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Targeting lentiviral vectors to primordial germ cells(PGCs):An efficient strategy for generating transgenic chickens 被引量:5
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作者 Zi-Qin Jiang Han-Yu Wu +2 位作者 Jing Tian Ning Li Xiao-Xiang Hu 《Zoological Research》 SCIE CAS CSCD 2020年第3期281-291,共11页
Recent advances in avian transgenic studies highlight the possibility of utilizing lentiviral vectors as tools to generate transgenic chickens. However, low rates of gonadal chimerism and germ line transmission effici... Recent advances in avian transgenic studies highlight the possibility of utilizing lentiviral vectors as tools to generate transgenic chickens. However, low rates of gonadal chimerism and germ line transmission efficiency still limit the broad usage of this method in creating transgenic chickens. In this study, we implemented a simple strategy using modified lentiviral vectors targeted to chicken primordial germ cells(PGCs) to generate transgenic chickens. The lentiviral vectors were pseudotyped with a modified Sindbis virus envelope protein(termed M168) and conjugated with an antibody specific to PGC membrane proteins. We demonstrated that these optimized M168-pseudotyped lentiviral vectors conjugated with SSEA4 antibodies successfully targeted transduction of PGCs in vitro and in vivo. Compared with the control, 50.0%–66.7% of chicken embryos expressed green fluorescent protein(GFP) in gonads transduced by the M168-pseudotyped lentivirus. This improved the targeted transduction efficiency by 30.0%–46.7%. Efficient chimerism of exogenous genes was also observed. This targeting technology could improve the efficiency of germ line transmission and provide greater opportunities for transgenic poultry studies. 展开更多
关键词 M168-pseudotyped lentiviral vectors primordial germ cells Targeted transduction Transgenic chickens SSEA4
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Culture of Embryonic Stem Cell by Primordial Germ Cells of Down Producing Goat 被引量:1
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作者 图雅 卢玲 《Agricultural Science & Technology》 CAS 2012年第12期2471-2474,共4页
[Objective] The paper was to establish embryonic stem cell system of goats. [Method] Numerous primordial germ cell colonies were derived from gonadal ridge and the surrounding tissues in 20 millimeter fetuses of down ... [Objective] The paper was to establish embryonic stem cell system of goats. [Method] Numerous primordial germ cell colonies were derived from gonadal ridge and the surrounding tissues in 20 millimeter fetuses of down producing goat. Primordial germ cells and goats embryonic fibroblasts obtained from conceptus of equivaient gestational age were co-cultured. [Result] The colonies showed some characteristics of embryonic stem cells, such as the morphology of nest-like, they continued to be AKP positive and the ability to be continuously passed [Conclusion] These cells were pluripotent and ES-like cells. 展开更多
关键词 Down producing goat primordial germ cells Embryonic stem cells
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Primordial germ cell-mediated transgenesis and genome editing in birds 被引量:2
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作者 Jae Yong Han Young Hyun Park 《Journal of Animal Science and Biotechnology》 SCIE CAS CSCD 2018年第2期257-267,共11页
