Characterization of transgenic plants derived from hairy roots ofHyoscyamus muticus

Mature plants were regenerated via protoplasts fromAgrobacterium rhizogenes-transformed root cultures ofHyoscyamus muticus L., and chemical analyses were performed on 34 individual plants. The regenerated plants showed strong phenotypic differences from clone to clone as well as from the control plants. Polymerase chain reaction studies revealed that the plants exhibiting the strongest phenotypic alterations contained therol (A, B and C) genes, whereas the plants with fewer alterations had lost them. The plants produced hyoscyamine, scopolamine and a range of different calystegins, and considerable somaclonal variation was observed. Alkaloid production in the plants transgenic for therol genes was clearly reduced. The pattern of calystegins was similar within all the regenerated plants lackingrol genes. Among the plants withrol genes, the calystegin B₁ was not detectable. It seems clear that the presence ofrol genes is detrimental to the alkaloid accumulation in the transgenic plants in contrast to hairy root cultures.Abbreviation PCR Polymerase chain reaction     

Characteristics of fertile somatic hybrids of G. hirsutum L. and G. trilobum generated via protoplast fusion

Fertile somatic hybrids between tetraploid upland cotton G. hirsutum L. cv. Coker 312 and wild cotton G. trilobum were generated by symmetric electrofusion. Comparisons of morphology, combined with flow cytometric, RAPD, SRAP and AFLP analyses confirmed the hybrid nature of the regenerated plants. The hybrids differed morphologically from the parent plants. Flow cytometric analysis showed that the hybrids had DNA similar in amount to the total combined DNA content of the two parents, and the use of molecular markers revealed that the hybrids contained genomic fragments from both fusion parents, further indicating the hybrid nature of the regenerated plants. The stability of the morphological features of the hybrids was examined in following generations. The hexaploid fusion plants showed strong photosynthesis and a high expression level of some photosystem-related genes. Our results suggest that novel traits may be incorporated in cotton breeding programs through the production of somatic hybrids and the backcrossing of these plants with elite cultivars.     

Genomic instability in phenotypically normal regenerants of medicinal plant Codonopsis lanceolata Benth. et Hook. f., as revealed by ISSR and RAPD markers

Codonopsis lanceolata Benth. et Hook. f., commonly known as bonnet bellflower, is a high-valued herb medicine and vegetable. In this study, a large number of plants were regenerated via organogenesis from immature seed-derived calli in C. lanceolata by a simple and efficient method. Compared with the mother donor plant, the regenerated plants did not exhibit visible phenotypic variations in six major morphological traits examined at the stage of one-season-maturity under field conditions. To gain insight into the genomic stability of these regenerated plants, 63 individuals were randomly tagged among a population of more than 2,000 regenerants, and were compared with the single mother donor plant by two molecular markers, the inter-simple sequence repeats (ISSR) and randomly amplified polymorphic DNA (RAPD). Apparent genomic variation was detected in the 63 regenerants, whereas preexisting heterozygosiy in the donor plant was deemed minimal by testing 30 seedlings germinated from selfed seeds of the same donor plant. The percentages of polymorphic bands (PPB) in the ISSR and RAPD analysis were respectively 15.7 and 24.9% for the 63 regenerated plants. Cluster analysis indicates that the genetic similarity values calculated on the basis of RAPD and ISSR data among the 64 plants (63 regenerated and one donor) were respectively 0.894 and 0.933, which allow classification of the plants into distinct groups. Nineteen randomly isolated bands underlying the changed RAPD or ISSR patterns were sequenced, and three of them showed significant homology to known-function genes. Detailed pairwise sequence comparison at one locus between the donor plant and a regenerant revealed that insertion of two short (24 and 19 bp) stretches of nucleotides in the regenerated plant relative to the donor plant occurred in an apparently stochastic manner.Electronic Supplementary Material Supplementary material is available for this article at     

A protocol for efficient biolistic transformation of mothbean<Emphasis Type="Italic">Vigna aconitifolia</Emphasis> L. Jacq. Marechal

A protocol for efficient direct gene transfer by using particle gun bombardment was developed for mothbeanVigna aconitifolia L. Jacq. Marechal. Hypocotyl explants from 2 cultivars of mothbean were transformed with 3 plasmids: pBI121, pHS101, and pHS102. Stable transformants were regenerated on MS medium supplemented with benzyladenine, α-naphthaleneacetic acid, and kanamycin. The helium pressure, plasmid type, and cultivar that were used determined the stable transformation frequency. Complete plants were regenerated and transferred to soil. The integration of the stable transgenes and reporter genes in plant genomes was shown by means of PCR amplification of these genes from plant genomic DNA and Southern blot hybridization with gene-specific probes. This method allows high-efficiency production of transgenic plants in mothbean. Suchita Kamble and Hari S. Misra contributed equally to this work.     

