水稻中cry1Ah1基因密码子优化方案的比较

cry1Ah1基因是本实验室克隆的具有自主知识产权的模式基因,对鳞翅目害虫水稻二化螟等具有高毒力,具有较好的应用前景。为提高cry1Ah1基因在水稻中的表达量,探讨密码子使用频率对基因表达的影响,依据水稻密码子使用频率设计5种不同的优化方案,提高GC含量并去除剪切信号等不稳定因素后合成cry1Ah1基因杀虫活性区域。优化后的基因在大肠杆菌Rosetta(DE3)中正常表达了65 kDa蛋白,表达蛋白对2龄小菜蛾和水稻二化螟初孵幼虫都具有良好的杀虫活性。优化的基因转化水稻日本晴后,PCR阳性率达到87%以上,实时荧光定量RT-PCR和ELISA分析表明全部采用最高频率密码子的优化方案效果最好,Cry1Ah蛋白平均表达量占可溶性蛋白的0.104%。     

转双抗虫基因烟草的研究

用改造的雪花莲凝集素基因GNAmm与合成的苏云金芽孢杆菌(Bt)毒蛋白cry1Ac基因构建了带有双价基因的植物表达载体,在该表达载体中这两个基因的转录分别受笋瓜PP2启动子(SPP2P)和CaMV 35S启动子的调控。通过根癌土壤杆菌介导转化法,获得了一批抗卡那霉素的转化再生烟草植株。PCR检测及基因组DNA Southern blot\,Slot blot杂交分析的结果表明Gna基因和Bt基因已整合到烟草总DNA中。用Bt毒蛋白抗血清进行Western blot分析,转基因植株均有Bt杀虫蛋白的不同程度的表达。对转化再生烟草的虫试结果表明,在所受试的19株烟草中60%的植株上的棉铃虫在5天内死亡率达到100%,而且存活幼虫的生长发育受到明显抑制;蚜虫抑制生长试验表明,多数转化再生植株具有较强的抗蚜活性,平均能够抑制桃蚜50%～60%的蚜口密度,有的高达80%以上。以上结果表明利用这两个改造过的抗虫基因可以获得既抗虫又耐蚜的转双抗虫转基因植物。     

Insect-resistant transgenic brinjal plants

A synthetic cry1Ab gene coding for an insecticidal crystal protein (ICP) of Bacillus thuringiensis (Bt) was transferred to brinjal (eggplant) by cocultivating cotyledonary explants with Agrobacterium tumefaciens. Transformant plants resistant to kanamycin were regenerated. Hybridization experiments demonstrated gene integration and mRNA expression. Double-antibody sandwich ELISA analysis revealed Bt toxin protein expression in the transgenic plants. The expression resulted in a significant insecticidal activity of transgenic brinjal fruits against the larvae of fruit borer (Leucinodes orbonalis). The results also demonstrated that a synthetic gene based on monocot codon usage can be expressed in dicotyledonous plants for insect control.     

Linear transgene constructs lacking vector backbone sequences generate transgenic rice plants which accumulate higher levels of proteins conferring insect resistance

Biolistic transformation was used to introduce genes encoding the insecticidal proteins snowdrop lectin (Galanthus nivalis agglutinin; GNA) and cry1Ac Bt toxin (-endotoxin from Bacillus thuringiensis) into elite rice (Oryza sativa) cultivars. Plant transformation was carried out in parallel experiments simultaneously by using either whole plasmids containing suitable gene constructs, or the corresponding minimal gene cassettes, which were linear DNA fragments lacking vector sequences excised from the plasmids. Both transformation methods generated similar numbers of independent transformation events. Selected R₀ clonal plant lines were further characterised for presence and expression of transgenes. Co-transformation of the unselected genes (cry1Ac and gna) with the selectable marker (hpt) was at least as efficient for transformation with minimal gene cassettes as with whole plasmid DNA, and higher levels of accumulation of the insecticidal gene products GNA and cry1Ac were observed in plants resulting from minimal gene cassette transformation. Insect bioassays with major pests of rice showed that transgenic plants expressing gna showed enhanced resistance to brown planthopper (Nilaparvata lugens), and plants expressing cry1Ac were protected against attack by striped stem borer (Chilo suppressalis). Expression of both transgenes gave protection against both pests, but did not increase protection against either pest significantly over the levels observed in plants containing a single insecticidal transgene.     

