共查询到20条相似文献,搜索用时 15 毫秒
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Han DW Tapia N Joo JY Greber B Araúzo-Bravo MJ Bernemann C Ko K Wu G Stehling M Do JT Schöler HR 《Cell》2010,143(4):617-627
Embryonic stem cells (ESCs) comprise at least two populations of cells with divergent states of pluripotency. Here, we show that epiblast stem cells (EpiSCs) also comprise two distinct cell populations that can be distinguished by the expression of a specific Oct4-GFP marker. These two subpopulations, Oct4-GFP positive and negative EpiSCs, are capable of converting into each other in?vitro. Oct4-GFP positive and negative EpiSCs are distinct from ESCs with respect to global gene expression pattern, epigenetic profile, and Oct4 enhancer utilization. Oct4-GFP negative cells share features with cells of the late mouse epiblast and cannot form chimeras. However, Oct4-GFP positive EpiSCs, which only represent a minor EpiSC fraction, resemble cells of the early epiblast and can readily contribute to chimeras. Our findings suggest that the rare ability of EpiSCs to contribute to chimeras is due to the presence of the minor EpiSC fraction representing the early epiblast. 相似文献
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Geijsen N 《The EMBO journal》2012,31(10):2247-2248
Cell Stem Cell
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4, 425–439 (2012); published online April062012The release of epigenetic boundaries during epigenetic reprogramming is poorly understood. In the recent issue of Cell Stem Cell Journal, Gillich and colleagues identify a unique role for Prdm14 in the acceleration of this process (Gillich et al, 2012).Pluripotent stem cells can be established from pre-implantation blastocyst embryos (embryonic stem cells, ESCs) as well as from the post-implantation epiblast stem cells (EpiSCs; Chenoweth et al, 2010). Murine ESCs and EpiSCs both express central pluripotency factors such as Oct4, Nanog and Sox2, yet the different developmental origins of these two cell types is clearly reflected in their molecular, epigenetic and functional properties. Murine ESCs appear to exist in a unique ‘naive'' state reminiscent of the pre-implantation epiblast. They are characterized by the expression of germ cell–related genes, a remarkably open chromatin structure with two active X chromosomes, and the functional ability to contribute to chimera formation upon blastocyst complementation (Nichols and Smith, 2011). In contrast, EpiSCs reflect the properties of the post-implantation epiblast, characterized by low-level expression of early determinants of somatic differentiation, a near-absence of germ cell gene expression, inactivation of one of the X chromosomes and negligible ability to support the development of chimeric mice. The conversion of primed to naive pluripotent state requires the release of epigenetic restrictions that are established in the post-implantation epiblast. It is thus a reprogramming process akin to the derivation of induced pluripotent stem cells (iPSCs) from somatic cells. The results on Prdm14 from Gillich and colleagues offer new insights into the underlying molecular mechanisms governing epigenetic reprogramming. 相似文献
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Pluripotent stem cells, including induced pluripotent and embryonic stem cells (ESCs), have less developed mitochondria than somatic cells and, therefore, rely more heavily on glycolysis for energy production.1-3 However, how mitochondrial homeostasis matches the demands of nuclear reprogramming and regulates pluripotency in ESCs is largely unknown. Here, we identified ATG3-dependent autophagy as an executor for both mitochondrial remodeling during somatic cell reprogramming and mitochondrial homeostasis regulation in ESCs. Dysfunctional autophagy by Atg3 deletion inhibited mitochondrial removal during pluripotency induction, resulting in decreased reprogramming efficiency and accumulation of abnormal mitochondria in established iPSCs. In Atg3 null mouse ESCs, accumulation of aberrant mitochondria was accompanied by enhanced ROS generation, defective ATP production and attenuated pluripotency gene expression, leading to abnormal self-renewal and differentiation. These defects were rescued by reacquisition of wild-type but not lipidation-deficient Atg3 expression. Taken together, our findings highlight a critical role of ATG3-dependent autophagy for mitochondrial homeostasis regulation in both pluripotency acquirement and maintenance. 相似文献
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John R. Pearson Federico Zurita Laura Tomás-Gallardo Alfonsa Díaz-Torres María del Carmen Díaz de la Loza Kristian Franze María D. Martín-Bermudo Acaimo González-Reyes 《PLoS genetics》2016,12(1)
