高粱SSA-1无融合生殖胚胎学研究

经常规石蜡切片法,在光学水平观察了高粱（Ｓｏｒｇｈｕｍ ｂｉｃｏｌｏｒ （Ｌ．） Ｍｏｅｎｃｈ） ＳＳＡ－１ 无融合生殖的胚胎发生。高粱ＳＳＡ－１ 的无融合生殖为无孢子生殖和二倍体孢子生殖两种类型。两种生殖类型的单核胚囊经３ 次有丝分裂形成７ 细胞（８ 核）的成熟胚囊,由卵细胞、２ 个助细胞、２ 个极核和３ 个反足细胞组成。反足细胞迅速分裂增殖,形成由２０—３０ 个细胞组成的细胞团。此外,还具有一定频率的无孢子生殖多孢原和多胚囊现象。在未授粉情况下,卵细胞自发分裂形成典型的禾本科类型单子叶胚。经切片统计表明,ＳＳＡ－１ 的无融合生殖频率为４２％ ,证明该系为一兼性无融合生殖系。文中还讨论了ＳＳＡ－１ 无融合生殖过程的特点。     

赤苎无融合生殖细胞胚胎学研究

对赤苎(Boehmeria silvestrii (Pamp.)W.T.Wang)细胞胚胎学研究表明,其生殖模式属无融合生殖的二倍体孢子生殖(diplospory),但其未减数胚囊的发育途径不同于已报道的类型。大孢子母细胞的减数分裂I在到达终变期时停滞,染色体呈单价体状态并维持较长的时间。在尚未到达以核膜、核仁消失,纺锤体出现为特征的中期I前,大孢子母细胞由终变期直接“跳”入间期,从而始终保持了二倍体水平。减数分裂Ⅱ正常进行并产生二倍体二分孢子。珠孔端孢子退化,合点端孢子经3次分裂形成包括1个卵细胞、2个助细胞、2个极核和3个反足细胞的八核胚囊。胚和胚乳分别起源于卵和次生核未受精的自发分裂。胚乳属核型,其发育早于胚。     

The mature embryo sac of the sugar beet, Beta vulgaris: A structural investigation

The mature embryo sac of Beta vulgaris consists of one egg cell, one persistent and one degenerated synergid, one cental cell with two fused polar nuclei, and five to six antipodals. The degeneration of one of the synergids appears before pollination in the maturing process. The two fused polar nuclei are located in the chalazal part of the central cell. The antipodals may have secretory activities. It is suggested that the embryo sac of the sugar beet completes the maturing process independently of pollination.     

甜菜无融合生殖单体附加系M14 成熟胚囊的超微结构特征

以甜菜无融合生殖单体附加系M14(Beta vulgaris, 2n=18+1)为实验材料, 利用电子显微镜技术对成熟胚囊及其超微结构进行研究。结果表明: M14成熟胚囊包括1个卵细胞、2个退化的助细胞、1个具有次生核的中央细胞和3-6个反足细胞。其卵细胞具有3种不同的形态: (1)极性正常的卵细胞, 细胞核位于合点端, 细胞质含有大量核糖体、线粒体、内质网等细胞器; (2)细胞核位于细胞中央; (3)细胞核位于珠孔端, 且后2种形态细胞器的种类与数量少。大多数胚囊中的2个助细胞在开花前已退化。中央细胞的次生核位于反足细胞附近; 未经受精自发分裂前的卵细胞与中央细胞的细胞核大、核仁明显, 细胞器的种类与数量多, 呈现旺盛代谢活动特征, 成为二倍体孢子无融合生殖过程中, 卵细胞与次生核自发分裂的细胞学标志。     

