Broccoli plants with pyramided cry1Ac and cry1C Bt genes control diamondback moths resistant to Cry1A and Cry1C proteins

This study was undertaken to determine the effects of pyramiding two Bacillus thuringiensis (Bt) genes in the same plant on the production of Bt proteins and the control of diamondback moths (DBM, Plutella xylostella) resistant to one or the other protein. Broccoli lines carrying both cry1Ac and cry1C Bt genes were produced by sexual crosses of cry1Ac- and cry1C-transgenic plants. Plants containing both genes were selected by tests for resistance to kanamycin and hygromycin, and confirmed by PCR analysis for the Bt genes. Both cry1Ac and cry1C mRNAs were detected in the hybrid lines, and Cry1Ac and Cry1C proteins were stably produced at levels comparable to the parental plants. Plants producing both Cry1Ac and Cry1C proteins caused rapid and complete mortality of DBM larvae resistant to Cry1A or Cry1C, and suffered little or no leaf damage. These plants, in combination with the resistant DBM populations available, will allow greenhouse or field studies of resistance management strategies involving gene pyramiding.     

Seasonal expression of Bt proteins in transgenic rice lines and the resistance against Asiatic rice borer Chilo suppressalis (Walker)

Laboratory bioassays and field surveys were carried out to compare the resistance of three transgenic rice (Oryza sativa L.) lines including Bt-DL expressing a single gene cry1Ab, Bt-KF6 expressing stacked genes cry1Ac and CpTI genes and Bt-SY63 expressing a fusion gene cry1Ab/cry1Ac, respectively, to an important rice pest Chilo suppressalis (Walker). In addition, enzyme-linked immunosorbent assays (ELISA) were conducted to monitor the Bt protein expressions in rice leaves and stems at different rice growth stages. Results showed that all the transgenic rice lines exhibited significantly high resistance to the pest compared with their corresponding nontransformed isolines. Among the transgenic rice lines, Bt-SY63 and Bt-KF6 had higher resistance to C. suppressalis at early growth stage, but lower resistance at late stages, while the pest resistance of Bt-DL was relatively stable throughout the growing season. The results were consistent with ELISA results showing that Bt protein levels in Bt-SY63 or Bt-KF6 leaves decreased in late growth stages, but were relatively stable in Bt-DL at all growth stages. This demonstrates that the resistance to a pest by Bt plants is positively correlated with Cry protein expression levels in plant tissues. Compared with Bt-SY63 and Bt-KF6, the Bt protein expression levels were significantly lower in Bt-DL, while its resistance to C. suppressalis was the highest. This may suggest that C. suppressalis is more susceptible to Cry1Ab than to Cry1Ac. The data from the current study are valuable for decision-making for commercial use of Bt rice lines and development of appropriate pest control and resistance management strategies for the transgenic rice lines.     

Effect of transgenic Bacillus thuringiensis rice lines on mortality and feeding behavior of rice stem borers (Lepidoptera: Crambidae)

Ten transgenic Bacillus thuringiensis Bt rice, Oryza sativa L., lines with different Bt genes (two Cry1Ac lines, three Cry2A lines, and five Cry9C lines) derived from the same variety Minghui 63 were evaluated in both the laboratory and the field. Bioassays were conducted by using the first instars of two main rice lepidopteran insect species: yellow stem borer, Scirpophaga incertulas (Walker) and Asiatic rice borer, Chilo suppressalis (Walker). All transgenic lines exhibited high toxicity to these two rice borers. Field evaluation results also showed that all transgenic lines were highly insect resistant with both natural infestation and manual infestation of the neonate larvae of S. incertulas compared with the nontransformed Minghui63. Bt protein concentrations in leaves of 10 transgenic rice lines were estimated by the sandwich enzyme-linked immunosorbent assay. The cry9C gene had the highest expression level, next was cry2A gene, and the cry1Ac gene expressed at the lowest level. The feeding behavior of 7-d-old Asiatic rice borer to three classes of Bt transgenic rice lines also was detected by using rice culm cuttings. The results showed that 7-d-old larvae of Asiatic rice borer have the capacity to distinguish Bt and non-Bt culm cuttings and preferentially fed on non-Bt cuttings. When only Bt culm cuttings with three classes of different Bt proteins (CrylAc, Cry2A, and Cry9C) were fed, significant distribution difference of 7-d-old Asiatic rice borer in culm cuttings of different Bt proteins also was found. In the current study, we evaluate different Bt genes in the same rice variety in both the laboratory and the field, and also tested feeding behavior of rice insect to these Bt rice. These data are valuable for the further development of two-toxin Bt rice and establishment of appropriate insect resistance management in the future.     

