苏云金芽孢杆菌Cry1Aa和Cry1Ca结构域交换对晶体形态和杀虫活性影响

通过体外重组的方法,实现了苏云金芽孢杆菌杀虫晶体蛋白Cry1Aa和Cry1Ca的功能性结构域Ⅰ、Ⅱ和Ⅲ的互换,得到了6株苏云金杆菌重组菌株BT-ACC,BT-AAC,BT-ACA,BT-CAA,BT-CCA和BT-CAC。SDS-PAGE和Westernblot分析表明,重组菌株BT-CAA和BT-CCA能表达产生135kDa左右的杂交晶体蛋白Cry1CAA和Cry1CCA,但其蛋白表达量较野生型Cry1Aa和Cry1Ca低。用牛胰蛋白酶对杂交晶体蛋白Cry1CAA、Cry1CCA及野生型Cry1Aa和Cry1Ca进行消化,证明所有晶体蛋白都能产生65kDa的活性毒素。电镜观察发现,野生菌株BT-Cry1Aa和BT-Cry1Ca形成典型的菱形晶体,而重组菌株BT-CCA和BT-CAA则形成球形或颗粒状杂交晶体。纯化晶体的生物测定显示,杂交晶体蛋白Cry1CAA和Cry1CCA对甜菜夜蛾的毒力比野生型晶体蛋白降低3~5倍,对棉铃虫的毒力比野生型晶体蛋白降低了190~260倍。研究结果表明,苏云金杆菌晶体蛋白不同结构域的相互作用会影响杂交晶体蛋白的表达、晶体形态和杀虫活性。     

对二点委夜蛾高毒力苏云金芽胞杆菌的筛选及其基因型分析

【目的】获得对二点委夜蛾Athetis lepigone(M(o|¨)schler)高毒力的苏云金芽胞杆菌(Bt)菌株,寻找对该虫具有特异杀虫活性的蛋白毒素,探索Bt菌株或其杀虫基因应用于二点委夜蛾防治的可行性。【方法】通过生物测定方法比较了36株苏云金芽胞杆菌和一株恶臭假单胞工程菌PHB-cry1Ab对二点委夜蛾幼虫的杀虫活性,同时利用PCR-RFLP方法对这些菌株的基因型进行了分析。【结果】不同Bt菌株对二点委夜蛾幼虫的杀虫活性差别很大,杀虫活性高的菌株都含有cry1Ac基因。饲毒72 h后含单基因的BtHD-73菌株(cry1Ac)对二点委夜蛾2龄幼虫的毒力(LC_(50)值为188.51μg/g)明显高于含多基因的Bt SC-40菌株(cry1Ac,cry2Ac,cry1I,vip3A)的毒力(LC_(50)值为418.13μg/g)。含有vip3A基因的Bt SC-40和BtHD-13营养期上清液对二点委夜蛾2龄幼虫表现出一定的杀虫活性(72 h死亡率分别达到42.5%和57.4%),而无vip3A基因的Bt HD-73营养期上清液未表现出明显的杀虫活性。【结论】由cry1Ac基因编码的Cry1Ac蛋白对二点委夜蛾幼虫具有特异杀虫活性,Vip3A蛋白对二点委夜蛾幼虫可能也有一定的杀虫活性。     

我国部分地区土壤中的苏芸金芽孢杆菌和球形芽孢杆菌

从云南、贵州、四川和陕西4省的土壤中分离到大量苏芸金芽孢杆菌(Bacillus thuringie—nsis)和球形芽孢杆菌(Bacillus sphaeticus)菌株。血清型分析表明,苏芸金芽孢杆菌分离株分属于23个血清型中的13个血清型,另有近20％的自凝型菌株及部分与所有标准菌抗血清无反应的菌株。对该两种昆虫病原细菌的生态分布规律进行了分析。研究了全部苏芸金芽孢杆菌分离株对鳞翅目、鞘翅目及双翅目的6种昆虫的毒力特性、伴孢晶体与芽孢的形态,以及晶体蛋白质成分。观察和测定了球形芽孢杆菌分离株的形态和毒力,并分析了部分菌株的晶体蛋白质成分。得到22株高效苏芸金芽孢杆菌和2株高效球形芽孢杆菌。证明苏芸金芽孢杆菌是典型的土壤微生物类群,我国西南地区土壤中的苏芸金芽孢杆菌资源十分丰富。     

