Constitutive expression of a cowpea trypsin inhibitor gene,CpTi, in transgenic rice plants confers resistance to two major rice insect pests

The gene encoding a cowpea trypsin inhibitor (CpTI), which confers insect resistance in trangenic tobacco, was introduced into rice. Expression of the CpTi gene driven by the constitutively active promoter of the rice actin 1 gene (Act1) leads to high-level accumulation of the CpTI protein in transgenic rice plants. Protein extracts from transgenic rice plants exhibit a strong inhibitory activity against bovine trypsin, suggesting that the proteinase inhibitor produced in transgenic rice is functionally active. Small-scale field tests showed that the transgenic rice plants expressing the CpTi gene had significantly increased resistance to two species of rice stem borers, which are major rice insect pests. Our results suggest that the cowpea trypsin inhibitor may be useful for the control of rice insect pests.     

Introduction and Expression of Cowpea Trypsin Inhibitor (CpTI) Gene in Transgenic Tobacco

A trypsin/chymotrypsin inhibitor (CpTI) was purified from mature cowpea seeds. A full length cDNA clone encoding the trypsin/chymotrypsin inhibitor protein was isolated from a cDNA library that was constructed using poly(A⁺) RNA from developing seeds. Tobacco protoplasts were transformed with a construct composed of CaMV 35S promoter, NPTII gene, CpTI gene, and NOS terminator, using polyethylene glycol (PEG)-mediated direct gene transfer. The CpTI gene has been integrated into the plant genome, and the expressed CpTI protein from transgenic plants was catalytically active.     

Testing transgenes for insect resistance using Arabidopsis

One possible strategy to delay the selection of resistant insect populations is the pyramiding of multiple resistance genes into a single cultivar. However, the transformation of most major crops remains prohibitively expensive if a large number of transgene combinations are to be evaluated. Arabidopsis thaliana is a potentially good plant for such preliminary evaluations. We determined that four major agricultural pests, Spodoptera exigua, Helicoverpa zea, Pseudoplusia includens, and Heliothis virescens grew as well when feeding on Landsberg Erecta Arabidopsis as they did on plants of Cobb soybean. Landsberg Erecta was then transformed with either a synthetic Bacillus thuringiensis cryIA(c) gene, or the cowpea trypsin inhibitor gene. Transformed plants were crossed to produce plants transgenic for both genes. Following quantification of transgene expression, the four caterpillar species were allowed to feed on wild-type plants, plants expressing either cryIA(c) or the cowpea trypsin inhibitor gene, or plants expressing both. Both genes reduced growth of the species tested, but cryIA(c) was more effective in controlling caterpillar growth than the cowpea trypsin inhibitor gene. The resistance of plants with both transgenes was lower than that of plants expressing the cryIA(c) gene alone, but higher than that of plants expressing the only the CpTI gene. This could be due to a lower concentration of Cry protein in the hemizygous F1 plants. Thus, if the cowpea trypsin inhibitor had any potentiation effect on cryIA(c), this effect was less than the cryIA(c) copy number effect. Alternatively, expression of the trypsin inhibitor gene could be antagonistic to the function of the cryIA(c) gene. Either way, these results suggest that the combined use of these two genes may not be effective.     

豇豆胰蛋白酶抑制剂基因转化芥菜及抗虫鉴定

用农杆菌介导将豇豆胰蛋白酶抑制剂 (CpTI)基因导入芥菜 ,获得了Kan抗性植株 .经PCR扩增、PCR Southern印迹和Northern印迹分析 ,转化再生植株大部分呈阳性 ,而非转化的再生植株均为阴性 ,证明CpTI基因已存在于芥菜基因组中 .在室内进行了喂虫试验 ,结果表明转基因芥菜抗虫性明显高于对照 ,转基因植株之间存在抗虫性差异     

CpTI蛋白在大肠杆菌中的高效融合表达及其纯化与活性测定

豇豆胰蛋白酶抑制剂 (Cowpea Trypsin Inhibitor) 基因 (CpTI) 因其抗虫谱广及不易耐受等优点在植物基因工程中得到广泛应用。为进行遗传修饰食品（Genetically modified foods, GMF）中所含CpTI基因表达产物的安全性评价,我们需要在体外微生物体系中获得大量的CpTI蛋白。采用pGEX融合蛋白表达系统,将CpTI与GST的编码序列在大肠杆菌BL21中进行融合表达,表达产物达到菌体总蛋白的40%。经一步Glutathione Sephrose 4B亲和纯化,融合蛋白GSTCpTI纯度达到90％以上。将Thrombin蛋白酶与融合蛋白过夜作用,可获得切掉了GST标签的CpTI蛋白。活性测定显示GSTCpTI及CpTI蛋白均具有明显的胰蛋白酶抑制剂活性。用纯化的融合蛋白免疫家兔还可诱导产生高效价的抗体,经ELISA检测抗体滴度>1∶20000。Western Blotting 实验显示,无论是菌体超声裂解后总蛋白中的CpTI蛋白或是经纯化后的CpTI蛋白均可与自制的抗体发生特异性结合。这为进一步进行CpTI蛋白的安全性评价工作奠定了良好基础。     

