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1.
目的:根据早期胚胎不同发育阶段的营养需求设计体外培养体系,以建立适于山羊早期胚胎体外发育的序贯培养方法。方法:对屠宰场来源山羊卵巢卵母细胞进行体外成熟和体外受精后移入添加不同胚胎发育影响因子的培养体系中进行体外培养,显微镜观察、统计各阶段胚胎发育情况,并对培养的胚胎进行移植。结果:BSA和EGF对山羊体外受精卵具有明显促卵裂作用,培养系统中添加EGS、EGF、HTAU或p—Me可有效支持8-细胞期山羊胚胎克服发育阻滞而提高桑葚胚发育率;在不同胚胎期添加各发育影响因子进行序贯培养的卵裂率、≥8-细胞率和桑葚胚发育率分别为45.2%、60.6%和23.4%,序贯培养的胚胎移植后产羔率为11.1%。结论:宜根据早期胚胎各时期代谢特点和营养需求对山羊胚胎进行序贯培养。  相似文献   

2.
人-山羊异种核移植胚胎发育的初步研究   总被引:2,自引:0,他引:2  
以体外分离培养的人胚胎成纤维细胞为核供体,经血清饥饿培养后,通过显微操作技术移入山羊去核卵母细胞中,采用化学方法激活重组胚.通过体外培养观察,2-细胞胚胎发育率可达51.33%,4-细胞发育率为31.42%,但发育至桑椹胚阶段的胚胎数目大大减少,仅为9.73%.虽然目前尚未能获得异种核移植囊胚,但实验结果说明山羊成熟卵母细胞可以支持人体细胞核完成重编程,人-山羊异种体细胞核移植重组胚可在体外完成其早期发育.  相似文献   

3.
胸腺肽-β4(thymosin-β4,Tb4)是一种重要的 G-actin遮蔽因子(G-actin sequestering factor),在细胞微丝活动中有着调节G-actin活性的作用. 以往报道证实了Tb4在细胞中具有广泛的生理作用,但其在哺乳动物卵母细胞成熟和早期胚胎发育等方面的作用,迄今还没有系统的研究报道. 以昆明白小鼠卵巢、卵母细胞和早期胚胎作为实验材料,以免疫( 荧光) 组织化学和RT-PCR技术为主要研究方法,对Tb4的表达与分布进行了研究. 结果显示,Tb4在相关发育过程中,存在差异性的表达和定位变化.结果表明,在小鼠卵母细胞成熟和早期胚胎的发育过程,Tb4能够通过表达与分布的变化对细胞微丝活动和细胞增殖活动进行调控,对小鼠卵母细胞成熟、早期胚胎发育以及胚胎着床过程有重要的作用.  相似文献   

4.
小鼠胚胎体外发育培养基中氨基酸含量变化   总被引:1,自引:0,他引:1  
通过检测哺乳动物早期胚胎体外发育过程中可以消耗或生成某些氨基酸的含量,可以了解胚胎的发育潜能。利用反相高效液相色谱法(RP-HPLC)检测KSOMaa培养基中17种氨基酸含量的变化,了解昆明小白鼠(Mus musculus)植入前胚胎体外培养过程中氨基酸含量的变化,旨在寻找一种能有效支持昆明小鼠胚胎体外发育的培养基氨基酸组成,优化小鼠胚胎体外培养体系。将180枚原核胚分为9组,体外培养至囊胚,分别于胚胎发育不同时期取样做高效液相色谱分析。这些氨基酸在胚胎发育不同时期的培养基中含量变化可分为5种类型:①在2细胞期增加但在4细胞期、8~16细胞期减少,囊胚期又增加的氨基酸(甘氨酸、亮氨酸、苏氨酸、缬氨酸、苯丙氨酸、酪氨酸);②在胚胎发育各个时期均下降(谷氨酸、甲硫氨酸、精氨酸、组氨酸);③在胚胎发育各个时期均增加(丝氨酸、赖氨酸、丙氨酸);④2细胞期含量减少而在其他时期持续增加(天冬氨酸、脯氨酸、色氨酸);⑤囊胚期减少,其他时期都有增加(异亮氨酸)。  相似文献   

