低压脉冲电泳介导的外源基因转化部分酶解的水稻小细胞团

开发了一类新型的低压脉冲电泳法介导外源基因进入水稻细胞的转化系统。本系统以水稻部分酶解小细胞团为受体,采用低压脉冲电泳推动质核DNA进入水稻细胞。以报告基因GUS酶活性为指标,借以测定转化了的水稻细胞。最佳的组合处理可以获得8.2％的转化频率。文中对低压脉冲电泳转移外源基因的条件亦作了讨论。     

Transformation efficiencies and progeny analysis after varying different parameters of direct gene transfer of Nicotiana tabacum protoplasts

Nicotiana tabacum protoplasts were transformed by polyethylene glycol (PEG)-mediated uptake and electroporation, with circular and linear DNA, and with or without X-ray irradiation. We investigated the influence on the transient expression by these parameters as well as on the frequencies for stable transformation. Plants were regenerated and selfed, and the progenies of the transformed plants were analysed and used to compare the pattern of gene integration by these different variations in transformation methods. The results from the transient expression as judged by glucuronidase (GUS) activity, showed electroporation to give higher and more reproducible results than PEG-mediated uptake. Using linear instead of circular DNA increased the rate of stable transformation about 3 times. Including a mild X-ray treatment gave an increase in the same range. When the inheritance of the transferred trait was investigated, it was found that protoplasts transformed with linear DNA resulted in the highest number of plants with single-copy insertions. Protoplasts transformed with circular DNA showed the highest incidence of losing the trait, while plants in which the transformation included an X-ray treatment, had the highest frequency of multicopy insertion events.     

Transformation efficiencies and progeny analysis after varying different parameters of direct gene transfer of Nicotiana tabacum protoplasts

Nicotiana tabacum protoplasts were transformed by polyethylene glycol (PEG)-mediated uptake and electroporation, with circular and linear DNA, and with or without X-ray irradiation. We investigated the influence on the transient expression by these parameters as well as on the frequencies for stable transformation. Plants were regenerated and selfed, and the progenies of the transformed plants were analysed and used to compare the pattern of gene integration by these different variations in transformation methods. The results from the transient expression as judged by glucuronidase (GUS) activity, showed electroporation to give higher and more reproducible results than PEG-mediated uptake. Using linear instead of circular DNA increased the rate of stable transformation about 3 times. Including a mild X-ray treatment gave an increase in the same range. When the inheritance of the transferred trait was investigated, it was found that protoplasts transformed with linear DNA resulted in the highest number of plants with single-copy insertions. Protoplasts transformed with circular DNA showed the highest incidence of losing the trait, while plants in which the transformation included an X-ray treatment, had the highest frequency of multicopy insertion events.     

Expression of a foreign gene in electroporated pollen grains of tobacco

Summary The incorporation of genetically engineered DNA into pollen and subsequent fertilization of eggs by the transformed pollen would be a convenient method for producing genetically engineered seed. This method of pollen transformation would circumvent the need for other types of gene transfer methods such as the use of Agrobacterium tumefaciens, which has a limited host range and thus a limited capability for genetically engineering plants. It would also avoid the problems associated with the regeneration of some plants from tissue, cell, or protoplast culture after receiving foreign DNA. To this end, the genetically engineered plasmid DNA vector pBI221 containing the gene encoding -glucuronidase (GUS) was introduced by electroporation into germinating pollen grains of tobacco (Nicotiana gossei L.). Transient expression of the GUS gene was demonstrated by the presence of GUS activity in fluorometric assays of pollen extracts 24 h after the introduction of pBI221 via electroporation. Intact pBI221 was detected by Southern blotting procedures as a distinct DNA band in pollen extracts 1 h after electroporation. In addition, pBI221 was detected as a diffuse band of higher molecular weight DNA 24 h after electroporation, suggesting that some of the pBI221 was incorporated into the genome of the pollen.     