我国仓贮昆虫病原芽孢杆菌的研究

对９５１个样品分离鉴定,有７４７个样品含芽孢杆菌,有菌率为７８．５５％．共分离得到芽孢杆菌１１３８株,其中苏云金杆菌（Ｂａｃｉｌｌｕｓｔｈｕｒｉｎｇｉｅｎｓｉｓ,简称Ｂ．ｔ）１４３株,占１２．５％;球形芽孢杆菌（Ｂａｃｉｌｌｕｓｓｐｈａｅｒｉｃｕｓ,简称Ｂ．ｓ）１１株,占０．９７％;其他芽孢杆菌９８４株,占８６．４０％．从芽孢杆菌中选出产生晶体、苏云金素或磷酸酯酶Ｃ（ＰｈｏｓｐｈａｌｉｐａｓｅＣ,简称ＰＬＣ）的毒素菌株１６８株,其中Ｂ．ｔ占１４３株,Ｂ．ｓ有５株,其他芽孢杆菌１０株．在产毒素菌株中,经测定有１２０株菌对供试昆虫毒性达标．占７７．９２％．不同菌株的杀虫毒素、杀虫范围和毒力各异,认为这种差异取决于毒素和虫种两方面的特异性．     

B.t.c.cry 1C全长基因的克隆及其在增产菌中的表达

设计的一对引物,对苏云金芽孢杆菌科默尔亚种(Bacillus thuringiensis subsp．colmeri)15A3菌株中的cry1C基因进行PER扩增,得到包括结构基因,调节基因在内的全长为4．0kb的PCR产物。经两步克隆,将此基因连接至穿梭表达载体pHT315上,得到重组质粒pHT-1C。通过电转化将其导入一株增产菌蜡状芽孢杆菌(Bacillus cereus)9509菌株,SDS-PAGE检测到1条60kD左右的蛋白带,镜检观察到菱形晶体,生测结果表明,cry1C基因的导人使Bc9509菌株获得了对甜菜夜蛾的杀虫活性。     

苏芸金杆菌伴孢晶体的形态及抗原特性

结合苏芸金杆菌不同品系毒力差异,对伴孢晶体形态、血清学特性进行了比较研究。对分属于7个血清型的19个林系的伴孢晶体观察表明：晶体形态以品系而异与分类属性无关;晶体可归为五个类型：菱形、嵌合形、球形、立方形、不规则形。发现具有嵌合形多的菌株对鳞趔目幼虫毒力不仅高,且在有毒力的菌株中嵌合形并不罕见;不规则形无毒力。对毒力差异大的菌株采用密度梯度离心提纯了其伴孢晶体,进行双向琼脂糖免疫扩敞试验,证明了晶体形态与其对昆虫的毒力有关。     

中国苏云金芽孢杆菌的分布与cry基因的多样性

采集全中国27个省、自治区及4个直辖市昆虫孳生地粉尘、土壤等样品1080份,在其中的406份中分离到苏云金芽孢杆菌965株.镜检可观察到大菱形、小菱形、方形、长方形、圆形、椭圆形、镶嵌形和不规则形等8种主要形态的伴孢晶体;采用cryⅠ、cryⅡ、cryⅢ、cryⅣ和cryⅤ基因的通用引物对221株Bt分离株进行的PCR检测结果表明各类基因的含量依次为cryⅠ＞cryⅡ＞cryⅤ＞cryⅢ基因,分别占被检菌株的75.6%、67.9%、58.4%和14.5%,没有检测到cryⅣ基因,共得到10种基因组合类型.对其中含有cryⅠ基因的菌株分别以cryIAc、cryIC和cryIE基因的特异性引物进行PCR检测,得到20株同时含有cryIAc、cryIC、cryⅡ和cryⅤ优良基因组合的Bt分离株,其中菌株Bt-15A3对棉铃虫、甜菜夜蛾及小菜蛾均表现出高毒力,具有生产开发潜力.     

