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.     

Introduction and expression of foreign DNA in isolated spinach chloroplasts by electroporation

An electroporation-mediated method for the study of foreign gene expression within chloroplasts has been developed. The chloroplast expression vector pHD203-GUS, which consists of coding regions for β-glucuronidase (GUS) and chloramphenicol acetyltransferase (CAT) separated by a double psbA promoter fragment from pea (in opposite orientation) was electroporated into spinach chloroplasts and the transient gene expression was examined. Conditions for the expression of the reporter genes have been optimized. Both CAT and GUS activities were detected in chloroplasts electroporated with pHD203-GUS, but not with nuclear expression vector pBI221 or negative control pUC18. No GUS activity was detected when pHD203-GUS was electroporated into spinach protoplasts. Dot immunoblot analysis using anti-GUS antibody confirmed the existence of GUS protein in chloroplasts electroporated with chloroplast-specific vector but not the negative controls, excluding the possibilities of endogenous GUS or bacterial contamination. The expression of GUS protein in treated chloroplasts was further confirmed by Western blot analysis.     

Optimization of biolistic transformation of embryogenic grape cell suspensions

Embryogenic suspensions of Chancellor (Vitis L. complex interspecific hybrid) were bombarded with tungsten particles coated with plasmid pBI426 encoding ß-glucuronidase (GUS) and neomycin phosphotransferase (NPTII) which results in kanamycin resistance. Two d after bombardment, cultures were placed on semi-solid medium containing either 8.6 or 17.2 M kanamycin. Factors that affect biolistic transformation rates were studied. Tungsten microprojectiles with a mean diameter of 1.07 m (M10) resulted in more transient gene expression than 0.771 m diameter particles. Using M10 particles, helium pressures of 1000 and 1200 psi yielded more GUS-expressing colonies per plate than did 800 psi 2 d following bombardment. The number of transformants present after 34 d was not affected by the helium pressure. The distance between the particle launch site and the target cells, and the number of days between the last cell subculture and bombardment, did not affect the numbers of transient and long term GUS expressing colonies. The addition of 3 g/l of activated charcoal to the post-bombardment medium increased long term GUS expression four fold. Wrapping the plates after bombardment with Parafilm increased long term GUS expression three fold compared with plates wrapped with a porous venting tape. With up to 850 transformed callus colonies per plate 23 d after bombardment, the biolistic device holds much promise as a method to achieve stable transformation of grapevines.Abbreviations AC activated charcoal - GUS ß-glucuronidase - 2,4-D 2,4-dichlorophenoxyacetic acid - BA 6-benzylaminopurine - IAA-L-alanine indole-3 acetic acid L-alanine - MS Murashige and Skoog - CH casein hydrolysate - Km kanamycin - NPTII neomycin phosphotransferase II     

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     

Factors affecting gene delivery by particle bombardment ofDendrobium orchids

Summary Five parameters were examined for their effect on transformation ofDendrobium tissues by microprojectile bombardment. The superpromoter in pBI426 produced at least 1.5 times as many transient transformants as the single cauliflower mosaic virus 35S promoter in pBI121 (37 to 69% vs. 0 to 44%) with dark and frequent GUS (β-glucuronidase) staining. Tissue, genotype, and type of microparticle significantly affected transient GUS activity. Higher expression was seen in protocormlike bodies and in hybrid UH44 compared to etiolated shoots and protocorms and to hybrids M61 and K1329-39. Microparticles of 1.6-μm Bio-Rad gold were more effective than 1.0-μm ASI gold. Transient GUS activity did not differ among protocormlike bodies bombarded using helium propellant pressures of 650, 900, or 1100 psi. Transgenic plants were recovered fromDendrobium UH800 protocormlike bodies bombarded with pBI426-coated, 1.1-μm tungsten particles using an early-model gunpowder-driven apparatus with an estimated stable transformation rate of 11.7%. One transgenic plant ofDendrobium UH44 was recovered from etiolated shoot explants bombarded with pBI121-coated, 1.1-μm tungsten particles using the Dupont PDS-1000 with a stable transformation rate of 0.17%. Positive selection results showed 100 to 200 mg·liter⁻¹ kanamycin to be appropriate for regeneration of transgenic plants from protocormlike bodies, protocorms, and etiolated shoot explants over a 3- to 9.5-mo. period.     

