Transgenic tobacco plants expressing synthetic Cry1Ac and Cry1Ie genes are more toxic to cotton bollworm than those containing one gene

Transgenic tobacco plants carrying Cry1Ac, Cry1Ie or both genes were obtained. In the leaves of transgenic plants carrying both genes, the contents of Cry1Ac and Cry1Ie proteins were 0.173% and 0.131% of the total proteins, respectively. Cry1Ac protein content was 0.182% and Cry1Ie protein con- tent was 0.124% of the total proteins in the leaves of transgenic plants containing only one Bt gene. Fresh leaves of transgenic tobacco and wild-type plants were used for the insect bioassay against wild-type and Cry1Ac-resistant cotton bollworm (Helicoverpa armigera). The bioassay results showed that transgenic plants carrying both genes were significantly more toxic to wild-type and Cry1Ac-resistant cotton bollworm than those carrying Cry1Ac or Cry1Ie alone. This study indicates that the higher toxicity of transgenic tobacco plants carrying both genes is caused by the cooperative function of both Bt proteins, thus providing a potential way to delay the development of insect resis- tance to transgenic crops.     

Transgenic tobacco plants expressing synthetic Cry1Ac and Cry1Ie genes are more toxic to cotton bollworm than those containing one gene

Transgenic tobacco plants carrying CrylAc, Crylle or both genes were obtained. In the leaves of transgenic plants carrying both genes, the contents of CrylAc and Crylle proteins were 0.173% and 0.131% of the total proteins, respectively. CrylAc protein content was 0.182 % and Cry1 le protein content was 0.124% of the total proteins in the leaves of transgenic plants containing only one Bt gene. Fresh leaves of transgenic tobacco and wild-type plants were used for the insect bioassay against wild-type and Cry1Ac-resistant cotton bollworm （Helicoverpa armigera）. The bioassay results showed that transgenic plants carrying both genes were significantly more toxic to wild-type and CrylAc-resistant cotton bollworm than those carrying CrylAc or Crylle alone. This study indicates that the higher toxicity of transgenic tobacco plants carrying both genes is caused by the cooperative function of both Bt proteins, thus providing a potential way to delay the development of insect resistance to transgenic crops.     

Evaluation of transgenic tobacco expressing two insecticidal genes to delay resistance development ofHelicoverpa armigera

The resistance ratio ofHelicoverpa armigera to Cry1 Ac insecticidal protein fromBacillus thuringiensis (Bt) is 13.1- and 3.02-fold after 18 generations of selection by transgenic tobacco expressing Bt or two (Bt and CpTI) insecticidal protein genes, in which the average corrected mortality for each selection treatments is about 60%. The mortality of selected population by transgenic Bt gene tobacco is significantly lower than the control strain when fed on transgenic tobacco plants. The mortaltty of the selected population by transgenic two genes tobacco was not significantly different from the control strain. This is the first experiment under laboratory condition which has proved that transgenic two genes tobacco could significantly delay resistance development ofH. armigera compared with one gene.     

Ubi1 intron-mediated enhancement of the expression of Bt cry1Ah gene in transgenic maize (Zea mays L.)

The cry1Ah gene was one of novel insecticidal genes cloned from Bacillus thuringiensis isolate BT8. Two plant expression vectors containing cry1Ah gene were constructed. The first intron of maize ubiqutin1 gene was inserted between the maize Ubiquitin promoter and cry1Ah gene in one of the plant expressing vectors (pUUOAH). The two vectors were introduced into maize immature embryonic calli by microprojectile bombardment, and the reproductively plants were acquired. PCR and Southern blot analysis showed that foreign genes had been integrated into maize genome and inherited to the next generation stably. The ELISA assay to T1 and T2 generation plants showed that the expression of Cry1Ah protein in the construct containing the ubi1 intron (pUUOAH) was 20% higher than that of the intronless construct (pUOAH). Bioassay results showed that the transgenic maize harboring cry1Ah gene had high resistance to the Asian corn borers and the insecticidal activity of the transgenic maize containing the ubi1 intron was higher than that of the intronless construct. These results indicated that the maize ubi1 intron can enhance the expression of the Bt cry1Ah gene in transgenic maize efficiently     

Expression of two insect-resistant genes crylA ( b&c )/GNA in transgenic tobacco plants results in added protection against both cotton bollworm and aphids