Bacillus thuringiensis protein transfer between rootstock and scion of grafted poplar

Bacillus thuringiensis (Bt) Cry1Ac protein is a toxin against different leaf‐eating lepidopteran insects that attack poplar trees. In the present study, the mode of migration of the Bt‐Cry1Ac protein within poplar grafts was investigated. Grafting was done using Pb29 (transgenic poplar 741 with cry1Ac genes), CC71 (transgenic poplar 741 with cry3A genes), non‐transgenic poplar 741 and non‐transgenic Populus tomentosa, either as scion or as rootstock. In order to detect migration of Bt‐Cry1Ac protein from one portion of the graft union to different tissues in the grafted plant, ELISA analysis was employed to assess the content of Bt‐Cry1Ac protein in the phloem, xylem, pith and leaves of the grafted poplar. To further verify migration of Bt‐Cry1Ac protein, Clostera anachoreta larvae, which are susceptible to Bt‐Cry1Ac protein, were fed leaves from the control graft (i.e., graft portion that originally did not contain Bt‐Cry1Ac protein). The results showed that Bt‐Cry1Ac protein was transported between rootstock and scion mainly through the phloem. Migration of Bt‐Cry1Ac protein in the grafted union was also evidenced in that the leaves of the control graft did have a lethal effect on C. anachoreta larvae in laboratory feeding experiments.     

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。     

Tecia solanivora infestation increases tuber starch accumulation in Pastusa Suprema potatoes

In response to infestation with larvae of the Guatemalan tuber moth(Tecia solanivora), some Solanum tuberosum(potato) varieties exhibit an overcompensation response, whereby the total dry mass of uninfested tubers is increased. Here, we describe early responses,within the first few days, of T. solanivora feeding, in the Colombian potato variety Pastusa Suprema. Nontargeted metabolite profiling showed significant secondary metabolism changes in T. solanivora-infested tubers,but not in uninfested systemic tubers. In contrast,changes in primary metabolism were greater in uninfested systemic tubers than in the infested tubers, with a notable 80% decline in systemic tuber sucrose levels within 1 d of T. solanivora infestation. This suggested either decreased sucrose transport from the leaves orincreased sink strength, i.e., more rapid sucrose to starch conversion in the tubers. Increased sucrose synthesis was indicated by higher rubisco activase and lower starch synthase gene expression in the leaves of infested plants.Elevated sink strength was demonstrated by 45% more total starch deposition in systemic tubers of T. solanivorainfested plants compared to uninfested control plants.Thus, rather than investing in increased defense of uninfested tubers, Pastusa Suprema promotes deposition of photoassimilates in the form of starch as a response to T. solanivora infestation.     

