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1.
目的:建立性激素结合球蛋白(SHBG)基因条件敲除小鼠模型,为探讨胎盘组织中SHBG在体内的生理功能及其与妊娠期糖尿病发病关系提供实验手段。方法:首先运用生物信息学手段确定小鼠SHBG基因组序列,构建SHBG打靶载体,以电穿孔方法将其导入小鼠ES细胞,筛选培养阳性ES细胞并行PCR鉴定,并将正确同源重组的ES细胞注射进小鼠囊胚,移入受体小鼠子宫;将获得的嵌合体小鼠与C57BL/6J小鼠交配,筛选后获得Flox小鼠,该小鼠与EIIa-Cre转基因小鼠杂交,子代多次自交获得SHBG全身基因敲除(SHBG~(-/-))的小鼠。结果:运用同源重组及ES细胞技术建立了SHBG基因的Flox小鼠,并利用Cre/Loxp重组酶系统建立了SHBG基因全身敲除小鼠模型,PCR方法从基因水平证明了SHBG基因Flox小鼠及SHBG基因全身敲除小鼠模型建立成功。对基因敲除鼠进行初步表型分析发现:SHBG基因全身敲除小鼠的生长发育与野生型小鼠相比无明显肉眼所见异常,SHBG基因全身敲除雌雄小鼠均具有生殖能力。结论:成功建立SHBG基因全身敲除小鼠模型,通过对基因敲除鼠进行初步表型分析,发现SHBG基因全身敲除小鼠外观上发育正常,为进一步研究SHBG在妊娠期糖尿病中的作用奠定了基础。  相似文献   

2.
ES细胞是建立基因打靶突变小鼠的必要条件 ,也可用于制备转基因动物 .基因敲除、精细突变和条件性基因打靶技术建立的基因打靶突变小鼠在人类遗传病机理研究、基因治疗和基因功能研究方面都有着重要作用 .  相似文献   

3.
基因敲除与学习、记忆:现状、问题和展望   总被引:1,自引:0,他引:1  
基因敲除技术的应用使学习、记忆分子机制的研究出现了新的突破.目前已报道了多种学习、记忆以及LTP、LTD有缺陷的基因敲除动物,发现多种基因在学习、记忆的形成过程中必不可少.然而,现有研究的一个较大问题是忽视了遗传背景基因在表型改变中的作用,被认为由突变靶基因造成的表型缺陷实际上可能是由背景基因而不是由突变基因造成的.要排除背景基因的作用,必须建立新的ES细胞,选择纯遗传背景的小鼠品系,并且在时间、范围和程度上对基因敲除进行精细的控制.  相似文献   

4.
锌指核酸内切酶:基因操作的有力工具   总被引:1,自引:0,他引:1  
针对动植物进行基因靶向操作的技术,是解析基因功能、研究疾病,以及农业经济生产中一个有用的工具。至今,基因靶向操作主要是通过在胚胎干细胞(embryonic stem cell,ES cell)中进行同源重组或者是体细胞核转移的方法进行,但同源重组方法由于需要ES细胞而被限制在个别物种,而核转移方法存在核去分化、效率低、成本高的缺陷。近几年,一种基于锌指核酸内切酶(zinc-finger nuclease,ZFN)基因靶向修饰的新技术被应用于包括植物、果蝇、爪蟾、斑马鱼和大鼠等不同物种的基因操作。通过胚胎注射ZFN的质粒或是mRNA可以有效地定靶并迅速地在内源基因上引起可遗传的突变。ZFN介导基因靶向敲除的可行性,使得那些无法获得ES细胞和克隆技术支持的物种的基因靶向修饰成为可能。  相似文献   

5.
鱼类的胚胎干细胞   总被引:6,自引:1,他引:6  
胚胎干细胞(ES)是未分化的细胞培养物,来自动物的早期胚胎。它们能成为稳定的细胞系和长期冻存。在适当的条件下,ES细胞能分化成各种细胞类型,包括生殖细胞。这样,ES细胞就提供了一个有效的纽带,将动物基因组的体外和体内遗传操作连系起来。ES细胞的魅力就由其在产生和分析基因敲除老鼠中显现出来。目前,ES细胞技术仅见之老鼠,因其它脊椎动物的ES细胞的培养和建系难获成功。在鱼类,人们已做了大量的尝试。我们以青鳉(Oryzias latipes)作为建立鱼类ES细胞技术的模式,通过建立并应用无滋养层细胞的培养条件,获得了来自中期囊胚的ES细胞系。青鳉的ES细胞和老鼠的ES细胞有很多共同特征,如二倍体核型、分化潜力和形成嵌合体。因此,在鱼类建立和应用ES细胞技术是可能的。青鳉ES细胞的培养条件已成功地应用到其它鱼类如斑马鱼甚至海水鱼。本文旨在以青鳉为模式,综述获得和应用模式鱼和经济鱼ES细胞的主要进展和前景。  相似文献   

