cry4Aa、cry4Ba和cryllAa基因在苏云金杆菌无晶体型菌株中的表达

利用穿梭载体pBU4,将苏云金杆菌以色列亚种(Bti)的cry4Aa、cry4Ba和cry11Aa基因分别转入Bti无晶体突变株4Q7中,获得了转化菌株Bt-B601、Bt-B611和Bt-B640.SDS-PAGE结果显示Cry4Aa、Cry4Ba和Cry11Aa蛋白均分别获得了表达.透射电镜下观察,转化菌株能产生球形或菱形伴胞晶体.转化菌株对敏感和抗性致倦库蚊及白纹伊蚊幼虫的生物测定结果显示Cry4Aa、Cry4Ba和Cry11Aa蛋白对库蚊和伊蚊的毒力较低,二元毒素抗性库蚊幼虫对Bti杀蚊毒素蛋白无明显的交叉抗性.     

cry4Aa、cry4Ba和cry11Aa基因在苏云金杆菌无晶体型菌株中的表达

利用穿梭载体pBU4,将苏云金杆菌以色列亚种（Bti)的cry4Aa、cry4Ba和cry11Aa基因分别转入Bti无晶体突变株4Q7中,获得了转化菌株Bt-B601、Bt-B611和Bt-B640。SDS－PAGE结果显示：cry4Aa、cry4Ba和cry11Aa蛋白均分别获得了表达。透射电镜下观察,转化菌 有产生球形或菱形伴胞晶体。转化菌株对敏感和抗性致倦库蚊及白纹伊蚊幼虫的生物测定结果显示：cry4Aa、cry4Ba和cry11Aa蛋白对库蚊和伊蚊的毒力较低,二元毒素抗性库蚊幼虫对Bti杀蚊毒素蛋白无明显的交叉抗性。     

苏云金杆菌辅助蛋白P19对杀虫晶体蛋白Cry11Aa表达的影响

苏云金杆菌以色列亚种的p19基因、cry11Aa基因和p20基因位于同一操纵子上,据推测辅助蛋白P19可能与Cry11Aa蛋白的晶体化相关。本研究利用穿梭载体pHT3101构建了两个重组质粒pHcy1和pHcy3,两质粒均携带cry11Aa基因,但后者完全缺失了cry11Aa基因上游的p19基因。将重组质粒电激转化至苏云金杆菌无晶体突变株4Q7中进行蛋白表达,SDS-PAGE结果表明在4Q7(pHcy1)和4Q7(pHcy3)中均能检测到正常表达的Cry11Aa蛋白,但单位体积培养液的Cry11Aa蛋白在辅助蛋白P19存在时的表达量明显高于其单独表达的表达量;透射电镜观察显示两菌株中的Cry11Aa蛋白形成了大小相近、形状相似的双梯形晶体;另外,生物测定结果表明重组菌株4Q7(pHcy1)和4Q7(pHcy3)对三龄致倦库蚊的杀虫活性没有显著性差异。该现象说明辅助蛋白P19的缺失对Cry11Aa蛋白的晶体形成和杀蚊活性没有影响,但P19作为分子伴侣在一定程度上帮助提高了Cry11Aa蛋白的表达水平。     