Regeneration of transgenic Cryptomeria japonica D. Don after Agrobacterium tumefaciens-mediated transformation of embryogenic tissue

A genetic transformation procedure for Cryptomeria japonica was developed after co-cultivation of embryogenic tissues with the disarmed Agrobacterium tumefaciens strain C58/pMP90, which harbours the visual reporter gene sgfp and two selectable marker genes, hpt and nptII. We were able to generate eight and three independent transgenic lines per gram of embryogenic tissue after selection on hygromycin and kanamycin medium, respectively. Transgenic plants were regenerated through somatic embryogenesis in 4 lines out of these 11 lines. Green fluorescent protein fluorescence was observed under fluorescent microscopy. Integration of the genes into the genome was confirmed by polymerase chain reaction analysis of embryogenic tissues and Southern blot analysis of regenerated plantlets.     

Characterization of salt tolerant alfalfa (Medicago sativa L.) plants regenerated from salt tolerant cell lines

Salt tolerant cell lines have been selected from Medicago sativa, by a single step selection process on tissue culture medium containing 1% NaCl. Plants regenerated from these lines show improved salt tolerance compared to parent plants. The regenerated plants are vigorous, have flowered and are self fertile. The cellular salt tolerance characteristic can be passaged through the regenerated plants, since callus cultures initiated from immature ovaries of the salt tolerant regenerated plants are salt tolerant without additional selection on 1% NaCl. Several of these second generation callus cultures have been regenerated to produce vigorous plants which maintain the salt tolerance characteristic. The tolerance phenotype appears dominant in seeds obtained from self fertilization of the tolerant plants. The regenerated salt tolerant plants are therefore a valuable source as genotypes in plant breeding for salt tolerance and isolation, identification and manipulation of genes which confer salt tolerance in alfalfa.Abbreviations SH Schenk and Hildebrandt medium - 2,4-D 2,4-dichlorophenoxyacetic acid     

Analysis of single protoplasts and regenerated plants by PCR and RAPD technology

Summary We investigated the use of the polymerase chain reaction (PCR) and the associated random amplification of polymorphic DNA (RAPD) technique in the analysis of DNA and specific genes in plant cells at different stages of regeneration in in vitro cultures. We demonstrate that both procedures can be used to differentiate reproducibly between closely related species as well as to reveal levels of DNA polymorphism in regenerated plants. We also demonstrate that both procedures, using protocols that we have developed, are applicable at all tissue culture stages, from single isolated protoplasts to regenerated plants. Possible explanations for the variation levels detected in regenerated wheat plants are advanced.     

Karyotypic variability in plants of Solanum melongena regenerated from callus grown in presence of culture filtrate of Verticillium dahliae

Summary Plantlets were regenerated from calli derived from leaf expiants of three genotypes of Solanum melongena (two parental genotypes and their hybrid). The cytological analysis showed that a) plants regenerated were all mixoploid, b) toxic medium (basal medium added with filtrate culture of Verticillium dahliae) was able to evidence karyotypic differences between genotypes not displayed by plants regenerated from callus grown on control medium, c) chromosomal mosaicism persists up to plant maturity and also in the selfed progeny. The results are discussed in terms of a selective process involving genes controlling chromosome number and/or a direct effect of toxic medium on the activity of the same genes.This research is supported by a grant from ERSO (Ente per la Ricerca e Sperimentazione in Ortoflorifrutticoltura e Sementi) — Regione Emilia Romagna     

Establishment of Somaclones and Their Chromosomal Variation in Allooctoploid Triticum- Agropyron Hybrids

Calli were induced from the leaves, young inflorescences and mature embryos of five allooctoploid hybrids (2n = 56) between Triticurn aestivum × Agropyron intermediurn. Somaclones (regenerated plants) were obtained and 37.5 % of them showed genetic variation. Among the variational somaclones high rate of varied regenerated plants were morphologically similar to wheat and some aneuploid plants were also observed. On the other hand, variations of chromosomal structure such as rearrangement, crossover, translocation, breakage and fusion of chromosomes were detected in calli and pollen mother cell of several regenerated plants. So. somaclone variations of these hybrids could be used in transformation of chromosomal genes. The process of forming green spots in differentiation of callus was also observed. For the first time, the two types of green spots, bud green spot and root green spot, were proposed and the difference between them was described.     

