8.7%), whereas isolates of other H-serotypes were less than 6%. The percentage of isolates containing the genes cry1Ac, cry1Aa/cry1Ac, cry1Aa/cry1Ac/cry1Ab, and cry1Aa/cry1Ac/cry1C was 14.7%, 6.6%, 5.6%, and 7.0%, respectively, while 265 isolates, representing 46.5% of the 570 Bt isolates, did not show any amplification product for the genes cry1Aa, cry1Ac, cry1C, cry2, cry3, cry4, cry7Aa. Some of the 570 Bt isolates caused high mortality of the assayed pests with 14.9%, 6%, 1.6%, 1.1%, and 0.2% of the isolates killing more than 90% of P. xylostella, H. armigera, P. brassicae, O. hupensis, and L. migratoria manilensis, respectively. The remaining 76.2% of the 570 isolates caused no mortality or less than 90% mortality against the tested insect and snail species.     

Physiological and molecular detection of crystalliferous Bacillus thuringiensis strains from habitats in the South Central United States

Gram-positive, endospore-forming Bacillus thuringiensis-like strains were isolated from 95 of 413 samples collected at the 0–5 cm depth of noncultivated soils and stagnant or dried-up ponds as well as from dust from stored grain products in South Central United States. Based on the production of parasporal crystals, 25 isolates were identified as B. thuringiensis after examining 227 B. thuringiensis-like colonies. The greatest proportion of samples yielding B. thuringiensis were from the dust from grain storage. The sodium acetate selective medium, heat processing, and crystal staining used in the initial screening revealed diverse populations of B. thuringiensis, which were categorized into distinct crystal morphological groups. Sugar fermentation, antibiotic sensitivity, growth characteristics and PCR studies showed diversity among the isolates that were distributed among 25 of the 58 known strains. The most frequently isolated strains were kurstaki, aizawai, morrisoni, thuringiensis, sotto and kenyae that together represented more than 90% of the characterized isolates. PCR analysis using 30 family primer pairs for cry and cyt genes showed that the frequency of the cry1 gene (62%) was predominant followed by the cry2 genes (30%), and the rest (8%) were other cry gene types, such as cry3, cry4, cry10, cry11, cry14, cry15, cry20, cry24 and cry26. Both cyt1 and -2 genes were also detected. Several isolates showed PCR products on the gel that were not consistent with the expected sizes of nucleotides targeted by the primers. These were suggestive of nonspecific amplifications and were not used in the characterization process. Journal of Industrial Microbiology & Biotechnology (2002) 28, 284–290 DOI: 10.1038/sj/jim/7000244 Received 30 May 2001/ Accepted in revised form 10 January 2002     

Molecular and biological characterization of native <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strains for controlling tomato leafminer (<Emphasis Type="Italic">Tuta absoluta</Emphasis> Meyrick) (Lepidoptera: Gelechiidae) in Colombia

Twenty-eight soil samples were obtained from open fields and greenhouses used for tomato cultivation in various regions of Colombia. For functional characterization, 99 Bacillus thuringiensis (Bt) strains were isolated and characterized by abundance and morphology of microscopic crystals, SDS–PAGE of protein extracts and M-PCR analyses of genes of the cry1 family, as well as for their insecticidal activity against Tuta absoluta second instar larvae. Native Bt strains had amorphous (5%), bi-pyramidal (27%), square (8%), spherical (38%) and triangular (22%) crystal forms. Based on the presence of 1–4 different crystal forms, 18 different profiles were established. The SDS–PAGE analyses of protein extracts established ten different strain groups based on their protein band weight and potential biological activity. The M-PCR technique identified 35 native Bt strains based on the presence of the 6 genes cry1Aa, cry1Ab, cry1Ac, cry1B, cry1C and cry1D, whose frequency of occurrence was 76, 26, 21, 35, 32 and 8.8%, respectively. Thirteen different PCR profiles were found in native Bt strains. Several gene combinations tended to co-occur with elevated frequency, such as the pairs cry1Ac/cry1C, cry1Ab/cry1Ac and cry1Ab/cry1B, for which Pearson correlation coefficients were 0.69, 0.52 and 0.54, respectively. Native strains ZBUJTL39 and ZCUJTL11 had up to three times higher biological activity against T. absoluta second instar larvae than the reference strain Bt var. kurstaki HD1, with an LD₅₀ of 2.4 μg/ml (P < 0.05) for native Bt strain ZCUJTL11. This study suggests a high biodiversity of native Bt strains from tomato growing regions in Colombia, which has important implications for designing biological control strategies for T. absoluta.     

