Development of insect-resistant transgenic indica rice with a synthetic cry1C* gene

Stemborers and leaffolders are two groups of lepidopteran pests that cause severe damage to rice in many areas of the world. In this study, a cry1C* gene encoding Bacillus thuringiensis (Bt) δ-endotoxin was synthesized by codon optimization as the first step towards gene stacking in our resistance management strategy of transgenic rice. Agrobacterium-mediated transformation of this gene into Minghui 63 (Oryza sativa L.), an elite indica CMS restorer line, produced 120 independently transformed plants, 19 of which had a single-copy transgene. Preliminary screening of T₁ families of these 19 transformants in the field identified five lines showing a high level of resistance to leaffolders (Cnaphalocrocis medinalis) and stemborers. Hybrids were produced by crossing these five lines with Zhenshan 97A, the male-sterile line for Shanyou 63, the most widely cultivated hybrid in China. These five lines and their hybrids were highly resistant to yellow stemborer (Tryporyza incertulas) as revealed by an insect bioassay. The content of Cry1C* protein varied considerably among the five lines as well as among the corresponding hybrids. T1c-19, a line showing the highest content of Cry1C* protein, and its hybrid were tested in the field for insect resistance and agronomic performance and found to be highly resistant to stemborers and leaffolders throughout the growth period, resulting in a significantly increased grain yield compared with the respective controls. These results indicate that T1c-19 can be used for production of insect-resistant hybrid rice and as a germplasm for gene stacking to produce rice plants with two toxins.     

Production of insect-resistant transgenic rice plants for use in practical agriculture

Plant biotechnology provides a powerful solution to boost agricultural productivity and nutritional quality. The development process of a transgenic crop includes multiple steps that consist of gene isolation for a target trait, generation of T₀ transgenic crops, characterization of the transgene, evaluation of agronomic performance of transgenic crops, selection of elite transgenic lines and assessment of target trait efficacy. Here, we developed elite insect-resistant transgenic rice plants that may satisfy the standards of biosafety assessments. We made a construct with the insecticide cry1Ac gene for a target trait. A total of 310 T₀ transgenic lines were generated and underwent extensive analysis. We selected four T₃ lines that contain a single-copy transgene inserted into intergenic regions of the rice genome. During this process, we critically analyzed the transgenic lines with five checkpoints that include single copy of transgene, its integration into intergenic region, clean T-DNA arrangement, stability of transgene through generations and substantial equivalence of transgenic plants in agronomic traits other than insect resistance. Consequently, we obtained insect-resistant transgenic rice plants that can be used in practical agriculture.     

Development of leaffolder resistant transgenic rice expressing <Emphasis Type="Italic">cry2AX1</Emphasis> gene driven by green tissue-specific <Emphasis Type="Italic">rbcS</Emphasis> promoter

The insecticidal cry genes of Bacillus thuringiensis (Bt) have been successfully used for development of insect resistant transgenic rice plants. In this study, a novel cry2AX1 gene consisting a sequence of cry2Aa and cry2Ac gene driven by rice rbcS promoter was introduced into a rice cultivar, ASD16. Among 27 putative rice transformants, 20 plants were found to be positive for cry2AX1 gene. The expression of Cry2AX1 protein in transgenic rice plants ranged from 5.95 to 122.40 ng/g of fresh leaf tissue. Stable integration of the transgene was confirmed in putative transformants of rice by Southern blot hybridization analysis. Insect bioassay on T₀ transgenic rice plants against rice leaffolder (Cnaphalocrosis medinalis) recorded larval mortality up to 83.33 %. Stable inheritance and expression of cry2AX1 gene in T₁ progenies was demonstrated using Southern and ELISA. The detached leaf bit bioassay with selected T₁ plants showed 83.33–90.00 % mortality against C. medinalis. The whole plant bioassay for T₁ plants with rice leaffolder showed significant level of resistance even at a lower level of Cry2AX1 expression varying from 131 to 158 ng/g fresh leaf tissue during tillering stage.     