Transgenesis and genome editing in birds are based on a unique germline transmission system using primordial germ cells(PGCs), which is quite different from the mammalian transgenic and genome editing system. PGCs are... Transgenesis and genome editing in birds are based on a unique germline transmission system using primordial germ cells(PGCs), which is quite different from the mammalian transgenic and genome editing system. PGCs are progenitor cells of gametes that can deliver genetic information to the next generation. Since avian PGCs were first discovered in nineteenth century, there have been numerous efforts to reveal their origin, specification, and unique migration pattern, and to improve germline transmission efficiency. Recent advances in the isolation and in vitro culture of avian PGCs with genetic manipulation and genome editing tools enable the development of valuable avian models that were unavailable before. However, many challenges remain in the production of transgenic and genome-edited birds,including the precise control of germline transmission, introduction of exogenous genes, and genome editing in PGCs.Therefore, establishing reliable germline-competent PGCs and applying precise genome editing systems are critical current issues in the production of avian models. Here, we introduce a historical overview of avian PGCs and their application, including improved techniques and methodologies in the production of transgenic and genome-edited birds, and we discuss the future potential applications of transgenic and genome-edited birds to provide opportunities and benefits for humans. 展开更多
关键词 AVIAN GENOME EDITING primordial germ cell TRANSGENESIS
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Effects of 17beta-estradiol on cell migration in male chicks distribution of primordial germ 被引量:1
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作者 Xiu-Mei Jin Yi-Xiang Zhang Zan-Dong Li 《Asian Journal of Andrology》 SCIE CAS CSCD 2008年第2期243-248,共6页
Aim: To assess whether exogenous estradiol has any effect on migration of primordial germ cells (PGCs) in the chick. Methods: Fertilized eggs were treated with 17beta-estradiol (E2) (80 lag/egg) at stage X (d... Aim: To assess whether exogenous estradiol has any effect on migration of primordial germ cells (PGCs) in the chick. Methods: Fertilized eggs were treated with 17beta-estradiol (E2) (80 lag/egg) at stage X (day 0 of incubation), stages 8-10 (incubation 30 h) and 13-15 (incubation 55 h). Controls received vehicle (emulsion) only. Changes in PGC number were measured on different days according to developmental stages. Results: In male right gonads, but not in female left gonads, at stages 28-30 (incubation 132 h) significant decreases in the mean number of PGCs aggregating were observed compared with the controls (P 〈 0.05) while the total PGC number in the right and left gonads at each stage did not change (P 〉 0.05). Conclusion: The present study provides evidence that E2 has significant effects on the localization of PGCs in male right, but not female left, gonads of chicken embryos at stages 28-30, compared with controls. (Asian J Andro12008 Mar; 10: 243-248) 展开更多
关键词 17beta-estradiol primordial germ cells male chick
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Differential transcriptional regulation of the NANOG gene in chicken primordial germ cells and embryonic stem cells 被引量:1
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作者 Hee Jung Choi So Dam Jin +3 位作者 Deivendran Rengaraj Jin Hwa Kim Bertrand Pain Jae Yong Han 《Journal of Animal Science and Biotechnology》 SCIE CAS CSCD 2021年第3期877-890,共14页