The synthesized Bacillus thuringiensis insecticidal protein gene crylA(b&c) and the synthesized gene GNA, (the mannose specific lectin from snowdrop ( Galanthus nivalis)), tumefaciens have been inserted into plant expression vector pGW4BAI. Leave stripes of Nico-tiana tabacum var. K326 have been transformed with Agrobacterium tumefaciens strain LBA4404 harboring the plant expression vector. 28 kanamycin resistant tobacco plants have been obtained. PCR and Southern blot analyses show that the foreign crylA and GNA genes have been inserted into the genome of transformed tobacco plants. Haemagglutination assays show that GNA has a functional activity. Leaf disc bioassays against cotton bollworm ( H. armigera) show that the transgenic tobacco plants have a high insecticidal activity. The inhibition of aphid population in leaf disc bioassays against Myzus persicae shows that the fecundity of aphid on transgenic plants is lower than that on untransformed plants; the aphid population on the transgenic tobacco plants is 25%-70% that on untransformed tobacco plants. ELISA analysis of CrylA protein in tobcco leaves provides similar data to bioassay results. Through the two bioassays against H. armigera and M. persicae, several transgenic tobacco plants showing high insect-resistant activities to both pests have been obtained.     

Expression of two insect-resistant genescryIA (b&c)/GNA in transgenic tobacco plants results in added protection against both cotton bollworm and aphids

The synthesizedBacillus thuringiensis insecticidal protein gene cryIA(b&c) and the synthesized geneGNA, (the mannose specific lectin from snowdrop (Galanthus nivalis)), tumefaciens have been inserted into plant expression vector pGW4BAI. Leave stripes ofNicotiana tabacum var. K326 have been transformed withAgrobacterium tumefaciens strain LBA4404 harboring the plant expression vector. 28 kanamycin resistant tobacco plants have been obtained. PCR and Southern blot analyses show that the foreigncryIA andGNA genes have been inserted into the genome of transformed tobacco plants. Haemagglutination assays show thatGNA has a functional activity. Leaf disc bioassays against cotton bollworm (H. armigera) show that the transgenic tobacco plants have a high insecticidal activity. The inhibition of aphid population in leaf disc bioassays againstMyzus persicae shows that the fecundity of aphid on transgenic plants is lower than that on untransformed plants; the aphid population on the transgenic tobacco plants is 25%–70% that on untransformed tobacco plants. ELISA analysis of ClyIA protein in tobcco leaves provides similar data to bioassay results. Through the two bioassays againstH. armigera andM. persicae, several transgenic tobacco plants showing high insect-resistant activities to both pests have been obtained.     

农杆菌介导的双价抗虫基因对番茄遗传转化的研究

采用农杆菌介导法将含有苏云金芽孢杆菌毒蛋白基因(CryIAc)与半夏凝集素抗虫基因(Pta)的高效植物表达载体pCAMBIA3300转入番茄品系Micro Tom的子叶外植体中。经过共培养、除草剂筛选和分化再生,获得了24个具有除草剂抗性的株系。再将转化后的番茄植株经过PCR检测和Southern Blot检测,确定检测后呈阳性反应的株系为8个。通过小菜蛾幼虫初步抗性试验证明,转基因株系表现出较强的抗虫性。实验结果为进一步研究番茄抗虫性和培育抗虫番茄新品种奠定了重要基础。     

Transgenic tobacco plants harboring tomato proteinase inhibitor II gene and their insect resistance

The plant expression vectors pBCT2 and pBT2 were constructed with the cDNA sequence (tin2) and genomic DNA sequence (tin2i) of tomato proteinase inhibitor II gene respectively. Then the two expression vectors were transferred into tobacco via the Agrobacterium tumefaciens strain LBA4404, and transgenic tobacco plants were generated. Molecular analysis and trypsin activity assay showed that both cDNA and genomic DNA were expressed properly in the transgenic plants. Insecticidal activities in these transgenic plants indicated that transgenic tobacco plants carrying tin2i sequence were more resistant to 2-instar larvae of Heliothis armigera Hubner than those carrying tin2 sequence. Therefore the intron of tin2i sequence might be a contributor to insecticidal activity of the transgenic tobacco.     

Ubi1 intron-mediated enhancement of the expression of Bt cry1Ah gene in transgenic maize （Zea mays L.）

The cry1Ah gene was one of novel insecticidal genes cloned from Bacillus thuringiensis isolate BT8. Two plant expression vectors containing cry1Ah gene were constructed. The first intron of maize ubiqutinl gene was inserted between the maize Ubiquitin promoter and cry1Ah gene in one of the plant expressing vectors （pUUOAH）. The two vectors were introduced into maize immature embryonic calli by microprojectile bombardment, and the reproductively plants were acquired. PCR and Southern blot analysis showed that foreign genes had been integrated into maize genome and inherited to the next generation stably. The ELISA assay to T1 and T2 generation plants showed that the expression of CrylAh protein in the construct containing the ubil intron （pUUOAH） was 20% higher than that of the intronless construct （pUOAH）. Bioassay results showed that the transgenic maize harboring cry1Ah gene had high resistance to the Asian corn borers and the insecticidal activity of the transgenic maize containing the ubil intron was higher than that of the intronless construct. These results indicated that the maize ubil intron can enhance the expression of the Bt cry1Ah gene in transgenic maize efficiently     

