Transgene inheritance in plants genetically engineered by microprojectile bombardment

Microprojectile bombardment to deliver DNA into plant cells represents a major breakthrough in the development of plant transformation technologies and accordingly has resulted in transformation of numerous species considered recalcitrant toAgrobacterium- or protoplast-mediated transformation methods. This article attempts to review the current understanding of the molecular and genetic behavior of transgenes introduced by microprojectile bombardment. The characteristic features of the transgene integration pattern resulting from DNA delivery via microprojectile bombardment include integration of the full length transgene as well as rearranged copies of the introduced DNA. Copy number of both the transgene and rearranged fragments is often highly variable. Most frequently the multiple transgene copies and rearranged fragments are inherited as a single locus. However, a variable proportion of transgenic events produced by microprojectile bombardment exhibit Mendelian ratios for monogenic and digenic segregation vs events exhibiting segregation distortion. The potential mechanisms underlying these observations are discussed.     

Transgenic tobacco plants and their progeny derived by microprojectile bombardment of tobacco leaves

Transgenic tobacco plants and progeny carrying coding sequences for neomycin phosphotransferase II (NPTII) and beta-glucuronidase (GUS) were recovered following microprojectile bombardment of tobacco leaves. Transgenic plants were regenerated from bombarded leaf pieces of tobacco cvs. Xanthi and Ky 17 which were cultured in the presence of 100 or 200 g/ml kanamycin for six to eight weeks. Among 160 putative transgenic plants from at least 16 independent transformation events 76% expressed NPTII, and 50% expressed GUS. Southern analysis of plants expressing either one or both of the enzymes indicated DNA in high molecular weight DNA in 8 of 9 independent transformants analyzed. Two independent transformants and their progeny were analyzed in detail. Analysis of progeny for quantitative enzyme levels of NPTII and GUS, and Southern analysis of parents and progeny clearly demonstrated that the genes were transmitted to progeny. One transformant demonstrated Mendelian ratios for seed germination on kanamycin-containing medium while the other transformant had non-Mendelian ratios. DNA analysis of progeny indicate complex integration of the plasmid DNA, and suggest that rearrangements of this DNA has occurred. These results are consistent with other methods of direct DNA uptake into cells, and verify that the microprojectile bombardment method is capable of DNA delivery into intact plant cells which can give rise to transgenic plants and progeny.     

Genetic transformation of Leymus chinensis with the PAT gene through microprojectile bombardment to improve resistance to the herbicide Basta

Chinese leymus [Leymus chinensis (Trin.) Tzvel.] is a perennial grass (tribe Gramineae) that is widely distributed throughout northern China and Mongolia where it is produced as a forage product. Severe production losses due to weed growth have serious economic consequences, and as non-selective herbicides not only kill the weeds but are also harmful to this forage grass, the introduction of a foreign gene for resistance to the herbicide Basta is necessary since this species lacks herbicide resistance. We have investigated the transformation of a gene for phosphinothricin acetyltransferase (PAT) through microprojectile bombardment in Chinese leymus. Calli from immature inflorescences cultured on N6 medium supplemented with 2.0 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D) and 5.0 mg/l of glutamine were bombarded. The bombarded calli survived on selection medium with 1.0 mg/l of phosphinothricin (PPT). Twenty-three plantlets regenerated from resistant calli on differentiation medium supplemented with 1.0 mg/l 6-benzylaminopurine, 1.0 mg/l kinetin, and 1.0 mg/l PPT, and five of these regenerated plantlets survived on rooting medium with 1.0 mg/l of PPT. PCR and Southern blotting analyses indicated that the PAT gene had been integrated into the genomes of two Chinese leymus plantlets and that the gene was stably transferred to its clonal offsprings. There were no other phenotypic effects associated with transgene expression during vegetative growth except tolerance to the herbicide Basta.The Biotechnology of Pasture Plant Program is funded by the Key Project of the Chinese Academy of Sciences (KSCX1-08)     

基因枪法向小麦导入几丁质酶基因的研究

利用基因枪法,以菜豆几丁质酶基因转化小麦幼胚愈伤组织。在轰击压力1300psi,轰击距离6cm、100μg金粉/枪和轰击距离9cm、150μg金粉/枪的2种处理条件下,获得4株春小麦东农7742转化植株,转化频率分别为0.36％和0.56％。经PCR和PCR-Southern杂交分析,证实菜豆几丁质酶基因已整合到T0和T1小麦基因组中。采用氨基葡萄糖法测定几丁质酶活力,结果表明,转基因小麦的几丁质酶活力明显高于对照株;转基因植株对白粉病症状减缓,并获得一株赤霉菌接种未扩展的转基因T1植株。     

