石刁柏胚乳愈伤组织内胚胎发生的组织细胞学观察

石刁柏(Asparagus officinalis L.)的幼嫩胚乳接种于MS+NAA 5ppm+6-BA 1ppm和MS+NAA 1ppm+6-BA 0.5ppm的培养基上诱导产生愈伤组织。将愈伤组织转移到MS+6-BA 1ppm+NAA 0.5ppm的分化培养基上,培养30天后即可形成胚状体,组织细胞学观察表明:胚状体起源于愈伤组织内或近表层的单个胚性细胞。在胚状体发生的早期阶段,观察到与柳叶菜型和藜型胚胎发育大致相似的细胞分裂方式,从而出现了T型或线型的四个细胞的原胚。在多细胞原胚及球形胚期具有单列或不规则排列的多细胞胚柄。石刁柏胚乳愈伤组织中的胚胎发生是不同步的,在同一块愈伤组织的切片中可以观察到不同发育阶段的胚状体。在外形上还可以观察到一个子叶、两个子叶或四个子叶等多种不同形态的胚状体。一部份胚状体能发育成完整小植株。     

Cytology and Histology in Somatic Embryogenesis of Indica Rice

The somatic embryogenesis was established from mature dehulled seeds. The histological research showed that embryogenic calli were initiated first from absorbed cells of scutellum of mature seed. And then the embryoids derived from the surface of embryogenic callus. Having been the same structure like a zygotic embryo of rice, the embryoids possessed the major parts of scutellum, coleoptile and coleorhiza. In an embryoid, several developmental stages of pro-embryoid, including single embryogenic cells, two, four and multiple cell stage pro-embryeids and some abnormal embryoids were observed. It could be concluded from this experiment that the embryoid from somatic cell culture in Indica rice possessed an original form of a plant in structure like a zygotic did and derived from a single cell.     

Differentiation Potential and Chromosome Stability of Pollen Callus of Maize in Subcultures

Pollen calli were subcultured for 20 months. According to the degree of totipotency observed during this period they can be divided into the following four types: 1) The potential of differentiation of the calli was lacking. 2) The calli were able to differentiate into a few root-like structure and green spots. 3). The calli were able to grow into not only a few green spots but also a few shoots. But they could not develop into normal plants. 4). This type of callus possessed a great ability of differentiation and regeneration. They could develop into embryoids as well as shoots in the same medium. After transferring on to the regeneration medium, they readily regenerated into green plantlets with profuse roots. When chromosome counts were made on the ealli, it was found that variations in ploidy were not great. From 1539 randomly chosen cells at metaphase stage, 90% were haploid. As the counts were made on the No. 1 callus type and the root-tip cells of the 35 pants regenerated from this same type 89.7% of the former 427 cells and 87.4% of the latter 645 cells were determined to be haploid. The calli of the Type No. 1 possess unlimited totipotency demonstrated by regeneration. These stability and totipoteney may play an important role in practical application and theoretical research of maize.     

茴香组织培养中体细胞胚胎发生的组织细胞学研究

将茴香幼茎或叶柄的愈伤组织转入附加6-BA和低浓度2,4-D的MS培养基以后,愈伤组织逐步由松软状转变成为颗粒状的胚性愈伤组织,胚状体起源于胚性愈伤组织中的单个细胞或胚性细胞团。在含NAA和6-BA的培养基中,胚状体发育成熟,并再生小植株。茴香的胚状体主要以单细胞内起源方式发生。首先由胚状体单个原始细胞分裂形成2-细胞原胚,2-细胞原胚以三种方式进行分裂:1.T- 形分裂;2.直线形分裂;3.田字形分裂。不同的分裂方式决定了胚柄的有无。茴香胚状体的发育过程与合子胚基本相同。由原胚发育成为球形胚,依次经过心形胚和鱼雷胚阶段,形成成熟的子叶胚。在胚状体发育的每一个阶段,都有其分生组织的活动中心。球形胚期,两团分生组织位于胚体中部对应的两点;心形胚期,位于两侧和中部;鱼雷胚期,分生组织的分布在子叶形成区域呈倒“U”形,在下胚轴部位呈中空的梭形。到子叶期,分生组织从两片子叶伸向胚根,呈“Y”形分布。两子叶间产生茎生长点,由生长点分化出叶原基。胚状体最终发育成为完整植株。     

Factors Influencing Embryogenesis in Carrot Cultures (Daucus carota L.)

