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 Kir．）的植株再生。选用新疆雪莲子叶为外植体,接种于MS＋0．5mg·L^-12,4-D＋0．05—1mg·L^-1BA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、质地致密的腔陛愈伤组织,转移到含0．05—0．1mg·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5mg·L^-1 GA3的MS固体培养基上,可发育成完整的植株。     

禾谷类作物细胞培养：体细胞胚性潜力的诱导与表达

体细胞胚胎发生已成为禾谷类作物细胞培养研究中的一个重要方面。本文参照近几年来发表的主要文献并结合本实验室的研究工作,对禾谷类作物的体细胞胚胎发生做了综合评述。就培养基,植物激素,氮源,渗透压,外植体来源及发育时期,起始材料的状态,培养时间等各种因素对禾谷类作物胚性愈伤组织的诱导和保持,胚性悬浮细胞系的建立以及体细胞胚胎发生与植株再生的影响进行了分析。并对长期继代培养物再生能力丧失（或胚性潜力难以充     

磁场对防风体细胞胚发生发育和亚显微结构的影响

近年来,关于防风的离体培养国内学者相继进行了研究,余绍华等（１９８５）用幼叶诱导愈伤组织分化出根芽;慈忠玲和陈惠民（１９９５,１９９６）通过悬浮培养诱导体细胞胚发生及再生植株,对单细胞至球形胚形成的各阶段作了显微及超微结构观察,并对其培养过程中的染色体变异进行了分析;盛世红和陈惠民（１９９０）用原生质体培养获得了再生植株。但目前还未见磁场对防风胚状体发生和发育影响方面的报告。关于生物磁学在植物组织培养中的应用,赵成章（１９８０）研究了磁场对水稻花粉愈伤组织诱导和分化的影响;王曼丝和李鸣镝（１９９…     

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。     

三叶半夏悬浮培养下的体细胞胚胎发生及植株再生

用三叶半夏幼嫩叶片诱导产生的胚性愈伤组织建立了胚性细胞悬浮系,研究了悬浮培养下体细胞胚胎的发生及植株的再生。结果表明,胚性悬浮细胞在附加1．0mg／L2,4-D、0．2 mg／LBA和300mg／L LH的MS液体培养基中产生大量的球形胚,转入液体分化培养基(MS 0．1 mg／LNAA 0．2 mg／L BA 300 mg／L LH)中进一步发育成心形胚、鱼雷形胚和子叶形胚。收集成熟胚转移到MS固体分化培养基上培养获得了再生植株。另外还观察到某些成熟胚上产生了许多次生胚。     

玉米芽尖培养中的高频率体细胞胚胎发生与植株再生(简报)

通过诱导玉米芽尖产生胚性愈伤组织,建立起高频率植株再生的玉米芽尖培养实验体系。在MS+1.0mg·L-16-BA+0.2mg·L-12,4-D+500mg·L-1CH的培养基上诱导愈伤组织并继代培养1次后,将愈伤组织转移到Ms+0.5mg·L-16-BA+0.4mg·L-1IBA+500mg·L-1CH的分化培养基上,可形成大量的体细胞胚胎。组织学观察表明,体细胞胚胎主要发生在胚性愈伤组织表面与表层下部。不同基因型的芽尖形成愈伤组织和再生植株的能力不同。     

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.     

提高小麦原生质体再生植株频率的研究

从小麦徐州211的成熟种子诱导愈伤组织,建立了胚性悬浮细胞系。酶解悬浮细胞获得原生质体,用含o．8％琼脂糖的改良Ms培葬基进行琼脂糖珠培养,再生细胞分裂,并形成愈伤组织。诱导再生愈伤组织分化．得到了完整的再生植株。原生质体培养两周后,加入降渗培养液可促进克隆的形成。在分化培养基中,低浓度蔗糖可提高植株分化率。高浓度的激动索和玉米素对芽的分化有效并能抑制愈伤化。再生愈伤组织诱导分化时期的早晚影响植林分化频率。     

