New Strategy for Identification of Novel cry-Type Genes from Bacillus thuringiensis Strains

We designed five degenerate primers for detection of novel cry genes from Bacillus thuringiensis strains. An efficient strategy was developed based on a two-step PCR approach with these primers in five pair combinations. In the first step, only one of the primer pairs is used in the PCR, which allows amplification of DNA fragments encoding protein regions that include consensus domains of representative proteins belonging to different Cry groups. A second PCR is performed by using the first-step amplification products as DNA templates and the set of five primer combinations. Cloning and sequencing of the last-step amplicons allow both the identification of known cry genes encoding Cry proteins covering a wide phylogenetic distance and the detection and characterization of cry-related sequences from novel B. thuringiensis isolates.     

Identification and molecular characterization of novel cry1-type toxin genes from Bacillus thuringiensis K1 isolated in Korea

To clone novel cry1-type genes from the Bacillus thuringiensis K1 isolate, about 2.4-kb-long PCR fragments were amplified with two primer sets of ATG1-F/N400-R and 1BeATG1-F/N400-R. Using PCR-RFLP, three novel cry1-type genes, cry1-1, cry1-7, and cry1-44, were obtained from B. thuringiensis K1 and the complete coding sequences of these novel genes were analyzed. The Cry1-1, Cry1-7, and Cry1-44 proteins showed maximum similarities of about 78.0%, 99.7%, and 91.0% with the Cry1Ha1, Cry1Be1, and Cry1Ac2 proteins, respectively. These novel cry1-type genes were expressed using a baculovirus expression vector system and their insecticidal activities were investigated. Whereas all three novel genes were toxic to Plutella xylostella larvae, only Cry1-1 showed insecticidal activity against Spodoptera exigua larvae.     

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.     

Two δ-Endotoxin Genes, cry9Da and a Novel Related Gene, Commonly Occurring in Lepidoptera-Specific Bacillus thuringiensis Japanese Isolates That Produce Spherical Parasporal Inclusions

Six Lepidoptera-specific Bacillus thuringiensis isolates, which belong to the four H serovars (sotto, fukuokaensis, canadensis, and galleriae) and produce spherical parasporal inclusions, were examined for assignment of the classes of the delta-endotoxin genes. Gene analysis was conducted by PCR technique with primers designed to probe the genes cry9Ca and cry9Da. The data revealed that the delta-endotoxin of a serovar canadensis isolate is encoded by the gene cry9Da, while those of the five other strains are encoded by an undescribed delta-endotoxin gene. DNA fragments from five strains had an identical 1917-bp nucleotide sequence, covering the four conserved regions and a partial sequence of the block 5 region. The deduced amino acid sequence exhibited a 70.6% homology to that of the corresponding region of the Cry9Ea delta-endotoxin protein which is active on the order Lepidoptera, and a 63.1% homology to the Cry9Ca protein highly toxic to the noctuid lepidopterans. The results showed that Japanese isolates of B. thuringiensis producing spherical parasporal inclusions with Lepidoptera-specific activity are categorized into two groups: one produces the class Cry9Da protein and the other a novel delta-endotoxin allied to the class Cry9. It also appeared that heterogeneous multiple H serovars are involved in each group.     

Screening of Bacillus thuringiensis serotypes by polymerase chain reaction (PCR) for insecticidal crystal genes toxic against coffee berry borer

