Optimization of the protocol for constructing transgenic plants of the cabbage Brassica oleracea var. capitata

The strain Agrobacterium tumefaciens GV3101, which contains the pBar vector carrying the phosphinothricin acetyltransferase gene (bar) under the control of the 35SCMoV promoter and NOS 3′ terminator, was used for genetic transformation of four cabbage lines, Ges-3, Drv-2, Zmu 7, and Meg 2. The effect of different concentrations and combinations of phytohormones was studied, which allowed for choosing the cultivation conditions that provided a 63–87% regeneration efficiency. It was demonstrated that concerted action by natural and synthetic cytokinins is necessary for the lines studied. Overall, 26 transgenic plants were obtained using the optimized protocol for agrobacterial transformation. The transgenic nature of these plants was confirmed by PCR and dot-blot hybridization.     

Transgenic Agrostis mongolica Roshev. with enhanced tolerance to drought and heat stresses obtained from Agrobacterium-mediated transformation

Efficient procedures for regeneration and Agrobacterium-mediated transformation were established for Agrostis mongolica Roshev. and generated transgenic plants tolerant to drought and heat stresses using a regulatory gene from Arabidopsis, ABF3, which controls the ABA-dependent adaptive responses. The identification and selection of regenerable and reproducible callus type was a key factor for successful transformation. The transformation efficiency was 49.2% and gfp expression was detected in hygromycin-resistant calli and stem of putative transgenic plants. The result of Southern blot analysis showed that the ABF3 transgene was stably integrated into the genome of transgenic plants. Of the five transgenic lines analyzed, single transgene integration was observed in two lines and two copy integration was observed in three transgenic lines. Northern blot analysis confirmed that ubi::ABF3 was expressed in all transgenic lines. Transgenic plants exhibited neither growth inhibition nor visible vegetative phenotypic alternations. However, both transgenic and wild-type plants were highly sterile and did not flower during 3 years of growth period in the open field under subtropical Jeju Island climate. The stomata of the transgenic plants opened less than did stomata of the wild-type plants, and water content of the transgenic leaves remained about 3–4 fold higher than observed for wild-type leaves under drought stress. The transgenic plants showed about 2 fold higher survival rates under drought stress and about 3 fold higher survival rates under heat stress when compared to wild-type plants. Thus, overexpression of the Arabidopsis ABF3 gene results in enhancement of both drought and heat stress tolerance in Agrostis mongolica Roshev.     

过量表达腺苷甲硫氨酸合成酶基因能提高转基因烟草中多聚胺的生物合成

以土壤农杆菌介导的转化方法将盐地碱蓬的腺苷甲硫氨酸合成酶cDNA（SsSAMS2）转化到烟草K326中。PCR分析的结果表明,SsSAMS2整合进K326的基因组内。共筛选到8个转基因纯合品系,分析其中3个品系（ST8．9、ST14—2、ST3．5）基因表达和多聚胺含量的结果表明,SsSAMS2可在转基因烟草中表达,转基因烟草中的多聚胺含量明显高于野生型烟草。这些结果表明,腺苷甲硫氨酸合成酶基因已在转基因烟草中过量表达并导致多聚胺含量提高。     

OsBTF3过表达转基因水稻株系的创制及其分子鉴定

本研究旨在创制OsBTF3过表达转基因水稻株系,为验证OsBTF3基因在水稻抗性和生长发育中的功能、评价其在水稻农艺性状遗传改良中的应用价值提供试验材料。通过基因过表达载体构建、水稻愈伤组织诱导、农杆菌介导愈伤组织转化、植株再生、潮霉素抗性(Hyg^R)筛选及PCR验证、基因过表达RT-Q-PCR检测等方法,成功地获得了97个T₀代和20个T₁代过表达转基因株系,并分别得到分子验证。与野生型对照株相比,5个T₁代过表达株系中的OsBTF3基因表达水平显著提高,平均高达3.58倍。因此,由组成型表达的35S启动子驱动的OsBTF3基因在转基因水稻株系中成功地得到了增量表达,并对水稻生长发育、抗病性和抗逆性具有调控作用。     

