药用白及资源再生策略初探

白及为兰科白及属植物。作为著名中药,白及功效多样、用途广泛,具有较高的药用价值和经济价值。随资源利用强度的增加,野生白及资源日渐萎缩,人工规模化种植是实现白及药用资源可持续利用的必由之路。优良种质及繁育技术是种植业的关键问题。为了更好地推动白及资源研究和可持续利用,本文就白及种质及快繁技术研究进展作一综述,并就白及资源再生策略进行初步探讨,为相关研究和生产提供参考。     

Approaches on vegetative propagation of difficult-to-root <Emphasis Type="Italic">Salix caprea</Emphasis>

In the framework of a willow rust research project, it was necessary to include vegetatively propagated plant material of selected sallow trees (Salix caprea L.) into biotests for identification of pathotypes. Since it was not possible to root sufficient clonal plants by conventional cutting propagation, the applicability of tissue culture methods was tested. From 10 selected donor trees of Salix caprea newly sprouted shoots were harvested and transferred to nutrient media after surface disinfection. The cultures were grown at 20--22 °C, illuminated with warm-white fluorescent tubes. The majority of shoot tips and nodal segments died during the first month, but only with nursery-grown plants this was caused by bacteria contamination. Two clones could be established easily on hormone-free medium. Five clones could be initiated only after repeated subcultures on various media variants. Three clones failed completely. Different basic media compositions were tested and Woody Plant Medium, supplemented with 0.1% activated charcoal, proved to be best for most of the sallow clones. Well developed rooted plantlets were used in vitro for microcutting propagation. The resulting plants were transferred to soil and could be included in the rust screening program after acclimatising. The applicability of micropropagation for selected Salix caprea donor trees was strongly depending on the genotype. But the comparison of results from microcuttings with conventional cutting propagation showed that these methods were successful for different clones each.     

In vitro multiplication of Quercus leucotrichophora and Q. glauca: Important Himalayan oaks

Multiple shoots of Quercus leucotrichophora L. and Q. glauca Thunb. were induced from the intact embryos (decoated seeds) as well as from the cotyledonary nodes (with attached cotyledons but without radicle and primary shoot) of 3-weeks old in vitro grown seedlings on Woody Plant (WP; Lloyd and McCown, 1980) and Murashige and Skoog (MS; 1962) media supplemented with 6-benzyladenine (BA), either alone or in combination with gibberellic acid (GA₃)/ indole-3-butyric acid (IBA). BA (22.19 M) was effective for induction of multiple shoots and addition of GA₃ to the medium further enhanced the shoot number and shoot height but resulted in shoot thinness. High frequency shoot multiplication was achieved using cotyledonary nodes. Shoots were further multiplied from the original explant on WP medium supplemented with BA (22.19 M). Nearly 78% and 67% rooting was obtained in Q. leucotrichophora and Q. glauca microshoots (3–4 cm high), respectively on 1/2 strength WP medium supplemented with IBA (14.76 M). However, this was associated with basal callus formation. Treatment with IBA (25–100 M) for 24 or 48 h followed by transfer to PGR free 1/2 strength WP medium not only improved the rooting percentage but also avoided basal callus formation. IBA at 100 M for 24 h was most effective (90% and 100% rooting in Q. leucotrichophora and Q. glauca, respectively). In vitro rooted plants were hardened and established in garden soil.Growth performance of 6-month-old in vitro raised plants was compared with ex vitro plants (seedlings) of the same age. The photosynthesis and transpiration rates of eight months old in vitro and ex vitro raised plants of both species were measured under different light (0, 600, 900, 1200, 1500 and 2000 mol m^–2s^–1) and temperature (20, 25, 30, 35 and 40 °C). Light optimum for photosynthesis was around 2000 mol m^–2s^–1 in Q. leucotrichophora and around 1500 mol m^–2s^–1 in Q. glauca whereas optimum temperature for photosynthesis was 25 °C in Q. leucotrichophora and 30 °C in Q. glauca. The rate of transpiration at different temperatures (20–40 °C), in the two species, increased with increase in the light intensity up to the highest level, i.e., 2000 mol m^–2s^–1. Temperatures beyond 35 °C adversely affected the rate of transpiration in in vitro raised as well as ex vitro plants of both the species. In vitro raised and hardened plants of both the species were comparable to ex vitro plants in terms of gas and water vapour exchange characteristics, within the limits of this study.     

