Enhancement of short- and medium-term expression of transgenes in embryogenic suspensions of Picea abies (L.) Karst

Biolistic transfer and subsequent reporter gene expression wasenhanced 3–20-fold in embryogenic suspension culturesof Picea abies by treatment with osmotica before and after bombardment.Myoinositol was more effective than mannitol + sorbitol andabout as effective as sucrose in enhancing expression 1 d afterbombardment. For both myoinositol and sucrose the optimal concentrationwas 0.25 M. Abscisic acid interacted with myoinositol to givea further enhancement. Maintaining the cells on 0.25 M myoinositolafter bombardment enhanced the expression measured 10 d later.These results provide evidence for a metabolic component ofthe mechanism of osmotic enhancement in addition to an effectdepending on partial plasmolysis at the time of bombardment.Expression driven by the polyubiquitin promoter 10 d after bombardmentwas more than twice that driven by an enhanced 35S, and 20 timesthat driven by a simple 35S promoter. Experiments using plasmidswith and without scaffold attachment regions indicated thata greater proportion of the cells that expressed the reportergene at 6 d compared with 1 d after bombardment had been integrativelytransformed. Key words: Abscisic acid, biolistics, osmotic enhancement, polyubiquitin promoter, scaffold attachment regions     

A combined use of microprojectile bombardment and DNA imbibition enhances transformation frequency of canola (Brassica napus L.)

Efforts to increase the frequency of recovered homozygous transgenic B. napus plants from direct DNA transformation treatments led to the development of a method of combined microprojectile bombardment and desiccation/DNA imbibition. The combined method was compared to individual treatments in two experiments utilizing microspore-derived embryo hyocotyls as targets for the -glucuronidase (GUS) and NPT II genes. Both the transient gene expression of -GUS and the stable transformation by NPT II demonstrated that the combined use of microprojectile bombardment and desiccation/DNA imbibition yielded more transgenic plants (at least three-times more) than either individual transformation protocol. In a histochemical analysis for -GUS activity, an average of 37% of the hypocotyls receiving the combined treatment displayed a positive response, whereas only 8% of the hypocotyls showed a positive response following microprojectile bombardment alone. The hypocotyls obtained by the joint treatment also showed more multisite expression of the -GUS gene per hypocotyl than those treated only with microprojectile bombardment. Southern analysis of NPT II gene integration into subsequently-derived secondary embryos indicated that the transformation efficiency of the combined treatment was 2% in comparison to 0.6% for that of the singular microprojectile bombardment. The number of inserts integrating per transformation event appears to be independent of the transformation methods. Neither of the marker genes was expressed in hypocotyls treated only with desiccation/DNA imbibition. Utilization of hypocotyl regeneration from microspore-derived embryos via a secondary embryogenesis system provided a reliable method for producing transgenic plants. The combined use of microprojectile bombardment and desiccation/DNA imbibition proved to be an efficient approach to obtain homozygous transgenic canola plants.     

Improvement of plant regeneration and GUS expression in scutellar wheat calli by optimization of culture conditions and DNA-microprojectile delivery procedures

Summary Genetic transformation of cereals by direct DNA delivery via microprojectile bombardment has become an established procedure in recent years. But the derivation of functional transgenic plants, especially in wheat, is still problematic, mainly due to low efficiency of DNA delivery and the reduced regeneration capability of microprojectile-bombarded tissue. We focussed on these two aspects and found that the regeneration of scutellar calli of wheat can be rendered highly efficient and considerably accelerated by a liquid culture phase in screen rafts. We also found that the expression of a reporter gene following DNA delivery by microprojectile can be improved by maintaining the scutellar calli in 0.25 M mannitol before and after bombardment, by bombardment in the presence of silver thiosulfate and Ca(NO₃)₂ (rather than CaCl₂) and by the elimination of spermidine from the DNA/microprojectile mixture. A protocol that includes all these features leads to several-fold higher transient expression of the reporter gene than have previously published procedures.     