苏云金杆菌cry 1C基因检测及其与杀虫活性的关系

对实验室分离保存的 5 4株苏云金芽孢杆菌的H 血清型、杀虫晶体蛋白质 ,杀虫基因cry 1C和对甜菜夜蛾的活性进行了检测 ,分析了它们之间的关系。结果表明 ,有 2 8株菌株含有cry 1C基因 ,携带有cry 1C基因的菌株的晶体蛋白质主要为 135ku左右 ,它们对甜菜夜蛾均有较高的毒性 ,这些菌株的鞭毛抗原血清型主要分布在H 5和H 7。     

广西大王岭和大明山自然保护区苏云金芽孢杆菌收集与鉴定

从广西大王岭和大明山两个自然保护区共采集到土样264份,共分离出597株芽孢杆菌,通过光学和电子显微镜检观察,16株分离株观察到伴胞晶体蛋白,初步确定为苏云金芽胞杆菌(Bacillus thuringiensis,简称Bt),出菌率为6.06%.在16株Bt分离株中,有4株在芽孢形成过程中能产菱形晶体蛋白,其余12株能产圆形和其他形状的晶体蛋白.利用PCR-RFLP方法和SDS-PAGE方法对16株Bt分离菌进行了蛋白和基因型的鉴定,结果表明,16株分离株中含有4株cry1Ac基因,表达约130 kD的晶体蛋白,其中含有cry30基因和cry40基因的菌株分别1株和3株,表达大约75 kD的晶体蛋白;另外8株Bt菌株表达蛋白大小不一,其基因型尚不能确定,有待进一步分析.生物测定表明,产菱形晶体含有cry1Ac基因的4株Bt分离株对鳞翅目小菜夜蛾幼虫有很强的毒杀活性,而其它分离株对小菜夜蛾没有毒杀活性.     

苏云金芽胞杆菌的鉴定及对椰子织蛾的致死作用

【背景】利用采集到的样品分离出苏云金芽胞杆菌菌株,针对椰子织蛾幼虫进行室内生物活性测定,以期获得对椰子织蛾幼虫具有高毒力菌株,并为椰子织蛾的生物防控提供理论和技术依据,同时为转Bt基因作物提供新的基因资源。【方法】在海南岛椰子织蛾潜在分布区采集样品,利用温度法筛选苏云金芽胞杆菌并进行形态学和分子生物学鉴定,采用浸叶法进行Bt菌株对椰子织蛾幼虫的生物活性测定。【结果】海南省保亭县土壤样品中筛选出8株菌株,电子显微镜下观察到该批菌株含有菱形、球形、方形晶体;通过分子生物学鉴定明确了6株菌株含有cry基因,2株没有鉴定出cry基因;利用相同浓度菌悬液对椰子织蛾幼虫进行了生物活性测定,结果表明,50μg·m L-1的BAT10菌株杀虫晶体蛋白对椰子织蛾幼虫的致死率达100%,同样浓度的29-15-4与BAT20菌株杀虫晶体蛋白对椰子织蛾幼虫的致死率超过80%,其余5株Bt的杀虫晶体蛋白致死率较低,致死率小于50%。【结论与意义】本试验筛选出1株高毒力菌株和2株效果较好的Bt菌株,可应用于椰子织蛾的生物防控。     