Microprojectile bombardment of plant tissues increases transformation frequency by Agrobacterium tumefaciens

Bombardment of plant tissues with microprojectiles in an effective method of wounding to promote Agrobacterium-mediated transformation. Tobacco cv. Xanthi leaves and sunflower apical meristems were wounded by microprojectile bombardment prior to application of Agrobacterium tumefaciens strains containing genes within the T-DNA encoding GUS or NPTII. Stable kanamycin-resistant tobacco transformants were obtained using an NPTII construct from particle/plasmid, particle-wounded/Agrobacterium-treated or scalpel-wounded/Agrobacterium-treated potato leaves. Those leaves bombarded with particles suspended in TE buffer prior to Agrobacterium treatment produced at least 100 times more kanamycin-resistant colonies than leaves treated by the standard particle gun transformation protocol. In addition, large sectors of GUS expression, indicative of meristem cell transformation, were observed in plants recovered from sunflower apical explants only when the meristems were wounded first by particle bombardment prior to Agrobacterium treatment. Similar results in two different tissue types suggest that (1) particles may be used as a wounding mechanism to enhance Agrobacterium transformation frequencies, and (2) Agrobacterium mediation of stable transformation is more efficient than the analogous particle/plasmid protocol.     

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.     

Transient gene expression in cassava using high-velocity microprojectiles

The bacterial gene encoding -glucuronidase (GUS) was transiently expressed in cassava leaves following the introduction of the gene by microparticle bombardment. The DNA expression vector used to introduce the reporter gene is a pUC 19 derivative and consisted of a CaMV 35S promoter (P35S), the GUS coding region and 7S polyadenylation region. Several other promoters and regulating sequences were tested for efficiency in cassava leaves. Two derivatives of the P35S, one including a partial duplication of the upstream region of the P35S and the other containing a tetramer of the octopine synthase enhancer, were found to be expressed at three times the level of the P35S in cassava leaves. The ubiquitin 1 promoter fromArabidopsis thaliana was expressed at the same level as the P35S. No influence on the level of expression was observed when different 3 ends were used. The biolistic transient gene expression system in cassava leaves allows rapid analysis of gene constructs and can serve as a preliminary screen for chimeric gene function in the construction of transgenic cassava plants.     

Stable transformation of the food yam Dioscorea alata L. by particle bombardment

Summary A biolistic particle gun was used to deliver genetic material into intact yam cells. Cultured suspension cells of D. alata were bombarded with microprojectiles coated with pBI221.2 DNA and histochemical assays were carried out to show transient GUS expression in bombarded cells. Stably transformed D. alata cells were recovered from cultured cells after bombardment with microprojectiles coated with pRT99gus harbouring both the nptII and uidA genes. Bombarded cells were selected on a medium containing geneticin (G418). Two months after bombardment, calli resistant to G418 were assayed for GUS expression. There was a 100% correlation between resistance to G418 and GUS expression. From these calli, four cell lines were established and GUS activity in each line was determined fluorometrically. The use of a specific GUS inhibitor showed that the GUS activity was due to the introduced uidA gene rather than to any intrinsic GUS-like activity originating from the plant. Incorporation of the introduced DNA into the plant genomic DNA was confirmed by Southern analysis.Abbreviations GUS -glucuronidase - MU 4-Methylumbelliferone - MUG 4-Methylumbelliferyl--D-glucuronide - PVP Polyvinylpyrrolidone - SDS Sodium dodecyl sulphate - TAE Tris-acetate-EDTA buffer - X-Gluc 5-Bromo-4-chloro-3-indolyl--D-glucuronide     

Stable Transformation of the Intact Cells of Chlorella Kessleri with High Velocity Microprojectiles