A protocol for consistent, large-scale production of fertile transgenic rice plants

A protocol for consistent production of fertile transgenic rice plants was established utilizing microparticle bombardment of embryogenic tissues (Oryza sativa L. japonica cv. Taipei 309). This system has been employed to produce several thousand independently transformed plant lines carrying the hygromycin phosphotransferase (hph) gene and various genes of interest. The most efficient target tissue was highly embryogenic callus or suspension cell aggregates, when they were given an osmotic pre- and post-transformation treatment of 0.6 m carbohydrate. By optimizing the age of the tissue at the time of gene transfer and applying an improved selection procedure, transgenic plants were recovered in 8 weeks from the time of gene transfer, at an average of 22.3±9.7 per 100 calli and 22.4±8.0 plant lines per dish of suspension cell aggregates. This system has facilitated a number of studies using rice as a model for genetic transformation and will enable the large-scale production of transgenic rice plants for genomic studies. Received: 12 March 1998 / Revision received: 5 May 1998 / Accepted: 15 May 1998     

DNA delivery into Eucalyptus globulus zygotic embryos through biolistics: optimization of the biological and physical parameters of bombardment for two different particle guns

Summary DNA transfer into zygotic embryos of Eucalyptus globulus by microprojectile bombardment was studied with two devices: a gunpowder apparatus and a compressed-helium system. Using, as a test, the transient expression of a reporter gene, we optimized the physical and biological conditions of bombardment. Six-day-old cultured embryos were found to be the best target material, and osmotic treatment increased the expression rate. Conditions of bombardment (particle acceleration and quality of the particle: DNA mix) were studied. In optimal conditions, we were able to obtain up to 130 GUS expression events per embryo with a good distribution over the tissue.In our transient expression experiments, the gunpowder and helium devices exhibited similar efficiencies, reliabilities and reproducibilities.Abbreviations GUS -glucuronidase - 2,4-D 2,4-dichlorophenoxyacetic acid     

Efficient microprojectile bombardment-mediated transformation of rice using gene cassettes

This study was aimed at determining whether gene cassettes (promoter-coding sequence-terminator) can be efficiently used in microprojectile acceleration-mediated co-transformation of rice in the place of whole plasmids, and to what extent their use influences the integration and expression of the co-transferred gene of interest. Two non-linked marker genes (yfp and hph) were co-introduced by microprojectile bombardment into cells of embryogenic calli in three separate experiments. Three different DNA structures were compared for their ability to transiently and stably transform rice cells: supercoiled or linearized whole-plasmid DNA, gene cassette DNA and single-stranded gene cassette DNA coated with Escherichia coli single-stranded binding (SSB) proteins. Our results demonstrate that microprojectile bombardment-mediated transformation of rice using gene cassettes is possible without significantly reducing transformation efficiency in comparison to the use of whole-plasmid DNA. Furthermore, no obvious difference in transgene integration pattern and inheritance was observed among plants transformed with gene cassettes compared to those transformed with the whole plasmid, except that concatemerization of molecules prior to integration was rarely observed in gene cassette transformants. Received: 4 April 2001 / Accepted: 13 August 2001     

Promoter analysis in transient assays using a GUS reporter gene construct in creeping bentgrass (Agrostis palustris)

Transient expression profiles for several chimeric beta-glucuronidase (GUS) gene constructs were determined in tissues (young leaves, mature leaves and roots) of creeping bentgrass (Agrostis palustris, cv. Penn A4) following microprojectile bombardment. The constructs analyzed consisted of the uidA (GUS) reporter gene driven by four different promoters (ubiquitin 3-potato, ubiquitin corn, ubiquitin rice and CaMV 35S). The total number of GUS hits (or transient expression units; TEUs) were determined manually under a dissecting scope after histochemical staining for GUS. Results suggest that the ubiquitin rice promoter is most active in cells of turfgrass, regardless of the developmental stage or tissue-type. The ubiquitin corn promoter was the next best. Of the four promoter used, except for ubiquitin 3-potato, reporter gene activity was dramatically higher in mature leaves compared to young leaves. The relative efficiency of each promoter was about the same in roots and leaves. We have also analyzed uidA (GUS) reporter gene activity following microprojectile bombardment in transient expression assays with callus from two cultivars (Providence or Penn A4) of creeping bentgrass. Differences in the frequency of GUS positive hits were observed between cultivars up to 72 hours post-bombardment. However, this difference between cultivars disappeared after 72 hours post-bombardment. This information describing promoter functionality in bentgrass will be important when designing gene constructs for trait modification and when choosing appropriate cultivars for improvement through gene transfer experiments. This is the first in depth report on organ-specific and developmental gene expression profiles for transgenes in a turfgrass species.     

