Derivation of human embryonic stem cell lines from parthenogenetic blastocysts

Parthenogenesis is one of the main, and most useful, methods to derive embryonic stem cells （ESCs）, which may be an important source ofhistocompatible cells and tissues for cell therapy. Here we describe the derivation and characterization of two ESC lines （hPES-1 and hPES-2） from in vitro developed blastocysts following parthenogenetic activation of human oocytes. Typical ESC morphology was seen, and the expression of ESC markers was as expected for alkaline phosphatase, octamer-binding transcription factor 4, stage-specific embryonic antigen 3, stage-specific embryonic antigen 4, TRA- 1-60, and TRA- 1-81, and there was absence of expression of negative markers such as stage-specific embryonic antigen 1. Expression of genes specific for different embryonic germ layers was detected from the embryoid bodies （EBs） of both hESC lines, suggesting their differentiation potential in vitro. However, in vivo, only hPES-1 formed teratoma consisting of all three embryonic germ layers （hPES-2 did not）. Interestingly, after continuous proliferation for more than 100 passages, hPES-1 cells still maintained a normal 46 XX karyotype; hPES-2 displayed abnormalities such as chromosome translocation after long term passages. Short Tandem Repeat （STR） results demonstrated that the hPES lines were genetic matches with the egg donors, and gene imprinting data confirmed the parthenogenetic origin of these ES cells. Genome-wide SNP analysis showed a pattern typical of parthenogenesis. All of these results demonstrated the feasibility to isolate and establish human parthenogenetic ESC lines, which provides an important tool for studying epigenetic effects in ESCs as well as for future therapeutic interventions in a clinical setting.

Differentiation of neuron-like cells from mouse parthenogenetic embryonic stem cells

Parthenogenetic embryonic stem cells have pluripotent differentiation potentials, akin to fertilized embryo-derived embryonic stem cells. The aim of this study was to compare the neuronal differentiation potential of parthenogenetic and fertilized embryo-derived embryonic stem cells. Before differentiation, karyotype analysis was performed, with normal karyotypes detected in both parthenogenetic and fertilized embryo-derived embryonic stem cells. Sex chromosomes were identified as XX. Immunocytochemistry and quantitative real-time PCR detected high expression of the pluripotent gene, Oct4, at both the mRNA and protein levels, indicating pluripotent differentiation potential of the two embryonic stem cell subtypes. Embryonic stern cells were induced with retinoic acid to form embryoid bodies, and then dispersed into single cells. Single cells were differentiated in N2 differentiation medium for 9 days. Immunocytochemistry showed parthenogenetic and fertilized embryo-derived embryonic stem cells both express the neuronal cell markers nestin, ~lll-tubulin and myelin basic protein. Quantitative real-time PCR found expression of neuregenesis related genes （Sox-1, Nestin, GABA, Pax6, Zic5 and Pitxl） in both types of embryonic stem cells, and Oct4 expression was significantly decreased. Nestin and Pax6 expression in parthenogenetic embryonic stem cells was significantly higher than that in fertilized embryo-derived embryonic stem cells. Thus, our experimental findings indicate that parthenogenetic embryonic stem cells have stronger neuronal differentiation potential than fertilized embryo-derived embryonic stem cells.

Effects of 5-aza-2’-deoxyctidine on the development of porcine parthenogenetic and nuclear transfer embryos

