早熟棉体细胞胚胎发生和植株再生体系的建立

以8个早熟或特早熟棉花为材料,通过不同激素组合(1.0 mg/L IBA+0.5 mg/L KT;0.1 mg/L 2,4-D+0.1 mg/L KT)诱导其愈伤组织,为早熟棉花的遗传转化以及基因功能研究奠定基础.结果表明,2种激素组合均能诱导产生4种主要类型的愈伤组织:淡黄色颗粒状愈伤组织,褐化的愈伤组织,翠绿致密的愈伤组织,疯长型愈伤组织.4种愈伤组织转入增殖培养基中前2种愈伤组织能够分化出胚性愈伤组织,胚性愈伤组织再转到分化培养基上培养能够产生胚状体,即体细胞胚;体细胞胚进一步发育成为再生小苗.用该组织培养再生系统,成功地使晋棉5号、中棉27号和辽棉10号等3个早熟棉品种在5～7个月内通过体细胞胚胎分化获得再生小苗.     

影响籼稻体细胞胚胎发生几个因素的研究

以 IR36、IR50、IR52及 IR54等品种的幼穗及成熟种子为材料,研究了蔗糖浓度、2,4-D、NAA、激动素及脱落酸对体细胞胚胎发生、结构的保持及植株分化的影响。6%蔗糖有利于胚性愈伤组织的诱导;3%的有利于胚性结构的保持及植株分化。当培养基中不含2,4-D,而含激动素与 NAA 时,幼穗直接出芽;当不含激动素而含2,4-D与 NAA 时,外植体产生非胚性愈伤组织;当不含 NAA 而含2,4-D 与激动素时,外植体产生胚性愈伤组织。认为,2,4-D与激动素是籼稻体细胞胚胎发生的基本因素,而 NAA 的作用是不明显的。不同外植体(幼穗与成熟种子)的体细胞胚胎发生,对2,4-D 与激动素的反应略有不同,幼穗更为敏感。在继代培养基中,加入低浓度的脱落酸有利于胚性结构的保持。随着继代世代的延续,分化培养中愈伤组织所表现出的绿色生长点状物不能发育成完整植株。     

甘蔗原生质体的体细胞胚胎发生

用甘蔗(台糖134)花粉植株叶外植体产生的愈伤组织,作为分离原生质体的材料。原生质体以液体浅层培养的方式培养在修改的 MS 培养基上,经培养后一周内,观察到第一次细胞分裂,约5—6周后,形成了愈伤组织。将胚性细胞团组成的愈伤组织转移到除去或降低2,4-D浓度,但含有 BA 的分化培养基上,约2—3周后,有的愈伤组织发育了胚芽鞘,另一些愈伤组织分化出胚根或根。系统观察了这些原生质体在分裂和愈伤组织形成过程中的体细胞胚胎发生。     

棉花高频体细胞胚胎发生及再生体系建立

棉花的体细胞胚胎发生率低,限制了转基因棉花的发展。为了扩大可再生棉花的基因型,发展新疆优质棉花的特点,以新疆的主要栽培品种新陆早33为材料,以下胚轴为外植体,使用葡萄糖,麦芽糖作为主要碳源,用Phytagel固化,对不同激素的浓度组合和培养条件进行探索,对棉花胚性愈伤的诱导到体细胞胚胎的发生阶段进行优化,体细胞胚胎成熟以后进行萌发培养可以获得正常的植株。通过试验证明,有利于棉花的愈伤组织生长的激素浓度为KT 0.1 mg/L,2,4-D 0.1 mg/L,下胚轴的中部诱导愈伤形态最好。体细胞胚胎发生阶段以KT,IBA组合,以低盐培养基进行子叶胚的成苗,建立了再生体系。     

影响水稻幼穗培养体细胞胚胎发生因素的研究

用水稻幼穗为外植体进行组织培养,研究了影响其体细胞胚胎发生的有关因素,建立了高频率体细胞胚胎发生的培养程序。结果表明不同基因型之间体细胞胚胎发生率的差异达到61．2％;生长素2,4－D对诱导水稻体细胞胚起重要的调控作用,细胞分裂素BA有一定的协同促进作用。干燥处理可提高愈伤组织体细胞胚胎发生率,愈伤组织含水量在60％～80％范围的培养效果较好;外源DNA溶液浸泡发育早期的心状体细胞胚．其进一步发育时异常胚的频率显著增加．成苗率降低。     

