Plant regeneration from encapsulated somatic embryos of pedunculate oak (Quercus robur L.)

Summary Cotyledonary Quercus robur L. somatic embryos from two cell lines were encapsulated in 4% (w/v) sodium alginate. An artificial endosperm was provided by the addition of P₂₄ medium plus 3% (w/v) sucrose. Oak somatic embryos and oak synthetic seeds were germinated on P₂₄ medium plus 0.1 μM indole-3-butyric acid and 0.9 μM 6-benzylaminopurine or were dehydrated prior to germination. The highest conversion rates (26%) were obtained with encapsulated somatic embryos as well as artificial endosperm-coated somatic embryos. Encapsulation improved the regeneration into oak plantlets in one of the two cell lines tested. The artificial endosperm had no additional beneficial effect on conversion frequency, but increased germination rate in one cell line tested. Significant higher conversion could be attributed to slow desiccation compared to the non-encapsulated control. Cold storage as a post-maturation treatment had no influence on the germination ability of oak synthetic seeds. Differences in the response of the cell lines with respect to conversion frequencies and timing of germination were observed. Fifty-six well-developed plantlets regenerated 12 wk after germination, and 29 plants were transferred to the greenhouse, where they have been successfully established in substrate.     

Morphohistological analysis of the origin and development of somatic embryos from leaves of mature Quercus robur

Summary In oak species, there is paucity of information on the anatomical changes underlying differentiation of somatic embryos from explants of mature trees. A histological study was undertaken to ascertain the cellular origin and ontogenesis of somatic embryos in leaf cultures from a 100-yr-old Quercus robur tree. Somatic embryogenesis was induced in expanding leaves excised from shoots forced from branch segments, following culture on three successive media containing different concentrations of α-naphthaleneacetic acid and 6-benzylaminopurine. The somatic embryogenesis followed an indirect pathway from a callus tissue formed in the leaf lamina. After 4–6 wk of culture, meristematic cells originated in superficial layers of callus protuberances, but these cells evolved into differentiated vacuolated cells rather than embryos. A subsequent dedifferentiation into embryogenic cells occurred later (9–12 wk of culture) within a dissociating callus. Embryogenic cells exhibited dense protein-rich protoplasm, high nucleoplasmic ratio, and contained small starch grains. Successive divisions of these cells led to the formation of a few-celled proembryos and embryogenic cell clumps within a thick common cell wall, which seemed to have originated unicellularly. However, a multicellular origin of larger embryogenic clumps could not be dismissed; these gave rise to embryonic nodular structures that developed somatic embryos of both uni- and multicellular origin. Somatic embryos at successive stages of development, including cotyledonary-stage embryos with shoot and root meristems, were apparent.     

Regeneration of transgenic plants by Agrobacterium-mediated transformation of somatic embryos of juvenile and mature Quercus robur

A protocol was developed for genetic transformation of somatic embryos derived from juvenile and mature Quercus robur trees. Optimal transformation conditions were evaluated on the basis of the results of transient GUS expression assays with five oak embryogenic lines and a strain of Agrobacterium tumefaciens (EHA105) harbouring a p35SGUSINT plasmid containing a nptII and a uidA (GUS) genes. For stable transformation, embryo clumps at globular/torpedo stages (4–10 mg) were inoculated with EHA105:p35SGUSINT bacterial cultures, cocultivated for 4 days and selected in proliferation medium with 75 mg/l of kanamycin. Putatively transformed masses appeared after 20–30 weeks of serial transfers to selective medium. Histochemical and molecular analysis (PCR and Southern blot) confirmed the presence of nptII and uidA genes in the plant genomes. Transformation efficiencies ranged from up to 2% in an embryogenic line derived from a 300-year-old tree, to 6% in a juvenile genotype. Twelve independent transgenic lines were obtained from these oak genotypes, and transgenic plantlets were recovered and acclimatized into the soil. This is the first demonstration of the production of transformed somatic embryos and regenerated plants from juvenile and mature trees of Q. robur and suggests the possibility of introducing other genetic constructions to develop trees that are tolerant/resistant to pathogens and/or biotic stresses.     

Comparison between somatic and zygotic embryo development in Quercus robur L.