There is no doubt that isolated vacuolated carrot cells cande-differentiate and give rise to embryogenic clusters fromwhich embryoids arise. However a study of the origins of embryogeniccells in culture suggests that the most frequent source is fromgroups of small meristematic cells liberated from the primaryexplant, and maintained as meristematic cells through numeroussubcultures. Groups of vacuolated cells divide to give riseto callus nodules, which can undergo morphogenesis in a varietyof ways. Transitions from one cell type to another are relativelyinfrequent, and cells generally divide to give rise to cellsof similar type to the parent. The occurrence of a low proportionof embryogenic cells in an inoculum is sufficient to resultin large numbers of embryoids when medium conditions are changedto favour their proliferation and development. The various routesby which plants can arise from carrot cultures are discussed.     

Histological study of embryogenesis and organogenesis from anthers ofVitis rupestris du Lot cultured in vitro

Summary Anthers ofVitis rupestris du Lot were cultured in vitro at the uninucleate stage of the microspore, in order to investigate the histology of embryogenic and organogenic processes in this genotype. Microspores divided in the anther loculi resulting in the formation of globular structures with a ruptured exine. Somatic embryogenesis and, occasionally, caulogenesis and rhizogenesis occurred in calli produced from all anther tissues except the endothecium. The initial cell of the embryoid was surrounded by a jacket layer when situated deep within the callus. When the embryoid's initial cell was situated in the peripheral callus, a cutinized wall was present and the three-celled proembryoid was almost always segmented, showing the same embryonal type as the zygotic proembryo. Root differentiation and elongation and cap differentiation occurred during the growth phase in liquid medium. The mature root was diarch and contained cells with calcium-oxalate raphides, as seen in vivo. No starch or tannin deposition was ever observed in the mature embryoids.Abbreviations 6-BAP 6-benzylaminopurine - CC3 Nitsch and Nitsch (1969) basal medium - CS cross section - 2,4-D 2,4-dichlorophenoxy-acetic acid - LS longitudinal section     

The early ontogeny of embryoids and callus from pollen and subsequent organogenesis in anther cultures of Datura metel and rice

Summary Haploidy induction through anther culture has been examined in Datura metel and rice with a view to tracing the precise sequence of development of the pollen, either directly or through an intervening callus, into an embryo and seedling. In D. metel, the vegetative cell of the young pollen grain assumes the major role in formation of embryos whereas the generative cell and its few derivatives degenerate. Embryos and seedlings arising directly from pollen without an intervening callus phase always proved to be haploids, whereas those differentiating from pollen-derived callus gave haploid, diploid and even triploid plants. Cytological analysis of callus tissue showed cells of various ploidy levels ranging from haploid to triploid, and in rare instances even with higher chromosome numbers.In rice anther cultures the embryoids arose from an initial callus phase. Of 15 different rice cultivars tried, only four produced a callus, and in only one, was there differentiation of plants, both haploid and diploid ones. Among other species tried, egg plant has also yielded plantlets through a callus phase whereas only callus production has been achieved in jute, tea and petunia. No response has been obtained in wheat, maize, cotton and coconut.Coconut milk (CM) appears to be the most important component of the medium for the initial induction of embryoids and callus in anther cultures of most of the species tried. However, further growth and differentiation of plants may require a simpler medium; in D. metel, continued culture on CM led to dedifferntiation.Dedicated to the memory of the late Dr. J. P. Nitsch.     

茶（Camellia sinensis Kuntze）离体培养体细胞胚胎发生的组织细胞学研究

以茶树叶片为外植体．以ＭＳ培养基附加４ｍｇ·Ｌ－１６－ＢＡ,２ｍｇ·Ｌ－１ＩＡＡ．３ｍｇ·Ｌ－１ＧＡ３和０．２—０．３％活性碳诱导出愈伤组织和胚状体,进一步形成小植株．切片观察表明．茶叶愈伤组织胚状体的发生,起源于愈伤组织表层及其内部的单个细胞和细胞团,胚状体发育顺序与合子胚大致相似．经球形胚、心形胚、鱼雷胚和子叶胚阶段．但发育过程中常有畸形胚出现．     

