石刁柏非胚性细胞与体细胞胚胚体细胞的超微结构研究

对石刁柏（Ａｓｐａｒａｇｕｓｏｆｆｉｃｉｎａｌｉｓ）体细胞胚发生过程中细胞的超微结构进行了观察,非胚性细胞内液泡大,大量的自体吞噬泡出现,胚性细胞内细胞核大,核移中,核仁结构明显,线粒体、质体、核糖体、高尔基体、内质网等细胞器增多,淀粉、脂滴积累,有较活跃的自体吞噬现象,梨形细胞内质体向叶绿体转变。     

Cytohistological Study on Somatic Embryogenesis in Asparagus officinalis L.

The single cell was the first cell of somatic embryoid in Asparagus officinalis L.. Electron microscopic observations revealed that early embryogenic cells and meristematic cells had the same characteristics in cell shape and structure. The embryogenic cell was small in size, with large nucleus, dense cytoplasm, thin wall, lots of small vacuoles, and rich in organelles. At later stage, the polarity of embryogenic cell appeared, i.e. nucleus situated at one end of the cell, while the other end was occupied by a large vacuole. The polar type of the embryc)genic cell was similar to that of a zygote. Light microscopic observations revealed :hat ihe embryoids were sequentially differentiated through 2-cells, 4-cells, 8-cells, multicellular proembryo, globularshaped, pear-shaped, rod-shaped, cotyledonary-differentiated and mature embryo stages. The heart-shaped and torpedo-shaped stages were observed during the early stage of embryogenesis. In addition, a typical embryoids were also found in vitro.     

植物体细胞胚发生中ATP酶活性时空分布动态与内源激素的变化

本文以我们的研究结果为基础,并结合国内外近几年有关研究报道,对植物体细胞胚发生中的超微结构和ATP酶活性时空分布动态及内源激素的变化和作用进行专题评述。⑴ 超微结构的变化：当植物体细胞一旦转化为胚性细胞后,各种细胞器相继增加,不仅丰富而且活跃,特别是线粒体内嵴发达,有的正处于分裂状态;核糖体聚集成多聚核糖体;质体中含大量淀粉粒,接着出现高尔基体等。早期胚性细胞与周围细胞还存在胞间连丝,随着胚性细胞壁的加厚,胞间连丝也随之消失。⑵ ATP酶时空分布动态：早期的胚性细胞中ATP酶反应产物主要沉积于质膜和液泡膜上,后期ATP酶活性转入细胞内,液泡和细胞核中,而且在胚性细胞壁加厚处有活跃的ATP酶活性反应,并证明ATP酶活性是在胚性细胞发生过程中形成的。⑶ 内源激素的变化与作用：在体细胞胚诱导过程中内源激素起着关键性作用,内源生长素含量的提高为胚性细胞的诱导奠定了基础,细胞分裂素含量的增加可促进胚性细胞的分裂和增殖,ABA不仅提高了体细胞胚的诱导频率,而且促进了体细胞胚的正常发育。     

植物体细胞胚发生中ATP酶活性时空分布动态与内源激素的变化

本文以我们的研究结果为基础,并结合国内外近几年有关研究报道,对植物体细胞胚发生中的超策结构和ATP酶活性时空分布动脉及内源激素的变化和作用进行专题评述。（1）超微结构的变化：当植物体细胞一量转化为胚性细胞后,各种细胞器相继增加,不仅丰富而且活跃,特别是线粒体内发达,有的正处于分裂状态;核糖体聚集成多聚核糖体;质体中含大量淀粉粒,接着出现高尔基体等。早期胚性细胞与周围细胞还存在胞间连丝,随着胚性细胞壁的加厚,胞间连丝也随之消失。（2）ATP酶时空分布动态：早期的胚性细胞中ATP酶反应产物主要沉积于质和液泡上,后期ATP酶活性转入细胞内,液泡和细胞核中,而且在胚性细胞壁加厚处有活跃的A5P酶活性反应,并证明ATP酶活性是在胚性细胞发生过程中形成的。（3）内源激素的变化与作用：在体细胞胚诱导过程中内源激素起着关键性作用,内源生长素含量的提高为胚性细胞的诱导奠定了基础,细胞分裂素含量的增加可促进胚性细胞的分裂和增殖,ABA不仅提高了体细胞胚的诱导频率,而且促进了体细胞胚的正常发育。     

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.     

