A minimal DNA cassette as a vector for genetic transformation of soybean (Glycine max)

Currently, the market demands products committed to protecting human health and the environment, known as clean products. We developed a protocol using DNA fragments containing only the gene sequence of interest, to replace the circular vectors containing genes for antibiotic resistance and other undesirable sequences, for obtaining transgenic soybeans for microparticle bombardment. Vector pAC321 was digested with the restriction enzyme PvuII to produce the 6159 bp ahas fragment, which contains the mutated ahas gene from Arabidopsis thaliana (Brassicaceae), under the control of its own promoter and terminator. This gene confers resistance against imazapyr, a herbicidal molecule of the imidazolinone class, capable of systemically translocating and concentrating in the apical meristematic region of the plant, the same region used for the introduction of the transgenes. This fragment was used to generate 10 putative transgenic soybean lines.     

Molecular and cellular evidence of chimaeric tissues in primary transgenics and elimination of chimaerism through improved selection protocols

Transgenic plants of strawberry cultivar Totem were developed by Agrobacterium-mediated transformation using a plasmid vector containing gus and nptII genes. Parallel experiments were carried out with and without repeated subculturing (iterative cultures) for generation of transgenic shoots on selection medium. The selection levels in the non-iterative pathway were kept constant, while in the iterative protocol, stepwise increase of selection pressure was applied at different stages of tissue growth. Rooted transgenic plants obtained via both protocols were outplanted in soil. Random leaf samples of greenhouse-grown transgenics were analysed for the presence of gus gene sequences by Southern hybridization as well as gus expression on leaf and petiole tissues by X-Gluc histological assay. Random leaf samples analysed from individual transgenic events developed under iterative culture were positive for the gus insert as verified by Southern analysis confirming the presence of transgenes and lack of chimaeras. Leaf samples of the transgenic events from the non-iterative protocol were either positive or negative on Southern analysis indicating the chimaeric nature of the transgenic plants. The absence of gus sequences in the transgenic plants grown under the non-iterative protocol reinforced the necessity of iterative cultures along with stepwise increase in selection levels for generating non-chimaeric transgenics in strawberry. The gus expression was highly variable, irrespective of the iterative or non-iterative protocol used for transformation. We conclude that strawberry is highly prone to develop chimaeric transgenics if derived from primary regenerants and that the iterative culture technique effectively converts chimaeras to pure line transgenic plants     

采用玉米Ubi-1启动子获得低拷贝转基因玉米植株

通过基因枪粒子轰击和草丁膦（PPT）选择获得可育的玉米转基因植株,并分析了外源基因在转化体中的拷贝数与启动子之间的关系。用玉米Ubi-1启动子驱动外源基因,玉米转化体中外源基因的拷贝数较低;可能的原因为Ubi-1启动子通过与其内部同源序列发生重组而被定点整合进玉米基因组,共转化的两种质粒DNA在整合至玉米染色体DNA之前已重构成为一个整体。结果显示使用某一植物自身基因的启动子可以降低外源基因在该物种转基因个体中的拷贝数,进而避免基因沉默现象的发生。目前已得到第二代转基因玉米种子。     

Inheritance of transgenes in transgenic tall fescue (<Emphasis Type="Italic">Festuca arundinacea</Emphasis> schreb.)

Summary Tall fescue (Festuca arundinacea Schreb.) is the most important forage species worldwide of the Festuca genus. Single genotype-derived embryogenic suspension cultures were established from tall fescue cultivar Kentucky-31, and were used as target cells for biolistic transformation. A chimeric hygromycin phosphotransferase gene (hph) was used as the selectable marker, and a chimeric β-glucuronidase (gusA) gene was co-transformed with hph. Transgenic plants were recovered after microprojectile bombardment of suspension cells and subsequent selection in the presence of a high concentration of hygromycin. Fertile transgenic plants were obtained after vernalization under field conditions. T1 and T2 progenies were obtained after reciprocal crosses between transgenic and untransformed control plants. PCR and Southern hybridization analyses revealed a 1∶1 segregation ratio for both transgenes in the T1 and T2 generations. Southern hybridization patterns were identical for T0, T1, and T2 plants. The results demonstrated for the first time the stable meiotic transmission of transgenes following Mendelian rules in transgenic tall fescue.     