The extracellular matrix (ECM) is a pivotal component adult tissues and of many tissue-specific stem cell niches. It provides structural support and regulates niche signaling during tissue maintenance and regeneration. In many tissues, ECM remodeling depends on the regulation of MMP (matrix metalloproteinase) activity by inhibitory TIMP (tissue inhibitors of metalloproteinases) proteins. Here, we report that the only Drosophila timp gene is required for maintaining the normal organization and function of the germline stem cell niche in adult females. timp mutant ovaries show reduced levels of both Drosophila Collagen IV α chains. In addition, tissue stiffness and the cellular organization of the ovarian niche are affected in timp mutants. Finally, loss of timp impairs the ability of the germline stem cell niche to generate new cysts. Our results demonstrating a crucial role for timp in tissue organization and gamete production thus provide a link between the regulation of ECM metabolism and tissue homeostasis. 相似文献
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Quantitation of the common components of deoxyribonucleic acids by mass spectrometry: application to the analysis of DNAs of unusual composition 总被引:2,自引:2,他引:0 
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下载免费PDF全文 A mass spectral method for the quantitation of the percentages of deoxyadenosine, deoxyguanosine, deoxycytidine, and thymidine in intact DNAs has been devised. Standard curves for each nucleoside have been constructed which are based upon the observation that a direct correlation exists between the heights (% deflection) of diagnostic peaks from these nucleosides in a mass spectrum and the published percent composition of specific DNAs. Analyses of DNA from Clostridiumperfringens, Micrococcusluteus, Escherichiacoli, Bacillussubtilis, Pseudomonasfluorescens, Drosophilamelanogaster, salmon sperm, and bacteriophage lambda were used to determine standard curves. The validity of the method was demonstrated by comparison of the results from the mass spectral procedure with results from the chemical analyses of the DNAs from calf thymus and wheat germ. Analysis of ØX-174 DNA yielded values consistent with the published values obtained via sequence analysis and indicated that the method is applicable to both single and double-stranded DNAs. Results from T2 DNA, which contains no cytidine, exhibited artificially high values for adenosine, guanosine and thymidine with concomitant alteration in the A/T and G/C molar ratios. Such skewed results are useful in predicting the presence of modified nucleosides. The extreme sensitivity of the method has been exploited in the analysis of subnanogram quantities of restriction endonuclease fragments from DNA. 相似文献
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Existing methods for phenotypic selection of genetically modified mammalian cells suffer disadvantages of time, cost and scalability and, where antibodies are used to bind exogenous cell surface markers for magnetic selection, typically yield cells coated with antibody-antigen complexes and beads. To overcome these limitations we have developed a method termed Antibody-Free Magnetic Cell Sorting in which the 38 amino acid Streptavidin Binding Peptide (SBP) is displayed at the cell surface by the truncated Low Affinity Nerve Growth Receptor (LNGFRF) and used as an affinity tag for one-step selection with streptavidin-conjugated magnetic beads. Cells are released through competition with the naturally occurring vitamin biotin, free of either beads or antibody-antigen complexes and ready for culture or use in downstream applications. Antibody-Free Magnetic Cell Sorting is a rapid, cost-effective, scalable method of magnetic selection applicable to either viral transduction or transient transfection of cell lines or primary cells. We have optimised the system for enrichment of primary human CD4+ T cells expressing shRNAs and exogenous genes of interest to purities of >99%, and used it to isolate cells following Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)/Cas9 genome editing. 相似文献
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Chih-Yi Gabriela Lin Anna Christina Nger Thomas Lunardi Aleksandra Van
evska Grald Lossaint Joachim Lingner 《Nucleic acids research》2021,49(21):12119