枸杞胚性细胞分化的超微结构和ATP酶的细胞化学定位研究

枸杞的胚性细胞多由愈伤组织表层的薄壁细胞分化而来,与愈伤组织中未分化的细胞相比,胚性细胞呈卵圆形,细胞核大,核仁明显,细胞质浓厚并含有丰富的细胞器,细胞壁较薄,细胞间有胞间连丝相通;胚性细胞发育到晚期细胞壁加厚,胞间连丝逐渐消失,细胞核向一端偏移,有大液泡形成;胚性细胞的第一次分裂多为均等分裂,形成二细胞原胚,继续分裂形成多细胞原胚;组成多细胞原胚胚体的细胞核大,核形状不规则,细胞质浓厚,细胞器丰富,在质体中出现淀粉的积累。在胚性细胞发育的早期,ATP酶活性主要位于质膜上,随后在液泡内和细胞核中都出现ATP酶活性的分布;随着胚性细胞壁的加厚,细胞壁加厚处和细胞间隙中也出现ATP酶活性反应;当多细胞原胚形成后,ATP酶活性反应主要定位于液泡膜上。由此分析了结构特征、ATP酶活性定位变化与胚性细胞分化的关系。     

Micromorphology,structural and ultrastructural changes during somatic embryogenesis of a Tunisian oat variety (<Emphasis Type="Italic">Avena sativa</Emphasis> L. var ‘Meliane’)

To better understand micromorphological and structural changes, histological sections provide additional insight into cellular process and developmental pathways occurring in oat somatic embryogenesis. Environmental scanning electron microscopy (ESEM) and transmission electron microscopy (TEM) were also used to follow the ultrastructural modifications during this system. Histological observations allowed following the events leading to the development of mature somatic embryos. The scheme includes the following steps: cell reactivation, the first organized cell division in diads, triads, tetrads as well as octant stages, the observation of an extracellular matrix (ECM) as a fibrillar material that bounded the surface of individualized proembryos. The transition from proembryo stage to an early globular somatic embryo was noted, where the embryogenic cortex is surrounded by the protoderm. The late globular stage was marked by bipolarity. The early and late transitional stages, the coleoptilar, mature and germinated stages were also described. The ESEM allowed us to follow some rearrangements, related to the morphology and surfaces involved in somatic embryos development. These events are proembryo formation, transition from proembryo to globular stage, marked by protoderm formation, scutellum and coleoptile development and finally somatic embryos germination. The TEM showed that embryogenic cells were very rich in organelles; mitochondria, rough endoplasmic reticulum, Golgi apparatus and ribosomes. Cells of proembryos, globular and late somatic embryos showed more vacuoles and differentiated organelles. The ECM was also detected by TEM as fibrillar material coating the cell walls. These results on structural and ultrastructural changes provided new insights and findings on oat somatic embryogenesis.     