Use of the lacZ reporter gene as an internal control for GUS activity in microprojectile bombarded plant tissue

A protocol is described for simultaneous histochemical detection of LacZ and Gus activity in plant tissues after microprojectile bombardment. The suitability of two different Gus substrates (Salmon-glcA, Magenta-β- -glcA) is compared. This detection system is used to assay the number of cells expressing either or both reporter gene. This technique is used as a qualitative assay to demonstrate the tissue specificity of a Hrgp promoter in maize embryos, and to measure ABA responsiveness of a Lea promoter in Arabidopsis. The promoter to be studied is linked to the gus reporter gene and the lacZ reporter gene linked to the CaMV 35S promoter is used as a constitutive internal control. The use of an internal control drastically reduces the data variation inherent to microprojectile bombardment.     

Optimization of factors influencing microprojectile bombardment-mediated genetic transformation of seed-derived callus and regeneration of transgenic plants in <Emphasis Type="Italic">Eleusine coracana</Emphasis> (L.) Gaertn

Microprojectile bombardment mediated genetic transformation parameters have been standardized for seed derived callus of Eleusine coracana. Plasmid pCAMBIA 1381 harboring hygromycin phosphotransferase (hptII) as selectable marker gene and β-glucuronidase (gus A) as reporter gene, was used for the optimization of gene transfer conditions. The transient GUS expression and survival of putative transformants were taken into consideration for the assessment of parameters. Optimum conditions for the microprojectile bombardment mediated genetic transformation of finger millet were 1,100 psi rupture disk pressure with 3 cm distance from rupture disk to macrocarrier and 12 cm microprojectile travel distance. Double bombardment with gold particles of 1.0 μm size provided maximum transient GUS expression and transformation efficiency. Osmotic treatment of callus with 0.4 M sorbitol enhanced efficiency of particle bombardment mediated genetic transformation. Regenerative calli were bombarded at optimum conditions of bombardment and placed on regeneration medium with hygromycin to obtain transformed plants. The integration of hptII and gus A genes was confirmed with PCR amplification of 684 and 634 bp sizes of the bands respectively from putative transformants and Southern blot hybridization using PCR amplified DIG labeled hptII gene as probe. PCR analysis with hptII gene specific primers indicated the presence of transgene in T₁ generation plants. Thus a successful genetic transformation system was developed using particle bombardment in E. coracana with 45.3% transformation efficiency. The protocol will be helpful for the introgression of desired genes into E. coracana.     

An efficient method for transformation of pre-androgenic,isolated <Emphasis Type="Italic">Brassica napus</Emphasis> microspores involving microprojectile bombardment and <Emphasis Type="Italic">Agrobacterium-</Emphasis>mediated transformation

The physical barrier imposed by the thick microspore wall constitutes an obstacle for an efficient Agrobacterium-mediated transformation of vacuolate microspores prior to androgenic induction and haploid embryogenic commitment. It is thus necessary to implement additional methods to overcome this drawback. In this study, we focused on the optimization of a protocol to allow for the exogenous DNA to enter the microspore in an efficient manner. We tested different options, based on microprojectile bombardment, to be applied prior to agroinfiltration. From them, the best results were obtained through co-transformation by microspore bombardment with DNA-coated microprojectile particles, followed by Agrobacterium tumefaciens infection. This method provides an efficient means to integrate extraneous DNA into rapeseed microspores prior to androgenesis induction.     

Transfer of Lysine-rich Protein Gene into Rice and Production of Fertile Transgenic Plants

Lysine-rich protein gene (lys) was cloned from Psophocarpus tetragonolobus (L.) DC. A plant expression plasmid was constructed and lys gene was under the control of maize ubiquitin promoter which is the highest efficient monocotyledon promoter. The plasmid was introduced into rice embryogenic calli by microprojectile bombardment. The regenerated fertile plants were obtained by effective selection for hygromycin B resistance. Genomic PCR and Southern blotting analyses showed that the lys gene has been integrated into rice genome. Simultaneously, the results of GUS histochemical assay demonstrated the transgenic rice plants. Data analysis showed that lysine content in most of the 11 transgenic plants is differently improved, and in one of them increased by 16.04%.     

