Role of different habitats for the functional response of Crytorrhinus lividipennis (Hemiptera: Miridae) on Nilaparvata lugens (Hemiptera: Delphacidae)

The functional response of a predator, Cyrtorrhinus lividipennis, on the brown planthopper, Nilaparvata lugens, was investigated in two different experimental habitats: a piece of tiller in a petri dish (5.5?cm in diameter) and a rice plant in a net cage (5.5?cm diameter?×?43?cm height) for 24?h at room temperature. In the petri dish experiment, 2nd–5th instar nymphs, adult male, and female C. lividipennis were introduced in separate experiments to eggs of N. lugens at densities of five, 10, 20, 30, and 40 eggs per piece of rice. In the rice plant experiment, each C. lividipennis was introduced to a cage with a rice plant containing N. lugens eggs. After 24?h, the number of dead eggs and remaining eggs were counted and data fitted to three functional response models. Among the three types of functional responses, Type II best described the predator response to host densities in N. lugens in both experimental habitats, according to the logistic regression analysis value. The results showed that C. lividipennis was a more effective predator in the rice plant experiment compared to the disc experiment. Additionally, the searching efficiency and handling time parameters were different in the two different experimental habitats. This may cause errors when applying the functional response to biological control and predator–prey models. Different habitats and other environmental conditions from the experiment and natural rice field have to be considered.     

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.     

Transgenic crop plants expressing synthetic cry9Aa gene are protected against insect damage

A synthetic gene sequence of cry9Aa was made to achieve high expression levels in a plant cell. Tobacco, potato, cauliflower and turnip rape plants were transformed with this synthetic gene driven by the double 35S promoter using Agrobacterium tumefaciens LBA4404. The presence and expression of the synthetic cry9Aa gene was evaluated in Southern, Northern and Western analysis and with insect bioassays. The expression of the gene in tobacco plants reached a level of 5 pg of mRNA per 1 μg of total RNA and 0.3% of soluble protein or 1.4 μg of Cry9Aa protein per 1 g of leaf material. The expression level in the other species was three to ten times lower. Tobacco plants were also transformed with a truncated native cry9Aa gene construct and with a translational fusion construct of the truncated native cry9Aa and the uidA (GUS) gene sequence. The constructs were transformed in tobacco plants under the control of the same promoter as the synthetic cry9Aa. The expression level of the native cry9Aa gene constructs ranged from 0.03 to 1 pg of cry9Aa mRNA per 1 μg of total RNA. The protein was undetectable in Western analysis. In comparison to the native constructs the expression level of the synthetic cry9Aa gene was five to ten times higher at the mRNA level and at least 50 times higher at the translational level. Bioassays against Plutella xylostella performed with transgenic cauliflower showed high insecticidal activity of the plants expressing the synthetic cry9Aa gene.     

Effect of rice lines transformed with Bacillus thuringiensis toxin genes on the brown planthopper and its predator Cyrtorhinus lividipennis

Five transgenic rice lines, each containing an insecticidal toxin gene from Bacillus thuringiensis (Bt) under control of a different promoter, were tested for effects on two non-target insects: the brown planthopper, Nilaparvata lugens (Stål) (Homoptera: Delphacidae), and its predator Cyrtorhinus lividipennis (Hemiptera: Miridae). Bt toxin was detected by ELISA in the honeydew of N. lugens that fed on rice lines with the CaMV 35S and actin promoters. Nilaparvata lugens produced greater volumes of acidic honeydew (derived from xylem feeding) on all five Bt rice lines than on non-transgenic control lines. The amount of honeydew derived from phloem feeding did not differ between Bt and control lines. There were no differences between N. lugens reared on Bt and control lines in any of the five fitness parameters measured (survival to the adult stage, male and female weight, and male and female developmental time). There were no differences between C. lividipennis reared on N. lugens nymphs from Bt and control lines, in any of the three fitness parameters examined (survival to the adult stage and male and female developmental time). Our results indicate that N. lugens and its natural enemies will be exposed to Bt toxins from rice lines transformed with some Bt gene constructs, but that this exposure might not affect N. lugens and C. lividipennis fitness.     

