Interspecific hybridization between common and tepary beans: increased hybrid embryo growth,fertility, and efficiency of hybridization through recurrent and congruity backcrossing

Cultivated common bean (Phaseolus vulgaris L.) and tepary bean (Phaseolus acutifolius A. Gray) genotypes possessing desirable agronomic traits were hybridized. The F₁ hybrids were backcrossed twice with the common bean (i.e., recurrent backcrossing). Also, alternate backcrosses with common and tepary beans (i.e., congruity backcrossing) were carried out. Embryo culture was necessary for all initial interspecific crosses, and its requirement was proportionally lower when the common bean was used as the recurrent parent and as the last parent of congruity backcrosses. Modification of the embryo culture technique was necessary to produce congruity hybrids. Effects of both tepary and common bean genotypes on the success rate of hybridization were observed. Tepary accession G 40001 and common bean cultivar ICA Pijao facilitated interspecies hybridization. Growth of hybrid embryos before rescue, recovery of mature hybrid plants, and the vigor and fertility of F₁ hybrids all increased with increased recurrent and congruity backcrosses and intermatings between male-sterile F₁ and selected fertile F₂ plants of the third and fifth congruity backcrosses. Introgression of tepary genes was verified by means of seed protein electrophoretic analysis and morphological markers. The results suggest that congruity backcrossing can help to gradually reduce or overcome P. vulgaris x P. acutifolius hybridization barriers such as genotype incompatibility, early embryo abortion, hybrid sterility, and lower frequencies of hybridization.     

Comparison of Agrobacterium-mediated transformation of four barley cultivars using the GFP and GUS reporter genes

Experiments were conducted to produce transgenic barley plants following infection of immature embryos with Agrobacterium tumefaciens. Transformed callus was obtained using hygromycin resistance as a selectable marker and either green fluorescent protein (GFP) or -glucuronidase (GUS) as a reporter. Significantly reduced plant transformation frequencies were obtained with the GFP gene compared to GUS. However, GFP proved to be an excellent reporter of early transformation events and was used to compare four barley cultivars for efficiency in two phases of transformation: the generation of stably transformed barley callus and the regeneration of plantlets from transformed callus. Transformed callus was generated at a high frequency (47–76%) in all four cultivars. Regeneration of transformed plantlets was also achieved for all four cultivars although the frequency was much higher for Golden Promise than for the other three genotypes, reiterating that genotype is an important determinant in the regenerative ability of barley. This study has demonstrated for the first time that Agrobacterium-mediated transformation can be used to transform the Australian cultivars Sloop and Chebec.Communicated by W. Harwood     

Plant transformation by particle bombardment of embryogenic pollen

Summary Direct delivery of DNA into embryogenic pollen was used to produce transgenic plants in tobacco. A plasmid bearing the ß-glucuronidase (GUS) marker gene in fusion with the 35S-promoter was introduced by microprojectile bombardment into mid-binucleate pollen of Nicotiana tabacum that had been induced to form embryos by a starvation treatment. In cytochemical expression assays, 5 out of 10⁴ pollen grains were GUS⁺. Visual selection by staining with a non-lethal substrate for GUS was used to manually isolate transformed embryos. From the initial population of embryogenic GUS⁺ pollen, 1–5% developed into multicellular structures and 0.02% formed regenerable embryos. Two haploid transformants were regenerated. GUS expression was detected in different parts of the plants, and Southern analysis confirmed stable integration of the foreign DNA. Diploidisation was induced by injection of colchicine into the stem near adventitious buds. Offspring from selfings and backcrosses of one transformant were tested for GUS expression and by Southern blots. All F1-plants were transgenic, in accordance with Mendelian inheritance.Abbreviations GUS ß-glucuronidase - CaMV Cauliflower Mosaic Virus - MCS multicellular structure - NPTII neomycin phosphotransferase - PEG polyethylene glycol - X-gluc 5-bromo-4-chloro-3-indolyl glucuronide - DAPI 4,6-diamidino-2-phenylindole - Tris Tris(hydroxymethyl)aminomethane hydrochloride - EDTA ethylenedinitrilo tetraacetic acid, disodium salt dihydrate     

