利用胚胎干细胞分化的拟胚体研究小鼠早期胚胎发育过程

小鼠胚胎干细胞(ES细胞)具有分化的全能性已经得到广泛共识。ES细胞在体外分化所形成的拟胚体在结构上能够模仿早期胚胎发育过程,包括在内细胞团表面形成内胚层、柱状上皮细胞的分化,以及中央空腔的形成。本文介绍利用拟胚体研究小鼠早期胚胎发育过程中各个胚胎阶段的发育、细胞程序性死亡的发生及TGF-β信号在胚胎发育过程中的作用。     

生长素在植物胚胎早期发育中的作用

有性生殖是有花植物的一个重要特征, 胚胎则是实现有性生殖和世代交替的重要载体。植物胚胎从双受精开始, 经历了合子极性建立、顶基轴形成、细胞层分化和器官形成等过程, 这些过程都受到生长素的调控。近年来的研究表明, 生长素在生物合成、极性运输和信号转导3个层面上调控胚胎的发育过程。该文以双子叶植物拟南芥(Arabidopsis thaliana)为例, 综述了生长素对胚胎早期发育过程, 包括合子极性和顶基轴建立、表皮原特化和对称模式转变、胚根原特化和根尖分生组织形成及茎尖分生组织形成等发育的调控机制。     

华山新麦草胚和胚乳的发育研究

采用常规石蜡切片法,观察了华山新麦草胚和胚乳的发育过程,结果表明,华山新麦草胚和胚乳的发育过程与一般禾本科植物基本相同,胚胎发生属紫宛型,顶细胞和基都参与胚体的形成,胚胎发育经过二细胞原胚,多细胞原胚,球形原胚,梨形原胚,分化胚和成熟胚阶段,成熟胚具有胚根,胚芽,盾片,胚牙鞘,胚根鞘,外胚叶等典型禾本科植物成熟胚的结构,胚乳发育类型为核型,包括游离核阶段,细胞化阶段和生长成熟阶段,待大量游离核形成之后才形成细胞壁,紧贴胚囊的一层胚乳细胞最后形成种子的糊粉层,其余的胚乳细胞最后充满淀粉粒,其特点为：（1）有双球形原胚的现象;（2）反足细胞解体较早;（3）胚乳游离核时期和细胞时期胚乳细胞核的核仁多样。     

小鼠和人类生殖干细胞形成、特化和维持

哺乳动物胚胎植入子宫后,随着原肠运动的发生,胚胎开始向三个胚层分化,同时生殖细胞开始形成和特化。胚胎最早期的生殖细胞被称为原始生殖细胞(primordial germ cell, PGC),雌雄原始生殖细胞增殖并迁移到生殖嵴,持续增殖后分别进入减数分裂前期和有丝分裂阻滞,分化形成卵原细胞和精原干细胞,经过复杂的发育过程分化形成卵母细胞和精子。该文回顾了小鼠和人类的原始生殖细胞的形成和特化过程,并且对小鼠和人类精原干细胞的分子特征和体外培养体系进行了总结。     

基因表达谱分析牛早期胚胎发育过程的调控机理

早期胚胎的死亡会给畜牧业的发展带来巨大的经济损失, 特别是对于母牛生产来说更是如此, 因此研究早期胚胎发育过程具有极为重要的价值。文章从公共数据库GEO中选取了关于牛早期胚胎发育过程的一套基因表达谱数据, 通过显著性分析及聚类分析来研究牛早期胚胎发育过程中不同时期的基因组表达模式。结果表明: 整个牛早期胚胎发育过程大致可划分为3组不同的基因组表达模式阶段; 同时, 差显基因在不同时期表达量的波动情况表明8-细胞期和16-细胞期在牛的整个早期胚胎发育过程的重要性。另外, 通过进一步的功能注释和通路分析表明在牛胚胎早期发育不同阶段时期存在着一些重要因子及相关通路。     