Bacillus thuringiensis isolates from Korean forest environments

We investigated the distribution, toxicity, morphology, and protein profiles of Bacillus thuringiensis isolates from forests in Korea to isolate naturally occurring novel B. thuringiensis. A total of 170 B. thuringiensis isolates were obtained from 832 samples producing spore and parasporal inclusion bodies. In toxicity tests for lepidopteran, dipteran, and coleopteran insects, 57.6% isolates were toxic only to Lepidoptera, 5.3% were toxic only to Diptera, and 24.1% were toxic to both Diptera and Lepidoptera. The remaining collections (13.0%) were not toxic to the tested insects. The shapes of the parasporal crystals produced in B. thuringiensis isolates were bipyramidal, spherical, ovoid, or irregular. As their toxicities varied with parasporal crystal shape, B. thuringiensis isolates possessing bipyramidal or irregular parasporal crystals were largely toxic to lepidopteran species whereas those producing spherical parasporal crystals were mainly toxic to dipteran species. B. thuringiensis toxic to both dipteran and lepidopteran insects contained 130- and 70-kDa parasporal crystals, whereas B. thuringiensis toxic to lepidopteran insects expressed 130-kDa parasporal crystals. The results suggest that forest areas in Korea are a rich source of B. thuringiensis and need to be further explored to discover novel B. thuringiensis isolates.     

Distribution, Frequency, and Diversity of Bacillus thuringiensis in an Animal Feed Mill

Bacillus thuringiensis was isolated from 36 of 50 residue samples obtained from an animal feed mill (a stored-product environment). Of 710 selected colonies having Bacillus cereus-B. thuringiensis morphology isolated from the samples, 477 were classified as B. thuringiensis because of production of parasporal delta-endotoxin crystals. There was a diverse population of B. thuringiensis, as revealed by differentiation of the isolates into 36 subgroups by using (i) their spectra of toxicity to the lepidopterans Heliothis virescens, Pieris brassicae, and Spodoptera littoralis and the dipteran Aedes aegypti and (ii) their parasporal crystal morphology. A total of 55% of the isolates were not toxic to any of these insects at the concentrations used in the bioassays; 40% of all isolates were toxic to one or more of the Lepidoptera; and 20, 1, and 1% of the isolates were toxic to only P. brassicae, H. virescens, and S. littoralis, respectively. The most frequent toxicity was toxicity to P. brassicae (36% of all isolates); 18% of the isolates were toxic to A. aegypti (5% exclusively), 10% were toxic to H. virescens, and 4% were toxic to S. littoralis. Toxicity to P. brassicae was more often linked with toxicity to H. virescens than with toxicity to S. littoralis. The frequency of toxicity was significantly greater in isolates that produced bipyramidal crystals than in isolates that produced irregular pointed, irregular spherical, rectangular, or spherical crystals.     

Isolation of Multiple Subspecies of Bacillus thuringiensis from a Population of the European Sunflower Moth, Homoeosoma nebulella

Five subspecies of Bacillus thuringiensis were isolated from dead and diseased larvae obtained from a laboratory colony of the European sunflower moth, Homoeosoma nebulella. The subspecies isolated were B. thuringiensis subspp. thuringiensis (H 1a), kurstaki (H 3a3b3c), aizawai (H 7), morrisoni (H 8a8b), and thompsoni (H 12). Most isolates produced typical bipyramidal crystals, but the B. thuringiensis subsp. thuringiensis isolate produced spherical crystals and the B. thuringiensis subsp. thompsoni isolate produced a pyramidal crystal. Analysis of the parasporal crystals by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the crystals from the B. thuringiensis subsp. kurstaki and aizawai isolates contained a protein of 138 kDa whereas those from B. thuringiensis subsp. morrisoni contained a protein of 145 kDa. The crystals from B. thuringiensis subsp. thuringiensis contained proteins of 125, 128, and 138 kDa, whereas those from B. thuringiensis subsp. thompsoni were the most unusual, containing proteins of 37 and 42 kDa. Bioassays of purified crystals conducted against second-instar larvae of H. nebulella showed that the isolates of B. thuringiensis subspp. aizawai, kurstaki, and thuringiensis were the most toxic, with 50% lethal concentrations (LC(inf50)s) of 0.15, 0.17, and 0.26 (mu)g/ml, respectively. The isolates of B. thuringiensis subspp. morrisoni and thompsoni had LC(inf50)s of 2.62 and 37.5 (mu)g/ml, respectively. These results show that a single insect species can simultaneously host and be affected by a variety of subspecies of B. thuringiensis producing different insecticidal proteins.     