Normal expression of insect-resistant transgene in progeny of common wild rice crossed with genetically modified rice: its implication in ecological biosafety assessment

Transgene outflow from genetically modified (GM) rice to its wild relatives may cause undesirable ecological consequences. Understanding the level of transgene expression in wild rice following gene flow is important for assessing such consequences, providing that transgene escape from GM rice cannot be prevented. To determine the expression of a transgene in common wild rice (Oryza rufipogon), we analyzed the content of Cry1Ac protein in three GM rice lines containing a Bt transgene, their F₁ hybrids with common wild rice and F₂ progeny at different growth stages, using the sandwich enzyme-linked immunosorbent assay. The average content of Cry1Ac protein in leaf samples of the wild rice lines ranged between 0.016 and 0.069% during the entire growth period, whereas that in stems varied between 0.12 and 0.39%. A great variation in Cry1Ac protein content was detected among individuals of F₁ hybrids and F₂ progeny, with some wild individuals showing higher level of Bt toxin than the cultivated GM rice. The results suggest that the Bt transgene can express normally in the interspecific hybrids between insect-resistant GM rice and common wild rice, and may have similar effects on the target insects as in GM rice.     

Comparison of three transgenic Bt rice lines for insecticidal protein expression and resistance against a target pest,Chilo suppressalis (Lepidoptera: Crambidae)

Two transgenic rice lines (T2A‐1 and T1C‐19b) expressing cry2A and cry1C genes, respectively, were developed in China, targeting lepidopteran pests including Chilo suppressalis (Walker) (Lepidoptera: Crambidae). The seasonal expression of Cry proteins in different tissues of the rice lines and their resistance to C. suppressalis were assessed in comparison to a Bt rice line expressing a cry1Ab/Ac fusion gene, Huahui 1, which has been granted a biosafety certificate. In general, levels of Cry proteins were T2A‐1 > Huahui 1 > T1C‐19b among rice lines, and leaf > stem > root among rice tissues. The expression patterns of Cry protein in the rice line plants were similar: higher level at early stages than at later stages with an exception that high Cry1C level in T1C‐19b stems at the maturing stage. The bioassay results revealed that the three transgenic rice lines exhibited significantly high resistance against C. suppressalis larvae throughout the rice growing season. According to Cry protein levels in rice tissues, the raw and corrected mortalities of C. suppressalis caused by each Bt rice line were the highest in the seedling and declined through the jointing stage with an exception for T1C‐19b providing an excellent performance at the maturing stage. By comparison, T1C‐19b exhibited more stable and greater resistance to C. suppressalis larvae than T2A‐1, being close to Huahui 1. The results suggest cry1C is an ideal Bt gene for plant transformation for lepidopteran pest control, and T1C‐19b is a promising Bt rice line for commercial use for tolerating lepidopteran rice pests.     

Field evaluation and risk assessment of transgenic indica basmati rice

We report the first field trial of different transgenic lines of Indica Basmati rice (B-370) expressing cry1Ac and cry2A genes. Different transgenic lines were grown under field conditions for two consecutive years, according to RCBD and Split Plot Design respectively. All the biosafety measures were taken into consideration. Sixty neonate larvae of yellow stem borer were artificially infested into each plant in three installments. Data was recorded in terms of dead hearts and white heads at vegetative and flowering stage respectively. Transgenic lines exhibited inherent ability to protect rice plants from target insects (p<0.01). Natural infestations of rice skipper and rice leaf folder were also observed and transgenic plants were statistically superior to their untransformed counterparts. Green house whole plant bioassays were done by infesting two 2^nd instar larvae of rice leaf folder per tiller. Transgenics were 96% more resistant than untransformed control plants. The presence of cry genes was observed with Dot blot, PCR and Southern blot analysis, while ELISA and Western blot analysis confirmed the expression of Cry proteins. All lines expressed higher level of Cry proteins when compared with commercially released cultivars of Bt cotton, maize and potato. It was also observed that although toxin titer substantially decreased with increasing age of the plants, it remained well within the limits to kill the target insects. Morphological studies showed significant variation for days to maturity, plant height and panicle length. Cooking qualities of seeds harvested from these lines were compared with the untransformed control. The transgenic lines had no effect on non-target insects (insects belonging to orders other than diptera and lepidoptera) and germination of three local varieties of wheat. Chances of gene spread were calculated at a level of 0.18% cross pollination in experimental lines.     