Susceptibility of Anthonomus grandis (cotton boll weevil) and Spodoptera frugiperda (fall armyworm) to a cry1ia-type toxin from a Brazilian Bacillus thuringiensis strain

Different isolates of the soil bacterium Bacillus thuringiensis produce multiple crystal (Cry) proteins toxic to a variety of insects, nematodes and protozoans. These insecticidal Cry toxins are known to be active against specific insect orders, being harmless to mammals, birds, amphibians, and reptiles. Due to these characteristics, genes encoding several Cry toxins have been engineered in order to be expressed by a variety of crop plants to control insectpests. The cotton boll weevil, Anthonomus grandis, and the fall armyworm, Spodoptera frugiperda, are the major economically devastating pests of cotton crop in Brazil, causing severe losses, mainly due to their endophytic habit, which results in damages to the cotton boll and floral bud structures. A cry1Ia-type gene, designated cry1Ia12, was isolated and cloned from the Bt S811 strain. Nucleotide sequencing of the cry1Ia12 gene revealed an open reading frame of 2160 bp, encoding a protein of 719 amino acid residues in length, with a predicted molecular mass of 81 kDa. The amino acid sequence of Cry1Ia12 is 99% identical to the known Cry1Ia proteins and differs from them only in one or two amino acid residues positioned along the three domains involved in the insecticidal activity of the toxin. The recombinant Cry1Ia12 protein, corresponding to the cry1Ia12 gene expressed in Escherichia coli cells, showed moderate toxicity towards first instar larvae of both cotton boll weevil and fall armyworm. The highest concentration of the recombinant Cry1Ia12 tested to achieve the maximum toxicities against cotton boll weevil larvae and fall armyworm larvae were 230 microg/mL and 5 microg/mL, respectively. The herein demonstrated insecticidal activity of the recombinant Cry1Ia12 toxin against cotton boll weevil and fall armyworm larvae opens promising perspectives for the genetic engineering of cotton crop resistant to both these devastating pests in Brazil.     

Green-tissue-specific expression of a reconstructed cry1C gene encoding the active fragment of Bacillus thuringiensis delta-endotoxin in haploid tobacco plants conferring resistance to Spodoptera litura.

The DNA sequence of a truncated cry1C gene encoding the active fragment of Bacillus thuringiensis (Bt) delta-endotoxin was fully reconstructed by introduction of silent mutations. Each of the truncated wild type and the synthetic genes encoding the active fragment of the protoxin was introduced into haploid tobacco plants under the control of the rbcS promoter. To facilitate selection of transgenic tobacco plants with high insecticidal activity, a fusion gene encoding both rat CYP1A1 cytochrome P450 and yeast NADPH-P450 oxidoreductase was cotransformed with the wild type cry1C gene. The synthetic gene elevated the levels of Cry1C protein and the mRNA in transgenic tobacco plants as well as mortality in Spodoptera litura larvae. The Cry1C protein was accumulated mainly in the leaf tissues of the transgenic tobacco plants. The results reported here imply that the green-tissue-specific expression of the synthetic cry1C gene is useful for the control of S. litura which was rather resistant to the other types of Bt toxins.     

cry1A基因在转基因玉米中的遗传与表达(英文)

