凹叶厚朴大、小孢子发生和雌、雄配子体发育的研究

凹叶厚朴花药四囊型,腺质绒毡层有1-2层细胞,小孢子形成时胞质分裂方式为修饰性同时型,小孢子四分体排列方式为左右对称型．成熟花粉粒为二细胞型。四分体和小孢子在发生时有不规则变形。子房单心皮,心皮腹面壁上着生2个胚珠,胚珠倒生型,厚珠心,双珠被;孢原细胞一个,并且自表皮下第2层细胞处分化。胚囊发育为单孢蓼型。凹叶厚朴的胚胎学特征与木兰科其它植物的胚胎学特征基本相同,属于较原始的被子植物胚胎类型。在凹叶厚朴大、小孢子发生和雌、雄配子体发育过程中存在部分败育现象。本文初步探讨了凹叶厚朴濒危的生殖生物学原因。     

凹叶厚朴大、小孢子发生和雌、雄配子体发育的研究

凹叶厚朴花药四囊型,腺质绒毡层有1-2层细胞,小孢子形成时胞质分裂方式为修饰性同时型．小孢子四分体排列方式为左右对称型,成熟花粉粒为二细胞型。四分体和小孢子在发生时有不规则变形。子房单心皮。心皮腹面壁上着生2个胚珠,胚珠倒生型,厚珠心,双珠被;抱原细胞一个,并且自表皮下第2层细胞处分化。胚囊发育为单孢蓼型。凹叶厚朴的胚胎学特征与木兰科其它植物的胚胎学特征基本相同,属于较原始的被子植物胚胎类型。在凹叶厚朴大、小孢子发生和雌、雄配子体发育过程中存在部分败育现象。本文初步探讨了凹叶厚朴濒危的生殖生物学原因。     

濒危物种灰叶胡杨的大孢子发生和雌配子体发育

用石蜡切片法对濒危物种灰叶胡杨的大孢子发生和雌配子体发育过程进行观察研究.结果显示,灰叶胡杨雌蕊由三心皮构成,侧膜胎座,胚珠为倒生型,有18～21列;发育早期的胚珠为双珠被,厚珠心;当外珠被发育至与内珠被处于同一水平时,内珠被便开始退化,故成熟胚珠为单珠被;孢原细胞1个,并且自表皮下2层处分化;大孢子母细胞由孢原细胞分裂后形成的造孢细胞直接发育而来;大孢子四分体直线形排列,合点端的大孢子为功能大孢子,蓼型胚囊;在胚囊发育过程中珠孔端的珠心组织退化.根据开花物候不同阶段花的形态特征,可以初步判断灰叶胡杨大孢子发生和雌配子体的发育进程.     

湖北双蝴蝶的胚胎发生

对湖北双蝴蝶大孢子发生、雌配子体形成、受精、胚及胚乳发育过程进行了解剖学观察研究.结果显示:(1)子房2心皮,1室-侧膜胎座,薄珠心,单珠被,倒生胚珠,胚珠列数为4列;大孢子母细胞减数分裂形成的4个大孢子多呈直线形排列,少数为"T"形四分体,合点端的大孢子具功能;胚囊发育为蓼型;3个反足细胞宿存至8-细胞原胚.(2)珠孔受精;胚乳发育为核型;胚发育为茄型.(3)果实成熟时,种子发育至球形胚阶段.     

濒危植物红花木莲大孢子发生和雌配子体发育的研究

研究了濒危植物红花木莲（Manglietia insignisBl)的大孢子发生和雌配子体的发育,红花木莲每朵花心皮数为48-73枚,每心皮内胚珠数4-8颗不等,多数是6颗或8颗,胚朱倒生,双珠被,厚珠心,大孢子四分体线形排列,功能大孢子位于合点端,胚囊发育为蓼型。胚珠具珠孔塞,成熟胚囊的卵细胞败育率高达79.1%。这是造成栽培红花木莲结籽率低的主要原因,较低的结籽率影响了红花木莲迁地保护的有效性。     