抗除草剂转基因大豆后代遗传分析

分析了来源于农杆菌介导的4个独立的大豆转化系的后代遗传特性。分别采用种子切片GUS染色方法和除草剂涂抹以及喷洒方法检测gus报告基因和抗除草剂bar基因在后代的表达。其中3个转化系T1代gus基因和bar基因能够以孟德尔方式3：1连锁遗传,说明这2个基因整合在大豆基因组的同一位点。这3个转化系在T2代获得了纯合的转化系,并能够稳定遗传至T5代。有一个转化系在T1代GUS和抗除草剂检测都为阴性,但通过Southern杂交证明转基因存在于后代基因组,显示发生了转基因沉默。为了证明转基因沉默是转录水平还是转录后水平,T1代植物叶片接种大豆花叶病毒（SMV）并不能抑制转基因沉默,说明该转化系基因沉默可能不是发生在转录后水平。     

Agrobacterium-Mediated Multiple Gene Transformation in Rice Using a Single Vector

The homodimeric hemoglobin gene (VHb), the trans-zeatin synthetase gene (tzs), the modified 5-enolpyruvylshikimate-3-phosphate synthase gene (EPSPS), a selectable marker gene (hpt), and a reporter gene (gus), as linked expression cassettes, were stacked into the T-DNA region of a binary vector and introduced simultaneously into immature embryos of the rice (Oryza sativa L.) varieties Xiushui-11, Qiufeng,Youfeng, and Hanfeng by Agrobacterium tumefaciens. A total of 1 153 transgenic lines was obtained through selection for hygromycin B resistance. Approximately 90.2% of the transgenic lines harbored all the transgenes. Integration of multiple transgenes occurred at one to three genetic loci. Expression analysis revealed that the transgenes were coexpressed and inherited in a simple Mendelian fashion in transgenic plants and the frequency of coexpression was approximately 85%. On the basis of the cointegration and coexpression of the transgenes, most transgenic families were considered to be useful in a breeding program.     

Agrobacterium-Mediated Multiple Gene Transformation in Rice Using a Single Vector

The homodimeric hemoglobin gene (VHb), the trans-zeatin synthetase gene (tzs), the modified 5-enolpyruvylshikimate-3-phosphate synthase gene (EPSPS), a selectable marker gene (hpt), and a reporter gene (gus), as linked expression cassettes, were stacked into the T-DNA region of a binary vector and introduced simultaneously into immature embryos of the rice (Oryza sativa L.) varieties Xiushui-11, Qiufeng,Youfeng, and Hanfeng by Agrobacterium tumefaciens. A total of 1 153 transgenic lines was obtained through selection for hygromycin B resistance. Approximately 90.2% of the transgenic lines harbored all the transgenes. Integration of multiple transgenes occurred at one to three genetic loci. Expression analysis revealed that the transgenes were coexpressed and inherited in a simple Mendelian fashion in transgenic plants and the frequency of coexpression was approximately 85%. On the basis of the cointegration and coexpression of the transgenes, most transgenic families were considered to be useful in a breeding program.     

Inheritance of a recessive transgene-associated character controlling albinism in transgenic bean (Phaseolus vulgaris L.)

We identified a transgenic line exhibiting albinism during our work to introduce genes through genetic engineering in dry bean (Phaseolus vulgaris). The transgenic mother plant (R0) presented a normal phenotype and generated albino and normal green plants in the first generation (R1). The segregation ratio of the albino character in the R1 and R2 generations fitted the expected ratio for a character controlled by a single recessive gene linked to a foreign gus gene, suggesting that albinism could be a consequence of insertional mutation caused by introduction of the exogenous gene. Analysis by electron microscope revealed that the albino cells possessed no chloroplasts and a greater number of mitochondria when compared to normal green plants. This transgenic bean line may be used in understanding the genetic control of chloroplast genesis, for acquiring additional knowledge of genomic structure or in physiological studies. This is the first described transgene-associated mutant bean plant.     

