Evaluation of peanut (Arachis hypogaea L.) leaflets from mature zygotic embryos as recipient tissue for biolostic gene transfer

Leaflets from mature peanut embryos are a useful recipient tissue for biolistic DNA transfer. Fertile plants were regenerated from leaflets from genotypes representing all botanical types of peanut. Regeneration frequency was strongly influenced by genotype. NPT II and GUS chimaeric gene fusions, driven by the CaMV 35S promoter, were expressed transiently following biolistic delivery to unexpanded leaflets. Bombardment conditions affecting transient expression frequency were determined using a prototype of the Bio Rad PDS 1000/He helium-powered particle acceleration apparatus. Stably transformed calli were derived routinely from leaflet tissue bombarded with the NPT II gene and subsequently cultured on kanamycin. Several plants have been regenerated from treated explants under kanamycin selection. Thus far, none of these has been stably transformed. The occurrence of escapes suggests that kanamycin is an inefficient selective agent for the recovery of transgenic peanuts from this explant. Experiments designed to regenerate plants using published regeneration protocols from stably transformed calli, devoid of primary explant tissue, have been unsuccessful.     

Transient and stable transformation of wheat with DNA preparations delivered by a biolistic method

An optimized procedure for transformation of wheat with the use of a Biolistic Particle Delivery System PDS 1000/He to deliver foreign DNA is described in detail. The bacterial uidA and bar genes (both driven by plant promoters) were utilized as the reporter and selectable marker genes, respectively. Moderately high gas pressure appeared to be most important to achieve the highest level of transient GUS expression in target tissues. There was, however, no apparent correlation between transient and stable GUS expression. The presence of telomeric DNA sequences in an uidA gene-containing vector did not influence transient GUS expression but, apparently, prevented its stable expression. Mechanical lesions caused by the bombardment (tungsten particles) seemed to be less severe when embryo- derived calli, instead of freshly excised immature embryos, were used as the target tissue. The limited ability of callus cells for regeneration, together with a restricted number of cells that receive the foreign DNA by particle bombardment, result in a low efficiency of wheat stable transformation.     

Biological projectiles (phage, yeast, bacteria) for genetic transformation of plants

Summary Bacteriophage lambda particles, yeast cells, and bacterial cells were tested as projectiles to deliver marker/reporter genes into plant cells via the biolistic process. When phage particles were complexed to tungsten or gold particles and used to bombard tobacco cells, fewer than 15 cell clusters per plate transiently expressed β-glucuronidase (GUS). Cells of wildtype Saccharomyces cerevisiae were too large to be effective projectiles, but use of a reduced-size mutant resulted in a small number of transformants. Escherichia coli cells complexed with tungsten were the most effective projectile for plant transformation. Various methods to prepare E. coli were tested to reduce particle size, improve binding of bacteria to metal particles, and/or minimize particle clumping. In maize, the number of transformants was highest when bacteria/tungsten particles were air-dried onto macrocarriers from an aqueous solution. When maize cells were bombarded with bacteria/tungsten projectiles, rates of transient gene expression (2000 per plate) and stable transformation (50 per plate) were only two- to threefold lower than when purified DNA was used. Transformation of tobacco with E. coli projectiles was improved when the bacteria were treated with a series of ethanol and ether washes, then dried into a powder. Nevertheless, tobacco transformation was still 24- (transient) and 200-fold (stable) less than when purified DNA was used. Biological projectiles can be effective for plant transformation and are advantageous because once a DNA construct is made and put into the appropriate microorganism, the need to isolate and purify DNA for the biolistic process is eliminated, which saves time and lessens DNA shear. Such projectiles may be especially well suited where high molecular weight DNA constructs are needed.     

Transient expression of β-glucuronidase in different cellular compartments following biolistic delivery of foreign DNA into wheat leaves and calli

Summary Transient expression of -glucuronidase (GUS) in different cellular compartments following biolistic delivery of chloroplast or nuclear expression vectors into wheat leaves or calli, derived from anther culture or immature embryos, is reported here. When pB1121, the nuclear GUS vector, was used to bombard wheat cells, the -glucuronidase product, an insoluble indigo dye, was observed evenly throughout the cytosol. But, when the chloroplast expression vector pHD203-GUS was used for bombardments, the indigo dye (GUS product) was subcellularly localized within the chloroplasts of wheat cells. The observation of GUS expression in albino plastids, when anther culture derived albino leaves were bombarded with the chloroplast expression vector pHD203-GUS, suggests the presence of a functional protein synthetic machinery in these organelles. GUS expression was also observed in regenerable calli derived from wheat immature embryos bombarded with pHD203-GUS. Leaves or calli bombarded with pUC19, as negative controls, did not show any GUS expression. These results constitute the first demonstration of foreign gene expression in chloroplasts of a monocot and that a dicot chloroplast promoter functions in a monocot chloroplast.     