苏云金芽孢杆菌的cry2A芽孢期启动子和分子伴侣ORF1-ORF2对Cry11Aa蛋白表达的影响

[目的]分析苏云金芽孢杆菌的cry2A型芽孢期启动子对晶体蛋白Cry11Aa的协调作用和分子伴侣ORF1-ORF2对Cry11Aa表达的促进功能.[方法]3个包括cry11Aa编码区的重组质粒pHcy1、pHcy2和pHcy4被构建并电激转化到苏云金芽孢杆菌晶体缺陷株4Q7中,其中pHcy1质粒携带cry11Aa基因自身启动子和分子伴侣p19基因,pHcy2携带cry2A型芽孢期启动子和分子伴侣orf1-orf2基因,pHcy4质粒在pHcy1的上游插入了cry2A型芽孢期启动子和分子伴侣orf1-orf2基因.SDS-PAGE分析了Cry11Aa蛋白在各重组苏云金菌株中的表达情况,并通过生物测定确定了其对蚊虫的生物活性.[结果]SDS-PAGE结果表明,Cry11Aa蛋白在4Q7(pHcy1)和4QT(pHcy4)均获得了表达,在4Q7(pHcy2)中未检测到Cry11Aa蛋白,推测晶体蛋白Cry11A不能利用cry2A型启动子进行表达调控;Cry11Aa蛋白在等体积4Q7(pHcy4)培养液中的表达量是4Q7(pHcy1)菌株的1.25倍,暗示着分子伴侣ORF1-ORF2在某种程度上能提高Cry11Aa的蛋白表达量.4Q7(pHcy1)和4Q7(pHcy4)形成的Cry11Aa蛋白晶体的形状和大小相似,两者对致倦库蚊的生物活性没有明显差异,LC50s分别为59.33 ng/mL和66.21 ng/mL,.[结论]推测晶体蛋白Cry11A能否成功表达与其使用启动子的类型和两者的协调配合有关.分子伴侣ORF1-ORF2虽然在某种程度上能提高Cry11Aa的蛋白表达量,但对提高Cry11Aa蛋白的杀蚊毒力没有显著性帮助.     

苏云金杆菌辅助蛋白基因p19和orf1-orf2对杀虫晶体蛋白Cyt1 Aa表达的影响(英文)

为检测苏云金杆菌辅助蛋白P19和ORF1 ORF2对杀虫晶体蛋白Cyt1Aa表达的影响 ,构建了 5个重组表达质粒。 5个质粒都含有cyt1Aa基因 ,但pT1只含有cyt1Aa基因 ,pT2同时含有p19基因 ,pT3同时含有orf1 orf2串联基因 ,pT4同时含有p19基因和p2 0基因 ,pT5同时含有orf1 orf2串联基因和p2 0基因。将这 5个表达质粒和质粒pWF4 5电转化到苏云金杆菌晶体缺陷型 4Q7中 ,分别获得转化菌株Bt T1、Bt T2、Bt T3、Bt T4、Bt T5和Bt WF4 5。SDS PAGE结果显示 ,菌株Bt T1、Bt T2和Bt T3只产生少量的 2 7kDCyt1Aa蛋白 ,而且部分降解为大约 2 4kD的蛋白。而Bt T4和Bt T5能产生大量的Cyt1Aa蛋白 ,但Bt T4和Bt T5的Cyt1Aa蛋白产量都明显少于Bt WF4 5。电镜观察和生物测定结果表明Bt T4和Bt T5与Bt WF4 5的晶体大小和杀蚊毒力没有显著性差异。研究表明P19和ORF1 ORF2对Cyt1Aa蛋白的合成显示可能有抑制作用。     

苏云金芽孢杆菌以色列亚种cyt1 Aa基因在球形芽孢杆菌中表达

将编码cyt1Aa基因和 p2 0蛋白基因的DNA片段分别克隆连接于两个不同的穿梭载体 pBU 4和pMK 3上 ,构建了重组质粒 pBA 30和 pMA 6,通过电击法 ,将重组质粒分别转化 B .s野生株2 2 97,获得了转化菌株Bs 97 30和Bs 97 6。SDS PAGE和Westernblot分析证实了cyt1Aa基因在转化菌株Bs 97 30中获得了表达 ,而在转化菌株Bs 97 6中未检测到cyt1Aa基因表达的蛋白。转化菌株Bs 97 30中 ,cyt1Aa基因与B .s二元毒素基因同步于菌体生长的对数期起始表达 ,并持续至芽孢形成。生测结果表明 ,转化菌株Bs 97 30中cyt1Aa基因的表达并未明显增强其对敏感和抗性致倦库蚊幼虫的毒力。其原因可能是弱毒性的 cyt1Aa蛋白在转化菌株中的表达量不高。     