通过Southern杂交、ELISA分析等方法 ,研究了cry1A基因在转基因玉米中的遗传与表达。结果表明 ,cry1A基因在转基因玉米中呈单位点显性基因遗传。cry1A杀虫蛋白在转基因玉米不同株系中的表达量存在显著差异 ;在转基因玉米同一植株不同组织中的表达量也明显不同 ,在叶片、苞叶等绿色组织中的表达量显著高于在髓、花丝等非绿色组织中的表达量 ;在玉米叶片中的表达量随着发育期的推进有上升的趋势 ;在研究的 3个转基因玉米株系中 ,cry1A杀虫蛋白的表达量在R2 、R3 、R4代之间无显著差异。     

Bt rice harbouring cry genes controlled by a constitutive or wound-inducible promoter: protection and transgene expression under Mediterranean field conditions

Seven homozygous transgenic lines of two European commercial cultivars of rice (Ariete (A) and Senia (S)), harbouring the cry1B or cry1Aa Bacillus thuringiensis (Bt) delta-endotoxin genes, were field evaluated for protection from striped stem borer (SSB) (Chilo suppressalis) damage during the 2001 and 2002 summer crop seasons in the Delta de l'Ebre region, Spain. The plant codon-optimized toxin gene was placed under the control of the promoter of either the constitutive ubi1 gene or the wound-inducible mpi gene from maize. Stable, high-level, insecticidal protein accumulation was observed throughout root, leaf and seed tissues of field-grown plants harbouring the cry1B (lines A64.1, A33.1, A3.4 and S98.9) or cry1Aa (lines S05.1 and A19.14) genes under the control of the ubi1 promoter. Conversely, no toxin was detected in unwounded vegetative tissues of the A9.1 line harbouring the cry1B gene controlled by the mpi promoter, indicating that natural environmental stresses did not trigger the activity of the wound-inducible promoter. However, the toxin accumulated at 0.2% total soluble proteins in A9.1 sheath tissue exhibiting brown lesions resulting from SSB damage. The agronomical traits and performance of the transgenic lines were generally comparable with parental controls, except in the two lines accumulating Cry1Aa, which exhibited a high frequency of plants non-true to type. Natural infestation was assisted with manual infestations of L2/L3 SSB larvae in border control plants surrounding the experimental plots, which served as a reservoir for the second-cycle SSB population. The observation of damage (brown lesions and dead hearts) during the crop season and dissection of plants at harvest stage revealed a range of protection amongst the transgenic lines, which was highly consistent with the level of toxin accumulation and with previous experience in greenhouse assays. Lines A3.4 and S05.1 were found to exhibit stable and full protection against SSB attacks, mediated by the accumulation of Cry1B and Cry1Aa toxin, respectively, which was comparable with that afforded by the spraying of chemical insecticides on control plants. The wound-induced A9.1 line exhibited a satisfactory level of protection, with a notably low level of penetration of SSB larvae in the stems, but higher external symptoms than constitutive lines, probably due to the time lag to benefit from the protective effect of Cry1B.     

Association analysis between serotype, cry gene content, and toxicity to Helicoverpa armigera larvae among Bacillus thuringiensis isolates native to Spain

Serotyping, cry gene content, and toxicity to Helicoverpa armigera were determined for 178 isolates of Bacillus thuringiensis native to Spain. A total of 13 different cry1 and cry2 genes were detected when isolates were screened by PCR analysis. Results showed that cry2 and cry1Ia were the most frequent cry genes in the collection (74 and 57%, respectively); whereas cry1D, cry1Aa, cry1Ab, and cry1C were only moderately abundant (49, 48, 47, and 36%, respectively). The most uncommon cry genes were cry1Ac, cry1E, cry1B, cry1Ib, cry1Ad, cry1F, and cry1G, with frequencies of 24, 14, 13, 8, 5, 5, and 1%, respectively. The distribution of some cry genes was somewhat associated with particular serovars. For example, genes cry1C and cry1D were especially frequent in the serovar aizawai, while cry1B was very frequent in the serovar thuringiensis. Bioassays against H. armigera larvae showed a wide variation in the insecticidal potency, even among strains sharing the same set of cry genes and within the same serotype.     