Exine-Detached Pollen of Nicotiana tabacum as an Electroporation Target for Gene Transfer

In developing alternative systems for plant transformation the authors investigated the use of male gametophyte as the foreign gene receptor. However, delivery of foreign DNA into pollen is difficult because of the existence of a thick exine, therefore a new experimental system was developed using exine-detached pollen (EDP) of Nicotiana tabacum as an electroporation target which was also compared with germinating pollen (GP) and pollen grains (P). A transient GUS expression assay was conducted to analyze the effects of different electroporation conditions and promoter activity. The pollen-specific promoter Zml3 from Zea mays mediated high level of GUS gene expression but CaMV 35S only had very low activity in both EDP and GP. The optimal field strength for gene transfer was obtained at 750 V/cm for EDP and 1250 V/cm for GP when the time constant of pulse was 13 ms. The GUS activity in EDP had a 5-fold increase as compared with GP and P respectively. The level of GUS gene expression was slightly increased when adding 10 % PEG into the electroporation buffer. This result indicates that pollen deprived of exine responds much better to foreign gene transfer than the previously used intact pollen grains and may be a better vector to introduce, via pollen tube, genes into the egg cell and offsprings.     

Expression of foreign genes in transgenic yellow-poplar plants

Cells of yellow-poplar (Liriodendron tulipifera L.) were transformed by direct gene transfer and regenerated into plants by somatic embryogenesis. Plasmid DNA bearing marker genes encoding β-glucuronidase (GUS) and neomycin phosphotransferase (NPT II) were introduced by microprojectile bombardment into single cells and small cell clusters isolated from embryogenic suspension cultures. The number of full-length copies of the GUS gene in independently transformed callus lines ranged from approximately 3 to 30. An enzyme-linked immunosorbent assay for NPT II and a fluorometric assay for GUS showed that the expression of both enzymes varied by less than fourfold among callus lines. A histochemical assay for GUS activity revealed a heterogeneous pattern of staining with the substrate 5-bromo-4-chloro-3-indoyl-β-d-glucuronic acid in some transformed cell cultures. However, cell clusters reacting positively (blue) or negatively (white) with 5-bromo-4-chloro-3-indoyl-β-d-glucuronic acid demonstrated both GUS activity and NPT II expression in quantitative assays. Somatic embryos induced from transformed cell cultures were found to be uniformly GUS positive by histochemical analysis. All transgenic plants sampled expressed the two marker genes in both root and shoot tissues. GUS activity was found to be higher in leaves than roots by fluorometric and histochemical assays. Conversely, roots expressed higher levels of NPT II than leaves.     

Physical,chemical and physiological parameters for electroporation-mediated gene delivery into rice protoplasts

Transformation of cereal protoplasts has been reported using several methods; however, the efficiencies of transformations are still very low. We have evaluated a number of parameters that influence electroporation-mediated DNA uptake and have also compared the efficiency of transient GUS activity and stable transformation obtained using an optimized electroporation method with that of the PEG method. The electroporation conditions tested were ionic composition of buffer, ionic strength, resistivity of buffer, type of anions, voltage, and capacitance.Protoplasts isolated from suspension cultures derived from immature embryos of rice (cvs Radon and IR-54) were used for this study. Stable transformation or transient GUS expression experiments were carried out using a plasmid construct containing the CaMV 35S promoter driving thebar gene and a rice actin promoter driving thegus A (uid A) gene (pAG35bar). Electroporation under optimized conditions resulted in about 13-fold higher GUS activities compared to the PEG method. Protoplast survival following optimized electroporation conditions was 55–60%, compared to 35–40% with the PEG treatment. Protoplasts isolated from a suspension culture at different ages gave substantially different levels of transient GUS expression following electroporation-mediated DNA uptake. In contrast, the age of the suspension culture did not influence PEG-mediated DNA uptake and transient GUS activities, which remained low throughout the culture period examined (21 months). Putatively transformed calluses were selected after three to four weeks on medium containing phosphinothricin as the selection agent. The transformation frequencies ranged from 6.2×10^–5 to 5.4×10^–4 with the electroporation method compared to 1.3×10^–5 to 5.3×10^–5 with the PEG method. Southern blot analysis of PPT-resistant calluses obtained by the electroporation-mediated transformation showed simple intergration patterns of integrated DNA in most of the transformants.     

