Two-stage culture for producing berberine by cell suspension and shoot cultures of <Emphasis Type="Italic">Berberis buxifolia</Emphasis> Lam

In vitro cultures of Berberis buxifolia were established using thidiazuron (4.5, 23 and 45 mM) or picloram (4 and 40 mM) as plant growth regulators for sustaining growth. For producing berberine, a two-stage culture was performed. In the first step, thidiazuron or picloram were used for biomass production followed by the production stage where benzylaminopurine (4.4 mM) was added as a plant growth regulator. Berberine yields (102 mg g⁻¹ DW) and in vitro shoot cultures (200 mg g⁻¹ DW) were significantly lower than those of whole plants in the field (416 mg g⁻¹ DW). The highest productivity (0.18 mg 1⁻¹ day⁻¹) was attained using picloram (either 4 on 40 mM) in the first stage for producing biomass.     

Regeneration of garlic callus as affected by clonal variation, plant growth regulators and culture conditions over time

 A long-term regeneration system for garlic (Allium sativum L.) clones of diverse origin was developed. Callus was initiated on a modified Gamborg's B-5 medium supplemented with 4.5 μM 2,4-D and maintained on the same basal medium with 4.7 μM picloram+0.49 μM 2iP. Regeneration potential of callus after 5, 12 and 16 months on maintenance medium was measured using several plant growth regulator treatments. The 1.4 μM picloram+13.3 μM BA treatment stimulated the highest rate of shoot production. Regeneration rate decreased as callus age increased, but healthy plantlets from callus cultures up to 16-months-old were produced for all clones. Regeneration of long-term garlic callus cultures could be useful for clonal propagation and transformation. Received: 24 September 1998 / Revision received: 27 January 1999 / Accepted: 26 February 1999     

Characterization of somatic embryogenesis in Pelargonium××hortorum mediated by a bacterium

Several cultivars of hybrid seed geranium (Pelargonium×hortorum Bailey), previously shown to be recalcitrant in culture, produced somatic embryos at high frequency when explants were co-cultivated with a morphogenesis promoting bacterium. This bacterium was isolated as an in vitro contaminant from cultures of geranium seedling explants and identified as belonging to the genus Bacillus and species circulans. Co-cultivation of hypocotyl explants with the bacterium promoted somatic embryo formation and improved both the frequency and quality of somatic embryos. In the cultivar Ringo Rose, the least responsive among the cultivars screened, the embryogenic response was more than four times that of axenic cultures. Nearly 70% of these embryos converted into plantlets, while the somatic embryos induced under axenic conditions developed poorly and plantlet formation was inconsistent. Among the different treatments of bacterial culture tested (autoclaved culture, culture filtrate, sonicated bacterial culture, sonication of bacterial culture followed by filtration, HPLC fractionation of crude bacterial lysate), only two HPLC fractions promoted embryogenesis to a marginal degree. Co-cultivation of the explants with bacterium during the first week of induction was crucial for obtaining high-frequency embryogenesis, indicating the role of bacterial stimuli during the induction process. Received: 23 June 1998 / Revision received: 20 August 1998 / Accepted: 27 October 1998     

Direct somatic embryogenesis on leaf explants of Oncidium Gower Ramsey and subsequent plant regeneration

 Segments taken from young leaves of an orchid (Oncidium Gower Ramsey) produced clusters of somatic embryos directly from epidermal and mesophyll cells of leaf tips and wound surfaces without an intervening callus within 1 month when cultured on a Gelrite^TM-gelled 1/2-MS basal medium supplemented with a low dosage (0.3–1 mg/l) of thidiazuron. Subculturing of these embryo clusters produced more embryos and subsequent plantlet formation on the same medium. The high-frequency embryogenesis of these leaf cells in this orchid is strong evidence of their totipotency, and further modification of the protocol for plant formation could be useful for the mass propagation and transformation of selected elite lines. Received: 16 September 1998 / Revision received: 16 February 1999 / Accepted: 26 February 1999     

Direct shoot regeneration from excised leaf explants of in vitro grown seedlings of Alstroemeria L.

A two-step protocol for the induction of shoots from Alstroemeria leaf explants has been developed. Leaf explants with stem node tissue attached were incubated on shoot induction medium for 10 days, and then transferred to regeneration medium. Shoots from the area adjacent to the region between the leaf base and node tissue regenerated within 3 weeks after transfer to the regeneration medium, without a callus phase. The best induction was obtained with Murashige and Skoog medium containing 10 μm thidiazuron and 0.5 μm indole butyric acid. The regeneration medium contained 2.2 μm 6-benzylaminopurine. After several subcultures of the leaf explants with induced shoots, normal plantlets with rhizome were formed. In Alstroemeria, the percentage of responding leaf explants is more important than the number of shoots regenerated per leaf explant, because rhizome formation is the most important factor for micropropagation. The effect of other compounds in the induction medium, including glucose, sucrose, silver nitrate, and ancymidol, on regeneration was also investigated. Received: 14 June 1996 / Revision received: 27 September 1996 / Accepted: 20 October 1996     