Background:NANOG is a core transcription factor(TF)in embryonic stem cells(ESCs)and primordial germ cells(PGCs).Regulation of the NANOG gene by TFs,epigenetic factors,and autoregulatory factors is well characterized i... Background:NANOG is a core transcription factor(TF)in embryonic stem cells(ESCs)and primordial germ cells(PGCs).Regulation of the NANOG gene by TFs,epigenetic factors,and autoregulatory factors is well characterized in ESCs,and transcriptional regulation of NANOG is well established in these cells.Although NANOG plays a key role in germ cells,the molecular mechanism underlying its transcriptional regulation in PGCs has not been studied.Therefore,we investigated the mechanism that regulates transcription of the chicken NANOG(cNANOG)gene in PGCs and ESCs.Results:We first identified the transcription start site of cNANOG by 5′-rapid amplification of cDNA ends PCR analysis.Then,we measured the promoter activity of various 5′flanking regions of cNANOG in chicken PGCs and ESCs using the luciferase reporter assay.cNANOG expression required transcriptional regulatory elements,which were positively regulated by POU5F3(OCT4)and SOX2 and negatively regulated by TP53 in PGCs.The proximal region of the cNANOG promoter contains a positive transcriptional regulatory element(CCAAT/enhancer-binding protein(CEBP)-binding site)in ESCs.Furthermore,small interfering RNA-mediated knockdown demonstrated that POU5F3,SOX2,and CEBP played a role in cell type-specific transcription of cNANOG.Conclusions:We show for the first time that different trans-regulatory elements control transcription of cNANOG in a cell type-specific manner.This finding might help to elucidate the mechanism that regulates cNANOG expression in PGCs and ESCs. 展开更多
关键词 CHICKEN Embryonic stem cells NANOG gene primordial germ cells Regulatory elements
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Developmental potency of mouse primitive ectoderm cells, embryonic ectoderm cells and primordial germ cells after blastocyst injection
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作者 Shen SanbingInstitute of Developmental Biology,Academia Sinica,Beijing, China 《Cell Research》 SCIE CAS CSCD 1990年第1期53-65,共13页
Developmental potency of primitive and embryonic ectoderm cells from 4.50-day to 6.25-day post-coitum (p.c.) mouse embryos and primordial germ cells from 12.50-day p.c.male genital ridges of fetal mice were studied by... Developmental potency of primitive and embryonic ectoderm cells from 4.50-day to 6.25-day post-coitum (p.c.) mouse embryos and primordial germ cells from 12.50-day p.c.male genital ridges of fetal mice were studied by direct introducing them into 3.50-day p.c.blastocysts.Sixteen (61.5) overt chimaeras out of 26(50%) offsprings were obtained after transfer of 52 blastocysts injected with 4.50-day primitive ectoderm cells;four (16.0%) overt chimaeras were obtained out of 25 (51.0%) offsprings with 4.75-day primitive ectoderm cells from 49 transferred blastocysts.However,no overt chimaera was obtained with either 5.25-day or 6.25-day embryonic ectoderm cells or 12.50-day male primordial germ cells.GPI analysis of mid-gestation conceptuses developed from injected blastocysts showedthat 5.25-day embryonic ectoderm cells could only contributed to yolk sac of conceptus.Results suggested that implantation acts as a trigger for the determination of primitive ectoderm cells,and their developmental potency becomes limited within a short period of time in normal development. 展开更多
关键词 developmental potency primitive ectoderm cells embryonic ectoderm cells primordial germ cells blastocyst injection pluripolenl stem cell origin.