Effect of pyramiding Bt and CpTI genes on resistance of cotton to Helicoverpa armigera (Lepidoptera: Noctuidae) under laboratory and field conditions

Transgenic cotton (Cossypium hirsutum L.) varieties, adapted to China, have been bred that express two genes for resistance to insects, the CrylAc gene from Bacillus thuringiensis (Berliner) (Bt), and a trypsin inhibitor gene from cowpea (CpTI). Effectiveness of the double gene modification in conferring resistance to cotton bollworm, Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae), was studied in laboratory and field experiments. In each experiment, performance of Bt+CpTI cotton was compared with Bt cotton and to a conventional nontransgenic variety. Larval survival was lower on both types of transgenic variety, compared with the conventional cotton. Survival of first-, second-, and third-stage larvae was lower on Bt+CpTI cotton than on Bt cotton. Plant structures differed in level of resistance, and these differences were similar on Bt and Bt + CpTI cotton. Likewise, seasonal trends in level of resistance in different plant structures were similar in Bt and Bt+CpTI cotton. Both types of transgenic cotton interfered with development of sixth-stage larvae to adults, and no offspring was produced by H. armigera that fed on Bt or Bt+CpTI cotton from the sixth stage onward. First-, second-, and third-stage larvae spent significantly less time feeding on transgenic cotton than on conventional cotton, and the reduction in feeding time was significantly greater on Bt+CpTI cotton than on Bt cotton. Food conversion efficiency was lower on transgenic varieties than on conventional cotton, but there was no significant difference between Bt and Bt+CpTI cotton. In 3-yr field experimentation, bollworm densities were greatly suppressed on transgenic as compared with conventional cotton, but no significant differences between Bt and Bt+CpTI cotton were found. Overall, the results from laboratory work indicate that introduction of the CpTI gene in Bt cotton raises some components of resistance in cotton against H. armigera, but enhanced control of H. armigera under field conditions, due to expression of the CpTI gene, was not demonstrated.     

Transgenic potato plants with enhanced resistance to the tomato moth,Lacanobia oleracea: growth room trials

Insecticidal effects of three plant-derived genes, those encoding snowdrop lectin (GNA), bean (Phaseolus vulgaris) chitinase (BCH) and wheat -amylase (WAI), were investigated and compared with effects of the cowpea trypsin inhibitor gene (CpTI). Transgenic potato plants containing each of the three genes singly, and in pairwise combinations were produced. All the introduced genes were driven by the CaMV 35S promoter; expression was readily detectable at the RNA level in transformants, but not detectable accumulation of WAI could be detected in transgenic potatoes containing its encoding gene. GNA and BCH were accumulated at levels up to 2.0% of total soluble protein; both proteins were expressed in a functional form, and GNA was shown to undergo 'correct' N-terminal processing. Accumulation levels of individual proteins were higher in plants containing a single foreign gene than in plants containing two foreign genes.Resistance of the transgenic plants to insect attack was assayed by exposing the plants to larvae of the tomato moth, Lacanobia oleracea. All the plants tested which were expressing GNA showed an enhanced level of resistance. Leaf damage was reduced by more than 50% compared to controls; total insect biomass per plant was reduced by 45-65%, but larval survival was only slightly reduced (20%). These results support the hypothesis that GNA has a significant antifeedant effect on insects. Expression of BCH had no protective effect against this insect. Expression of CpTI in transgenic potatoes had similar effects to expression of GNA on total insect biomass and survival, but did not afford protection against insect damage to the plant.     

