Establishment of embryogenic cell suspension cultures and Agrobacterium-mediated transformation in an important Cavendish banana cv. Robusta (AAA)

Establishment of an efficient protocol for regeneration and genetic transformation is required in banana for the incorporation of useful traits. Therefore an efficient method has been developed for somatic embryogenesis, plant regeneration and transformation of Cavendish banana cultivar Robusta (AAA). Embryogenic cell suspension culture (ECS) was established using immature male flowers. Percentage appearance of embryogenic callus and distinct globular embryos was 10.3 and 11.1, respectively. ECS obtained was cocultivated under different cocultivation conditions with Agrobacterium tumefaciens strain EHA105 harboring pCAMBIA 1301 plant expression vector. Up to 30 transgenic plants/50 mg settled cell volume (SCV) was obtained with cocultivation in semisolid medium whereas no transgenics could be obtained with parallel experiments carried out in liquid medium. Histochemical GUS assay in different tissues of putatively transformed plants demonstrated expression of uidA gene. Among the putatively transformed plants obtained, a set of 4 were confirmed by PCR analysis and stable integration of the transgene by Southern analysis. GUS specific activity measured by a MUG (4-methylumbelliferyl-β-d-glucuronide) based flourometric assay revealed increase in transient GUS expression in semisolid as well as liquid cocultivation with centrifugation. This is the first report showing somatic embryogenesis and Agrobacterium tumefaciens mediated transformation using embryogenic cell suspension cultures in an important Cavendish banana cultivar Robusta. The present protocol will make possible agronomic improvement of this important commercially grown cultivar by introduction of disease resistance characteristics and antisense-mediated delayed fruit ripening strategies. Further, it will also assist in functional characterization of new gene or promoter elements isolated from this or other cultivars of banana.     

Establishment of embryogenic cell suspension cultures and Agrobacterium-mediated transformation in banana cv. ‘Dwarf Cavendish’ (Musa AAA): effect of spermidine on transformation efficiency

An efficient method has been developed for somatic embryogenesis, plant regeneration and transformation of the important banana cultivar ‘Dwarf Cavendish’ (Musa AAA). A high embryogenic response was obtained in 1.36 % of immature male flower explants. Once embryogenic structures were transferred to liquid medium, embryogenic cell suspensions (ECSs) with high regeneration capacity were obtained. ECSs were incubated under different conditions with Agrobacterium tumefaciens strain EHA101 harboring vector pFAJ3000 that contains pNos-nptII-tOcs and p35S-uidAintron-t35S expression cassettes. The effect of spermidine and infection time on transformation efficiency was examined. The highest efficiency was obtained when ECSs were infected for 6 h, in medium supplemented with 200 μM acetosyringone and 1.0 mM spermidine, with more than 600 independent lines/~50 mg FW of settled cells. Spermidine showed an enhancing effect, increasing significantly the transient Gus expression and the number of transformed embryo colonies and regenerated plants in comparison with the same treatments without this polyamine. This is the first report showing efficient Agrobacterium tumefaciens mediated transformation using embryogenic cell suspension cultures in the ‘Dwarf Cavendish’ banana cultivar.     

Promoters derived from banana bunchy top virus-associated components S1 and S2 drive transgene expression in both tobacco and banana

Potential promoter regions of the Banana bunchy top virus (BBTV)-associated DNA components S1 and S2 were fused to the #-glucuronidase reporter gene and assessed for activity in both tobacco (Nicotiana tabacum cv. Xanthi) and banana (Musa spp. cv. Bluggoe). Transient assays indicated that all the S1- and S2-derived promoters were active and had greater expression in tobacco than banana. In stably transformed tobacco and banana, the S1- and S2-derived promoters directed expression in root meristems and trichomes. The S1 promoter was also expressed in the vascular tissue of leaves and roots, while both the S1 and S2 promoters were active in tobacco leaf trichomes and pollen. In banana, expression was significantly enhanced by the inclusion of the maize polyubiquitin intron 3' to the promoter. Interestingly, there was some evidence to indicate that S1 promoter fragments containing part of the open reading frame at the 5' end of the promoter had enhanced activity, suggesting that promoter elements may not be confined to the non-coding region.     

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.     