Transgenic broccoli with high levels of Bacillus thuringiensis Cry1C protein control diamondback moth larvae resistant to Cry1A or Cry1C

A synthetic Bacillus thuringiensis (Bt) cry1C gene was introduced into broccoli (Brassica oleracea ssp. italica) by Agrobacterium-mediated transformation. Twenty-one Cry1C transgenic plants were regenerated from 400 hypocotyl and petiole explants. Variable amounts of stable steady- state cry1C mRNA accumulated in different transgenic plants. Cry1C protein (up to 0.4% of total soluble protein) was produced in correlation with the cry1C mRNA levels. Leaf section and whole-plant bioassays were done using diamondback moth (DBM) larvae from lines susceptible to Bt or resistant to Cry1A or Cry1C proteins (Cry1AR or Cry1CR, respectively). Plants with high levels of Cry1C protein caused rapid and complete mortality of all three types of DBM larvae with no defoliation. Plants with lower levels of Cry1C protein showed an increasing differential between control of susceptible of Cry1AR DBM. This study demonstrated that high production of Cry1C protein can protect transgenic broccoli not only from susceptible or Cry1AR DBM larvae but also from DBM selected for moderate levels of resistance of Cry1C. The Cry1C- transgenic broccoli were also resistant to two other lepidopteran pests of crucifers (cabbage looper and imported cabbage worm). These plants will be useful in studies of resistance management strategies involving multiple transgenes. This revised version was published online in June 2006 with corrections to the Cover Date.     

Age-related increase in levels of insecticidal protein in the progenies of transgenic oilseed rape and its efficacy against a susceptible strain of diamondback moth

Many crops transformed with insecticidal genes isolated from Bacillus thuringiensis (Bt) show resistance to targeted insect pests. The concentration of Bt endotoxin proteins in plants is very important in transgenic crop efficacy and risk assessment. In the present study, changes in levels of Cry1Ac protein in the leaves of transgenic Bt oilseed rape (Brassica napus) carrying a Bt cry1Ac gene under the control of the cauliflower mosaic virus 35S promoter were quantified during vegetative growth by enzyme‐linked immunosorbent assay. Plants were grown in a glasshouse, sampled at 2, 4, 5 and 6 weeks, and the concentration of Cry1Ac was quantified in basal, top and previous top leaves. The mean concentration differed between sowing dates when Cry1Ac concentration was expressed as ng g^?1 fresh leaf weight but not when expressed as ng mg^?1 total soluble protein. It was demonstrated that Cry1Ac concentration increased significantly as the leaf aged, while the total soluble plant protein decreased significantly. Levels of Cry1Ac were therefore higher in leaves at the base of the plants than in leaves close to the growing point. However, even young leaves with very low Cry1Ac concentrations caused high mortality in the larvae of a Cry1Ac‐susceptible laboratory strain of the diamondback moth. The feeding area of leaves consumed by larvae in vivo and in situ was similar. Leaf damage caused by sampling (i.e. artificially) or by feeding of larvae did not affect the levels of Cry1Ac in the leaves under the experimental conditions in this study.     

Enhanced expression of Arabidopsis rubisco small subunit gene promoter regulated Cry1Ac gene in chickpea conferred complete resistance to Helicoverpa armigera

A major pest of chickpea, Helicoverpa armigera, can be controlled by expressing genes from the bacterium Bacillus thuringiensis as an environmentally compatible option. Here we show that transgenic chickpeas containing a cry1Ac gene conferred a high degree of resistance to H. armigera. The Agrobacterium binary vector contained the nptII gene as the selectable marker and cry1Ac gene driven by the Arabidopsis rubisco small subunit gene (ats1A) promoter. We generated 54 and 47 independent transgenic lines using truncated (trcry1Ac) and full-length versions of the cry1Ac (flcry1Ac) gene, respectively. Of these lines, twelve transmitted the trcry1Ac transgene to the next generation at a 3:1 ratio, while only 8 flcry1Ac lines segregated in a 3:1 ratio. Five lines expressed trCry1Ac protein > 50 μg/g fresh weight, however, only one line accumulated about 30 μg/g flCry1Ac protein. Such high levels of trCry1Ac protein have not been reported before in chickpea. When trCry1Ac lines were challenged to whole plant bioassays in the greenhouse, lowest pod damage was observed in BS100B (1.4%) followed by BS81P (4.4%), and BS100E (6.2%) compared to the parental line (49.9%). The phenotypes of the lines expressing high levels of Cry1Ac protein were indistinguishable from their null segregants and controls. Thus, trCry1Ac lines could be suitable for crossing with our existing Cry2Aa lines for generation of a pyramided Bt chickpea for enhanced insect resistance management in the field.