Genetic transformation of commercial breeding lines of alfalfa (Medicago sativa)

Bio-engineering technologies are now routinely used for the genetic improvement of many agricultural crops. However, breeding lines of Medicago sativa are not easily amenable to genetic transformation and therefore cannot benefit from the molecular tools that have been developed for genetic manipulations. This paper describes a strategy that has been developed to transfer DNA into commercially important breeding lines of winter-hardy alfalfa via Agrobacterium infection. Three highly regenerative genotypes have been selected from ca 1000 genotypes within 11 breeding lines. They have been used as basic material for an extensive genetic transformation trial. Combinations of genotypes (11.9, 8.8, 1.5) expression vectors (pGA482, pGA643, pBibKan) and bacterial strains (C58, A281, LBA4404) were tested for their ability to produce stable transgenic material. Putative transgenic plantlets were further screened by nptII-specific PCR amplification, Southern hybridization and recallusing assays. One genotype (1.5) gave only one transformant out of 432 individual trials. With the two other genotypes, efficiency of transformation (kanamycin-resistant calluses obtained/explant tested) ranged from 0 to 0.92 depending on the strain/vector combination used. Statistical interactions underline the possibility of obtaining good genotype-strain-vector combinations for alfalfa transformation. Predicted transformation probability indicates that with strain LBA4404 containing the vector pGA482 and genotype 11.9, transformation efficiency is above 60% and 10% or more of the calluses retain embryogenic potential. PCR amplification and Southern hybridization of randomly chosen regenerated plantlets demonstrated that all embryos developing on 50 g ml^-1 kanamycin had a stable genomic insertion of nptII. Sexual crosses with untransformed genotypes showed that segregation of the transgenic trait followed Mendelian heredity.     

RAPD polymorphisms among variant and phenotypically normal rice (Oryza sativa var.indica) somaclonal progenies

Summary RAPD analysis was performed among eight rice somaclonal families known to vary for specific characters and four somaclonal families which were phenotypically normal. The parental cultivar,indica rice cv. FR13A, was found to be homogeneous and homozygous at all but one of the 45 RAPD loci. Polymorphisms were found at 28 of the 45 bands among the somaclonal families, including both loss of parental bands, and the appearance of novel non-parental bands. Segregation data revealed both heterozygous and homozygous mutation events, with recessive mutations more prevalent than dominant. All somaclonal families differed significantly from the parental material, indicating that genomic alterations occurred in all families regardless of phenotype. None of the variant families could be regarded as isogenic lines of FR13A at the DNA level. However, some of the DNA level variation may be in highly repeated sequences with no phenotypic effects. The implications for somaclonal breeding and genetic engineering programs are discussed.     

Recovery of phenotypically normal transgenic plants of Brassica oleracea upon Agrobacterium rhizogenes-mediated co-transformation and selection of transformed hairy roots by GUS assay

In this paper we describe the production of transgenic broccoli and cauliflower with normal phenotype using an Agrobacterium rhizogenes-mediated transformation system with efficient selection for transgenic hairy-roots. Hypocotyls were inoculated with Agrobacterium strain A4T harbouring the bacterial plasmid pRiA4 and a binary vector pMaspro::GUS whose T-DNA region carried the gus reporter gene. pRiA4 transfers T_L sequences carrying the rol genes that induce hairy root formation. Transgenic hairy-root production was increased in a difficult-to-transform cultivar by inclusion of 2,4-D in the medium used to resuspend the Agrobacterium prior to inoculation. Transgenic hairy roots could be selected from inoculated explants by screening root sections for GUS activity; this method eliminated the use of antibiotic resistance marker genes for selection. Transgenic hairy roots were produced from two cauliflower and four broccoli culivars. Shoots were regenerated from transgenic hairy root cultures of all four cultivars tested and successfully acclimatized to glasshouse conditions, although some plants had higher than diploid ploidy levels. Southern analysis confirmed the transgenic nature of these plants. T₀ plants from seven transgenic lines were crossed or selfed to produce viable seed. Genetic analysis of T₁ progeny confirmed the transmission of traits and revealed both independent and co-segregation of Ri T_L-DNA and vector T-DNA. GUS-positive phenotypically normal progeny free of T_L-DNA were identified in three transgenic lines out of the six tested representing all the cultivars regenerated including both cauliflower and broccoli.     