枸杞体细胞胚发生中Ca2+和ATPase的超微结构定位研究

研究2,4-D诱导枸杞体细胞胚发生中的作用及其与Ca~(2+)含量和ATPase活性时空分布动态之间的关系,以探讨2,4-D诱导植物体细胞胚发生的作用机理。采用超微细胞化学定位的方法,跟踪分析了体细胞胚发生与发育的不同时期,Ca~(2+)和ATPase活性的时空分布动态。结果表明:2,4-D是诱导离体培养的枸杞体细胞进入胚胎状态的关键激素。在含有2,4-D和不含2,4-D的培养条件下,分别诱导枸杞体细胞脱分化后,再转入除去2,4-D的MS培养基上,进行分化培养,结果前者可分化形成体细胞胚,因而称为胚性愈伤组织。后者在相同条件却不能分化形成胚,故称为非胚性愈伤组织。在2,4-D诱导枸杞的胚性愈伤组织中,胚性细胞分化早期的细胞间隙和细胞壁上均有Ca~(2+)沉淀。随着胚性细胞的分化、分裂和多细胞原胚形成,这时Ca~(2+)在细胞内的分布主要集中在细胞膜和液泡膜上;球形胚期在细胞核中Ca~(2+)呈弥散性分布。在此过程中,ATPase活性时空分布与Ca~(2+)的定位变化具有高度一致性,仅仅稍滞后于Ca~(2+)出现的时间。而在胚性细胞分化早期,ATPase活性同样位于质膜上,随后在液泡和细胞核都可见ATPase活性分布。而在非胚性愈伤组织中,则未见Ca~(2+)和ATPase活性呈时空动态分布,而且随着非胚性细胞的液泡化,无论是Ca~(2+)含量,还是ATPase活性都呈逐渐降低的趋势。表明Ca~(2+)和ATPase活性变化与2,4-D诱导的胚性细胞分化和发育密切相关。并由此推测,Ca~(2+)和ATPase的时空分布对胚性细胞分化中的信息传递和调控相关基因表达起着关键性作用。     

枸杞体细胞胚发生中Ca^2＋和ATPase的超微结构定位研究

研究2,4-D诱导枸杞体细胞胚发生中的作用及其与Ca^2 含量和ATPase活性时空分布动态之间的关系,以探讨2,4-D诱导植物体细胞胚发生的作用机理。采用超微细胞化学定位的方法,跟踪分析了体细胞胚发生与发育的不同时期,Ca^2 和ATPase活性的时空分布动态。结果表明：2,4-D是诱导离体培养的枸杞体细胞进入胚胎状态的关键激素。在含有2,4-D和不含2,4-D的培养条件下,分别诱导枸杞体细胞脱分化后,再转入除去2,4-D的MS培养基上,进行分化培养,结果前者可分化形成体细胞胚,因而称为胚性愈伤组织。后者在相同条件却不能分化形成胚,故称为非胚性愈伤组织。在2,4-D诱导枸杞的胚性愈伤组织中,胚性细胞分化早期的细胞间隙和细胞壁上均有Ca^2 沉淀。随着胚性细胞的分化、分裂和多细胞原胚形成,这时Ca^2 在细胞内的分布主要集中在细胞膜和液泡膜上;球形胚期在细胞核中Ca^2 呈弥散性分布。在此过程中,ATPase活性时空分布与Ca^2 的定位变化具有高度一致性,仅仅稍滞后于Ca^2 出现的时间。而在胚性细胞分化早期,ATPase活性同样位于质膜上,随后在液泡和细胞核都可见ATPase活性分布。而在非胚性愈伤组织中,则未见Ca^2 和ATPase活性呈时空动态分布,而且随着非胚性细胞的液泡化,无论是Ca^2 含量,还是ATPase活性都呈逐渐降低的趋势。表明Ca^2 和ATPase活性变化与2,4-D诱导的胚性细胞分化和发育密切相关。并由此推测,Ca^2 和ATPase的时空分布对胚性细胞分化中的信息传递和调控相关基因表达起着关键性作用。     

石刁柏体细胞胚胎发生过程中蛋白质及同工酶变化的研究

本文报道石刁柏胚性愈伤组织的可溶性蛋白质含量与组分、过氧化物酶和酯酶的活力及同工酶带均比其体细胞胚的要少。而在体细胞胚胎发生过程中,过氧化物酶和酯酶活力、可溶性蛋白质含量均以球形胚为最低,子叶分化期胚为最高而呈递增趋势;可溶性蛋白质组分以子叶分化期胚、成熟胚为最多,球形胚、香蕉形胚为最少;过氧化物酶同工酶带以梨形胚为最多,子叶分化期胚、成熟胚为最少;酯酶同工酶则以子叶分化期胚为最多,成熟胚为最少。胚性愈伤组织与体细胞胚均有其特异性可溶性蛋白质及同工酶带,可作为体细胞胚胎发生的分子标记。     