A promoter derived from taro bacilliform badnavirus drives strong expression in transgenic banana and tobacco plants

Taro bacilliform virus (TaBV) is a pararetrovirus of the genus Badnavirus which infects the monocotyledonous plant, taro ( Colocasia esculenta). A region of the TaBV genome spanning nucleotides 6,281 to 12 (T1200), including the 3' end of open reading frame 3 (ORF 3) and the intergenic region to the end of the tRNA(met)-binding site, was tested for promoter activity along with four different 5' deletion fragments (T600, T500, T250 and T100). In transient assays, only the T1200, T600, T500 fragments were shown to have promoter activity in taro leaf, banana suspension cells and tobacco callus. When these three promoters were evaluated in stably transformed, in vitro-grown transgenic banana and tobacco plants, all were found to drive near-constitutive expression of either the green fluorescent protein or beta-glucuronidase (GUS) reporter gene in the stem (or pseudostem), leaves and roots, with strongest expression observed in the vascular tissue. In transgenic banana leaves, the T600 promoter directed four-fold greater GUS activity than that of the T1200, T500 and the maize polyubiquitin-1 promoters. In transgenic tobacco leaves, the levels of GUS expression directed by the three promoters was between four- and ten-fold lower than that of the double Cauliflower mosaic virus 35S promoter. These results indicate that the TaBV-derived promoters may be useful for the high-level constitutive expression of transgenes in either monocotyledonous or dicotyledonous species.     

Promoters for pregenomic RNA of banana streak badnavirus are active for transgene expression in monocot and dicot plants

Two putative promoters from Australian banana streak badnavirus (BSV) isolates were analysed for activity in different plant species. In transient expression systems the My (2105 bp) and Cv (1322 bp) fragments were both shown to have promoter activity in a wide range of plant species including monocots (maize, barley, banana, millet, wheat, sorghum), dicots (tobacco, canola, sunflower, Nicotiana benthamiana, tipu tree), gymnosperm (Pinus radiata) and fern (Nephrolepis cordifolia). Evaluation of the My and Cv promoters in transgenic sugarcane, banana and tobacco plants demonstrated that these promoters could drive high-level expression of either the green fluorescent protein (GFP) or the -glucuronidase (GUS) reporter gene (uidA) in vegetative plant cells. In transgenic sugarcane plants harbouring the Cv promoter, GFP expression levels were comparable or higher (up to 1.06% of total soluble leaf protein as GFP) than those of plants containing the maize ubiquitin promoter (up to 0.34% of total soluble leaf protein). GUS activities in transgenic in vitro-grown banana plants containing the My promoter were up to seven-fold stronger in leaf tissue and up to four-fold stronger in root and corm tissue than in plants harbouring the maize ubiquitin promoter. The Cv promoter showed activities that were similar to the maize ubiquitin promoter in in vitro-grown banana plants, but was significantly reduced in larger glasshouse-grown plants. In transgenic in vitro-grown tobacco plants, the My promoter reached activities close to those of the 35S promoter of cauliflower mosaic virus (CaMV), while the Cv promoter was about half as active as the CaMV 35S promoter. The BSV promoters for pregenomic RNA represent useful tools for the high-level expression of foreign genes in transgenic monocots.     

香蕉凝集素基因启动子的分离、序列分析及鉴定

香蕉是世界上最重要的水果之一,由于香蕉果实是利用转基因方法生产重组药用蛋白或有价值的化合物的理想器官,构建能在香蕉果实中高水平表达异源蛋白质的表达载体是非常有意义的。而一个高效表达的载体,启动子则是其最重要元件之一,因此,果实特异性表达启动子的获得是香蕉作为生物反应器的前提。香蕉凝集素是一种在香蕉果实中大量存在的蛋白质,其基因被证明在果肉组织中大量表达。利用染色体步移法克隆到香蕉凝集素基因5′端上游的一段长702bp的序列,经序列测定及软件分析表明,该序列具有典型的启动子结构。此序列置换植物表达载体pBI121的CaMV35S启动子,构建植物表达载体,命名为pBIL2,该启动子下游为gus基因。利用基因枪法转化香蕉的根、叶和果实薄片,对gus基因的瞬时表达进行测定,结果表明所获得的凝集素基因启动子,只在香蕉果肉中瞬时表达,该启动子的表达具有果实特异性,并且表达量较高。     

Optimization of particle bombardment parameters for DNA delivery into the male flowers of banana