农杆菌介导的苜蓿次级体细胞胚的遗传转化

采用农杆菌菌株GV3101感染子叶期苜蓿体细胞胚来研究苜蓿次级体细胞胚的遗传转化方法。农杆菌菌株GV3101双相载体pCAMBIA2301,此双相载体具有gus报告基因和nptⅡ抗卡那霉素筛选基因。感染的子叶期苜蓿体细胞在75 mg/L卡那霉素筛选压下,经过一系列诱导培养,最终获得转基因植株。然后,通过GUS组织化学定位分析来检测转基因植株不同器官中的GUS表达,并进一步通过PCR和Southern杂交确定转基因的稳定整合和转化率。结果表明转基因植株不同器官均有GUS表达,整合的nptⅡ基因的拷贝数是1~4,获得的转基因植株的转化率是65.82%。     

Genetic transformation of Chrysanthemum using wild type Agrobacterium strains; strain and cultivar specificity

Summary To develop an Agrobacterium mediated transformation protocol for chrysanthemum we studied the transformation efficiency of commonly used A.tumefaciens strains on 14 genotypes by comparing tumour size and frequency. One genotype was analyzed in detail using 14 strains of both A.tumefaciens and A.rhizogenes. Only a few genotype/strain combinations resulted in significant tumour formation. Especially 0-type strains were highly efficient. An 0-type strain was used to transfer genes for neomycine phosphotransferase (NPT II) and ß-glucuronidase (GUS) to a susceptible cultivar. Transfer of the GUS gene was confirmed by using the Polymerase Chain Reaction (PCR).     

A Comparison of Constitutive Promoters for Expression of Transgenes in Alfalfa (Medicago Sativa)

The activity of constitutive promoters was compared in transgenic alfalfa plants using two marker genes. Three promoters, the 35S promoter from cauliflower mosaic virus (CaMV), the cassava vein mosaic virus (CsVMV) promoter, and the sugarcane bacilliform badnavirus (ScBV) promoter were each fused to the beta-glucuronidase (gusA) gene. The highest GUS enzyme activity was obtained using the CsVMV promoter and all alfalfa cells assayed by in situ staining had high levels of enzyme activity. The 35S promoter was expressed in leaves, roots, and stems at moderate levels, but the promoter was not active in stem pith cells, root cortical cells, or in the symbiotic zones of nodules. The ScBV promoter was active primarily in vascular tissues throughout the plant. In leaves, GUS activity driven by the CsVMV promoter was approximately 24-fold greater than the activity from the 35S promoter and 38-fold greater than the activity from the ScBV promoter. Five promoters, the double 35S promoter, figwort mosaic virus (FMV) promoter, CsVMV promoter, ScBV promoter, and alfalfa small subunit Rubisco (RbcS) promoter were used to control expression of a cDNA from Trichoderma atroviride encoding an endochitinase (ech42). Highest chitinase activity in leaves, roots, and root nodules was obtained in plants containing the CsVMV:ech42 transgene. Plants expressing the endochitinase were challenged with Phoma medicaginis var. medicaginis, the causal agent of spring black stem and leaf spot of alfalfa. Although endochitinase activity in leaves of transgenic plants was 50- to 2650-fold greater than activity in control plants, none of the transgenic plants showed a consistent increase in disease resistance compared to controls. The high constitutive levels of both GUS and endochitinase activity obtained demonstrate that the CsVMV promoter is useful for high-level transgene expression in alfalfa.     

