Identification of cry-Type Genes on 20-kb DNA Associated with Cry1 Crystal Proteins from Bacillus thuringiensis

Heterologous DNA fragments (20-kb) associated with Cry1 crystal proteins (protoxins) from a soil-isolated Bacillus thuringiensis strain 4.0718 were isolated and analyzed. RFLP patterns of the PCR products showed that the 20-kb DNA fragments harbored cry1Aa, cry1Ac, cry2Aa, and cry2Ab genes. Furthermore, a 4.2-kb DNA fragment, which contained the promoter, the coding region, and the terminator of cry1Ac gene, was cloned from the 20-kb DNAs by PCR, and then the cry1Ac gene was expressed in an acrystalliferous B. thuringiensis strain 4Q7 by using E. coli-B. thuringiensis shuttle vector pHT3101. SDS-PAGE and microscopy studies revealed that the recombinant could express 130-kDa Cry1Ac protoxin and produce bipyramidal crystals during sporulation. Bioassay results proved that crystal-spore mixture from the recombinant was toxic to Plutella xylostella. This was the first report of cry-type genes present on 20-kb DNA associated with Cry1 protoxins of B. thuringiensis.     

The cry3Aa gene of Bacillus thuringiensis Bt886 encodes a toxin against long-horned beetles

This report describes the identification of a new toxigenic strain of Bacillus thuringiensis specific for long-horned beetles. B. thuringiensis Bt866 encodes a cry3Aa-like gene (Bt886cry3Aa) that is 1,956 bp in length and is predicted to encode an 85.78-kDa protein. The gene is highly similar to cry3Aa1, differing in only six nucleotides and four amino acids. The four disparate amino acids occur within the conserved domains of the Cry3Aa toxin. The expression of Bt866cry3A in Escherichia coli cells resulted in a high level of toxicity toward Apriona germari Hope larvae. More than 75% of the larvae were killed; and the remaining survivors exhibited slower growth. These results indicate that the toxigenic strain Bt886cry3Aa encodes a protein that is specific against long-horned beetles. Genetic engineering of the Bt866cry3Aa gene into poplar plantations may provide resistance to long-horned beetles.     

Cloning of cry2Aa and cry2Ab genes from new isolates of Bacillus thuringiensis and their expression in recombinant Bacillus thuringiensis and Escherichia coli strains

Bacillus thuringiensis (Bt) is the major source for transfer of genes to impart insect resistance in transgenic plants. Cry2A proteins of Bt are promising candidates for management of resistance development in insects due to their difference from the currently used Cry1A proteins, in structure and insecticidal mechanism. Two insecticidal crystal protein genes of Bt, viz. cry2Aa and cry2Ab were cloned from new isolates of Bt, 22-4 and 22-11, respectively. Expression of both the genes was studied in an acrystalliferous strain of Bt (4Q7) by fusing the cry2Aa and cry2Ab genes downstream of cry2Aa promoter and orf1 + orf2 sequences. Western blot analysis revealed a low level expression of the cloned cry2Aa and cry2Ab genes in the recombinant Bt strains. High-level expression of cry2Aa and cry2Ab genes was achieved in the recombinant E. coli by cloning the cry2A genes under the control of the T7 promoter.     

Design and construction of a synthetic <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Cry4Aa gene: Hyperexpression in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Cry4Aa produced by Bacillus thuringiensis is a dipteran-specific toxin and is, therefore, of great interest for developing a bioinsecticide to control mosquitoes. However, the expression of Cry4Aa in Escherichia coli is relatively low, which is a major disadvantage in its development as a bioinsecticide. In this study, to establish an effective production system, a 1,914-bp modified gene (cry4Aa-S1) encoding Cry4Aa was designed and synthesized in accordance with the G + C content and codon preference of E. coli genes without altering the encoded amino acid sequence. The cry4Aa-S1 gene allowed a significant improvement in expression level, over five-fold, compared to that of the original cry4Aa gene. The product of the cry4Aa-S1 gene showed the same level of insecticidal activity against Culex pipiens larvae as that from cry4Aa. This suggested that unfavorable codon usage was one of the reasons for poor expression of cry4Aa in E. coli, and, therefore, changing the cry4Aa codons to accord with the codon usage in E. coli led to efficient production of Cry4Aa. Efficient production of Cry4Aa in E. coli can be a powerful measure to prepare a sufficient amount of Cry4Aa protein for both basic analytical and applied researches.     