The ploidy level of transgenic plants in <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of tomato cotyledons (<Emphasis Type="Italic">Lycopersicon esculentum</Emphasis> L.Mill.) is genotype and procedure dependent

A protocol avoiding the feeder-layer cell system was optimized for Agrobacterium-mediated transformation of tomato cotyledonary explants. Over 500 transgenic plants from five tomato cultivars were regenerated in 15 independent experiments. Depending on both genotype and procedure, transformation frequencies ranged from 1.8% to 11.3%. The optimal transformation rate was obtained by inoculating explants with a bacterial suspension in exponential growth ( D(600) = 10(2)-10(3) cells/ml) and transferring cotyledon explants to fresh selective regeneration medium every 3 weeks. The ploidy level of both tomato genotypes used as explant source and primary transformants, was studied by flow cytometry. The inbred lines and cultivars were diploid but a polysomatic pattern in the cotyledon explant was confirmed. The rate of tetraploid transgenic plants ranged from 24.5% to 80% and depended on both the genotype and the transformation procedure. Surprisingly, the percentages of transformed plants with higher ploidy levels were not related to the proportion of 4C and 8C nuclei in the cotyledonary tissue. For some genotypes the optimisation of the transformation rate resulted in an increase of tetraploid transgenic plants. Results obtained in this work indicate the convenience of checking the ploidy level of the primary transformants before performing basic studies or introducing tomato transgenic material in a breeding program.     

Comparative analysis of transgenic rice plants obtained by Agrobacterium-mediated transformation and particle bombardment

We compared rice transgenic plants obtained by Agrobacterium-mediated and particle bombardment transformation by carrying out molecular analyses of the T₀, T₁ and T₂ transgenic plants. Oryza sativa japonica rice (c.v. Taipei 309) was transformed with a construct (pWNHG) that carried genes coding for neomycin phosphotransferase (nptII), hygromycin phosphotransferase (Hyg^r), and -glucuronidase (GUS). Thirteen and fourteen transgenic lines produced via either method were selected and subjected to molecular analysis. Based on our data, we could draw the following conclusions. Average gene copy numbers of the three transgenes were 1.8 and 2.7 for transgenic plants obtained by Agrobacterium and by particle bombardment, respectively. The percentage of transgenic plants containing intact copies of foreign genes, especially non-selection genes, was higher for Agrobacterium-mediated transformation. GUS gene expression level in transgenic plants obtained from Agrobacterium-mediated transformation was more stable overall the transgenic plant lines obtained by particle bombardment. Most of the transgenic plants obtained from the two transformation systems gave a Mendelian segregation pattern of foreign genes in T₁ and T₂ generations. Co-segregation was observed for lines obtained from particle bombardment, however, that was not always the case for T₁ lines obtained from Agrobacterium-mediated transformation. Fertility of transgenic plants obtained from Agrobacterium-mediated transformation was better. In summary, the Agrobacterium-mediated transformation is a good system to obtain transgenic plants with lower copy number, intact foreign gene and stable gene expression, while particle bombardment is a high efficiency system to produce large number of transgenic plants with a wide range of gene expression.     

Improvement of freezing tolerance in transgenic tobacco leaves by expressing the hiC6 gene

A cryoprotective protein, HIC6, was expressed transgenically in tobacco, a cold-sensitive plant, and the localization of the protein within the cell as well as freezing tolerance of the transgenic tobacco was investigated. For constitutive expression of HIC6 in tobacco, its corresponding gene was subcloned into pBI121. Through the transformation with pBI121/hiC6, fifteen transgenic tobacco lines were acquired, out of which twelve lines expressed the HIC6 protein. None of the transgenic tobacco lines, however, showed significant differences in freezing tolerance from the control plants (wild-type and transformed with pBI121) at -1, -3, and -4 degrees C, with the exception that their freezing temperature was -2 degrees C. In order to increase the accumulation level of HIC6, pBE2113 with a stronger promoter was used. Eight lines expressed the protein out of thirteen lines transformed with pBE2113/hiC6. The accumulation levels of the protein were clearly higher in the tobacco plants transformed with pBE2113/hiC6 than in those with pBI121/hiC6. The HIC6 protein seemed to be localized in mitochondria of the transgenic tobacco plants. Freezing-tolerance tests at -1 - -4 degrees C showed that the degree of electrolyte leakage was significantly lower in the plants with pBE2113/hiC6 than in the control plants. A leaf browning observation also showed that high accumulation of HIC6 significantly suppressed injury caused by freezing to the transgenic tobacco at -3 degrees C.     