High frequency of bulblet regeneration from bulb scale sections of Fritillaria thunbergii

Fritillaria thunbergii Miq. bulb-scale sections were cultured using Murashige and Skoog (MS) medium supplemented with NAA (1.62 M) and KN/2iP/BA (0.47–23.23 M).A high frequency of bulblets was developed from the scale sections and these bulblets have developed leaves and roots in 12 weeks of culture. An optimum of 13.7 bulblets developed from scale sections on solid MS medium supplemented with 1.62 M NAA and 4.65 M KN. Cultures incubated under cycles of 16 h white fluorescent light (40 mol m^–2 s^–1) and 8 h dark at a temperature regime of 25°C have produced optimal bulblets compared to cultures incubated under continuous dark at 25°C. The bulblets were harvested at the end of culture period and were given cold treatment at 5°C for 5 weeks and then transplanted to a potting mixture of peat moss, vermiculite and perlite (1:1:1). The bulblets, which were more than 10 mm in diameter, sprouted (100%) in 5 weeks of transplantation.     

Direct regeneration of Drosera from leaf explants and shoot tips

An efficient protocol for the micropropagation of Drosera anglica, D. binata and D. cuneifolia is described. Proliferation was obtained from leaf segments and shoot tips, which served as initial explants. The regeneration capacity of explants was influenced by factors such as nutrient media, concentrations of growth regulators and the type of medium (liquid or solid). The highest number of plants regenerating from D. binata explants was obtained on the growth regulator-free Vacin and Went medium. In the case of D. anglica the highest proliferation rate was obtained on the Fast medium supplemented with 0.05 M 6-benzyladenine (BA) and 0.005 M -naphthaleneacetic acid (NAA), whereas for D. cuneifolia the optimal regeneration medium proved to be 1/2 MS with the growth regulator supplementation estimated at 0.2 M BA and 0.2 M NAA. Liquid media significantly increased the regeneration potential of D. anglica and D. binata explants.     

Plant regeneration through shoot formation from callus of Areca catechu L.

In order to establish and optimize an in vitro micropropagation protocol of Venus fly trap (Dionaea muscipula Ellis), a carnivorous plant, the effects of medium type, MS medium concentration, pH, and cytokinin and auxin types on shoot proliferation and root formation were investigated using 3-month-old shoots. The shoot proliferation was most effective in 2.3 M kinetin-supplemented 1/3MS medium at pH 5.5. The best conditions for rooting were 1/3MS medium supplemented with 0.5 M IBA. All subcultured shoots produced extensive root systems after 5–6 weeks culture. When plantlets after rooting were planted in plastic pots filled with 1:1 peat moss and sand, the survival rate of plantlets was almost 100%, exhibiting normal development. With subculture every 8 weeks, hundreds of the plants were propagated from a single plant within a year.     

Use of lysozyme for treatment of bacterial contamination in <Emphasis Type="Italic">in vitro</Emphasis> shoot cultures of fruit plants

Summary Use of lysozyme was tested for treatment of bacterial contaminations in in vitro shoot cultures of quince (Cydonia oblonga) ‘BA 29’ and the hybrid (Prunus persica × P. amygdalus) rootstock ‘GF 677’. Shoots which had been contaminated for about 1 yr by Bacillus circulans and Sphingomonas paucimobilis were treated in liquid culture, at pH 4.5, with 9–36 mg ml⁻¹ egg white lysozyme (EWL), and compared to each other and to untreated cultures for their growth, proliferation, and number of bacterial colony-forming units in the tissues. EWL did not negatively affect shoot growth up to 18 mg ml⁻¹; furthermore, the proliferation rates of EWL-treated shoots were sometimes higher than those of controls. In contrast, the concentration of 36 mg ml⁻¹ had some deleterious effect on the regrowth capacity and shoot production of ‘GF 677’ at the first subculture to solid medium after EWL, treatments. EWL had a simple bacteriostatic effect against Sphingomonas paucimobilis; in contrast, it was effective at 18 mg ml⁻¹ in eliminating Bacillus circulans in both ‘BA 29’ and ‘GF 677’ cultures, after optimal treatment duration.     

