双价杀虫蛋白基因在荧光假单胞菌中的表达及增效

利用广宿主质粒载体pJMS6αlac将苏云金芽胞杆菌(Bacillus thuringiensis)杀虫晶体蛋白基因cry1Ac和cry2Aa基因分别及一起进行克隆,将重组质粒导入能在多种作物上定殖、对植物病菌有良好抑菌和防治作用的荧光假单胞菌(Pseudomonas fluorescens)P303菌株,分别得到工程菌株IPP101、IPP201和IPP202。PCRRFLP和Southern blot检测均证明目的基因已经导入了工程菌。SDSPAGE电泳显示工程菌中存在明显的Cry1Ac蛋白带;透射电镜观察发现含cry1Ac基因的两个菌株IPP101和IPP202中杀虫蛋白形成了典型的菱形晶体和蛋白包含体,而在野生P303菌株中均无这些结构。这些结果说明,工程菌中cry1Ac基因得到了很好表达。室内杀虫试验表明：工程菌对棉铃虫初孵幼虫的致死中浓度(LC50),只含cry1Ac的IPP101为000812mL/g饲料,只含cry2Aa的IPP201为002604mL/g饲料,含双基因的IPP202为000186mL/g饲料;HD73为000170mL/g饲料。cry1Ac和cry2Aa双基因表达产物具有显著增效作用,共毒系数达3328。     

荧光假单胞菌M18rpoD克隆及其对抗生素合成的影响

荧光假单胞菌M18对多种植物病原真菌具有显著的抑制作用。荧光假单胞菌(Pseuclomones fluorescens)M18能同时合成吩嗪1羧酸（PCA）和藤黄绿菌素(Plt) 两种抗生素。从M18的基因组中克隆了rpoD基因,其相应的氨基酸序列与荧光假单胞菌CHAO中RpoD蛋白的氨基酸序列完全相同。利用基因重组技术和大肠杆菌荧光假单胞菌穿梭质粒pME6032,将rpoD置于强启动子Ptac的控制下,导入M18菌株。发现经重组质粒转化的M18,与对照相比,培养基中PCA和Plt开始累积的时间分别提前4h和8h,积累量提高1倍和6倍。     

特异性杀虫基因Bt cry3A在桑粒肩天牛幼虫两种肠道常驻内生菌中的转化和表达

[目的]将特异性杀虫毒蛋白基因Bt cry3A转入桑粒肩天牛(Apriona germari Hope,Ag)幼虫肠道常驻内生菌中,构建能在天牛幼虫肠道中定殖并表达特异性杀虫基因Bt cry3A的工程菌.[方法]以传统方法和16S rDNA分子生物学分析等方法分离、鉴定Ag幼虫肠道优势的常驻内生菌,从中筛选出适合转化的候选菌株.利用电转化技术将含有对鞘翅目昆虫具专一性毒力Bt cry3A基因的Escherichia coli-Bacillus thuringiensis穿梭表达质粒pHT305a和pHT7911分别转入Ag幼虫肠道常驻内生菌短短芽孢杆菌(Brevibacillus brevis Ag12,Ag12)和苏云金芽孢杆菌(Bacillus thuringiensis Ag13,Ag13)中.[结果]从Ag幼虫肠道共分离获得18个不同种的可培养细菌菌株,并从中选取菌株Ag12和Ag13作为出发菌株转入Bt cry3A基因.经质粒稳定性试验、转化子生长特性测试、伴胞晶体电镜检测、毒蛋白SDS-PAGE分析、工程菌定殖性分析以及生物毒力测试,结果显示cry3A基因已经成功转入Ag幼虫的常驻内生菌短短芽孢杆菌和苏云金芽孢杆菌中,并且工程菌Ag12-305a、Ag13-305a、Ag 12-7911和Ag13-7911都能在天牛幼虫肠道内稳定生长、繁殖并表达分子量约65kDa的伴孢晶体杀虫蛋白Cry3A.[结论]Bt cry3A基因已成功转入桑粒肩天牛幼虫肠道优势常驻内生菌中,获得了四株能在桑粒肩天牛幼虫肠道内定殖,并能表达目的杀虫基因Btcry3A的转基因工程菌.     

