一种单性结实枣的胚胎学观察

本文对一种单性结实枣做了较详细的胚胎学观察。结果表明:孢原由1—4个细胞组成,通常仅有一个可发育为大孢子母细胞。有二个大孢子核参与胚囊形成,胚囊属葱型。部分花柱中有花粉管,但不发生受精。果实的发育不依赖于受精,是一种稳定的单性结实类型。讨论了传粉与果实发育的关系。     

矮沙冬青雌配子体及胚胎发育研究

矮沙冬青子房单心皮1室,边缘胎座,弯生胚珠,胚珠具双珠被、厚珠心。大孢子孢原细胞发生于珠心表皮下,大孢子母细胞减数分裂形成直线排列的四分体,合点端大孢子具功能,并按蓼型胚囊发育,雌配子体成熟于4月中旬。双受精后,胚乳发育为核型。在矮沙冬青大孢子发生、雌配子体和胚胎发育过程中未发现异常现象,因此认为矮沙冬青濒危不存在雌性生殖结构与发育过程异常的内在因素。     

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...     

Localization of poly(A)+-containing RNA during female gametophyte development in Medicago sativa and the diploid mutant Medicago sativa ssp. falcata using digoxigenin-labelled oligo-dT probes

The detection and distribution pattern of poly(A)+-containing RNA during embryo sac development in the wild type and in a diplosporic mutant of alfalfa was studied using digoxigenin-labelled oligo-dT probes. In the very early stage of development, the megaspore mother cell does not show any poly(A)+RNA accumulation. Subsequently, poly(A) + RNA appears concomitantly in the megaspore mother cell and the nucellus tissue, both in wild and mutant alfalfa. The distribution pattern of poly(A) + RNA reveals some differences. In the mutant, the absence of label in the chalazal part of the nucellus at the megaspore mother cell stage seems to be significant. Compared to the wild type, the hybridization signal at the functional megaspore as well as at the two-nucleate coenocytic stage was reduced. However, the late stages of embryo sac development in the two types were almost comparable, except that the central cell of the mutant accumulated more label. The significance of the results in relation to reduced and unreduced embryo sac development is discussed.     

车桑子大孢子发生与雌配子体发育

采用常规石蜡切片法,对车桑子大孢子的发生和雌配子体的发育进行观察,探讨车桑子自然结籽率低的原因和明确其胚胎发育特征。结果表明:(1)车桑子花柱有花柱道,子房3室,中轴胎座,横生胚珠,每心室两枚胚珠,双珠被,厚珠心,无承珠盘。(2)位于珠心表皮细胞下的孢原细胞经平周分裂产生造孢细胞,造孢细胞发育为大孢子母细胞,大孢子母细胞经减数分裂形成线性四分体,靠近珠孔端3个大孢子退化消失,靠合点端大孢子发育为功能大孢子,大孢子发生类型为单孢子发生型。(3)单核胚囊经3次有丝分裂形成7细胞8核的成熟胚囊,胚囊发育类型为蓼型。(4)花器官形态的变化和大孢子发育过程有一定联系,可根据雌花形态特征大致判断大孢子发育时期。研究认为,车桑子雌配子体发育过程中出现的胚囊不中空、游离核不进一步细胞化等异常现象,可能是导致车桑子自然结籽率低的原因之一。     

水稻亚种间杂种小穗败育的细胞学基础

本文对普通栽培稻不同品种类型间杂种小穗败育的细胞学基础及雌性败育的过程进行了研究,结果表明:(1)引起杂种小穗败育的原因有胚囊败育、花粉败育、开花时花药不开裂和雌雄异熟。其中胚囊败育而丧失受精能力是引起低结实率的最重要的因素,开花时花药不开裂和雌雄异熟在一定程度上形成了雌雄性细胞时间和空间的隔离屏障。(2)杂种植株的所有大孢子母细胞都能进行正常的减数分裂,形成四个大孢子,败育主要发生在靠近合点端的功能大孢子分化形成胚囊的早期,有的功能大孢子在进行第一次有丝分裂前便萎缩解体,多数走向败育的功能大孢子能完成一次或二次有丝分裂,形成二核或四核败育胚囊。败育的共同特征是无液泡的分化,细胞质少或退化,在败育胚囊残迹部位,解体的珠心细胞和萎缩的胚囊残渍混杂垛叠。已受精的杂种子房没有观察到胚及胚乳发育的异常。籼粳杂种胚囊败育频率较高。     