6.
干细胞生物学研究进展   总被引:3,自引:0,他引:3  
自从1981年小鼠胚胎干细胞(Embryonicstemcell,ES细胞)分离培养成功以来,人们又致力于羊、猪、牛等大型动物胚胎干细胞研究,因为ES细胞在培养细胞与个体发育和体细胞与生殖细胞之间架起了桥梁。ES细胞可以作为遗传物质的载体来改造动物和研究基因对胚胎发育的影响。人体胚胎干细胞培养成功是干细胞生物学技术又一重大突破,它与动物体细胞克隆技术相结合,给组织器官工程带来美好前景。1 人体胚胎干细胞Thomson和Gearhart2个研究小组分别采用不同教材成功培养人体ES细胞,如图1示:图1  根据鼠ES细胞研究结果,推测人体ES细胞基础和临床…  相似文献   

7.
8.
目的:研究Rictor基因对胚胎发育过程中胎肝造血的影响。方法:利用Cre-LoxP基因敲除系统,特异性在小鼠内皮(VEC-Cre)和造血(Vav1-Cre)系统敲除Rictor基因;通过流式细胞术分析特异敲除Rictor基因后小鼠胚胎第15 d胎肝中的各系细胞比例的变化,并进一步分析造血干细胞的变化。结果:利用VEC-Cre和Vav1-Cre小鼠敲除Rictor基因后,胎肝中各系细胞比例均有所减少,B细胞比例的减少较为明显,造血干细胞比例也明显减少。结论:Rictor基因敲除损害胎肝组织中造血干细胞的产生和各系细胞的分化。  相似文献   

9.
本文以小鼠胚胎干细胞ES-5细胞为实验模型,研究了RARγ基因表达对RA诱导ES细胞分化的影响。通过把构建质粒pSG5-RARγ-neo转染ES-5细胞,获得了过度表达RARγ基因的ES-γ细胞系。ES-γ细胞保持了ES细胞的干细胞特点。体内分化潜能的研究表明,ES-γ细胞仍然保持分化多潜能性的特点,能分化形成各种组织结构,但与ES-5细胞相比,观察不到软骨组织,而肌肉组织和鳞状上皮细胞构成的角质化囊状结构较丰富。体外诱导分化研究表明,ES-γ细胞分化方向受到干扰,向成纤维样细胞分化。这些结果表明RARγ基因参与了RA诱导ES细胞分化的过程,而且RARγ基因的表达变化影响了RA诱导ES细胞分化的细胞类型。在研究中还发现,ES细胞在RA诱导分化过程中,同时还发生了细胞凋亡现象。细胞凋亡的发生与RA浓度相关,而RARγ基因的过度表达使细胞凋亡明显加剧。这些结果表明RARγ基因可能也参与了RA诱导ES细胞凋亡的过程。  相似文献   

10.
通过外源转录调控因子的诱导,使成体细胞重编程为胚胎干细胞(ES细胞)样的多能细胞,这种细胞称为诱导多能干细胞(iPS细胞),这一方法被称为iPS技术。目前,iPS技术已先后在小鼠、人、猕猴、大鼠和猪中成功应用,建立了相应的iPS细胞系,并获得了iPS细胞嵌合小鼠和四倍体克隆小鼠。尽管iPS与ES细胞在形态和生长特性上有许多相同之处,但iPS细胞的建立需要较独特的诱导培养体系和鉴定方法。以下结合近年来iPS技术的发展和本实验室的相关研究,对iPS细胞的建立和培养体系的优化进行了深入探讨。  相似文献   