ABSTRACT

Somatic embryogenesis from juvenile explants as an efficient way for oak clonal propagation is drastically limited by the low rate of embryo germination. A comparison of the development of immature somatic and zygotic embryos, and a study of the changes in sugar content and lignin accumulation during somatic versus zygotic embryo development were conducted in view of understanding the effect of reserve substance deficiency upon somatic embryo maturation. A morphological comparison of somatic and zygotic embryos led to the identification of 4 to 7 similar developmental stages in both types of embryos, thus indicating that the accumulation phase in both zygotic and somatic embryos occurs at the same stage, when the cotyledons became thicker and opaque. Carbohydrate analysis showed the presence of glycerol, inositol, mannitol, galactose, trehalose, xylose, arabinose, glucose, fructose and sucrose in all stages of zygotic and somatic embryo development, but in different amounts. The amount of glycerol, inositol, glucose and sucrose during the early stages is larger in zygotic embryos than in somatic ones, but the time course of their accumulation is similar in both types of embryos. Lignin content, which increased continuously during development, showed a similar behaviour in zygotic and somatic embryos. In somatic embryos which were able to germinate, lignin content was higher than in nongerminating embryos at the same stage.     

Shoot apex explants for induction of somatic embryogenesis in mature Quercus robur L. trees

A procedure for inducing somatic embryos in shoot apex explants (2 mm) excised from shoot proliferation cultures established from adult oak trees (Quercus robur) was investigated. Embryogenesis was induced in shoot tip as well as leaf explants in three out of the five genotypes evaluated. Somatic embryos were formed by culture in induction medium supplemented with 21.48 μM naphthalene acetic acid and 2.22 μM benzyladenine for 8 weeks, and successive transfer of explants to expression media with a low concentration of growth regulators and without them. Both types of explants formed callus tissue from which somatic embryos developed, indicating indirect embryogenesis. Although the embryogenic frequencies were lower than 12%, it did not prevent the establishment of clonal embryogenic lines maintained by repetitive embryogenesis. Histological study confirmed an indirect somatic embryogenesis process from shoot tip explants, in which leaf primordia and the corresponding axial zones were involved in generating callus, whereas the apical meristem itself did not proliferate. The origin of embryogenic cells appeared to be associated with dedifferentiation of certain parenchymal cells in callus regions after transfer of explants to expression media without auxin. Division of embryogenic cells gave rise to proembryo aggregates of unicellular origin, although a multicellular origin from bulging embryogenic areas would also seem possible. Further development led to the formation of cotyledonary-stage somatic embryos and nodular embryogenic structures that may be considered as anomalous embryos with no clear bipolarity. Inducement of somatic embryos from explants isolated from shoot cultures ensures plant material all year round, thus providing a significant advantage over the use of leaf explants from field-grown trees.     

Characterization of an apoplastic basic thaumatin-like protein from recalcitrant chestnut seeds

Mature chestnut seeds, with one of the highest moisture contents described to date, accumulate certain defensive proteins at unusually elevated levels. In this work a major 23-kDa thaumatin-like protein, termed CsTL1, has been purified from mature chestnut ( Castanea sativa ) cotyledons. Amino acid sequencing and characterization of its full-length cDNA indicate that CsTL1 is synthesized as a preprotein with a signal peptide 22 amino acids in length. The mature protein contains 16 conserved cysteine residues presumably involved in disulfide bonding and has a high isoelectric point (ca. 9). Unlike most basic pathogenesis-related (PR) proteins, mature CsTL1 is localized to the extracellular matrix, as revealed by immunoelectron microscopy studies of cotyledonary cells. The isolated protein has in vitro antifungal activity against Trichoderma viride and Fusarium oxysporum and shows strong synergistic effects with CsCh1, the most abundant chestnut cotyledon endochitinase. Moreover, both CsTL1 and CsCh1 appear to be regulated in the same manner during seed development and germination. These observations, along with the recent finding of endoglucanase activity for some TL proteins, support the notion that CsTL1 and CsCh1 are part of a complex seed defensive system against microbial growth. Another possibility is that these, and probably other seed PR proteins, have antifreeze activity. Both functions would be particularly relevant for chestnut seeds given their remarkable moisture content at maturity.     