     

Age-specific bioassays and fecundity of Phthorimaea operculella (Lepidoptera: Gelechiidae) reared on cry1Ac -transgenic potato plants

Variation in the susceptibility of lepidopterous pest larvae of different ages to transgenic crops and the potential for survivors to reproduce could have important consequences for the development of resistance in such pests. Experiments were undertaken in the laboratory to determine if larvae of the potato tuber moth, Phthorimaea operculella, of different ages (0 (< 1 day old), 3, 5, 7 days) varied in their susceptibility to cry1Ac9–transgenic potato (Solanum tuberosum) foliage grown in the glasshouse or field. The survival and fecundity of larvae reared on transgenic tubers was also determined in the laboratory. There were no apparent differences in susceptibility of larvae of different ages to transgenic foliage. Larvae fed glasshouse or field‐grown non‐transgenic foliage had significantly larger relative growth indices and more larvae pupated, than those fed transgenic foliage, regardless of larval age. Eggs from a laboratory colony were placed on transgenic or non‐transgenic tubers to measure survival and fecundity. Between 6% and 15% of eggs placed on transgenic tubers developed into pupae for three of the four transgenic potato lines tested. On one transgenic line, only six adults emerged from 1300 eggs. In contrast, between 71% and 97% of the eggs placed on non‐transgenic tubers developed into pupae. Male and female pupae from transgenic lines weighed less than those from non‐transgenic lines. The fecundity of females from two of four transgenic lines was lower than from the non‐transgenic parent cultivar. Although larvae of different ages did not exhibit any overall age‐dependent pattern of increasing or decreasing susceptibility to transgenic foliage of glasshouse or field‐grown plants, the ability of larvae to survive and reproduce on transgenic tubers suggests this pest has the ability to evolve resistance to the transgenic plants used in the present study.     

Expression of Bt cry1Ac in transgenic oilseed rape in China and transgenic performance of intraspecific hybrids against Helicoverpa armigera larvae

The expression of a synthetic Bacillus thuringiensis ( Bt ) cry1Ac gene in oilseed rape (OSR, Brassica napus ) was monitored under field conditions in China, and performance against Helicoverpa armigera larvae was compared in intraspecific hybrids with a Chinese OSR variety. Leaf samples from transgenic OSR were collected at various developmental stages in two separate field experiments. The Bt Cry1Ac concentrations in the third uppermost leaves increased before pod formation stage and either increased or decreased after pod formation stage whereas the total soluble protein increased before and decreased after pod-fill in the later growing season. Spontaneously formed intraspecific hybrids between transgenic OSR and a Chinese conventional OSR were obtained in the field and transgenic status was confirmed by a green fluorescent protein (GFP) phenotype and polymerase chain reaction. A bioassay on the neonate larvae of a susceptible strain of H.   armigera was performed to test the efficacy of Bt Cry1Ac toxin in hybrid OSR plants. Both the original transgenic OSR and hybrid plants had a negative effect on body-weight gain of insect larvae. It was assumed that Bt Cry1Ac toxin concentration was similar in hybrids compared to the original transgenic OSR at the investigated developmental stages. The frequency of hybrid production and volunteerism could potentially enhance the evolution of insect pest tolerance in the field.     