PCR-based method for the detection of cry genes in local isolates of Bacillus thuringiensis from Thailand

A total of 134 isolates of Bacillus thuringiensis obtained from different geographical and ecological origins in Thailand were analyzed to determine the distribution and diversity of cry1, cry2 and cry9 genes encoding for Cry proteins toxic to lepidopteran insects. Strains containing cry1-type genes (109/134 or 81.3%) were found at the same frequency as strains harboring cry2 gene (108/134 or 80.6%) whereas only 50 strains contained cry9 gene (50/134 or 37.3%). Seventeen percent (23/134) of the B. thuringiensis isolates did not harbor any cry1, cry2 or cry9 genes. Among cry1 containing isolates, cry1A (49.3%), cry1B (50.0%), cry1G (48.5%), cry1I (49.3%), cry1J (35.1%) and cry1L (47.0%) were considered abundant. The cry2 gene was distributed with high frequency (>70%) in every region of the country. The study of cry gene combinations revealed 14 cry gene profiles.     

Molecular approaches for identification and construction of novel insecticidal genes for crop protection

Summary The insecticidal cry (crystal) genes from Bacillus thuringiensis (Bt) have been used for insect control both as biopesticides and in transgenic plants. Discovery of new insecticidal genes is of importance for delaying the development of resistance in target insects. The diversity of Bt strains facilitates isolation of new types of cry and vip (vegetative insecticidal protein) genes. PCR is a useful technique for quick and simultaneous screening of Bt strains for classification and prediction of insecticidal activities. PCR together with other methods of analysis such as RFLP, gene sequence determination, electrophoretic, immunological and chromatographic analysis of Cry proteins and insect bioassays for evaluation of toxicity have been employed for identification of new insecticidal proteins. Some other new approaches have also been devised. Many Bt strains with novel insecticidal genes have been found. A desired combination of Cry proteins can be assembled via site-specific recombination vectors into a recipient Bt strain to create a genetically improved biopesticide. For better pest control, the cry genes have been transferred to plants. Stacking of more than one insecticidal gene is required for resistance management in transgenic crops. Modification of Cry proteins through protein engineering for increasing the toxicity and/or the insecticidal spectrum is also a promising approach, but requires detailed understanding of the structure and function of these proteins and analysis of toxin-receptor interactions. More research into this area will provide useful insights for the design of toxins for management of insect resistance. Insecticidal genes from other bacteria and plants are also being examined for their potential for deployment in transgenic crops. Stringent implementation of resistance management is needed for maintaining the efficacy of Bt transgenic crops and deriving maximum economic and environmental benefit.     

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.     

Characterization of the highly variable <Emphasis Type="Italic">cry</Emphasis> gene regions of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strain ly4a3 by PCR-SSCP profiling and sequencing

Characterization of cry gene contents can help to predict the insecticidal activities of Bacillus thuringiensis isolates and in the searching of new cry genes. PCR-Single-strand conformation polymorphism (SSCP) profiling and sequencing of the highly variable cry gene regions were used to characterize cry gene content of B. thuringiensis strain ly4a3. The highly variable regions with about 1100 bp in sizes were amplified using a degenerate primer pair for cry genes, OL2(d) and OL5(r). A library of the PCR product was constructed, and all white colonies were subjected to PCR using another degenerate primer pair for cry genes, OL3(d) and OL5(r), with products about 250 bp in sizes. Two different profiles were observed based on SSCP profiling for the PCR products. The cry genes in the two corresponding colonies were sequenced and their deduced amino acids showed high identities to Cry1Ab (84.5%∼98.4%) and Cry1I (88.78%∼98.4%), respectively. This method allows the quick characterization of cry gene content of B. thuringiensis isolates and the detection of new cry genes.     

Analysis of <Emphasis Type="Italic">cry</Emphasis> Gene Profiles in <Emphasis Type="Italic">Bacillus Thuringiensis</Emphasis> Strains Isolated During Epizootics in <Emphasis Type="Italic">Cydia pomonella</Emphasis> L.

The crystal morphology and the profiles of genes encoding protein toxins (Cry and Cyt) were analyzed in 12 Bacillus thuringiensis strains isolated during epizootics in laboratory culture lines of Cydia pomonella, 2 isolates cultured from Leucoma salicis larvae, and 9 reference strains. Epizootic isolates produced crystals of the same bipyramidal shape; however, they revealed a variety of number and type of cry genes. Genes cry1I, cry2Ab, and cry9B were the most frequently observed in epizootic strains. Gene cry1I was noted in of 50% epizootic isolates. Eighty-three percent of them harbored gene cry2Ab. Gene cry9B was found for 42% of strains isolated during epizootics. Three isolates showed the largest number of cry genes and their variety; hence, they were chosen for the toxicity assay of their crystals and spores on C. pomonella larvae. One of them had approximately sixfold higher insecticidal activity than the reference strain B. thuringiensis subsp. kurstaki BTK STANDARD.     