Inheritance and expression of the cry1Ab gene in Bt ( Bacillus thuringiensis) transgenic rice

The inheritance and expression patterns of the cry1Ab gene were studied in the progenies derived from different Bt (Bacillus thuringiensis) transgenic japonica rice lines under field conditions. Both Mendelian and distorted segregation ratios were observed in some selfed and crossed F₂ populations. Crosses between japonica intra-subspecies had no significant effect on the segregation ratios of the cry1Ab gene, but crossing between japonica and indica inter-subspecies led to distorted segregation of the cry1Ab gene in the F₂ population. Field-release experiments indicated that the cry1Ab gene was stably transmitted in an intact manner via successive sexual generations, and the concentration of the Cry1Ab protein was kept quantitatively stable up to the R₆ generation. The cry1Ab gene, driven by the maize ubiquitin promoter, displayed certain kinds of spatial and temporal expression patterns under field conditions. The content of the Cry1Ab protein varied in different tissues of the main stems, the primary tillers and the secondary tillers. Higher levels of the Cry1Ab protein were found in the stems, leaves and leaf sheaths than in the roots, while the lowest level was detected in grains at the maturation stage. The content of the Cry1Ab protein in the leaves peaked at the booting stage and was lowest at the heading stage. Furthermore, the Cry1Ab content of cry1Ab expression in different tissues of transgenic rice varied individually with temperature. Received: 17 April 2001 / Accepted: 7 May 2001     

转cry1Ab基因抗虫水稻的田间试验

采用农杆菌介导的遗传转化技术, 将Bt基因cry1Ab导入三系恢复系明恢63获得了一批抗虫性及农艺性状较好的转基因纯合株系。研究中, 进一步检测了这些纯合株系的拷贝数、Bt蛋白含量、抗虫性及主要农艺性状。结果显示: 5个转基因纯合株系均为单拷贝; 纯合株系T_1Ab-10及其杂种的Bt蛋白含量最高; 人工接虫和自然感虫试验中, T_1Ab-10对二化螟、三化螟和稻纵卷叶螟均表现高度抗性; 喷药试验中, 阳性植株与阴性植株、对照植株的主要农艺性状均没有显著差异。这说明转cry1Ab基因纯合株系T_1Ab-10具商品化潜力, 可作基因聚合材料。     

转修饰cry1Ac基因籼稻明恢81经花药培养获得抗虫DH系

对基因枪法获得的明恢81转修饰的cry1Ac基因当代植株进行花药培养,共接种花药2600枚,获得83份花培植株,其中双倍体植株43份,单倍体植株40份,PCR结果表明含有cry1Ac基因的植株55份,花培植株群体中转基因与非转基因植株的比值为2：1（55／28）,进一步结合Southern blot和ELISA分析,于花培植株当代筛选到转基因纯合株系36份,外源蛋白表达量上,花药来源于同一克隆的DH系的不同植株之间基本一致,最高的Cry1Ac含量达0．25％,田间抗虫性试验表明,经花药培养纯合获得的部分转基因纯合系植株对二化螟（chilo suppressalis)表现出高抗,而且主要农艺性状保持不变,以上结果表明水稻花药培养可以加速转基因的纯合与良种利用。     

Inheritance of gusA and neo genes in transgenic rice

Inheritance of foreign genes neo and gusA in rice (Oryza sativa L. cv. IR54 and Radon) has been investigated in three different primary (T₀) transformants and their progeny plants. T₀ plants were obtained by co-transforming protoplasts from two different rice suspension cultures with the neomycin phosphotransferase II gene [neo or aph (3) II] and the -glucuronidase gene (uidA or gusA) residing on separate chimeric plasmid constructs. The suspension cultures were derived from callus of immature embryos of indica variety IR54 and japonica variety Radon. One transgenic line of Radon (AR2) contained neo driven by the CaMV 35S promoter and gusA driven by the rice actin promoter. A second Radon line (R3) contained neo driven by the CaMV 35S promoter and gusA driven by a promoter of the rice tungro bacilliform virus. The third transgenic line, IR54-1, contained neo driven by the CaMV 35S promoter and gusA driven by the CaMV 35S.Inheritance of the transgenes in progeny of the transgenic rice was investigated by Southern blot analysis and enzyme assays. Southern blot analysis of genomic DNA showed that, regardless of copy numbers of the transgenes in the plant genome and the fact that the two transgenes resided on two different plasmids before transformation, the introduced gusA and neo genes were stably transmitted from one generation to another and co-inherited together in transgenic rice progeny plants derived from self-pollination. Analysis of GUS and NPT II activities in T₁ to T₂ plants provided evidence that inheritance of the gusA and neo genes was in a Mendelian fashion in one plant line (AR2), and in an irregular fashion in the two other plant lines (R3 and IR54-1). Homozygous progeny plants expressing the gusA and neo genes were obtained in the T₂ generation of AR2, but the homozygous state was not found in the other two lines of transgenic rice.     