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α-ketoglutarate promotes the specialization of primordial germ cell-like cells through regulating epigenetic reprogramming
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作者 Ming Xing Na Wang +1 位作者 Hanyi Zeng Jun Zhang 《The Journal of Biomedical Research》 CAS CSCD 2021年第1期36-46,I0014-I0016,共14页
There is growing evidence that cellular metabolism can directly participate in epigenetic dynamics and consequently modulate gene expression.However,the role of metabolites in activating the key gene regulatory networ... There is growing evidence that cellular metabolism can directly participate in epigenetic dynamics and consequently modulate gene expression.However,the role of metabolites in activating the key gene regulatory network for specialization of germ cell lineage remains largely unknown.Here,we identified some cellular metabolites with significant changes by untargeted metabolomics between mouse epiblast-like cells(EpiLCs)and primordial germ cell-like cells(PGCLCs).More importantly,we found that inhibition of glutaminolysis by bis-2-(5-phenylacetamido-1,3,4-thiadiazol-2-yl)ethyl sulfide(BPTES)impeded PGCLC specialization,but the impediment could be rescued by addition ofα-ketoglutarate(αKG),the intermediate metabolite of oxidative phosphorylation and glutaminolysis.Moreover,adding aKG alone to the PGCLC medium accelerated the PGCLC specialization through promoting H3 K27 me3 demethylation.Thus,our study reveals the importance of metabolite aKG in the germ cell fate determination and highlights the essential role of cellular metabolism in shaping the cell identities through epigenetic events. 展开更多
关键词 cellular metabolism Α-KETOGLUTARATE primordial germ cells EPIGENOME
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Chicken Mesenchymal Stem Cells as Feeder Cells Facilitate the Cultivation of Primordial Germ Cells from Circulating Blood and Gonadal Ridge
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作者 Dongsheng Li Zhisheng Chen +5 位作者 Shengfeng Chen Huiqin Ji Xiaoshu Zhan Dongzhang Luo Huina Luo Bingyun Wang 《Stem Cell Discovery》 2019年第1期1-14,共14页
Long-term maintenance of chicken primordial germ cells (PGCs) in vitro has tremendous potential for transgenic chicken production. Feeder cells are essential for the establishment and culture of chicken PGCs in vitro.... Long-term maintenance of chicken primordial germ cells (PGCs) in vitro has tremendous potential for transgenic chicken production. Feeder cells are essential for the establishment and culture of chicken PGCs in vitro. Buffalo rat liver (BRL) cells are the most commonly used feeder cells for PGCs culture;however, this feeder layers from other animal species usually cause immunogenic contaminations, compromising the potential of PGCs in applications. Therefore, we tested chicken source mensenchymal stem cell (MSCs) derived from bone marrow as feeder cells to further improve PGC culture conditions. MSCs derived from chicken bone marrow have a powerful capacity to proliferate and secrete cytokines. We found chicken primordial germ cells derived from circulating blood (cPGCs) and gonads (gPGCs) can be maintained and proliferated with MSCs feeder layer cells. PGCs co-cultured on MSCs feeder retained their pluripotency, expressed PGCs specific genes and stemness markers, and maintained undifferentiated state. Our study indicated that the xeno-free MSCs-feeders culture system is a good candidate for growth and expansion of PGCs as the stepping stone for transgenic chicken research. 展开更多