Using PCR,257 isolates of Bacillus thuringiensis(Bt) were screened for cry-type genes. Of 257 isolates/strains, 60 isolates were identified as cry7/8, 10 isolates as cry3 and 36 isolates as cry 1I. One specific strain of B. thuringiensis (sumiyoshiensis; T03B 001) was investigated for the presence of cry7 and cry8 genes. Genes Cry7 and cry8 were first detected in this strain using family primers prior to analysis by exclusion polymerase chain reaction (E-PCR) using specific type primers. E-PCR conducted with the above said primers led to the identification by agarose gel electrophoresis of a remaining 1.5 Kb family band indicating a potentially novel gene. This PCR product, (1.5 Kb), was purified from the gel and cloned in pGEM-T Easy vector. Twenty recombinant colonies bearing 1.5 Kb insert were identified and three randomly selected representatives of the group, clones 7, 8 and 10, were sequenced and compared to all cry7 and cry8 sequences available from Gene Bank. Alignments with available DNA and protein sequences showed that all these clones contained a gene related to cry8Aa1. Analysis using protein sequence alignment showed that the sequence from clone 7 differed from the closest relative, known under the new nomenclature as cry 8Aa1, by 44%. The crystal proteins from B. thuringiensis sumiyoshiensis (T03B 001) was toxic to coffee berry borer larvae.     

苏云金芽孢杆菌4.0718菌株的杀虫晶体蛋白基因分析

根据苏云金杆菌(Bacillus thuringiensis)cry1、cry2和cry3型基因的保守区分别设计了3对通用引物Un1(d)/Un1?、Un2(d)/Un2?和Un3(d)/Un3?,以Bt4.0718菌株质粒DNA为模板进行PCR扩增,通过扩增产物片段的分子量大小来确定该菌株所含有的杀虫晶体蛋白基因类型。随后根据上述3类cry基因的高变区设计特异引物再次进行PCR鉴定。结果表明:Bt4.0718菌株含有cry1Aa、cry1Ab、cry1Ac、cry1Cb、cry2Ac和新基因cry4.5等6种基因类型。这一结果为利用该菌株构建高效广谱杀虫工程菌提供了客观依据。     

Screening and characterization of Bacillus thuringiensis isolates from Brazil for the presence of coleoptera-specific cry genes

Forty-three Bacillus thuringiensis isolates from Brazil and 3 from Argentina were screened, using the polymerase chain reaction (PCR), for various coleoptera-specific cry genes. Seven isolates produced specific and/or nonspecific DNA fragments in a PCR reaction with primers specific for two coleopteran cry genes and 4 of these produced DNA fragments with primers specific for 7 known coleopteran cry genes. These isolates showed, by electron microscopy, the presence of spherical crystals. They also showed proteins of around 70 kDa which were immunologically similar to the Cry3Aa protein from B. thuringiensis subsp. tenebrionis. The 3 isolates from Argentina were toxic to T. molitor, and although no isolate from Brazil showed toxicity, they might show toxicity to another insect species.     

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.     

Composition and ecological distribution of cry proteins and their genotypes of Bacillus thuringiensis isolates from warehouses in China

The composition and distribution of insecticidal crystal proteins (Cry proteins) and their genotypes of Bacillus thuringiensis isolates from warehouses were evaluated through SDS-PAGE and PCR techniques. The results showed that the electrophoretic patterns of delta-endotoxin crystal preparations were divided into five types. The isolates containing approximately 135 kDa with a 65-kDa protein or only a approximately 135-kDa protein, which amounted to 55.74 and 35.25% of all isolates respectively, were the two major profiles of Cry protein isolated. The distribution of cry genes of B. thuringiensis from warehouses was highly variable. Cry protein genotypes detected in B. thuringiensis isolates included cry1Aa5, cry1Ab9, cry1Ac5, cry1Ba, cry1Ca1, cry1Da1, cry1Ea3, cry2, and cry3 genes, but not cry1Fa2. Among them, cry2, cry1Ac5, and cry1Ab9 genes were the most common in our B. thuringiensis isolates. Most B. thuringiensis isolates contained several cry genes in a total of 18 profiles. Among them, cry1Ac5 with cry1Ea3; cry1Aa5, cry1Ab9, cry1Ac5 with cry1Ea3; and cry1Aa5, cry1Ab9 with cry1Ac5 were the three principal profiles. The distribution of the Cry proteins and cry genes in isolates depended on geography and type of warehouses. Gene profiles may be used as markers for insecticidal activity of B. thuringiensis strains, but they did not directly reflect the toxic level of B. thuringiensis strains. The serotype of B. thuringiensis strains did not directly reflect the specific cry gene profiles in the strains, but certain relationships can be established between the serotype and cry genotype.     