5.
利用小鼠抗5-甲基胞嘧啶(5MeC)单克隆抗体检测了体外培养小鼠四倍体早期胚胎的基因组甲基化模式。结果表明: 利用电融合方法制备的小鼠四倍体胚胎在体外培养体系中经历细胞质融合、细胞核融合及细胞继续分裂发育直到囊胚期的过程, 在细胞质融合的时候胚胎卵裂球同体内体外培养二倍体胚胎一样, 呈现高度甲基化状态; 在细胞核开始融合的时候, 甲基化水平急速下降, 在细胞核完全融合的时候甲基化水平达到最低点; 随着胚胎继续分裂, 胚胎甲基化水平逐渐增加, 在桑葚胚期甲基化水平最高; 但是囊胚期四倍体胚胎内细胞团同滋养层细胞甲基化荧光信号没有差别, 这与体内体外培养二倍体囊胚内细胞团细胞甲基化荧光强度高于滋养层细胞甲基化荧光强度不同。因此, 小鼠体外培养四倍体胚胎的甲基化模式是不正常的, 这可能是四倍体小鼠难以发育到妊娠足月的原因之一。这是对小鼠四倍体早期胚胎基因组甲基化模式的首次报道。  相似文献   

6.
该研究通过免疫组化和QRT-PCR等方法系统分析了Gas6(growth arrest-special gene 6)基因在猪卵泡发生及早期胚胎发育过程中的表达规律,并提出了一种改良猪卵母细胞体外成熟系统的方法。研究结果显示,Gas6基因表达于猪卵巢中的卵母细胞细胞核及其周围的卵丘细胞,在卵母细胞体外成熟及早期胚胎发育过程中始终有表达,且在囊胚中表达最高。Gas6 mRNA在卵母细胞成熟过程中始终存在,但在孤雌激活后迅速消失,直到发育到囊胚时再次出现。在猪卵母细胞体外培养系统中添加不同浓度的Gas6重组蛋白培养卵母细胞,发现添加Gas6重组蛋白对卵母细胞的极体率无显著影响;但是当添加浓度为100 ng/mL时,培养的卵母细胞孤雌激活后分裂率、囊胚率及囊胚细胞数都显著增高。Gas6可能是通过改善卵母细胞细胞质的成熟质量提高卵母细胞的发育潜能,从而获得了更多、更好的胚胎。  相似文献   

7.
小鼠胚胎体外培养条件的研究   总被引:1,自引:1,他引:0  
为了探讨小鼠胚胎在体外发育过程中的最佳方案,我们将从超排昆明小鼠取出的543枚受精卵经过不同的培养液(M16、M16+OEC、Glu-FreeM16和Glu-FreeM16+OEC)及不同的培养微环境处理后,观察胚胎体外发育的过程。结果表明,葡萄糖在胚胎发育早期(2细胞期)有比较明显的发育阻断作用,同种输卵管上皮(OEC)共同培养能够有效地抑制这种阻断作用;葡萄糖对胚胎8-16细胞期及以后阶段的发育具有十分重要的作用,而此时OEC的作用则不明显;除了葡萄糖外,在早期可能还有其它一些象磷酸盐、重金属离子的物质也能起胚胎发育阻断作用。同时还发现培养微环境的稳定也是胚胎发育的重要保证条件,石蜡油的封盖能够保持某种特定微环境而支持胚胎的体外发育。  相似文献   

8.
胸腺肽-β4(thymosin-β4,Tb4)是一种重要的G-actin遮蔽因子(G-actin sequestening factor),在细胞微丝活动中有着调节G-actin活性的作用.以往报道证实了Tb4在细胞中具有广泛的生理作用,但其在哺乳动物卵母细胞成熟和早期胚胎发育等方面的作用,迄今还没有系统的研究报道.以昆明白小鼠卵巢、卵母细胞和早期胚胎作为实验材料,以免疫(荧光)组织化学和RT-PCR技术为主要研究方法,对Tb4的表达与分布进行了研究.结果显示,Tb4在相关发育过程中,存在差异性的表达和定位变化.结果表明,在小鼠卵母细胞成熟和早期胚胎的发育过程,Tb4能够通过表达与分布的变化对细胞微丝活动和细胞增殖活动进行调控,对小鼠卵母细胞成熟、早期胚胎发育以及胚胎着床过程有重要的作用.  相似文献   

