Thidiazuron-induced plant regeneration from hypocotyl cultures of St. John's wort (Hypericum perforatum. cv 'Anthos')

 St. John's wort (Hypericum perforatum. cv 'Anthos') is a medicinal plant with evidence of efficacy as an anti-depressant. The present report describes the development of an in vitro regeneration system that utilizes thidiazuron [N-phenyl-N′-(1,2,3-thidiazol-yl)urea] for the induction of de novo shoots on etiolated hypocotyl segments of St. John's wort seedlings. The optimum level of thidiazuron supplementation to the culture medium was 5 μmol·l^–1 for a 9-day induction period followed by subculture of induced hypocotyl explants on basal medium. Other plant growth regulators including benzyladenine and indoleacetic acid were not effective in inducing regeneration on St. John's wort hypocotyls. Histological examination of the cultures revealed that the regenerated plants were derived from de novo developed shoots. Transfer of the regenerated shoots into a liquid medium with no plant growth regulators resulted in the rapid and prolific growth of viable plantlets. The rapid and efficient micropropagation system for St. John's wort may be useful for both the genetic improvement of this crop and the production of high-quality phytopharmaceutical preparations for the treatment of neurological disorders. Received: 19 March 1999 / Revision received: 5 July 1999 · Accepted: 17 August 1999     

High-frequency plant regeneration from leaf-disc cultures of Jatropha curcas L.: an important biodiesel plant

A simple, high-frequency and reproducible protocol for induction of adventitious shoot buds and plant regeneration from leaf-disc cultures of Jatropha curcas L. has been developed. Adventitious shoot buds were induced from very young leaf explants of in vitro germinated seedlings as well as mature field-grown plants cultured on Murashige and Skoog’s (MS) medium supplemented with thidiazuron (TDZ) (2.27 μM), 6-benzylaminopurine (BA) (2.22 μM) and indole-3-butyric acid (IBA) (0.49 μM). The presence of TDZ in the induction medium has greater influence on the induction of adventitious shoot buds, whereas BA in the absence of TDZ promoted callus induction rather than shoot buds. Induced shoot buds were multiplied and elongated into shoots following transfer to the MS medium supplemented with BA (4.44 μM), kinetin (Kn) (2.33 μM), indole-3-acetic acid (IAA) (1.43 μM), and gibberellic acid (GA₃) (0.72 μM). Well-developed shoots were rooted on MS medium supplemented with IBA (0.5 μM) after 30 days. Regenerated plants after 2 months of acclimatization were successfully transferred to the field without visible morphological variation. This protocol might find use in mass production of true-to-type plants and in production of transgenic plants through Agrobacterium/biolistic-mediated transformation.     

Enhanced bud regeneration in aspen (Populus tremula L.) roots cultured in liquid media

 The regeneration potential of excised aspen (Populus tremula L.) roots cultivated in liquid medium, as affected by plant growth regulators and by the position of the isolated root explant on the main root, was investigated. The effect of various levels of benzyladenine (BA) and thidiazuron (TDZ) on bud regeneration in root explants was studied. TDZ in the medium had a marked effect on bud development as compared with BA, inducing a tenfold increase in the number of buds regenerated from various root explants. TDZ enhanced both root and root-borne shoot biomass production but reduced further shoot development and elongation. The position of the isolated root sections on the main root affected regeneration, the proximal sections further away from the root tip producing the highest number of buds per explant in both BA and TDZ treatments. Buds regenerated in close proximity to the site of lateral roots in BA-treated roots, while in TDZ-treated root sections, the buds formed all over the root regardless of the presence of lateral roots. The buds developed from inner cortical and sub-epidermal cell layers, disrupting the epidermis and the inner layers. Root biomass production and growth was greatly enhanced in well-aerated bioreactor culture in the presence of 4.5×10^–2 μM TDZ. A high number of the root-borne shoots could be rooted and converted to plantlets. However, while shoots regenerated in a medium with BA rooted well in a growth regulator-free medium, shoots formed in a medium with TDZ required auxin for rooting. Roots cultured in the presence of ancymidol, a gibberellin biosynthesis inhibitor, regenerated non-hyperhydric bud clusters and hyperhydric shoots. These were separated mechanically, subcultured to growth and rooting medium and transplanted ex vitro resulting in phenotypically true-to-type plantlets. The potential of liquid cultures for aspen shoot biomass production from roots is discussed. Received: 24 January 2000 / Revision received: 6 March 2000 / Accepted: 7 March 2000     

Development of a highly efficient, repetitive system of organogenesis in soybean (Glycine max (L.) Merr).