An improved rice transformation system using the biolistic method

Immature embryos and embryogenic calli of rice, both japonica and indica subspecies, were bombarded with tungsten particles coated with plasmid DNA that contained a gene encoding hygromycin phosphotransferase (HPH, conferring hygromycin resistance) driven by the CaMV 35S promoter or Agrobactenum tumefaciens NOS promoter. Putatively transformed cell clusters were identified from the bombarded tissues 2 weeks after selection on hygromycin B. By separating these cell clusters from each other, and by stringent selection not only at the callus growth stage but also during regeneration and plantlet growth, the overall transformation and selection efficiencies were substantially improved over those previously reported. From the most responsive cultivar used in these studies, an average of one transgenic plant was produced from 1.3 immature embryos or from 5 pieces of embryogenic calli bombarded. Integration of the introduced gene into the plant genome, and inheritance to the offspring were demonstrated. By using this procedure, we have produced several hundred transgenic plants. The procedure described here provides a simple method for improving transformation and selection efficiencies in rice and may be applicable to other monocots.Abbreviations bp base pairs - CaMV cauliflower mosaic virus - GUS -glucuronidase - HPH hygromycin phosphotransferase - hyg B hygromycin B - hyg^r hygromycin resistance - NOS Agrobactenum tumefaciens nopaline synthase - PCR polymerase chain reaction - X-Gluc 5-bromo-4-chloro-3-indolyl--D-glucuronide     

用基因枪法将人工雄性不育基因导入小麦的研究初报

利用ＰＤＳ１０００／氦气基因枪将人工构建的雄性不育基因（ＴＡ２９－Ｂａｒｎａｓｅ基因）导入小麦栽培品种豫责１８号的幼胚细胞。然后在含有１０～２０ｍｇ／Ｌ除草剂Ｂａｓｔａ的培养基础上筛选与分化。从１７０个幼胚中获得６株绿苗,对照的７０个幼胚中未得到绿苗。对其中３株已生根且长势好的绿苗进行Ｓｏｕｔｈｅｍ杂交分析,结果表明,这３株绿苗皆为转基因植株,转化效率达１．８％。     

Tungsten particle-induced nicking of supercoiled plasmid DNA

Small particles of metallic tungsten, known also as tungsten microprojectiles, are routinely used for biotechnological purposes. In such applications, tungsten was observed to affect the integrity of plasmid DNA. Here we present evidence that interaction between tungsten particles and intact circular plasmids pU19, pUC119, and ColE1 may result in generation of a limited number of single-strand DNA breaks. As a consequence, supercoiled DNA is converted into its open circular form and no fragmentation products can be detected. The rate of the tungsten-mediated reaction depends on pH but is not influenced by ascorbate, Tris, or EDTA. No DNA nicking can be observed when the tungsten particles are replaced by substances that can be leached out from these particles with water or incubation buffers. Likewise, commercial sodium tungstate, tungsten (VI) oxide, and tungsten (VI) chloride and products of its decomposition remain DNA undamaged. Native plasmid DNA molecules, upon adsorption on the surface of tungsten microparticles, may undergo some nicking without a need for participation of external catalysts.     

Relaxation,linearization and fragmentation of supercoiled circular DNA by tungsten microprojectiles

The aim of the study was to characterize DNA lesions caused by microprojectile bombardment and by the postbombardment presence of tungsten particles in transformed cells. For the sake of simplicity, plasmid DNA was used as a target for bombardment with naked tungsten particles. Unexpectedly extensive DNA degradation was observed under standard bombardment conditions. However, no further DNA fragmentation occurred under postbombardment conditions, simulated by incubation of plasmid DNA with a suspension of tungsten particles. Instead, relaxation and linearization of supercoiled circular plasmids (pAHC25 and others) took place. It is concluded that the observed linearization (a single site double–strand break in DNA circle) results from the ability of tungsten to catalyse the hydrolysis of phosphodiester bonds in torsionally strained sites of native DNA selectively.     