关键词 CHICKEN primordial germ cellS Mensenchymal Stem cellS TRANSGENIC
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The culture and establishment of embryonic germ(EG)cell lines from Chinese mini swine 被引量:17
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作者 HSlAOCHIENTSUNG ZHONGWEIDU +5 位作者 RONGRUI XIULANLI LINPINGBAO JUNWU SHIMINBAO ZHENYAO 《Cell Research》 SCIE CAS CSCD 2003年第3期195-202,共8页
As a part of a basic research project on Xeno-transplantion. we have been engaged in the derivation of embryonic stein cell lines from Chinese mini swine. Here, we reported for the first time the establishment of two ... As a part of a basic research project on Xeno-transplantion. we have been engaged in the derivation of embryonic stein cell lines from Chinese mini swine. Here, we reported for the first time the establishment of two porcine EG cell lines (BPEG1 and BPEG2) from primordial germ cells of genital ridges of a 28 and a 27 d embryos respectively. Their pluripotent nature has been identified by colony morphology, marker characterization as well as by in vitro and in vivo differentiation. These porcine EG cells are potentially useful for further basic studies. 展开更多
关键词 primordial germ cells EG cells PORCINE Chinese mini swine.
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Amniotic fluid stem cell-based models to study the effects of gene mutations and toxicants on male germ cell formation 被引量:1
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作者 Claudia Gundacker Helmut Dolznig Mario Mikula Margit Rosner Oliver Brandau Markus Hengstschlager 《Asian Journal of Andrology》 SCIE CAS CSCD 2012年第2期247-250,共4页
Male infertility is a major public health issue predominantly caused by defects in germ cell development. In the past, studies on the genetic regulation of spermatogenesis as well as on negative environmental impacts ... Male infertility is a major public health issue predominantly caused by defects in germ cell development. In the past, studies on the genetic regulation of spermatogenesis as well as on negative environmental impacts have been hampered by the fact that human germ cell development is intractable to direct analysis in vivo. Compared with model organisms including mice, there are fundamental differences in the molecular processes of human germ cell development. Therefore, an in vitro model mimicking human sperm formation would be an extremely valuable research tool. In the recent past, both human embryonic stem (ES) cells and induced pluripotent stem (iPS) cells have been reported to harbour the potential to differentiate into primordial germ cells and gametes. We here discuss the possibility to use human amniotic fluid stem (AFS) ceils as a biological model. Since their discovery in 2003, AFS cells have been characterized to differentiate into cells of all three germ layers, to be genomically stable, to have a high proliferative potential and to be non-tumourigenic. In addition, AFS cells are not subject of ethical concerns. In contrast to iPS cells, AFSs cells do not need ectopic induction of pluripotency, which is often associated with only imperfectly cleared epigenetic memory of the source cells. Since AFS cells can be derived from amniocentesis with disease-causing mutations and can be transfected with high efficiency, they could be used in probing gene functions for spermatogenesis and in screening for male reproductive toxicity. 展开更多
关键词 amniotic fluid human genetics INFERTILITY primordial germ cells REPRODUCTION SPERMATOGENESIS stem cells toxicity