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     

影响香根草体细胞胚胎发生和植株再生因素初探

为了探索提高香根草(Vetiveriazizanioides)遗传种质改良效率的有效途径,初步研究了影响香根草体细胞胚胎发生和植株再生的若干因素。以MS培养基为基本培养基,附加不同配比的生长素和细胞分裂素,对香根草的腋芽及无菌不定芽进行离体培养。结果表明,2,4-D是诱导体细胞胚胎发生的关键因素,当培养基中只含2,4-D而不含或少含细胞分裂素(6-BA)时,外植体经由体细胞胚胎发生途径形成再生植株。愈伤组织诱导频率在有的品种之间差异显著,最高的达到96.7%(cv.Zomba),最低的不到30%(cv.Malaysia);而有的品种之间差异不显著(例如cv.Kandy和cv.Sunshine)。胚性愈伤组织的再生能力可以长期保持,从未经继代培养的到持续继代第23代的胚性愈伤组织,再生频率都在80%以上,而且再生植株的生长良好。在3-7℃的低温下进行分化培养时,仍然有40.5%-50.0%不同世代的胚性愈伤组织还保持着再生能力。     

Simple hormonal regulation of somatic embryogenesis and/or shoot organogenesis in caryopsis cultures of Pogonatherum paniceum (Poaceae)

Pogonatherum paniceum (Poaceae) is a perennial plant with good potential for eco-recovery and ornamental function. This study presents in vitro culture systems of simple hormonal regulation of somatic embryogenesis and shoot organogenesis from mature caryopses. Mature caryopses of P. paniceum were grown on Murashige and Skoog medium with 3% sucrose (w/v) and various concentrations or combinations of 2,4-dichlorophenoxyacetic acid (2,4-D), α-naphthaleneacetic acid (NAA) and 6-benzylaminopurine (BAP). Morphological development was analyzed by light microscope after histological sectioning. Four types of callus were induced by different concentrations of 2,4-D. Type I callus was regenerated via somatic embryogenesis; type II callus failed to produce any regeneration; type III callus had both somatic embryogenesis and shoot organogenesis capacities; and type IV callus only displayed shoot organogenesis capacity. Regarding hormone combinations used in this study, NAA only induced type IV callus and BAP only induced direct multiple shoot formation. The combinations of 2,4-D and NAA induced type III callus. Several of the regeneration pathways were simply controlled by one or two kinds of plant hormones. The established systems will be helpful for further research on the developmental mechanism of switch between somatic embryogenesis and shoot organogenesis.     

Efficient protocols for in vitro regeneration of Pennisetum glaucum (L) Br

A system was developed for in vitro regeneration of Pennisetum glaucum through organogenesis and somatic embryogenesis. Mature embryo and leaf base explants of Pennisetum glaucum (L) Br. cv HH B60 (Poaceae) were cultured on Murashige and Skoog agar medium supplemented with 11.3 microM of 2,4-D for callus induction. Embryogenic calli were induced within eight weeks. Percentage of callus induction and somatic embryogenesis was significantly higher in mature embryo than leaf base explants. Maximum shoot regeneration was obtained via organogenesis on MS medium supplemented with 4.43 microM of BAP and 4.64 microM of kinetin from the calli of both the explants. The frequency of plant regeneration through somatic embryogenesis was comparatively lower than organogenesis. Regeneration frequency was higher in mature embryo explants than leaf base explants. The shoots regenerated via organogenesis were elongated and rooted efficiently on MS medium supplemented with IBA (0.49 microM). The rooted plantlets were hardened and transferred to soil.     

SOMATIC EMBRYOGENESIS AND ORGANOGENESIS FROM CALLUS CULTURES OF SOLANUM CAROLINENSE

Culture of stem segments of Solanum carolinense L. on medium supplemented with 10 mg/1 2,4-dichlorophenoxyacetic acid and 1 mg/1 kinetin, induced callus formation. When subcultured on medium lacking 2,4-D but containing a cytokinin, the callus regenerated. The mode of regeneration depended on the type and concentration of cytokinin employed; high concentrations of benzyladenine and all concentrations of kinetin promoted organogenesis, while low concentrations of benzyladenine induced somatic embryogenesis in addition to organogenesis. With age and continued subculture on 2,4-D containing medium, callus progressively lost its ability to regenerate when the auxin was replaced by cytokinin. In conjunction with previous studies on regeneration from anther cultures of S. carolinense, it appears that in both cases, 2,4-D is required for callus initiation and proliferation but must be exchanged for a cytokinin before differentiation will occur. However, since it was not possible to induce embryogenesis in pollen-derived callus, developmental potential may be influenced by the ploidy level of responding cells in culture.     