Development of leaffolder resistant transgenic rice expressing <Emphasis Type="Italic">cry2AX1</Emphasis> gene driven by green tissue-specific <Emphasis Type="Italic">rbcS</Emphasis> promoter

The insecticidal cry genes of Bacillus thuringiensis (Bt) have been successfully used for development of insect resistant transgenic rice plants. In this study, a novel cry2AX1 gene consisting a sequence of cry2Aa and cry2Ac gene driven by rice rbcS promoter was introduced into a rice cultivar, ASD16. Among 27 putative rice transformants, 20 plants were found to be positive for cry2AX1 gene. The expression of Cry2AX1 protein in transgenic rice plants ranged from 5.95 to 122.40 ng/g of fresh leaf tissue. Stable integration of the transgene was confirmed in putative transformants of rice by Southern blot hybridization analysis. Insect bioassay on T₀ transgenic rice plants against rice leaffolder (Cnaphalocrosis medinalis) recorded larval mortality up to 83.33 %. Stable inheritance and expression of cry2AX1 gene in T₁ progenies was demonstrated using Southern and ELISA. The detached leaf bit bioassay with selected T₁ plants showed 83.33–90.00 % mortality against C. medinalis. The whole plant bioassay for T₁ plants with rice leaffolder showed significant level of resistance even at a lower level of Cry2AX1 expression varying from 131 to 158 ng/g fresh leaf tissue during tillering stage.     

Behavioral response of Nilaparvata lugens (Stål), Cyrtorhinus lividipennis Reuter and Paederus fuscipes Curtis to three synthetic volatile chemical compounds

Plant essential oils (EOs) and a wide range of chemicals affect insect pests in many ways, such as via stimulatory, deterrent, toxic and hormonal effects. Three different compounds ((E)-β-caryophyllene (E-β-C), D-limonene (D-lime) and trans-2-dodecenol (T-2-D)) were tested against Nilaparvata lugens, Cyrtorhinus lividipennis and Paederus fuscipes, and their behavioral response was assessed. The results showed that on average, more N. lugens nymphs were repelled by E-β-C and T-2-D than by D-lime. More C. lividipennis nymphs were attracted to T-2-D and D-lime than to E-β-C. However, P. fuscipes displayed no significant response to the three chemical compounds. The results also demonstrated that T-2-D has exerted significant repellency against N. lugens and a significant attraction for C. lividipennis, while E-β-C and D-lime have no significant effect on any tested insect. T-2-D was selected and tested in a greenhouse under semi-field conditions, where the observations confirmed the results of the laboratory experiments. From the results, it can be concluded that T-2-D at a concentration of 0.06 g/L is an effective synthetic volatile chemical compound and is the strongest repellent of N. lugens and the strongest attractant for C. lividipennis. This synthetic chemical compound can be used as a pest management tool in rice agroecosystems.     

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.     

Parasporal Body Formation via Overexpression of the Cry10Aa Toxin of Bacillus thuringiensis subsp. israelensis,and Cry10Aa-Cyt1Aa Synergism