Strategy for amplification and sequencing of insecticidal <Emphasis Type="Italic">cry1A</Emphasis> genes from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis>

A feasible and fully described strategy, with a detailed list of primers, for amplifying, cloning and sequencing known and potentially novel cry1A genes harboured by a Bacillus thuringiensis strain was successfully established. Based on the analysis of conserved regions of the cry1A genes, the 1AF and 1UR oligonucleotide primers were designed to amplify the whole open reading frame of these genes. The PCR products obtained revealed the successful amplification of cry1A genes from 13 B. thuringiensis strains. These bacteria were previously known to harbour at least one cry1A gene. An Argentinean B. thuringiensis isolate INTA Mo1-12 was randomly chosen for cloning and sequencing of cry1A genes by using a primer set developed in this study. Both nucleotide and amino acid sequences similarity analysis revealed that cry1Aa and cry1Ac from B. thuringiensis INTA Mo1-12 are new natural variants, showing several differences with the other known cry1A subclasses. These genes were named by the B. thuringiensis Pesticidal Crystal Protein Nomenclature Committee as cry1Aa15 and cry1Ac21 respectively.     

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.     

Specific PCR primers directed to identify cryI and cryIII genes within a Bacillus thuringiensis strain collection.

In this paper we describe a PCR strategy that can be used to rapidly identify Bacillus thuringiensis strains that harbor any of the known cryI or cryIII genes. Four general PCR primers which amplify DNA fragments from the known cryI or cryIII genes were selected from conserved regions. Once a strain was identified as an organism that contains a particular type of cry gene, it could be easily characterized by performing additional PCR with specific cryI and cryIII primers selected from variable regions. The method described in this paper can be used to identify the 10 different cryI genes and the five different cryIII genes. One feature of this screening method is that each cry gene is expected to produce a PCR product having a precise molecular weight. The genes which produce PCR products having different sizes probably represent strains that harbor a potentially novel cry gene. Finally, we present evidence that novel crystal genes can be identified by the method described in this paper.     

Molecular and insecticidal characterization of a Bacillus thuringiensis strain isolated during a natural epizootic

A new Bacillus thuringiensis strain belonging to the serovar aizawai was isolated from a dead larva of the lepidopteran Mythimna loreyi collected in a corn crop in Spain during a natural epizootic. This strain, which was named Leapi01, was compared with the kurstaki and aizawai strains isolated from Dipel(R) and Xentari(R), by electron microscopy, SDS-PAGE, plasmid pattern, PCR and insecticidal activity. This strain showed similar morphological and biochemical characteristics to the standard strains. The content in cry genes of Leapi01 was analysed with a set of general and specific primers recognizing most of the cry genes reported to date. DNA amplification was obtained with primers corresponding to six genes and, to clearly determine the identity of the genes, the amplified fragments were sequenced and corresponded to cry1Aa, cry1Ab, cry1Ca, cry1Da, cry2Ab and cry1Ia. However, the proteins encoded by two of these genes, Cry2 and Cry1I, were not detected in the SDS-PAGE of the purified parasporal bodies. The insecticidal activity of Leapi01 was determined by bioassays against two Lepidoptera species, Helicoverpa armigera and Spodoptera littoralis, that were found to be very susceptible to Leapi01 purified crystals. Since two of the cry genes identified in Leapi01 appear to be silent, other factors may be involved in the toxicity of the strain. As a result of this study, the potential of Leapi01 as biological control agent is discussed, with special emphasis on the high toxicity and relatively broad spectrum activity compared with two B. thuringiensis strains that are the active ingredients of commercial preparations commonly used as bioinsecticides.     