苏云金芽胞杆菌等离子复合体诱变提高抗鳞翅目害虫的杀虫毒力

[目的]苏云金芽胞杆菌(Bacillus thuringiensis,Bt)D18对鳞翅目、鞘翅目等农业害虫具有杀虫毒力,本研究拟通过复合诱变育种,筛选出杀虫毒力更高的突变菌.[方法]经四轮室温常压等离子体(ARTP)诱变和一轮ARTP-NTG复合诱变后,镜检形态观察与生物毒力测定筛选高毒力菌株,SDS-PAGE检测C...     

Characterization of a cry2A Gene Cloned from an Isolate of Bacillus thuringiensis serovar sotto

A cry2A-type gene, designated as cry2(SKW), was cloned from Bacillus thuringiensis serovar sotto SKW01-10.2-06, and some unique features of the gene were revealed. The cry2(SKW) gene encoded a polypeptide of 635 residues with a predicted molecular mass of 71,137 Da. Cry2(SKW) had 95.4% identity with Cry2Aa in amino acid sequence and was two residues longer than Cry2Aa. Two open reading frames (ORFs), designated as orf1 and orf2, were present upstream of the cry2(SKW) and showed high homology with the corresponding ORFs in the cry2Aa operon. The Orf2 from SKW01-10.2-06 contained a region of repeated sequences. However, unlike Cry2Aa, Cry2(SKW) formed the cuboidal crystalline inclusions when the cry2(SKW) gene was expressed in an acrystalliferous B. thuringiensis strain in the absence of the upstream ORFs. Furthermore, Cry2(SKW) was less toxic to a lepidopteran species, Bombyx mori, than Cry2Aa in spite of high homology between the two proteins. Received: 17 July 1996 / Accepted: 5 December 1996     

Enhanced spore production ofBacillus thuringiensis by fed-batch culture

Summary Fed-batch culture was carried out to increase cell mass followed by batch culture for spore production ofbacillus thuringiensis. High cell mass obtained by increasing the feeding glucose concentration in constant fed-batch culture which supported fast cell growth resulted in good sporulation during subsequent batch culture, and the maximum cell mass of 72.6 g/L and spore concentration of 1.25×10¹⁰ spores/mL could be obtained.     

A Holistic Approach for Determining the Entomopathogenic Potential of Bacillus thuringiensis Strains

The cry gene content of Bacillus thuringiensis subsp. aizawai HD-133 was analyzed by a combination of high-pressure liquid chromatography (HPLC) and exclusive PCR. A total of six cry genes were detected in genomic DNA purified from HD-133, four from the cry1 family (cry1Aa, cry1Ab, cry1C, and cry1D) as well as a gene each from the cry2 (cry2B) and the cry1I families. To directly determine which genes were expressed and crystallized in the purified parasporal inclusions, solubilized and trypsinized HD-133 crystals were subjected to chromatographic separation by HPLC. Only three proteins, Cry1Ab, Cry1C, and Cry1D, were found, in a 60/37/3 ratio. Dot blot analysis of total mRNA purified from HD-133 showed that both the cry2B and cry1I genes, but not the cry1Aa gene, were transcribed. Cloning and sequencing of the cry1Aa gene revealed an inserted DNA sequence within the cry coding sequence, resulting in a disrupted reading frame. Taken together, our results show that combining crystal protein analysis with a genetic approach is a highly complementary and powerful way to assess the potential of B. thuringiensis isolates for new insecticidal genes and specificities. Furthermore, based on the number of cryptic genes found in HD-133, the total cry gene content of B. thuringiensis strains may be higher than previously thought.     

Dielectric monitoring of growth and sporulation of <Emphasis Type="BoldItalic">Bacillus thuringiensis</Emphasis>

On-line permittivity and optical density measurements have been used to monitor biomass concentration and sporulation status during growth of a spore-forming bacterium, Bacillus thuringiensis, in fed-batch culture. The correlation between permittivity, optical density and other observations showed three distinct phases of growth: growth itself, transition and sporulation. The permittivity variations during the transition and sporulation phases could be related to the sporulation development: the evolution pattern of the ratio of optical density to permittivity was representative of the culture state, and during the sporulation phase, a permittivity index could be build to measure the extend of spore liberation.     