Transgenic turf-type tall fescue (Festuca amndinacea Schreb.) plants regenerated from protoplasts

To improve turfgrasses using genetic engineering, we have developed a transformation system in turf-type tall fescue, one of the most important turfgrass species. Embryogenic cell cultures were established after callus induction from embryos of mature seed. The agarose-bead method with nurse cells was used to culture protoplasts and plants were regenerated from protoplasts of tall fescue cultured cells. To develop transgenic tall fescue plants, the hygromycin resistance gene and the -glucuronidase gene were introduced into the tall fescue protoplasts by electroporation. A high concentration (200 mg/l) of hygromycin was required to select transformed cells because of the high level of endogenous resistance to the antibiotic in tall fescue. Most of the transformed cells exhibited GUS activity and several plants were regenerated from these cells. The presence of introduced genes was confirmed by Southern blot hybridization of PCR amplified DNA from transgenic plants.Abbreviations Adh alcohol dehydrogenase - BAP benzylaminopurine - bp base pair(s) - GUS -glucuronidase - Kb kilobase(s) - MS Murashige and Skoog's medium - PCR polymerase chain reaction     

Stable transformation of maize: the impact of feeder cells on protoplast growth and transformation efficiency

Summary The importance of cell culture conditions, including the use of feeder cells, on protoplast growth and transformation in maize (Zea mays L.) was investigated. Total GUS activity, measured two days after transformation, was five-fold higher in protoplasts cultured on feeder cells compared to those grown in the absence of feeder cells. Since the specific activity of GUS was only slightly higher in the transformed protoplasts plated over feeder cells, the stimulation in transient gene expression resulted mainly from the improved environment provided by the feeder system. For stable transformation, either PEG treatment or electroporation of protoplasts was used to introduce the neo gene. When PEG was used, over 85% of the putative transformants (resistant to kanamycin) contained the neo gene. The combination of PEG transformation and the optimized cell culture protocol using feeder cells enabled the selection of about 100 stably transformed lines per gFW of cells. Electroporation was less efficient.     

Highly efficient transfer and stable integration of foreign DNA into partially digested rice cells using a pulsed electrophoretic drive

A new method has been developed to introduce foreign DNA into rice cells. Gene delivery occurred when an electrophoretic drive with cycles of intervallic electric field was applied to a mixture containing partially digested small cell groups (SCGs) and plasmid DNAs. Gene transfer efficiency was evaluated by the detection of -glucuronidase (GUS) activity resulting from expression of a chimaeric plasmid DNA. The optimal combination of treatment conditions (3 V/cm, 30 s pulse and 30 min electrophoretic run) produced a frequency of up to 8.2% of blue cells in transformed microcalluses 40 days after culture of treated SCGs without selection for kanamycin resistance. Southern hybridization showed that the foreign gene had integrated into the chromosomal DNA. These results demonstrate that pulsed electrophoretic drive is applicable to the transfer of foreign genes into plant cells.     

Transformation of Zea mays L. Using Agrobacterium tumefaciens and the Shoot Apex

Agrobacterium tumefaciens is established as a vector for gene transfer in many dicotyledonous plants but is not accepted as a vector in monocotyledonous plants, especially in the important Gramineae. The use of Agrobacterium to transfer genes into monocot species could simplify the transformation and improvement of important crop plants. In this report we describe the use of Agrobacterium to transfer a gene into corn, the regeneration of plants, and detection of the transferred genes in the F₁ progeny. Shoot apices of Zea mays L. variety Funk's G90 were cocultivated with A. tumefaciens EHA 1, which harbored the plasmid pGUS3 containing genes for kanamycin resistance (NPT II) and β-glucuronidase (GUS). Plants developed from these explants within 4 to 6 weeks. Fluorometric GUS assays of leaves and immature seeds from the plants exhibited low GUS activity. Both NOS and GUS gene fragments were amplified by polymerase chain reaction in the DNA isolated from the F₁ generations of one of the original transformed plants. Southern analysis showed both GUS and NPT probes hybridized to DNA in several of the F₁ progeny, demonstrating the incorporation of GUS and NPT II genes into high molecular weight DNA. These data establish successful gene transfer and sexual inheritance of the genes.     