带cry3Aa启动子的aiiA基因在苏云金芽胞杆菌中的表达

N-乙酰高丝氨酸内酯（N-cyl-homoserine lactones,AHLs）,是一类数量感知（Quorum-sensing）系统中的信号分子,它参与诱导调控许多植物病原菌致病基因的表达。苏云金芽胞杆菌的AiiA蛋白能降解这类AHLs分子,进而可减弱病原菌致病基因表达产生的病害。苏云金芽胞杆菌杀虫晶体蛋白基因cry3Aa的启动子是一种不依赖芽胞形成的启动子,它相对于其它cry类基因的启动子有启动基因转录时间早,转录时间长的优点。通过重叠延伸PCR,用杀虫晶体蛋白基因cry3Aa启动子替换编码AiiA蛋白的基因aiiA自身的启动子,构建了融合基因pro3A-aiiA。将融合基因装入穿梭载体pHT304的BamHI/SphI位点,得到重组质粒pBMB686并转化苏云金芽胞杆菌无晶体突变株BMB171,重组菌株BMB686的AiiA蛋白表达量在各个生长时期均高于对照菌株,对AHLs分子的降解活性和对胡萝卜软腐欧文氏菌感染马铃薯产生病害的抑制能力也明显优于对照菌株。     

杀虫防病基因工程枯草芽孢杆菌的构建

分别以枯草芽孢杆菌大肠杆菌穿梭质粒pHB201和pRP22为载体,通过感受态转化方法,将Bt-HD-1杀虫蛋白基因cry1Ac导入了水稻纹枯病生防菌株枯草芽孢杆菌B916。工程菌株质粒酶切电泳分析、Southern印迹分析和杀虫生物活性测定结果证实了cry1Ac基因的导入及其在B916中的有效表达。抑菌测定证明工程菌株保持了原野生型菌株良好的抑菌活性。质粒稳定性分析表明以载体pRP22构建的工程菌株Bs2249具有良好的稳定性,而以载体pBH201构建的工程菌株Bs2014则不稳定。此外,实验还证实Bt基因的导入与表达对B916的生长没有不良影响。     

苏云金芽胞杆菌营养期杀虫蛋白基因的克隆及表达分析

选择本实验室分离的苏云金芽胞杆菌李氏亚种 (subsp. Leesis) 菌株YBT833、鲇泽亚种(subsp.Aizawai) 菌株YBT-1416和库斯塔克亚种(subsp. Kurstaki)菌株YBT1535为出发菌株,以营养期杀虫蛋白基因PCR扩增的特异片段为探针,进行总DNA酶切片段的Southern杂交定位。结果显示3株菌株的营养期杀虫蛋白基因,均位于经XbaI完全消化的4～5kb大小的DNA 片段上。将该区域DNA片段回收后克隆到pUC19载体,建立了3个较基因组文库小的亚基因组文库。通过菌落原位杂交筛选和酶切鉴定分别得到3个相应的营养期杀虫蛋白基因vip83、vip14和vip15,并对其测序。DNA序列比较发现基因vip83与已知营养期杀虫蛋白基因存在5个差异碱基。将vip83、vip14基因亚克隆到苏云金芽胞杆菌大肠杆菌穿梭载体pHT315, 分别得到重组质粒pBMB8901和pBMB8902。将它们电转化到vip^-的B.t.受体菌BMB171和4Q7,获得了相应的工程菌BMB8901-171,BMB8902-171,BMB8901-4Q7和BMB8902-4Q7。SDS-PAGE电泳检测均有88kD大小的蛋白表达。生物测定结果亦表明了,营养期杀虫蛋白Vip83和Vip14对鳞翅目棉铃虫、小菜蛾和甜菜夜蛾的三龄幼虫均有一定的杀虫活性;其中对小菜蛾的毒力最高,LC₅₀值分别为28.6,31.6,45.4和37.6μL/mL。该结果为构建高效广谱工程菌提供了实际材料和理论依据。      