9.
雌性生殖细胞发育是动物繁殖的基石,哺乳动物卵母细胞和早期胚胎在其生长发育过程中有许多独特的现象和规律,涉及一系列蛋白质合成/降解和磷酸化等状态的动态改变。对卵母细胞分裂、成熟调控机理以及植入前胚胎发育规律的研究是发育生物学领域的一项重要课题。蛋白质组学是以细胞或组织内全部的蛋白质为研究对象,系统鉴定、定量蛋白质并研究这些蛋白质功能的科学。随着蛋白质分离、鉴定技术的快速发展,蛋白质组学为卵母细胞发生、分化、成熟以及质量控制等相关研究提供了新的方法和内容,如在蛋白质定量、修饰、定位和相互作用等方面提供其他组学技术不可获得的重要信息。这些信息将有助于揭示哺乳动物卵母细胞成熟和早期胚胎发育的分子机制,对于进一步完善卵母细胞的体外成熟培养体系,提高胚胎体外生产、体细胞克隆和转基因动物生产效率具有重要意义。  相似文献   

10.
5-脱氧杂氮胞苷抑制小鼠附植前的胚胎发育   总被引:1,自引:0,他引:1       下载免费PDF全文
DNA甲基化在哺乳动物发育过程中有关键作用.在小鼠附植前胚胎发育过程中,DNA甲基化一直处于动态变化过程中.通过将体外受精胚在5-AZA-CdR中持续培养,研究5-AZA-CdR对小鼠附植前胚胎发育的影响,为附植前胚胎发育机理的研究及5-AZA-CdR的毒副作用研究提供试验基础.从原核期加入不同浓度的5-AZA-CdR时,胚胎不能发育到桑椹胚(0.2 和1.0 μmol/L)和4-细胞胚(5.0 μmol/L);从2-细胞期加入时,胚胎阻滞于未致密化的8-细胞(0.2 和1.0 μmol/L)和3/4-细胞期(5.0 μmol/L);而当从4-细胞加入时,虽然胚胎能够发育到早期桑椹胚,但发育比例同对照相比显著降低(P < 0.05).进一步检测凋亡、基因组DNA甲基化和整体转录活性,结果显示,高浓度的5-AZA-CdR导致8-细胞和早期桑椹胚发生早期凋亡,而低浓度的5-AZA-CdR引起8-细胞和早期桑椹胚基因组DNA甲基化的降低和转录活性的降低,并且这种降低呈浓度依赖性.所以加入低浓度的5-AZA-CdR时,胚胎的DNA甲基化降低,引起转录活性的降低,进而导致胚胎发育的停滞.  相似文献   

11.
Peng H  Chang B  Lu C  Su J  Wu Y  Lv P  Wang Y  Liu J  Zhang B  Quan F  Guo Z  Zhang Y 《PloS one》2012,7(1):e30344
  相似文献   

12.
In the present study, we examined the developmental ability of enucleated zygotes, MII oocytes, and parthenogenetically activated oocytes at pronuclear stages (parthenogenetic PNs) as recipient cytoplasm for rat embryonic cell nuclear transfer. Enucleated zygotes as recipient cytoplasm receiving two-cell nuclei allowed development to blastocysts, whereas the development of embryos reconstituted with MII oocytes and parthenogenetic PNs was arrested at the two-cell stage. Previous observations in rat two-cell embryos suggested that the distribution of microtubules is involved in two-cell arrest. Therefore, we also examined the distribution of microtubules using immunofluorescence. At the two-cell stage after nuclear transfer into enucleated zygotes, microtubules were distributed homogeneously in the cytoplasm during interphase, and normal mitotic spindles were observed in cleaving embryos from the two- to four-cell stage. In contrast, embryos reconstituted with MII oocytes and parthenogenetic PNs showed aberrant microtubule organization. In enucleated zygotes, fibrous microtubules were distributed homogeneously in the cytoplasm. In contrast, dense microtubules were localized at the subcortical area in the cytoplasm and strong immunofluorescence intensity was observed at the plasma membrane, while very weak intensity was detected in the central part of enucleated MII oocytes. In enucleated parthenogenetic PNs, high-density and fibrous microtubules were distributed in the subcortical and central areas, respectively. Pre-enucleated parthenogenetic PNs also showed lower intensity of microtubule immunofluorescence in the central cytoplasm than zygotes. In conclusion, the results of the present study showed that zygote cytoplasm is better as recipient than MII oocyte and parthenogenetic PNs for rat two-cell embryonic cell nuclear transfer to develop beyond four-cell stage. Furthermore, microtubule organization is involved in the development of reconstituted embryos to overcome the two-cell arrest.  相似文献   