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.     

Expression of multiple insecticidal genes confers broad resistance against a range of different rice pests

We report the simultaneous introduction of three insecticidal genes (the Bt genes cry1Ac and cry2A, and the snowdrop lectin gene gna) into commercially important indica rice varieties M7 and Basmati 370, by particle bombardment. Transgenic plants expressed Cry1Ac, Cry2A and GNA at different levels, either singly or in combination at 0.03–1%, 0.01–0.5% and 0.01–2.5% of total soluble protein, respectively. The transgenes showed stable transmission and expression, and R₁ transgenic plants provided significant (p<0.01) protection against three of the most important insect pests of rice: rice leaf folder (Cnaphalocrocis medinalis), yellow stemborer (Scirpophaga incertulas) and brown planthopper (Nilaparvata lugens). The triple transformants showed significantly (p<0.05) higher resistance to these insects than plants expressing single transgenes. Bioassays using the triple-transgenic plants showed 100% eradication of the rice leaf folder and yellow stem borer, and 25% reduction in the survival of the brown planthopper. The greatest reduction in insect survival, and the greatest reduction in plant damage, occurred in plants expressing all three transgenes. This approach maximises the utility of gene transfer technology to introduce combinations of genes whose products disrupt different biochemical or physiological processes in the same insect, providing a multi-mechanism defence.     

Molecular characterization of marker-free transgenic lines of <Emphasis Type="Italic">indica</Emphasis> rice that accumulate carotenoids in seed endosperm

A single Agrobacterium strain harbouring two binary plasmids was successfully used for the first time to develop a marker-free transgenic rice of improved nutritional value. Sixty-eight T₀ co-transformants were obtained in three indica rice cultivars—two popular high-yielding Bangladeshi varieties (BR28 and BR29), and one high-iron rice cultivar (IR68144). Marker-free lines were obtained from 14 out of 24 selected co-transformants screened in the T₁ generation. The accumulation of total carotenoids in polished T₂ rice seeds of the primary transgenic VPBR29-17-37 reached levels of up to 3.0 μg/g, with the level of β-carotene reaching 1.8 μg/g. In the cultivars BR28 and IR68144, total carotenoid levels in the transformants reached 2.0 μg/g of polished rice seeds. The levels of lutein and other carotenoids in the seeds were also significantly enhanced. T₁ plants obtained from primary transgenics with simple gene-integration patterns tended to have a lower carotenoid content than the original parental lines. This study describes the development of marker-free transgenic rice lines containing high levels of carotenoids, and addresses the relationship between the rearrangement of transgenes and the presence of metabolic end products in transgenic rice.     

Transgenic rice as a system to study the stability of transgene expression: multiple heterologous transgenes show similar behaviour in diverse genetic backgrounds

The success of contemporary breeding programmes involving genetic engineering depends on the stability of transgene expression over many generations. We studied the stability of transgene expression in 40 independent rice plant lines representing 11 diverse cultivated varieties. Each line contained three or four different transgenes delivered by particle bombardment, either by cotransformation or in the form of a cointegrate vector. Approximately 75% of the lines (29/40) demonstrated Mendelian inheritance of all transgenes, suggesting integration at a single locus. We found that levels of transgene expression varied among different lines, but primary transformants showing high-level expression of the gna, gusA, hpt and bar transgenes faithfully transmitted these traits to progeny. Furthermore, we found that cry1Ac and cry2A transgene expression was stably inherited when primary transformants showed moderate or low-level expression. Our results show that six transgenes (three markers and three insect-resistance genes) were stably expressed over four generations of transgenic rice plants. We showed that transgene expression was stable in lines of all the rice genotypes we analysed. Our data represent a step forward in the transfer of rice genetic engineering technology from model varieties to elite breeding lines grown in different parts of the world. Received: 22 March 1999 / Accepted: 6 December 1999     

Establishment of homozygous transgenic rice lines after elimination of unlinked albino traits from transgenic events through segregation