苏云金杆菌辅助蛋白P20对杀虫晶体蛋白Cry1Ab表达的影响

苏云金杆菌(Bacillus thuringiensis, 简称Bt)杀虫晶体蛋白Cry1Ab因其C半端缺少了一段含4个半胱氨酸的氨基酸序列而导致蛋白的不稳定,报道苏云金杆菌辅助蛋白P20帮助Cry1Ab蛋白的表达及晶体的形成。利用穿梭载体pHT3101构建3个表达质粒,即pT1B、pP1B和pDP1B,3个质粒都含有cry1Ab基因,不同在于pT1B没有p20基因,pP1B含有p20全基因,而pDP1B不仅含有p20全基因,且在p20基因前插入cry1A?启动子。分别将这3个表达质粒经电转化到苏云金杆菌晶体缺陷型菌株CryB中,获得转化菌株T1B、P1B和DP1B。Western blot表明cry1Ab基因在这3株菌中均表达了130 kD的蛋白,部分降解为大约60 kD的蛋白。蛋白定量分析显示,3株菌130 kD蛋白量的比为1∶1.4∶1.5,降解后的60 kD蛋白量的 比为1∶1.1∶1.6,Cry1Ab蛋白总量的比为1∶1∶2∶1.6。镜检发现,Cry1Ab在3株菌中都形成典型的菱形晶体,其晶体大小为T1B Helicoverpa armigera）均具有明显的杀虫活性,三者的LC₅₀差异不显著。研究表明,P20对cry1Ab基因的表达和晶体形成均有帮助,P20表达量的多少可能是导致Cry1Ab蛋白最终产量有所不同的因素。     

转异源chi基因的Bt工程菌株的生防潜力评价

【目的】构建增强抑制真菌能力兼杀虫的苏云金芽胞杆菌多功能生防菌株。【方法】将含有组成型高效表达启动子、地衣芽胞杆菌chi MY基因的重组质粒p DM,转化进杀虫活性高且有一定抑菌活性的Bt519-1菌株。酶谱分析方法确认Bt519(p DM)组成型异源表达几丁质酶。室内测定工程菌株抑菌谱,计算抑菌效率,确定最敏感的植物病原真菌,进行植物盆栽病害防治的应用潜力评价。将不同浓度的Bt粗酶液灌入甜椒幼苗根部,12 h后接种辣椒疫霉孢子液,接种2 d后开始观察,记录发病株数。自7 d起调查植株发病情况统计并分析防治效果。【结果】SDS-PAGE及酶谱分析证明,Bt519(p DM)能够特异表达68 k D蛋白,该蛋白为异源几丁质酶Chi MY。抑菌谱测定证明,工程菌抑制效率达到90%以上的有5种真菌,其中最明显的是辣椒疫霉。盆栽实验证明,Bt519(p DM)7 d的防效为73.2%。工程菌株对棉铃虫的半致死浓度(LC50)为121.26 mg/L。【结论】Bt519(p DM)是一株有应用潜力的生防菌株。     

苏云金芽孢杆菌δ-内毒素基因穿梭质粒的构建

在农业生产中长期使用化学农药已对环境和生态平衡造成一定破坏作用,同时有不少害虫也逐渐产生抗药性从而引起某些害虫的大流行,给农业生产带来巨大损失。应用苏云金杆菌杀虫蛋白基因(Bt基因)可构建具有抗虫作用的抗虫工程菌,这样通过拌种或植物叶面喷雾可达到快速、经济、有效的防治虫害的目的。国际上抗虫工程菌研究应用很快,如美国将BI基因转入到一种正常情况下定居在植物组织中的棒杆菌,将这种工程菌拌玉米种子,这样随植物生长该菌在植物体内大量繁殖,当玉米螟在茎和叶取食时,即因食用表达苏云金杆菌毒蛋白的工程菌而死亡。 田颖川等已克隆了苏云金芽孢杆菌内毒素基因CryIA(b)和CryIA?。本文将Bt基因CryIA?插入到大肠-枯草穿梭载体pBE-2中构建成Bt毒蛋白基因穿梭质粒pAMY,利用电穿孔法转人大肠杆菌DH5a,枯草芽孢杆菌B.subtilis BR151,IA511,野生型蜡状芽孢杆菌B.cereusa-47,短芽孢杆菌B.brevis A-5和枯草芽孢杆菌90-8,获得了具有较高杀虫活性的工程菌克隆。     