甜菜无融合生殖单体附加系M14成熟胚囊的超微结构特征

以甜菜无融合生殖单体附加系M14（Betavulgaris,2n=18＋1）为实验材料,利用电子显微镜技术对成熟胚囊及其超微结构进行研究。结果表明：M14成熟胚囊包括1个卵细胞、2个退化的助细胞、1个具有次生核的中央细胞和3-6个反足细胞。其卵细胞具有3种不同的形态：（1）极性正常的卵细胞,细胞核位于合点端,细胞质含有大量核糖体、线粒体、内质网等细胞器;（2）细胞核位于细胞中央;（3）细胞核位于珠孔端,且后2种形态细胞器的种类与数量少。大多数胚囊中的2个助细胞在开花前已退化。中央细胞的次生核位于反足细胞附近;未经受精自发分裂前的卵细胞与中央细胞的细胞核大、核仁明显,细胞器的种类与数量多,呈现旺盛代谢活动特征,成为二倍体孢子无融合生殖过程中,卵细胞与次生核自发分裂的细胞学标志。     

Cytological Observation on Megasporogenesis and Embryo Sac Development of Regenerated Ovule in Hyacinth

The morphogenesis of regenerated ovule and cytological changes of its megasporogenesis and embryo sac development were studied. Results showed as follows: 1. the differentiation of the regenerated ovule had followed a normal process in the order of inner integument , outer integument and then funiculus. But the form of the regenerated ovules in vitro was quite different from that of ovule in vivo. Most of the regenerated ovules were orthotropous and hemianatropous , only a few were anatropous which are the same with that in vivo. 2. the megasporogenesis and the embryo sac development also had normal cytological process ,and the Polygonum type-embryo sac consisted of one egg, two synergids , one central cell and three antipodals could be seen in mature regenerated ovule. These ex-perimental results make clear that the regenerated ovule differentiated directly from explant could accomplish the complex processes of megasporogenesis and embryo sac development. By this fact ,authors infer that once the differentiation of ovule primordium, the complex biochemical programs for the megasorogenesis and embryo sac development can be controlled by the ovule itself and need no more information from flower bud and /or plant.     

Unusual microtubular cytoskeleton of apomictic embryo sac of Chondrilla juncea L.

Summary. The mature apomictic embryo sac of Chondrilla juncea is highly vacuolated and demonstrates a polarization similar to that of the amphimictic gametophyte. The microtubule cytoskeleton of this embryo sac is uncharacteristic and relatively weak. The microtubules are positioned along cell walls and resemble cortical microtubules of somatic cells. They do not form the parallel, brushlike structures observed around the filiform apparatus of synergids in the amphimictic embryo sac. In the apomictic embryo sac, the microtubules of both the egg cell and the central cell develop a cortical-like structure, which is entirely different from the radial arrangement observed around the nuclei in the amphimictic embryo sac. Correspondence and reprints: Department of Plant Cytology and Embryology, Jagiellonian University, Grodzka 52, 31-044 Kraków, Poland.     

Embryological Studies on Apomixis in Pennisetum squamulatum

Studies on the formation and development of the embryo sac of the apomictic material of Pennisetum squamulatum Fresen indicated that normal archesporial cell did form with consequent development of a megaspore mother cell and later meiotic division to give rise to a triad. But invariably the megaspore mother cell and the triad underwent degeneration after formation. During the period of formation or degeneration of the megaspore or the triad a number of nucellar cells around the degenerated sexual cell became much enlarged. Frequently, one of the enlarging nucellar cells near the micropylar end became vacuolated and then developed into an aposporous uninucleate embryo sac, which underwent two further mitotic divisions to form an aposporous four-nucleate embryo sac, where the four nuclei remained in the micropylar end. Thus in the mature aposporous embryo sac there were one egg cell, one synergid and one central cell (containing two polar nuclei). Antipodal cells were completely lacking. The pattern of development of the aposporous embryo sac resembles the panicum type. There were two types of embryo formed during apomictic development namely ( 1 ) The pre-genesis embryo--embryo formed without fertilization, 1 to 2 days before anthesis, and (2) The late-genesis embryo--derived from the unfertilized egg cells, 3 to 4 days after anthesis. In the late-genesis embryo type, the egg cell divided after the secondary nucleus has undergone division to form the endosperm nuclei. All egg cells developed vacuoles before they differentiated into embryos. The development of the aposporous embryo followed the sequence of the formation of globular, pearshaped embryo and full stages of differentiation. The unfertilized secondary nucleus divides to form free endosperm nuclei after being stimulated by pollination. The development of the endosperm belongs to the nuclear-type.     