Improvement of Freezing Tolerance in Transgenic Tobacco Leaves by Expressing the hiC6 Gene

A cryoprotective protein, HIC6, was expressed transgenically in tobacco, a cold-sensitive plant, and the localization of the protein within the cell as well as freezing tolerance of the transgenic tobacco was investigated. For constitutive expression of HIC6 in tobacco, its corresponding gene was subcloned into pBI121. Through the transformation with pBI121/hiC6, fifteen transgenic tobacco lines were acquired, out of which twelve lines expressed the HIC6 protein. None of the transgenic tobacco lines, however, showed significant differences in freezing tolerance from the control plants (wild-type and transformed with pBI121) at ?1, ?3, and ?4°C, with the exception that their freezing temperature was ?2°C. In order to increase the accumulation level of HIC6, pBE2113 with a stronger promoter was used. Eight lines expressed the protein out of thirteen lines transformed with pBE2113/hiC6. The accumulation levels of the protein were clearly higher in the tobacco plants transformed with pBE2113/hiC6 than in those with pBI121/hiC6. The HIC6 protein seemed to be localized in mitochondria of the transgenic tobacco plants. Freezing-tolerance test at ?1 - ?4°C showed that the degree of electrolyte leakage was significantly lower in the plants with pBE2113/hiC6 than in the control plants. A leaf browning observation also showed that high accumulation of HIC6 significantly suppressed injury caused by freezing to the transgenic tobacco at ?3°C.     

通过转PSAG12—IPT基因培育延缓叶片衰老水稻

利用农杆菌介导的遗传转化方法将PSAG12 _IPT导入籼稻品种明恢 6 3。在获得的 6 1个独立的转基因植株中 ,有一些表现出叶片衰老显著延缓 ,对选择的两个纯合转基因株系的小区试验的结果显示 :(1)转基因植株倒三叶的持绿性极显著延长 ;(2 )两个纯合转基因株系比原品种的结实率极显著提高 ,株高极显著降低 ;(3)两个纯合转基因株系的有效穗数比原品种极显著或显著提高。     

Efficient genetic transformation of okra (Abelmoschus esculentus (L.) Moench) and generation of insect-resistant transgenic plants expressing the cry1Ac gene

Key message

Agrobacterium -mediated transformation system for okra using embryos was devised and the transgenic Bt plants showed resistance to the target pest, okra shoot, and fruit borer ( Earias vittella ).

Abstract

Okra is an important vegetable crop and progress in genetic improvement via genetic transformation has been impeded by its recalcitrant nature. In this paper, we describe a procedure using embryo explants for Agrobacterium-mediated transformation and tissue culture-based plant regeneration for efficient genetic transformation of okra. Twenty-one transgenic okra lines expressing the Bacillus thuringiensis gene cry1Ac were generated from five transformation experiments. Molecular analysis (PCR and Southern) confirmed the presence of the transgene and double-antibody sandwich ELISA analysis revealed Cry1Ac protein expression in the transgenic plants. All 21 transgenic plants were phenotypically normal and fertile. T₁ generation plants from these lines were used in segregation analysis of the transgene. Ten transgenic lines were selected randomly for Southern hybridization and the results confirmed the presence of transgene integration into the genome. Normal Mendelian inheritance (3:1) of cry1Ac gene was observed in 12 lines out of the 21 T₀ lines. We selected 11 transgenic lines segregating in a 3:1 ratio for the presence of one transgene for insect bioassays using larvae of fruit and shoot borer (Earias vittella). Fruit from seven transgenic lines caused 100 % larval mortality. We demonstrate an efficient transformation system for okra which will accelerate the development of transgenic okra with novel agronomically useful traits.     