一种带有表型标记基因的诱导型抗旱植物表达载体的构建

为了克服组成型表达转录因子基因影响转基因植物性状的缺点,并构建一种具有级联放大作用并带有表型标记的诱导型植物双价表达载体。研究采用PCR方法从拟南芥克隆获得冷诱导转录因子CBF3基因,蜡质合成相关WIN1基因,干旱诱导RD29A基因启动子和冷诱导的LEA14基因启动子,并用CBF3转录因子所调控的下游RD29A基因启动子和LEA14基因启动子分别驱动CBF3基因和W1N1基因表达,构建了双价植物表达载体RD29AP-CBF3／LEA14P—WIN1／pcAMBIA2201。我们预测在转基因植物中,该表达系统可在干旱等逆境信号存在条件下,通过级联放大的方式诱导表达,在增加植物抗逆性的同时,增加叶片表层蜡质的积累,从而易于表型识别。本研究为利用花粉管通道法转化棉花,提高抗逆转基因棉花田间筛选的效率奠定了基础。     

Obtaining High Pest-resistant Tobacco Plants Carrying B.t. insecticidal Gene

To increase the expression level of CryIA(c) gene in transgenic plants, a plant expression vector pBinMoBc carrying the CryIA(c) gene under control of chimeric OM promoter and Ω factor was constructed. As a control, pBinoBc carrying the CryIA(c) gene with the CaMV 35S promoter was also constructed. The vectors were transferred into tobacco plants respectively via Agrobacterium-mediated transformation. ELISA assay showed that the expression level of the CryIA(c) gene in pBinMoBc transgenic tobacco plants was 2.44-times that in pBinoBc transgenic tobacco plants, and it could be up to 0.255% of total soluble proteins. Bioassay showed that pBinMoBc transgenic tobacco plants had more notable insecticidal effect than pBinoBc transgenic tobacco plants. The above results showed that the chimeric OM promoter was a stronger promoter than CaMV 35S promoter that was widely used in plant genetic engineering, and this is very useful in pest-resistant plant genetic engineering.     

Inheritance and expression of multiple disease and insect resistance genes in transgenic rice

2—3 anti-fungal disease genes are coinserted with hygromycin phosphotransferase in the same vector. Two insecticidal genes and PPT acetyl transferase genes are placed in another one. The vectors are co-delivered to rice embryonic cellus tissue at a molar ratio of 1︰1 using the particle gun method. 55 independent regenerated lines have been obtained through screening for hygromycin resistance. Of these, 70% transgenic plants harbor 6—7 foreign genes. The genes on the same vectors are always co-delivered to rice plant. Northern blot analysis has indicated that the multiple foreign genes give stable expression. In the 6 transgenic plants carrying 6—7 foreign genes, multiple foreign genes tend to integrate in 1 or 2 genetic loci. Progeny segregation is consistent with Mendel’s 3︰1 segregation law. 8 homozygous R₁ transgenic plants harboring 2—3 anti-fungal and 2 insecticidal genes are selected from large number of transgenic progeny screening for hygromycin and Basta resistance.     

Light-regulated and organ-specific expression of a wheat Cab gene in transgenic tobacco

Many of our most important crop plants are monocotyledons, including wheat, corn, rice and barley. No routine transformation system for monocotyledons has been reported, such as the Ti-mediated gene transfer system for dicotyledons facilitated by Agrobacterium tumefaciens. Indirect evidence suggests that Ti-plasmid DNA is transferred into and expressed in A. tumefaciens-infected wound tissues of plants from Liliaceae and Amaryllidaceae, but these observations have not been extended to monocotyledons of greatest agricultural importance. Regeneration of monocotyledons is usually blocked at the callus-stage, further complicating the possibility of exploring the regulated expression of their genes, and thus preventing identification of the regulatory domains of monocotyledonous genes in a homologous nuclear background. To circumvent these difficulties, we investigated whether monocotyledonous genes can be expressed and correctly regulated in dicotyledons. We have introduced a wheat gene (whAB1.6) encoding the major chlorophyll a/b binding protein (Cab) of the light-harvesting complex into the genomes of tobacco (Nicotiana tabacum SR1) and petunia (Petunia hybrida) via a Ti-DNA-mediated gene transfer system which allows the transformed cells to regenerate into whole plants. Here we report for the first time the light-regulated and organ-specific expression of a monocotyledonous gene in transgenic dicotyledonous plants.     