新疆雪莲体细胞胚胎发生

通过体细胞胚胎发生途径实现了新疆雪莲(Saussurea involucrata Kar.et Ki r.)的植株再生。选用新疆雪莲子叶为外植体, 接种于MS+0.5 mg.L-1 2,4-D+0.05-1 mg.L-1 BA的固体培养基上, 进行愈伤组织的诱导。从第1次继代培养的愈伤组织中挑选出黄绿色、颗粒状、质地致密的胚性愈伤组织, 转移到含0.05-0.1 mg.L-1 2,4-D 的MS液体培养基中进行悬浮培养,20天后可分化产生大量球形胚。继代过程中相继加入PEG和GA3 , 可以促进体细胞胚的分化和生长。体细胞胚在含有5 mg.L-1 GA3 的MS固体培养基上, 可发育成完整的植株。     

一种新型的棉花体细胞胚胎发生的快速诱导法

用异常苗的茎段和叶片进行培养,可快速高效诱导获得棉花体细胞胚胎发生,激素组膈及其浓度配比影响异常苗的直接胚胎发生,在附加有０．１ｍｇ／Ｌ ＩＡＡ和０．１ｍｇ／ＬＺＴ的改良ＭＳ培养基上,异常苗不仅体细胞胚胎发生率高,而且形成的体细胞胚数目多,用异常苗作外植体获得胚性愈伤组织仅需要时间１０ｄ,获得成熟胚需要２０－３０ｄ,获得再生植株需要６０ｄ,大大短于常规方法获得胚性愈伤组织、体细胞胚和再生植株的时间     

2,4-D、BA对人参体细胞胚胎发生过程的影响研究

以人参芽胞、二年生人参根、实生苗（茎、叶）为外植体研究了体细胞胚的发生条件,并对其发生过程中可溶性蛋白、相关酶活性及内源激素的变化等进行了研究。结果表明,诱导愈伤组织的培养基为MS＋2,4-D4．0mg／L＋BA0．2mg／L;在MS＋2,4-D1．0mg／L＋KT0．2mg／L培养基上继代培养,可获得胚性愈伤组织;在无2,4-D的培养基上可诱导出胚状体。将胚状体转入无任何激素的MS培养基上继续培养,之后转入1／2MS培养基上获得再生植株。在体细胞胚胎发生过程中,可溶性多糖和可溶性淀粉含量在早期胚时较低,可溶性蛋白含量、POD及PPO活性在早期胚时最高;IAA在早期胚时期含量最高,在成熟胚时期ABA含量最高,而ABA／IAA比值在成熟胚时较高,利于体细胞胚的发育成熟。     

油菜素内酯对陆地棉体细胞胚胎发生的影响

0.01ppmBR能使陆地棉Coker201,312两品种分化产生胚性愈伤组织,并有效地保持该种愈伤组织的生活力和胚胎发生能力。0.01ppmBR 0.5 ppmIAA促进Coker201,312两品种体细胞胚胎发生,0.01ppmBR 0.05ppm 2,4—D能诱导所有供试品种产生疏松黄绿色愈伤组织,2,4—D用量逐步降低或除去后,一些品种便分化产生胚性愈伤组织或体细胞胚状体。     

棉花体细胞胚胎发生的研究进展

经过30多年的发展, 已经在多个不同的棉花品种中获得了体细胞胚, 并再生成苗。但由于体细胞胚胎发生往往受多种因素影响, 如何从愈伤组织高效率地转化为胚性愈伤组织依然是限制棉花组织培养与遗传转化的关键问题之一。本文概述了棉花体细胞胚胎发生的研究进展, 分别从棉花体细胞胚胎发生的起源、影响棉花体细胞胚胎发生的内外因素以及寻找棉花体细胞胚胎发生特异表达基因等几方面进行综述, 并对研究中存在的问题进行了讨论。     

Somatic embryogenesis and plant regeneration from root sections of <Emphasis Type="Italic">Allium schoenoprasum</Emphasis> L.

A protocol has been developed for somatic embryogenesis and subsequent plant regeneration in Allium schoenoprasum L. Calli were induced from root sections isolated from axenic seedlings and cultivated on media containing either Murashige and Skoog’s (MS) or Dunstan and Short’s mineral solution supplemented with 5 μM 2,4-dichlorophenoxyacetic acid (2,4-D) in combination with 6-benzylaminopurine (BA), 6-furfurylaminopurine (Kin) or thidiazuron (TDZ) at 1, 5 or 10 μM. The highest frequencies of callus induction were achieved on media with 5 μM 2,4-D in combination with 5 μM TDZ or 10 μM BA (78.9% and 78.4%, respectively). Calli were then transferred to 1 μM 2,4-D, where compact yellow callus turned to segmented yellowish callus with transparent globular somatic embryos at the surface. Calli that were previously grown on media with 5 μM 2,4-D in combination with 10 μM BA or 10 μM TDZ showed the highest frequencies of embryogenic callus formation (45% and 42%) as well as mean number of somatic embryos per regenerating callus. The choice of mineral solution formulation did not significantly affect callus induction or embryogenic callus formation. The embryos could complete development into whole plants on plant growth regulator (PGR)-free medium, but inclusion of Kin (0.5, 2.5 and 5 μM) in this phase improved somatic embryo development and multiplication. Subsequently transferred to 1/2 MS PGR-free medium, all embryos rooted and the survival rate of the plants in a greenhouse was 96%.     