Transformation of Populus tomentosa with Insecticidal Cowpea Proteinase Inhibitor Gene

Cowpea trypsin inhibitor (CpTI) gene, an insecticidal gene, was introduced into poplar ( Populus tomentosa Carr. ) by gene transformation mediated by Agrobacterium tumefac/ens (Smith et Townsend) Conn. The influences on regeneration and transformation frequency of poplar by the concentration and addition of kanamycin were compared. Kanamycin resistant (Kmr) plantlets were obtained by 3 -4 cycles screening in selective condition. The ability of leaf regeneration and shoot subculture and rooting from the transformed and non-transformed plants in the presence of 50 mg/L kanamycin was examined. The presence of CpTI gene in the transgenic plants were confirmed by PCR and PCR-Southern blot. Assay on proteinase inhibition activity demonstrated that leaf protein extracts of the transgenic poplar showed higher inhibition activity against trypsin than that of control plants.     

Phenotypic cost to plants of an extra gene

In lines of transgenic tobacco plants containing cowpea trypsin inhibitor gene constructs, the cost to various phenotypic characteristics has been measured in plants which express the gene at a high level and in plants which possess, but do not express, the cowpea sequences. Small, but in some cases significant, differences between transgenic and untransformed control plants were found in various parameters. There was no additional difference between transgenic plants which expressed cowpea trypsin inhibitor and those which did not. Thus, although the processes of transformation/regeneration may have some small effects on non-targeted phenotypic characteristics, the expression at high levels of this ‘foreign’ protein imposed no additional yield penalty on the plants.     

转双基因烟草对棉铃虫的杀虫活性评价

以含Ｂｔ杀虫蛋白基因（单基因）烟草和常规烟草为对照,系统测定了含Ｂｔ与豇豆胰蛋白酶抑制剂蛋白基因（双基因）的抗虫烟草对棉铃虫不同龄期幼虫的杀虫活性。结果表明：１￣３龄幼虫取食转双基因烟草３ｄ后死亡率为８０．５％￣９９．３％,取食６ｄ后死亡率达１００％,均显著高于转单基因烟草。２龄幼虫取食转基因烟草３ｄ后死亡率为８０．５％￣９９．３％,取食６ｄ后死亡率达１００％,均显著高于转单基因烟草。２龄幼虫取食     

Isolation and characterization of trypsin inhibitors from cowpea (Vigna unguiculata)

The trypsin inhibitor fraction from cowpea (Vigna unguiculata) has been purified and characterized. Although the total trypsin inhibitor as purified by affinity chromatography on immobilised trypsin was shown to be heterogeneous by gel electrophoresis and isoelectric focusing as well as by function, it was relatively homogeneous in MW (ca 17 000) on gel filtration. The total trypsin inhibitor was divided into inhibitors active against trypsin only and active against trypsin and chymotrypsin by affinity chromatography on immobilised chymotrypsin. The ‘trypsin-only’ inhibitor was the major component of the total trypsin inhibitor. It was shown by isoelectric focusing and gel electrophoresis to contain several isoinhibitors. Determination of the combining weight of this inhibitor and investigation of the complexes formed with trypsin by gel filtration indicated the presence of two protease binding sites per inhibitor molecule. The chymotrypsin/trypsin inhibitor was also shown to be composed of several isoinhibitors. On the basis of gel electrophoresis and gel filtration in dissociating and non-dissociating media both inhibitors were considered to be dimeric molecules with the subunits linked by disulphide bonds; this implies that the ‘trypsin-only’ inhibitor has one binding site per subunit.     

豇豆胰蛋白酶抑制剂(CpTI)基因转化欧美杨的研究

本研究建立了欧美107杨的高频再生体系,用改良的根癌农杆菌介导法将豇豆胰蛋白酶抑制剂(CpTI)基因导入107杨中。经过严格的卡那霉素(Km)筛选,得到了Km抗性(Kmr)植株。对部分Kmr植株进行PCR及PCR-Southern杂交鉴定,证实CpTI基因已整合进杨树基因组中。转基因植株的饲虫实验表明,其中部分株系的叶片可在一定程度上抑制扁刺蛾幼虫的生长。     

An Insect-Resistant Transgenic Cabbage Plant with Cowpea Trypsin Inhibitor(CpTI) Gene

Cowpea trypsin inhibitor (CpTI) gene was transformed into Brassica oleracea var. capitara variety "Yingchun" and "Jingfeng" mediated by the Agrobacterium tumefaciens LBA4404(pRCL27). Transgenic plants were obtained from transformed calli or explants. It was shown from the ELISA assay that NPT Ⅱgene was expressed in the transgenic cabbage cells. The integration of the CpTI gene into cabbage genome DNA was confirmed by Southem blotting. Insect-tolerance of the transgenic plants to Pieris rapae L. was observed by bioassays on the transgenic plants in the laboratory.     