家榆胚胎学研究

采用常规石蜡切片法,借助光学显微镜对家榆胚胎发育进行研究,研究结果表明:(1)家榆的花药具4个药室;小孢子母细胞减数分裂过程中的胞质分裂为同时型;小孢子四分体排列为四面体型和左右对称型;成熟花粉为2-细胞型;(2)花药壁发育类型为双子叶型,腺质绒毡层;(3)家榆子房两心皮1室,侧膜胎座,1枚倒生胚珠,双珠被,厚珠心;四分体呈直线型和T型排列;(4)家榆胚囊类型为单孢子蓼型胚囊;胚的发育类型为茄型;核型胚乳;无胚乳型种子。     

金银忍冬雌雄配子体发育的解剖学研究

对金银忍冬(Lonicera maackii(Rupr.)Maxim)大、小孢子的发生和雌、雄配子体的发育过程进行了研究,结果表明:(1)4月上中旬,幼嫩的花粉囊壁由表皮、纤维层、中层和绒毡层共4层细胞组成,绒毡层类型为变形绒毡层。4月15日左右小孢子母细胞进行减数分裂形成四面体型四分体,四分体时期后,部分小孢子为空瘪状态。4月23-26日即将开花时形成三细胞型的成熟花粉。(2)子房三心皮,中轴胎座,胚珠倒生,单珠被,薄珠心。4月下旬开花前发育形成成熟胚囊,胚囊的发育为蓼型,合点端具有承珠盘。研究结果表明金银忍冬雌雄配子体的发育均属正常。     

马蹄香大小孢子发生及雌雄配子体形成

马蹄香（Ｓａｒｕｍａｈｅｎｒｙｉ,Ｏｌｉｖ．）花药壁的发育属双子叶型。花粉母细胞减数分裂为同时型,四分体主要为四面体形,少数为左右对称式排列。腺质绒毡层,其细胞可排列为不规则的两层,双核或多核。到单细胞花粉阶段,绒毡层细胞内切向壁上出现许多乌氏体。成熟花粉为２细胞型,圆球状,具单萌发沟。雌蕊６心皮,上部彼此分离、下部联合。倒生胚珠,双珠被,厚球心。胚囊发育蓼型。成熟胚囊为七细胞结构,但两个助细胞退化较早。     

柽柳大、小孢子发生和雌、雄配子体发育的观察

利用常规石蜡制片技术,对柽柳(Tamarix chinensis Lour.)的大、小孢子发生及雌、雄配子体发育过程进行了观察.主要结果如下:(1)花药壁由五层细胞组成,从外向内分别为表皮、药室内壁,两层中层和绒毡层.药壁的发育属于基本型.绒毡层为分泌型.(2)孢原细胞为多孢原起源.小孢子母细胞减数分裂过程中的胞质分裂为连续型,形成的四分孢子为四面体型;同一药室的小孢子母细胞减数分裂几乎完全同步.(3)成熟花粉粒为2细胞型,具3个萌发孔.(4)柽柳为三心皮构成的单室复子房,每子房具有10～20个胚珠,基底胎座,胚珠为双珠被、厚珠心、倒生型.大孢子母细胞减数分裂形成1 3排列的4个大孢子,4个大孢子全部参与胚囊的形成.(5)胚囊发育为贝母型,反足细胞在胚囊成熟时充分发育.(6)同一朵花中,前期雄蕊的发育早于雌蕊的发育,后期当花粉成熟时,雌配子体也达到成熟,雌雄蕊发育趋于同步.     

蚬木的大孢子发生与胚囊发育兼论蚬木属的系统亲缘

蚬木Excentrodendron hsienmu雌雄花在发育早期均有小孢子和大孢子的早期发育, 难以区分。蚬木子房5室, 具中轴胎座, 每室2胚珠; 胚珠倒生, 厚珠心, 双珠被, 成熟胚囊内珠被3层细胞, 外珠被3-4层细胞, 内外珠被共同形成之字形珠孔; 单细胞孢原, 大孢子四分体主要为线形, 稀为T形, 通常合点端大孢子为功能大孢子, 胚囊为蓼型; 在大孢子发生和胚囊发育时期有退化现象, 成熟胚囊时期退化率和种子退化率分别达88%和91%。蚬木属Excentrodendron在内外珠被层数上与柄翅果属Burretiodendron明显不同, 也与翅子树属Pterospermum、非洲芙蓉族Dombeyeae不同。蚬木属与柄翅果属的分离一直没有得到广泛接受, 但胚胎学证据支持蚬木属的建立; 与广义锦葵科Malvaceae s.l.其他属胚胎学资料的比较表明, 蚬木属在广义锦葵科中较孤立。     