水稻胚囊壁的形成与发育观察

通过透射电镜对水稻(Oryza sativa L.)功能大孢子形成开始至胚囊成熟期间胚囊壁的形成与发育进行观察,结果表明:水稻胚囊壁是在原有功能大孢子壁的基础上,通过与其周围退化珠心细胞留下的壁相叠合,使壁加厚。功能大孢子近合点端壁存在胞间连丝,其中个别胞间连丝可保留到八核胚囊。胚囊壁上内突最早于四核胚囊近珠孔端发生。八核胚囊形成后,内突的发育在胚囊不同的细胞中表现不同,其中以中央细胞最具特点,表现为先在中央细胞与珠心相接的近珠孔端和近合点端两个区域的胚囊壁上形成,以后近珠孔端胚囊壁上的内突大量增加,而近合点端的却增加不明显,中部胚囊壁上的内突出现的时间相对较晚。到胚囊成熟时,近珠孔端胚囊壁上内突的分布密度最大,中部次之,近合点端的最小,三个区域上内突的形态各异。反足细胞与珠心相接的胚囊壁上内突的形成时间较早,但以后的发育却相对缓慢,数量增加不明显。2个助细胞交界处胚囊壁上的丝状器在胚囊未明显膨大时已形成。卵细胞除在与助细胞交界处的壁外,其它部位不形成明显的内突结构。     

Reproductive development in apomictic populations of <Emphasis Type="Italic">Arabis holboellii</Emphasis> (Brassicaceae)

Megasporogenesis, megagametogenesis and seed formation were analyzed cytologically in populations of Arabis holboellii originating from North America (Colorado) and Greenland. The Colorado population contained only triploid plants, while the Greenland population consisted of diploid and triploid plants. The penetrance of the apomictic trait was assessed at the level of embryo sac development. All populations showed facultative apomeiotic embryo sac development; however the penetrance of this trait differed between the populations. Apomeiotic and meiotic embryo sac development were characterized by diplosporous dyad formation (Taraxacum-type) and meiotic tetrad formation (Polygonum-type), respectively. Flow cytometric analyses of single mature seeds from all three populations suggest that only unreduced gametes participate in viable seed development. Pseudogamy was the predominant mode of endosperm formation; however, autonomous endosperm development was also observed. The fertilization of unreduced egg cells with unreduced pollen was observed at a low frequency in the Greenland populations. The mechanisms of apomictic reproduction in A. holboellii are discussed.     

龙须草无融合生殖的胚胎学证据

采用石蜡切片技术对龙须草(Eulaliopsis binata(Rotz)C.E.Hubb)进行了系统的胚胎学研究,证明龙须草为禾本科植物中一种新的无融合生殖材料.龙须草无融合生殖方式为无孢子生殖,在胚珠发育早期,多个珠心细胞特化为无孢子生殖原始细胞,由原始细胞发育为单核胚囊,经两次有丝分裂形成4核胚囊,进一步分化形成两种类型的成熟胚囊:(1)具1个卵细胞,1个助细胞和2个极核,占观察总数的67.6%;(2)具1个卵细胞,2个助细胞和1个极核,占观察总数的32.4%.胚囊发育属大黍型.多个无孢子生殖原始细胞可以同时发育,最后形成2个或多个胚囊,其比例为17.7%.胚珠内没有有性胚囊的发育.胚的发生有两种类型:(1)早发生胚(74%),开花前1～2 d,极核未分裂前卵细胞分裂形成胚;(2)迟发生胚(26%),开花后2～3 d,极核分裂形成多个胚乳游离核后,卵细胞启动分裂形成胚.存在多胚现象,多胚来自不同胚囊内卵细胞的孤雌生殖,多胚发生率为13%.胚乳由极核不经受精自发分裂产生.     