植物胚胎发生基因调控的研究进展

植物胚胎发生是指单细胞的受精卵经过一系列受控的细胞分裂和分化,发育为成熟的多细胞种胚的过程,也是一个基因有序的选择性表达调控的过程。主要从胚胎发生的3个时期即原胚期——极性建成、球形胚-心形胚过度期——区域形态建成、器官形成与成熟期——分生组织形成及发育等方面对基因调控的研究进展作一简要综述。     

植物的生殖讲座（七）：——被子植物胚胎发生及发育

简述了被子植物胚胎发生及发育的基本过程及近年来的某些研究进展,介绍了合子形成,原胚,胚的分化成熟阶段的基本特征,胚柄的分化发育,胚柄细胞的特点及胚柄的功能等,还介绍了胚胎发生中的生理生化变化及近年来取得较快进展的贮藏蛋白的合成,在植物发育中的变化及基因表达等。     

多胚发育寄生蜂腰带长体茧蜂在寄主亚洲玉米螟幼虫体内的发育

多胚发育的幼虫内寄生蜂腰带长体茧蜂Macrocentrus cingulum的卵、胚胎和幼虫在寄主亚洲玉米螟Ostrinia furnacalis幼虫血腔内发育,通常1枚卵可以分裂增殖为数百只胚胎。本文通过定时解剖寄生的寄主幼虫,初步了解了腰带长体茧蜂多胚的形成过程及其在寄主体内的发育情况。结果表明：以4龄末期亚洲玉米螟幼虫为寄主时,寄生蜂卵产入寄主体内10 min左右开始卵裂,1天左右,初级胚胎从卵壳中被释放出来。之后胚胎在胚外膜内持续分裂产生大量二级胚胎形成桑葚胚。寄生后3天左右,二级胚胎从胚外膜中被释放出来,进入胚胎发育阶段。寄生后6天左右,胚胎进入胚带形成阶段。寄生后8天左右,胚带伸长,头尾形成。寄生后9天左右,身体分节完成,部分幼虫孵化,蜕去胚外膜。寄生后13天左右,蜂幼虫从寄主体内啮出。胚胎在发育初期体积变化不大,但从胚带形成开始,体积则迅速增大。腰带长体茧蜂与另一多胚发育寄生蜂佛州点缘跳小蜂Copidosoma floridanum在胚胎发育进程上明显不同,体现了它们对各自寄主的适应。     

哺乳动物早期胚胎发育的体外研究

哺乳动物胚胎发育起始于受精卵,受精卵依次形成桑椹胚和囊胚.同时,早期胚胎从输卵管迁入子宫,植入母体子宫后通过原肠运动形成原肠胚并进一步发育为新生个体.哺乳动物体内生命孕育方式造成研究取材和观察等方面的困难,阻碍了人类对哺乳动物胚胎发育过程的认识.因此,必需开发哺乳动物体外胚胎技术,以克服体内发育方式所带来的研究困难.2...     

防风体细胞胚发生和发育的组织学研究

采用石蜡切片和半薄切片法研究组织培养中防风体细胞胚发生和发育的形态和结构特征,以了解体细胞再生形成胚胎结构的细胞分化和形态发生特征。结果表明:(1)胚性细胞内含有丰富的淀粉体,随细胞分裂和分化逐渐减少;(2)体细胞胚的发生发育经历了类似合子胚的各阶段;(3)多细胞原胚形成的分裂方式以平周分裂为主,并由此表现出有序生长;(4)在体细胞胚迅速发育过程中,不同阶段的体细胞胚始终与周围细胞存在明显界限;(5)胚柄发育不明显;(6)畸形胚常见,其中连体胚是胚性细胞发生密度过高造成的,而次生胚则在原来胚的基础上又产生新的胚的发生中心。     

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.     