利用激光扫描共聚焦显微术对同源四倍体水稻胚囊形成与发育的进一步观察

应用改进的整体染色透明激光扫描共聚焦显微术(WCLSM),对同源四倍体水稻PDER-2B-4x胚囊的形成与发育过程进行观察。发现其胚囊的形成发育过程与二倍体的一致,可以清楚地划分为8个发育时期,即孢原细胞形成期、大孢子母细胞形成期、大孢子母细胞减数分裂期、功能大孢子形成期、单核胚囊形成期、胚囊有丝分裂期、八核胚囊发育期和成熟胚囊期。除正常发育的过程外,大孢子发育的各个过程均出现一些异常现象,包括:细胞退化、核位置异常、核数目异常和细胞分化异常等。这些异常可能最终导致多种结构异常成熟胚囊的形成。     

Embryonic stem cells alone are able to support fetal development in the mouse

The developmental potential of embryonic stem (ES) cells versus 3.5 day inner cell mass (ICM) was compared after aggregation with normal diploid embryos and with developmentally compromised tetraploid embryos. ES cells were capable of colonizing somatic tissues in diploid aggregation chimeras but less efficiently than ICMs of the same genotype. When ICM in equilibrium with tetraploid and ES in equilibrium with tetraploid chimeras were made, the newborns were almost all completely ICM- or ES-derived, as judged by GPI isozyme analysis, but tetraploid cells were found in the yolk sac endoderm and trophectoderm lineage. Investigation of ES contribution in 13.5 day ES in equilibrium with tetraploid chimeras by DNA in situ hybridization confirmed the complete tetraploid origin of the placenta (except the fetal blood and blood vessels) and the yolk sac endoderm. However, the yolk sac mesoderm, amnion and fetus contained only ES-derived cells. ES-derived newborns failed to survive after birth, although they had normal birthweight and anatomically they appeared normal. This phenomenon remains unexplained at the moment. The present results prove that ES cells are able to support complete fetal development, resulting in ES-derived newborns, and suggest a useful route for studying the development of genetically manipulated ES cells in all fetal lineages.     

Primitive lymphohematopoietic precursor cell lines generated in culture from day 7 early-mid-primitive streak stage mouse embryo.

During mouse development, the first lymphohematopoietic precursor cells and myeloid or erythroid cell lineage-determined cells can be detected in the yolk sac at days 8-8.5 of gestation. The characteristics of the cells that give rise to these yolk sac primitive lymphohematopoietic cells and the molecular events controlling this process remain poorly defined. We show here that cell suspensions from day 7 early-mid-primitive streak stage embryo proper generated early immature PgP-1+ Joro 177+ Lin- hematopoietic cells and some Mac-1+ myeloid and TER 119+ erythroid cells after co-culture with the yolk sac-derived stromal cell line YS6 without addition of exogenous cytokines. Purified Lin- hematopoietic cells generated in these cultures did not express genes known to be transcribed at early stages of lymphoid, myeloid or erythroid cell differentiation and were able to give rise to T and B lymphocytes, myeloid cells and erythroid cells after appropriate further induction in vitro. Several cell lines were established in culture with a mixture of four cytokines from the PgP-1+ Joro 177+ Lin- cell population. The cell lines shared phenotypic and genotypic characteristics with the PgP-1+ Joro 177+ Lin- cell population generated in culture from day 7 embryo proper and they were able to reconstitute the lymphohematopoietic system of irradiated mice. Taken together these results support a model of lymphohematopoiesis in which cells from day 7 early-mid-primitive streak mouse embryo proper migrate and colonize the visceral yolk sac. There they generate primitive lymphohematopoietic precursor cells and the first erythroid and myeloid hematopoietic cells under the influence of yolk sac stromal cells like the YS6 cells described here.     