高赖氨酸蛋白基因导入水稻及可育转基因植株的获得

构建了一个植物高效表达质粒,使来源于四棱豆（Psophocarpus tetragonolobus(L.)DC)的高赖氨酸蛋白基因（lys）受控于单子叶植物ubiqutin强启动子下表达。用基因枪法将其导入水稻(Oryza sativa L.)幼胚诱导的愈伤组织,经潮霉素抗性筛选,得到可育的再生植株。经PCR和Southem blotting检测,表明该基因已整合到水稻的基因组织。GUS组织化学染色表明转基因水稻植株的叶、茎和根中均有gus基因的表达。测定112株转基因水稻叶片中赖氨酸叶量,大部分植株有不同程度的提高,最高幅度为16．04％。     

A fluorescent antibiotic resistance marker for rapid production of transgenic rice plants

Blasticidin S (BS) is an aminoacylnucleoside antibiotic used for the control of rice blast disease. To establish a new cereal transformation system, we constructed a visual marker gene designated gfbsd, encoding an enhanced green fluorescent protein (EGFP) fused to the N-terminus of BS deaminase (BSD). It was cloned into a monocot expression vector and introduced into rice (Oryza sativa L. cv. Nipponbare) calluses by microprojectile bombardment. Three to five weeks after the bombardment, multicellular clusters emitting bright-green EGFP fluorescence were obtained with 10 microg/ml BS, which is not sufficient to completely inhibit the growth of non-transformed tissues. Fluorescent sectors (approximately 2mm in diameter) excised from the calluses regenerated into transgenic plantlets (approximately 10 cm in height) as early as 51 (average 77+/-11) days after the bombardment. The visual antibiotic selection was more efficient and required less time than the bialaphos selection with bar. In addition, the small size (1.1 kb) of gfbsd is preferable for construction of transformation vectors. This new marker gene will make a significant contribution in molecular genetic studies of rice plants.     

Optimization of parameters for particle bombardment of embryogenic suspension cultures of cassava (Manihot esculenta Crantz) using computer image analysis

Tissue derived from embryogenic suspension cultures of cassava was bombarded with microparticles coated with a plasmid containing theuidA gene, which codes for-glucuronidase (GUS). After 3 days, the effect of different bombardment parameters was evaluated by comparing the numbers of blue spots that resulted from histological GUS assays. Counting of blue spots was performed using a system comprised of a black and white video camera, a stereoscope and a personal computer. A reproducible counting method was established by optimizing GUS assay conditions, preparation of tissue samples and acquisition of video images in view of attaining the highest possible contrast between the blue spots and the surrounding tissue. The effects of bombardment pressure, microparticle size, number of bombardments, and osmotic pretreatment on GUS expression were investigated. Optimal transient expression of theuidA gene was observed after bombardment at 1100 psi, with a particle size of 1 µm, an osmotic pretreatment and two bombardments per sample. The highest number of blue spots observed was 2400 per square centimeter of bombarded tissue.     

Transformation of peanut with a soybean vspB promoter‐uidA chimeric gene. I. Optimization of a transformation system and analysis of GUS expression in primary transgenic tissues and plants

Direct DNA delivery via microprojectile bombardment has become an established approach for gene transfer into peanut ( Arachis hypogaea L.). To optimize our transformation protocol and to simultaneously explore the function of a heterologous promoter whose activity is developmentally regulated, embryogenic cultures from three peanut cultivars were bombarded with two plasmid constructs containing a uidA gene controlled by either a soybean vegetative storage protein gene promoter or a cauliflower mosaic virus 35S promoter. We found that GUS transient expression was useful to predict stable transformation and confirmed that image analysis could provide a quick and efficient method for semi‐quantitation of transient expression. One hundred and sixty hygromycin‐resistant cell lines were recovered from and maintained on selective medium, and those tested by Southern blot analysis showed integration of the foreign gene. Over 200 transgenic plants were regenerated from 38 cell lines. More than 100 plants from 32 cell lines flowered and 79 plants from 19 cell lines produced pods. Over 1000 R₁ seeds were harvested. Analysis of expression in primary transgenic plants showed that GUS expression driven by the vspB promoter was modulated by chemical and positional information.     

Factors affecting the genetic engineering of plants by microprojectile bombardment

Since its development in the mid-1980s, microprojectile bombardment has been widely employed as a method for direct gene transfer into a wide range of plants, including the previously difficult-to-transform monocotyledonous species. Although the numerous instruments available for microprojectile-mediated gene delivery and their applications have been widely discussed, less attention has been paid to the critical factors which affect the efficiency of this method of gene delivery. In this review we do not wish to describe the array of devices used for microprojectile delivery or their uses which have already been definitively described, but instead wish to report on research developments investigating the factors which affect microprojectile-mediated transformation of plants.     