Effect of TDZ and 2, 4-D on peanut somatic embryogenesis and in vitro bud development

Failure of peanut somatic embryos to convert into plantlets is attributed to the abnormal development of the plumule. Thidiazuron (TDZ) was effective in the conversion of peanut somatic embryos to plantlets by triggering morphogenetic activity in the abnormal plumules of the rooted somatic embryos. The present study aimed to induce normal embryo differentiation by culturing the embryogenic masses in embryo development medium containing 2,4-D and various concentrations of TDZ. Although this was not achieved due to restricted somatic embryo development in the presence of TDZ, bud-like projections appeared in the embryogenic masses when these were cultured in media containing combinations of 2,4-D and TDZ. These projections developed into buds, which subsequently formed shoots and plantlets. The response varied with the concentration and exposure of TDZ. At lower concentrations, the buds appeared in a defined row in the equatorial region of the explant, and with extended incubation, more and more buds appeared in rows alongside the initial row. Induction of multiple buds in a defined row in this specific site (equatorial region) suggested the presence of potent cells around this region. At higher concentrations, these projections appeared in large numbers spread over the whole upper part of the embryogenic mass starting from the equatorial region. The ability of embryogenic mass to convert into organogenic mass and to produce large number of organogenic buds provides an excellent system for basic studies and for the genetic transformation of peanut.     

High-frequency somatic embryogenesis from germinated zygotic embryos of <Emphasis Type="Italic">Schisandra chinensis</Emphasis> and evaluation of the effects of medium strength,sucrose, GA<Subscript>3</Subscript>, and BA on somatic embryo development

We developed a new protocol for highly efficient somatic embryogenesis and plantlet conversion of Schisandra chinensis. Friable embryogenic callus was induced from cotyledonary leaves and hypocotyls of germinated zygotic embryos on Murashige and Skoog (MS) agar medium containing 2,4-dichlorophenoxyacetic acid (2,4-D). Preculture of zygotic embryos on 2,4-D-containing medium increased embryogenic callus induction efficiency. The highest embryogenic callus induction frequency of 56.7% was obtained from shoot apical meristem-containing hypocotyl explants from 1-week-old germinated embryos on MS medium containing 4.0 mg l⁻¹ 2,4-D. Embryogenic callus proliferation, somatic embryo (SE) formation, and subsequent plantlet conversion occurred under optimal culture conditions. The effects of MS medium strength, sucrose, gibberellic acid (GA₃), and 6-benzyladenine (BA) on SE formation and plantlet conversion were evaluated. Low MS medium strength (1/4 to 1/2) was necessary for SE formation, and the optimal sucrose concentration was 2.0%. Supplementing medium with GA₃ negatively impacted SE formation and subsequent development. BA significantly increased the number of SEs and the plantlet conversion capacity. One-third-strength MS medium with 1.0% sucrose and 0.5 mg l⁻¹ BA produced the highest number of SEs (309 embryos from 9 mg embryogenic callus) and the highest frequency of plantlet conversion from germinated SEs (52.6%). When transplanted to soil, 90% of the regenerated plants developed into normal plants.     

Somatic embryogenesis from pea embryos and shoot apices

Conditions were defined for plant regeneration via somatic embryogenesis in pea, using explants from immature zygotic embryos or from shoot apices. For the induction of somatic embryos, an auxin (picloram or 2,4-dichlorophenoxyacetic acid) was required. Embryogenic callus originated from embryonic axis tissue of immature embryos and from the axillary-bud region and the plumula of shoot apices. A clear effect of embryo size on somatic embryogenesis was shown. There were differences in frequency of somatic embryogenesis among the five genotypes used in the study. Additions of BA to auxin-containing medium reduced embryo production. Histological examinations confirmed the embryogenic nature of the immature embryo cultures and revealed that somatic embryos originated from the meristematic areas near the callus surface.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Embryogenic cell lines from somatic embryos of grape (Vitis vinifera L.)