The current study was to investigate whether embryo or fetal fibroblast cells treated with 5-aza-2’-deoxyctidine (5-aza-dC) have a positive effect on the in vitro development of porcine parthenogenetic and cloned embryos. To this end, porcine fetal fibroblast cells were treated with different concentrations (5 nM, 50 nM and 500 nM) of 5-aza-dC for different exposure times (1, 6 and 20 hours), the results showed that DNA methylation in PRE-1 SINE region was gradually reduced over time in cells treated with 5-aza-dC. To determine the effect of 5-aza-dC on in vitro development of porcine activated oocytes, the parthenogenetic embryo was treated with 5-aza- dC. Notably, treatment with 5 nM 5-aza-dC for 1 hour led to a significant improvement in blastocyst development, compared with the control group. The effects of donor cell treatment with 5-aza-dC on porcine cloned embryos development were further examined by treating fetal fibroblast cells with various concentrations (5 nM, 50 nM and 500 nM) of 5-aza-dC for different exposure times (1, 6 and 20 hours). Exposure of cells in 5 nM 5-aza-dC for 1 - 20 hours led to a significant improvement in the percentage of developed blastocysts, while treatment with 500 nM 5-aza-dC did not affect blastocyst development, compared to untreated controls. These findings indicate that treatment of fetal fibro-blast cells with relatively low concentrations of 5-aza-dC for short exposure times improves subsequent blastocyst development of porcine cloned embryos.

Effects of Chemical Activation on the Parthenogenetic Development of Porcine in vitro Maturation Oocytes

The objective of this study was to determine the effects of ionomycin combined with cytochalasin B （CB）, cycloheximide （CHX）, or 6-dimethylaminopurine （6-DMAP） on the activation of porcine oocytes. In Experiment 1, in vitro matured oocytes were activated with 15, 20, 25 or 30 mmol L -1 ionomycin separately. Activation rates of 20, 25 mmol L-1 and 30 mmol L treatments were higher （P〈0.05） than that of 15 mmol L-1 treatment. In Experiment 2, in vitro matured oocytes were activated with 20 mmol L-1 ionomycin for 10, 20, 30, 40 or 50 rain and then incubated with 2 mmol L-1 6-DMAP for 6 h. Cleavage and blastocyst rates [（72.40 ± 13.02）%, （25.37 ± 11.43）%] after treatments for 40 min were higher （P〉0.05） than those of the other treatments. In Experiment 3, matured oocytes were activated with ionomycin and then incubated with 7.5 mg mL-1 CB, 10 mg mL-1 CHX, 2 mmol L-1 6-DMAP, 7.5 mg mL-1 CB ＋ 10 mg mL-1 CHX or 7.5 mg mL-1 CB ＋ 2 mmol L-1 6-DMAP for 6 h. The rates of activation, cleavage and blastocyst of 2 mmol L -1 6-DMAP treatment [（86.05 ± 4.29）%, （61.77 ±8.10）% and （21.62± 3.31）%] were higher （P〈0.05） than those of 7.5 mg mL-1 CB treatment. In Experiment 4, matured oocytes were activated with ionomycin and then incubated with 2 mmol L-1 6-DMAP for 3.5, 5.5 or 7.5 h. Cleavage rates and blastocyst rates of 5.5 h treatment [（66.59 ± 14.36）% and （25.40 ± 10.16）%] were higher （P〉0.05） than those of other treatments. In conclusion, activation of porcine oocytes appears to be most successful using the combination of ionomycin （20 mmol L-1, 40 min） followed by 6-DMAP （2 mmol L-1, 5.5 h）.

Effects of Ages of Donors and Conditions of Preserving Ovaries on Porcine Oocytes Maturation in vitro and Efficiency of Parthenogenetic Activation

Effects of different ages of donors and different conditions of preserving ovaries onporcine oocytes maturation in vitro and efficiency of parthenogenetic activation werestudied. The experiments included: 1) effects of different temperatures (22, 30, 37, 38.5and 40℃) of preserving ovaries on porcine oocytes maturation in vitro and developmentalpotential; 2) effects of periods of preserving ovaries on porcine oocytes maturation invitro and development in vitro; 3) effects of different ages of donors on porcine oocytesmaturation in vitro and developmental potential. The results of the experiment showed:1) There were no statistical differences (p>0.05) of the parthenogenetic cleavage rate(79.64% vs 76.18%) and blastocyst rate (18.11% vs 33.82%) between oocytes from ovariespreserved at 38.5℃ and those preserved at 37℃. When the preserving temperature wasincreased to 40℃, the cleavage rate (21.68%) and the blastocyst rate (0) were greatsignificantly lower than those at 37℃(p<0.01). The cleavage rate (80.79% vs 76.18%) andblastocyst rate (29.61% vs 33.82%) were not different between 30 and 37℃(p>0.05). Whenthe preserving temperature was decreased to 22℃, the rate of cleavage was not different,but the rate of blastocyst was significantly lower, compared with that at 37℃; 2) Thecleavage and blastocyst rates of the porcine oocytes collected after slaughter 2 or 6hwere not different (p>0.05); 3) The cleavage rate of oocytes from gilts and sows aftermaturation was not different, but the blastocyst rate of the sow group was significantlyhigher than that of gilt group (p<0.05). The blastocyst cell number of sows and giltshowed no difference (p>0.05).