Ultrastructural Changes in Leaves of Cichorium during Somatic Embryogenesis

A detailed electron microscopy study of early cellular eventsduring somatic embryogenesis in leaves of Cichorium is described.Leaves on in-vitro grown plantlets were sectioned and put at35°C, in darkness, in an agitated liquid induction medium.No sign of embryogenic predetermination, such as thick cellwall, dense cytoplasm and enlarged nucleus, could be seen inany cell before treatment. Perivascular cells were the firstto react. Addition of glycerol (330 mM) allowed the arrest ofembryogenic cells at an activated stage. The main events werea thickening of the wall, with extracellular secretion and anaccumulation of Ca²⁺ in the vacuole, demonstrated by an antimonateprocedure. After 5 d, leaves were transferred to glycerol-freemedium where multicellular proembryos could be observed. Theyshowed reduced vacuoles, cortical microtubules, numerous multivesicularbodies and lipid globules. The embryoid cells were lined alongthe mesophyll lacunae by an extracellular secretion with a tubularstructure; histochemical tests proved its complex lipo-glyco-proteicnature.Copyright 1993, 1999 Academic Press Cichorium, extracellular tubular protein, somatic embryogenesis, vacuolar calcium     

Ultrastructural Changes in Coconut Calli Associated with the Acquisition of Embryogenic Competence

Ultrastructural studies of 2,4-D (2,4 dichlorophenoxyaceticacid) induced coconut calli and of untreated controls enabledus to characterize early events in cellular reorganization leadingto embryogenic cell individualization and subsequent developmentinto proembryos. Embryogenic cells were characterized by specialfeatures that chiefly affected the nucleus, cytoplasm and cellwall: deep invaginations of the nuclear envelope, proliferationof dictyosomes, with emission of Golgi vesicles, directly relatedto an increase in cell wall thickness. Modification of the cellwall structure was studied and particular attention was paidto the cytolocalization of ß-1,4-glucans, and of calloseand pectin epitopes, using gold-conjugated probes. The firstchanges (detected 7–14 d after 2,4-D increase) involvedthe closure of plasmodesmata, breaking of symplastic continuity,and callose deposition. The acquisition of embryogenic competencewas linked to the appearance of an outer layer of fibrillarmaterial containing pectin epitope (mainly un-methyl-esterified),fully coating the embryogenic cells (21 d after the inductiontreatment). Some of the ultrastructural changes observed duringthe reprogramming of somatic cells towards embryogenesis canbe likened to those accompanying the maturation of female gametecells in many plant species. The possible significance of theseobservations is discussed. Copyright 2001 Annals of Botany Company Callose, cell wall structure, Cocos nucifera L., cytological events, embryogenic cells, pectin, somatic embryogenesis     

Cellular and molecular changes associated with somatic embryogenesis induction in Agave tequilana

In spite of the importance of somatic embryogenesis for basic research in plant embryology as well as for crop improvement and plant propagation, it is still unclear which mechanisms and cell signals are involved in acquiring embryogenic competence by a somatic cell. The aim of this work was to study cellular and molecular changes involved in the induction stage in calli of Agave tequilana Weber cultivar azul in order to gain more information on the initial stages of somatic embryogenesis in this species. Cytochemical and immunocytochemical techniques were used to identify differences between embryogenic and non-embryogenic cells from several genotypes. Presence of granular structures was detected after somatic embryogenesis induction in embryogenic cells; composition of these structures as well as changes in protein and polysaccharide distribution was studied using Coomassie brilliant blue and Periodic Acid-Schiff stains. Distribution of arabinogalactan proteins (AGPs) and pectins was investigated in embryogenic and non-embryogenic cells by immunolabelling using anti-AGP monoclonal antibodies (JIM4, JIM8 and JIM13) as well as an anti-methyl-esterified pectin-antibody (JIM7), in order to evaluate major modifications in cell wall composition in the initial stages of somatic embryogenesis. Our observations pointed out that induction of somatic embryogenesis produced accumulation of proteins and polysaccharides in embryogenic cells. Presence of JIM8, JIM13 and JIM7 epitopes were detected exclusively in embryogenic cells, which supports the idea that specific changes in cell wall are involved in the acquisition of embryogenic competence of A. tequilana.     