烟草脱外壁花粉的电激基因转移

以 β-葡糖苷酸酶 GUS 基因作为报告基因 ,通过瞬间表达的检测 ,比较了烟草 Nicotianatabacum L . 脱外壁花粉、未萌发与萌发花粉的电激导入效果 ,探讨了不同电激条件及启动子对外源基因瞬间表达的影响 .结果表明 :当脉冲时间常数为 13 ms时 ,导致脱外壁花粉和萌发花粉生活力下降约50 %的电场强度分别为 750 V/ cm和 12 50 V/ cm,在此条件下电激 ,二者的导入效果最好 .脱外壁花粉的GUS基因表达水平约为萌发花粉的 5倍、花粉粒的 30倍 .玉米花粉特异启动子 Zm13- 2 60 能启动 GUS基因在脱外壁花粉和萌发花粉中高效表达 ,而 Ca MV 35S的启动活性很低     

Preliminary Study on Transformation of Wheat Apical Point

Apical points of young seedlings of wheat (Triticum aestivum) cultivar "Jing 411” and somatic calli of cultivar "FK8” were transformed with plasmids pBI121 and (or) pBIAH-A+ by using microprojectile bombardment. Histochemical assay of GUS activity showed positive reaction on some of the transformation processed apical points and calli. This demonstrated that foreign genes were introduced into the apical meristematic cells as well as the callus cells. The plantlets of cv. "Jing 411” survived after apical point transformation with pBIAH-A+ were transplanted into the field and the progenies were screened with kanamycin. 4 % of the screened seeds germinated into green seedlings with kanamycin resistance. Dot hybridization of total DNA from kanamycin resistant plants showed the existence of foreign DNA in some of the detected plants.     

Stably transformed callus of wheat by electroporation-induced direct gene transfer

Fertile plants of wheat have been regenerated from protoplasts in several laboratories. The objective of this study was to develop a transformation system using protoplasts as target cells. Protoplasts were isolated from cell suspensions initiated from an anther-derived callus. The protoplasts were transformed by electroporation using pBARGUS or pBAS, both carrying the Basta resistance (BAR) gene. A total of 2,761 calli were produced from electroporation transformed protoplasts in 3 independent experiments. Six calli survived selective culture on 10 mg/l phosphinothricin (PPT), a concentration that completely inhibited the growth of non-transformed wheat callus. Five PPT resistant calli showed phosphinothricin acetyltransferase (PAT) activity, whereas the sixth probably was a mutant. The transformed wheat calli could tolerate PPT concentrations up to 2,560 mg/l. Southern blot analyses confirmed the integration of the BAR gene in wheat genomes. The integrated DNA sequence may have partially methylated and tandemly repeated at least once. These results demonstrate the production of stably transformed wheat calli by electroporation-mediated direct gene transfer into protoplasts.     