A highly pathogenic strain of Bacillus thuringiensis serovar kurstaki in lepidopteran pests

In order to detect and identify the most toxic Bacillus thuringiensis strains against pests, we isolated a B. thuringiensis strain (Bn1) from Balaninus nucum (Coleoptera: Curculionidae), the most damaging hazelnut pest. Bn1 was characterized via morphological, biochemical, and molecular techniques. The isolate was serotyped, and the results showed that Bn1 was the B. thuringiensis serovar, kurstaki (H3abc). The scanning electron microscopy indicated that Bn1 has crystals with cubic and bipyramidal shapes. The Polymerase Chain Reactions (PCRs) revealed the presence of the cry1 and cry2 genes. The presence of Cry1 and Cry2 proteins in the Bn1 isolate was confirmed via SDS-PAGE, at approximately 130 kDa and 65 kDa, respectively. The bioassays conducted to determine the insecticidal activity of the Bn1 isolate were conducted with four distinct insects, using spore-crystal mixtures. We noted that Bn1 has higher toxicity as compared with the standard B. thuringiensis subsp. kurstaki (HD-1). The highest observed mortality was 90% against Malacosoma neustria and Lymantria dispar larvae. Our results show that the B. thuringiensis isolate (Bn1) may prove valuable as a significant microbial control agent against lepidopteran pests.     

Detection of chromosomally located and plasmid-borne genes on 20 kb DNA fragments in parasporal crystals from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis>

The association of 20 kb heterologous DNA fragments with the parasporal crystals from native and recombinant Bacillus thuringiensis strains was analyzed, respectively. The cry2Aa10 gene cloned in plasmid pHC39 was transformed into B. thuringiensis subsp. kurstaki strains CryˉB and HD73, producing recombinant strains CryˉB(pHC39) and HD73(pHC39). SDS-PAGE and scanning electron microscopy analyses demonstrated that the recombinant CryˉB(pHC39) produced cuboidal crystals of Cry2Aa10 protoxin, while recombinant HD73(pHC39) produced both bipyramidal crystals of Cry1Ac1 protoxin and cuboidal crystals of Cry2Aa10 protoxin. Bioassay results proved that recombinant HD73(pHC39) showed higher insecticidal activity to Helicoverpa armigera than CryˉB(pHC39). It was found that 20 kb DNA fragments were present in bipyramidal and cuboidal crystals from both native and recombinant strains, and the 20 kb heterologous DNAs contained chromosome-specific and resident large plasmid-borne DNA fragments, suggesting the 20 kb heterologous DNA fragment embodied in crystals came randomly from the bacterial chromosomal and plasmid genome. This was the first investigation devoted exclusively on the origin of 20 kb DNA fragments in the parasporal crystals of B. thuringiensis. The data provides a basis for further investigation of the origin of 20 kb DNAs in the crystals and the interaction of DNA and protoxins.     

Diversity of Colombian strains of Bacillus thuringiensis with insecticidal activity against dipteran and lepidopteran insects

AIM: To evaluate the genetic and molecular diversity and insecticidal activity of Bacillus thuringiensis isolates from all the natural regions of Colombia. METHODS AND RESULTS: A total of 445 isolates from a collection of B. thuringiensis were characterized. The parasporal crystal morphology that was most abundant was bipyramidal (60%). Almost 10% of the isolates were toxic to Spodoptera frugiperda and 5.6% against Culex quinquefasciatus larvae. cry gene content determined by PCR indicated that 10.6% of the isolates contained cry1 genes and 1.1% contained cry2, cry4 or cry11 genes. Protein content of the parasporal crystal was determined by SDS-PAGE; 25 and 18 different protein profiles were found in isolates active against S. frugiperda and C. quinquefasciatus, respectively. CONCLUSIONS: Bacillus thuringiensis presents great genetic and molecular diversity even in isolates from the same soil sample. Moreover, the diversity and activity of the isolates might have a relationship with the geographical origin of the samples. SIGNIFICANCE AND IMPACT OF THE STUDY: The results obtained here indicate that some of the B. thuringiensis isolates characterized in this study are potential control agents that could be used in programmes against mosquitoes and S. frugiperda.     