High-frequency conversion of abnormal peanut somatic embryos

Peanuts (Arachis hypogaea L.) are widely cultivated as a rich source of protein and oil. Although protocols for the regeneration of peanut via somatic embryogenesis and organogenesis have been developed, most of them have resulted in low frequencies of plant recovery. In this report, we describe a protocol for plantlet formation at high frequency from somatic embryos. Morphologically abnormal somatic embryos germinated and produced roots only in medium devoid of growth regulators. Shoots emerged from the undeveloped plumule of these rooted embryos in medium containing both 6-benzyladenine (BA) and kinetin (KN), or in medium with thidiazuron (TDZ) alone. In Murashige and Skoog basal medium supplemented with 8.9 μm BA and 14 μm KN, 86% of the embryos developed shoots. Substitution of BA and KN with 22.7 μm TDZ increased plant recovery from 86% to 92%. Plants grown on TDZ had multiple shoots. Eighty-four percent of these plants survived in sandy soil and were grown to maturity. Received: 12 February 1996 / Revision received: 11 July 1996 / Accepted 30 April 1997     

THIDIAZURON的细胞分裂素活性研究——Ⅰ.对番木瓜(Carica pentagona)愈伤组织诱导及芽生长的作用

以番木瓜(C.Pentagona)为材料,研究了thidiazuton(TDZ)的细胞分裂素活性。用Litz改良的MS为基本培养基,附加TDZ浓度为:0、0.002、0.02、0.2、2.0mg/l,与NAA0.2mg/l结合使用(NT)或否(T),并以附加0.2mg/l NAA和2.0mg/l普通细胞分裂素如2ip,玉米素、BAP等之一(NP等)的培养基为对照,培养番木瓜试管繁殖幼苗的茎外植体。结果表明,节和节间外植体在NT和T上的愈伤组织诱导及节上休眠腋芽生长的反应明显不同。与普通细胞分裂素相比较,TDZ的活性较2iP等高出百倍乃至千倍以上,而且与普通细胞分裂素相同,TDZ可以与外源或内源的生长素发生协同作用。对以上结果进行了讨论。     

In vitro rapid multiplication and propagation of <Emphasis Type="Italic">Cardiospermum</Emphasis><Emphasis Type="Italic">halicacabum</Emphasis> L. through axillary bud culture

A simple, rapid and efficient protocol for micropropagation of Cardiospermum halicacabum via axillary bud multiplication has been successfully developed. The organogenic competence of nodal segments was investigated on Murashige and Skoog (MS) medium supplemented with different concentrations of benzyladenine (BA), kinetin (Kn), thidiazuron (TDZ) and 2-isopentenyladenine (2-iP). Multiple shoots differentiated directly without callus mediation within 4 weeks when explants were cultured on a medium fortified with cytokinins. The maximum number of shoots (14.83 ± 0.52) was developed on a medium supplemented with 0.3 μM TDZ. Such proliferating shoots when subcultured onto MS media devoid of TDZ gave the highest rate of shoot multiplication (35.66 ± 1.00) by the end of fourth subculture passage. Elongated shoots were rooted on 1/3 MS medium augmented with 0.5 μM IAA. The plantlets thus obtained were successfully hardened and transferred to greenhouse.     

Regeneration of Pea (<Emphasis Type="Italic">Pisum sativum</Emphasis> L.) by a cyclic organogenic system

In a five-step procedure, plants were regenerated from meristematic tissue initiated from nodal tissue in four pea cultivars (Espace, Classic, Solara, and Puget). In step 1, stem tissue with one node (1-cm size) was subcultured on medium containing thidiazuron. As a result multiple shoots were produced, appearing normal or swollen at their bases. The multiple shoots were subcultured in the same medium, resulting in the formation of a green hyperhydric tissue in the swollen bases of the multiple shoots, which is fully covered with small buds [bud-containing tissue (BCT)]. In step 2, BCT fragments were isolated and subcultured in the same medium and, as a result, they were able to reproduce themselves in a cyclic fashion. In step 3, subculture of BCT on medium supplemented with a combination of gibberelic acid, 6-benzyladenine and -naphthalene acetic acid (NAA), resulted in the formation of shoots, which were rooted in step 4 on medium supplemented with 0.5 mg/l NAA, indole-3-acetic acid (IAA) or indole-3-butyric acid. In step 5, in vitro plants were transferred to the greenhouse for acclimatisation and further development. The four varieties tested were all able to produce meristematic tissue, suggesting that its production is genotype independent.     

Thidiazuron-induced shoot-bud formation on root segments of Albizzia julibrissin is an apex-controlled, light-independent and calcium-mediated response

Root segments or entire roots of Albizziajulibrissin formed shoot-buds; the former were more responsive thanthe latter. The regeneration capacity of root segments increased with anincreasing distance from the meristem. Shoot regeneration on N₆mineral formulation required either a cytokinin (BAP) or thidiazuron (TDZ); thelatter was more effective than the former, inducing a higher number of shoots ata low concentration (0.1 M) in the light as well as in thedark. The frequency of shoot formation was reduced when the auxin inhibitorsmaleic hydrazide (MH) or triiodobenzoic acid (TIBA) were included, indicating anindirect role of auxin in shoot morphogenesis. Inhibitors of calcium uptake(lanthanum) and calmodulin, trifluoperazine (TFP) or chlorpromazine (CPZ) atvery low levels, resulted in inhibition to reduction in frequency of shootmorphogenesis. This indicates that TDZ-induced shoot formation may be acalcium-mediated response. Increasing the level of calcium in the medium did notpromote shoot formation in the presence of TDZ (0.1 M). At areduced level of calcium, which was ineffective in the presence of low TDZ (0.1M), shoot-buds appeared when the concentration of TDZ wasraised to 1.0 M. This provides indirect evidence that TDZmodulates the tissue level of calcium needed for shoot formation.