Tissue culture and wetland establishment of the freshwater monocots <Emphasis Type="Italic">Carex,Juncus, Scirpus</Emphasis>, and <Emphasis Type="Italic">Typha</Emphasis>

Summary Cell cultures of freshwater wetland monocots were regenerated, plants were grown in the greenhouse, and then established and evaluated in wetlands. Typha (cattail), Juncus (rushes), Scirpus (bulrushes), and Carex (sedges) were studied because they are common, dominant, high biomass wetland-adapted plants, tolerant of chemically diverse ecosystems. The goal was to define micropropagation and wetland establishment protocols. Tissue culture systems defined for numerous monocot crop species can be readily applied to wetland plants, with a few modifications. Issues addressed were selection of explant material, shoot and root regeneration conditions, culture age verses regenerability, greenhouse acclimatization needs, plant uniformity and requirements for wetland establishment. In vitro-germinated seedlings were an excellent source of pathogen-free regenerable tissue. T. latifolia, T. angustifolia, and J. accuminatus were regenerated from callus induced in the dark with picloram, then transferred to medium with benzyladenine in the light to promote shoot organogenesis. J. effusus, S. polyphyllus, and C. lurida could not be regenerated from callus, which turned black. They could be regenerated directly by culturing intact seedlings directly on cytokinin media in the light. Shoots rooted with little or no auxin. J. effusus rooting was promoted by the addition of charcoal to the medium. Covering plants for the first 2 wk with plastic facilitated greenhouse establishment. There were high rates of greenhouse and wetland survival. No abnormal plants were observed. These regeneration systems could be utilized for the production of wetland plants for potential application in habitat restoration and wetland creation, and would provide an alternative to field collection.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of <Emphasis Type="Italic">Echinacea purpurea</Emphasis> L.: Enhancement of somatic embryogenesis by indolebutyric acid and dark pre-incubation

Summary The embryogenic potential of different Echinacea purpurea tissues, viz. leaf, cotyledon, and root, was investigated. Maximum embryo-induction was achieved from leaf dises cultured on Murashige and Skoog medium supplemented with benzylaminopurine (5.0 μM) and indolebutyric acid (2.5 μM) where 95% of the explants responded, yielding an average of 83 embryos per explant within 4 wk of culture. Incubation of cultures in the dark for an initial period of 14 d significantly increased the frequency of somatic embryogenesis (6–8-fold in leaf explants). Exposure of the abaxial surface of leaves to the medium significantly increased the number of embryos. Transfer of somatic embryos to a medium devoid of growth regulators resulted in 80% germination within 7 d. Over 73% of the somatic embryos developed roots within 28 d of culture on a medium containing naphthaleneacetic acid (10 μM) with a maximum root number of 9.8 per plantlet. Transplanting ex vitro and acclimatization for a period of 7 d were sufficient to promote establishment of plants in the greenhouse, and more than 90% of the regenerated plants survived.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of <Emphasis Type="Italic">Echinacea pallida</Emphasis> from leaf explants

Summary A method has been developed for the induction of adventitious shoots from leaf tissue of Echinacea pallida with subsequent whole-plant regeneration. Proliferating callus and shoot cultures were derived from leaf tissue explants placed on Murashige and Skoog medium supplemented with 6-benzylaminopurine and naphthaleneacetic acid combinations. The optimum shoot regeneration frequency (63%) and number of shoots per explant (2.3 shoots per explant) was achieved using media supplemented with 26.6 μM 6-benzylaminopurine and 0.11 μM naphthaleneacetic acid. Rooting of regenerated shoot explants was successful on Murashige and Skoog medium, both with and without the addition of indole-3-butyric acid. All plantlets survived acclimatization, producing phenotypically normal plants in the greenhouse. This study demonstrates that leaf tissue of E. pallida is competent for adventitious shoot regeneration and establishes a useful method for the micropropagation of this important medicinal plant.