The possibility of increasing the efficiency of banana transformation was investigated by particle bombardment of the male flowers of banana plants for constitutive expression of gfp gene. The effects of particle bombardment parameters, such as acceleration pressure, bombardment distance, chamber vacuum pressure, gold microcarrier size, gold quantity, DNA quantity, number of bombardments and pre-culture were examined. Single cauliflower-like bodies (CLBs) clusters, induced from meristemic parts of Musa sapientum cv. Nangka (AAB) male flowers, were bombarded by pCambia1304 plasmid carrying gfp gene driven by the CaMV 35S promoter. Optimal transient expression of green-fluorescent protein (GFP) was obtained when the three-day old cultured tissues were bombarded two times at 1100 psi helium pressure. However, the highest GFP expression was observed when 9 cm was applied as bombardment distance with 28 mmHg chamber vacuum pressure. Gold particle with 1 μm diameter at 60 μg/μL concentrations coated with 1.5 μg/μL of DNA have been used as the optimum bombardment parameter since GFP expression was significantly different compared to other conditions. Application of optimized condition proved effective for the generation of stable transgenic banana plants. PCR and southern blot analyses confirmed the presence and integration of gfp gene in genomic DNA of transformed plants. Transformation frequency achieved with the optimized protocol was 7.5% which was significantly higher than the conventional protocol.     

Fruit-specific Over-expression of LeEXP1 Gene in Tomato Alters Fruit Texture

Expansins are cellular proteins with diverse physiological functions. Expression of fruit-specific expansin gene in tomato is associated with fruit softening — a desirable trait from the processing point of view. In the present study, an expansin gene LeEXP1 was introduced via Agrobacterium tumefaciens in sense orientation under the control of a fruit-specific promoter LeACS4 with nptII gene as selection marker in Indian tomato cv Pusa Uphar. PCR detection and Southern blot analysis confirmed the integration of the transgene in the transformed tomato plants. RT-PCR and northern blot analysis using total RNA isolated from leaves and fruits confirmed over-expression of the LeEXP1 gene in transgenic fruits as compared to the wild type plants. Apart from the visual change in increased red colouration of fruits at different stages of ripening, overexpression of the LeEXP1 gene resulted in enhanced fruit softening, as determined by force required to rupture the fruit pericarp, in the transgenic fruits from breaker stage onwards as compared to the non-transformed wild type fruits. The results thus suggest an improvement in texture of the LeEXP1 over-expressing fruits, which might be useful for tomato processing industry.     

Construction of banana bunchy top nanovirus-DNA-3 encoding the coat protein gene and its introducing into banana plants cv. Williams

Banana (Musa sp.) is considered as one of the most important fruit crops worldwide as well as in Egypt. The main goal of this study was to construct the open reading frame (ORF) of banana bunchy top nanovirus (BBTV)-DNA-3 that encodes the viral coat protein (cp) gene for banana transformation. The previously sequenced BBTV-G-DNA-3-ORF that cloned into plasmid pH1 was used as a template for PCR amplification using two specific primers containing Bam H1 site. A new plasmid called pRHA1 containing the amplified ORF under the control of maize polyubiquitin (ubi) promoter was created. The bar gene (herbicide-resistance gene as a selectable marker) cassette (bar gene, Cauliflower mosaic caulimovirus (CaMV) 35S promoter and nos terminator) was released from plasmid pAB6 using Hind III-digestion and subcloned into the Hind III-digested plasmid pRHA1 to create the plasmid pRHA2 via the microprojectile bombardment transformation system. The plasmid pRHA2 was successfully introduced in the applied banana cultivar. Leaf painting test was conducted to confirm the expression of the bar gene in the putative transformed banana lines. The presence and expression of BBTV-G-cp gene were also detected using some molecular (polymerase chain reaction and dot blot using a cold DNA probe) and serological (ELISA and western blot) techniques, respectively, in the obtained transgenic banana lines.     

Stable transformation and long-term expression of the gusA reporter gene in callus lines of perennial ryegrass (Lolium perenne L.)