苏云金芽胞杆菌Rpp39杀虫晶体蛋白基因的鉴定及cry2Aa12基因的克隆表达

[目的]本研究的目的是分析从四川生态条件下分离的苏云金芽胞杆菌Rpp39菌株的特性,从分子水平上揭示该菌株对鳞翅目高毒力的原因;进一步从中分离克隆cry2Aa基因,并对其进行初步的表达研究.[方法]本研究主要采用扫描电镜观察、PCR-RFLP鉴定法和SDS-PAGE分析法研究菌株的特性;采用PCR直接克隆法克隆cry2Aa全长基因,并亚克隆到原核表达载体pET-30a中,构建重组表达质粒pET-2Aa,再转入受体菌E.coli.BL21(DE3)中进行诱导表达;采用室内生物测定法测定表达产物对小菜蛾和水稻二化螟的毒力.[结果]经扫描电镜观察菌株Rpp39主要产生菱形、方形和圆形3种伴胞晶体;SDS-PAGE分析表明主要产生130 kDa和60 kDa左右2种蛋白;经PCR-RFLP鉴定,该菌株含有cry1Aa、cry1Ab、cry1Ac、cry1Ia和cry2Aa五类杀虫晶体蛋白基因;1种cry2Aa类杀虫晶体蛋白全长基因被克隆,序列分析显示该基因的开放阅读框(ORF)为1902 bps,编码由634个氨基酸组成的蛋白质,氨基酸序列与Cry2Aa1蛋白同源性为99.7%,被国际Bt杀虫晶体蛋白基因命名委员会命名为cry2Aa12.重组表达质粒pET-2Aa在E.coli BL21(DE3)中,经IPTG诱导能正常表达,SDS-PAGE电泳验证含有65 kDa表达蛋白.生物活性测定表明表达的包涵体蛋白对小菜蛾和二化螟具有杀虫活性,LC50分别为5.4 μg/mL和22.3μg/mL.[结论]菌株Rpp39及从中分离克隆的cry2Aa12基因来自四川生态条件,丰富了菌株及基因的资源,在资源积累方面具有重要意义.     

对鳞翅目害虫高毒力的Bt cry1Aa基因的分离克隆及表达

Bt菌Ly30株是我国自行分离的对多种害虫具有高毒力的苏云金芽孢杆菌,经CAPS(cleaved amplified polymorphic sequences)系统鉴定,它含有cry1Aa基因。以全长基因PCR产物的粘端定向克隆的方法, 设计一对特异引物,分别引入NcoⅠ和BamHⅠ/NcoⅠ酶切位点。以Ly30质粒DNA为模板扩增cry1Aa全长基因,与表达载体Pkk233-2相应酶切产物连接,转化大肠杆菌,获得含有cry1Aa基因重组质粒pKKLy1Aa。完成了该基因的亚克隆和序列测定,结果表明,该基因的编码区为3 531 bp,编码蛋白分子量为133.2kD,含1.176个氨基酸,等电点Pi为4.99。该基因序列已在GenBank中登记注册,登录号为AF384211,并被国际Bt杀虫晶体蛋白基因命名委员会正式命名为cry1Aa12。对重组菌KKLy1Aa进行诱导表达研究。在0.6 mmol/L IPTG、37℃、8 h培养条件下,该基因获得高效表达,SDS-PAGE电泳检测到明显的133.2 kD蛋白带。室内生测结果表明,Cry1Aa蛋白对不同的小菜蛾品系均有较高的杀虫活性,其LC₅₀值分别为0.203 μg/mL和0.554 μg/mL。     