苏云金芽孢杆菌伴孢晶体20kb DNA中cry1Ac基因的克隆、高效表达和生物活性研究

已经证实苏云金芽孢杆菌 (Bacillusthuringiensis,Bt)伴孢晶体结合 2 0kbDNA ,但其序列特异性及作用有待进一步研究阐明。研究了选择性溶解Bt 4.0718菌株Cry1类原毒素所形成的菱形伴孢晶体 ,从中抽提出与其结合的 20kbDNA。经NdeⅠ酶切消化后亚克隆构建文库 ,通过PCR-RFLP及测序筛选出含cry1Ac基因的转化子。然后设计引物PCR扩增出cry1Ac基因的ORF并与pET30a连接 ,转化E .coliBL21(DE3) ,高效表达了14.1kD蛋白。表达蛋白占总蛋白量的50%以上 ,且 90 %以上以包涵体形式存在。利用穿梭载体pHT30.4构建表达质粒pHTX42 ,电转化Bt无晶体突变株XBU001,获得重组菌株HTX42 ,经SDS-PAGE分析 ,cry1Ac基因得到强表达 ,蛋白质定量分析显示目的蛋白量占总蛋白量的79.28% ,且其在细胞中累积达细胞干重的6.413% ,比文献报道的25%左右高了 1倍以上。原子力显微镜 (AtomicForceMicroscopy ,AFM)检测显示 ,目的基因在大肠杆菌(E.coli)中表达的包涵体呈不规则形状且较小,而在无晶体突变株中表达的晶体呈典型菱形晶体,大小约为1.2μm×2.0μm.生测结果显示,包涵体与晶体对小菜蛾(Plutella xylostella)幼虫均有高效杀虫活性。本研究为构建高效杀虫工程菌及进一步阐明Bt伴孢晶体中20kb DNA分子的来源,结构和功能奠定了重要的基础。     

Enhanced lycopene productivity by manipulation of carbon flow to isopentenyl diphosphate in Escherichia coli

Lycopene is a useful phytochemical that holds great commercial value. In our study the lycopene production pathway in E. coli originating from the precursor isopentenyl diphosphate (IPP) of the non-mevalonate pathway was reconstructed. This engineered strain of E. coli accumulated lycopene intracellularly under aerobic conditions. As a next step, the production of lycopene was enhanced through metabolic engineering methodologies. Various competing pathways at the pyruvate and acetyl-CoA nodes were inactivated to divert more carbon flux to IPP and subsequently to lycopene. It was found that the ackA-pta, nuo mutant produced a higher amount of lycopene compared to the parent strain. To further enhance lycopene production, a novel mevalonate pathway, in addition to the already existing non-mevalonate pathway, was engineered. This pathway utilizes acetyl-CoA as precursor, condensing it to form acetoacetyl-CoA and subsequently leading to formation of IPP. Upon the introduction of this new pathway, lycopene production increased by over 2-fold compared to the ackA-pta, nuo mutant strain.     

Screening of engineered Pichia pastoris mutant with enhanced production of a functional rFIP-glu protein and investigating its potential bioactivities

An engineered Pichia pastoris GS115 with a FIP-glu gene was mutated using ultraviolet (UV) radiation, and a high-throughput screening method was established for screening of high-yield strains. Meanwhile, a preliminary study was conducted to determine the bioactivity of the rFIP-glu. Based on OD₆₀₀ value and the mortality of engineered P. pastoris GS115, the best UV irradiation time was determined. Bradford method and SDS-PAGE method were employed to analyze the concentration and yield of rFIP-glu. Melanoma B16 cells were employed to evaluate the biological activities of rFIP-glu in vitro. Results showed that the protein yield of the best mutant #4-336 screened from 3680 mutant strains increased from 242 to 469 μg ml⁻¹. In vitro assays of biological activity indicated that rFIP-glu had significant toxicity and possessed the ability to affect melanin content and enhance tyrosinase activity in B16 cells. In conclusion, an effective high-throughput screening approach was established for screening mutant strains. The screened mutant possesses a good ability to enhance the production of rFIP-glu, and recombinant proteins display a better biological activity on melanoma B16 cells. The engineered P. pastoris mutant seems promising as a potential source for industrial production of rFIP-glu and should be a candidate industrial strain for further study.     