Characterization of a novel cry2Aa-type gene from Bacillus thuringiensis subsp. kurstaki

A 4 kb BamHI-HindIII fragment, corresponding to the cry2A operon of Bacillus thuringiensis subsp. kurstaki strain BNS3, was cloned. The sequencing of the corresponding cry2Aa-type gene, termed crybns3-4, revealed an open reading frame of 1902 bp, encoding a protein of 633 amino-acid residues. Both nucleotide and amino-acid sequences similarity analysis revealed that crybns3-4 is a new cry2Aa-type gene which has several differences from the reported cry2Aa-type genes. The transfer of the cloned operon to an acrystalliferous mutant of BNS3, revealed an expression of the new cry2Aa-type gene and a production of parasporal crystal inclusions in the transformants.     

A UV Tolerant Mutant of Bacillus thuringiensis subsp. kurstaki Producing Melanin

A UV-resistant mutant (Bt-m) of Bacillus thuringiensis subsp. kurstaki, producing a dark brown pigment, identified as melanin, was studied. Bt-m had higher larvicidity against Heliothis armigera than its parent. Survival of Bt-m spores and their insecticidal activity to irradiation at 254 nm and 366 nm were higher than those of the parent. The only toxic polypeptide produced by Bt-m was Cry1Ac (130 kDa); it lost cry1Aa, cry2Aa, and cry2Ab. Received: 2 April 2001 / Accepted: 14 May 2001     

Expression of a cry2Aa gene in an acrystalliferous Bacillus thuringiensis strain and toxicity of Cry2Aa against Helicoverpa armigera

In the recent past research has been mainly focused on the expression of cry1 genes of Bacillus thuringiensis (Bt) to engineer lepidopteran insect resistance in plants. Search for structurally different toxins is necessary for the management of resistance development in insects. The intact cry2Aa operon (3.95 kb) of a new isolate of Bt, 47-8, was subcloned into a Bt shuttle vector, pHT3101 (6.7 kb). Recombinant pHT3101 containing the cry2Aa operon of Bt strain 47-8 was named as pTN2Aa and used to transform acrystalliferous Bt strain 4Q7 by electroporation. Phase contrast microscopic observation revealed the presence of crystalline inclusions in the transformants of Bt strain 4Q7 harbouring pTN2Aa. SDS–PAGE of a spore–crystal mixture prepared from transformants of acrystalliferous Bt strain 4Q7 harbouring pTN2Aa showed a single band of about 65 kDa alone confirming the expression of the cloned cry2Aa. Bioassay with Helicoverpa armigera showed 71.4% mortality caused by the proteins encoded by the newly cloned cry2Aa gene (at the concentration of 2.3 g/l) on the seventh day and all the survivors that escaped from Cry2Aa toxicity showed severe (81–99%) inhibition in larval growth.     

Cloning and Characterization of the Crystal Protein-Encoding Gene of Bacillus thuringiensis subsp. yunnanensis

Molecular cloning and characterization of a novel cry gene, cry32Aa, of Bacillus thuringiensis subsp. yunnanensis was carried out. The Cry32Aa protein was predicted to have a molecular mass of 139.2 kDa and was found to have an unusual 42-amino-acid-long tail at the C terminus. The cry32Aa gene was localized on the 103-MDa plasmid of the organism. Bioassays showed no toxicity against several moths and mosquitoes. However, it exhibited weak toxicity against larvae of the diamondback moth, Plutella xylostella.     

Isolation and characterization of a new Bacillus thuringiensis strain Lip harboring a new cry1Aa gene highly toxic to Ephestia kuehniella (Lepidoptera: Pyralidae) larvae

The aim of this study was to characterize new Bacillus thuringiensis strains that have a potent insecticidal activity against Ephestia kuehniella larvae. Strains harboring cry1A genes were tested for their toxicity, and the Lip strain showed a higher insecticidal activity compared to that of the reference strain HD1 (LC₅₀ of Lip and HD1 were 33.27 and 128.61 μg toxin/g semolina, respectively). B. thuringiensis Lip harbors and expresses cry1Aa, cry1Ab, cry1Ac, cry1Ad and cry2A. DNA sequencing revealed several polymorphisms in Lip Cry1Aa and Cry1Ac compared to the corresponding proteins of HD1. The activation process using Ephestia kuehniella midgut juice showed that Lip Cry1A proteins were more stable in the presence of larval proteases. Moreover, LipCry1A proteins exhibited higher insecticidal activity against these larvae. These results indicate that Lip is an interesting strain that could be used as an alternative to the worldwide used strain HD1.     