Effects of microprojectile bombardment on embryogenic suspension cell cultures of maize (Zea mays L.) used for genetic transformation

We have investigated the interaction between tungsten and gold microprojectiles with suspension-culture cells of maize used for genetic transformation. Particle size measurements were evaluated before and after DNA precipitation to determine mean particle size and the effect of DNA precipitation on particle aggregation. Following particle bombardment, metal foils were examined by scanning electron microscopy to visualize dispersion of individual particles and aggregates. Particle penetration into suspension-culture cell clusters was examined in paraffin-embedded bombarded cells serially sectioned and viewed with light microscopy and by energy dispersive X-ray microanalysis. Acridine-orange-stained bombarded cells were examined to observe cellular response to particle penetration. Transient expression of reporter genes C1 and B and GUS, (-glucuronidase) were used to assess effects of particle bombardment on embryogenic cell types. Autoradiographic analysis of the transformable suspension cell culture SC82 (see Gordon-Kamm et al. 1990, Plant Cell 2, 603–618) was conducted to evaluate the S-phase and mitotic indices in embryogenic and nonembryogenic cells throughout a subculture passage and in response to DNA/particle delivery. The results of these investigations are discussed relative to cytodifferentiation of suspension cell clusters and recovery of transformed clonal sectors.Abbreviations GUS -glucuronidase - FAA formaldehyde-acetic acid-alcohol - SEM scanning electron microscopy     

Transgenic Italian ryegrass (Lolium multiflorum) plants from microprojectile bombardment of embryogenic suspension cells

Transgenic forage-type Italian ryegrass (Lolium multiflorum Lam.) plants have been obtained by microprojectile bombardment of embryogenic suspension cells using a chimeric hygromycin phosphotransferase (hph) gene construct driven by riceActl 5 regulatory sequences. Parameters for the bombardment of embryogenic suspension cultures with the particle inflow gun were partially optimized using transient expression assays of a chimeric-glucuronidase (gusA) gene driven by the maizeUbi1 promoter. Stably transformed clones were recovered with a selection scheme using hygromycin in liquid medium followed by a plate selection. Plants were regenerated from 33% of the hygromycin-resistant calli. The transgenic nature of the regenerated plants was demonstrated by Southern hybridization analysis. Expression of the transgene in transformed adult Italian ryegrass plants was confirmed by northern analysis and a hygromycin phosphotransferase enzyme assay.Abbreviations 2,4-D 2,4 Dichlorophenoxyacetic acid - GUS Glucuronidase - Hm Hygromycin - HPH Hygromycin phosphotransferase - MS medium Murashige and Skoog medium - PCR Polymerase chain reaction - X-Gluc 5-Bromo-4-chloro--indolyl--D-glucuronic acid     

基因枪轰击谷子幼穗获得转基因植株

以ＪＱ－７００型国产基因枪轰击豫谷２号谷子幼穗,在１５０ｍｇ／Ｌ卡那霉素选择培养基上筛选到９０８块抗性愈伤组织,其中,绿芽块愈伤５块,共分化出１６株绿苗,组织化学检测ＧＵＳ表达,获得３株阳性植株,Ｓｏｕｔｈｅｒｎ杂交证明１株为阳性。以轰击总外植体计算的转基因植株频率为０．０５％。     

基因枪介导甘蔗遗传转化几个影响因素的研究

用基因枪GJ1000介导将Bt基因转入甘蔗嫩叶、Ⅰ型愈伤组织和Ⅱ型愈伤组织。结果表明,用Ⅱ型愈伤组织作为受体最用利于转化;气体压力、轰击距离、轰击次数和真空度对转化效率有不同程度的影响。条件优化后,得到了大量的抗性愈伤组织和一些抗性植株,转化率分别为34.9％和3.36％。     

Factors affecting transient gene expression in cultured radiata pine cotyledons following particle bombardment