Development of an efficient transient transformation protocol for avocado (Persea americana Mill.) embryogenic callus

An efficient protocol for transient transformation of avocado embryogenic callus has been established, using the PDS-1000/He system and the reporter gus gene driven by the sunflower polyubiquitin promoter. Best physical parameters for transient transformation were 900 psi helium pressure and 6 cm target distance. The level of transient gus expression was slightly higher when the amount of DNA per shot was increased from 0.6 to 1.8 μg, but it was not significantly modified by the type of microprojectile used (tungsten vs. gold particles). The transient transformation assay developed in this research was used to test the strength of different promoters and the expression of fluorescent reporter genes. Four constitutive promoters, sunflower polyubiquitin, CaMV35S, CaMV35S with enhancer, and rice actin 1, as well as a trichome-specific promoter, ATP, were analyzed. Polyubiquitin and ATP promoters yielded the highest number of gus expressing foci, while no expression was detected with the Act1 promoter from rice. Embryogenic callus was also bombarded with plasmids pXK7S*NF2 and pXK7RNR2, harboring the enhanced green fluorescent gene, EGFP, and the red fluorescent gene DsRed, respectively. Both fluorescent proteins were detected 24 and 72 h after bombardment, but the observed transformation efficiency was slightly higher in GFP bombarded cells. The transient transformation system described here can be used as a fast way to select suitable promoters and/or fluorescent genes needed to undertake stable transformation studies in avocado using currently available protocols.     

影响籼稻基因枪法遗传转化效果的几个因素的研究（简报）

Four factors influence on transformation of indica rice, which were high osmotic treatment; different explant as the target tissue; pressure of rupture disk and quantity of plasmid DNA, were investigated in this experiment. High osmotic treatment of target tissue prior to and after bombardment increased 3.2-fold for Gus transient expression than control. The best treatment of high osmotic was that the target tissues were kept in the target-bed medium which contained 0.4-0.6 mol/L sorbitol and manitol each for 4 h prior to bombardment and for 16 h after bombardment. Four explants: scutellum from mature seed, young panicle, embryogenic callus and suspension cells of indica rice were tested as target explant by particle bombardment. The results of Gus transient showed that the highest expression was scutellum and for other three explants, the order from high to low was young panicle, embryogenic callus and suspension cell. Transgenic plants were obtained from all of the explants except young panicle. For the pressure of rupture disk on transformation, 1100 psi or 1300 psi of the pressure of rupture disk were best one for the transformation and higher than 1300 psi could damage the target tissue which become black and died in the following culture duration. For the quantity of plasmid DNA, the results showed that 0.83 microgram of plasmid DNA per bombardment was preferred for the transformation of indica rice.     

Effects of tissue type and promoter strength on transient GUS expression in sugarcane following particle bombardment

Effects of tissue type and promoter strength on transient GUS expression in the sugarcane (Saccharum spp. hybrids) cultivar NCo 310 were evaluated following microprojectile bombardment of leaf explants. GUS expression was histochemically or fluorometrically measured 48 h after delivery of the uidA gene. High levels of GUS expression were obtained in leaf segments isolated from young, expanding sugarcane leaves cultured for 1, 3, or 6 d prior to bombardment. The promoter derived from the maize ubiquitin 1 gene (Ubi-1) produced significantly more GUS foci and higher GUS activity levels compared to the recombinant Emu, rice actin 1 (Act1), and CaMV 35S promoters. Our transient expression system should facilitate efforts to identify promoters and elements which will regulate desired gene expression patterns in sugarcane and aid in development of an efficient stable transformation system.Abbreviations Act1 rice actin 1 gene - CaMV cauliflower mosaic virus - GUS ß-glucuronidase - Ubi-1 maize ubiquitin 1 gene - uidA GUS gene - X-Glu 5-bromo-4-chloro-3-indoylglucuronide     

Genetic Transformation of Rice

Rice was the first major monocot crop species to be transformed and regenerated. Initially, rice transformation was limited to japonica cultivars. Subsequently, a number of indica and javanica cultivars have also been transformed and regenerated into fertile transgenic plants. Most transformation studies in rice have used direct DNA uptake into protoplasts, induced by polyethylene glycol treatment or electroporation. Recently, other transformation methods have been developed that are less genotype dependent, such as microprojectile bombardment of cell suspensions and immature embryos. This review summarizes progress in both protoplast-based and other transformation methods.