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.     

Specific primers for the detection of vip3A insecticidal gene within a Bacillus thuringiensis collection

A PCR-based method was developed for the rapid detection of vip3A gene encoding a novel Bacillus thuringiensis vegetative insecticidal protein with a wide spectrum of activities against lepidopteran insects. Specific primer combinations (three primers for the normal strand and two primers for the complementary strand) were capable of generating diagnostic fragments that successfully predicted the presence of the gene encoding the Vip3A insecticidal toxin in various B. thuringiensis strains. Specificity of amplicons generated by primer pairs was confirmed by restriction endonuclease digestion and DNA sequence analysis. The evaluation of B . thuringiensis strains for biological activity against insect pests of rice is thus aided by the grouping of strains based on their potential insecticidal spectrum.     

Mining new crystal protein genes from Bacillus thuringiensis on the basis of mixed plasmid-enriched genome sequencing and a computational pipeline

We have designed a high-throughput system for the identification of novel crystal protein genes (cry) from Bacillus thuringiensis strains. The system was developed with two goals: (i) to acquire the mixed plasmid-enriched genomic sequence of B. thuringiensis using next-generation sequencing biotechnology, and (ii) to identify cry genes with a computational pipeline (using BtToxin_scanner). In our pipeline method, we employed three different kinds of well-developed prediction methods, BLAST, hidden Markov model (HMM), and support vector machine (SVM), to predict the presence of Cry toxin genes. The pipeline proved to be fast (average speed, 1.02 Mb/min for proteins and open reading frames [ORFs] and 1.80 Mb/min for nucleotide sequences), sensitive (it detected 40% more protein toxin genes than a keyword extraction method using genomic sequences downloaded from GenBank), and highly specific. Twenty-one strains from our laboratory's collection were selected based on their plasmid pattern and/or crystal morphology. The plasmid-enriched genomic DNA was extracted from these strains and mixed for Illumina sequencing. The sequencing data were de novo assembled, and a total of 113 candidate cry sequences were identified using the computational pipeline. Twenty-seven candidate sequences were selected on the basis of their low level of sequence identity to known cry genes, and eight full-length genes were obtained with PCR. Finally, three new cry-type genes (primary ranks) and five cry holotypes, which were designated cry8Ac1, cry7Ha1, cry21Ca1, cry32Fa1, and cry21Da1 by the B. thuringiensis Toxin Nomenclature Committee, were identified. The system described here is both efficient and cost-effective and can greatly accelerate the discovery of novel cry genes.     

Rapid cloning, identification, and application of one novel crystal protein gene cry30Fa1 from Bacillus thuringiensis

In this study, a fast and efficient strategy has been developed for identifying and isolating novel cry genes from Bacillus thuringiensis by combining the PCR-restriction fragment length polymorphism and the single-oligonucleotide nested-PCR method. Using this method, one novel holotype cry gene, cry30Fa1 , encoding a polypeptide of 687 amino acid residues with a molecular mass of 77.1 kDa, 74% identical to Cry30Aa1, was cloned from the B. thuringiensis strain BtMC28. Furthermore, the cry30Fa1 gene was successfully expressed in Escherichia coli BL21 (DE3). The Cry30Fa1 proteins, isolated from the cultures of recombinant E. coli , had remarkable insecticidal effects against Plutella xylostella and Aedes aegypti with LC50 at 6.477 and 15.359 μg mL⁻¹, respectively. Our results strongly suggest that this strategy is highly efficient and advantageous in terms of rapid cloning of holotype cry genes that have minimal identity to known genes. The cloning of the cry30Fa1 gene would be useful in the resources of the insecticidal crystal genes and may serve as an alternative choice of an insecticide for potential problems associated with insect resistance.     