Stable transformation of perennial ryegrass (Lolium perenne L.) was achieved by biolistic bombardment of a non embryogenic cell suspension culture, using the hpt and gusA gene. The transformation yielded on the average 5 callus lines per bombardment (1.4×10⁶ cells). Stable integration of the genes into the plant genome was demonstrated by Southern analysis of DNA, isolated from hygromycin-resistant callus lines. The gusA reporter gene, which was regulated by the constitutive promoter of the rice gene GOS2, was expressed in both transient and stable transformation assays, indicating that this promoter is suitable for expression of a transferred gene in perennial ryegrass. Long-term GUS expression was observed in ca. 40% of the callus lines, whereas the other callus lines showed instability after 6 months and 1 year of culture.     

Intron-mediated enhancement of the banana bunchy top virus DNA-6 promoter in banana (Musa spp.) embryogenic cells and plants

 Intron-containing fragments derived from the 5′ untranslated regions of the maize ubi1, maize adh1, rice act1 and sugarcane rbcS genes were tested for their enhancing effects on the banana bunchy top virus DNA-6 promoter (BT6.1) in banana (Musa spp. cv. Bluggoe) embryogenic cells. The rice act1 and maize ubi1 introns provided the highest levels of intron-mediated enhancement of GUS expression, increasing native BT6.1 promoter activity by about 300-fold and 100-fold, respectively. The sugarcane rbcS intron increased expression about tenfold, whereas the adh1 intron had no significant effect. In regenerated transgenic banana plants, the ubi1 intron significantly enhanced BT6.1 promoter activity to levels similar to that of the CaMV 35 S promoter and did not appear to affect the tissue specificity of the promoter. Received: 28 July 2000 / Revision received: 21 August 2000 / Accepted: 4 October 2000     

Anaerobic induction and tissue-specific expression of maize Adh1 promoter in transgenic rice plants and their progeny.

Summary In order to analyze expression of the maize alcohol dehydrogenase 1 gene (Adh1), its promoter was fused with the gusA reporter gene and introduced into rice by protoplast transformation. Histochemical analysis of transgenic plants and their progeny showed that the maize Adh1 promoter is constitutively expressed in root caps, anthers, anther filaments, pollen, scutellum, endosperm and shoot and root meristem of the embryo. Induction of expression by the Adh1 promoter was examined using seedlings derived from selfed progeny of the transgenic plants. The results showed that expression of the Adh1 promoter was strongly induced (up to 81-fold) in roots of seedlings after 24 h of anaerobic treatment, concomitant with an increase in the level of gusA mRNA. 2,4-D also induced Adh1 promoter-directed expression of gusA to a similar extent. In contrast, little induction by anaerobic treatment was detected in transformed calli, leaves or roots of primary transformants or shoots of seedlings. A detailed examination of seedling roots during anaerobic treatment revealed that the induction started first at the meristem and after 3 h there was strong induction in the elongation zone which is located 1–2 mm above the meristem; the induction then progressed upward from this region. Our results suggest that transgenic rice plants carring the gusA reporter gene fused with promoters are useful for the study of anaerobic regulation of genes derived from graminaceous species.     

Isolation and Characterization of Fruit-specific Promoters ACS4 and EXP1 from Tomato (Solanum lycopersicum L)

Promoter engineering in plants holds a great promise for understanding complexity of genetic regulatory system in response to specific internal and external cues and for crop improvement. In the present investigation, we report characterization of two fruit-specific promoters SIACS4 and SIEXP1 that were isolated from tomato (Solanum lycopersicum L cv Pusa Ruby). In silico analysis of the cloned promoter sequences revealed the presence of a seed-specific cis-element in SIACS4 and several putative seed, embryo and endosperm-specific cis-elements in SIEXP1 in addition to fruit-specific ethylene responsive regulatory elements. The fruit- and seed-specific expression of both the promoters was analyzed in transgenic tomato lines expressing the promoter:: GUS fusion constructs. The SIACS4 promoter (?1 to ?373) showed GUS activity restricted specifically to flower buds and seeds in fruits. On the contrary, the SIEXP1 promoter (?1 to ?769) showed high level of expression in seeds as compared to fruit tissues at different stages of fruit ripening. No GUS expression was observed in leaves satisfying the fruit-specific nature of both the promoters. Based on deletion analysis, minimal promoters SIACS4DL2 (?1 to ?126) and SIEXP1DL1 (?1 to ?254) were identified which can be used to drive tissue-specific expression of transgenes for introducing traits of agronomic importance such as resistance to fruit borer and for enhancing both nutritional and keeping quality of tomato fruits.