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Reprogramming of germ cells into pluripotency
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作者 Yoichi Sekita Toshinobu Nakamura Tohru Kimura 《World Journal of Stem Cells》 SCIE CAS 2016年第8期251-259,共9页
Primordial germ cells(PGCs) are precursors of all gametes, and represent the founder cells of the germline. Although developmental potency is restricted to germ-lineage cells, PGCs can be reprogrammed into a pluripote... Primordial germ cells(PGCs) are precursors of all gametes, and represent the founder cells of the germline. Although developmental potency is restricted to germ-lineage cells, PGCs can be reprogrammed into a pluripotent state. Specifically, PGCs give rise to germ cell tumors, such as testicular teratomas, in vivo, and to pluripotent stem cells known as embryonic germ cells in vitro. In this review, we highlight the current knowledge on signaling pathways, transcriptional controls, and post-transcriptional controls that govern germ cell differentiation and de-differentiation. These regulatory processes are common in the reprogramming of germ cells and somatic cells, and play a role in the pathogenesis of human germ cell tumors. 展开更多
关键词 primordial germ cell EMBRYONIC germ cell germ cell tumor REPROGRAMMING Induced PLURIPOTENT stem cell Small molecule compound Gene Signal Transcription factor
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Improved Isolation and Culture of Embryonic Germ Cells from Guanzhong Dairy Goat
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作者 YANG Wei-feng GE Xiu-guo HUA Jin-lian SHEN Wen-zheng DOU Zhong-ying 《Agricultural Sciences in China》 CAS CSCD 2006年第7期550-557,共8页
A total of 219 embryonic-germ-cell-like (EG-like) clumps were derived from 15 selected goat fetuses. Isolation of primordial germ cells (PGCs) based on co-culture with primary goat embryonic fibroblast showed no d... A total of 219 embryonic-germ-cell-like (EG-like) clumps were derived from 15 selected goat fetuses. Isolation of primordial germ cells (PGCs) based on co-culture with primary goat embryonic fibroblast showed no difference from traditional feeder layer-based culture method used in mouse and human. The putative primary EG colonies were multilayer clumps of compact cells with unclear cell-cell boundaries. Three subculture methods of goat EG-like colony, traditional enzymatic digestion, mechanical cutting and combination of the both, were compared in this study. As a result, EG-like colonies traditionally disassociated with collagenase 1V could be subcultured for up to 4 passages. And the mechanically disaggregated EG-like colonies were successfully maintained 9-12 passages with or without enzymatic treatment. The pluripotency of the EG-like colonies was identified by their specific marker staining, spontaneous differentiation and embryoid bodies (EBs) formation in vitro. Most goat EG-like colonies (〉 80%) were AKP positive and immunocytochemically characterized with positive SSEA-1, Oct-4 and c-kit staining but SSEA-4. Under the condition of delaying passage, goat EG-like cells could differentiate into fibroblast-like, epithelium-like, and neuron-like cells. In addition, EBs could be obtained successfully in routine hanging drop culture. The serum free culture system (feeder layer-based) used in this study was suitable for keeping PGCs and EG-like cells in their undifferentiated condition, but failed to converse them to immortal cells. These results indicated that mechanical cutting is an effective method for passaging goat EG cell colonies. However, the microenvironment of conversing EG cells to immortal cells is still unclear. 展开更多