Somatic embryo formation occurred on leaf callus of grape (Vitis vinifera cv. Koshusanjaku). An embryogenic callus was induced from somatic embryo clusters cultured on vitamin-, inositol- and glycine-free Nitsch and Nitsch (1969) medium supplemented with 1.0M 2,4-D. This callus has retained a high embryogenic activity after repeated subculture on the same medium for over two years, and has produced numerous embryos after transfer to a hormone-free medium. The effect of cytokinin treatment on somatic embryogenesis from leaf callus was also examined. N-(2-chloro-4-pyridyl)-N-phenylurea (KT-30) and N-(1,2,3-thiadiazol-5-yl)-N-phenylurea (TAG), both synthetic cytokinins, were found to be effective for the induction of somatic embryogenesis. When leaf callus was induced by these cytokinins combined with 2,4-D at either 5.0 or 10.0M, somatic embryos were produced.Abbreviations B₅ Basal medium, Gamborg et al. (1968) - BA 6-benzylaminopurine - 2,4-D 2,4- dichlorophenoxyacetic acid - IAA indole-3-acetic acid - 2iP (2-isopentenyl)adenine - KIN kinetin - KT-30 N-(2-chloro-4-pyridyl)-N'-phenylurea, also called 4PU-30, Kyowa Hakko Kogyo Co., Japan - NAA 1-naphthaleneacetic acid - NN Basal medium, Nitsch and Nitsch (1969) - MS Basal medium, Murashige and Skoog (1962) - TAG N-(1,2,3-thiadiazol-5-yl)-N'-phenylurea, also called thidiazuron or TDZ, Tomono Noyaku Co., Japan - ZEA zeatin     

Somatic embryogenesis and metabolic differences between embryogenic and non-embryogenic structures in mangosteen

Somatic embryogenesis in mangosteen (Garcinia mangstana L.) was investigated using seed and leaf segments cultured on Murashige and Skoog medium with treatments of 6-benzyladenine (BA) [2.0, 3.0, 4.0 µM] and 2,4-diclorophenoxyacetic acid (2,4-D) [4.5, 9.0, 13.5 µM]. There were four types of structures (globular, nodular compact, friable and spongy) formed. Two treatments resulted in embryogenic characteristics from seed cultures; the highest percentage 46.67?% of globular structure (resembling somatic embryos) grown on 3.0 µM BA and 80?% of nodular compact structures on 4.0 µM BA?+?13.5 µM 2,4-D. For the leaf culture, highest percentage, 93.33?% produced nodular compact structures on 2.0 µM BA?+?4.5 µM 2,4-D. Histological analysis showed that the globular structure has well-defined protoderm and separated from the original explant. Nodular compact structure also showed the presence of densely cytoplasmic meristematic cells with a high nucleoplasmic ratio. These characteristics observed in globular and nodular compact structure indicates somatic embryo formation. The globular structures which were converted into shoots and roots (60.00?%) showed atypical somatic embryogenesis in mangosteen. Metabolite fingerprinting was carried out using gas chromatography–mass spectrometry. Amino acids, carbohydrates, organic acids and fatty acids were found in both the embryogenic structures and non-embryogenic structures tested. Multivariate discriminant analyses of the metabolic data revealed significant metabolites (P?≤?0.05) for both types of structures. Principle component analysis suggested that amino acids and carbohydrates were the major compounds distinguishing embryogenic and non-embryogenic structures. Ornithine and mannose were present at significant level in embryogenic structures as compared to non-embryogenic ones while fructose was significantly higher in non-embryogenic structures.     

Callus induction,plant regeneration,and long-term maintenance of embryogenic cultures in <Emphasis Type="Italic">Zoysia matrella</Emphasis> [L.] Merr

An efficient protocol of callus induction, plant regeneration and long-term maintenance of embryogenic cultures for manilagrass was developed. Callus induction and embryogenic callus formation were influenced by cytokinins and nodal positions. Murashige and Skoog (MS) medium with 2 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D), 0.02 mg l⁻¹ kinetin (KT) or 6-benzyladenine (BA) gave the highest frequency for both callus induction and embryogenic callus formation compared with 0.02 mg l⁻¹ thidiazuron (TDZ) or N⁶-(2-isopenteny) adenine (2iP). The frequency of callus induction of different nodes (from the first to the sixth node) varied from 22.5 to 92.1%, and the embryogenic callus formation frequencies ranged from 13.3 to 25.7%. The highest frequencies of callus induction and embryogenic callus formation (92.1 and 25.7%, respectively) were observed in the fourth node group. During subculture on callus induction and maintenance medium, somatic embryos formed on the surface of the embryogenic callus. On regeneration medium, the regeneration rates of embryogenic callus varied from 96.8 to 100% during the 4-year period of subculture. The results also indicate that preservation of manilagrass callus is stable at low-temperature (4°C) over a period of 11 months. No significant differences were found in the activities of superoxide dismutase (SOD), peroxidase (POD) and proline content of the plants regenerated from the 4-year subcultured callus on different regeneration media.     