Bacillus thuringiensis subsp. israelensis is the most widely used microbial control agent against mosquitoes and blackflies. Its insecticidal success is based on an arsenal of toxins, such as Cry4A, Cry4B, Cry11A, and Cyt1A, harbored in the parasporal crystal of the bacterium. A fifth toxin, Cry10Aa, is synthesized at very low levels; previous attempts to clone and express Cry10Aa were limited, and no parasporal body was formed. By using a new strategy, the whole Cry10A operon was cloned in the pSTAB vector, where both open reading frames ORF1 and ORF2 (and the gap between the two) were located, under the control of the cyt1A operon and the STAB-SD stabilizer sequence characteristic of this vector. Once the acrystalliferous mutant 4Q7 of B. thuringiensis subsp. israelensis was transformed with this construct, parasporal bodies were observed by phase-contrast microscopy and transmission electron microscopy. Discrete, ca. 0.9-μm amorphous parasporal bodies were observed in the mature sporangia, which were readily purified by gradient centrifugation once autolysis had occurred. Pure parasporal bodies showed two major bands of ca. 68 and 56 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis. These bands were further characterized by N-terminal sequencing of tryptic fragments using matrix-assisted laser desorption ionization-time of flight mass spectrometry analysis, which identified both bands as the products of ORF1 and ORF2, respectively. Bioassays against fourth-instar larvae of Aedes aegypti of spore-crystal complex and pure crystals of Cry10Aa gave estimated 50% lethal concentrations of 2,061 ng/ml and 239 ng/ml, respectively. Additionally, synergism was clearly detected between Cry10A and Cyt1A, as the synergistic levels (potentiation rates) were estimated at 13.3 for the mixture of Cyt1A crystals and Cry10Aa spore-crystal complex and 12.6 for the combination of Cyt1A and Cry10Aa pure crystals.The subspecies Bacillus thuringiensis subsp. israelensis (serotype H-14) was discovered by Goldberg and Margalit in 1977 (11). To date, its insecticidal potential has not been overcome by any other bacterium (or any biological control agent) as an effective control measure against mosquito and blackfly larvae (8). Recently, its toxicity spectrum has been expanded to a coleopteran pest, the coffee berry borer (Hypothenemus hampei) (23), indicating that this strain may have potential versatility. Also, the so-called pBtoxis megaplasmid harbored in this strain, containing all the endotoxin-encoding genes found in its parasporal crystal, including cry4A, cry4B, cry10A, cry11A, and cyt1A, was recently sequenced (1). Among many other interesting aspects of this serotype, the occurrence of this mosquitocidal arsenal in one strain and their synergistic interaction make this bacterium scientifically and technologically attractive.The parasporal crystal of B. thuringiensis subsp. israelensis contains large amounts of Cry4A, Cry4B, Cry11A, and Cyt1A toxins (14), and consequently, most of the knowledge about the toxicity of this strain has been focused on these proteins, acting either as a complex (31) or tested separately (6). Although the cry10Aa gene was originally cloned in 1986 (known then as cryIVC) (30), to date, little is known about cry10Aa and the protein it encodes, mostly due to its very low levels of expression (10) in B. thuringiensis subsp. israelensis. Interestingly, cry10Aa is an operon as it includes two open reading frames (ORFs), previously reported as pBt047 and pBt048 (hereafter referred to only as ORF1 and ORF2, respectively), separated by a 48-bp untranslated gap (1). ORF1 contains the complete δ-endotoxin sequence (active toxin), with a coding capacity for a 78-kDa protein. Interestingly, ORF2 shows high identity with the coding sequence of the C-terminal half of Cry4-type proteins, with a coding capacity for a 56-kDa protein. Therefore, it is believed that a putative ancestral cry10Aa gene is similar in size to the cry4-type genes (ca. 4 kbp), but either a small sequence had been inserted in the middle of the coding sequence or site mutations produced end codons (two end codons flank the gap) in this region (1).Previous attempts to clone and express the cry10Aa gene included ORF1 and only part of ORF2 (7, 10, 30). This was a reasonable strategy, as most of the so-called “complete” protoxins are partially digested to become active toxins (δ-endotoxins) (28), and ORF1 included the complete sequence to code the Cry10Aa δ-endotoxin. However, in all these cases, the expression levels were very low, and no parasporal body was formed. Similar results were obtained when the promoter was changed and a stabilizing sequence was added to the construction (13). The low expression levels achieved in these cases led to conclusions that assumed low toxic levels of Cry10Aa when tested against mosquito larvae (30). In spite of the low toxicity of Cry10Aa found against mosquito larvae, a synergistic effect was reported between Cry10Aa and Cry4Ba toxins in Culex (7). Obtaining high levels of expression and crystallization of Cry10Aa are required to properly characterize and understand the toxic spectrum of this protein.In this report, we show the formation of parasporal bodies of Cry10Aa, achieved by cloning the whole Cry10Aa operon under the control of the cyt1A promoter and the STAB-SD sequence. We also show that Cry10Aa is as toxic as most of the other B. thuringiensis subsp. israelensis toxins acting separately, and in synergism with the Cyt1A toxin.     

Transgenic Cry1Ab rice does not impact ecological fitness and predation of a generalist spider

Background

The commercial release of rice genetically engineered to express a Cry1Ab protein from Bacillus thuringiensis (Bt) for control of Lepidoptera in China is a subject of debate. One major point of the debate has focused on the ecological safety of Bt rice on nontarget organisms, especially predators and parasitoids that help control populations of insect pests.

Methodology/Principal Findings

A tritrophic bioassay was conducted to evaluate the potential impact of Cry1Ab-expressing rice on fitness parameters of a predaceous ground spider (Pardosa pseudoannulata (Bösenberg et Strand)) that had fed on Bt rice-fed brown planthopper (Nilaparvata lugens (Stål)) nymphs. Survival, development time and fecundity of this spider were not different when they were fed with Bt rice-fed or non-Bt rice-fed prey. Furthermore, ELISA and PCR gut assays, as well as a functional response trial, indicated that predation by P. pseudoannulata was not significantly different in Bt rice or non-Bt rice fields.

Conclusions/Significance

The transgenic Cry1Ab rice lines tested in this study had no adverse effects on the survival, developmental time and fecundity of P. pseudoannulata in the laboratory or on predation under field conditions. This suggests that this important predator would not be harmed if transgenic Cry1Ab rice were commercialized.     

Evaluating the Insecticidal Genes and Their Expressed Products in Bacillus thuringiensis Strains by Combining PCR with Mass Spectrometry

By a combination of PCR and mass spectrometry, a total of five cry genes (cry1Aa, cry1Ac, cry2Aa, cry2Ab, and cry1Ia) were detected in genomic DNA from the wild-type Bacillus thuringiensis strain 4.0718, and three protoxins (Cry1Aa, Cry1Ac, and Cry2Aa) were identified in the strain's parasporal crystals. These results indicated that this complementary method may be useful in evaluating B. thuringiensis strains at both the gene and protein levels.     

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.     