转基因烟草中Bt毒蛋白基因的表达行为

Bt toxin genes were the insecticidal genes most widely used in genetic engineering of pest resistant plant, were of important significance to study their expression behavior in transgenic plants. In this work, a plant expression vector, pBinMoBc, was constructed. It contained the Cry IA(c) gene under control of chimeric OM promoter and the Ω factor. The vector was transferred into tobacco (Nicotiana tabacum L.) plant via Agrobacterium-mediated transformation. ELISA assay showed that the expression levels of the Cry IA(c) gene in transgenic tobacco plants were significantly higher than that in wild-type tobacco plants. The highest could be up to 0.255% of total soluble proteins; the expression level of CryIA(c) gene in transgenic tobacco plant was changeable during the development stages of tobacco plant. Bioassay showed that pBinMoBc transgenic tobacco plants had more notable insecticidal activity than the wild-type tobacco plants. The above results indicated that pBinMoBc was an effective pest-resistent plant expression vector. This study would be very helpful in screening transgenic cotton with high resistance to cotton bollworm (Heliothis armigeva Hubner).     

Characterization of a novel vip3-type gene from Bacillus thuringiensis and evidence of its presence on a large plasmid

A novel vip3-type gene named vip3LB has been isolated from Bacillus thuringiensis strain BUPM95. The corresponding secreted vegetative insecticidal protein was active against the lepidopteran insect Ephestia kuehniella. The vip3LB gene was shown, for the first time, to be carried by the large plasmid containing the cry1Ia genes of B. thuringiensis. The nucleotide sequence predicted a protein of 789 amino acids residues with a calculated molecular mass of 88.5kDa. Both nucleotide and amino acid sequences similarity analysis revealed that vip3LB is a new vip3-type gene, presenting several differences with the other vip3-type genes. Heterologous expression of the vip3LB under the control of the strong promoter P(BAD) was performed in Escherichia coli and the produced protein conferred insecticidal activity against Ephestia kuehniella. This novel vegetative insecticidal protein Vip3LB could be a very useful biological control agent.     

Targeted expression of insecticidal hybrid SN19 gene in potato leads to enhanced resistance against Colorado potato beetle (<Emphasis Type="Italic">Leptinotarsa decemlineata</Emphasis> Say) and tomato leafminer (<Emphasis Type="Italic">Tuta absoluta</Emphasis> Meyrick)

The expression of insecticidal genes must be induced at appropriate time and in sufficient amount to confer protection against targeted pests. However, the increased scientific reports of resistance development in insect pest against insecticidal delta-endotoxins, produced by Bacillus thuringiensis, provide impetus for the development of alternative insect management strategies. The present study was conducted to investigate the importance of targeted expression of a hybrid insecticidal gene (SN19) in potatoes. For this purpose, two plant expression vectors were constructed by cloning hybrid SN19 gene (cry1Ba-domain I–III and cry1Ia-domain II) under the control of a wound-inducible promoter isolated from Asparagus officinalis (AoPR1) and CaMV 35S promoter, and were transferred to Agrobacterium tumefaciens strain EHA 105. Four potato genotypes (Marabel, Innovator, Tokat 10/1 and Tokat 6/24) were transformed with EHA 105 strain harboring pTF101.1 35S–SN19 and pTF101.1 AoPR1–SN19 constructs. Phosphinothricin (PPT) was used at concentration of 1 mg/l for selection of primary transformants. PCR results showed the presence of both introduced SN19 and bar genes in 43 plants out of total 154 putative transgenics. Expression of SN19 protein in primary transformants was confirmed by Western blot assays. The mechanical wounding of transgenic plants exhibited more accumulated levels of SN19 proteins during post wounding period. Leaf biotoxicity assays with Colorado potato beetle (Coleoptera) and tomato leafminer (Lepidoptera) exhibited 100% mortality of the pests in primary transformants. Based on our mortality results with both constructs, we concluded that the potato transgenic lines exhibited targeted expression of insecticidal gene under the control of AoPR1 promoter upon insect wounding with eliminated toxicity of Cry protein and hence can be further used effectively in potato breeding programme.     