宁夏枸杞大孢子发生和雌配子体发育的细胞学研究

采用半薄切片技术和组织化学染色法对宁夏枸杞大孢子发生和雌配子体发育过程中的细胞结构变化及营养物质积累特征进行了观察。结果表明,(1)宁夏枸杞为中轴胎座,多室子房,倒生胚珠,单珠被,薄珠心类型。(2)位于珠心表皮下的孢原细胞可直接发育为大孢子母细胞,减数分裂后形成直线型大孢子四分体,合点端第一个大孢子发育为功能大孢子,胚囊发育类型为蓼型,具有珠被绒毡层。(3)初形成的胚囊外周组织中没有营养物质积累,成熟胚囊时期出现了大量的淀粉粒且呈珠孔端明显多于合点端的极性分布特征。(4)助细胞的珠孔端具有明显的丝状器结构,呈PAS正反应表现出多糖性质,成熟胚囊具有承珠盘结构。     

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。     

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.     

The dyad gene is required for progression through female meiosis in Arabidopsis

In higher plants the gametophyte consists of a gamete in association with a small number of haploid cells, specialized for sexual reproduction. The female gametophyte or embryo sac, is contained within the ovule and develops from a single cell, the megaspore which is formed by meiosis of the megaspore mother cell. The dyad mutant of Arabidopsis, described herein, represents a novel class among female sterile mutants in plants. dyad ovules contain two large cells in place of an embryo sac. The two cells represent the products of a single division of the megaspore mother cell followed by an arrest in further development of the megaspore. We addressed the question of whether the division of the megaspore mother cell in the mutant was meiotic or mitotic by examining the expression of two markers that are normally expressed in the megaspore mother cell during meiosis. Our observations indicate that in dyad, the megaspore mother cell enters but fails to complete meiosis, arresting at the end of meiosis 1 in the majority of ovules. This was corroborated by a direct observation of chromosome segregation during division of the megaspore mother cell, showing that the division is a reductional and not an equational one. In a minority of dyad ovules, the megaspore mother cell does not divide. Pollen development and male fertility in the mutant is normal, as is the rest of the ovule that surrounds the female gametophyte. The embryo sac is also shown to have an influence on the nucellus in wild type. The dyad mutation therefore specifically affects a function that is required in the female germ cell precursor for meiosis. The identification and analysis of mutants specifically affecting female meiosis is an initial step in understanding the molecular mechanisms underlying early events in the pathway of female reproductive development.     

多花地宝兰胚囊和胚发育的细胞学研究

为探讨多花地宝兰(Geodorum recurvum)胚胎发育的系统分类学意义,采用石蜡制片法对多花地宝兰胚囊和胚的发育进行解剖学观察。结果表明,在开花前,多花地宝兰胚珠原基发育缓慢,开花授粉后胚珠原基快速发育成"树状二杈分枝结构",随后在"分枝结构"末端形成孢原细胞,开始胚囊发育。多花地宝兰的胚囊发育属于单孢蓼型胚囊,胚珠具有双层珠被。孢原细胞形成后,经过细胞膨大延长发育形成胚囊母细胞,胚囊母细胞经过减数分裂形成线性四分体,在珠孔端形成1个功能大孢子,功能大孢子经过3次有丝分裂形成8核胚囊。多花地宝兰的胚发育具有藜型和紫苑型两种方式。双受精完成后,多花地宝兰合子进行一次橫裂后形成基细胞和顶细胞;基细胞经过多次分裂形成细胞团,细胞团中的细胞向不同方向膨大延长形成多个胚柄细胞;顶细胞有两种分裂方式,一种是横裂形成藜型胚,一种是纵裂形成紫苑型胚。因此,推测多花地宝兰在兰科植物系统分类学上属于较为原始种。     