Activity of a maize ubiquitin promoter in transgenic rice

We have used the maize ubiquitin 1 promoter, first exon and first intron (UBI) for rice (Oryza sativa L. cv. Taipei 309) transformation experiments and studied its expression in transgenic calli and plants. UBI directed significantly higher levels of transient gene expression than other promoter/intron combinations used for rice transformation. We exploited these high levels of expression to identify stable transformants obtained from callus-derived protoplasts co-transfected with two chimeric genes. The genes consisted of UBI fused to the coding regions of the uidA and bar marker genes (UBI:GUS and UBI:BAR). UBI:GUS expression increased in response to thermal stress in both transfected protoplasts and transgenic rice calli. Histochemical localization of GUS activity revealed that UBI was most active in rapidly dividing cells. This promoter is expressed in many, but not all, rice tissues and undergoes important changes in activity during the development of transgenic rice plants.     

Alfalfa (Medicago sativa) Somatic Embryogenesis: Genetic Control and Introduction of Favourable Alleles into Elite Argentinean Germplasm

The objectives of this work were to isolate regenerative genotypes from the alfalfa Canadian cultivar Rambler to perform the genetic analysis of somatic embryogenesis in this species and to introgress regeneration favourable alleles into Argentinean alfalfa elite germplasm. For regeneration inheritance studies, greenhouse established plants from a cross between a Rambler derived regenerative clone and a non-regenerative Argentinean clone as well as self-pollinated progenies of these clones were analyzed. The results showed that somatic embryogenesis is under the control of two complementary genes. The introgression of somatic embryogenesis favourable alleles was performed using two populations derived from crosses between regenerative clones, obtained in the first step of this work, and non-regenerative clones of Argentinean alfalfa elite populations. Twenty-seven plants obtained through this process showed somatic embryogenesis ability. Two of them, designated as INTA R1 and INTA R2, exhibited a high regeneration capacity as well as high regeneration multiplicity. Our results demonstrate that Rambler derived somatic embryogenesis favourable alleles are successfully expressed in Argentinean elite alfalfa genetic background rendering it suitable for tissue culture-based breeding methodologies.     

Evaluation of selection strategies alternative to <Emphasis Type="Italic">nptII</Emphasis> in genetic transformation of citrus

The neomycin phosphotransferase (nptII) selection system has proved successful in citrus transformation; however, it may be recommendable to replace it given the pressure exerted against antibiotic-resistance selectable marker genes in transgenic plants. The present work investigates three different selection alternatives, comparing them to nptII selection in two citrus genotypes, Carrizo citrange and Pineapple sweet orange. The first method used the beta-glucuronidase (uidA) reporter marker gene for selection; the second attempted to generate marker-free plants by transforming explants with a multi-auto-transformation (MAT) vector, combining an inducible R/RS-specific recombination system with transgenic-shoot selection through expression of isopentenyl transferase (ipt) and indoleacetamide hydrolase/tryptophan monooxygenase (iaaM/H) marker genes; while the third exploited the phosphomannose isomerase (PMI)/mannose conditional positive selection system. Firstly, GUS screening of all regenerated shoots in kanamycin-free medium gave 4.3% transformation efficiency for both genotypes. Secondly, workable transformation efficiencies were also achieved with the MAT system, 7.2% for citrange and 6.7% for sweet orange. This system affords an additional advantage as it enables selectable marker genes to be used during the in vitro culture phase and later removed from the transgenic plants by inducible recombination and site-specific excision. Thirdly, the highest transformation rates were obtained with the PMI/mannose system, 30% for citrange and 13% for sweet orange, which indicates that this marker is also an excellent candidate for citrus transformation.     