Optimization of delivery of foreign DNA into higher-plant chloroplasts

We report here an efficient and highly reproducible delivery system, using an improved biolistic transformation device, that facilitates transient expression of -glucuronidase (GUS) in chloroplasts of cultured tobacco suspension cells. Cultured tobacco cells collected on filter papers were bombarded with tungsten particles coated with pUC118 or pBI101.3 (negative controls), pBI505 (positive nuclear control) or a chloroplast expression vector (pHD203-GUS), and were assayed for GUS activity. No GUS activity was detected in cells bombarded with pUC118 or pBI101.3. Cells bombarded with pBI505 showed high levels of expression with blue color being distributed evenly throughout the whole cytosol of the transformants. pHD203-GUS was expressed exclusively in chloroplasts. We base this conclusion on: i) the procaryotic nature of the promoter used in the chloroplast expression vector; ii) delayed GUS staining; iii) localization of blue color within subcellular compartments corresponding to plastids in both shape and size; and iv) confirmation of organelle-specific expression of pHD203-GUS using PEG-mediated protoplast transformation. Chloroplast transformation efficiencies increased dramatically (about 200-fold) using an improved helium-driven biolistic device, as compared to the more commonly used gun powder charge-driven device. Using GUS as a reporter gene and the improved biolistic device, optimal bombardment conditions were established, consistently producing several hundred transient chloroplast transformants per Petri plate. Chloroplast transformation efficiency was found to be increased further (20-fold) with supplemental osmoticum (0.55 M sorbitol and 0.55 M mannitol) in the bombardment and incubation medium. This system provides a highly effective mechanism for introducing and expressing plasmid DNA within higher-plant chloroplasts, and the fact that GUS functions as an effective marker gene now makes many genetic studies possible which were not possible before.     

Stable genetic transformation of Larix gmelinii L. by particle bombardment of zygotic embryos

We report a new protocol for the stable transformation of Larix gmelinii. Thirty mature zygotic embryos precultured for 3 days on solid medium supplemented with benzyladenine were bombarded with plasmids pUC-GHG (GUS, HPT, and GFP genes) or pBI221-HPT (HPT and GUS genes). After a 2-month culture on selection medium, hygromycin-resistant calli appeared on the surfaces of the necrotic embryos. The frequencies of embryos with resistant calli were 18.4% and 17.4% in the transformations with pUC-GHG and pBI221-HPT DNA, respectively. More than 20 adventitious shoots formed from each of the transgenic calli. Of 17 elongated shoots selected for culturing on a rooting medium, five shoots rooted after 2 months. Expression of the GFP and GUS genes was detected in the resistant tissues by microscopic observations and by a histological GUS activity assay, respectively. PCR and Southern analysis confirmed the stable insertion of the introduced DNA into the genome.     

Genetic transformation of sweet potato by particle bombardment

Transient and stable expression of foreign genes has been achieved in sweet potato using the particle bombardment system of gene delivery. Callus and root isolates of two genotypes (Jewel and TIS-70357) with positive signs of transformation have been recovered. Tungsten microcarriers coated with plasmid DNA (pBI 221 containing the gusA gene) were accelerated at high velocity using a biolistic device into sweet potato target tissues. Histochemical examination of bombarded leaf and petiole explants revealed that most had cells expressing the gusA gene. When explants were cultured, calli and roots developed in most bombarded tissues. Similar results but with a lower frequency of transformation were observed when the plasmid pBI 121 (with gusA and antibiotic resistance npt II genes) was employed and bombarded explants cultured on an antibiotic selection medium. Subcultured roots and calli were positive for gusA expression when tested even after one year of in vitro culture, and thus the expression of the foreign gene is fairly stable. The particle bombardment approach of gene delivery appears to have a potential for generating transgenic sweet potatoes with useful agronomic traits.Abbreviations BA 6-benzylaminopurine - CaMV cauliflower mosaic virus - 2,4-D 2, 4-dichlorophenoxyacetic acid - GUS ß glucuronidase - NAA naphthaleneaceticacid - nos nopaline synthase gene - NPT II neomycin phosphotransferase II - MS Murashige and Skoog (1962) - MS-CP MS cell proliferation medium     