Molecular Cloning of a New Crystal Protein Gene cry1Af1 of Bacillus thuringiensis NT0423 from Korean Sericultural Farms

A new cry1Ab-type gene encoding the 130 kDa protein of Bacillus thuringiensis NT0423 bipyramidal crystals was cloned, sequenced, and expressed in a crystal-negative B. thuringiensis host. Hybridization experiments revealed that the crystal protein gene is located on a 44 MDa plasmid of B. thuringiensis NT0423. A strong positive signal detected on the 6.6 kb HindIII fragment from B. thuringiensis NT0423 plasmid DNA was cloned and sequenced. The cry1Ab-type gene, designated cry1Af1, consisted of open reading frame of 3453 bp, encoding a protein of 1151 amino acid residues. The polypeptide has the deduced amino acid sequences predicting molecular masses of 130,215 Da. With both Bt I and Br II promoter sequences were found, the B. thuringiensis NT0423 crystal protein gene promoter closely aligned with those of cry1A-type crystal protein gene. When compared with known sequences of other Cry and Cyt proteins, the Cry1Af1 protein showed maximum 93% sequence identity to Cry1Ab protein of B. thuringiensis subsp. kurstaki. The expressed Cry1Af1 protein in a crystal-negative B. thuringiensis host appears to have strong insecticidal activity against lepidopteran larvae (Plutella xylostella). Crystals containing Cry1Af1 were about six times more toxic than the wild-type crystals of B. thuringiensis NT0423. Received: 20 February 2001 / Accepted: 17 April 2001     

Co-Expression of the Mosquitocidal Toxins Cyt1Aa and Cry11Aa from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Subsp. <Emphasis Type="Italic">israelensis</Emphasis> in <Emphasis Type="Italic">Asticcacaulis excentricus</Emphasis>

The cyt1Aa gene from Bacillus thuringiensis subsp. israelensis (Bti), whose product synergizes other mosquitocidal toxins, and functions as a repressor of resistance developed by mosquitoes against Bacilli insecticides, was introduced into the aquatic Gram-negative bacterium Asticcacaulis excentricus alongside the cry11Aa gene. The genes were introduced as an operon, but although mRNA was detected for both genes, no Cyt1Aa toxin was detected. Both proteins were expressed using a construct in which a promoter was inserted upstream of each gene. Recombinant A. excentricus expressing both toxins was found to be approximately twice as toxic to third instar larvae of Culex quinquefasciatus as transformants expressing just Cry11Aa.     

High tolerance against Chrysomela tremulae of transgenic poplar plants expressing a synthetic cry3Aa gene from Bacillus thuringiensis ssp tenebrionis

Hybrid poplars (Populus tremula ×Populus tremuloides) have been genetically engineered viaAgrobacterium tumefaciens, to express a syntheticcry3Aa gene derived from the native Bacillusthuringiensis subsp. tenebrionis cry3Aa gene.The presence and the expression of the transgene have been verified in fourtransgenic poplar lines, using Southern, northern and western analyses. Thetransgenic poplar's toxicity towards the phytophagous beetleChrysomela tremulae (Coleoptera, Chrysomelidae) has beenassessed on six month-old greenhouse-grown selected plants in laboratoryconditions. Laboratory experiments consisted of feeding tests of fresh detachedleaves on C. tremulae at all developmental stages. Ourresults indicate that the transgenic poplar leaves, expressing a Cry3Aa proteinamount in a range of 0.05–0.0025% of total soluble protein, weredefinitely deleterious for C. tremulae, regardless of thedevelopmental stage.     

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

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

The dual-activity insecticidal protein,Cry2Aa,does not enhance the mosquitocidal activity of Bacillus thuringiensis subsp. israelensis

Cry2Aa, one of the major insecticidal proteins produced by Bacillus thuringiensis subsp. kurstaki HD1, is known to be active against both lepidopteran and dipteran larvae. In order to determine whether Cry2Aa could enhance or synergize the mosquitocidal activity of B. thuringiensis subsp. israelensis, we constructed a plasmid vector that harbored the cry2Aa operon and transformed crystalliferous and acrystalliferous strains of this bacterium. The wild-type B. thuringiensis subsp. israelensis, a recombinant B. thuringiensis subsp. israelensis producing Cry2A along with its native major mosquitocidal proteins, and a recombinant B. thuringiensis subsp. israelensis producing Cry2Aa alone were tested against three major mosquito species — Aedes aegypti, Anopheles gambiae and Culex quinquefasciatus. Our results demonstrated that Cry2Aa does not synergize or enhance the mosquitocidal activity of B. thuringiensis subsp. israelensis against these important vectors of disease.