Species-specific differences in oak foliage affect preference and performance of gypsy moth caterpillars

Laboratory feeding experiments using two transgenic Bacillus thuringiensis (Bt) rape cultivars (Bt‐Westar and Bt‐Oscar) both expressing the Cry1Ac protein, and the corresponding untransformed lines, were carried out to study the effects of transgenic Bt rape on the non‐target herbivore Athalia rosae (L.) (Hymenoptera: Tenthredinidae). Furthermore, Cry1Ac protein concentration in Bt rape leaves, A. rosae larvae fed Bt rape, their faeces, eonymph instars, pupae, and adults were quantified using an enzyme‐linked immunosorbent assay (ELISA). There were no significant differences in mortality, larval development, and weight between transgenic Bt rape and non‐transgenic rape fed A. rosae. Additionally, we did not detect any significant differences in the fecundity and fertility of adult females either fed as larvae with transgenic Bt or with non‐transgenic rape. However, results of the ELISA indicated that Cry1Ac protein was detectable in larvae and faeces (Bt‐Westar 1.1 ± 0.2 and Bt‐Oscar 0.3 ± 0.2 µg Cry1Ac protein/g fresh weight) although this was less than in the leaf material, where concentrations were 2.2 ± 0.8 µg Cry1Ac protein/g fresh weight for Bt‐Westar and 7.5 ± 2.9 µg Cry1Ac protein/g fresh weight in Bt‐Oscar. In contrast, Cry1Ac protein could not be detected in eonymphs, pupae, or adults of A. rosae. Our results suggest that Cry1Ac protein in Bt rape does not have a significant effect on the herbivore A. rosae but the protein is still detectable after ingestion and excretion by these herbivores, thus providing the possibility of exposure to organisms other than herbivores.     

Development of stem borer resistant transgenic parental lines involved in the production of hybrid rice

Stem borer resistant transgenic parental lines, involved in hybrid rice, were produced by Agrobacterium-mediated gene transfer method. Two pSB111 super-binary vectors containing modified cry1Ab/cry1Ac genes driven by maize ubiquitin promoter, and herbicide resistance gene bar driven by cauliflower mosaic virus 35S promoter were, used in this study. Embryogenic calli after co-cultivation with Agrobacterium were selected on the medium containing phosphinothricin. Southern blot analyses of primary transformants revealed the stable integration of bar, cry1Ab and cry1Ac coding sequences into the genomes of three parental lines with a predominant single copy integration and without any rearrangement of T-DNA. T1 progeny plants disclosed a monogenic pattern (3:1) of transgene segregation as confirmed by molecular analyses. Furthermore, the co-segregation of bar and cry genes in T1 progenies suggested that the transgenes are integrated at a single site in the rice genome. In different primary transformants with alien inbuilt resistance, the levels of cry proteins varied between 0.03 and 0.13% of total soluble proteins. These transgenic lines expressing insecticidal proteins afforded substantial resistance against stem borers. This is the first report of its kind dealing with the introduction of Bacillus thuringiensis (Bt) cry genes into the elite parental lines involved in the development of hybrid rice.     

转Cry1Ac活性杀虫蛋白及慈菇蛋白酶抑制剂B基因的棉花

根据植物基因的结构特征,合成了CrylAc活性杀虫蛋白的编码序列并与内质网定位肽编码序列组成嵌合杀虫蛋白基因Bt29K.构建了含Bt29K基因及慈菇蛋白酶抑制剂B(API-B)基因表达框的双抗虫基因植物表达载体.通过根癌土壤杆菌(Agrobacteriumtumefaciens(Smith et Townsend)Conn LBA4404)介导转化了棉花(Gossypium hirsu-tun L.)的两个生产品种(系).根据抗棉铃虫(Heliothis armigera)试验及农艺性状的观察调查结果,经6代筛选,获得了抗棉铃虫90.0%～99.7%且农艺性状优良的9个双价抗虫棉纯合品系.分子生物学分析结果表明,两个抗虫基因在棉花基因组中的插入拷贝数为1个或2个.活性Cry1Ac和API-B蛋白在转基因抗虫棉株系中的表达量分别约占总可溶性蛋白的0.17%和0.09%.对双抗纯合系植株及仅转Bt基因的棉花纯合系抗虫性检测结果表明前者的抗虫性明显高于后者,因此推断本研究采用的双抗虫基因表达载体构建策略是合理的.     