月季组织培养和遗传转化体系的研究进展

月季通过器官和体细胞胚发生途径都可以获得再生植株,在遗传转化中主要是利用体细胞胚作为转化受体。目前,利用农杆菌介导法和基因枪法已成功将外源基因如报告基因、抗病基因和改变花色的基因等导入月季基因组中。本文对近年来月季组织培养和转基因研究进展进行了综述,为建立月季高效遗传转化体系奠定了理论基础。     

Comprehensive molecular characterization of tissue-culture-derived Hordeum marinum plants

Summary Scuttelar calli of Hordeum marinum readily and efficiently regenerate functional plants. In order to assess genetic variability among the regenerants we employed multiple analytic tools, which included molecular and biochemical assays. Total DNA extract from regenerated plants was digested with at least two restriction enzymes and hybridized to four nuclear and six mitochondrial coding sequences, in addition to one nuclear and three mitochondrial noncoding probes. SDS-PAGE analyses of hordein extracted from seeds of regenerated plants and activity assays of -amylase were also performed. The nuclear and mitochondrial genomes of 50 regenerated plants demonstrated relative stability when assessed with coding sequences and by biochemical analyses. However, the mitochondrial noncoding probes revealed one qualitative somaclonal variant characterized by a loss of a hybridizing fragment. Moreover, changes in the methylation patterns of the rRNA genes and the nontranscribed spacer were revealed in another regenerated plant. The albino plant regenerated was characterized by a loss of three chloroplast DNA BamHI fragments.     

Efficient <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation using embryogenic suspension cultures in sweetpotato, <Emphasis Type="Italic">Ipomoea batatas</Emphasis> (L.) Lam.

Efficient Agrobacterium tumefaciens-mediated transformation was achieved using embryogenic suspension cultures of sweetpotato (Ipomoea batatas (L.) Lam.) cv. Lizixiang. Cell aggregates from embryogenic suspension cultures were cocultivated with the A. tumefaciens strain EHA105 harboring a binary vector pCAMBIA1301 with gusA and hygromycin phosphotransferase II gene (hpt II) genes. Selection culture was conducted using 25 mg l⁻¹ hygromycin. A total of 2,218 plants were regenerated from the inoculated 1,776 cell aggregates via somatic embryogenesis. β-glucuronidase (GUS) assay and PCR, dot blot and Southern blot analyses of the regenerated plants randomly sampled showed that 90.37% of the regenerated plants were transgenic plants. The number of integrated T-DNA copies varied from 1 to 4. Transgenic plants, when transferred to soil in a greenhouse and a field, showed 100% survival. No morphological variations were observed in the ex vitro transgenic plants. These results exceed all transformation experiments reported so far in the literature in quantity of independent events per transformation experiment in sweetpotato.     

月季的植株再生及遗传转化研究进展

本文对近20年月季植株再生和转基因研究进展进行了较为系统的回顾和总结.月季通过器官和体细胞胚发生途径都能再生植株,但遗传转化主要是利用体细胞胚发生途径.通过农杆菌介导法和基因枪法,外源基因如报告基因、抗病基因和改变花色的基因等已转化成功.文章还对今后月季转基因研究的方向进行了讨论.     

月季的植株再生及遗传转化研究进展

本文对近20年月季植株再生和转基因研究进展进行了较为系统的回顾和总结。月季通过器官和体细胞胚发生途径都能再生植株,但遗传转化主要是利用体细胞胚发生途径。通过农杆菌介导法和基因枪法,外源基因如报告基因、抗病基因和改变花色的基因等已转化成功。文章还对今后月季转基因研究的方向进行了讨论。     

Introduction and expression of the octopine T-DNA oncogenes in tobacco plants and their progeny

The tumour-inducing T-DNA genes 1, 2 and 4 of the octopine Ti-plasmid pTiAch5 were cloned and introduced into tobacco cells by cocultivation or leaf disk transformation using pTi derived vectors. When a selectable marker was needed, we used a aminoglycoside phosphotransferase II (nos-APH(3′)II) chimeric gene conferring kanamycin resistance to plant cells. The expression of gene 4 in transformed tissue cultures precluded the regeneration of normal transformed plants. Normal transformed plants were obtained with the construction carrying genes 1 or 2. We report in vivo complementation of genes 1 and 2 after crosses of transformed plants. Strategies are described for the use of genes 1 and 2 as selection or screening markers in plant cells or regenerated plants.