Melatonin improves the first cleavage of parthenogenetic embryos from vitrified-warmed mouse oocytes potentially by promoting cell cycle progression

Background:This study investigated the effect of melatonin(MT)on cell cycle(G1/S/G2/M)of parthenogenetic zygotes developed from vitrified-warmed mouse metaphase II(MII)oocytes and elucidated the potential mechanism of MT action in the first cleavage of embryos.Results:After vitrification and warming,oocytes were parthenogenetically activated(PA)and in vitro cultured(IVC).Then the spindle morphology and chromosome segregation in oocytes,the maternal mRNA levels of genes including Miss,Doc1r,Setd2 and Ythdf2 in activated oocytes,pronuclear formation,the S phase duration in zygotes,mitochondrial function at G1 phase,reactive oxygen species(ROS)level at S phase,DNA damage at G2 phase,early apoptosis in 2-cell embryos,cleavage and blastocyst formation rates were evaluated.The results indicated that the vitrification/warming procedures led to following perturbations 1)spindle abnormalities and chromosome misalignment,alteration of maternal mRNAs and delay in pronucleus formation,2)decreased mitochondrial membrane potential(MMP)and lower adenosine triphosphate(ATP)levels,increased ROS production and DNA damage,G1/S and S/G2 phase transition delay,and delayed first cleavage,and 3)increased early apoptosis and lower levels of cleavage and blastocyst formation.Our results further revealed that such negative impacts of oocyte cryopreservation could be alleviated by supplementation of warming,recovery,PA and IVC media with 10^(−9) mol/L MT before the embryos moved into the 2-cell stage of development.Conclusions:MT might promote cell cycle progression via regulation of MMP,ATP,ROS and maternal mRNA levels,potentially increasing the first cleavage of parthenogenetic zygotes developed from vitrified-warmed mouse oocytes and their subsequent development.

基于Smart-seq2探究玻璃化冷冻对猪孤雌激活囊胚基因表达的影响

旨在探究玻璃化冷冻对猪孤雌激活(parthenogenetic activation,PA)囊胚基因表达的影响。本研究以猪PA囊胚为研究对象,根据试验处理分为新鲜组、玻璃化冷冻组Ⅰ和玻璃化冷冻组Ⅱ,随后从每组挑选3枚形态良好的囊胚,利用Smart-seq2单细胞全长转录组测序技术进行转录组测序分析。结果显示,玻璃化冷冻组Ⅰ与新鲜组相比,共鉴定到772个差异表达基因(differential expression genes,DEGs),GO和KEGG富集分析结果显示,这些DEGs与细胞脂质代谢过程、细胞葡萄糖稳态、MAPK信号通路、PI3K-Akt信号通路等相关;玻璃化冷冻组Ⅱ与新鲜组相比,共鉴定到1613个DEGs,主要与糖异生、代谢途径、氨基酸生物合成等相关;玻璃化冷冻组Ⅱ与玻璃化冷冻组Ⅰ相比,鉴定到822个DEGs,主要与丙酮酸代谢过程、N-聚糖生物合成、细胞衰老等相关。综上,本研究基于Smart-seq2单细胞全长转录组测序技术揭示了玻璃化冷冻对猪PA囊胚脂质代谢、能量代谢、MAPK信号通路等相关基因表达的影响。