A transgenic expression system of Chlorella kessleri using the gene for β-glucuronidase (GUS) was developed. Cells of this unicellular green alga were bombarded with the plasmid pBI 121, which bears β-glucuronidase under the control of CaMV 35S promoter and the kanamycin resistant gene. Maximum GUS activity was obtained after 48 h of bombardment using a helium pressure of 900 kPa; GUS activity was then assayed for many generations. The stable transformants were able to grow on kanamycin containing medium after repeated passages between selective and nonselective medium and exhibited GUS activity comparable to that of control cells. Stable transformed cells were confirmed by polymerase chain reaction (PCR) and Southern hybridization of GUS probe with the genomic DNA of C. kessleri. This revised version was published online in July 2006 with corrections to the Cover Date.     

Transgenic <Emphasis Type="Italic">Paulownia elongata</Emphasis> S. Y. Hu plants using biolistic-mediated transformation

A biolistic protocol for the stable genetic transformation of the hardwood tree Paulownia elongata was developed. Leaf explants were bombarded using the PDS-1000/He system with plasmid pBI121. The introduced DNA contained the β-glucuronidase (GUS) reporter gene and neomycin phosphotransferase (nptII) as a selection marker. Transformed calli were induced and selected on medium supplemented with 50 mg L⁻¹ kanamycin, and transgenic plants were regenerated through indirect organogenesis. Complete plants were successfully transferred to soil and established under greenhouse conditions. Different helium pressures and explant positions were used and the transformation frequency was calculated. Optimal conditions for genetic transformation were bombardment of the abaxial leaf surface at a pressure of 450 psi. The integration of the transgenes in the plant genome and their stable expression was demonstrated by fluorometric GUS assay, determination of NPTII activity and PCR analysis. This method allows the production of transgenic trees of P. elongata in a relatively short time.     

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.     

Calluses initiated from thin mature embryo fragments are suitable targets for wheat transformation as assessed by long-term GUS expression studies

Microprojectile- or Agrobacterium-mediated DNA delivery into calluses initiated from immature embryos has proven to be effective in transforming wheat. Yet, obtaining a large number of high quality immature embryos throughout the year is a laborious and delicate process. To circumvent these limitations, we propose an alternative technique applying the particle bombardment technology to calluses derived from fragmented mature embryos rather than immature tissues. The phosphinothricin acetyl transferase (bar) and -glucuronidase (gus) genes were used as selectable and screenable marker genes, respectively, to assess and optimise the performance of the proposed technique. Primary requirement for genetic transformation method development, the regeneration capacity of bombarded calluses was established. A preculture duration of 6 days was identified as optimal for DNA uptake and -glucuronidase (GUS) expression. The highest activity was recorded when calluses were selected. Long-term GUS expression studies (1–7weeks subsequent to bombardment), showed differentiated behaviours for tissues obtained from mature versus immature embryos. Notably, mature embryos exhibited the greatest number of cells stably expressing the reporter gene, thus providing an excellent source material for developing a stable transformation procedure.     

Transgenic plantlets of ‘Chancellor’ grapevine (Vitis sp.) from biolistic transformation of embryogenic cell suspensions

Transgenic plantlets of Chancellor grapevine (Vitis L. complex interspecific hybrid) were produced via biolistic transformation. Embryogenic cell suspensions were bombarded with 1 m tungsten particles coated with pBI426 which encodes a fusion peptide between -glucuronidase (GUS) and neomycin phosphotransferase II (NPTII). The fusion peptide is under the control of a double 35S Cauliflower Mosaic Virus promoter and a leader sequence from Alfalfa Mosaic Virus. The cells were placed on kanamycin-containing media (10, 25 or 50 mg/l) 2 d after bombardment. Activated charcoal reduced cell browning. Embryos were first observed on selective media 14–29 weeks after bombardment. More than 1600 clusters of embryos were germinated and/or assayed for GUS. Of 621 embryos assayed for GUS expression, 182 (29.3%) were positive. PCR confirmed the presence of the NPTII gene in all 5 GUS-positive and 2 GUS-negative (bombarded) embryos tested. In germination experiments, 15% of the embryo clusters produced at least one plant with normal shoot growth. Of 164 normal plants assayed for GUS expression, 37 (22.6%) were positive. The NPTII gene was amplified by PCR in 1 (of 1) GUS-positive and 4 (of 5) GUS-negative bombarded plants, but not in non-bombarded control plants. Southern blotting confirmed integration of the NPTII gene in all 3 of the GUS and PCR-NPTII positive plants tested. Biolistics is an efficient method for transformation of Chancellor and should be applicable to other important grape cultivars.Abbreviations AC activated charcoal - GUS -glucuronidase - 2,4-D 2,4-dichlorophenoxyacetic acid - BA 6-benzylaminopurine - NAA -naphthalene acetic acid - TDZ thidiazuron - NPTII neomycin phosphotransferase II - Km kanamycin - MS Murashige and Skoog (1962) medium - WPM Woody Plant Medium of Lloyd and McCown (1980)     