Features of development and reproduction of transgenic flax

Primary transformants carrying a genetic construct with the chimeric gfp-tua6 gene were obtained using biolistic transformation of hypocotyl explants of flax variety Vasilek. Viable modified plants were used as a basis for the production of inbred lines with confirmed inheritance of introduced genetic construct in three generations. The characteristics of phenological growth stages, plant height, number of bolls and meiosis were studied for transgenic plants. A comparison of transformed lines based on reproduction years revealed a significant decrease of seed production in one line. Meiotic analysis of this line at metaphase I and anaphase I stages was conducted. The percentage of cells with impaired meiosis was highest in transgenic plants of the line with the lowest seed production. Thus, the nonspecific incorporation of genetic construct into the flax genome using biolistic transformation impairs meiosis to a different extent and it is the main reason for unequal reproducibility of transgenic flax. The production of stably reproducing transgenic lines requires systematic analysis of meiosis.     

Agrobacterium-mediated transformation of Arabidopsis thaliana using the floral dip method

Collective efforts of several laboratories in the past two decades have resulted in the development of various methods for Agrobacterium tumefaciens-mediated transformation of Arabidopsis thaliana. Among these, the floral dip method is the most facile protocol and widely used for producing transgenic Arabidopsis plants. In this method, transformation of female gametes is accomplished by simply dipping developing Arabidopsis inflorescences for a few seconds into a 5% sucrose solution containing 0.01-0.05% (vol/vol) Silwet L-77 and resuspended Agrobacterium cells carrying the genes to be transferred. Treated plants are allowed to set seed which are then plated on a selective medium to screen for transformants. A transformation frequency of at least 1% can be routinely obtained and a minimum of several hundred independent transgenic lines generated from just two pots of infiltrated plants (20-30 plants per pot) within 2-3 months. Here, we describe the protocol routinely used in our laboratory for the floral dip method for Arabidopsis transformation. Transgenic Arabidopsis plants can be obtained in approximately 3 months.     

Overexpression of suadea salsa <Emphasis Type="Italic">S</Emphasis>-adenosylmethionine synthetase gene promotes salt tolerance in transgenic tobacco

The suadea salsa full-length S-adenosylmethionine synthetase (SsSAMS2) was introduced into tobacco (Nicotiana tabacum L.) by Agrobacterium tumefaciens-mediated transformation. The gene transformation and expression in tobacco were confirmed by PCR, RT-PCR and Northern blotting analysis. Several transgenic lines (ST lines) overexpressing SsSAMS2 gene under the control of cauliflower mosaic virus 35S promoter showed more seeds number and weight, and accumulated higher free total polyamines (PAs) than wild-type plants (WT lines) and transformants with blank vector (BT lines). Salt stress-induced damage was attenuated in these transgenic plants, in the symptom of maintaining higher photosynthetic rate and biomass. These results that the transgenic plants overexpressing suadea salsa SAMS2 are more tolerant to salt stress than wild-type plants suggest that PAs may play an important role in contributing salt tolerance to plants.     

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。     

菠菜甜菜碱醛脱氢酶基因在棉花中的过量表达和抗冻耐逆性分析

分离出菠菜甜菜碱醛脱氢酶基因(SoBADH)构建成由CaMV35S驱动的双元植物表达载体pBSB, 农杆菌菌株LBA4404携带该载体转化棉花, 获得转基因棉花植株。65株转基因植株经过PCR筛选、Southern blotting分析证明有45株为成功的转化株, 外源基因已经被整合到棉花的染色体组中, 并以单拷贝插入居多。对部分株系的SoBADH基因的表达进行分析表明均有较高的mRNA和蛋白的表达。经测定这些株系中的甜菜碱脱氢酶活性显著提高, 达到0.66~1.70 nmol/min/mg水平。同时这些转基因株系在盐胁迫下比对照长势强, 株高和地上部分的鲜重显著高于非转基因对照; 在低温胁迫下, 这些转基因株系表现出显著的抗冻性能。结果表明菠菜甜菜碱醛脱氢酶能够在异源植物棉花中过量表达, 并具有较高的酶活性, 转基因棉花可作为抗逆育种的种质材料。     