Transgene behaviour across two generations in a large random population of transgenic rice plants produced by particle bombardment

The relationship between transgene copy number, rearrangement levels, inheritance patterns, expression levels, transgene stability and plant fertility was analysed in a random population of 95 independently transformed rice plant lines. This analysis has been conducted for both the selectable marker gene ( aphIV) and the unselected reporter gene ( gusA), in the presence or absence of flanking Matrix Attachment Regions (MARs) in order to develop a better understanding of transgene behaviour in a population of transgenic rice plants created by particle bombardment. In the first generation (T(0)), all the independently transformed plant lines contained and expressed the aphIV gene conferring resistance to hygromycin, but only 87% of the lines were co-transformed with the unselected gusA marker gene. Both transgenes seemed to be expressed independently. Most lines exhibited complex transgene rearrangements as well as an intact transgene expression unit for both aphIV and gusA transgenes. Transgene copy number was proportional to the quantity of DNA used during bombardment. In T(0) plants, high gusA copy number significantly decreased GUS expression levels but there was no correlation between expression level and transgene copy number across the entire population of lines. Four main factors impaired transgene expression in primary transgenic plants (T(0)) and their progeny (T(1)): (1) absence of transgene expression in T(0) plants (41% of lines), (2) sterility of T(0) plants (28% of lines), (3) non-transmission of intact transgenes to some or all progenies (at least 14% of lines), and (4) silencing of transgene expression in progeny plants (10% of lines). Transgene stability was significantly related to differences in transgene structure and expression levels. The presence of Rb7 MARs flanking the gusA expression unit had no effect on plant fertility or non-transmission of transgenes, but provided copy number-dependent expression of the transgene and improved expression levels and stability over two generations. Overall, only 7% of the plant lines without MARs and 17% of the lines with MARs initially generated, exhibited stable transgene expression over two generations.     

Obtaining of transgenic French bean plants (Phaseolus vulgaris L.) resistant to the herbicide pursuit by Agrobacterium-mediated transformation

The transgenic plants of French bean (Phaseolus vulgaris) resistant herbicide Pursuit and kanamycin have been obtained. The genetic transformation was carried out with Agrobacterium tumefaciens strain LBA4404 containing binary vector carrying mutant ahas/als and selective nptII genes. Integration of the transgenes into plant genome was confirmed by polymerase chain reaction.     

Isolation of soybean plants with stable transgene expression by visual selection based on green fluorescent protein

Particle bombardment is a common platform for soybean transformation but tends to cause transgene silencing due to the integration of rearranged or multiple copies of transgenes. We now describe the isolation of a total of 44 independent transgenic soybean plants after transformation by particle bombardment with one of two gene constructs, pHV and pHVS. Both constructs contain the hygromycin phosphotransferase gene (hpt) as a selectable marker and a modified glycinin gene (V3-1) for evaluation of homology-dependent silencing of endogenous glycinin genes; pHVS also contains sGFP(S65T), which encodes a modified form of green fluorescent protein (GFP), as a reporter gene in the flanking region of V3-1. Fluorescence microscopy revealed that the leaves of 8 of the 25 independent transgenic plants obtained with pHVS expressed GFP; most of these GFP-positive plants also contained V3-1 mRNA and an increased glycinin content in their seeds, and they exhibited simple banding patterns on Southern blots that were indicative of a low copy number of each of the three transgenes. In contrast, most of the transgenic plants obtained with pHVS that did not express GFP, as well as most of those obtained with pHV, lacked endogenous glycinin in their seeds and exhibited more complex patterns of transgene integration. The use of a reporter gene such as sGFP(S65T) in addition to an antibiotic resistance gene may thus help to reduce the problem of gene silencing associated with direct DNA transformation systems and facilitate the recovery of transgenic plants that stably express the gene of interest.     

玉米Ubi－1启动子在可育转基因玉米植株中的表达活性

本工作将玉米泛素基因－1启动子（Ubi-1)与大肠杆菌β－葡萄糖苷酸酶基因（gus,uidA)的编码区融合,通过基因枪粒子轰击方法转化来自水成熟胚盾片组织的I－型愈伤组织,经PPT选择获得可育的玉米转基因植株,并采用组织化学方法分析了Ubi-1启动子驱动的gus基因在不同组织,细胞中的表达活性,发现gus基因在除花药壁以外的其它所试组织中均可以有效表达。Ubi：GUS在花粉,卵细胞中T1代转基因植株未成熟胚中的表达显示该启动子在植株发育的早期阶段即具有活性。对T0代转基因植株的花粉进行GUS组织化学染色,gus基因呈1：1分离,显示外源基因在转基因植株中以孟德尔方式遗传。同时发现,使用玉米本身的启动子Ubi-1可以降低外源基因在转基因玉米中的拷贝数,进而避免基因沉默现象的发生。目前已得到第二代转基因种子。     

Competence of oat ( Avena sativa L.) shoot apical meristems for integrative transformation,inherited expression,and osmotic tolerance of transgenic lines containing hva1