Embryoid Formation in Pollen Grains of Nicotiana tabacum

Anthers of Nicotiana tabacum (n = 24) were cultured on nutrientagar and examined at intervals for pollen embryoids. Embryoidswere formed in anthers of varying developmental stage, the youngestof which coincided with the liberation of free microspores fromtetrads, and the oldest with the formation of bicellular grains.This period in the development of the anther occupied 4–5days. Older anthers within this range were more successful thanyounger anthers. The first mitosis of the pollen was typicallyasymmetric and resulted in the formation of unequal generativeand vegetative cells. Some of the grains then went into a lagphase for at least 5–6 days, after which the mitotic conditionwas restored. Embryoids were formed by repeated division ofthe vegetative cell. If the generative cell divided, it didso only once or twice. Occasionally the first mitosis was symmetricand gave rise to equal cells, and in these instances both cellsprobably participated in embryoid formation. The youngest anthersexamined were probably less successful because fewer grainssurvived to enter mitosis. The number of embryoids produced varied considerably from oneanther to another both within the same bud and between differentbuds: values ranging from less than 400 to 10 000 per antherwere encountered. Most of these degenerated after the firstfew divisions, partly because they burst prematurely from thepollen grain wall. Embryoids which continued to develop formedplantlets and/or callus. The largest number of plantlets obtainedfrom one anther was 32. Haploid plantlets were also regeneratedfrom callus by transferring it to a low-sugar medium withoutauxin. The behaviour of grains not forming embryoids was also noted.     

结球甘兰下胚轴组织培养形态发生的组织学研究

结球甘兰离体下胚轴培养,近切口的中柱薄壁细胞首先启动分生,中柱外的内皮层,皮层,表皮细胞随后也启动分生。随着愈伤组织的生长和愈伤形成层的建成,维管组织与分生组织产生。组织培养中出现的多倍性细胞团和单倍性细胞,不会引起原二倍体物种的遗传性变异和性状变化。在愈伤组织中,芽多为外起源。由原体原始细胞和原套原始细胞发育成芽原基,进一步形成不定芽。另外,不定芽还可由外植体皮层内薄壁组织直接产生。不定根为内起     

Embryogenic Suspension Culture and Plant Regeneration from Suspension-Derived Proto-plasts of Cucumber (Cucumis sativus L.)

Fast growing embryogenic cell suspension culture was established when embryogenic callus derived from cotyledon protoplasts of cucumber was transferred into a liquid culture. So far the cell line has been subcultured for two years and retained the ability of embryogenesis and plant regeneration. Experimental data showed that the concentration of ABA or sucrose had a dramatic effect on embryogenesis and synchronization of embryoid development. Low level of sucrose concentration (1%) facilitated the precocious germination of the embryoids while 1 mg/l of ABA or 7–9% of sucrose was found to be effective for reducing callusing of the cultures and synchronisticly controlling the embryoids at globular or late globular stage. Embryogenic cells taken from 3–5 days after subculture were enzymatically digested. A large amount of viable protoplasts was isolated. Protoplasts were cultured in a DPDK1 medium either by means of drop or thin layer liquid culture or by means of sodium alginate encapsulation culture. Actively dividing cells formed cell colonies and globular embryoids which were transferred onto a solidified agar medium or directly into a liquid medium to form a shaken culture. The embryoids would proliferated continuously. Embryoids eventually developed into plantlets when they were transferred onto a 1/2 MSO medium devoid of phytohormones.     

红江橙体胚发生及影响因素的研究

红江橙花后４周的幼果,直径约１ｃｍ左右,这时期的胚珠最适于胚性愈伤组织的诱导。以ＭＴ为基本培养基,加上适当浓度的ＩＡＡ、ＢＡ和ＭＥ可显著提高胚性愈伤组织诱导率。体胚发生,以ＭＴ＋ＩＡＡ０．１ｍｇ１－１＋ＢＡ（ＺＴ）１ｍｇ１－１培养基较好,能诱导产生正常体胚,且频率较高。胚性愈伤组织继代次数对体胚发生也有一定的影响,继代６次以内,胚性愈伤组织具有旺盛产生体胚能力;继代至第９次时,产生体胚的能力明显下降;至第１２代时,不能产生胚状体。成熟胚转换成小植株,以ＭＴ＋ＧＡ２ｍｇ１－１＋ＮＡＡ０．１ｍｇ１－１培养基成苗率最高。     