In an analysis of 339 independent T ₀ transgenic rice lines generated by Agrobacterium-mediated transformation, albino plants appeared in the T ₁ generation in two single-copy transgenic lines, O54 and O36 and in one double-copy transgenic line, C18. While the T ₀ plants of these three lines were green, albino and green plants emerged in a 1:3 ratio in the T ₁ generation. The albino phenotype segregated as a monogenic recessive trait. Southern blot analysis of the green and albino plants in the T ₁ generation confirmed that the albino trait and the T-DNA insertion events were unlinked. Segregation of the albino trait from the transgenic trait in the lines O54 and O36 was confirmed in T ₂ and T ₃ generations, respectively. Homozygous transgenic plants free from the albino trait were also identified. In the double-copy transgenic line C18, we genetically separated the two transgenic loci, out-segregated the albino locus from both transgene loci, and identified homozygous plants for each of the transgenic events by Southern blot analysis in the T ₁ generation itself. Thus, we demonstrate that when an albino trait appears in the T ₁ generation and is unlinked to a transgene locus, the albino locus can be segregated from the transgene locus and homozygous transgenic lines free from albinos can be established.     

Heat-tolerant basmati rice engineered by over-expression of hsp101

Rice is sensitive to high-temperature stress at almost all the stages of its growth and development. Considering the crucial role of heat shock protein 101 (Hsp101) in imparting thermotolerance to cells, we introduced Arabidopsis thaliana hsp101 (Athsp101) cDNA into the Pusa basmati 1 cultivar of rice (Oryza sativa L.) by Agrobacterium-mediated transformation. Stable integration and expression of the transgene into the rice genome was demonstrated by Southern, northern and western blot analyses. There appeared no adverse effect of over-expression of the transgene on overall growth and development of transformants. The genetic analysis of tested T₁ lines showed that the transgene segregated in a Mendelian fashion. We compared the survival of T₂ transgenic lines after exposure to different levels of high-temperature stress with the untransformed control plants. The transgenic rice lines showed significantly better growth performance in the recovery phase following the stress. This thermotolerance advantage appeared to be solely due to over-expression of Hsp101 as neither the expression of low-molecular-weight heat shock proteins (HSPs) nor of other members of Clp family proteins was altered in the transgenic rice. The production of high temperature tolerant transgenic rice cultivars would provide a stability advantage under supra-optimal temperature regime thereby improving its overall performance.     

Transgenic insect-resistant maintainer line (IR68899B) for improvement of hybrid rice

Heterosis has helped to increase rice yield in F₁ hybrids by 15–20% beyond the level of inbred semidwarf varieties. For stable yield performance rice hybrids must also possess genetic resistance to biotic stresses. One of these, stem borer, reduces the expected yield of hybrid rice. The truncated synthetic cryIA(b) gene from Bacillus thuringiensis is known to be effective in controlling stem borer. The development of transformation techniques has provided the technology for incorporating this bacterial gene into the rice genome, which has not been possible by conventional breeding methods. We have introduced a new approach of using a transgenic maintainer line for developing an insect-resistant hybrid rice. An elite IRRI maintainer line (IR68899B) has been transformed with the cryIA(b) gene driven by the 35S constitutive promoter using the biolistic method. The integration and expression of the cryIA(b) gene could be demonstrated through Southern and Western blot analyses that have been carried out so far up to the T₂ generations. Insect bioassay data showed an enhanced resistance to yellow stem borer in the Bt ⁺ transgenic plants. This is the first report of the development of a transgenic maintainer line for use in hybrid rice improvement. Received: 17 December 1997 / Revision received: 23 June 1998 / Accepted: 25 September 1998     

Transcriptional silencing and developmental reactivation of cry1Ab gene in transgenic rice

One transgenic rice line lacking Cry1Ab expression product was screened in the progenies of Agrobacterium-transformed transgenic rice variety Zhong 8215 with a cry1Ab gene under field releasing conditions by using GUS histochemical assay and Western blot. Molecular hybridization results revealed that the cry1Ab gene was silenced in the transgenic rice variety Zhong 8215 and two copies of ubiquitin promoter were integrated into the rice genome. The silencing of cry1Ab gene in transgenic rice was found to be due to the methylation of the ubiquitin promoter as revealed by methylation analysis. Meanwhile, different concentrations of demethylation reagent 5-azacytidine combining with different treatment time were employed to treat the silenced transgenic rice seeds. The results indicated that 5-azacytidine could reactivate 8%–30% of the silenced transgenic rice plants and the expression level of the reactivated cry1Ab transgene could reach as high as 0.147% of the total soluble protein. Treatment with low concentration of 5-azacytidine (45 mg/L for 1 d and 2 d) could lead to the highest reactivation ratio and the highest expression level of the cry1Ab gene.