Shoot development in Quercus suber L. somatic embryos

Summary N⁶-Benzyladenine (BA; 0.04–4μM) application to germinated Quercus suber somatic embryos considerably increased caulinar apex elongation frequency and maintained active growth in the plantlets, although it did not have a significant effect on the percentage of shoots with normal morphology. The addition of 0.5 μM indoleacetic acid together with the cytokinin did not have any effect. The use of a low concentration (0.04 μM) of BA allowed the appropriate radicle elongation in all germinating somatic embryos, but higher concentrations arrested this elongation.     

A wheat cDNA coding for a thaumatin-like protein reveals a high level of RFLP in wheat

 A cDNA clone that reveals a high level of polymorphism between wheat varieties was isolated from a wheat cDNA library. When hybridized to DraI-, EcoRV- and HindIII digested DNA this clone, gbx3832, enables us to distinguish 42 different patterns among 48 varieties: 37 varieties are clearly identified, the remaining 11 are divided into five groups. Base-sequence analysis of the clone reveals 72–74% sequence identity to mRNAs encoding thaumatin-like proteins from different cereals. Received: 27 January 1997 / Accepted: 18 April 1997     

Improvement of the maturation and germination of horse chestnut somatic embryos

Embryogenic tissues obtained from stamen filament cultures of horse chestnut (Aesculum hippocastanum L.) were cultured on maturation media supplemented with different combinations of abscisic acid, polyethylene glycol 4000, mannitol or activated charcoal. Somatic embryos were subjected to different desiccation procedures after a culture period on maturation media. After a slow desiccation, obtained by placing the somatic embryos in empty and non-sealed Petri dishes under the laminar air flow for 48 h, an increase in viability, shoot elongation and conversion was observed for the embryos previously cultured on medium enriched with ABA (80 M) alone or plus PEG (50 g l^–1).     

Treatments affecting maturation and germination of American chestnut somatic embryos

The effects of amino acids, abscisic acid (ABA), polyethylene glycol (PEG), and elevated sucrose were tested on the maturation and germination of American chestnut (Castanea dentata) somatic embryos. Somatic embryos from three lines were matured over an eight week period through a two-stage process. After maturation, somatic embryos were randomly divided into three groups to measure dry weight/ fresh weight ratios, starch levels, and germination rates. Prior to transfer to germination medium, somatic embryos received a four week cold treatment. While some treatments with amino acids, elevated sucrose, PEG or ABA increased either dry weight/fresh weight ratios, starch content or both, only addition of 25mM L-asparagine significantly increased germination rate and taproot length, and this response was only obtained with one of the three lines tested. Six plants survived the transfer to potting mix, acclimatization to greenhouse conditions and field planting.     

Detection of microsatellite instability during somatic embryogenesis of oak (Quercus robur L.)

Five microsatellite loci (QpZAG1/5, QpZAG9, QpZAG36, MSQ4, MSQ13) were used to test for genetic stability of three somatic embryogenic culture lines of Quercus robur L. and plantlets derived therefrom. DNA variation was detected among somatic embryos within all embryogenic lines, whereas no genetic instability was found among the regenerated plants. Two microsatellite loci revealed variation, and a locus-dependent instability was observed. The most polymorphic and useful microsatellite locus for detecting genetic variation was QpZAG9, with 28.5% of the investigated loci being variable.     

Improved germination of somatic embryos and plant recovery of European chestnut

For the mass production of chestnut trees with selected, hybrid, or genetically engineered genotypes, one potentially desirable propagation strategy is based on somatic embryogenesis. Although methods exist for the initiation of embryogenic cultures of Castanea sativa from immature zygotic embryos or leaf explants, the embryos produced have had low rates of conversion into plantlets. This study explored the possible benefits for somatic embryos that have already undergone maturation and cold treatments, of (a) partial slow or fast desiccation, and (b) of the addition of plant growth regulators or glutamine to the germination medium. Germination response was evaluated in terms of both conversions to plantlets and through embryos developing only shoots (shoot germination) that could be rooted following the micropropagation protocols developed for chestnut. Two or 3 wk slow desiccation in sealed empty Petri dishes resulted in a slight reduction in water content that nevertheless increased total potential plant recovery, shoot length, and the number of leaves per plantlet. However, best results were achieved by 2 h fast drying in a laminar flow hood, which reduced embryo moisture content to 57–58% and enhanced the potential plant recovery and quality of regenerated plantlets. Plant yield was also promoted by addition of 0.44 μM benzyladenine and 200–438 mg/l of glutamine to the germination medium, and plantlet quality (as evidenced by root, shoot, and leaf growth) by the further addition of 0.49 μM indole-3-butyric acid.     