Biolistic transformation of a procaryote, Bacillus megaterium

We present a simple and rapid method for introducing exogenous DNA into a bacterium, Bacillus megaterium, utilizing the recently developed biolistic process. A suspension of B. megaterium was spread onto the surface of nonselective medium. Plasmid pUB110 DNA, which contains a gene that confers kanamycin resistance, was precipitated onto tungsten particles. Using a biolistic propulsion system, the coated particles were accelerated at high velocities into the B. megaterium recipient cells. Selection was done by use of an agar overlay containing 50 micrograms of kanamycin per ml. Antibiotic-resistant transformants were recovered from the medium interface after 72 h of incubation, and the recipient strain was shown to contain the delivered plasmid by agarose gel electrophoresis of isolated plasmid DNA. All strains of B. megaterium tested were successfully transformed by this method, although transformation efficiency varied among strains. Physical variables of the biolistic process and biological variables associated with the target cells were optimized, yielding greater than 10(4) transformants per treated plate. This is the first report of the biolistic transformation of a procaryote.     

Somatic embryogenesis and plant regeneration from floral explants of cacao (Theobroma cacao L.) using thidiazuron

Summary A procedure for the regeneration of cacao (Theobroma cacao) plants from staminode explants via somatic embryogenesis was developed. Rapidly growing calli were induced by culturing staminode explants on a DKW salts-based primary callus growth (PCG) medium supplemented with 20 g glucose per L, 9 μM 2,4-D, and thidiazuron (TDZ) at various concentrations. Calli were subcultured onto a WPM salts-based secondary callus growth medium supplemented with 20 g glucose per L, 9 μM 2,4-D, and 1.4 nM kinetin. Somatic embryos were formed from embryogenic calli following transfer to a hormone-free DKW salts-based embryo development medium containing sucrose. The concentration of TDZ used in PCG medium significantly affected the rate of callus growth, the frequency of embryogenesis, and the number of somatic embryos produced from each responsive explant. A TDZ concentration of 22.7 nM was found to be the optimal concentration for effective induction of somatic embryos from various cacao genotypes. Using this procedure, we recovered somatic embryos from all 19 tested cacao genotypes, representing three major genetic group types. However, among these genotypes, a wide range of variation was observed in both the frequency of embryogenesis, which ranged from 1 to 100%, and the average number of somatic embryos produced from each responsive explant, which ranged from 2 to 46. Two types of somatic embryos were identified on the basis of their visual appearance and growth behavior. A large number of cacao plants have been regenerated from somatic embryos and established in soil in a greenhouse. Plants showed morphological and growth characteristics similar to those of seed-derived plants. The described procedure may allow for the practical use of somatic embryogenesis for clonal propagation of elite cacao clones and other applications that require the production of a large number of plants from limited source materials.     

Flow cytometric analysis of somatic embryos, shoots, and calli of the cactus Copiapoa tenuissima Ritt. forma monstruosa

Flow cytometry was used for analyzing DNA contents of nuclei isolated from in vitro grown somatic embryos, shoots and calli, as well as mammillae of in vivo grown shoots of cactus, Copiapoa tenuissima Ritt. forma monstruosa. Endoreduplication was detected in both in vitro grown somatic embryos, shoots and calli and in mammillae derived from in vivo grown shoots. However, the lowest ploidy levels ranged from 2C to 4C in somatic embryos, and reaching up to 32C for in vitro grown shoots and calli from mammillae. Whereas, ploidy levels of in vivo-derived mammillae ranged from 2C to 16C. The presence of 2,4-dichlorophenoxyacetic acid (2,4-D) in the culture medium had no influence on levels of ploidy of regenerated tissues. The mean genome size of cactus was calculated as 2C = 2.87 ± 0.05 picogram (pg).     

Biolistic transformation of a procaryote, Bacillus megaterium.

We present a simple and rapid method for introducing exogenous DNA into a bacterium, Bacillus megaterium, utilizing the recently developed biolistic process. A suspension of B. megaterium was spread onto the surface of nonselective medium. Plasmid pUB110 DNA, which contains a gene that confers kanamycin resistance, was precipitated onto tungsten particles. Using a biolistic propulsion system, the coated particles were accelerated at high velocities into the B. megaterium recipient cells. Selection was done by use of an agar overlay containing 50 micrograms of kanamycin per ml. Antibiotic-resistant transformants were recovered from the medium interface after 72 h of incubation, and the recipient strain was shown to contain the delivered plasmid by agarose gel electrophoresis of isolated plasmid DNA. All strains of B. megaterium tested were successfully transformed by this method, although transformation efficiency varied among strains. Physical variables of the biolistic process and biological variables associated with the target cells were optimized, yielding greater than 10(4) transformants per treated plate. This is the first report of the biolistic transformation of a procaryote.     

