TDZ：一种有效的植物生长调节剂

人工合成的苯基脲衍生物TDZ（N-苯基-N′-1,2,3-噻二唑-5-脲）是已被广泛用于植 物组织培养形态发生的高效生物调节剂。它能诱导外植体从愈伤组织形成到体细胞胚胎发生 的一系列不同反应,具有生长素和细胞分裂素双重作用的特殊功能。近年来通过研究TDZ启 动的形态发生事件,人们正逐渐揭示出其内在作用机理。许多研究报告指出TDZ通过调节内 源植物生长激素起作用,或者是诱导逆境产生起间接作用。它还能调节细胞膜结构、能量水 平、营养吸收和同化作用。本文将探讨TDZ几种可能的作用机理,并概述近年来有关TDZ诱导的植物离体形态发生效应研究进展。     

几种生长素对木薯体细胞胚发生和植株再生的作用

木薯（ＭａｎｉｈｏｔｅｓｃｕｌｅｎｔａＣｒａｎｔｚ）嫩叶外植体在含２,４－Ｄ（１－１６ｍｇＬ－１）或ＮＡＡ（４０ｍｇＬ－１）的诱导培养基上能直接诱导初生体细胞胚胎发生,而低活性的生长素ＩＢＡ或ＩＡＡ（４０ｍｇＬ－１）或低浓度的２,４－Ｄ（０．１ｍｇＬ－１）则不能。而以木薯初生体细胞胚切段为外植体时,次生体细胞胚的诱导对生长素的活性或浓度的要求降低。降低生长素浓度或活性能缩短体细胞胚诱导时间并促进根的形成,有利于提高体细胞胚的再生频率。体细胞胚外植体在诱导培养基上的培养时间对下一步体细胞胚胎发生的诱导产生影响。通过石腊切片观察,在含２,４－Ｄ诱导培养基上,木薯体细胞胚不能形成芽分生组织。结果表明,２,４－Ｄ等生长素类物质对诱导木薯体细胞胚胎发生是关键因子,但对体细胞胚的进一步发育和植株再生起抑制作用。     

Interactive effect of light,temperature and TDZ on the regeneration potential of leaf discs of <Emphasis Type="Italic">Fragaria x ananassa</Emphasis> Duch

This is the first report where shoot regeneration in strawberry cultivar Chandler has been achieved simultaneously through both somatic embryogenesis and shoot bud formation. Direct somatic embryogenesis was observed in leaf discs which were cultured on medium containing MS salts + B₅ vitamins + 2% glucose + 18.16 μM thidiazuron (TDZ) and given both chilling and dark treatment for 2 wk at 4 ± 2°C followed by incubation at 25 ± 2°C under 16-h photoperiod for third wk. After 3 wk, these explants were then subcultured on medium containing MS salts + B₅ vitamins + 2% glucose and incubated under 16-h photoperiod at 25 ± 2°C for further growth and development. Direct regeneration via de novo shoot bud formation was observed in leaf disks which were given dark treatment and were cultured on medium containing MS salts + B₅ vitamins + 2% glucose supplemented with 9.08 μM TDZ. There was a synergistic effect of photoperiod, dark, and chilling treatments on somatic embryogenesis, whereas chilling treatment had an inhibitory effect on shoot organogenesis.     

Analysis of expression profile of selected genes expressed during auxin-induced somatic embryogenesis in leaf base system of wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis>) and their possible interactions

Somatic embryogenesis is a notable illustration of plant totipotency and involves reprogramming of development in somatic cells toward the embryogenic pathway. Auxins are key components as their exogenous application recuperates the embryogenic potential of the mitotically quiescent somatic cells. In order to unravel the molecular basis of somatic embryogenesis, cDNA library was made from the regeneration proficient wheat leaf base segments treated with auxin. In total, 1440 clones were sequenced and among these 1,196 good quality sequences were assembled into 270 contigs and 425 were singletons. By reverse northern analysis, a total of 57 clones were found to be upregulated during somatic embryogenesis, 64 during 2,4-D treatment, and 170 were common to 2,4-D treatment and somatic embryogenesis. A substantial number of genes involved in hormone response, signal transduction cascades, defense, anti-oxidation, programmed cell death/senescence and cell division were identified and characterized partially. Analysis of data of select genes suggests that the induction phase of somatic embryogenesis is accompanied by the expression of genes that may also be involved in zygotic embryogenesis. The developmental reprogramming process may in fact involve multiple cellular pathways and unfolding of as yet unknown molecular events. Thus, an interaction network draft using bioinformatics and system biology strategy was constructed. The outcome of a systematic and comprehensive analysis of somatic embryogenesis associated interactome in a monocot leaf base system is presented. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Involvement of Plant Hormones and Plant Growth Regulators on in vitro Somatic Embryogenesis

In spite of the importance attained by somatic embryogenesis and of the many studies that have been conducted on this developmental process, there are still many aspects that are not fully understood. Among those features, the involvement of plant hormones and plant growth regulators on deTermining the conversion of somatic onto embryogenic tissues, and on allowing progression and maturation of somatic embryos, are far away from being completely comprehended. Part of these difficulties relies on the frequent appearance of contradictory results when studying the effect of a particular stimulus over a specific stage in somatic embryogenesis. Recent progress achieved on understanding the interaction between exogenously added plant growth regulators over the concentration of endogenous hormones, together with the involvement of sensitivity of the tissues to particular hormone groups, might help clarifying the occurrence of divergent patterns in somatic embryogenesis, and in tissue culture in general. The aspects described above, emphasizing on the effect of the concentration of plant hormones and of the addition of plant growth regulators during the different phases of somatic embryogenesis, will be reviewed in this paper. Citations will be limited to review articles as much as possible and to individual articles only in those cases in which very specific or recent information is presented.     