Investigation of the cyt gene in Bacillus thuringiensis and the biological activities of Bt isolates from the soil of China

The presence of cyt genes was investigated in 80 type strains of Bacillus thuringiensis and 143 isolates obtained from soil samples of China by PCR amplification using two pairs of primers for the cyt1 and cyt2 genes. Three type strains of serotypes H11ac, H14 and H36, eight isolates belonging to H3, H14, H18 and H21, and one isolate of unknown serotype harbored cyt genes. We also tested the cytolytic activity for mammal cells, the hemolytic activity for sheep erythrocytes and insecticidal activity against mosquitoes of five isolates that contained cyt genes but did not belong to B. thuringiensis serovar israelensis. The protein profiles of the five isolates were different from those of the type strains of B. thuringiensis serovar israelensis, and among the five isolates, only Y-5 showed mosquitocidal activity against larvae of Culex quinquefasciatus. All five of the isolates exhibited hemolytic activity, but only three could cause the cell death of A549 cells. The cytopathological changes induced by NX-4 in some A549 cells were characterized with cell-ballooning.     

Cloning and expression of <Emphasis Type="Italic">Bacillus thuringiensis cry</Emphasis>11 crystal protein gene in <Emphasis Type="Italic">Escherichia coli</Emphasis>

The six most toxic Pakistani isolates of Bacillus thuringiensis (SBS Bt-23, 29, 34, 37, 45 and 47), which were previously characterized for their toxicity against larvae of mosquito, Anopheles stephensi, and the presence of cry4 gene, were used for cry11 (cry4D) gene amplification. A 1.9-kb DNA fragment of cry11 gene was PCR-amplified, cloned in expression vector pT7-7, and then used for transformation of E. coli BL21C. The optimum expression was obtained with 1 mM IPTG at 37°C for 3 h. This gene showed different percentage homologies at protein level with scattered mutations in the toxic region. Biotoxicity assay of recombinant protein showed that Cry11 of SBS Bt 45 (DAB Bt 5) was the most toxic protein against third instar larvae of mosquito, A. stephensi, and has potentiality of a bioinsecticide against mosquitoes.     

Characterization of cry Genes in a Mexican Bacillus thuringiensis Strain Collection

Mexico is located in a transition zone between the Nearctic and Neotropical biogeographical regions and contains a rich and unique biodiversity. A total of 496 Bacillus thuringiensis strains were isolated from 503 soil samples collected from the five macroregions of the country. The characterization of the strain collection provided useful information on the ecological patterns of distribution of B. thuringiensis and opportunities for the selection of strains to develop novel bioinsecticidal products. The analysis of the strains was based on multiplex PCR with novel general and specific primers that could detect the cry1, cry3, cry5, cry7, cry8, cry9, cry11, cry12, cry13, cry14, cry21, and cyt genes. The proteins belonging to the Cry1 and Cry9 groups are toxic for lepidopteran insects. The Cry3, Cry7, and Cry8 proteins are active against coleopteran insects. The Cry5, Cry12, Cry13, and Cry14 proteins are nematocidal. The Cry11, Cry21, and Cyt proteins are toxic for dipteran insects. Six pairs of general primers are used in this method. Strains for which unique PCR product profiles were obtained with the general primers were further characterized by additional PCRs with specific primers. Strains containing cry1 genes were the most abundant in our collection (49.5%). Thirty-three different cry1-type profiles were identified. B. thuringiensis strains harboring cry3 genes represented 21.5% of the strains, and 7.9% of the strains contained cry11 and cyt genes. cry7, cry8, and cry9 genes were found in 0.6, 2.4, and 2.6% of the strains, respectively. No strains carrying cry5, cry12, cry13, cry14, or cry21 genes were found. Finally, 14% of the strains did not give any PCR product and did not react with any polyclonal antisera. Our results indicate the presence of strains that may harbor potentially novel Cry proteins as well as strains with combinations of less frequently observed cry genes.     

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.     

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.     

Diversity of Bacillus thuringiensis Strains from Latin America with Insecticidal Activity against Different Mosquito Species

The characterization of selected Bacillus thuringiensis strains isolated from different Latin America countries is presented. Characterization was based on their insecticidal activity against Aedes aegypti, Culex quinquefasciatus, and Anopheles albimanus larvae, scanning electron microscopy, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and plasmid profiles as well as PCR analysis using novel general and specific primers for cry and cyt genes encoding proteins active against mosquitoes (cyt1, cyt2, cry2, cry4A, cry4B, cry10, cry11, cry17, cry19, cry24, cry25, cry27, cry29, cry30, cry32, cry39, and cry40). Strains LBIT315, LBIT348, and IB604 showed threefold higher mosquitocidal activity against A. aegypti and C. quinquefasciatus larvae than B. thuringiensis subsp. israelensis and displayed high similarities with the B. thuringiensis subsp. israelensis used in this study with regard to protein and plasmid profiles and the presence of cry genes. Strain 147-8906 has activity against A. aegypti similar to that of B. thuringiensis subsp. israelensis but has different protein and plasmid profiles. This strain, harboring cry11, cry30, cyt1, and cyt2 genes, could be relevant for future resistance management interventions. Finally, the PCR screening strategy presented here led us to identify a putative novel cry11B gene.