Minor modifications to the cry1Ac9 nucleotide sequence are sufficient to generate transgenic plants resistant to Phthorimaea operculella

Minor modifications were made sequentially to the nucleotide sequence of truncated cry1Ac9 to produce cry1Ac9^A (one nucleotide change) and then cry1Ac9^B (seven nucleotide changes). The derivative genes under the control of the CaMV 35S promoter were transformed into Nicotiana tabacum in order to determine whether these modified genes conferred resistance on the resulting transgenic tobacco plants to larvae of the potato tuber moth (Phthorimaea operculella). Over two trials with PTM larvae on the transgenic plants expressing the cry 1Ac9^b gene, lower larval growth, development and survival was evident for most of the lines compared to the control plants. In the second trial, for four of these lines (7, 25, 26 and 28) larval growth rates were very low (0.28, 0.3, 0.42 and 0.28, respectively) compared to the control growth rate (4.18) and leaf damage was minimal. Northern analysis and RT‐PCR analysis showed that higher levels of cry 1Ac9 mRNA were present in the transgenic tobacco lines containing cry 1Ac9^b than in the tobacco lines containing cry 1Ac9^a. These results suggest that certain minor modifications to the nucleotide sequence of cry 1 Ac9 are sufficient to improve the stability of its mRNA when expressed in tobacco and that this increase in steady state mRNA is sufficient to confer significant resistance to PTM larvae.     

Resistance of potatoes transgenic for a cry1Ac9 gene, to Phthorimaea operculella (Lepidoptera: Gelechiidae) over field seasons and between plant organs

Stable performance of insect‐resistant transgenic plants across field seasons and between plant organs damaged by the insect pest is critical for management of this resistance in the field. To evaluate this, potato (Solanum tuberosum) lines transgenic for a cry1Ac9 gene with resistance to potato tuber moth (Phthorimaea operculella) were established in the field during the southern hemisphere summers of 1997/98, 1998/99 and 1999/00 as small field plots, each of 10 plants. Replicate plots of the non‐transgenic parent cultivars (at least one for every three independently derived transgenic lines) were planted randomly throughout the trials. Field‐grown foliage was challenged with larvae in the laboratory and a growth index (GI) was calculated for recovered larvae from each transgenic and non‐transgenic potato line. Larval growth on young and mature leaves, and on newly harvested or stored tubers was also measured in the laboratory. Foliage from the transgenic lines inhibited larval growth in all seasons tested. For both control and transgenic lines, larvae had slightly lower GIs when reared on mature leaves compared with young leaves, although the correlation between mean GI for young and mature transgenic leaves was high (r = 0.97). The correlation between the mean GIs of larvae on newly harvested tubers and on those stored for 5 months was also high (r = 1.0). However, the GIs of larvae on newly harvested transgenic tubers were larger than on transgenic tubers stored for 5 months. The relative growth indices (RGI = mean GI/number days before final weighing) of larvae reared on newly harvested tubers from transgenic lines were generally higher than those from young transgenic foliage, while the RGIs of larvae reared on non‐transgenic tubers were slightly lower than those fed non‐transgenic foliage. The correlation between mean RGIs of larvae fed tubers or foliage was 0.62. The transgenic potato lines exhibited stable resistance to larvae across field seasons, between affected plant organs, and between plant organs of different ages.     