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.     

Isolation and toxicity of Bacillus thuringiensis from potato-growing areas in Bolivia

Bacillus thuringiensis was isolated from 116 samples collected in high altitude potato-growing areas in Bolivia. In these regions, main potato pests are the potato tuberworm Phthorimaea operculella, and the Andean weevils Premnotrypes latithorax and Rhigopsidius tucumanus. B. thuringiensis was found in 60% of the samples. The main percentage of samples with B. thuringiensis was found in larvae of R. tucumanus (78%). Bioassays were performed with 112 isolates. None resulted toxic to either larvae or adults of the two Andean weevils. However, 18 isolates from this study showed more toxicity against the beet armyworm Spodoptera exigua than the standard strain var. kurstaki isolated from DELFIN. Among these isolates, three were also effective against P. operculella, conferring better or equal protection to the tubers than the reference strain HD-1 isolated from DIPEL. The most toxic strains against S. exigua and P. operculella were characterized in terms of serotyping, crystal morphology, protein profile, and cry gene content. PCR was performed with primers amplifying genes from the cry1, cry2, cry3, cry4, cry7, 8, and cry9Aa families. The toxic strains presented bipyramidal crystals, at least a band of 130kDa in SDS-PAGE, and showed an amplification product with cry1 family primers. One of the isolates did not amplify with any specific primer belonging to known cry1 genes. Restriction Fragment Length Polymorphism (RFLP) confirmed the presence of a novel gene and sequence comparison showed that this gene had homology to cry1G.     

Isolation, geographical diversity and insecticidal activity of Bacillus thuringiensis from soils in Spain

Bacillus thuringiensis is a spore-forming bacterium showing the unusual ability to produce endogenous crystals during sporulation that are toxic for some pest insects. This work was performed to study the composition, ecological distribution and insecticidal activity of isolates of this entomopathogenic bacterium from the Spanish territory. Using a standard isolation method, B. thuringiensis was isolated from 115 out of 493 soil samples collected in the Iberian Peninsula and the Canary and Balearic Archipelagos. The percentages of samples with B. thuringiensis were 31.7, 27.6 and 18.5 and the B. thuringiensis index 0.065, 0.067 and 0.11 for the Iberian Peninsula, Canary and Balearic Archipelagos, respectively. The prairies were shown to be the worst source of B. thuringiensis while forests, urban and agricultural habitats showed similar percentages. Strain classification based on H-antigen agglutination showed a great diversity among the Spanish isolates, which were distributed among 24 subspecies, including three new ones andaluciensis, asturiensis and palmanyolensis. We differentiated 65 different protein profiles of spore-crystal mixtures by sulfate-polyacrylamide gel electrophoresis and we selected 109 isolates representative of these profiles to evaluate their insecticidal activity against insects from the Orders Orthoptera, Dictyoptera, Coleoptera, Lepidoptera and Diptera. We found variable percentages of isolates active against Coleoptera and Lepidoptera, one isolate highly active against mosquito larvae and for the first time, three isolates active against cockroaches and locusts.     

土壤中对甲虫有活性苏云金芽胞杆菌的筛选

近几年来,甲虫已成为十字花科蔬菜的头号害虫。本文采集了湖北省各地区192份土壤样品,分离到苏云金芽胞杆菌(简称Bt)菌株74株,以甲虫代表——黄粉虫为靶标昆虫筛选了15株典型Bt,得到一株对甲虫有活性的Bt L1;生物测定该菌的半致死浓度(LC50)为221.20μg·g-1;聚丙烯酰胺凝胶电泳(SDS-PAGE)显示L1至少具有3个杀虫晶体蛋白;PCR扩增杀虫晶体蛋白基因,测序发现Bt L1中含有cry1Ac,cry1Aa,cry1Ia基因,推测Bt L1中对甲虫活性的杀虫晶体蛋白基因为cry1Ia。