提高小麦基因枪法转化频率的研究

用基因枪法将带Ｂａｒ－ＧＵＳ双标记基因的质粒较入普通春小麦品种中－６０６３４的幼胚盾片,并获基因植株。在轰击的经预培养３－４天的３４２块幼胚片再经筛选再生的植株中,经ＰＣＲ和Ｓｏｕｔｈｅｒｎ分析表明,     

Stable transformation via particle bombardment in two different soybean regeneration systems

The Biolistics^® particle delivery system for the transformation of soybean (Glycine max L. Merr.) was evaluated in two different regeneration systems. The first system was multiple shoot proliferation from shoot tips obtained from immature zygotic embryos of the cultivar Williams 82, and the second was somatic embryogenesis from a long term proliferative suspension culture of the cultivar Fayette. Bombardment of shoot tips with tungsten particles, coated with precipitated DNA containing the gene for -glucuronidase (GUS), produced GUS-positive sectors in 30% of the regenerated shoots. However, none of the regenerants which developed into plants continued to produce GUS positive tissue. Bombardment of embryogenic suspension cultures produced GUS positive globular somatic embryos which proliferated into GUS positive somatic embryos and plants. An average of 4 independent transgenic lines were generated per bombarded flask of an embryogenic suspension. Particle bombardment delivered particles into the first two cell layers of either shoot tips or somatic embryos. Histological analysis indicated that shoot organogenesis appeared to involve more than the first two superficial cell layers of a shoot tip, while somatic embryo proliferation occurred from the first cell layer of existing somatic embryos. The different transformation results obtained with these two systems appeared to be directly related to differences in the cell types which were responsible for regeneration and their accessibility to particle penetration.     

Induction of somatic embryogenesis from female flower buds of elite <Emphasis Type="Italic">Schisandra chinensis</Emphasis>

Somatic embryogenesis (SE) was induced in female flower buds from mature Schisandra chinensis cultivar ‘Hongzhenzhu’. Somatic embryo structures were induced at a low frequency from unopened female flower buds and excised unopened on Murashige and Skoog (MS) agar medium containing 4.0 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D). Friable embryogenic calli were induced from somatic embryo structures after three to four subcultures on initiation medium. The frequencies of mature somatic embryo germination and plantlet conversion were low, but increased in the presence of gibberellic acid (GA₃). Some germinated somatic embryos could form friable embryogenic calli on medium without plant growth regulators (PGRs). The germination and conversion frequencies of somatic embryos from embryogenic calli induced using PGR-free medium were higher than for somatic embryos from embryogenic calli induced on medium containing 2,4-D. Most somatic embryos from 2,4-D-induced embryogenic calli had trumpet-shaped embryos, and most somatic embryos from PGR-free medium–induced embryogenic calli had two or three cotyledons. Histological observation indicated that two- and three-cotyledon embryos had defined shoot primordia, but most of the trumpet-shaped embryos yielded plantlets that lacked or had poorly developed meristem tissue. Cytological and random amplification of polymorphic DNA (RAPD) analyses indicated no evidence of genetic variation in the plantlets of somatic embryo origin.     

Physical trauma and tungsten toxicity reduce the efficiency of biolistic transformation

A cell suspension culture of tobacco (Nicotiana tabacum L.) was used as a model to study injury to cells during biolistic transformation. Lawns of cells were bombarded with tungsten particles that were coated with a plasmid containing the β-glucuronidase and the neomycin phosphotransferase II genes. When a gunpowder-driven biolistic device was used, numerous transiently expressing cells were focused around the epicenter of the blast which was manifested by a hole blown in the filter paper supporting the cells. However, transformed cells nearest the blast epicenter were injured and could not be recovered as stable transformants. The injury was primarily caused by physical trauma to the cells from gas blast and acoustic shock generated by the device. Postlaunch baffles or meshes placed in the gunpowder device reduced cell injury and increased the recovery of kanamycin-resistant colonies 3.5- and 2.5-fold, respectively. A newly developed helium-driven device was more gentle to the cells and also increased the number of transformants. Cell injury could be further moderated by using a mesh and a prelaunch baffle in the helium device. Toxicity of the tungsten microprojectiles also contributed to cell injury. Gold microprojectiles were not toxic and resulted in fourfold more kanamycin-resistant colonies than when similar quantities of similarly sized tungsten particles were used.