印记基因在孤雌生殖方面的研究进展

孤雌生殖是一种独特的生殖方式,指的是卵母细胞在不经过受精的情况下,可以自发或通过物理、化学刺激发育为正常个体,而无需精子参与。在低等动物中,孤雌生殖可以仅由雌性个体完成,从而实现从单个雌性个体产生后代。然而在哺乳动物中,能够通过孤雌生殖发育为正常个体的实例极为罕见。该文介绍了孤雌激活的方式,孤雌胚胎获取方式和印记基因在孤雌生殖中的应用,以期为未来孤雌生殖的相关应用提供思路。

Imprinting at the KBTBD6 locus involves species-specific m ternal methylation and monoallelic expression in livestock animals

Background The primary differentially methylated regions(DMRs) which are maternally hypermethylated serve as imprinting control regions(ICRs) that drive monoallelic gene expression, and these ICRs have been investigated due to their implications in mammalian development. Although a subset of genes has been identified as imprinted, in-depth comparative approach needs to be developed for identification of species-specific imprinted genes. Here, we examined DNA methylation status and allelic expression at the KBTBD6 locus across species and tissues and explored potential mechanisms of imprinting.Results Using whole-genome bisulfite sequencing and RNA-sequencing on parthenogenetic and normal porcine embryos, we identified a maternally hypermethylated DMR between the embryos at the KBTBD6 promoter Cp G island and paternal monoallelic expression of KBTBD6. Also, in analyzed domesticated mammals but not in humans, non-human primates and mice, the KBTBD6 promoter Cp G islands were methylated in oocytes and/or allelically methyl-ated in tissues, and monoallelic KBTBD6 expression was observed, indicating livestock-specific imprinting. Further analysis revealed that these Cp G islands were embedded within transcripts in porcine and bovine oocytes which coexisted with an active transcription mark and DNA methylation, implying the presence of transcription-dependent imprinting.Conclusions In this study, our comparative approach revealed an imprinted expression of the KBTBD6 gene in domesticated mammals, but not in humans, non-human primates, and mice which implicates species-specific evolution of genomic imprinting.

基于单亲遗传算法的城市风景园林空间元素布局优化方法

为了提高城市风景园林空间元素布局优化的合理性,提出一种基于单亲遗传算法的城市风景园林空间元素布局优化方法。该方法首先对城市风景园林空间元素布局图像进行归一化处理,将图像分解成不同方向上的子带,得到城市风景园林空间元素布局的加权无向图;其次,构建空间元素布局图像边缘的纹理特征向量集合,提取城市风景园林空间元素布局特征,并基于此构建元素布局优化的因素体系,根据评价指标的信息量权重和价值量权重,构建空间元素布局优化模型;最后,利用单亲遗传算法求解布局优化模型,实现城市风景园林空间元素的布局优化。实验结果表明,经过该方法优化后,城市风景园林的环境质量显著提高,布局优化的合理性指数提升至0.95以上。

孤雌胚胎干细胞在细胞移植和治疗上的应用

研究发现,卵子孤雌激活后,从囊胚中获得孤雌胚胎干细胞(parthenogenetic embryonic stem cells, pESCs),pESCs表达多能性标志物,发生表观遗传修饰重编程。它们具有高度的分化潜能,在体内可产生畸胎瘤,在体外能形成类胚体。pESCs能分化成多种类型的细胞,已被用于细胞移植治疗研究。用pESCs分化来的成纤维细胞构建皮肤组织,移植到皮肤缺损处,能促进伤口愈合。源自pESCs的成骨细胞、成软骨细胞和肌腱细胞接种到支架上并移植到皮下后,能再生出骨、软骨和肌腱组织,从而可以为治疗这些组织的损伤提供细胞来源。pESCs分化产生的心肌细胞移植到患急性心肌梗死的宿主心脏后,可改善心脏功能。由pESCs分化的神经干细胞或神经元移植到受损大脑或患帕金森病的宿主大脑后,也能促进大脑皮层的修复,改善宿主的运动缺陷。因此,pESCs在临床上具有重要的应用和推广价值,从而为疾病的细胞移植治疗提供理论依据和临床应用策略。