农杆菌介导抗储粮害虫转基因小麦(Triticum aestivum L.)的获得及分析

以本实验室选育的小麦优良品系的胚性愈伤组织为材料,采用农杆菌介导将抗虫基因豇豆胰蛋白酶抑制剂基因CpTI转入小麦培养细胞,经筛选获得抗卡那霉素的愈伤组织并再生植株。经PCR和实时PCR检测、PCR-Southern和Southernblot验证,确定了3株独立再生植株为含有CpTI的转基因植株。农杆菌菌浓度、侵染时间及转化处理方式对小麦转化率均有明显影响。3株转基因植株正常可育并结籽,形成转基因株系。外源基因在转基因植株T1代中的分离呈多样性,部分株系(转基因株系T-Ⅰ、T-Ⅲ)表现出孟德尔遗传规律。抗虫试验表明,3株转基因植株T2代籽粒对储粮害虫麦蛾具有一定的抗性,转基因株系T-Ⅰ、T-Ⅱ、T-Ⅲ及非转基因植株的T2代籽粒虫蛀率分别为19·8%、21·9%、32·9%和58·3%。转基因植株T1代群体农艺性状调查显示,3个株系具有良好的农艺性状,为小麦的遗传改良提供了新的种质抗虫材料。     

通过细胞内的靶向定位大幅度提高外源蛋白在转基因植株的积累水平

通过体外操作,对豇豆胰蛋白酶抑制剂(cpti)基因进行修饰,获得了一个融合蛋白基因(sck).该基因是在cpti基因的基础上,在其5'端添加了信号肽编码序列,在3'端添加了内质网滞留信号编码序列,旨在引导基因转译产物进入细胞内质网,并最终滞留在内质网及其衍生的蛋白体内.用sck基因转化烟草(Nicotiana tabacum L.),对获得的转基因植株进行ELISA检测.结果表明,含有修饰基因的转基因烟草CpTI蛋白含量有明显提高,比转未修饰cpti基因烟草平均高出2倍,最高单株可达4倍以上,同时转基因植株的抗虫性也有了显著的提高.结果表明,采用外源蛋白靶向定位的策略,可大幅度提高外源蛋白在转基因植物细胞内的积累量,在植物基因工程研究中具有广泛的借鉴意义.     

通过细胞内的靶向定位大幅度提高外源蛋白在转基因植株的积累水平

通过体外操作,对豇豆胰蛋白酶抑制剂(cpti)基因进行修饰,获得了一个融合蛋白基因(sck)。该基因是在cpti基因的基础上,在其5’端添加了信号肽编码序列,在3’端添加了内质网滞留信号编码序列,旨在引导基因转译产物进入细胞内质网,并最终滞留在内质网及其衍生的蛋白体内。用sck基因转化烟草(Nicotiana tabacum L.),对获得的转基因植株进行ELISA检测。结果表明,含有修饰基因的转基因烟草CpTI蛋白含量有明显提高,比转末修饰cpti基因烟草平均高出2倍,最高单株可达4倍以上,同时转基因植株的抗虫性也有了显著的提高。结果表明,采用外源蛋白靶向定位的策略,可大幅度提高外源蛋白在转基因植物细胞内的积累量,在植物基因工程研究中具有广泛的借鉴意义。     

Enhanced transgenic plant resistance to nematodes by dual proteinase inhibitor constructs

Plant defence strategies usually involve the action of several gene products. Transgenic resistance strategies are likely to have enhanced efficacy when they involve more than one transgene. Here we explore possible mechanisms for the co-delivery of multiple effectors via a single transgene. As an example we report the co-delivery of two distinct proteinase inhibitors in Arabidopsis thaliana (L.) Heynh. to examine resistance against plant parasitic nematodes. A cysteine and serine proteinase inhibitor have been joined as translational fusions by one of two peptide linkers. One linker, part of the spacer region of a plant metallothionein-like protein (PsMTa), was selected to be cleaved in planta. A second linker, derived from the fungal enzyme galactose oxidase (GO) was chosen to be refractory to cleavage in planta. Western blot analysis of cell extracts confirmed the expected pattern of predominantly single inhibitors derived from the PsMTa construct and a primarily dual inhibitor from the GO construct. Analysis of cyst and root-knot nematodes recovered from transgenic Arabidopsis expressing inhibitors as single or dual molecules revealed the uptake of inhibitors with the exception of those linked by the PsMTa linker. This unexpected result may be due to residues of the PsMTa linker interacting with cell membranes. Despite lack of ingestion, PsMTa-linked cowpea trypsin inhibitor (CpTI) affected the sexual development of the cyst nematodes, indicating an external site of action. The engineered cystatin (Oc-IΔD86) component from the PsMTa constuct had no effect, indicating that ingestion is necessary for the cystatin to be effective. The delivery of dual inhibitors linked by the GO linker showed a clear additive effect over either inhibitor delivered singly. The application of this technology to other plant pathogens is discussed. Received: 3 July 1997 / Accepted: 8 August 1997     