Abnormalities Occurring during Female Gametophyte Development Result in the Diversity of Abnormal Embryo Sacs and Leads to Abnormal Fertilization in indica/japonica Hybrids in Rice

Embryo sac abortion is one of the major reasons for sterility in indica/japonica hybrids in rice. To clarify the causal mechanism of embryo sac abortion, we studied the female gametophyte development in two indica/japonica hybrids via an eosin B staining procedure for embryo sac scanning using confocal laser scanning microscope. Different types of abnormalities occurred during megasporogenesis and megagametogenesis were demonstrated. The earliest abnormality was observed in the megasporocyte. A lot of the chalazal-most megaspores were degenerated before the mono-nucleate embryo sac stage. Disordered positioning of nucleus and abnormal nucellus tissue were characteristics of the abnormal female gametes from the mono-nucleate to four-nucleate embryo sac stages. The abnormalities that occurred from the early stage of the eight-nucleate embryo sac development to the mature embryo sac stage were characterized by smaller sizes and wrinkled antipodals. Asynchronous nuclear migration, abnormal positioning of nucleus, and degeneration of egg apparatus were also found at the eight-nucleate embryo sac stage. The abnormalities that occurred during female gametophyte development resulted in five major types of abnormal embryo sacs. These abnormal embryo sacs led to abnormal fertilization. Hand pollination using normal pollens on the spikelets during anthesis showed that normal pollens could not exclude the effect of abnormal embryo sac on seed setting.     

Abnormalities Occurring during Female Gametophyte Development Result in the Diversity of Abnormal Embryo Sacs and Leads to Abnormal Fertilization in indicaljaponica Hybrids in Rice

Embryo sac abortion is one of the major masons for sterility in indicaljaponica hybrids In rice. To clarify the causal mechanism of embryo sac abortion, we studied the female gametophyte development in two indicaljaponica hybrids via an eosin B staining procedure for embryo sac scanning using confocal laser scanning microscope. Different types of abnormalities occurred during megasporogenesis and megagamatogenesis were demonstrated. The earliest abnormality was observed in the megasporocyte. A lot of the chalazal-most megaspores were degenerated before the mono-nucleate embryo sac stage. Disordered positioning of nucleus and abnormal nucallus tissue were characteristics of the abnormal female gametes from the mono-nucleate to four-nucleate embryo sac stages. The abnormalities that occurred from the early stage of the eight-nucleate embryo sac development to the mature embryo sac stage were characterized by smaller sizes and wrinkled antipodals. Asynchronous nuclear migration, abnormal positioning of nucleus, and degeneration of egg apparatus were also found at the eight-nucleate embryo sac stage. The abnormalities that occurred during female gametophyte development resulted in five major types of abnormal embryo sacs. These abnormal embryo sacs led to abnormal fertilization. Hand pollination using normal pollens on the spikelets during anthesis showed that normal pollens could not exclude the effect of abnormal embryo sac on seed setting.     

EMBRYO SAC LACKING ANTIPODAL CELLS IN ARABIDOPSIS THALIANA (BRASSICACEAE)