关键词 GOAT primordial germ cells embryonic germ cells CO-CULTURE mechanical cutting
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Molecular and epigenetic pathogenesis of germ cell tumors
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作者 Melanie R.Müller Margaretha A.Skowron +1 位作者 Peter Albers Daniel Nettersheim 《Asian Journal of Urology》 CSCD 2021年第2期144-154,共11页
The development of germ cell tumors(GCTs)is a unique pathogenesis occurring at an early developmental stage during specification,migration or colonization of primordial germ cells(PGCs)in the genital ridge.Since drive... The development of germ cell tumors(GCTs)is a unique pathogenesis occurring at an early developmental stage during specification,migration or colonization of primordial germ cells(PGCs)in the genital ridge.Since driver mutations could not be identified so far,the involvement of the epigenetic machinery during the pathogenesis seems to play a crucial role.Currently,it is investigated whether epigenetic modifications occurring between the omnipotent two-cell stage and the pluripotent implanting PGCs might result in disturbances eventually leading to GCTs.Although progress in understanding epigenetic mechanisms during PGC development is ongoing,little is known about the complete picture of its involvement during GCT development and eventual classification into clinical subtypes.This review will shed light into the current knowledge of the complex epigenetic and molecular contribution during pathogenesis of GCTs by emphasizing on early developmental stages until arrival of late PGCs in the gonads.We questioned how misguided migrating and/or colonizing PGCs develop to either type Ⅰ or type Ⅱ GCTs.Additionally,we asked how pluripotency can be regulated during PGC development and which epigenetic changes contribute to GCT pathogenesis.We propose that SOX2 and SOX17 determine either embryonic stem cell-like(embryonal carcinoma)or PGC-like cell fate(seminoma).Finally,we suggest that factors secreted by the microenvironment,i.e.BMPs and BMP inhibiting molecules,dictate the fate decision of germ cell neoplasia in situ(into seminoma and embryonal carcinoma)and seminomas(into embryonal carcinoma or extraembryonic lineage),indicating an important role of the microenvironment on GCT plasticity. 展开更多
关键词 germ cell tumor primordial germ cell Epigenetic reprogramming PLASTICITY MICROENVIRONMENT BMP signaling SOX2 SOX17
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LncRNA PGCT8正向调控鸡原始生殖细胞形成 被引量:2
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作者 刘广政 丁颖 +4 位作者 邹艺琛 高嘉晨 徐显帅 左其生 李碧春 《中国家禽》 北大核心 2023年第1期16-22,共7页
研究旨在对前期测序筛选到的关键LncPGCT8对鸡原始生殖细胞(PGCs)形成的影响进行深入探究。试验通过qRT-PCR和组织表达谱分析LncPGCT8在鸡PGCs和生殖嵴中的表达量。在体内外过表达/干扰LncPGCT8,通过qRT-PCR、流式细胞术、间接免疫荧光... 研究旨在对前期测序筛选到的关键LncPGCT8对鸡原始生殖细胞(PGCs)形成的影响进行深入探究。试验通过qRT-PCR和组织表达谱分析LncPGCT8在鸡PGCs和生殖嵴中的表达量。在体内外过表达/干扰LncPGCT8,通过qRT-PCR、流式细胞术、间接免疫荧光和免疫组织化学染色检测体内外PGC形成效率。结果显示:LncPGCT8在鸡PGCs和性腺中均显著高表达(P<0.05),过表达LncPGCT8组PGCs形成效率显著高于对照组(P<0.05),干扰LncPGCT8则会显著降低PGCs形成数量(P<0.05)。结果表明LncPGCT8在体内/外均促进鸡PGCs形成,为提高体外诱导PGCs效率奠定理论基础。 展开更多
关键词 LncpgcT8 原始生殖细胞
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山羊PGCs用于分离与克隆类ES细胞 被引量:10
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作者 韩建永 桑润滋 +2 位作者 孙国杰 王志刚 李俊杰 《中国兽医学报》 CAS CSCD 北大核心 2002年第4期344-347,共4页