Transfer and expression of the β–glucuronidase gene ( gusA ) in cultured cotyledons of radiata pine ( Pinus radiata D. Don ) were obtained by particle bombardment. Conditions for optimum transient expression were established by using plasmid pB[/12], delivered by gold particles, 1.6 μm in diameter, into 8-day-old cultured cotyledons. Helium pressure of 7.6 MPa, bombardment distance between the stopping screen and the target tissues of 6 cm, and 0.8 μg of plasmid DNA per bombardment proved to be the best parameters for transient expression; using these parameters 79% of bombarded cotyledons showed GUS activity, with 4.3 blue spots per cotyledon. This system was used for studying the expression of several gus-driven promoters the expression of the sunflower ubiquitin gene promoter was higher (99% of positive cotyledons, with 14.2 blue spots per cotyledon) than that of the CaMV 35S promoter, whereas the rice actin and the maize alcohol dehydrogenase gene promoters gave lower gusA expression, as determined histochemically. These results were confirmed by using the gus fluorometric assay. Use of the sunflower ubiquitin gene promoter resulted in gusA expression up to 20 days after bombardment, with a significant level of gus expressing loci per bombarded cotyledon, whereas with the CaMV 35S promoter gusA expression was lost 12 days after bombardment.     

Genetic transformation of Cavendish banana (Musa spp. AAA group) cv 'Grand Nain' via microprojectile bombardment

 An effective method has been developed for the stable transformation and regeneration of Cavendish banana (Musa spp. AAA group) cv 'Grand Nain' by microprojectile bombardment. Embryogenic cell suspensions were initiated using immature male flowers as the explant. Cells were co-bombarded with the neomycin phosphotransferase (nptII) selectable marker gene under the control of a banana bunchy top virus (BBTV) promoter or the CaMV 35S promoter, and either the β-glucuronidase (uidA) reporter gene or BBTV genes under the control of the maize polyubiquitin promoter. Plants were regenerated, under selection with kanamycin, that were co-transformed with nptII and either the uidA or BBTV genes. Molecular characterisation of transformants demonstrated that the transgenes had been stably integrated into the banana genome. Received: 22 June 1998 / Revision received: 29 March 1999 / Accepted 1 May 1999     

Complete sequence analysis of transgene loci from plants transformed via microprojectile bombardment

A substantial literature exists characterizing transgene locus structure from plants transformed via Agrobacterium and direct DNA delivery. However, there is little comprehensive sequence analysis of transgene loci available, especially from plants transformed by direct delivery methods. The goal of this study was to completely sequence transgene loci from two oat lines transformed via microprojectile bombardment that were shown to have simple transgene loci by Southern analysis. In line 3830, transformed with a single plasmid, one major and one of two minor loci were completely sequenced. Both loci exhibited rearranged delivered DNA and flanking genomic sequences. The minor locus contained only 296 bp of two non-contiguous fragments of the delivered DNA flanked by genomic (filler) DNA that did not originate from the integration target site. Predicted recognition sites for topoisomerase II and a MAR region were observed in the transgene integration target site for this non-functional minor locus. Line 11929, co-transformed with two different plasmids, had a single relatively simple transgene locus composed of truncated and rearranged sequences from both delivered DNAs. The transgene loci in both lines exhibited multiple transgene and genomic DNA rearrangements and regions of scrambling characteristic of complex transgene loci. The similar characteristics of recombined fragments and junctions in both transgenic oat lines implicate similar mechanisms of transgene integration and rearrangement regardless of the number of co-transformed plasmids and the level of transgene locus complexity.     

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.     

Transgenic Russian wildrye (<Emphasis Type="Italic">Psathyrostachys juncea</Emphasis>) plants obtained by biolistic transformation of embryogenic suspension cells

Russian wildrye (Psathyrostachys juncea (Fisch.) Nevski) is a cool-season forage species well adapted to semi-arid climates. We are interested in developing biotechnological methods to improve this monocot forage species. Single genotype-derived embryogenic suspension cultures were established from the Russian wildrye cultivar Bozoisky-Select, and were used as target cells for biolistic transformation. A chimeric hygromycin phosphotransferase gene (hph) was used as the selectable marker, and a chimeric -glucuronidase (gusA) gene was co-transformed with hph. Resistant calli were obtained from 29% of the bombarded dishes after selection with 200 mg/l hygromycin. Plants were regenerated from 45% of the hygromycin resistant calli. Thirty-six transgenic Russian wildrye plants were recovered after microprojectile bombardment of suspension cells and subsequent hygromycin selection. The transgenic nature of the regenerated plants was demonstrated by Southern hybridization analysis using undigested and digested genomic DNA samples. When a second gene (gusA) was co-transformed with hph, a reasonably high co-transformation frequency of 78% was observed. Transgenic expression of gusA was confirmed by GUS staining of shoot and leaf tissues. Fertile transgenic plants were obtained after two winters of vernalization under field conditions. This is the first report on the generation of transgenic plants in Russian wildrye.     