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。     

Plant regeneration in Arachis pintoi (Leguminosae) through leaf culture

Plant regeneration in Arachis pintoi was obtained via two developmental pathways: organogenesis and somatic embryogenesis. Organogenic callus cultures were initiated from pieces of leaf on MS medium supplemented with NAA or 2,4-D in combination with BA, KIN or 2iP. The most suitable combination for plant regeneration through organogenesis was an initial medium composed of 10 mg/l NAA+1 mg/l BA followed by transfer of the callus to a shoot induction medium (MS+1 mg/l BA). Rooting of regenerated shoots was readily achieved by culture on MS+0.01 mg/l NAA. Embryogenic callus cultures were initiated from pieces of leaf on MS medium supplemented with PICL in combination with KIN, ZEA, BA or 2iP, and the most suitable combinations were 20 mg/l PICL+1 mg/l BA or 2iP. When pieces of embryogenic callus were subcultured on MS+1 mg/l BA, somatic embryos were differentiated and developed further into well-developed plants in MS+1 g/l AC followed by MS medium devoid of plant growth regulators. Received: 29 April 1999 / Revision received: 24 November 1999 / Accepted: 18 December 1999     

<Emphasis Type="Italic">In vitro</Emphasis> plant regeneration through somatic embryogenesis and direct shoot organogenesis in <Emphasis Type="Italic">Pennisetum glaucum</Emphasis> (L.) R. Br.

An efficient in vitro plant regeneration protocol through somatic embryogenesis and direct shoot organogenesis has been developed for pearl millet (Pennisetum glaucum). Efficient plant regeneration is a prerequisite for a complete genetic transformation protocol. Shoot tips, immature inflorescences, and seeds of two genotypes (843B and 7042-DMR) of pearl millet formed callus when cultured on Murashige and Skoog (MS) medium supplemented with varying levels of 2,4-dichlorophenoxyacetic acid (2,4-D; 4.5, 9, 13.5, and 18 μM). The level of 2,4-D, the type of explant, and the genotype significantly effected callus induction. Calli from each of the three explant types developed somatic embryos on MS medium containing 2.22 μM 6-benzyladenine (BA) and either 1.13, 2.25, or 4.5 μM of 2,4-D. Somatic embryos developed from all three explants and generated shoots on MS medium containing high levels of BA (4.4, 8.8, or 13.2 μM) combined with 0.56 μM 2,4-D. The calli from the immature inflorescences exhibited the highest percentage of somatic embryogenesis and shoot regeneration. Moreover, these calli yielded the maximum number of differentiated shoots per callus. An efficient and direct shoot organogenesis protocol, without a visible, intervening callus stage, was successfully developed from shoot tip explants of both genotypes of pearl millet. Multiple shoots were induced on MS medium containing either BA or kinetin (4.4, 8.8, 17.6, or 26.4 μM). The number of shoots formed per shoot tip was significantly influenced by the level of cytokinin (BA/kinetin) and genotype. Maximum rooting was induced in 1/2 strength MS with 0.8% activated charcoal. The regenerated plants were transferred to soil in pots, where they exhibited normal growth.     