The use of acetyl-CoA carboxylase activity and changes in wall composition as measures of embryogenesis in tissue cultures of oil palm (Elaeis guineensis)

With some lines of oil-palm tissue cultures embryogenesis occurs spontaneously within the callus grown on a medium containing 2.5 mg of 3-naphthylacetic acid/litre. One of the initial biochemical events that occurs just before the embryoid can be seen is the accumulation of fat droplets within the cells. This accumulation of lipid is correlated with an increase in acetyl-CoA carboxylase activity. The carboxylase is thus probably a rate-limiting step in fatty acid synthesis in these cells and can be used as a quantitative marker of somatic embryogenesis within the tissue. During the development of the embryoid tissue there is an increase in cell division and the differentiation of vascular cells with secondary thickened walls. These stages of the differentiation may be monitored by measuring the ratio of pectin synthesis (polygalacturonic acid formation) to hemicellulose synthesis (xylan formation).     

Developmental anatomy and ultrastructure of early somatic embryos in European black pine (Pinus nigra Arn.)

Summary Embryogenic callus cultures of European black pine (Pinus nigra Arn.) were established on megagametophytes containing zygotic embryos in early developmental stage. In addition to many elongated cells and disorganized growing clumps they contained early somatic embryos at various stages of development. At all stages of embryogenesis the embryos were organized as bipolar structures. Cell pairs composed of one isodiametric cell with dense cytoplasm and a second large vacuolated cell were the simplest bipolar system. The vacuolated cell underwent senescence. The cytoplasm-rich cell and its derivates divided transversally, resulting in several cytoplasmic cells arranged in row. An early embryonal cylindrical mass was formed by longitudinal division of the cells in a filament. Proximally localized cells in the early embryonal mass became vacuolized and elongated gradually giving rise to the secondary suspensor. Distal cells remained cytoplasmic in character and formed an embryonal mass along the axis of long early somatic embryos. Differences in the proportion of organelles and heterochromatin clumps, thickness of cell walls and number of plasmodesmata between cells at various stages of early somatic embryogenesis were described.     

Ultrastructure of Early Secondary Embryogenesis by Multicellular and Unicellular Pathways in Cork Oak (Quercus suber L.)

Early cellular events during secondary embryogenesis were studiedin a cork oak recurrent embryogenic system in which embryosarise either in a multicellular budding pathway from a compactmass of proliferation or from isolated single cells in friablecallus. The compact mass of proliferation originated from theepidermal cells at the hypocotyl whose growth and convolutionwas characterized by a decrease in the nucleus/cytoplasm ratioand a marked increase in storage products. The transition fromthe compact mass to meristematic primordia occurred at the peripheryand was accompanied by cell dedifferentiation and a drasticreduction of storage products. Meristematic primordia evolvedto globular embryos by the organization of a protodermis andtwo internal centres. Microscope analysis of friable callusshowed an hypothetical sequence from single cells to aggregatesof a few cells, meristematic cell clusters and globular embryos.Single cells showed typical features of embryogenic cells suchas rich cytoplasm and a large number of starch grains and lipidbodies. A progressive cell dedifferentiation and a drastic reductionof storage products was observed when aggregates of a few cellsand meristematic cell clusters were compared. Progressive bipolarizationin large meristematic cell clusters initiated globular embryoformation. The comparison of both embryogenic pathways at theultrastructural level showed that subcellular changes followa similar sequential pattern, especially with regard to thestorage products. The possible role of plastid extrusions andmultivesicular bodies in the changing pattern of starch metabolismduring embryogenesis is discussed. Copyright 2001 Annals ofBotany Company Quercus suber L, cork oak, somatic embryogenesis, multicellular budding, friable callus, ultrastructural studies     