Identification of cry1I-type genes from Bacillus thuringiensis strains and characterization of a novel cry1I-type gene

A PCR-restriction fragment length polymorphism method for identification of cry1I-type genes from Bacillus thuringiensis was established by designing a pair of universal primers based on the conserved regions of the genes to amplify 1,548-bp cry1I-type gene fragments. Amplification products were digested with the Bsp119I and BanI enzymes, and four kinds of known cry1I-type genes were successfully identified. The results showed that cry1I-type genes appeared in 95 of 115 B. thuringiensis isolates and 7 of 13 standard strains. A novel cry1I-type gene was found in one standard strain and six isolates. The novel cry1I gene was cloned from B. thuringiensis isolate Btc007 and subcloned into vector pET-21b. Then it was overexpressed in Escherichia coli BL21(DE3). The expressed product was shown to be toxic to the diamondback moth (Plutella xylostella), Asian corn borer (Ostrinia furnacalis), and soybean pod borer (Leguminivora glycinivorella). However, it was not toxic to the cotton bollworm (Helicoverpa armigera), beet armyworm (Spodoptera exigua), or elm leaf beetle (Pyrrhalta aenescens) in bioassays. Subsequently, the Cry protein encoded by this novel cry gene was designated Cry1Ie1 by the B. thuringiensis delta-endotoxin nomenclature committee.     

RFLP analysis of cry1 and cry2 genes of Bacillus thuringiensis isolates from India

The PCR-RFLP method has been useful for detection of known genes and identification of novel genes. In the present study, degenerate primers were designed from five groups of cry1 genes for PCR-RFLP analysis. Bacillus thuringiensis (Bt) isolates from different regions were evaluated for PCR amplification of various cry1 genes using newly designed primers and cry2 genes using reported primers. PCR analysis showed an abundance of cry1A genes and especially cry1Ac genes in isolates from all regions. RFLP analysis revealed the presence of multiple cry1A genes in isolates from central and southern regions. Unique digestion patterns of cry1A genes were observed in isolates from each region. Few of the isolates represented a digestion pattern of cry1A genes that did match to any of the known cry1A genes. RFLP analysis suggested an abundance of cry2Ab along with a novel cry2 gene in Bt isolates from different regions of India. Sequence analysis of the novel cry2 gene revealed 95% sequence identity to cry2Ab and cry2Ah genes. Phylogenetic analysis revealed that the novel cry2 gene could have diverged earlier than the other cry2 genes. Our results encourage finding of more diverse cry2 genes in Bt isolates. Rarefaction analysis was used to compare cry1A gene diversity in isolates from different soil types. It showed a higher degree of cry1A gene diversity in isolates from central region. In the present study, we propose the use of novel degenerate primers for cry1 genes and the PCR-RFLP method using a single enzyme to distinguish multiple cry1A and cry2 genes as well as identify novel genes.     

Multiplex PCR screening to detect cry9 genes in Bacillus thuringiensis strains.

An extended PCR method was established to rapidly identify and classify Bacillus thuringiensis strains containing cry (crystal protein) genes toxic to lepidopteran, coleopteran, and dipteran pests (Ben-Dov et al., Appl. Environ. Microbiol. 63:4883-4890, 1997). To optimize identification of all reported cry genes, this methodology needs a complete PCR set of primers. In the study reported here, a set of universal (Un9) and specific primers for multiplex rapid screening for all four known genes from the cry9 group was designed. PCR analyses were performed for cry9 genes on 16 standard strains and 215 field isolates of B. thuringiensis. Among the standard strains, only B. thuringiensis subsp. aizawai HD-133, which harbors cry1 and cry2 genes, was positive with Un9 but negative to all four specific primers for cry9 genes. DNA of 22 field-collected isolates was also found to be positive with Un9. These isolates were classified into three cry9 profiles using specific primers; all of them harbor cry1 and cry2. This newly designed set of primers complements the existing PCR methodology for most currently known cry genes.