Effective control of yellow stem borer and rice leaf folder in transgenic rice indica varieties Basmati 370 and M 7 using the novel δ-endotoxin cry2A Bacillus thuringiensis gene

Transgenic rice indica varieties Basmati 370 and M 7 expressing the novel cry2A (Bt) insecticidal gene were generated by particle bombardment. Molecular and biochemical analyses in R0 and R1 populations confirmed stable integration and expression of this novel Bt transgene. We estimated that the gene product was expressed up to 5% of total leaf protein. Insect feeding bioassays demonstrated that the Cry2A protein was effective against the yellow stem borer and the rice leaf folder, two major rice pests in the Indian Subcontinent. This is the first report of the control of major rice pests using this specific Bt gene. The cry2A gene can now be used in combination with other insecticidal genes for pyramiding resistance against insect pests. This will delay, or perhaps in combination with integrated pest management practices, prevent evolution of insect populations resistant to single insecticidal genes.     

Overexpression of the Bt cry2Aa2 operon in chloroplasts leads to formation of insecticidal crystals

In nuclear transgenic plants, expression of multiple genes requires introduction of individual genes and time-consuming subsequent backcrosses to reconstitute multi-subunit proteins or pathways, a problem that is compounded by variable expression levels. In order to accomplish expression of multiple genes in a single transformation event, we have introduced several genes into the chromoplast genome. We confirmed stable integration of the cry2Aa2 operon by PCR and Southern blot analyses in T(0) and T(1) transgenic plants. Foreign protein accumulated at 45.3% of the total soluble protein in mature leaves and remained stable even in old bleached leaves (46.1%), thereby increasing the efficacy and safety of transgenic plants throughout the growing season. This represents the highest level of foreign gene expression reported in transgenic plants to date. Insects that are normally difficult to control (10-day old cotton bollworm, beet armyworm) were killed 100% after consuming transgenic leaves. Electron micrographs showed the presence of the insecticidal protein folded into cuboidal crystals. Formation of crystals of foreign proteins (due to hyperexpression and folding by the putative chaperonin, ORF 2) provides a simple method of purification by centrifugation and enhances stability by protection from cellular proteases. Demonstration of expression of an operon in transgenic plants paves the way to engineering new pathways in plants in a single transformation event.     

Assessment of cry1 gene contents of Bacillus thuringiensis strains by use of DNA microarrays

A single Bacillus thuringiensis strain can harbor numerous different insecticidal crystal protein (cry) genes from 46 known classes or primary ranks. The cry1 primary rank is the best known and contains the highest number of cry genes which currently totals over 130. We have designed an oligonucleotide-based DNA microarray (cryArray) to test the feasibility of using microarrays to identify the cry gene content of B. thuringiensis strains. Specific 50-mer oligonucleotide probes representing the cry1 primary and tertiary ranks were designed based on multiple cry gene sequence alignments. To minimize false-positive results, a consentaneous approach was adopted in which multiple probes against a specific gene must unanimously produce positive hybridization signals to confirm the presence of a particular gene. In order to validate the cryArray, several well-characterized B. thuringiensis strains including isolates from a Mexican strain collection were tested. With few exceptions, our probes performed in agreement with known or PCR-validated results. In one case, hybridization of primary- but not tertiary-ranked cry1I probes indicated the presence of a novel cry1I gene. Amplification and partial sequencing of the cry1I gene in strains IB360 and IB429 revealed the presence of a cry1Ia gene variant. Since a single microarray hybridization can replace hundreds of individual PCRs, DNA microarrays should become an excellent tool for the fast screening of new B. thuringiensis isolates presenting interesting insecticidal activity.     

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.