Plant regeneration and initiation of cell suspensions from root-tip derived callus of Oryza sativa L. (rice)

Root-tip derived suspended callus of Oryza sativa cv. Thaipei showed the capacity for plant regeneration via organogenesis. Cell cultures were induced in liquid Murashige-Skoog medium containing 2 mg/l 2.4-dichlorophenoxyacetic acid. Dicamba or Picloram were effective for induction of organogenesis. Shoots and roots differentiated following subculture on medium lacking auxins but containing kinetin. At 1 and 4 mg/l Dicamba and 1 mg/l Picloram normal green plants were regenerated whereas with 7 mg/l Dicamba in the medium only albino plantlets were obtained. Regenerated plantlets were grown to maturity and set seed. Cell suspension cultures, initiated from the root-tip derived calli, provided suitable material for protoplast isolation.Abbreviations BM Basic medium - 2.4 -D 2,4-dichlorophenoxyacetic acid - Dicamba 3,6-dichloro-2-methoxy benzoic acid - Picloram 4-amino-3,5,6-trichloropicolinic acid     

Somatic embryogenesis and plant regeneration of Gladiolus (Gladiolus hort.)

Summary Friable embryogenic callus and somatic embryos of 4 Gladiolus cultivars were obtained on Murashige and Skoog (MS) medium with various concentration of auxins from the following explants: corm slices, young leaf bases and whole, intact plantlets. Somatic embryos transferred on MS hormone-free medium regenerated into plantlets. All plantlets obtained through embryogenesis did not differ phenotypically from the parental clones. The embryogenic friable callus has been maintained for over 2 years in culture and has retained a very high regeneration capacity.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - KIN kinetin - NAA naphthaleneacetic acid - MS Murashige and Skoog Medium (1962) - E embryogenic callus - NE non-embryogenic callus     

Evidence for microspore embryogenesis in wheat anther culture

Summary In wheat, plants may be regenerated from microspores via direct embryogenesis or organogenesis or embryogenesis from callus. Light and scanning electron microscopy were used to carefully study morphogenesis of microspore-derived plants from anther culture on modified 85D12 starch medium and to determine whether the plants were formed via organogenesis or embryogenesis. Our results indicate that plants are formed via embryogenesis from microspores. Evidence for embryogenesis included the formation of the epidermis and a suspensorlike structure (21 days after culture), followed by initiation of an apical meristem, differentiation of the scutellum, and embryo elongation. At 28 days in culture, the embryo possessed a well-developed scutellum and axis with suspensor. Embryogenesis was further confirmed by coleoptile and radicle elongation during germination when the embryos were cultured on medium supplemented with kinetin with or without coconut water. In this system, an average 67 microspores per responsive anther began cell division but only 3.69 embryos were formed per responsive anther after 6 wk. Adventitious embryos could be induced if the embryos, once formed, remained on initiation medium for 10 wk instead of being transferred to regeneration medium. Developmental stages which may be amenable to changes that could enhance plant production were identified. The potential to use this information to enhance plant production is discussed.     

Detection of somaclonal variation of cotton (Gossypium hirsutum) using cytogenetics, flow cytometry and molecular markers

Two protocols of plant regeneration for cotton were adopted in this study, namely, 2, 4-D and kinetin hormone combination and IBA and kinetin hormone combination. Twenty-eight embryogenic cell lines via somatic embryogenesis and 67 regenerated plants from these embryogenic calli were selected and used for random amplified polymorphic DNA (RAPD), simple sequence repeat (SSR), chromosomal number counting, and flow cytometric analysis. The roles of RAPD and SSR markers in detecting somaclonal variation of cotton (Gossypium hirsutum L.) were evaluated. Two cluster analyses were performed to express, in the form of dendrograms, the relationships among the hormone combinations and the genetic variability. Both DNA-based techniques were able to amplify all of the cell clones and regenerated plantlets genomes and relative higher genetic variation could be detected in the culture type with 2, 4-D and kinetin hormone combination. The result suggested that 2, 4-D and kinetin hormone combination could induce relative high somaclonal variation and RAPD and SSR markers are useful in detecting somaclonal variation of regenerated cotton plants via somatic embryogenesis. Chromosome number counting and flow cytometry analysis revealed that the number of chromosomes and ploidy levels were nearly stable in all regenerated plants except two regenerated plantlets (lost 4 and 5 chromosomes, respectively) which meant that cytological changes were not correlated with the frequency of RAPD and SSR polymorphisms. This result also might mean that the cell lines with variation of chromosome numbers were difficult to regenerate plants.