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。     

Closed embryo culture system improved embryological and clinical outcome for single vitrified-warmed blastocyst transfer: A single-center large cohort study

While some studies have shown that the closed embryo culture system (CCS) is a possible improvement over standard embryo culture systems (STS) in terms of early embryonic development, information on clinical outcomes of culturing blastocysts following single vitrified-warmed blastocyst transfer (SVBT) in the CCS and STS remains limited. Therefore, the objective of this single-center, large-cohort, retrospective study was to compare embryonic development until the blastocyst stage and clinical outcomes following SVBT between CCS and STS. From May 2017 to October 2018, 2420 oocytes from 1402 patients who underwent in vitro fertilization and blastocyst culture after minimal stimulation were divided into two groups (CCS and STS). The main outcome measures in the two groups were embryological (blastocyst formation rates and utilized blastocyst rates) and clinical outcomes (ongoing pregnancy rates) after a single vitrified-warmed blastocyst transfer (SVBT). There were no significant differences in the blastocyst formation rates between the CCS and STS groups (59.6% versus 59.1%, p = 0.81). However, there were significant differences in utilized blastocyst rates (51.0% versus 46.6%, p < 0.05). Ongoing pregnancy rates per SVBT cycle were significantly higher in the CCS group than in the STS group (41.4% versus 34.4%, p < 0.05). Moreover, after applying multivariable logistic regression analysis, the type of embryo culture system (CCS to STS, adjusted odds ratios: 1.41, 95% CI: 1.04–1.91) was correlated with ongoing pregnancy. Our study suggests that compared to STS, CCS could improve utilized blastocyst rates and ongoing pregnancy rates to a greater extent, following SVBT.     

A role of trophoblastic cells in regulation of mouse blastocyst survival in vitro after microinjection and osmotic stress

We have evaluated the morphology of the mouse preimplantation embryos at developmental stages from morula to late blastocyst after two different impacts: microinjection of modified Witten’s medium and osmotic stress in physiological osmolarity (310 mOsM), in 5% glucose (560 mOsM) at high concentration of NaCl (614 mOsM). Results of our research showed that these stresses caused similar changes in embryo morphology: volume was reduced followed by its recovery in culture medium (osmolality was less than a physiological value, 260 mOsM). The ability of embryos to recover the volume and morphology up to the initial level depends on a stage of embryo development and consequently competence of TB cells. In this study it was revealed that a key role in regulation of volume homeostasis after microinjection and after short-time (30–60 min) osmotic stress belongs to TB cells. Both physical effects induce the further embryo development in vitro up to the formation of primary colonies of embryonic and trophoblastic cells. These data could be used to develop the morphological criteria for a prediction of blastocyst-stage embryonic implantation potential.     

Cellular Basis of Neuralization of Induced Neurectoderm in Amphibian Embryogenesis: Changes of Cell Shape, Cell Size, and Cytodifferentiation of the Neurectoderm after Neural Induction

Cellular alterations of the neurectoderm after primary embryonic induction were examined by measuring several indices of shape, volume, and cytodifferentiation of the neurectodermal cells of Cynops embryos during gastrulation and early neurulation.
Results showed that cellular alterations occurs just after the 18 hr embryo stage (stage 13b). The thickness of the neurectoderm layer decreases like that of the epidermal ectoderm during early and middle gastrulation. After the 18 hr embryo stage, however, the neurectoderm thickens, mainly due to formation of columnar cells. Measurement of cell volume indicates that the neurectoderm of the early and middle gastrulae consists of a cell population of heterogeneous size. The heterogeneity diminishes sharply after the 18 hr embryo stage and the neural plate of the 36 hr embryo (stage 18) consists of cells of homogeneous size.
Stages before the 12 hr embryo (stage 12b) and after the 18 hr embryo (stage 13b) also showed differed in cell adhesion to the culture flask and in cytodifferentiating potency. Single cells dissociated from the neurectoderm of 18 hr embryos could adhere to the substratum and differentiate into both nerve-like cells and pigment cells. Both capacities increase during further development.
These results are discussed in relation to the neuralizing determination of neurectoderm after primary embryonic induction.     