11.
The ability to “knockout” specific genes in mice via embryonic stem (ES) cell-based gene-targeting technology has significantly enriched our understanding of gene function in normal and disease phenotypes. Improvements on this original strategy have been developed to enable the manipulation of genomes in a more sophisticated fashion with unprecedented precision. The rat is the model of choice in many areas of scientific investigation despite the lack of rat genetic toolboxes. Most recent advances of zinc finger nucleases (ZFNs) and rat ES cells are diminishing the gap between rat and mouse with respect to reverse genetic approaches. Importantly, the establishment of rat ES cell-based gene targeting technology, in combination with the unique advantages of using rats, provides new, exciting opportunities to create animal models that mimic human diseases more faithfully. We hereby report our recent results concerning finer genetic modifications in the rat, and propose their potential applications in addressing biological questions.Key words: genetic manipulation, gene targeting, conditional knockout, transgenic animal, rat model, p53 knockout rat, embryonic stem cells  相似文献   

12.
The ability to “knockout” specific genes in mice via embryonic stem (ES) cell-based gene-targeting technology has significantly enriched our understanding of gene function in normal and disease phenotypes. Improvements on this original strategy have been developed to enable the manipulation of genomes in a more sophisticated fashion with unprecedented precision. The rat is the model of choice in many areas of scientific investigation despite the lack of rat genetic toolboxes. Most Recent advances of zinc finger nucleases (ZFNs) and rat ES cells are diminishing the gap between rat and mouse with respect to reverse genetic approaches. Importantly, the establishment of rat ES cell-based gene targeting technology, in combination with the unique advantages of using rats, provides new, exciting opportunities to create animal models that mimic human diseases more faithfully. We hereby report our recent results concerning finer genetic modifications in the rat, and propose their potential applications in addressing biological questions.  相似文献   

13.
Tong C  Huang G  Ashton C  Li P  Ying QL 《Nature protocols》2011,6(6):827-844
We describe here a detailed protocol for generating gene knockout rats by homologous recombination in embryonic stem (ES) cells. This protocol comprises the following procedures: derivation and expansion of rat ES cells, construction of gene-targeting vectors, generation of gene-targeted rat ES cells and, finally, production of gene-targeted rats. The major differences between this protocol and the classical mouse gene-targeting protocol include ES cell culture methods, drug selection scheme, colony picking and screening strategies. This ES cell-based gene-targeting technique allows sophisticated genetic modifications to be performed in the rat, as many laboratories have been doing in the mouse for the past two decades. Recently we used this protocol to generate Tp53 (also known as p53) gene knockout rats. The entire process requires ~1 year to complete, from derivation of ES cells to generation of knockout rats.  相似文献   

14.
Embryonic stem (ES) cell-based gene manipulation is an effective method for the generation of mutant animal models in mice and rats. Availability of germline-competent ES cell lines from inbred rat strains would allow for creation of new genetically modified models in the desired genetic background. Fischer344 (F344) males carrying an enhanced green fluorescence protein (EGFP) transgene were used as the founder animals for the derivation of ES cell lines. After establishment of ES cell lines, rigorous quality control testing that included assessment of pluripotency factor expression, karyotype analysis, and pathogen/sterility testing was conducted in selected ES cell lines. One male ES cell line, F344-Tg.EC4011, was further evaluated for germline competence by injection into Dark Agouti (DA) X Sprague Dawley (SD) blastocysts. Resulting chimeric animals were bred with wild-type SD mates and germline transmissibility of the ES cell line was confirmed by identification of pups carrying the ES cell line-derived EGFP transgene. This is the first report of a germline competent F344 ES cell line. The availability of a new germline competent ES cell line with a stable fluorescence reporter from an inbred transgenic rat strain provides an important new resource for genetic manipulations to create new rat models.  相似文献   

15.
Embryonic stem (ES) cells are isolated from the inner cell mass of a blastocyst, and are used for the generation of gene-modified animals. In mice, the transplantation of gene-modified ES cells into recipient blastocysts leads to the creation of gene-targeted mice such as knock-in and knock-out mice; these gene-targeted mice contribute greatly to scientific development. Although the rat is considered a useful laboratory animal alongside the mouse, fewer gene-modified rats have been produced due to the lack of robust establishment methods for rat ES cells. A new method for establishing rat ES cells using signaling inhibitors was reported in 2008. By considering the characteristics of rat ES cells, recent research has made progress in improving conditions for the stable culture of rat ES cells in order to generate gene-modified rats efficiently. In this review, we summarize several advanced methods to maintain rat ES cells and generate gene-targeted rats.  相似文献   