小草蔻胚珠及雌配子体发育的研究

小草蔻（Alpinia henryi K.Schum）胚胎倒生,厚珠心,双珠被。内珠被独自成珠孔。造孢细胞,大孢子母细胞和四体时期,周缘细胞仅1层。四分体线形,少数三分体。合点在孢子具功能。成熟胚珠具有珠心冠原和承珠盘结构。胚囊发育属蓼型。成熟胚整,合点端狭长,形成盲囊。反足核不能构成细胞,是短命的。膜质假种皮的原基从外珠被和珠柄发生。     

Megasporogenesis, female gametophyte development and embryonic development of Ambrosia L. in China

The megasporogenesis, female gametophyte development and embryonic development of Ambrosia artemisiifolia L. and Ambrosia trifida L. of genus Ambrosia L. in China were studied using conventional paraffin section technology and optical microscopy. The results show that both A. artemisiifolia L. and A. trifida L. have a bilobed pistil stigma, two carpels, one chamber, basal placenta, unitegmic, tenuinucellate, anatropous ovule, and well-developed integumentary tapetum. Megaspore mother cells are directly developed from archesporial cells originated from the nucellar cells under the nucellar epidermis and further undergo meiosis to form linear tetrads. The megaspore at the chalazal end develops into a functional megaspore and the other three megaspores are degraded. The development of embryo sac is monosporic type. After three consecutive mitosis, mononucleate embryo sac becomes a mature embryo sac with two synergids and one egg cell at the micropylar end, a central cell at the center and three antipodal cells at the chalazal end. Most antipodal cells are mononucleate or binucleate, only few are trinucleate. The embryonic development process contains four stages: globular embryo, heart-stage embryo, torpedo-stage embryo and mature embryo. The development of endosperm is cellular type.     

水稻雌性不育材料FS－1胚囊败育的细胞学观察

以水稻雌性不育材料FS－1为试验材料,采用石蜡连续切片技术对FS－1及其亲本藤坂5号幼穗发育中期的胚囊进行观察。结果表明：（1）亲本的胚囊都能正常发育分化,成为功能健全的雌配子体,而FS－1的胚囊却普通发生败育,在胚囊原来的区域充满了胚囊残迹和解体的珠心细胞。（2）败育基本上发生在功能大孢子发生期,近合点端的大孢子和珠孔端的三个大孢子都发生解体,实验中未发现二核,四核或八核的败育胚囊,我们初步认为,FS－1胚囊败育发生在功能大孢发生期。     

Embryological Studies of Codonopsis pilosula Nannf.

This paper reports the studies of megasporogenesis and microsporogenesis, development of female and male gametophytes, fertilization, and development of embryo and endosperm, The anther wall consists of four layers, i.e. epidermis, endothecium, middle layer and tapetum. Part of the tapetum cells originates from the primary parietal cells, and the other part comes from the basic tissue of the anther partition. Tapeta? cells are uninucleate or binucleate, and belong to the secretory type. Microsporocyte originates directly from the primary sporogenous cell, Cytokinesis is of the simultaneous type. Arrangement of microspores in tetrad is isobilateral. Mature pollen grain is of the 2-celled type. The ovary is tricarpellum, trilocular with many ovules. The ovule is mono-integinous, tenui-nucellar and anatropous. The embryo sac originates from the single-archesporial cell. The one chalazal megaspore in linear tetrad is the functional megaspore. The development of embryo sac is of the Polygonum type. Before fertilization, two polar nuclei fuse in to a secondary nucleus and the antipodal cells degenerate. Fertilization is porogamy, fusion of one sperm with secondary nucleus is faster than that of one sperm with egg nucleus. The development of endosperm is of the cellular type. The first three divisions of endosperm ceils are regular. Two endosperm cells near the ends of chalaza and the micropyle develop into haustorium without division. The haustoria gradually degenerate at the late stage of globular embryo. The mature seeds contain abundant endosperm. The development of embryo is of the Solanad type. The suspensor consists of 12–20 cells. The optimum development of the suspensor is at the early stage of the globular embryo. It begins to degenerate after late globular stage. The embryo develops from proembryo, heartshaped embryo, dicotyledenous- to mature embryo.     