转Cry1Ac活性杀虫蛋白及慈菇蛋白酶抑制剂B基因的棉花

根据植物基因的结构特征。合成了Cry1Ac活性杀虫蛋白的编码序列并与内质网定位肽编码序列组成嵌合杀虫蛋白基因Bt29K。构建了含Bt29K基因及慈菇蛋白酶抑制剂B（API-B）基因表达框的双抗虫基因植物表达载体。通过根癌土壤杆菌（Agrobacterium trmefaciens(Smith et TOwnsend)ConnLBA4404)介导转化了棉花（Gossypium hirsu-tunL.)的两个生产品种（系）。根据抗棉铃虫（Heliothis armigera)试验及农艺性状的观察调查结果。经6代筛选,获得了抗棉铃虫90.0%_99.7%且农艺性状优良的9个双价抗虫棉纯合品系。分子生物学分析结果表明,两个抗虫基因在棉花基因组中的插入拷贝数为1个或2个,活性Cry1Ac和API-B蛋白在转基因抗虫棉株系中的表达量分别约占总可溶性蛋白的0.17%和0.09%。对双抗纯合系植株及仅转Bt基因的棉花纯合系抗虫性检测结果表明前者的抗虫性明显高于后者,因此推断本研究采用的双抗虫基因表达载体构建策略是合理的。     

一株对苹果树鳞翅目害虫高毒力的苏云金芽胞杆菌YX-1

苏云金芽胞杆菌Bacillus thuringiensis(Bt)YX-1是从土壤中分离的对多种鳞翅目害虫具有杀虫活性的新菌株。为了探索该菌株在果树上应用的可行性,本研究测定了Bt YX-1菌株对苹果树上6种鳞翅目害虫的杀虫毒力,同时对该菌株的晶体形态特征、蛋白型、生长特性、基因型等进行了分析。结果表明,Bt YX-1菌株产生菱形伴胞晶体,SDS-PAGE分析表明该菌株表达的主要蛋白条带分子量约为130ku和60ku;基因型鉴定表明,Bt YX-1菌株含有cry1Ac、cry2Ac、cry1I、vip3Aa和cry34-35基因;生物活性测定表明,Bt YX-1菌株的孢晶混合物对美国白蛾Hlyphantria cunea、棉铃虫Helicoverpa armigera、斜纹夜蛾Prodenia litura、梨小食心虫Grapholitha molesta、苹小卷叶蛾Adoxophyes orana以及苹掌舟蛾Phalera flavescens的LC50分别为14.48、2.72×103、6.24×104、1.01×102、3.52×104、4.73×103mg/L,均低于标准菌株Bt HD-1的LC50。发酵上清液的杀虫活性很低,2龄棉铃虫幼虫的死亡率仅为8.33%,但是该上清液能显著提高孢晶混合物的毒力,说明上清液中含有增效物质。研究结果表明该菌株具有进一步开发为商品制剂的潜力。     

Evaluation of potato tuber moth (Lepidoptera: Gelechiidae) resistance in tubers of Bt-cry5 transgenic potato lines

The potato tuber moth, Phthorimaea operculella (Zeller), in tropical and subtropical countries, is the most destructive pest of potato, Solanum tuberosum L. The larvae attack foliage and tubers in the field and in storage. The purpose of this study was to evaluate the efficacy of a Bt-cry5 transgene to control the potato tuber moth in tuber tissues. Tuber bioassays using stored (11-12 mo old) and newly harvested tubers of Bt-cry5-Lemhi Russet and Bt-cry5-Atlantic potato lines showed up to 100% mortality of 1st instars. Mortality was lowest in the newly harvested tubers of Bt-cry5-Atlantic lines (47.1-67.6%). Potato tuber moth mortality was 100% in the Bt-cry5-Spunta lines that were transformed with Bt-cry5 gene controlled by the CaMV 35S promoter (pBIML5 vector) and in 2 of 3 lines transformed with Bt-cry5 gene controlled by the Gelvin super promoter (pBIML1 vector). The transgenic Spunta lines expressing Bt-cry5 controlled by the patatin promoter (pBMIL2 vector) showed the lowest tuber moth mortality (25.6 and 31.1%). The Bt-cry5 transgenic lines with high tuber expression of B. thuringiensis have value in an integrated pest management system to control potato tuber moth.