13.
The mechanisms that mediate the establishment of totipotency during the egg-to-embryo transition in mammals remain poorly understood. However, it is clear that unique factors stored in the oocyte cytoplasm are crucial for orchestrating this complex cellular transition. The oocyte cytoplasmic lattices (CPLs) have long been predicted to function as a storage form for the maternal contribution of ribosomes to the early embryo. We recently demonstrated that the CPLs cannot be visualized in Padi6-/- oocytes and that Padi6-/- embryos arrest at the two-cell stage. Here, we present evidence further supporting the association of ribosomes with the CPLs by demonstrating that the sedimentation properties of the small ribosomal subunit protein, S6, are dramatically altered in Padi6-/- oocytes. We also show that the abundance and localization of ribosomal components is dramatically affected in Padi6-/- two-cell embryos and that de novo protein synthesis is also dysregulated in these embryos. Finally, we demonstrate that embryonic genome activation (EGA) is defective in Padi6-/- two-cell embryos. These results suggest that, in mammals, ribosomal components are stored in the oocyte CPLs and are required for protein translation during early development.  相似文献   

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We have used microinjection of antisense oligonucleotides, monoclonal antibody, and the dominant negative Ras N-17 mutant to interfere with Ras expression and function in mouse oocytes and early embryos. Microinjection of either ras antisense oligonucleotides or anti-Ras monoclonal antibody Y13-259 did not affect normal progression of oocytes through meiosis and arrest at metaphase II. However, microinjection of fertilized eggs with constructs expressing Ras N-17 inhibited subsequent development through the two-cell stage. The inhibitory effect of Ras N-17 was overcome by simultaneous injection of a plasmid expressing an active raf oncogene, indicating that it resulted from interference with the Ras/Raf signaling pathway. In contrast to the inhibition of two-cell embryo development resulting from microinjection of pronuclear stage eggs, microinjection of late two-cell embryos with Ras N-17 expression constructs did not affect subsequent cleavages and development to morulae and blastocysts. It thus appears that the Ras/Raf signaling pathway, presumably activated by autocrine growth factor stimulation, is specifically required at the two-cell stage, which is the time of transition between maternal and embryonic gene expression in mouse embryos.  相似文献   

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Acrosome-reacted CB6F1 mouse spermatozoa with slight flagellar motility were microinjected under the zona pellucida of CB6F1 mouse oocytes. Electron microscopy revealed the presence of swollen and decondensed sperm heads in the oocyte cytoplasm. Sixty-one percent of the microinjected oocytes reached a morphologically apparent two-cell stage, but chromosomal analysis demonstrated only haploid chromosomal complements in all cases. The exposure of microinjected oocytes to suspensions of spermatozoa of mice homozygous for a 2,4 reciprocal translocation resulted in normal fertilization and embryonic development with a maternally as well as a paternally derived haploid genome. Identical results were obtained with oocytes microinjected with medium and subjected to in vitro fertilization thereafter. Thus it can be suggested that the microinjected spermatozoa with insufficient flagellar motility are incorporated into the oocyte cytoplasm by phagocytosis. These spermatozoa do not induce a polyspermy block but induce the oocyte to parthenogenetic development.  相似文献   

18.
The embryonic poly(A)-binding protein (EPAB) functions in the translational regulation of the maternal messenger RNAs (mRNAs) required during oocyte maturation, fertilization, and early embryo development. Since there is no antibody specific to mammalian EPAB protein, all studies related to the Epab gene could be performed at the mRNA levels except for the investigations in the Xenopus. In this study, we have produced an EPAB-specific antibody. When we examined its expressional distribution in the mouse gonadal and somatic tissues, the EPAB protein was found to be expressed only in the mouse ovary and testis tissues, but it is undetectable level in the somatic tissues including stomach, liver, heart, small intestine, and kidney. Additionally, the spatial and temporal expression patterns of the EPAB and poly(A)-binding protein cytoplasmic 1 (PABPC1) proteins were analyzed in the mouse germinal vesicle (GV) and metaphase II (MII) oocytes, one-cell, and two-cell embryos. While EPAB expression gradually decreased from GV oocytes to two-cell embryos, the PABPC1 protein level progressively increased from GV oocytes to one-cell embryos and remarkably declined in the two-cell embryos ( P < 0.05). We have also described herein that the EPAB protein interacted with Epab, Pabpc1, Ccnb1, Gdf9, and Bmp15 mRNAs dependent upon the developmental stages of the mouse oocytes and early embryos. As a result, we have first produced an EPAB-specific antibody and characterized its expression patterns and interacting mRNAs in the mouse oocytes and early embryos. The findings suggest that EPAB in cooperation with PABPC1 implicate in the translational control of maternal mRNAs during oogenesis and early embryo development.  相似文献   

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