Stable transformation of tomato cell cultures after bombardment with plasmid and YAC DNA

Summary Stable transformants were obtained after microprojectile particle bombardment of tomato cell suspensions (Lycopersicon esculentum cv VFNT Cherry and L. pennellii). The suspensions were bombarded with tungsten particles coated with either plasmid (6.3 kb) or yeast artificial chromosome (YAC) (80 kb) DNA containing the ß-glucuronidase (GUS) and neomycin phosphotransferase II (nptII) genes. The YAC DNA contained an insert of approximately 50 kb of DNA from VFNT Cherry. L. pennellii suspensions were more amenable to transformation than VFNT Cherry; more kanamycin-resistant calli were recovered from L. pennelli after bombardment with plasmid DNA, and only L. pennellii cells produced transformants after bombardment with YAC DNA. DNA gel blot analysis confirmed the presence of the nptll and GUS genes. This analysis also confirmed the integration of YAC DNA into the genome of the kanamycin-resistant calli and suggested that the level of intactness of the integrated YAC DNA was fairly high in four of the five transformants examined. Microprojectile bombardment of regenerable cultures with YACs may ultimately aid in map-based cloning of agriculturally-important genes.Abbreviations YAC yeast artificial chromosome - MS Murashige and Skoog - 2,4-D 2,4-dichlorophenoxy-acetic acid - IAA indole-3-acetic acid - GUS ß-glucuronidase - nptII neomycin phosphotransferase II     

Transgenic haploid plants ofNicotiana rustica produced by bombardment-mediated transformation of pollen

Immature pollen fromNicotiana rustica was bombarded with gold particles coated with plasmid DNA encoding neomycin phosphotransferase II (NPTII) and -glucuronidase (GUS) genes which, respectively, are under the control of the cauliflower mosaic virus (CaMV) 35S promoter and nopaline synthase (NOS) terminator in the plasmid. Kanamycin-resistant pollen embryoids were selected from the bombarded pollen cells and two independent lines of transgenic plants were regenerated. Enzyme assays showed that one has both NPTII and GUS activities and the other only weak NPTII activity. Southern blot analyses indicated that the former has a DNA fragment corresponding to the intact expression cassettes for both genes in its genome; whereas the latter lacks intact expression cassettes for both genes and has only the intactnptII coding sequence in its genome. The transgenic plants of both lines have 24 chromosomes, confirming haploidy, and they are infertile. These results indicate that transgenic haploid plants can be produced directly by the bombardment-mediated transformation of immature pollen.     

Aluminum borate whisker-mediated production of transgenic tobacco plants

An aluminum borate whiskers-mediated transformation system for calluses of tobacco (Nicotiana tabacum, cv. SR-1) has been developed. A total of 50 small pieces of calluses were vigorously agitated in a liquid medium containing aluminum borate whiskers, pBI221 plasmid carrying the -glucuronidase (GUS) gene, and pBI222 plasmid carrying the hygromycin phosphotransferase (HPT) gene. After treatment, calluses were cultured to select for hygromycin resistance, and three resistant calluses were obtained. Adventitious shoots were produced from each hygromycin-resistant callus and were transferred to rooting medium. A total of three plantlets obtained from each hygromycin-resistant callus were acclimatized and established in soil. Polymerase chain reaction analysis revealed that all the plantlets were cotransformed with both the GUS and HPT genes. Detached leaves of transgenic individuals showed clear hygromycin resistance when cultured in liquid medium. Histochemical assay for GUS revealed that one of these transgenic plants expressed the GUS gene, indicating coexpression of foreign genes.     