Three oat ( Avena sativa L.) cultivars have been successfully transformed using an efficient and reproducible in vitro culture system for differentiation of multiple shoots from shoot apical meristems. The transformation was performed using microprojectile bombardment with two plasmids (pBY520 and pAct1-D) containing linked ( hva1-bar) and non-linked ( gus) genes. The hva1 and bar genes cointegrated with a frequency of 100% as expected, and 61.6% of the transgenic plants carried all three genes. Molecular and biochemical analyses in R0, R1 and R2 progenies confirmed stable integration and expression of all transgenes. Localization of the GUS protein in R0 and R1 plants revealed that high-expression of gus occurred in vascular tissues and in the pollen grains of mature flowers. The constitutive expression of HVA1 protein was observed at all developmental stages of transgenic plants, and was particularly stronger during the early seedling stages. R2 progeny of five independent transgenic lines was tested in vitro for tolerance to osmotic (salt and mannitol) stresses. As compared to non-transgenic control plants, transgenic plants maintained a higher growth and showed significantly ( P < 0.05) increased tolerance to stress conditions. Less than 10% of transgenic plants showed symptoms of wilting or death of leaves and, when these symptoms present were delayed in transgenic plants as compared to 80% of non-transgenic plants, either wilted or died. These symptoms confirmed the increased in vitro tolerance in hva1-expressing transgenic plants to non-transgenic plants, providing strong evidence that the HVA1 protein may play an important role in the protection of oats against salinity and possible water-deficiency stress conditions.     

Production of transgenic pea (Pisum sativum L.) plants resistant to the herbicide pursuit

Transgenic pea (Pisum sativum L.) plants containing mutant ahas/als gene were obtained using Agrobacterium-mediated genetic transformation. Transformation has been carried out using cocultivation of pea explants with Agrobacterium tumefaciens strain lBA4404 carrying genetic vectors pCB004, pCB006 and pCB007 containing ahas/als and nptII genes. The presence of transferred genes in the genomes of transgenic plants has been confirmed by PCR analysis.     

Regeneration of transgenic citrus plants under non selective conditions results in high-frequency recovery of plants with silenced transgenes

Insertion of foreign DNA into plant genomes frequently results in the recovery of transgenic plants with silenced transgenes. To investigate to what extent regeneration under selective conditions limits the recovery of transgenic plants showing gene silencing in woody species, Mexican lime [ Citrus aurantifolia (Christm.) Swing.] plants were transformed with the p25 coat protein gene of Citrus tristeza virus (CTV) with or without selection for nptII and uidA. Strikingly, more than 30% of the transgenic limes regenerated under non-selective conditions had silenced transgenes, and in all cases silencing affected all the three transgenes incorporated. These results indicate that the frequency of transgene silencing may be greatly underestimated when the rate of silencing is estimated from the number of regenerants obtained under selective conditions. To our knowledge, this is the first report in which the frequency of gene silencing after transformation has been quantified. When the integration pattern of T-DNA was analyzed in silenced and non-silenced lines, it was observed that inverted repeats as well as direct repeats and even single integrations were able to trigger gene silencing. Gene silencing has often been associated with the insertion of DNA sequences as inverted repeats. Interestingly, here, direct repeats and single-copy insertions were found in both silenced and non-silenced lines, suggesting that the presence of inverted-repeat T-DNAs and the subsequent formation of dsRNAs triggering gene silencing cannot account for all silencing events.     

Transformation of Plants with Multiple Cassettes Generates Simple Transgene Integration Patterns and High Expression Levels

We transformed rice (Oryza sativa L.) simultaneously with five minimal cassettes, each containing a promoter, coding region and polyadenylation site but no vector backbone. We found that multi-transgene cotransformation was achieved with high efficiency using multiple cassettes, with all transgenic plants we generated containing at least two transgenes and 16% containing all five. About 75% of the plants had simple transgene integration patterns with a predominance of single-copy insertions. The expression levels for all transgenes, and the overall coexpression frequencies, were much higher than previously reported in whole plasmid transformants. Four of five lines analyzed for transgene expression stability in subsequent generations showed stable and high expression levels over generations. A simple model is proposed, which accounts for differences in the molecular make-up and the expression profile of transgenic plants generated using whole plasmid or minimal cassettes. We conclude that gene transfer using minimal cassettes is an efficient and rapid method for the production of transgenic plants containing and stably expressing several different transgenes. Our results facilitate effective manipulation of multi-gene pathways in plants in a single transformation step.