低氧对斑马鱼胚胎心脏和血管发育及相关基因表达的影响

研究以斑马鱼(Danio rerio)为研究模型,选择心脏和血管荧光标记的2个品系斑马鱼为实验材料,设定低氧和常氧2种水体溶氧条件,用荧光显微镜检测低氧胁迫对胚胎形态结构、心脏和血管外部形态、心率、胚胎躯干部主要血管形成的影响.研究发现低氧导致胚胎存活率低于常氧.低氧不仅滞后胚胎发育,而且造成胚胎形态异常.低氧胁迫后斑...     

In vivo electroporation in the embryonic mouse central nervous system

This protocol describes a basic method for in vivo electroporation in the nervous system of embryonic mice. Delivery of electric pulses following microinjection of DNA into the brain ventricle or the spinal cord central canal enables efficient transfection of genes into the nervous system. Transfection is facilitated by forceps-type electrodes, which hold the uterus and/or the yolk sac containing the embryo. More than ten embryos in a single pregnant mouse can be operated on within 30 min. More than 90% of operated embryos survive and more than 90% of these survivors express the transfected genes appropriately. Gene expression in neurons persists for a long time, even at postnatal stages, after electroporation. Thus, this method could be used to analyze roles of genes not only in embryonic development but also in higher order function of the nervous system, such as learning.     

Activation of avian embryo formation by unfertilized quail germ discs: comparison with early amphibian development

In the present study we placed germ discs (or fragments containing the deep central part of it) from unfertilized laid or extracted quail eggs on the deep side of the upper layer of isolated anti-sickle regions from unincubated chicken blastoderms. After culture in vitro of associations where the central deep part of the germ discs was in contact with the deep side of the upper layer (UL), we observed in about 30% of the cases the onset of embryonic development. Both associated parts play a role in the final formation of an embryo. Our experimental results, suggest that the delta ooplasm of the nucleus of Pander influences the cranial upper layer to segregate an endophyll layer. The definitive embryonic structures i.e. mesoderm, epiblast and neural plate are derived from the chicken upper layer by respectively normal gastrulation and (pre)neurulation phenomena. Our experiments seem to have some homology with the association experiments of isolated cortices from various regions of unfertilized Xenopus eggs implanted into the ventroequatorial core of a recipient 8-cell Xenopus embryo.     

Somatic Embryogenesis in Cell Suspension Culture of Saposhnikovia divaricata

Calli of Saposhnikovia divaricata (Turcz.) Schischk. were induced from the roots of test tube seedlings cultured on MS medium containing 0.5 mg/L 2,4-D. Cell suspension was established by shaking the caul in liquid medium of the same components supplemented with 10% coconut milk. After the formation of embryogenic clusters, 2,4-D was omitted promoting the transformation of the embryogenic clusters to somatic embryos. Micro and submicroscopic: structural changes during the single cell to globular embryonic stage were observed. It was noticed that cortical endoplasmic reticulum appeared in the cells at the stage of embryogenic clump formation but was absent in other stages. Perhaps this was related to the metabolic specification leading to embryo formation. Spherosomes were observed of embryogenesis but remarkably increased in number at proglobular embryo stage. Meanwhile, the central electric dense matrix became progressively smaller and paler, while the outer part became enlarged and more transparent. This implied that the spherosomes took part in the storage of proteins or lipidproteins in the early stages of embryogenesis and transformation to lipid dror)s when the proteins were exhausted in the development of embryo, vacuolar protein bodies could be risualized in many cells in the proglobular embryo stage. This together with the existance and changes of spherosomes was similar to that observed in Peucedanum terebmthaceum. Further studies are meritted to approach, whether these are general phenomena in Umbelliferae. This work also revealed that the aggregation of single cells in suspension culture stimulated the initiation of embryogenesis.