Expression of non-toxic mutant of Escherichia coli heat-labile enterotoxin in tobacco chloroplasts

Chloroplast transformation systems offer unique advantages in biotechnology, including high level of foreign gene expression, maternal inheritance, and polycistronic expression. We studied chloroplast expression of LTK63 (change Ser-->Lys at position 63 in the A subunit) which is the mutant of Escherichia coli heat-labile toxin. LTK63 is devoid of any toxic activity, but still retains its mucosal adjuvanticity. The LTK63 was cloned into chloroplast targeting vector and transformed to tobacco chloroplasts by particle bombardment. PCR and Southern blot analyses confirmed stable homologous recombination of the LTK63 gene into the chloroplast genome. The amount of LTK63 protein detected in tobacco chloroplasts was approximately 3.7% of the total soluble protein. The GM1-ganglioside binding assay confirmed that chloroplast-synthesized LTB of LTK63 binds to the intestinal membrane GM1-ganglioside receptor. Thus, the expression of LTK63 in chloroplasts provides a potential route toward the development of a plant-based edible vaccine for high expression system and environmentally friendly approach.     

Intermolecular ligation mediates efficient cotransformation in Phytophthora infestans

The processing of DNA molecules during transformation was characterized in the oomycete Phytophthora infestans. Linear and circular forms of nonreplicating transformation vectors supported similar rates of stable transformation. Remarkably, digestion of plasmids within the selectable marker genes neomycin phosphotransferase (npt) or hygromycin phosphotransferase (hpt) had little effect on the recovery of drug-resistant transformants, and the cleaved sites were shown to be reconstituted in the transformants. An assay for the transient expression of -glucuronidase (GUS) in protoplasts treated with partial or disrupted GUS genes demonstrated that active genes could be reconstituted through intramolecular and/or intermolecular ligation between compatible ends, while incompatible ends were inefficiently joined. Stable transformation studies also demonstrated that complementing portions of incomplete npt or hpt genes joined through homologous recombination. Based on the indication of efficient ligation between DNA molecules during transformation, an efficient procedure for cotransformation was developed. The frequency of cotransformation between vectors expressing selected genes (npt or hpt) and nonselected sequences (GUS, -galactosidase, or streptomycin phosphotransferase) approached unity when the plasmids were linearized with the same restriction enzyme before transformation. In contrast, cotransformation between circular plasmids or those cut with different enzymes occurred infrequently (10%). Hybridization analysis of DNA from cotransformants demonstrated that linearized plasmids became colocalized within genomic DNA, while circular plasmids typically inserted at unliked sites.     

Transient transformation of the rust fungus Puccinia graminis f. sp. tritici

The biotrophic rust fungus Puccinia graminis f. sp. tritici (Pgt) was transformed by particle bombardment. The promoter from the Pgt translation elongation factor 1alpha (EF-1alpha) gene was fused to the bacterial marker genes hygromycin B phosphotransferase (hpt) and beta-glucuronidase (GUS). Transformation constructs were introduced into uredospores of Pgt, an obligate pathogen of wheat, by biolistic bombardment. Uredospores transformed with the construct containing the hpt gene germinated and initiated branching on selective medium, indicating that they had acquired resistance to hygromycin B. However, transformants stopped growing 5 days after bombardment. GUS activity in uredospores and germlings was histochemically detected 4-16 h after bombardment. GUS expression was also obtained using the INF24 promoter from the bean rust fungus Uromyces appendiculatus, demonstrating that heterologous genes can be expressed in P. graminis under the control of regulatory sequences from closely related organisms.