牦牛卵母细胞体外成熟培养及孤雌发育研究

牦牛体外胚胎培养作为辅助生殖策略,能够有效提高其繁殖能力。为研究牦牛卵母细胞体外培养过程中不同的处理方式对孤雌激活胚胎发育质量的影响,10月份采集5~8岁健康母牦牛卵巢,抽吸法收集卵母细胞进行体外成熟诱导,设置卵丘-卵母细胞复合体(cumulus-oocyte complexs,COCs)和裸卵2个试验组;TCM199培养时间分别为24、36 h;以及体外培养12 h的COCs,消化之后再移入TCM199培养12 h分别进行孤雌激活,在体外进行孤雌胚胎培养,统计卵裂率和囊胚率。结果显示,牦牛COCs的孤雌激活胚胎发育率显著低于裸卵(P<0.05),且后期出现脱卵丘细胞现象;COCs在TCM199中培养24 h的孤雌胚胎卵裂率明显高于培养36 h的处理组(P<0.05);裸卵再培养之后卵母细胞成熟率低、进行孤雌激活的卵裂率极低,且大部分发生贴壁。以上结果表明,体外培养24 h的COCs经透明质酸酶消化为裸卵的孤雌激活效果最佳,其卵裂率最高,囊胚率最高。研究结果为揭示牦牛卵母细胞孤雌激活前的不同处理方式与孤雌激活胚胎的发育质量提供了依据,可为优化卵母细胞体外培养、提高孤雌激活效果提供参考。

STR分型技术在一宗寻亲案中嵌合体法医学分析中的应用

嵌合体是包含有两个或以上不同细胞系的生物个体。本文运用STR分型技术对一宗寻亲案中的男性嵌合体的类型、形成机制及其不同组织样本中的嵌合现象进行探究。结果表明,该嵌合体属于四配子异源嵌合体,为卵母细胞孤雌分裂产生的两个相同配子双受精后发生融合所形成。由于两个细胞系分布情况不同,嵌合体的不同样本检出了不同的STR分型,最后通过精液检出的男性分型成功比中了其失踪多年的儿子。

不同浓度雷帕霉素对小鼠卵母细胞体外成熟及发育潜能的影响

目的探究不同浓度雷帕霉素对小鼠卵母细胞体外成熟(in vitro maturation,IVM)结局的影响及其在最佳浓度下对卵母细胞质量产生的具体效应。方法收集雌性ICR小鼠的未成熟卵母细胞(GV期)进行IVM,在培养液中添加不同浓度的雷帕霉素(1 nmol/L~10μmol/L),通过比较成熟率和激活率,筛选最佳作用浓度。随后,在处理组的培养液中加入最佳浓度的雷帕霉素,对处理组与对照组中IVM卵母细胞的激活后发育情况、纺锤体组装、染色体排列情况进行比较。结果10 nmol/L雷帕霉素培养组的卵母细胞在IVM后呈现出较高的成熟率[(84.5±1.6)%]和激活率[(62.4±1.5)%],故选择10 nmol/L作为添加雷帕霉素的最佳浓度。在随后的培养中,10 nmol/L雷帕霉素组激活胚胎的卵裂率和囊胚形成率也较对照组显著升高[卵裂率:(54.9±2.6)%vs.(41.9±2.1)%,P=0.0178;囊胚形成率:(12.5±1.6)%vs.(6.4±1.4)%,P=0.0441]。此外,与对照组相比,10 nmol/L雷帕霉素组的成熟卵母细胞染色体排列异常率降低[染色体异常率:(21.0±1.8)%vs.(33.7±3.5)%,P=0.0236],而纺锤体形态未见明显差异[纺锤体异常率:(26.1±3.1)%vs.(32.1±3.6)%,P=0.2668]。结论雷帕霉素对小鼠未成熟卵母细胞IVM的作用与其浓度密切相关,10 nmol/L雷帕霉素能够改善小鼠IVM卵母细胞的发育潜能和质量。