cry4Aa、cry4Ba和cry11Aa基因在苏云金杆菌无晶体型菌株中的表达

利用穿梭载体pBU4,将苏云金杆菌以色列亚种 (Bti)的cry4Aa、cry4Ba和cry11Aa基因分别转入Bti无晶体突变株 4Q7中 ,获得了转化菌株Bt B60 1、Bt B61 1和Bt B640。SDS PAGE结果显示 :Cry4Aa、Cry4Ba和Cry11Aa蛋白均分别获得了表达。透射电镜下观察 ,转化菌株能产生球形或菱形伴胞晶体。转化菌株对敏感和抗性致倦库蚊及白纹伊蚊幼虫的生物测定结果显示 :Cry4Aa、Cry4Ba和Cry1 1Aa蛋白对     

苏云金芽胞杆菌V4菌株cry杀虫基因的鉴定、表达及杀虫活性分析

旨在给生物防治提供更多的基因资源,以从本实验室分离的300株苏云金芽胞杆菌基因组为模板,利用cry1类全长通用引物进行PCR cry1类基因鉴定。经过PCR-RFLP鉴定出菌株V4含有cry1Ea基因,进一步研究发现该菌株还含有cry2Aa基因,并成功克隆到了这两个新基因,被Bt国际命名委员会正式命名为cry1Ea12和cry2Aa16。将两种基因在大肠杆菌Rosetta(DE3)中表达,表达蛋白进行杀虫活性测定,结果表明两种蛋白杀虫活性不理想,但对试虫存在明显的体重抑制,而V4菌株蛋白具有较高的杀虫活性。     

Cross-resistance spectra of Culex quinquefasciatus resistant to mosquitocidal toxins of Bacillus thuringiensis towards recombinant Escherichia coli expressing genes from B. thuringiensis ssp. israelensis

Sixteen Escherichia coli clones were assayed against susceptible and Bacillus thuringiensis-resistant Culex quinquefasciatus larvae. The clones expressed different combinations of four genes from Bacillus thuringiensis ssp. israelensis; three genes encoded mosquitocidal toxins (Cry11Aa, Cry4Aa and Cyt1Aa) and the fourth encoded an accessory protein (P20). The cross-resistance spectra of the mosquitoes were similar to the profiles for recombinant B. thuringiensis strains expressing B. thuringiensis toxin genes, but with varied toxicity levels. The toxicity of the recombinants towards resistant mosquito larvae was improved when p20 and cyt1Aa were expressed in combination with cry4Aa and/or cry11Aa. Recombinant pVE4-ADRC, expressing cry4Aa, cry11Aa, p20 and cyt1Aa, was the most active against the resistant Culex, and resistance levels did not exceed fourfold. These results indicate that B. thuringiensis ssp. israelensis genes expressed in a heterologous host such as E. coli can be effective against susceptible and B. thuringiensis-resistant larvae and suppress resistance.     

Toxic activity of Bacillus Thuringiensis isolates to Aedes Aegypti (L.) (Diptera: Culicidae) larvae

Aedes aegypti (L.), the main vector of dengue fever in Brazil, has been controlled with the use of massive chemical products, contributing to the development of resistance and decreasing the insect control efficiency. The control of dipterans with bioinsecticides based on Bacillus thuringiensis has been satisfactory, due to the production of insecticidal proteins denominated Cry (crystal), Cyt (cytolytic) toxins and Chi (chitinase), and to the synergistic effects among them. The present work aimed to select B. thuringiensis isolates efficient against A. aegypti larvae. A bacterial collection containing 1,073 isolates of B. thuringiensis, obtained from different locations of Brazilian territory, had the DNA isolated and submitted to PCR amplifications using specific primers for cry4Aa, cry4Ba, cry11Aa, cry11Ba, cyt1Aa, cyt1Ab, cyt2Aa and chi genes. For the LC50 and LC90 determination, the entomopathogenic isolates were evaluated by selective and quantitative bioassays. Only 45 isolates (4.2%) presented amplicons for the cry and cyt genes. The chi gene sequence was detected in 25 (54.3%) of those isolates. From the 45 isolates submitted to the selective bioassays, 13 caused 100% mortality of A. aegypti larvae. The identification of cry, cyt and chi genes of B. thuringiensis and the toxicity analysis on A. aegypti led to the selection of a set of isolates that have the potential to be used in the formulation of new bioinsecticides.     