Somatic embryogenesis in Asparagus officinalis can be an in vitro selection process leading to habituated and 2,4-D dependent embryogenic lines

Long-term embryogenic lines were repeatedly obtained from nine asparagus (Asparagus officinalis L.) genotypes by the selection of rare events, which consisted of the emergence of either a few somatic embryos or an embryogenic callus from a restricted area of a primary callus. In the first case, somatic embryos emerged from 1 % of calli induced with naphtaleneacetic acid and transferred to a medium without auxin. Isolated and subcultured on hormone free medium, these embryos developed habituated embryogenic lines (H lines) growing by adventive embryogenesis. In the second case, 3 % of primary calli developed then subcultured on 2,4-dichlorophenoxyacetic acid (2,4-D) produced a new type of friable and yellowish-white callus, constituted of clusters of globular somatic embryos which can be continuously maintained on 2,4-D (2,4-D lines). Among 2,4-D lines, two types were identified by subculturing them on hormone–free medium. Half of the 2,4-D lines were habituated and half were 2,4-D dependent. Most plants regenerated from H lines exhibited a strong increase in embryogenic capacity compared to control plants, unlike plants regenerated from the 2,4-D dependent lines. This increased embryogenic capacity was transmitted to the progeny as a monogenic dominant trait. H lines would therefore be issued from mutation(s) occurring in vitro, conferring both the embryogenic and habituated phenotypes. On the contrary, in the 2,4-D dependent lines, the embryogenic processes appeared to remain under exogenous auxin control and no evidence of a mutational origin could be inferred from the behaviour of regenerated plants.     

Changes of 6-benzylaminopurine and 2,4-dichlorophenoxyacetic acid concentrations in plant tissue culture media in the presence of activated charcoal

Somatic embryos and embryogenic callus were initiated from immature zygotic embryos of ginseng (Panax ginseng C.A. Meyer). These somatic embryos were multiplied by adventitious (secondary and tertiary) embryogenesis and their growth and development were dependent on growth hormones in the medium. Auxins, 2,4-d, NAA, and IAA at 1.0 mg l^-1 were effective in inducing secondary and tertiary somatic embryos, which proliferated directly from the apical or cotyledonary portions of the primary somatic embryos. Single somatic embryos or clusters or embryos developed from the explanted primary embryos. Cytokinin (Kn, BA) inhibited adventitious embryogenesis. Secondary somatic embryos developed to maturation and later regenerated into plantlets in two stage process; firstly elongation of the shoot axes on MS +1.0 mg l^-1 Kn, secondly formation of root on 1.0 mg l^-1 Kn+1.0 mg^-1 GA₃ medium.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - IAA in-doleacetic acid - Kn kinetin - BA benzylaminopurine - PSE primary somatic embryo - SSE secondary somatic embryo - TSE tertiary somatic embryo     

石刁柏组织培养中体细胞胚发生的组织细胞学观察

以石刁柏(Asparagus officinalis)无菌苗的嫩茎切段为外植体,在含有1 mg/LNAA+0.5 mg/L BA的MS培养基上可100%地被诱导形成愈伤组织,在此条件下可长期继代,将继代的愈伤组织转入含有2 mg/L 2,4-D 0.5mg/L NAA的MS培养基上后,约有70%的愈伤组织块转变为胚性愈伤组织,这些胚性愈伤组织在3,4-D浓度进一步降低为0.5mg/L的条件下发育形成体细胞胚。切片观察表明:这些胚性愈伤组织是从愈伤组织的表层或近表层产生的。这些细胞核大,多核仁,细胞质浓、染色深的胚性细胞中的一些单个细胞处于与邻近细胞隔离状态,细胞壁也明显加厚。这些单细胞开始分裂,第一次分裂多为不均等分裂,形成一个大的基细胞和一个小的顶细胞,进一步分裂形成三细胞、四细胞、五细胞和具胚柄的多细胞原胚。原胚发育形成球形胚、梨形胚、香蕉形胚,由于在胚的一侧细胞分裂旺盛形成单子叶突起,最后形成子叶胚。其发育过程类似于单子叶植物合子胚的发育过程。