16.
C57BL/6 is a well-characterized mouse strain that is used extensively for immunological and neurological research. The establishment of C57BL/6 ES cell lines has facilitated the study of gene-altered mice in a pure genetic background-however, relatively few such lines exist. Using a defined media supplement, knockout serum replacement (KSR) with knockout DMEM (KSR-KDMEM), we find that we can readily establish ES cell lines from blastocysts of C57BL/6J mice. Six lines were established, all of which were karyotypically normal and could be maintained in the undifferentiated state on mouse embryonic fibroblast (MEF) feeders. One line was further tested and found to be karyotypically stable and germline competent, both prior to manipulation and after gene targeting. For this cell line, efficiencies of cell cloning and chimera generation were greater when maintained in KSR-KDMEM. Our work suggests that the use of defined serum-free media may facilitate the generation of ES cells from inbred mouse strains.  相似文献   

17.
One of the remarkable achievements in knockout (KO) rat production reported during the period 2008-2010 is the derivation of authentic embryonic stem (ES) cells from rat blastocysts using a novel culture medium containing glycogen synthase kinase 3 and mitogen-activated protein kinase kinase inhibitors (2i medium). Here, we report gene-targeting technology via homologous recombination in rat ES cells, demonstrating its use through production of a protease-activated receptor-2 gene (Par-2) KO rat. We began by generating germline-competent ES cells from Dark Agouti rats using 2i medium. These ES cells, which differentiate into cardiomyocytes in vitro, can produce chimeras with high ES cell contribution when injected into blastocysts. We then introduced a targeting vector with a neomycin-resistant gene driven by the CAG promoter to disrupt Par-2. After a 7-day drug selection, 489 neomycin-resistant colonies were obtained. Following screening by polymerase chain reaction (PCR) genotyping and quantitative PCR analysis, we confirmed three homologous recombinant clones, resulting in chimeras that transmitted the Par-2 targeted allele to offspring. Par-2 KO rats showed a loss of Par-2 messenger RNA expression in their stomach cells and a lack of PAR-2 mediated smooth muscle relaxation in the aorta as indicated by pharmacological testing. Compared with mice, rats offer many advantages in biomedical research, including a larger body size; consequently, they are widely used in scientific investigation. Thus, the establishment of a gene-targeting technology using rat ES cells will be a valuable tool in human disease model production and drug discovery.  相似文献   

18.
Tong C  Huang G  Ashton C  Wu H  Yan H  Ying QL 《遗传学报》2012,39(6):275-280
  相似文献   

19.
吴昭  成璐  肖磊 《生命科学》2009,(5):658-662
胚胎干细胞(embryonic stem cells,ESC)在人类遗传病学研究、疾病模型建立、器官再生以及动物物种改良和定向变异等方面的地位是其他类型的细胞不可取代的。但是,由于实验技术和体外培养条件的限制,除了小鼠、恒河猴和人之外,大鼠、猪、牛、羊等其他哺乳动物的ES细胞系被证明很难获得。先后有多个研究小组报道了他们利用新兴的诱导多能干细胞(induced pluripotent stem cells,iPS细胞)技术成功建立大鼠和猪的iPS细胞系的研究成果。迄今为止,这两个物种是在未成功建立ES细胞系之前利用iPS技术建立多能干细胞系的成功范例。这些研究对于那些还未建立ES细胞的物种建立多能干细胞系提供了一种新的方案,也将给这些物种的胚胎干细胞的建立、基因修饰动物的产生以及人类医疗事业的促进和发展带来新的希望。  相似文献   

20.
Mouse embryonic stem (ES) cells with the C57BL/6 genetic background allow the generation of knockout mice without the need to backcross to C57BL/6. However, C57BL/6 ES cells whose pluripotency after homologous recombination has been confirmed are not yet available from public cell banks. To facilitate the use of ES cells derived from C57BL/6 sublines in both biologic and medical research, we demonstrated that the use of knockout serum replacement as a medium supplement and 8-cell blastomeres as recipient embryos allowed establishment of ES cells and production of germline chimeric mice, respectively. Under effective conditions, a large number of ES cell lines were established from C57BL/6J and C57BL/6N blastocysts. The majority of ES cells in many cell lines obtained from both strains showed a normal chromosome number. Germline chimeric mice were generated from C57BL/6J and C57BL/6N ES cells. Finally, the ES cell line B6J-S1UTR, derived from C57BL/6J, was used for successful production of gene knockout mice. C57BL/6J ES (B6J-S1UTR and B6J-23UTR) and C57BL/6N ES (B6N-22UTR) cells are available from the cell bank of the BioResource Center at RIKEN Tsukuba Institute (http://www.brc.riken.jp/lab/cell/english/).  相似文献   

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