Effect of parental feeding activity on squab-induced crop sac growth in ring doves (Streptopelia risoria)

Effects of parental regurgitation feeding activity on crop sac development were studied in mate-separated male and female ring doves given 2 hr of daily exposure to food-deprived or recently fed squabs, for 4 consecutive days during the early posthatching period of the breeding cycle. In both sexes, food-deprived squabs stimulated more squab-directed activity, more parental regurgitation feeding activity, and greater crop sac development than recently fed young. Crop sac weights of males in both groups tended to be positively correlated with one or more parental activities. Correlations obtained in males exposed to food-deprived young further suggested that tactile stimuli associated with regurgitation behavior may promote crop sac development. In contrast to males, crop sac weights of females in both groups were not highly correlated with any type of contact-related parental activity or group of activities. These results, together with previous findings, suggest that nontactile stimuli from young played some role in mediating female crop sac weight differences in the two exposure conditions.     

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。     

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...     

Embryonic macrophages of early rat yolk sac: Immunohistochemistry and ultrastructure with reference to endodermal cell layer

Macrophages are multifunctional cells that participate in numerous biological processes; they actively phagocytose foreign particles and cell debris. Embryonic tissue macrophages are present at early stages of mammalian development; their ontogeny and function is still under investigation. Our study used immunohistochemistry and electron microscopy to investigate early rat yolk sac macrophages using mouse antirat macrophage monoclonal antibodies (mAb) Mar 1 and Mar 3 produced by our laboratory. Mar 3 mAb revealed the first emergence of immature macrophages in the rat yolk sac at fetal day nine coinciding with the beginning of yolk sac haemopoiesis that consisted mainly of erythropoiesis, while Mar 1 mAb detected specifically rat yolk sac macrophages at about the 13th to 14th day of gestation. Immunoreactivity against Mar mAbs was mainly located in the yolk sac endodermal cell layer, which may signify endodermal origin of the yolk sac macrophages. Ultrastructurally mature yolk sac macrophages contained numerous endocytic vesicles or vacuoles, well-developed Golgi saccules and many electron dense granules in their cytoplasm and a number of microvillous projections from the cell surface. After establishment of the circulation between yolk sac and embryo, Mar 3 positive cells were also demonstrated inside fetal undifferentiated mesenchymal tissue at fetal day 12. The study demonstrated the first emergence of immature yolk sac macrophages being among the earliest haemopoietic cells formed in mammalian development. Thus, Mar mAbs managed to detect macrophage differentiation antigens through their development early in the rat yolk sac.     

鹤顶兰胚囊发育过程中微管变化的共焦显微镜观察

光镜的观察确定了鹤顶兰（Ｐｈａｉｕｓ ｔａｎｋｅｒｖｉｌｌｉａｅ （Ａｉｔｏｎ） Ｂｌ．）胚囊发育属单孢子蓼型。应用免疫荧光标记技术及共焦镜观察了胚囊发育过程中微管分布的变化。当孢原细胞初形成时,细胞内的微管呈网状分布。之后,孢原细胞体积增大发育为大孢子母细胞。大孢子母细胞延长,进入减数分裂Ⅰ。微管由分裂前的网状分布变为辐射状排列。二分体的两个细胞内的微管分布一样,呈辐射状。四分体的近珠孔端的３ 个大孢子解体,细胞内的微管消失。靠合点端的功能大孢子内有许多微管呈网状分布。当功能大孢子进入第一次有丝分裂时,细胞内的微管由网状变为辐射状,从核膜伸展至周质。再经两次有丝分裂形成八核胚囊。在核分裂之前微管一般是呈网状分布并紧包围着核。在分裂期间二核和四核胚囊都呈极性现象,微管系统也呈极性分布。微管在八核胚囊内的分布变化情形特别复杂。首先,八核分别作不同程度的移动,其中两个核移向胚囊中央,珠孔端和合点端的３ 个核分别互相靠拢,形成３ 个区,即中央区、反足区和卵器区。胚囊未形成区时,８ 个核都被网状分布的微管包围着。当胚囊明显分成区时,反足区内的微管仍作网状分布。中央区的微管分布则趋疏松,形成篮形结构,包围着液泡和两个极核。在     

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。     

水稻中央细胞发育期间超微结构变化的观察

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