植物表达抗体的研究进展

利用转基因植物生产抗体是一个新兴的生物技术领域。这种技术将编码全抗体或抗体片段的基因导入植物，从而在植物中产生全抗体或抗体片段，获得的抗体能功能性地识别抗原并结合抗原。目前已有农杆菌介导转移法和基因枪法等多种转化技术用于将抗体基因导入植物细胞。利用植物表达抗体的一大优势是能大规模廉价生产免疫治疗用抗体。此外，植物抗体也可用于植物自身抗病，并能调节植物细胞代谢。本文主要就植物生产抗体的方法、抗体的表达及应用作一综述。     

转蔗糖: 蔗糖-1-果糖基转移酶基因提高烟草的耐旱性

蔗糖: 蔗糖-1-果糖基转移酶（sucrose: sucrose 1-fructosyltransferase, 1-SST）以蔗糖为底物催化生成蔗果三糖等低聚合度的果聚糖.将从莴苣中克隆的1-SST基因重组到pCAMBIA1300-als中，构建了在CaMV 35S启动子调控下的植物表达载体，利用农杆菌介导的叶盘转化法将1-SST基因导入烟草中，PCR和Southern杂交检测表明获得了转基因植株，RT-PCR结果表明该基因在烟草中正常表达. 对T₀代转基因烟草进行的耐旱性分析结果表明，干旱胁迫6d的转基因植株丙二醛含量和电解质渗漏率显著低于未转基因对照，叶片相对含水量下降速度也明显比对照慢. 对转基因植株叶片糖分分析表明，转基因烟草植株积累果聚糖，并在干旱胁迫后含量明显增加，而未转基因对照植株不积累果聚糖. 在14%PEG溶液中未转基因烟草种子的萌发率仅为转基因烟草种子的一半；在附加200mmol/L甘露醇的培养基中未转基因烟草种子根的生长明显受到抑制，而转基因烟草根的生长发育正常. 以上研究结果表明，转1-SST基因烟草植株耐旱性的提高可能与该基因的表达有关.     

Transgenic rice homozygous lines expressing GNA showed enhanced resistance to rice brown planthopper

Mature seed-derived calli from two elite Chinese japonica rice (Oryza sativa L.) cultivars Eyi 105 and Ewan 5 were co-transformed with two plasmids, pWRG1515 and pRSSGNA1, containing the selectable marker hygromycin phosphotransferase gene (hpt), the reporter β-glucuronidase gene (gusA) and the snowdrop (Galanthus nivalis) lectin gene (gna) via particle bombardment. 61 independent transgenic rice plants were regenerated from 329 bombarded calli. 79% transgenic plants contained all the three genes, revealed by PCR/Southern blot analysis. Western blot analysis revealed that 36 out of 48 gna-containing transgenic plants expressed GNA (75%) at various levels with the highest expression being approximately 0.5% of total soluble protein. Genetic analysis confirmed Mendelian segregation of transgenes in progeny. From the R2 generations whose R1 parent plants showing 3:1 Mendelian segregation patterns, we identified five independent homozygous lines containing and expressing all the three transgenes. Insect bioassay and feeding tests showed that these homozygous lines had significant inhibition to rice brown planthopper (Nilaparvata lugens, BPH) by decreasing BPH survival and overall fecundity, retarding BPH development and declining BPH feeding. These BPH-resistant lines have been incorporated into rice insect resistance breeding program. This is the first report that homozygous transgenic rice lines expressing GNA, developed by genetic transformation and through genetic analysis-based selection, conferred enhanced resistance to BPH, one of the most damaging insect pests in rice.     

害虫对转基因植物抗性进化的计算机模拟

采用人工生命的方法，定量模拟了不同条件下害虫对转基因植物抗性性的进化速度。结果显示只转入植物一个毒性基因常使害虫在短时间内产生抗性，若转３－４个不会产生交互抗性的毒性基因则可大大推迟到或阻止抗性的产生。     

The role of β18-β19 loop structure in insecticidal activity of Cry1Ac toxin from Bacillus thuringiensis

The β18-β19 loop in domain Ⅲ of Cry1Ac toxin is unique among Bacillus thuringlensis Cry proteins. In this study, the role of the loop structure in insecticidal activity of Cry1Ac toxin was investigated. Alanine scanning mutations within the loop were initially generated and most mutants were over-expressed and reduced toxicity at different degrees, except mutant N546A that showed almost 2 times enhanced toxicity against Helicoverpa armigera larvae. Further mutagenic analysis of N546 revealed that a charged amino acid in this position would cause very unfavorable influence on insecticidal activity. In addition, the deletion of N546 led to protein instability because of destruction of the loop integrity. Besides, mutant W544F was much more toxic than W544Y, indicating that hydrophobic nature of the position was important for maintaining the stability and activity of Cry1Ac protein. These findings are the first biological evidence for a structural function of β18-β19 loop in insecticidal activity of the Cry1Ac toxin.