山羊卵母细胞孤雌激活和孤雌胚体外发育的研究

用离子霉素、乙醇、电刺激和Ca—A23187对体外成熟山羊卵泡卵母细胞的孤雌激活和孤雌胚体外发育进行了较为系统的研究。结果表明：2．5，5．0，10．0μmol／L离子霉素对卵母细胞激活率分别为54．0％，58．2％，57．9％，孤雌胚发育率分别为1．5％，3．4％，0％，激活率和发育率均无显著差异（P〉0．05）。5．0，10．0，15．0，20．0μmol/L Ca-A23187对卵母细胞激活率分别为31．0％，46．4％，41．8％，45．8％，其中5．0μmol／L Ca-A23187激活率显著低于其他处理组（P〈0．05）。5．0μmol／L处理大于4_细胞发育率，极显著低于10．0μmol／L和20．0μmol／L处理（P〈0．01），显著低于15．0μmol／L处理（P〈0．05）。3％，7％，11％和15％乙醇对卵母细胞激活率分别为40．0％、61．4％、63．0％和67．9％，其中3％乙醇活化率极显著低于其他各组（P〈0．01）。15％乙醇致卵母细胞死亡率为15．4％，显著高于其他各组（P〈0．05）。7％和11％乙醇处理2～4-细胞和大于4-细胞的发育率，均显著高于3％和15％乙醇处理（P〈0．05）。15％乙醇处理大于8．细胞的发育率，极显著低于7％乙醇（P〈0．01），显著低于11％乙醇（P〈0．05）。在含Ca^2＋电激液中，用1．00，1．25，1．50，1．80kV／cm电压刺激卵母细胞，活化率分别为48．4％，54．3％，55．8％，45．1％，2—4细胞卵裂率分别为52．3％，57．9％，54．7％，53．1％，差异均不显著（P〈0．05）。

亚胺环己酮对猪卵母细胞人工孤雌激活作用的研究

本文以体外成熟的猪卵母细胞为材料 ,以乙醇、电脉冲和氯化锶为人工刺激条件 ,研究了蛋白质合成抑制剂———亚胺环己酮 (CHX)对猪卵母细胞的孤雌激活效果的影响。结果表明 ,乙醇、电脉冲和SrCl2 均可使猪卵母细胞激活 ,而电脉冲的激活效果最好。当分别与CHX联合使用时 ,激活率显著高于单独的乙醇、电脉冲或SrCl2 刺激。说明 ,CHX与乙醇、电脉冲及SrCl2 联合使用对猪IVM卵母细胞激活具有显著的协同促进作用。

成熟液中不同来源促性腺激素对猪卵母细胞早期孤雌发育的影响

为探讨不同来源的促性腺激素对猪卵母细胞早期孤雌发育的影响,将猪卵母细胞置于添加有不同来源促性腺激素(分别来自美国Sigma公司和中国科学院动物研究所)的成熟液中体外成熟40～44 h,成熟卵母细胞经化学孤雌激活后放入胚胎培养液中继续培养,分别于第48小时和第168小时统计卵裂率和囊胚发育率。结果发现,成熟液中同时添加0.5μg/mL中国科学院动物研究所生产的促性腺激素(FSH和LH)的卵裂率和囊胚发育率均略高于其他处理组,分别达到(65.68±24.13)%和(28.41±18.74)%;在囊胚细胞数方面,无论是添加中国科学院动物研究所还是Sigma公司生产的促性腺激素,均以添加浓度为0.5μg/mL时的囊胚细胞数最高。结果表明,两种来源促性腺激素对猪卵母细胞孤雌激活后早期发育的影响无显著差异,说明中国科学院动物研究所生产的促性腺激素(FSH和LH)能有效促进猪卵母细胞体外成熟和进一步孤雌发育效果,且以在成熟液中同时添加0.5μg/mL FSH和0.5μg/mL LH为宜。