Overexpression of thaumatin-like protein in transgenic tomato plants confers enhanced resistance to Alternaria solani

Abstract

A cDNA encoding thaumatin-like protein (TLP) from rice was cloned into the binary vector pMON410 under the control of the CaMV 35S promoter for Agrobacterium-mediated transformation of tomato. All putative transformants were tested for the integration and expression of the chimeric gene by polymerase chain reaction (PCR) for hygromycin resistance gene (hph) and enzyme-linked immunosorbent assay (ELISA) for TLP respectively. Constitutive, high-level expression of TLP was observed in transgenic plants. The transgenic lines exhibited increased resistance to Alternaria solani, the early blight pathogen compared to non-transgenic tomato plants.     

Towards a classification of the environment and the community of Quercus robur

Abstract. The environment of the oak Quercus robur is precisely classified using a mathematical definition of the environment of a plant previously developed by the senior author. The definition is explained in words and a minimum of symbolism is used. The inclusion of each object in the environment of the oak is justified by a semi-formalized sentence, fully translated into ordinary English at the first usage. A diagram known as an ‘envirogram’, originally developed for the animal environment, is described. It presents the classification of the environment of a specific organism in simple graphic form. Two envirograms are given, for acorn and mature oak tree. These are the first plant envirograms to be constructed. A simplified community in a small habitat containing oaks and other organisms is described. It is fully analysed using a minimum of symbolism and classified as being of second order. The method gives mathematical precision to the notion that living organisms in a habitat are functionally related and it provides a modus operandi for the analysis of such a community.     

A conceptual model for the development of Phytophthora disease in Quercus robur

Here, a conceptual model is presented for the development of Phytophthora disease in pedunculate oak. The model is presented using the causal loop diagram tool and gives an overview of how various abiotic and biotic factors, such as soil moisture, nutrient availability and mycorrhizal colonization, may affect the reproduction and the infective capacity of soil-borne Phytophthora species, the susceptibility of the host and subsequent disease development. It is suggested that the link between the root damage caused by Phytophthora species and overall tree vitality is in the assimilation and allocation of carbon within the plants. The potential impact of environmental factors on these processes is discussed. The model is presented with reference to scenarios related to variation in soil moisture and nutrient availability. The need for species-specific validation of the model and the implications of the model are discussed.     

Physiological and morphological characteristics during development of pedunculate oak (Quercus robur L.) zygotic embryos

The developmental stages of oak zygotic embryos (ZEs) are characterized here according to morphological and physiological features. Seeds were harvested from June to September in 1-week intervals. Excised embryos were classified into four stages of development by using growth parameters. For physiological characterization, endogenous levels of abscisic acid (ABA), indole-3-acetic acid (IAA), l-proline, starch content and water status were determined. The expression of the oak legumin storage protein gene was tested in immature cotyledonary ZEs before and after ABA treatment. The ABA levels of the embryos showed a significant peak during the intermediate stage of maturation (stage III) and then decreased again at the end of the late maturation phase (stage IV). Concomitant with ABA, the moisture content declined with the maximum embryo size. High IAA levels were found at the beginning of embryo enlargement as exponential growth occurred (stage II) but decreased during further development. Starch accumulated gradually in the course of maturation, whereas significant values were found in stage IV ZEs near shedding. Proline, on fresh weight basis, was high during stages I and II. Osmotic potential increased when, by rapid dry matter accumulation, stage II ZEs reached their maximum size during early intermediate development. Expression of precocious germination was higher on hormone-free medium, in particular, among stage II and stage III ZEs. Variations in phytohormone levels in combination with changes in tissue water status seem to be important factors for oak ZE development.