Optimisation of somatic embryogenesis in fourteen cultivars of sweet potato [Ipomoea batatas (L.) Lam.]

Culture procedures have been developed to facilitate the induction and maintenance of somatic embryogenic tissues in 14 out of 16 tested cultivars of sweet potato [Ipomoea batatas (L.) Lam]. Both the size of the axillary bud explant and the type of auxin were found to be critical for the successful induction of somatic embryogenesis. Of the five auxins screened 2,4-dichlorophenoxyacetic acid 2,4-D and 2,4,5-trichlorophenoxyacetic acid were the most effective, with use of the latter inducing the production of embryogenic tissues in 7 cultivars which responded poorly or not at all to 2,4-D. Procedures for secondary/cyclic embryogenesis, formation of mature embryos and their conversion to plants are also described. Received: 24 September 1996 / Revision received: 16 December 1996 / Accepted 27 January 1997     

Direct somatic embryogenesis and plant regeneration of carnation (Dianthus caryophyllus L.)

Conditions for efficient direct somatic embryogenesis and plant regeneration of leaf explants from carnation cultivars Lena (SIM group) and Bulgarian spray cultivars Nasslada, Yanita, Regina and Line 84 were established. Murashige and Skoog (MS) liquid medium supplemented with 1 mg/l 2,4-dichlorophenoxyacetic acid and 0.2 mg/l 6-benzylaminopurine was used for direct induction of embryoids without an additional callus phase. The first globular structures were observed after 20 days of cultivation. Their further development to the torpedo stage was correlated with the presence of polyethylene glycol (PEG 6000). Somatic embryo maturation was promoted by casein hydrolysate (1000 mg/l) in MS liquid media. The percentage conversion of embryos and polyembryos to whole plants varied between 10 and 75% among studied cultivars. Plantlets regenerated by this procedure were morphologically identical to the donor material and developed normally in a greenhouse. Received: 29 November 1996 / Revision received: 28 April 1997 / Accepted: 28 May 1998     

Molecular fate of thidiazuron and its effects on auxin transport in hypocotyls tissues of Pelargonium × hortorum Bailey

Thidiazuron, a synthetic phenylurea-type cytokinin, has previously beenfound to induce somatic embryogenesis and organogenesis in a wide range ofplantspecies and to modulate the metabolism of endogenous auxins and cytokinins. Inspite of these findings, the precise mode of action of TDZ remainsundetermined.The current studies were undertaken to determine the fate of the TDZ moleculeand the effects of TDZ exposure on auxin transport in plants. The fate of tworadiolabelled versions of thidiazuron, [¹⁴C-5-thidiazol]-TDZ and[¹⁴C-U-phenyl]-TDZ, was investigated in sterile hypocotyl culturesofgeranium (Pelargonium×hortorumBailey). Radiolabelled TDZ was recovered from the tissue explants inethanol-insoluble, ethanol-soluble and chloroform fractions as well as inacidic, basic and neutral eluants from Dowex resins. Hypocotyl sections thathadbeen exposed to TDZ were found to accumulate more ¹⁴C-IAA from theculture medium and to translocate the auxin over a greater distance within thetissues. These data provide the first evidence that the TDZ molecule remainsintact in both a free and conjugated form within the plant tissues and providesome indication that TDZ-exposure enhances the accumulation and translocationofauxin within the tissues.     

Regeneration of coconut (Cocos nucifera L.) from plumule explants through somatic embryogenesis

A protocol was developed for coconut regeneration using plumules from mature zygotic embryos as explants, and media with the synthetic growth regulators 2,4-dichlorophenoxyacetic acid and 6-benzylaminopurine. Evidence for the regeneration process from these tissues occurring through somatic embryogenesis is presented. The somatic embryos were capable of germination, subsequent development into plantlets and successful transfer to the nursery. The yields were larger, nearly twofold for calli and over tenfold for calli bearing somatic embryos, than those previously reported with inflorescence explants. The present protocol thus represents an improvement in time and yield over previous protocols. Even though plumule explants are not the ideal tissue source due to possible genetic heterogeneity, the improvements made here may be applicable to tissues from mature plants. In addition, micropropagation of coconut using plumules is potentially useful when they are obtained from fruit produced from selected parents of outstanding performance, such as those resistant to diseases. Received: 19 March 1997 /Revision received: 11 September 1997 / Accepted: 4 October 1997     

Regeneration of Acacia mangium through somatic embryogenesis

 Somatic embryogenesis and whole plant regeneration were achieved in callus cultures derived from immature zygotic embryos of Acacia mangium. Embryogenic callus was induced on MS medium containing combinations of TDZ (1–2 mg/l), IAA (0.25–2 mg/l) and a mixture of amino acids. Globular embryos developed on embryogenic callus cultured on the induction medium. Nearly 42% of embryogenic cultures with globular embryos produced torpedo- and cotyledonary-stage embryos by a two-step maturation phase. The first stage occurred on 1/2-strength MS basal medium containing 30 g/l sucrose and 5 mg/l GA₃ followed by the second stage on 1/2-strength MS basal medium containing 50 g/l sucrose. Of the cotyledonary-stage somatic embryos, 11% germinated into seedlings that could be successfully transferred to pots. Light- and scanning electron microscopy showed that the somatic embryos originated from single cells of the embryogenic callus. Further, a single cell layer could be detected beneath the developing somatic embryos that appeared to be a demarcation layer isolating the somatic proembryonic structure from the rest of the maternal callus. A suspensor-like structure connected the globular embryos to the demarcation layer. This is the first successful report of plant regeneration through somatic embryogenesis for this economically important tropical forest species. Received: 20 January 2000 / Revision received: 28 September 2000 / Accepted: 29 September