A highly efficient, repetitive system of organogenesis was developed in soybean. Seeds of soybean cv. White hilum pretreated with TDZ formed multiple bud tissue(s) (MBT) at the cotyledonary nodes. MBT initiation occurred only if the axillary buds were not removed from the cotyledonary node. The best MBT formation was achieved by pretreating the seeds for 1 week on medium supplemented with 0.1 mg/l TDZ, followed by culture of the cotyledonary node on medium supplemented with 0.5 mg/l BA for 4 weeks. Culture of the MBT on medium supplemented with 0.1 mg/l TDZ resulted in the proliferation of MBT. MBT was maintained in this way for 12 months. Three hundred thirty six shoots were obtained when 1 g of MBT was subcultured on medium supplemented with 0.5 mg/l BA. Plants were rooted on medium without growth regulators. The regenerated plants grew normally in the greenhouse. Unfortunately, they did not set seeds because of the long-day conditions during growth. This system was successfully applied in three other genotypes.     

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     

Effects of nutrient media,different cytokinin types and their concentrations on in vitro multiplication of G × N15 (hybrid of almond × peach) vegetative rootstock

The objective of this research was to assess the effects of different media i.e. Murashige and Skoog (MS) and Quoirin and Lepoivre (QL), cytokinin type i.e. 6-Benzyladenin (BA) and 6-Benzylaminopurine (BAP) and cytokinin concentration on in vitro proliferation of the G × N15 rootstock. To evaluate the effects of different media and cytokinin type, two separate experiments were conducted as factorial based on completely randomized design, and single nodes were used as explants. The results showed that MS nutrient medium was found to be superior to QL nutrient medium. Regarding the interaction between media and growth regulators, the best interaction was found in MS medium supplemented with 1 mg l⁻¹ BAP resulting in 8.5 new micro shoots/explant while 7.75 shoots were observed in MS medium containing 1.25 mg l⁻¹ BA. The longest length of new micro-shoots (2.10 cm) was obtained in hormone-free MS medium. Findings of this study showed that there is a significant correlation between the hormone level and plantlet height and formed callus weight so that an increase in BAP and BA levels in both of MS and QL media resulted significantly in height decrease and callus weight increase. The results also suggest that the best and the worst plantlets in terms of quality were observed in hormone-free QL medium and MS medium supplemented with 1.25 mg l⁻¹, respectively. These results reflect the fact that the presence of high amounts of NH₄NO₃ and cytokinin especially BAP in culture medium triggered inhibitory effect on shoot growth.     

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.     

Inflorescence proliferation for somatic embryogenesis induction and suspension-derived plant regeneration from banana (<Emphasis Type="Italic">Musa</Emphasis> AAA,cv. ‘Dwarf Cavendish’) male flowers

Availability of explants with adequate embryogenic competence is one of the most important limitations for the development of regenerable cell suspensions in banana. To increase the number and ease of accessibility to potentially embryogenic explants, a novel methodology is described by which young male flower clusters isolated from adult plants are induced to form new flower buds and proliferate in vitro. Different concentrations of the plant growth regulator thidiazuron (TDZ) induced inflorescence proliferation, which could be maintained over time as a continuous source of young flower buds. Intensity of proliferation was evaluated during successive subcultures. At the third cycle of proliferation, the highest multiplication rate (2.89) was obtained on the medium containing 5 microM TDZ. Newly generated floral tissues were assessed for embryogenic competence, resulting in an average embryogenic frequency of 12.5%. The observed embryogenic capacity, together with the recurrent availability of immature flowers, allowed for the direct initiation of cell suspensions from bulked explant cultures. Regular observation and regeneration tests during the development of suspended cell cultures confirmed their embryogenic condition. Produced embryos successfully matured and germinated to regenerate hundreds of somatic in vitro plants.     

In vitro regeneration of Hagenia abyssinica (Bruce) J.F. Gmel. (Rosaceae) from leaf explants

A protocol for shoot regeneration of Hagenia abyssinica (Bruce) J.F. Gmel. has been developed using leaf explants originating from in vitro seedlings and mature material. The explants were cultured on Murashige and Skoog medium containing various concentrations of -naphthaleneacetic acid and thidiazuron (TDZ). Concentrations of TDZ lower than 1.0 M promoted direct shoot regeneration, but higher concentrations promoted callus induction. Around 96–100% regeneration was obtained between 1.0 and 10 M TDZ. The average number of shoots per explant at 1.0 M TDZ was 8.4±4.8. Among the different explants used, the highest percentage of regeneration and shoots per explant was obtained from complete leaf explants. A significant (P0.05) difference in regeneration capacity was observed among the five genotypes examined. The resulting shoots were multiplied on multiplication medium, rooted and acclimatised in a greenhouse.