Expression of green fluorescent protein and its inheritance in transgenic oat plants generated from shoot meristematic cultures

The expression of green fluorescent protein (GFP) and its inheritance were studied in transgenic oat ( Avena sativa L.) plants transformed with a synthetic green fluorescent protein gene [sgfp(S65T)] driven by a rice actin promoter. In vitro shoot meristematic cultures (SMCs) induced from shoot apices of germinating mature seeds of a commercial oat cultivar, Garry, were used as a transformation target. Proliferating SMCs were bombarded with a mixture of plasmids containing the sgfp(S65T) gene and one of three selectable marker genes, phosphinothricin acetyltransferase (bar), hygromycin phosphotransferase (hpt) and neomycin phosphotransferase (nptII). Cultures were selected with bialaphos, hygromycin B and geneticin (G418), respectively, to identify transgenic tissues. From 289 individual explants bombarded with the sgfp(S65T) gene and one of the three selectable marker genes, 23 independent transgenic events were obtained, giving a 8.0% transformation frequency. All 23 transgenic events were regenerable, and 64% produced fertile plants. Strong GFP expression driven by the rice actin promoter was observed in a variety of tissues of the T(0) plants and their progeny in 13 out of 23 independent transgenic lines. Stable GFP expression was observed in T(2) progeny from five independent GFP-expressing lines tested, and homozygous plants from two lines were obtained. Transgene silencing was observed in T(0) plants and their progeny of some transgenic lines.     

Use of the firefly luciferase gene in a barley (Hordeum vulgare) transformation system

Transgenic lines of the spring barley variety Golden Promise containing the firefly luciferase gene were produced by particle bombardment of immature embryos. Non-destructive analysis of luciferase gene expression was used to monitor the transformation process. This revealed that transformation efficiency, in terms of the percentage of bombarded immature embryos giving rise to transformed callus lines, was very high, up to 40%. Following the expression of the luciferase gene provided a method for the sensitive, non-destructive, real-time monitoring of gene expression throughout the transformation process. Luciferase expression could also be used to easily identify transgenic plants and to identify homozygous transgenic plants at an early stage. The production of transgenic barley by selecting for luciferase-positive material, without an additional selection system, was possible but technically difficult.     

基因枪转化的bar基因表达盒在水稻中遗传行为复杂

基因枪介导基因表达盒(仅包括启动子、编码区和终止子)转化是基因枪转化植物的新趋势,它能消除质粒载体主干序列对转基因植物的不利影响。本文研究了基因枪转化的bar基因表达盒在转基因水稻T1～T3世代中的遗传行为。结果发现:作为筛选标记的bar基因表达盒在水稻基因组中多拷贝整合,遗传分离行为复杂,还出现了Basta抗感分离比在35:1～144:1之间的"假纯合体",但50%转基因株系中(5/10)bar基因可作为一个显性基因按孟德尔方式稳定遗传至自交T2代。虽然bar基因为多拷贝整合,30%的转基因株系(3/10)在自交低世代(T1)能获得纯合体。Southern杂交分析发现,多拷贝的bar基因表达盒倾向于连接成转基因串联子整合在水稻基因组内。我们发现在Basta抗性正常分离的株系后代中bar基因表达盒Southern杂交模式能稳定遗传,但异常分离的株系后代中bar基因表达盒的一些拷贝发生了丢失。我们推测,bar基因表达盒在水稻中遗传分离行为的复杂原因可能是bar基因表达盒多拷贝整合、基因丢失和基因表达互作。