Ultrastructure of the embryo sac lacking antipodals in prefertilization stages in Arabidopsis thaliana has been examined 2 hr before and 5 hr after manual cross pollination. The cytoplasm of both synergids before fertilization is rich in ribosomes, mitochondria, and rough endoplasmic reticulum, and also contains several microbodies and spherosomes. The filiform apparatus includes electron-dense material and a fibrous part. Many cortical microtubules appear in the filiform apparatus area. One of the two synergids degenerates before fertilization. The synergids, the egg cell, and central cell have a rich cytoskeleton of microtubules; only the synergids appear to contain microfilaments. At the chalazal end, the antipodals are initially present but degenerate by the time of pollination in most embryo sacs in the starchless line studied. The embryo sac is completely surrounded by a wall containing an electron-dense layer, separating it from the nucellus, including the chalazal end. When the antipodals have degenerated, the electron-dense layer disappears at the chalazal end only, and the wall between the central cell and the nucellus is homogeneous. Between the central cell and nucellar cells no plasmodesmata are found. The membranes of both antipodal cells at the chalazal end of the embryo sac appear sinuous, like those of transfer cells. The central cell has plastids preferentially distributed around the nucleus, but the other organelles are randomly distributed. The central cell in the embryo sac and the adjacent chalazal nucellar cells show a transfer-cell function in the embryo sac after the antipodals degenerate.     

龙须草无融合生殖的胚胎学证据

采用石蜡切片技术对龙须草(Eulaliopsisbinata(Rotz)C.E.Hubb)进行了系统的胚胎学研究,证明龙须草为禾本科植物中一种新的无融合生殖材料。龙须草无融合生殖方式为无孢子生殖,在胚珠发育早期,多个珠心细胞特化为无孢子生殖原始细胞,由原始细胞发育为单核胚囊,经两次有丝分裂形成4核胚囊,进一步分化形成两种类型的成熟胚囊:(1)具1个卵细胞,1个助细胞和2个极核,占观察总数的67.6%;(2)具1个卵细胞,2个助细胞和1个极核,占观察总数的32.4%。胚囊发育属大黍型。多个无孢子生殖原始细胞可以同时发育,最后形成2个或多个胚囊,其比例为17.7%。胚珠内没有有性胚囊的发育。胚的发生有两种类型:(1)早发生胚(74%),开花前1~2d,极核未分裂前卵细胞分裂形成胚;(2)迟发生胚(26%),开花后2~3d,极核分裂形成多个胚乳游离核后,卵细胞启动分裂形成胚。存在多胚现象,多胚来自不同胚囊内卵细胞的孤雌生殖,多胚发生率为13%。胚乳由极核不经受精自发分裂产生。     

Light microscopic detection of PAS-positive substances with thiosemicarbazide in freeze-substituted ovaries of Paspalum longifolium before pollination

Summary Localization of polysaccharides in the freeze-substituted, Eponembedded ovaries of Paspalum longifolium prior to pollination was carried out by periodic acid-Schiff's (PAS), periodic acid-thiosemicarbazide-silver proteinate (PA-TSC-AgPr) and periodic acid-thiosemicarbazide-osmium (PA-TSC-OsO₄) reactions. The specificities of these three reactions were also studied. These three reactions are all effective for light microscopic demonstration of polysaccharides in the filiform apparatus, starch grains in the cells and PAS substance in the micropylar region. Nonspecific staining of the nucleoli of the egg and polar nuclei was observed in the PAS reaction. The PA-TSC-AgPr reaction is very specific for polysaccharides but its overall reaction takes a much longer period of time than the PAS reaction. The PA-TSC-OsO₄ reaction colors the cytoplasm and nuclei of most cells and therefore stains of the cell walls, especially those of the egg cell and synergids, do not stand out clearly. The synergid cytoplasm contains some amorphous polysaccharides and thus it colors even in PAS and PA-TSC-AgPr preparations. In the mature embryo sac, the egg and central cell as well as antipodals are vacuolated but the two synergids have no visible vacuoles under light microscope. Each synergid has a prominent filiform apparatus at the micropylar end, which stains intensely in all three preparations. The walls of the central cell and antipodals adjacent to the nucellar cells have many inward papillae which are also intensely stained in all three preparations. Starch grains are abundant in the ovary wall and usually absent in the nucellus and integuments. They are present in the egg, central cell and antipodals, but not in the two synergids.     