Transformation of maize using microprojectile bombardment: An update and perspective

Summary Using microprojectile bombardment of maize suspension cultures and bialaphos selection, transformed embryogenic calli have been recovered in numerous independent experiments. Fertile transgenic plants have been regenerated from several transformed callus lines. Stable inheritance and expression ofbar and functional activity of the enzyme phosphinothricin acetyl transferase were observed in three subsequent generations of transformed plants. Evidence to date indicates that the transformation process and the presence of the foreign gene per se do not detrimentally influence either plant vigor or fertility. This represents a practical method for introducing foreign genes into maize, which may be applicable to other monocot species. Presented in the Session-in-Depth Genetic Transformation and Genetic Analysis Using Microprojectile Bombardment at the Annual Meeting of the Tissue Culture Association, Houston, Texas, June 10–13, 1990.     

Plant transformation: a simple particle bombardment device based on flowing helium

We observed that flowing helium at moderate pressures accelerated DNA-coated microprojectiles to velocities suitable for penetration of cells in intact plant tissues. The flowing helium principle permitted the construction of a simple and inexpensive transformation device that was easier to use than those previously described. This device provided efficient transformation of cells in soybean seedlings and other plants.     

E. coli chromosomal DNA in a transgene locus created by microprojectile bombardment in tobacco

Transgenic Research -     

Introduction and constitutive expression of a rice chitinase gene in bread wheat using biolistic bombardment and the bar gene as a selectable marker

 Our long-term goal is to control wheat diseases through the enhancement of host plant resistance. The constitutive expression of plant defense genes to control fungal diseases can be engineered by genetic transformation. Our experimental strategy was to biolistically transform wheat with a vector DNA containing a rice chitinase gene under the control of the CaMV 35 S promoter and the bar gene under control of the ubiquitin promoter as a selectable marker. Immature embryos of wheat cv ‘Bobwhite’ were bombarded with plasmid pAHG11 containing the rice chitinase gene chi11 and the bar gene. The embryos were subcultured on MS2 medium containing the herbicide bialaphos. Calli were then transferred to a regeneration medium, also containing bialaphos. Seventeen herbicide-resistant putative transformants (T₀) were selected after spraying with 0.2% Liberty, of which 16 showed bar gene expression as determined by the phosphinothricin acetyltransferase (PAT) assay. Of the 17 plants, 12 showed the expected 35-kDa rice chitinase as revealed by Western blot analysis. The majority of transgenic plants were morphologically normal and self-fertile. The integration, inheritance and expression of the chi11 and bar genes were confirmed by Southern hybridization, PAT and Western blot analysis of T₀ and T₁ transgenic plants. Mendelian segregation of herbicide resistance was observed in some T₁ progenies. Interestingly, a majority of the T₁ progeny had very little or no chitinase expression even though the chitinase transgene was intact. Because PAT gene expression under control of the ubiquitin promoter was unaffected, we conclude that the CaMV 35 S promoter is selectively inactivated in T₁ transgenic wheat plants. Received: 12 May 1998 / Accepted: 15 May 1998     

Microprojectile bombardment as a reliable method for transformation of the mucoralean fungus Absidia glauca

Genetic analysis of all Mucor-like fungi is severely impaired by the low efficiency of transformation systems and the genetic instability of the introduced plasmid constructs. The transformation efficiency of one of the model systems among mucoralean fungi, Absidia glauca, was improved considerably by microprojectile bombardment. For this purpose, a plasmid was constructed conferring (i) neomycin resistance as a selective marker and (ii) fluorescence due to expression of the gfp gene from the jellyfish Aequorea victoria. Compared with previous techniques, this method offers increased efficiency, with considerably easier handling than procedures based on protoplasts and, therefore, improved reliability. The uninucleate sporangiospores of A. glauca can be transformed early during the germination process. At this stage the number of nuclei ranges between 1 and 2. Thus, the abundance of transgenic nuclei in the coenocytic mycelia is high, and fewer problems are encountered with detecting low expression levels of the genes used for selection and monitoring of transformants.     

葡萄基因工程研究进展

植物基因工程技术为培育优良葡萄品种开辟了一条全新而有效的途径。葡萄基因转化受体系统的建立主要包括器官发生途径和胚状体发生途径,建立良好的受体系统是葡萄基因转化成功的关键,遗传转化途径主要有根癌农杆菌介导的遗传转化和基因枪法。概述了迄今国内外葡萄基因工程的研究进展,着重对葡萄基因转化受体系统的建立、转化的方法、转化植株的筛选和检测、影响葡萄基因转化的主要因素等进行了综述,并展望了葡萄基因工程的发展前景。