Toxicity and synergism in transgenic Escherichia coli expressing four genes from Bacillus thuringiensis subsp. israelensis

The genes cyt1Aa and p20 , encoding, respectively, cytolytic and accessory proteins of Bacillus thuringiensis subsp. israelensis , were introduced into previously constructed clones expressing cry4Aa and cry11Aa in Escherichia coli ( Ben-Dov et al ., 1995 ). Fifteen clones with all possible combinations of the four genes were obtained and found to express the genes included. Two new combinations, pVE4-ADRC and pVE4-ARC, expressing cyt1Aa , p20 and cry4Aa , with or without cry11Aa , respectively, were more toxic than their counterparts without cyt1Aa . They displayed the highest toxicity against Aedes aegypti larvae ever reached in transgenic bacteria. Five out of the six clones (except pVE4-DC) containing cry4Aa or cry11Aa (with or without p20 ) displayed varying levels of synergism with cyt1Aa : they are 1.5-to 34-fold more toxic than the respective clones without cyt1Aa against exposed larvae. Their lethal times also decreased (they kill larvae quicker), more so at higher cell concentrations. These clones are anticipated to dramatically reduce the likelihood of resistant development in the target organisms ( Wirth et al ., 1997 ).     

Molecular cloning and characterization of a novel mosquitocidal protein gene from Bacillus thuringiensis subsp. fukuokaensis.

A novel mosquitocidal protein gene, cry20Aa, was cloned from Bacillus thuringiensis subsp. fukuokaensis (H-3a: 3d: 3e). The gene product, Cry20Aa, was naturally truncated and had a molecular mass of 86,138 Da. The Cry20Aa protein possessed five conserved sequence blocks, as do most other insecticidal Cry toxins. However, an amino acid comparison of Cry20Aa with other mosquitocidal toxins, including Cry4A, Cry4B, Cry10A, Cry11A, and Cry11B, demonstrated that Cry20Aa was quite different from other toxins except for the conserved blocks. The N terminus of Cry20Aa was, however, homologous to the N termini of Cry4A and Cry10A. Interestingly, an inverted repeat (IR1) sequence in the open reading frame of the cry20Aa gene caused incomplete expression of Cry20Aa. When this internal IR1 sequence was altered with no change of amino acid sequence, acrystalliferous B. thuringiensis cells transformed with cry20Aa gene dramatically produced crystal inclusions. However, the intact 86-kDa Cry20Aa protein is highly labile, and it is rapidly degraded to polypeptides of 56 and 43 kDa. To increase expression of the cry20Aa gene, the p20 chaperonelike protein and the cyt1Aa promoter were utilized. While p20 did not increase Cry20Aa expression or stability, chimeric constructs in which the cry20Aa gene was under control of the cyt1Aa promoter overexpressed the Cry20Aa protein in acrystalliferous B. thuringiensis. The expressed Cry20Aa protein showed larvicidal activity against Aedes aegypti and Culex quinquefasciatus. However, the mosquitocidal activity was low, probably due to rapid proteolysis to inactive 56- and 43-kDa proteins.     