选择健康成年本地白山羊 ,自然发情、配种后 4 4 d取胎儿 ,以传统的原始生殖细胞 (PGCs)分离与克隆的方法和PGCs与其胎儿生殖嵴周围组织细胞共同培养的方法获得类胚胎干细胞 (类 ES细胞 ) ,并对山羊类 ES细胞在不同饲养层上进行培养。... 选择健康成年本地白山羊 ,自然发情、配种后 4 4 d取胎儿 ,以传统的原始生殖细胞 (PGCs)分离与克隆的方法和PGCs与其胎儿生殖嵴周围组织细胞共同培养的方法获得类胚胎干细胞 (类 ES细胞 ) ,并对山羊类 ES细胞在不同饲养层上进行培养。结果表明 ,采用传统方法和共培养的方法并添加细胞因子均能分离获得类 ES细胞。分离获得的类ES细胞在同源 (山羊 )胎儿细胞饲养层上生长效果较好 ,可传 4代或 5代 ,而在小鼠原代成纤维细胞饲养层上类 ES细胞仅传 3代。另外 ,共培养不添加细胞因子组仅获 1个类 ES细胞集落 。 展开更多
关键词 分离 克隆 山羊 胚胎干细胞 原始生殖细胞 类ES细胞
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原始生殖细胞的发育调控及环境雌激素对其毒性效应的研究进展
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作者 付志琪 李振宇 +4 位作者 魏锦博 汪畅 程波 曹梦西 梁勇 《生态毒理学报》 CAS CSCD 北大核心 2024年第5期85-96,共12页
随着环境雌激素(environmental estrogens,EEs)在人体样本尤其是孕早期人体样本中频繁被检出,对于EEs的生殖健康风险研究开始关注其对原始生殖细胞(primordial germ cells,PGCs)发生和迁移的影响。PGCs是生殖细胞的前体细胞,经过特化、... 随着环境雌激素(environmental estrogens,EEs)在人体样本尤其是孕早期人体样本中频繁被检出,对于EEs的生殖健康风险研究开始关注其对原始生殖细胞(primordial germ cells,PGCs)发生和迁移的影响。PGCs是生殖细胞的前体细胞,经过特化、迁移、分化后生成精子或卵子,作为高等生物体生命延续的载体,其遗传稳定性对人体生殖健康至关重要。本文以小鼠及斑马鱼为例总结了PGCs发育过程及其关键调控因子,讨论了雌激素在PGCs发育中的作用及其调控方式,在此基础上综述了EEs对PGCs的毒性效应及其分子机制的研究进展。了解EEs对PGCs的毒性效应及分子机制研究进展,将为EEs的人体生殖健康风险评估提供更为精准的科学依据。 展开更多
关键词 环境雌激素 原始生殖细胞 毒性效应 分子机制 生殖健康风险
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细胞因子对鸡胚胎原始生殖细胞(EPGCs)增殖的影响 被引量:3
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作者 秦洁 李碧春 +3 位作者 陈国宏 徐琪 赵文明 吴圣龙 《中国生物工程杂志》 CAS CSCD 北大核心 2007年第4期34-38,共5页
采用MTT法分别检测mLIF、bFGF、hSCF、hIL-11四种细胞因子协同作用对体外培养的第19、28期鸡EPGCs生长的影响。结果表明与对照组相比较,19期的EPGCs体外培养72h后,mLIF、hSCF、bFGF、hIL-11对鸡EPGCs的增殖影响显著(P〈0.05)。mLIF的... 采用MTT法分别检测mLIF、bFGF、hSCF、hIL-11四种细胞因子协同作用对体外培养的第19、28期鸡EPGCs生长的影响。结果表明与对照组相比较,19期的EPGCs体外培养72h后,mLIF、hSCF、bFGF、hIL-11对鸡EPGCs的增殖影响显著(P〈0.05)。mLIF的最佳作用剂量是10-20ng/ml,hSCF的最佳作用剂量是15-20ng/ml,bFGF的最佳作用剂量是10-20ng/ml。hSCF、bFGF的联合使用优于单因子作用的结果(P〈0.05)。单独使用hIL-11时,细胞的增殖情况比其他三因子单独使用的效果较差,但OD均值有随剂量增高而上升的趋势。在与其他因子联合使用的情况下,hIL-11的最佳作用剂量为0.10-0.20ng/ml。 展开更多
关键词 胚胎原始生殖细胞(Epgcs) 体外培养 增殖
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饲养层及细胞因子对鸡PGCs体外培养的影响 被引量:2
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作者 张秋婷 苗向阳 安铁洙 《生物技术通报》 CAS CSCD 北大核心 2009年第6期55-58,共4页
原始生殖细胞(PGCs)具备发育全能性,而且数量较多,与数量较少的内细胞团(ICM)相比更有利于进行分离克隆。不同动物的PGCs的生长条件不同,因此建立适宜的培养体系是PGCs培养的关键。对饲养层细胞及细胞因子对鸡PGCs体外培养的影响作了简... 原始生殖细胞(PGCs)具备发育全能性,而且数量较多,与数量较少的内细胞团(ICM)相比更有利于进行分离克隆。不同动物的PGCs的生长条件不同,因此建立适宜的培养体系是PGCs培养的关键。对饲养层细胞及细胞因子对鸡PGCs体外培养的影响作了简单的介绍。 展开更多
关键词 原始生殖细胞 饲养层 细胞因子 细胞培养
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鸡原生殖细胞(PGCs)的提纯及其超低温保存 被引量:2
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作者 胡小芬 艾华水 《江西农业大学学报》 CAS CSCD 北大核心 2008年第6期981-985,共5页
利用密度梯度离心从孵化51~56h的鸡胚血液中提纯PGCs,通过形态鉴别和过碘酸-希夫试剂染色方法判定提纯的PGCs的纯度在80%左右。将提取到的PGCs放入到含有10%二甲基亚砜的TCM-199中,在液氮中进行保存。将超低温冷冻保存了1个月、... 利用密度梯度离心从孵化51~56h的鸡胚血液中提纯PGCs,通过形态鉴别和过碘酸-希夫试剂染色方法判定提纯的PGCs的纯度在80%左右。将提取到的PGCs放入到含有10%二甲基亚砜的TCM-199中,在液氮中进行保存。将超低温冷冻保存了1个月、6个月和12个月的PGCs(各3管)分别复苏后,用台盼蓝染色,通过红细胞计数板计数鉴定冷冻保存了不同时间的PGCs的平均存活率分别为91.7%、92.6%和91.9%。结果表明所采用的冷冻保存的方法是可行的。所采用的超低温冷冻保存方法简单易行,为今后以PGCs为目的细胞进行超低温冷冻,而后制作种系嵌合体进行保种的研究提供有利的实践基础。 展开更多
关键词 原生殖细胞 超低温保存
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内蒙古绒山羊原始生殖细胞(PGCs)的培养与鉴定 被引量:1
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作者 刘羿羿 赵丽霞 +2 位作者 李燕 白俊 周欢敏 《中国畜牧兽医》 CAS 北大核心 2010年第10期92-96,共5页
本试验从内蒙古白绒山羊胎儿的生殖嵴中分离出原始生殖细胞体外培养并进行了鉴定。为建立内蒙古绒山羊原始生殖细胞(pri mordial germcells,PGCs)的培养体系,试验对比了A、B、C3组不同的培养条件对内蒙古绒山羊原始生殖细胞传代数的影响... 本试验从内蒙古白绒山羊胎儿的生殖嵴中分离出原始生殖细胞体外培养并进行了鉴定。为建立内蒙古绒山羊原始生殖细胞(pri mordial germcells,PGCs)的培养体系,试验对比了A、B、C3组不同的培养条件对内蒙古绒山羊原始生殖细胞传代数的影响。RT-PCR鉴定结果表明,β-actin、hTERT、GAPDH、Nanog、Oct3/4为阳性、AKP染色为阳性;免疫荧光检测胚胎干细胞特异标志物Oct3/4、SSEA-3、SSEA-4呈阳性。未添加任何因子的A培养体系仅能传1代,添加LIF及Insulin的B培养体系可以传至4代,添加LIF、Insulin及优质胎牛血清的C组培养体系可以传至9代。 展开更多
关键词 原始生殖细胞 Oct3/4 免疫荧光 NANOG
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