水稻愈伤组织内部胚性细胞的形成及发育

发育成胚状体的水稻愈伤组织表面胚性细胞, 在继代过程中被非胚性细胞旺盛的分裂所包围, 渐渐形成内部胚性细胞。其形态结构与表面胚性细胞相同, 但周围缺乏表面细胞下面的一层至几层含丰富的淀粉粒的细胞。内部胚性细胞形成团后先在以处形成突起, 产生根冠原, 逐渐形成根而突出愈伤组织。内部胚性细胞可向四周同时但不同步形成根冠原。未见芽或胚状体从内部胚性细胞产生。推测胚性愈伤组织失支胚胎发生能力及分化能力可能部分地与胚性细胞部分裂或分裂不旺盛、而非胚性细胞分裂旺盛从而使胚性细胞被包围、稀释有关。     

Somatic embryogenesis inEchinochloa crusgalli

A white, compact embryogenic tissue was obtained from young inflorescence segments ofEchinochloa crusgalli (barnyard grass) cultured on Murashige and Skoog's medium containing various concentrations and combinations of 2,4-dichlorophenoxyacetic acid and 6-benzylaminopurine. Histological and scanning electron microscopic studies revealed that the white compact callus contained embryoids in various stages of development. Typical embryoids were bipolar and possessed scutella, coleoptiles and coleorhizae. The embryogenic nature of the callus was maintained throughout eight to ten subcultures spanning more than six months. A high frequency of plant regeneration was obtained when the 2,4-D concentration was reduced or 2,4-D was removed from the medium.     

The origin and development of vascular cambium in girdled stems ofEucommia ulmoides Oliv.

We conducted anatomical studies of girdled stems ofEucommia ulmoides at various developmental stages to elucidate the origin and development of callus and the vascular cambium. In the transverse view, ray initial cells in the cambial zone began to divide both periclinally and anticlinally 2 d after girdling. Fusiform initial cells started to enlarge at 3 d, then gradually proliferated via periclinal divisions. Thus, the callus was derived from the ray initial cells of the cambial zone as well as from fusiform initial cells. In the tangential view, callus cells derived from ray initial cells were short while those from fusiform initial cells were long, thereby producing a heterogeneous structure. However, the fusiform initial cells underwent transverse divisions 10 d after girdling, which resulted in shorter cells and a homogeneous callus structure. Afterward, some short cells divided transversely while others elongated, so that a heterogeneous form was regained. Finally, the vascular meristem that was girdled early in its development redifferentiated from short and long cells in the callus. The long cells developed into fusiform initials, with the short ones becoming ray initials.     

FORMATION OF HAPLOID EMBRYOIDS OF LARIX DECIDUA: EARLY EMBRYOGENESIS

Callus initiation of sections of megagametophytes of Larix decidua occurs just below the cut surface and is followed by the formation of one or more long protruding cells. The long cells then divide transversely at their tips to yield small cytoplasmically-dense terminal cells. The latter divide, forming loose aggregates of dense cells, microcalli, which develop long cells that radiate in all directions and divide terminally to produce aggregates of small cells. This long/short cell alternation is repeated a few times. Eventually the aggregates divide in a polarized manner producing files of long cells predominantly in one direction. These loosely bundled long cells form a suspensor-like structure. The meristematic small cells continue dividing forming a mass of embryonal cells. This early embryoid eventually turns green and produces both a root and shoot. Haploid embryoids are also derived from long cells in which karyokinesis but not cytokinesis occurs, resulting in a four-nucleate coenocyte. The nuclei migrate to one pole and become surrounded by cell walls. The cells thus formed are the originators of a new embryoid.     

Induction and characterization of embryonic callus types for the initiation of suspension cultures of leek (Allium ampeloprasum L.)

In this paper the development and characterization of a friable, embroyonic callus culture of leek is described. This callus type was initiated on immature embryos and differed in appearance from formerly induced compact, embryogenic callus [4]. The friable callus was comprised of numerous globular embryoids, embedded in a mucilaginous substance. The genotype of the donor plant and the embryo size were important parameters in the initiation of this callus type. Embryos of 0.5–2.5 mm gave the highest frequency of friable callus production. The basal media and inclusion of -proline into the media did not influence the friable callus production. Light microscopic comparison of compact and friable callus showed striking differences. Compact callus consisted of a meristematic zone and contained vascular elements. Friable callus was less differentiated and contained aggregates of embryonic cells, separated by intercellular spaces, and somatic embryos. Ten independently induced friable callus cultures were tested for their amenability to form suspension cultures. From one of these, two highly embryonic suspension cultures were selected.     