Mosquito larvicidal activity of transgenic Anabaena PCC 7120 expressing toxin genes from Bacillus thuringiensis subsp. israelensis

Genes encoding the mosquito larvicidal toxins Cry4Aa, Cry11Aa, Cyt1Aa and the regulatory P20 from Bacillus thuringiensis subsp. israelensis were introduced into the nitrogen-fixing, filamentous cyanobacterium Anabaena PCC 7120 for expression under control of two strong promoters P(psbA) and P(A1). The clone pRVE4-ADRC displayed toxicity against fourth-instar larvae of Aedes aegypti, the highest ever achieved in cyanobacteria. It was about 2.5-fold more toxic than the respective clone without cyt1Aa [Wu et al., Appl. Environ. Microbiol. 63 (1997) 4971-4975]. Cyt1Aa synergized the combination of Crys by about five-fold. Consistently, the lethal times exerted by pRVE4-ADRC were also reduced (it killed exposed larvae more quickly). This clone may become a useful biological control agent which reduces the probability of resistance development in the target organisms [Wirth et al., Proc. Natl. Acad. Sci. USA 94 (1997) 10536-10540].     

Partial restoration of antibacterial activity of the protein encoded by a cryptic open reading frame (cyt1Ca) from Bacillus thuringiensis subsp. israelensis by site-directed mutagenesis

Insecticidal crystal proteins of Bacillus thuringiensis belong to two unrelated toxin families: receptor-specific Cry toxins against insects and Cyt toxins that lyse a broad range of cells, including bacteria, via direct binding to phospholipids. A new cyt-like open reading frame (cyt1Ca) encoding a 60-kDa protein, has recently been discovered (C. Berry et al., Appl. Environ. Microbiol. 68:5082-5095, 2002). Cyt1Ca displays the structure of a two-domain fusion protein: the N-terminal moiety resembles the full-length Cyt toxins, and the C-terminal moiety is similar to the receptor-binding domains of several ricin-like toxins, such as Mtx1. Neither the larvicidal activity of cyt1Ca expressed in Escherichia coli nor the hemolytic effect of His-tagged purified Cyt1Ca has been observed (R. Manasherob et al., unpublished). This was attributed to five amino acid differences between the sequences of its N-terminal moiety and Cyt1Aa. The 3' end of cyt1Ca was truncated (removing the ricin-binding domain of Cyt1Ca), and six single bases were appropriately changed by site-directed mutagenesis, sequentially replacing the non-charged amino acids by charged ones, according to Cyt1Aa, to form several versions. Expression of these mutated cyt1Ca versions caused loss of the colony-forming ability of the corresponding E. coli cells to different extents compared with the original gene. In some mutants this antibacterial effect was associated by significant distortion of cell morphology and in others by generation of multiple inclusion bodies spread along the cell envelope. The described deleterious effects of mutated cyt1Ca versions against E. coli may reflect an evolutionary relationship between Cyt1Aa and Cyt1Ca.     

Binding of Bacillus thuringiensis subsp. israelensis Cry4Ba to Cyt1Aa has an important role in synergism

Bacillus thuringiensis subsp. israelensis (Bti) produces at least four different crystal proteins that are specifically toxic to different mosquito species and that belong to two non-related family of toxins, Cry and Cyt named Cry4Aa, Cry4Ba, Cry11Aa and Cyt1Aa. Cyt1Aa enhances the activity of Cry4Aa, Cry4Ba or Cry11Aa and overcomes resistance of Culex quinquefasciatus populations resistant to Cry11Aa, Cry4Aa or Cry4Ba. Cyt1Aa synergized Cry11Aa by their specific interaction since single point mutants on both Cyt1Aa and Cry11Aa that affected their binding interaction affected their synergistic insecticidal activity. In this work we show that Cyt1Aa loop β6-αE K198A, E204A and β7 K225A mutants affected binding and synergism with Cry4Ba. In addition, site directed mutagenesis showed that Cry4Ba domain II loop α-8 is involved in binding and in synergism with Cyt1Aa since Cry4Ba SI303-304AA double mutant showed decreased binding and synergism with Cyt1Aa. These data suggest that similarly to the synergism between Cry11Aa and Cyt1Aa toxins, the Cyt1Aa also functions as a receptor for Cry4Ba explaining the mechanism of synergism between these two Bti toxins.