猪卵母细胞体外成熟和孤雌激活效率影响因素分析

研究了月龄和卵巢采集后的保存条件对猪卵母细胞体外成熟和孤雌激活效率的影响 ,以确立猪卵母细胞体外成熟的最佳条件。试验包括 :(1)卵巢保存的生理盐水温度 (2 2、30、37、38.5、4 0℃ )对猪卵母细胞体外成熟和发育潜力的影响。 (2 )卵巢保存时间对猪卵母细胞体外成熟和后期发育的影响。 (3)初情期前后母猪卵母细胞对体外成熟和发育潜力的影响。结果表明 ,(1) 38.5℃保存的卵巢卵母细胞激活后的卵裂率 (79.6 4 % )和囊胚率(18.11% ) ,37℃的卵裂率 (76 .18% )和囊胚率 (33.82 % )相比 ,差异不显著 (P >0 .0 5 )。当温度达到 4 0℃时 ,卵裂率(2 1.6 8% )和囊胚率 (0 )与 37℃相比差异极显著 (P <0 .0 1)。 30℃与 37℃相比 ,卵裂率和囊胚率之间差异不明显 (P>0 .0 5 )。而当温度降低到 2 2℃时 ,卵裂率和囊胚率明显降低 (P <0 .0 5 )。 (2 )猪卵巢在体外保存 2和 6h对卵母细胞激活后的卵裂率 (6 8.86 %VS 6 8.74 % )和囊胚率 (16 .12 %VS 16 .0 9% )无显著影响 (P >0 .0 5 )。 (3)初情期前、后母猪卵母细胞激活后的卵裂率没有显著差异 (72 .90 %± 7.0 4 %VS 77.35 %± 8.2 9%P >0 .0 5 ) ,但初情期后母猪卵母细胞激活后的囊胚发育率显著高于初情期前 (2 2 .5 2 %± 7.4 8%VS 36 .6 2 %± 10 .2 5 % 。

牛孤雌生殖胚与体外受精胚体外发育比较

从卵巢采集的卵丘-卵母细胞复合体(COCs)经体外成熟培养24h后,随机分为2组分别用于孤雌激活与体外受精。在相同培养条件下,比较孤雌生殖胚与体外受精胚的发育率和发育速度。结果表明:将牛孤雌生殖胚与体外受精胚分别置于mSOFaa和mBECMaa培养液中培养,卵裂率(89.3%vs.80.1%;83.2%vs.82.5%)、囊胚发育率(27.5%vs.24.0%;28.9%vs.21.9%)和孵化率(58.7%vs.56.7%;51.5%vs.53.3%),均无显著差异(P>0.05);孤雌生殖胚与体外受精胚在体外发育的速度基本相同。对孤雌生殖胚胎进行培养可以代替体外受精胚胎筛选最佳体外培养系统。

兔卵母细胞的孤雌激活

从电脉冲次数、脉冲强度、脉冲间隔时间三方面对兔卵母细胞的孤雌激活进行了研究。结果表明 ,注射HCG后 16h的MⅡ期卵 ,用 1.4kV/cm、6 0 μs的直流脉冲电激 ,脉冲次数分为 1、2、4、8次 4组 ,每次间隔 30min ,随着电激活次数的增加 ,活化率从 4 6 .5 %增加到 95 .8% (P <0 .0 1) ,但是电激活 8次后 ,桑椹胚率却从 6 3.6 %下降到 2 1.2 % ,囊胚率从 2 3.6 %下降到 2 .8%(P <0 .0 1) ;用 6 0 μs的直流脉冲电激 3次 ,每次间隔 30min ,分为 0 .4、1.2、2 .4kV/cm 3组 ,以1.2kV/cm脉冲强度的兔卵母细胞激活较为理想 ,脉冲强度增加到 2 .4kV/cm时 ,卵细胞死亡率升为6 7.1% (P <0 .0 1)。用 1.4kV/cm、6 0 μs的直流脉冲电激 3次 ,电脉冲间隔时间分为 30、12 0、2 4 0min 3组 ,卵细胞活化率分别为 6 8.6 %、91.5 %、91.9% (P <0 .0 1)。