Expression of mel gene improves the UV resistance of Bacillus thuringiensis

Aims:  To improve ultraviolet (UV) resistance of Bacillus thuringiensis for increasing the duration of the Bt product applied in the field, a genetically engineered strain Bt TD841 that produced both melanin and Cry1A protein was constructed, and its UV resistance was evaluated in the laboratory.
Methods and Results:  Melanin quantitative analysis revealed that the recombinant strain Bt TD841 could synthesize 0.15 mg melanin ml⁻¹ sporulated culture. Atomic force microscopy confirmed the production of diamond crystal and SDS-PAGE results showed the expression of the 130 kDa Cry1A protein. Bioassay results demonstrated that the LC₅₀ value of Bt TD841 was 3.69 μl ml⁻¹ against Helicoverpa armigera and the UV resistance of this recombinant was enhanced 9.7-fold compared to its parental strain Bt HC42 after 4-h UV irradiation.
Conclusion:  Expression of the mel gene can significantly increase UV resistance of B. thuringiensis.
Significance and Impact of the Study:  This is the first report on genetically engineered Bt strain with co-expression of melanin and the insecticidal crystal proteins gene, and the results may offer a practical solution for improving the photoprotection of Bt products in field application.     

Tn10介导的Bit cryIVA基因在荧光假单胞菌染色体中的整合及表达

苏云金杆菌以色列亚种的杀虫晶体蛋白基因cryIVA被亚克隆到自杀型转座子质粒载体pLOF／Km的TN10中,构建了转座子质粒PLF97A。通过电转化／转座作用,cryIVA随Tn10转座并整合到荧光假单胞菌FP．DE2染色体中,构建了工程菌株FP．DE202。Southernblotting验证了cryIVA在FP．DE202中整合在不同的位点。Westernblotting证明了cryIVA在F．P．DE202中得到了表达,其产物对双翅目害虫韭菜迟眼蕈蚊的3龄幼虫有较强的毒杀效果。     

Tn5 Insertion Mutants of Pseudomonas fluorescens Defective in Adhesion to Soil and Seeds

Tn5 insertion mutants of a soil isolate, Pseudomonas fluorescens Pf0-1, were selected for decreased ability to adhere to quartz sand in a column assay. Three adhesion-deficient mutants that differed in the location of the Tn5 insertion in the chromosome were isolated and compared with the wild-type strain. One mutant, Pf0-5, was described previously as an adhesion-defective, nonmobile, flagellumless mutant (M. F. DeFlaun, A. S. Tanzer, A. L. McAteer, B. Marshall, and S. B. Levy, Appl. Environ. Microbiol. 56:112-119, 1990). Another insertion mutant, Pf0-10, was also missing flagella and the 34-kDa outer membrane protein that was absent in Pf0-5 but present in the wild-type strain. The third mutant (Pf0-15) had increased amounts of this 34-kDa outer membrane protein and more flagella than the wild-type strain. These mutants also displayed decreased ability to adhere to sterile and natural (live) soil and to a variety of plant seeds. In kinetics studies, the wild-type strain showed an initial rapid binding to seeds followed by a later slow phase of binding. The mutant strains were defective in the initial stages of attachment but did show the later slow binding. The findings indicate that the same mutations that affect binding to sand and soil also affect adhesion to plant seeds.     

ENHANCED β-GALACTOSIDASE PRODUCTION OF Aspergillus oryzae MUTATED BY UV AND LiCl

In order to breed a high-yield β-galactosidase-producing strain, Aspergillus oryzae was used as the parent strain and mutagenized with ultraviolet (UV) and UV plus lithium chloride (LiCl), respectively. After being mutagenized by UV, the β-galactosidase activity of mutant UV-15-20 reached 114.08 U/mL, which revealed a 49.22% increase compared with the original strain. A mutant UV-LiCl-38 with high β-galactosidase activity (121.42U/mL) was obtained after compound mutagenesis of UV and LiCl; the β-galactosidase activity of this mutant was 58.82% higher than that of the parent strain. Subculture testing indicated that UV-15-20 and UV-LiCl-38 had good hereditary stability and may be ideal strains for the production of β-galactosidase. Additionally, it was demonstrated that compound mutagenesis with UV and LiCl is an effective mutation method for breeding industrially interesting strains.     

The recombination deficient Enterococcus faecalis UV202 strain is a recA mutant

The recA gene of the recombination deficient Enterococcus faecalis strain UV202 was sequenced and found to encode a glycine to aspartic acid mutation at amino acid 265. Both the UV sensitive and recombination deficient phenotypes of the UV202 strain were complemented by expression of the wild-type recA gene cloned under the control of the nisin-inducible promoter of an expression vector.