Ultrastructural changes and the distribution of arabinogalactan proteins during somatic embryogenesis of banana (Musa spp. AAA cv. 'Yueyoukang 1')

A better understanding of somatic embryogenesis in banana (Musa spp.) may provide a practical way to improve regeneration of banana plants. In this study, we applied scanning electron microscopy (SEM) and transmission electron microscopy (TEM) to visualize the ultrastructural changes during somatic embryogenesis of banana (Musa AAA cv. 'Yueyoukang 1'). We also used histological and immunohistochemical techniques with 16 monoclonal antibodies to study the spatial distribution and cellular/subcellular localization of different arabinogalactan protein (AGP) components of the cell wall during somatic embryogenesis. Histological study with periodic acid-Schiff staining documented diverse embryogenic stages from embryogenic cells (ECs) to the late embryos. SEM revealed a mesh-like structure on the surface of proembryos which represented an early structural marker of somatic embryogenesis. TEM showed that ECs were rich in juvenile mitochondria, endoplasmic reticulum and Golgi stacks. Cells in proembryos and early globular embryos resembled ECs, but they were more vacuolated, showed more regular nuclei and slightly more developed organelles. Immunocytochemical study revealed that the signal of most AGP epitopes was stronger in starch-rich cells when compared with typical ECs. The main AGP component in the extracellular matrix surface network of banana proembryos was the MAC204 epitope. Later, AGP immunolabelling patterns varied with the developmental stages of the embryos. These results about developmental regulation of AGP epitopes along with developmental changes in the ultrastructure of cells are providing new insights into the somatic embryogenesis of banana.     

4-Hydroxybenzyl alcohol accumulates in suspension-cell cultures and inhibits somatic embryogenesis in carrot

Somatic embryogenesis in carrot ( Daucus carota L.) is strongly inhibited by certain factors that accumulate in culture medium of high-density cultures of embryogenic cells. We previously identified 4-hydroxybenzyl alcohol (4HBA) as one of the inhibitory factors. In this study, we analyzed the accumulation pattern of 4HBA in the cultures of carrot suspension cells. When somatic embryogenesis was induced by culturing embryogenic cells in phytohormone-free Murashige and Skoog medium at various initial cell densities, 4HBA accumulated in the culture medium. The concentration of 4HBA in high cell density cultures was higher than in low cell density cultures. The accumulation of 4HBA in high cell density cultures was rapid during the early days of culture. This rapid accumulation of 4HBA in high cell density cultures might result in the strong inhibition of somatic embryogenesis. The production of 4HBA decreased as the somatic embryos developed. In addition, embryogenic cells released larger amount of 4HBA into the culture medium compared with non-embryogenic cells. These results suggest that the production of 4HBA is both related to embryogenic competence and developmentally regulated during somatic embryogenesis.     

ABA对枸杞体细胞胚发生的调节作用

Using Enzyme Linked Immunosorbent Assay (ELISA) method, we determined the ABA contents of different stages in somatic embryogenesis. The results showed that endogenous ABA contents increased to maximum value twice during somatic embryogenesis. After first maximum value of ABA contents embryogenic cells were observed in callus, and simultaneously, there was a specific protein of somatic embryogenesis investigated by SDS-PAGE. This protein accumulates preferentially in embryogenic callus but not in transferred callus. So it is suggested that ABA could promote the expression of specific genes and the synthesis of embryogenic protein during somatic embryogenesis in Lycium barbarum L. and ABA play an important role in globular stage as well. In addition, treatment of non-embryogenic activity callus with 4 mumol/L exogenous ABA could stimulate somatic embryogenesis. And the ABA function mechanism in relation to somatic embryogenesis was discussed.