Variant cry1Ab entomocidal Bacillus thuringiensis toxin gene facilitates the recovery of an increased number of lepidopteran insect resistant independent rice transformants against yellow stem borer (Scirpophaga incertulus) inflicted damage

The primary technical constraint plant scientists face in generating insect resistant transgenic crops with insecticidal Bacillus thuringiensis (Bt) crystal protein (Cry) genes remains failing to generate sufficiently large numbers of effective resistant transgenic plant lines. One possible means to overcome this challenge is through deployment of a Cry toxin gene that contains high levels of insecticidal specific activity for target insect pests. In the present study, we tested this hypothesis using a natural variant of the Cry1Ab toxin under laboratory conditions that possessed increased insecticidal potency against the yellow stem borer (YSB, Scirpophaga incertulus), one of the most damaging rice insect pests. Following adoption of a stringent selection strategy for YSB resistant transgenic rice lines under field conditions, results showed recovery of a significantly higher number of YSB resistant independent transgenic plant lines with the variant cry1Ab gene relative to transgenic plant lines harbouring cry1Ab berliner gene. Structural homology modelling of the variant toxin peptide with the Cry1Aa toxin molecule, circular dichroism spectral analysis, and hydropathy plot analysis indicated that serine substitution by phenylalanine at amino acid position 223 of the Cry1Ab toxin molecule resulted in a changed role for α-helix 7 in domain I of Cry1Ab for enhanced toxicity.     

Cloning and Expression of Two Crystal Protein Genes, cry30Ba1 and cry44Aa1, Obtained from a Highly Mosquitocidal Strain, Bacillus thuringiensis subsp. entomocidus INA288

Two novel crystal protein genes, cry30Ba and cry44Aa, were cloned from Bacillus thuringiensis subsp. entomocidus INA288 and expressed in an acrystalliferous strain. Cry44Aa crystals were highly toxic to second-instar Culex pipiens pallens (50% mortality concentration [LC₅₀] = 6 ng/ml) and Aedes aegypti (LC₅₀ = 12 ng/ml); however, Cry30Ba crystals were not toxic.     

Transgenic indica rice plants harboring a synthetic cry2A* gene of Bacillus thuringiensis exhibit enhanced resistance against lepidopteran rice pests

A novel synthetic cry2A* gene was introduced into the elite indica rice restorer line Minghui 63 by Agrobacterium-mediated transformation. A total of 102 independent transformants were obtained. Among them, 71 transformants were positive cry2A* plants according to PCR analysis. Four highly insect-resistant lines with single-copy insertion (designated as 2A-1, 2A-2, 2A-3, and 2A-4) were selected based on field assessment and Southern blot analysis in the T₁ generation. All four transgenic lines showed Mendelian segregation by seed germination on 1/2 MS medium containing Basta. Homozygous transgenic plants were selected according to germination ratio (100%) in the T₂ generation. Cry2A* protein concentrations were determined in homozygous transgenic lines, their derived hybrids, and their backcross offspring. The Cry2A* protein concentrations of four homozygous transgenic lines ranged from 9.65 to 12.11 μg/g of leaf fresh weight. There was little variation in the hybrids and backcross offspring. Insect bioassays were conducted in both the laboratory and field. All four transgenic lines were significantly resistant to lepidopteran rice pests. These cry2A* transgenic lines can be used to produce insect-resistant hybrids and serve as a resistant source for the development of two-toxin Bt rice.     

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.     

Intraspecific Variation in Chemical Attraction of Rice to Insect Predators

The olfactory response of predators of the brown planthopper,Nilaparvata lugensStål, to different genotypes of rice (14 cultivars and breeding lines ofOryza sativaL. and 1 wild species,Oryza nivaraSharma et Shastry) was measured in an airflow olfactometer. Odor from rice plants attracted more females of the mirid predatorCyrtorhinus lividipennisReuter than plain air (control) on only 6 of the 15 rice genotypes. Orientation ofC. lividipennistoward volatiles of certain rice genotypes was apparent even when the plants were free of the brown planthopper. However, the predator distinguished between prey-infested and uninfested plants and preferred plants with eggs over plants with nymphs. The predator did not distinguish different stages of plant growth (vegetative, booting, or flowering). Plants artificially injured to simulate brown planthopper oviposition wounds were not as attractive to the predator as plants on which the planthopper had oviposited. The preassay preconditioning on the cultivar TN1 did not produce a predator bias for this genotype. This suggests that rearing effects or chemically mediated associative learning reported for some natural enemies did not influenceC. lividipennis'host response. Results with another predator, the coccinellidMicraspis hirashimaiSasaji, produced less consistent behavior. Planthopper-infested plants attracted more females ofM. hirashimaithan unifested plants in only 1 of the 12 rice genotypes evaluated. Implications for augmenting predators by rice cultivar selection and modification are discussed.     

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     

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.     

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.