水稻雌性不育材料FS-1胚囊败育的细胞学观察

以水稻雌性不育材料FS-1为试验材料,采用石蜡连续切片技术对FS-1及其亲本藤坂5号幼穗发育中期的胚囊进行观察,结果表明(1)亲本的胚囊都能正常发育分化,成为功能健全的雌配子体,而FS-1的胚囊却普遍发生败育,在胚囊原来的区域充满了胚囊残迹和解体的珠心细胞.(2)败育基本上发生在功能大孢子发生期,近合点端的大孢子和珠孔端的三个大孢子都发生解体,实验中未发现二核、四核或八核的败育胚囊,我们初步认为,FS-1胚囊败育发生在功能大孢子发生期.     

大花紫薇大小孢子的发生及雌雄配子体的发育

用石蜡切片法对不同发育时期的大花紫薇（Lagerstroemia speciosa）花朵进行解剖研究,探讨其大小孢子的发生及雌雄配子体的发育过程,结果发现：大花紫薇花药4室,花药壁由表皮、药室内壁、中层和腺质绒毡层构成,发育类型为双子叶型;小孢子四分体多为四面体型,偶见十字交叉型,胞质分裂为同时型;成熟花粉粒属于2-细胞型,具3孔沟,偶见败育现象;大花紫薇雌蕊具6~7心皮,子房6~7室,每室具多枚倒生胚珠,双珠被,厚珠心,大孢子4分体呈直线排列,近合点端大孢子发育为蓼型胚囊,成熟胚囊为7细胞8核。花粉及胚囊发育多数正常,大花紫薇可以作为优良的杂交母本;同时可以根据开花物候不同阶段花的形态特征,初步判断大花紫薇大、小孢子发生和雌、雄配子体的发育进程。     

鹤顶兰胚囊发育的超微结构观察

运用电子显微镜技术对鹤顶兰(Phaius tankervilliae(Aiton)BI.)胚囊发育过程中功能大孢子、二核胚囊、四核胚囊、成熟胚囊的超微结构进行观察,捕捉到了功能大孢子的三个阶段、成熟胚囊的两个阶段,进一步积累了鹤顶兰生殖生物学研究的基础资料.在功能大孢子、四核胚囊时期的合点端壁上可观察到胞间连丝,与体细胞间有物质及信息的交换,胚囊发育并非处于完全“隔离”状态.功能大孢子早期可见明显大液泡,随后进入第一次有丝分裂时大液泡消失,移向两极的染色体之间可见大量体积较小的液泡,成熟胚囊前期助细胞及卵细胞内也可见明显液泡,但当助细胞解体时,卵细胞内的大液泡也消失,液泡形态的变化可能是细胞生理状态发生改变的结果.     

Formation and Development of Different Types of Embryo Sacs in Polyembryonic Rice Strain APⅣ

The process of different types of embryo sac formation was studied in AP IV by using the technic of seni-thin sectioning. Different types of embryo sacs were formed by different ways of development. The embryo sac of 5-2-1 type, 6-2-0 type, and 5-3-0 type were formed through three respectively new Polygonum-variant ways of development. The factors causing the three different ways of development were positional change of functional megaspore nucleus, change of orientation of the dividing-spindle of the embryo sac nucleus, nonsynchronous division of embryo sac nucleus and orientation of nucleus after division. Double set of embryo sac resulted possibly from mutual change in position of the primordial low polar nucleus and the primordial egg cell, i. e. the polar nucleus did not move toward the center of the embryo sac, but remained in the micropyle part, whereas the egg cell moved to the center and replaced the low polar nucleus.     

Embryological Studies in Glycyrrhiza uralensis Fisch.

This paper reports the studies of overall embryology of Glycyrrhiza uralensis Fisch. Development of the anther wall follows the dicotyledonous type. The cytokinesis of the microspore mother cell in meiosis is of simultaneous type. The arrangement of microspores in tetrad is tetrahedral, isobilateral and decussate. Microspores have various types of abortive to development. Mature pollen grain is of the 2-celled type. The ovule is bitegminous, crassinucellate and campylotropous. The megaspore mother cell gives rise to unequal dyad and then linear tetrad. The chalazal megaspore, the second or the third megaspore towards the micropylar end are functional megaspore. The development of the embryo sac conforms to the Polygonum type. Mature embryo sac has various types of variation. The fertilization belongs to the premitotic type of syngamy. The development of most embryoes belongs to the Onagrad type. The development of the endosperm belongs to the nuclear type and the endosperm near the chalazal end develops into haustorium.