Introduction of a gene from fertility restored radish (Raphanus sativus) into Brassica napus by fusion of X-irradiated protoplasts from a radish restorer line and iodacetoamide-treated protoplasts from a cytoplasmic male-sterile cybrid of B. napus

To establish a cytoplasmic male-sterile/restored fertility (cms-Rf) system for F₁ seed production in Brassica napus, we transferred a gene from fertillity restored radish to B. napus by protoplast fusion. X-irradiated protoplasts, isolated from shoots of Raphanus sativus cv Kosena (Rf line), were fused with iodoacetamide-treated protoplasts of a B. napus cms cybrid. Among 300 regenerated plants, six were male-fertile. The fertile plants were characterized for petal color, chromosome number and the percentage of viable pollen grains. Three fertile plants had aneuploid chromosome numbers and white or cream petals, which is a dominant marker in radish. Of these three plants, one which had 2n = 47 chromosomes and white petals was used for further backcrosses. After two backcrosses, chromosome number and petal color became identical to that of B. napus. No female sterility was observed in the BC₃ generations.     

A robust genetic transformation protocol to obtain transgenic shoots of Solanum tuberosum L. cultivar ‘Kufri Chipsona 1’

The genetic transformation of plants is an important biotechnological tool used for crop improvement for many decades. The present study was focussed to investigate various factors affecting genetic transformation of potato cultivar ‘Kufri Chipsona 1’. It was observed that explants pre-cultured for 2 days on MS2 medium (MS medium containing 10 µM silver nitrate, 10 µM BA, 15 µM GA3), injured with a surgical blade and co-cultivated with Agrobacterium tumefaciens strain EHA105 [O.D600 (0.6)] for 2 days results in maximum transient β-glucuronidase (GUS) expression. The addition of 100 µM acetosyringone in MS2 medium also increased rate of transient GUS expression in both the explants. Clumps of putative transgenic shoots were regenerated using the optimised culture conditions from leaf and internodal explants. The stable integration of T-DNA was established using histochemical staining for GUS and amplification of DNA fragment specific to nptII and uidA genes. Within the clumps, around 67.85% of shoots showed uniform GUS expression in all the tissues and about 32.15% shoots show intermittent GUS expression establishing chimeric nature. Uniform GUS staining of the tissue was used as initial marker of non-chimeric transgenic shoots. Quantitative expression of nptII transgene was found to be directly proportional to uniformity of GUS staining in transgenic shoots. The present investigation indicated that manipulation of culture conditions and the medium composition may help to get transgenic shoots with uniform expression of transgene in all the tissues of potato cultivar ‘Kufri Chipsona 1’.     

Somaclonal Variation in Rice after Two Successive Cycles of Mature Embryo Derived Callus Culture in the Presence of NaCl

Two successive cycles of mature embryo-derived callus culture separated by one cycle of sexual reproduction of R₀ regenerated plants were performed using two rice (Oryza sativa L.) cultivars in order to gain information upon the nature of somaclonal variation in this species. Plants regenerated after one cycle of tissue culture exhibited higher variability and lower performances than those of initial cultivar. A second cycle performed using R₁ embryos as explants showed that the cellular component of salt resistance in terms of growth and regenerating abilities selected during the first cycle could be transmitted to the progenies. The extent and the nature of somaclonal variation depended on the identity of R₀ mother plant and culture conditions, somaclonal variation being strongly reduced in some families obtained from salt-treated calli.     

Effect of an enhanced CaMV 35S promoter and a fruit-specific promoter on uida gene expression in transgenic tomato plants