Isolation and preservation of the living embryo sac ofCrinum asiaticum L. var.japonicum baker

The enzymatic maceration method was used to isolate an intact embryo sac ofCrinum asiaticum and its component cells. Best results were obtained when using enzyme solutions that contained pectinase hemicellulase, cellulase and pectolyase. Aseptic ovules were incubated in the enzyme solution for 1.5 hr at 25 C. This allowed the isolation of embryo sacs to yield up to 20% of the amount present. An isolated embryo sac usually consists of an egg cell, synergids, antipodals and a central cell. Some embryo sacs can be digested as gametophytic protoplast. The size, shape and position of the isolated embryo sac seemingly possessed similarities with those of the fixed embryo sac in the ovary. An isolated embryo sac can be in a living state when the result of the fluorochromatic reaction (FCR) and protoplasmic streaming is positive. When cultured in proper media, 68% of the isolated gametophytic protoplasts were observed to have sustained their positive FCR for more than 1 month.     

黄顶菊的大孢子发生、雌配子体与胚胎发育

用常规石蜡制片对黄顶菊(Flaveria bidentis(L.) Kuntze)大孢子发生、雌配子体和胚胎的发育过程进行了观察.黄顶菊雌蕊柱头二裂,2心皮,1室,单胚珠,基生胎座,单珠被,薄珠心,倒生胚珠,具发达的珠被绒毡层.珠心表皮下分化出孢原细胞,孢原细胞直接发育为大孢子母细胞,大孢子母细胞减数分裂形成直列四分体...     

Embryological Observations on Ovary Culture of Unpollinated Young Flowers in Hordeum vulgare L.

Young barley flowers of various stages (from megaspore tetrad to mature embryo sac) were used as materials for culture and subsequent embryological observation. Two culture methods, vertical flower culture and horizontal ovary culture, were adopted. The inocula were cultured at nearly 25 ℃ in dark on N6 medium solidified with agar (0.8%) and supplemented with sucrose (3%–12%), MCPA (0.5–2 ppm), NAA or IAA (lppm) and KT or BAP (0.5–1 ppm). After inoculation, ovaries were sampled at 2–3 day intervals, fixed in aceto-methanol (1:3), stained in toto in diluted Ehrlich’s hematoxylin and sectioned by paraffin method. In all three cultivars tested, embryogenesis within unfertilized embryo sac was observed. The gynogenetic embryos, totally 59 in number, derived mostly from egg apparatus, but some of them came from antipodals too. Usually only one embryo was located in an embryo sac, but in a few cases, two embryos within one embryo sac were observed. The first embryogenie division was transverse in direction, resulting in a basal cell and a terminal cell. The basal cell elongated strikingly and thus pushed the terminal cell toward the center of the embryo sac. Subsequent divisions often led to the formation of a proembryo with peculiar linear shape. Later, multicel- lular embryoids with various sizes and shapes were observed. Some of them showed organ differentiation. Most of the differentiating embryoids were similar to the ordinary zygotic embryo of barley, with a terminal scutellum and a lateral coleoptile. However, some of them showed some abnormal appearance. Ovaries inoculated at megaspore tetrad stage could not be induced to gynogenesis, although in a few cases probable nucellus embryos were observed. Instead, ovaries inoculated at later stages (from uninucleate to mature embryo sacs) did give rise to gynogenetic embryogenisis without the occurence of adventitious embryogeny. The induction-frequency was higher in materials inoculated at 8-nucleate or mature embryo sac stages than at earlier stages. In the latter cases, triggering of embryogenesis could take place only when the embryo sacs were well-differentiated after a period of game tophytie development during culture. Gynogenetic embryos could be induced by both vertical flower culture or horizontal ovary culture, but the former was superior in providing better conditions for growth of ovaries and embryo sacs and thus yielded more embryoids. Divisions of unfertilized polar nuclei leading to endosperm-like free nuclei were also found in cultured ovaries. However, such structure was not likely to play a similar role of nurse tissue as in vivo for the gynogenetic embryos in vitro, since it did not often accompany the occurence of embryoids within the same embryo sacs.