The cowpea trypsin inhibitor promoter drives expression in response to cellular maturation in Arabidopsis thaliana

The bowman-birk type trypsin inhibitors accumulate in high concentration in legume and cereal seeds, especially during seed maturation and are considered to be involved in insect tolerance. The 5′ flanking sequences of the trypsin inhibitor was isolated from cowpea genomic DNA using anchor PCR. Analysis of sequences showed presence of seed specific RY elements and also other elements associated with seed development such as abscisic acid responsive elements (ABA responsive elements; ABRE) and dehydration responsive elements (DRE). Spatial and temporal control of the promoter driven expression pattern was analyzed using gus as reporter. Expression was found to occur both in embryo and endosperm; starting from torpedo stage of embryogenesis and continuing till the stage of final maturation i.e. bent cotyledon stage. Additional expression analyses showed that the promoter actually drives expression in tissues like leaves, roots, stipules, etc., but followed a specific pattern. Comparative analysis of expression in seeds and other organs indicated that the promoter driven expression is in response to cellular maturation.     

Impact of Genetically Modified Potato Expressing Plant-Derived Insect Resistance Genes on the Predatory Bug Podisus maculiventris (Heteroptera: Pentatomidae)

The effects of the transgene proteins Galanthus nivalis agglutinin (GNA) and cowpea trypsin inhibitor (CpTI) on the predatory stinkbug Podisus maculiventris were studied under laboratory conditions. When the P. maculiventris were provided with tomato moth (L. oleracea) larvae injected with either GNA or CpTI at a dose of 10 μg day^-1, growth was significantly reduced and, as a consequence, female adult weight was also significantly reduced. For GNA-fed and CpTI-fed P. maculiventris, this weight reduction was 11.3 and 16.6%, respectively. Males, however, were not significantly affected. Female bugs that had not been exposed to the transgene proteins as nymphs, however, showed no reduction in fecundity when these adults were provided with prey injected with either GNA or CpTI at this same dose. When provided with hosts that had been reared on transgenic plants expressing either GNA or CpTI, no effects on the survival of nymphs were observed and only small, largely non-significant, reductions in weights were recorded throughout preadult development. Male nymphs fed on the GNA-fed prey did, however, exhibit a significant lengthening of preadult development of 0.8 days. The subsequent adults showed significantly reduced egg production for the GNA treatment. The results indicate that P. maculiventris may suffer some indirect adverse effects from foraging for prey in crops expressing either GNA or CpTI, due to prey being of inferior quality, rather than to direct toxicity of the transgene products themselves.     

BIOPOTENCY OF SERINE PROTEASE INHIBITORS FROM COWPEA (Vigna unguiculata) SEEDS ON DIGESTIVE PROTEASES AND THE DEVELOPMENT OF Spodoptera littoralis (BOISDUVAL)

Serine protease inhibitors (PIs) have been described in many plant species and are universal throughout the plant kingdom, where trypsin inhibitors is the most common type. In the present study, trypsin and chymotrypsin inhibitory activity was detected in the seed flour extracts of 13 selected cultivars/accessions of cowpea. Two cowpea cultivars, Cream7 and Buff, were found to have higher trypsin and chymotrypsin inhibitory potential compared to other tested cultivars for which they have been selected for further purification studies using ammonium sulfate fractionation and DEAE‐Sephadex A‐25 column. Cream7‐purified proteins showed two bands on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS‐PAGE) corresponding to molecular mass of 17.10 and 14.90 kDa, while the purified protein from Buff cultivar showed a single band corresponding mass of 16.50 kDa. The purified inhibitors were stable at temperature below 60°C and were active at wide range of pH from 2 to 12. The kinetic analysis revealed noncompetitive type of inhibition for both inhibitors against both enzymes. The inhibitor constant (K_i) values suggested high affinity between inhibitors and enzymes. Purified inhibitors were found to have deep and negative effects on the mean larval weight, larval mortality, pupation, and mean pupal weight of Spodoptera littoralis, where Buff PI was more effective than Cream7 PI. It may be concluded that cowpea PI gene(s) could be potential insect control protein for future studies in developing insect‐resistant transgenic plants.