Summary Two different promoters, a cauliflower mosaic virus (CaMV) 35S promoter with a 5′-untranslated leader sequence from alfalfa mosaic virus RNA4 (designated as CaMV 35S/AMV) and an E-8 fruit-ripening-specific promoter, were compared to evaluate their effects on expression of the uidA reporter gene in transgenic tomato plants. In order to generate sufficient numbers of transgenic tomato plants, both a reliable regeneration system and an efficient Agrobacterium transformation protocol were developed using 8-d-old cotyledons of tomato (Lycopersicon ecsulentum Mill. cv. Swifty Belle). Two sets of constructs, both derivatives of the binary vector pBI121, were used in transformation of tomato whereby the uidA gene was driven either by the CaMV 35S/AMV or the E-8 fruit-ripening-specific promoter. Southern blot hybridization confirmed the stable integration of the chimeric uidA gene into the tomato genome. Fruit and leaf tissues were collected from T₀ and T₁ plants, and assayed for β-glucuronidase (GUS) enzyme activity. As expected, both vegetative and fruit tissues of transgenic plants carrying the uidA gene under the control of CaMV 35S/AMV showed varying levels of GUS activity, while no expression was observed in vegetative tissues of transgenic plants carrying the uidA gene driven by the E-8 promoter. All fruits from transgenic plants produced with both sets of constructs displayed expression of the uidA gene. However, when this reporter gene was driven by the CaMV 35S/AMV, GUS activity levels were significantly higher than when it was driven by the E-8 fruit-specific promoter. The presence/absence of the uidA gene in T₁ plants segregated in a 3∶1 Mendelian ratio.     

Agrobacterium tumefaciens-mediated transformation of the aromatic shrub Lavandula latifolia

Transgenic plants of the aromatic shrub Lavandula latifolia (Lamiaceae) were produced using Agrobacterium tumefaciens-mediated gene transfer. Leaf and hypocotyl explants from 35–40-day old lavender seedlings were inoculated with the EHA105 strain carrying the nptII gene, as selectable marker, and the reporter gusA gene with an intron. Some of the factors influencing T-DNA transfer to L. latifolia explants were assessed. Optimal transformation rates (6.0 ± 1.6% in three different experiments) were obtained when leaf explants precultured for 1 day on regeneration medium were subcultured on selection medium after a 24 h co-cultivation with Agrobacterium. Evidence for stable integration was obtained by GUS assay, PCR and Southern hybridisation. More than 250 transgenic plants were obtained from 37 independent transformation events. Twenty-four transgenic plants from 7 of those events were successfully established in soil. -glucuronidase activity and kanamycin resistance assays in greenhouse-grown plants from two independent transgenic lines confirmed the stable expression of both gusA and nptII genes two years after the initial transformation. Evidence from PCR data, GUS assays and regeneration in the presence of kanamycin demonstrated a 1:15 Mendelian segregation of both transgenes among seedlings of the T1 progeny of two plants from one transgenic L. latifolia line.     

The Expression of a Cytosolic Cyclophilin Promoter from Periwinkle in Transgenic Tobacco Plants

The cloning of a 465 bp fragment from the 5-flanking region of the gene encoding a cytosolic cyclophilin from periwinkle was achieved through inverse polymerase chain reaction. The DNA fragment was fused to a gusA-intron marker then introduced into tobacco by Agrobacterium tumefaciens-mediated transformation. Histochemical analysis of the transgenic shoot cultures demonstrated that the construct was able to drive GUS expression in stomata guard cells, but not in mesophyll cells when shoots were still attached to the callus from which they were initiated. In separated transgenic shoots and in seedlings, GUS was expressed in external and internal phloem and root hairs, respectively. GUS activity in transgenic tobacco seedlings was also investigated by fluorimetric assays. Treatments with NaCl or ABA decreased promoter activity whereas treatment with yeast extracts increased it.     

The Production of Transgenic Scots Pine (Pinus Sylvestris L.) via the Application of Transformed Pollen in Controlled Crossings

The study demonstrates the production of a transgenic Scots pine (Pinus sylvestris L.) seedling through the application of transformed pollen in controlled crossings. The pollen lots were transformed by particle bombardment, resulting in transient transformation frequencies varying from 15 to 49% of the germinated pollen grains, and bombarded pollen was used to pollinate megasporangiate strobili. Progeny was screened by histochemical, GUS assays, and selected seedlings were further analysed by PCR. PCR amplification revealed the presence of both the nptII and gusA genes in one seedling (23/237). Results were confirmed by Southern blot analysis. The morphology and growth of this transgenic seedling was normal. Although the transformation frequency of recovered plants was very low (1/14999), the present protocol suggests that production of transgenic Scots pine is possible without the use of any tissue culture methods or the involvement of marker genes, for selection of transformants.