Embryogenesis and Plantlet Formation in Tissue Cultures of Celery

Callus cultures were initiated from sections of petioles ofcelery (Apium graveolens) var. Lathom Blanching on a modificationof the Murashige and Skoog medium. The callus, when isolatedfrom the parent explant, could be sub-cultured at regular intervalsforming both new callus and embryoids during each subculture.The embryoids appeared to be initiated on the callus surfacewhere early embryonic forms were found, but their continueddevelopment into plants only occurred when embryoids were transferredto a hormonefree medium. Embryoids were also formed in suspensionculture following inoculation of the liquid medium by differentiatingcallus, but again development of these structures was limitedto the early embryonic forms. When transferred to a solid hormone-freemedium, the embryoids, from either callus or suspension culture,developed into plantlets which could be transferred to soiland grown to maturity with only a few losses. The relevanceof this system as an aid in the breeding programme of self-blanchingcelery is discussed.     

Totipotency and embryogenesis in plant cell and tissue cultures

Summary An important development in the field of plant cell and tissue culture has been the demonstration in the past decade of the totipotency of higher plant cells. Isolated single cells were first successfully grown on a nurse tissue separated by a filter paper and gave rise to a callus tissue. Later, completely isolated single cells of tobacco were grown in microchambers to form small clumps of cells which then could be differentiated to form adult tobacco plants. Indirect evidence of the totipotency of higher plant cells has also been provided in a number of other plants. Embryo-like structures (or embryoids) or whole plants, or both, have been obtained from such highly differentiated cells as the pollen grains (gametic and haploid), photosynthetic palisade cells in leaves, epidermal cells from the hypocytyl, and the triploid endosperm cells; all of these cell types perform very highly specialized functions in the plant. Plant protoplasts (cell wall is digested with enzymes) have also been cultured to give rise to normal adult plants. In many instances embryoids have been produced in vitro from several species of flowering plants which do not show such asexual activity in nature. These embryoids are normally indistinguishable morphologically from embryos produced by gametic fusion, often follow the same pattern of cell divisions and differentiation as the developing zygote, and are economically important as they provide clonal populations. Early work in this area emphasized the necessity of dissociating tissues into single cells and providing a nutritional environment identical to that of the zygote in the embryo sac (usually by supplementing the medium with liquid endosperm from coconuts), before the cells could be released morphogenetically to express their totipotency by forming embryoids. Much of the recent work, however, has shown that perfect development of embryoids can be obtained in completely synthetic media in callus tissues as well as in suspension cultures. This paper is dedicated to the memory of the late Professor Philip R. White, a dear friend who provided much counsel and inspiration to us both. for his pioneering work, valuable contributions and untiring efforts in developing the science of plant cell, tissue, and organ culture. Florida Agricultural Experiment Stations Journal Series No. 4699. Presented in the Symposium on Functional Differentiated Systems at the 23rd Annual Meeting of the Tissue Culture Association, Los Angeles, California, June 5–8, 1972.     

The Diversity of Morphogenesis in Suspension Cultures of Atropa belladonna L.

Root formation from the cell aggregates formed in suspensioncultures of Atropa belladonna L. occurs either from peripheralmeristems or from endogenous meristematic nodules. The rootswhen released from the aggregates either continue to developas cultured roots or quickly develop a callus at their basalends and within this develops a shoot bud. When this shoot budis initiated both root and shoot may continue to develop togive a plantlet with either two equal first leaves or, lesscommonly, with several first leaves or with a single first leaf.Where the roots are of endogenous origin (and lack the ‘collar’characteristic of those derived from a peripheral meristem)and where some retardation of root growth is associated withbud formation, structures arise which have previously been termed‘embryo-like structures’ (Thomas and Street, 1970,Plate 10, F). Alternatively, root development may be suppressedand only the bud develops. It has been possible to trace the development also in thesecultures of embryoids whose development involves recognizablestages of normal embryology. These embryoids may arise fromsingle cells of the initial cell aggregate or from cells ofthe massive suspensors of these embryoids (these latter embryoidscan be described as adventive in origin). The embryoids mayshow two equal cotyledons or only one cotyledon.