Transgenic papaya plants from Agrobacterium-mediated transformation of petioles of in vitro propagated multishoots

Summary In order to establish a model system for introduction of foreign genes into papaya (Carica papaya L.) plants by Agrobacterium-mediated transformation, petioles from multishoots were used as explant source and bacterial neomycin phosphotransferase II (NPT II) gene and -glucuronidase (GUS) gene were used as a selection marker and a reporter, respectively. Cross sections of papaya petioles obtained from multishoots micropropagated in vitro were infected with A. tumefaciens LBA4404 containing NPTII and GUS genes and co-cultured for 2 d. The putative transformed calluses were identified by growth on the selective medium containing kanamycin and carbenicillin, and consequently regenerated to plants via somatic embryogenesis. Thirteen putative transgenic lines were obtained from a total of 415 petiole fragments treated. Strong GUS activity was detected in the selected putative transgenic calli or plants by fluorogenic assay. Western blot analysis using GUS antiserum confirmed that the GUS protein was expressed in putative transformed papaya cells and transgenic plants. The presence of the GUS gene in the papaya tissues was detected by PCR amplification coupled with Southern blot.     

Transformation system of rice suspension-cultured microcolonies by Electroporation

For establishing a transformation system of rice (Oryza sativa), after three days of culture embryogenic suspension-cultured cell clusters were enzymatically macerated for 2 hours in electroporation buffer containing 2% cellulase and filtered through 550, 400, 250 and 100 μm stainless mesh. Filtered embryogenic microcolonies of 100–250 μm with pBI121 were electroporated at 400 V/cm for 1.2 ms. Four weeks after the electroporation, stable transformed calli were obtained at a frequency of 72% on the selection medium containing 100 mg/L kanamycin. GUS gene in the genomic DNA among 20 out of 22 putative transformed calli lines were detected by PCR analysis. The expression of GUS gene into the kanamycin-resistance calli was confirmed by spectrophotometric assay and histochemical assay of GUS activity. In a histochemical study of the transgenic rice regenerants, it was shown that the GUS activity directed by the CaMV 35S promoter was localized mainly in leaf vein and root apex.     

Reporter gene introduction and transient expression in protoplasts of Porphyra yezoensis

The transient expression of foreign genes in the protoplasts of Porphyrayezoensis was examined using three recombinant vectors, pYez-Rub-GUS, pYez-Rub-GFP and pYez-Rub-LUC, which were constructed with the promoter sequence of the ribulose-bisphosphate-carboxylase / oxygenase (Rubisco) gene as a promoter and the bacterial β-glucuronidase (GUS), mutant of green fluorescent protein (S65T-GFP) and firefly luciferase (LUC) genes, respectively, as reporter genes. When the pYez-Rub-GUS was introduced into protoplasts by electroporation, cells stained dark blue by indigotin were observed after the histochemical GUS assay. GUS activity was also detected by quantitative enzyme assays with a chemiluminescent substrate. When the pYez-Rub-GFP was electroporated into protoplasts, the expression of GFP could be detected in vivo observations with fluorescence microscopy. However, the rates of gene expression cells to the total number of cells were different between the GUS and GFP genes. LUC activity was also detected by assay with a chemiluminescent substrate after the introduction of pYez-Rub-LUC into protoplasts, although the activity levels were considerably lower. Relatively high expression rates of introduced GUS genes were observed 3 to 5 days after electroporation. These results show that the promoter sequence of the chloroplast Rubisco gene functions as a promoter of foreign gene expression and that transient expression occurred in protoplasts of P. yezoensis after the introduction of foreign genes. This revised version was published online in August 2006 with corrections to the Cover Date.     

Transformation of rice plants by plant reovirus genes

Rice dwarf phytoreovirus (RDV), and rice ragged stunt oryzairus (RRSV) genes were introduced into rice protoplasts by using the cauliflower mosaic virus 35S promoter, tissue culture techniques and electroporation. The translation products of cDNA to RDV segment 8 were detected in transformed rice. Plants transgenic for RRSV S9 also expressed an mRNA of appropriate size but the protein was not apparently expressed. These latter plants did not show any resistance when inoculated with RRSV; on the contrary, symptom expression was intensified. Since most plant reoviruses are phloem-limited, an alternative promoter could be that of rice tungro bacilliform virus (RTBV), which is itself phloem-limited. When the β-glucuronidase (GUS) gene was coupled to this promoter and introduced into rice, GUS activity was successfully expressed only in the phloem, so the system could be of interest in the reovirus context.