Telomere shortening can cause detrimental diseases and contribute to aging. It occurs due to the end replication problem in cells lacking telomerase. Furthermore, recent studies revealed that telomere shortening can be attributed to difficulties of the semi-conservative DNA replication machinery to replicate the bulk of telomeric DNA repeats. To investigate telomere replication in a comprehensive manner, we develop QTIP-iPOND - Quantitative Telomeric chromatin Isolation Protocol followed by isolation of Proteins On Nascent DNA - which enables purification of proteins that associate with telomeres specifically during replication. In addition to the core replisome, we identify a large number of proteins that specifically associate with telomere replication forks. Depletion of several of these proteins induces telomere fragility validating their importance for telomere replication. We also find that at telomere replication forks the single strand telomere binding protein POT1 is depleted, whereas histone H1 is enriched. Our work reveals the dynamic changes of the telomeric proteome during replication, providing a valuable resource of telomere replication proteins. To our knowledge, this is the first study that examines the replisome at a specific region of the genome. 相似文献
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Steffen Nordzieke Thomas Zobel Benjamin Fr?nzel Dirk A. Wolters Ulrich Kück Ines Teichert 《Eukaryotic cell》2015,14(4):345-358
Sarcolemmal membrane-associated protein (SLMAP) is a tail-anchored protein involved in fundamental cellular processes, such as myoblast fusion, cell cycle progression, and chromosomal inheritance. Further, SLMAP misexpression is associated with endothelial dysfunctions in diabetes and cancer. SLMAP is part of the conserved striatin-interacting phosphatase and kinase (STRIPAK) complex required for specific signaling pathways in yeasts, filamentous fungi, insects, and mammals. In filamentous fungi, STRIPAK was initially discovered in Sordaria macrospora, a model system for fungal differentiation. Here, we functionally characterize the STRIPAK subunit PRO45, a homolog of human SLMAP. We show that PRO45 is required for sexual propagation and cell-to-cell fusion and that its forkhead-associated (FHA) domain is essential for these processes. Protein-protein interaction studies revealed that PRO45 binds to STRIPAK subunits PRO11 and SmMOB3, which are also required for sexual propagation. Superresolution structured-illumination microscopy (SIM) further established that PRO45 localizes to the nuclear envelope, endoplasmic reticulum, and mitochondria. SIM also showed that localization to the nuclear envelope requires STRIPAK subunits PRO11 and PRO22, whereas for mitochondria it does not. Taken together, our study provides important insights into fundamental roles of the fungal SLMAP homolog PRO45 and suggests STRIPAK-related and STRIPAK-unrelated functions. 相似文献
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Ying Zhang Fei Teng Guan-Zheng Luo Meng Wang Man Tong Xiaoyang Zhao Liu Wang Xiu-Jie Wang Qi Zhou 《The Journal of biological chemistry》2013,288(33):23659-23665
PRC2 (Polycomb repressive complex 2) mediates epigenetic gene silencing by catalyzing the triple methylation of histone H3 Lys-27 (H3K27me3) to establish a repressive epigenetic state. PRC2 is involved in the regulation of many fundamental biological processes and is especially essential for embryonic stem cells. However, how the formation and function of PRC2 are regulated is largely unknown. Here, we show that a microRNA encoded by the imprinted Dlk1-Dio3 region of mouse chromosome 12, miR-323-3p, targets Eed (embryonic ectoderm development) mRNA, which encodes one of the core components of PRC2, the EED protein. Binding of miR-323-3p to Eed mRNA resulted in reduced EED protein abundance and cellular H3K27me3 levels, indicating decreased PRC2 activity. Such regulation seems to be conserved among mammals, at least between mice and humans. We demonstrate that induced pluripotent stem cells with varied developmental abilities had different miR-323-3p as well as EED and H3K27me3 levels, indicating that miR-323-3p may be involved in the regulation of stem cell pluripotency through affecting PRC2 activity. Mouse embryonic fibroblast cells had much higher miR-323-3p expression and nearly undetectable H3K27me3 levels. These findings identify miR-323-3p as a new regulator for PRC2 and provide a new approach for regulating PRC2 activity via microRNAs. 相似文献
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Wei-Chun Huang Meng-Wei Ke Chin-Chang Cheng Shih-Hwa Chiou Shue-Ren Wann Chih-Wen Shu Kuan-Rau Chiou Ching-Jiunn Tseng Hung-Wei Pan Guang-Yuan Mar Chun-Peng Liu 《PloS one》2016,11(2)
Pulmonary arterial hypertension (PAH) is characterized by progressive increases in vascular resistance and the remodeling of pulmonary arteries. The accumulation of inflammatory cells in the lung and elevated levels of inflammatory cytokines in the bloodstream suggest that inflammation may play a role in PAH. In this study, the benefits of induced pluripotent stem cells (iPSCs) and iPSC-conditioned medium (iPSC CM) were explored in monocrotaline (MCT)-induced PAH rats. We demonstrated that both iPSCs and iPSC CM significantly reduced the right ventricular systolic pressure and ameliorated the hypertrophy of the right ventricle in MCT-induced PAH rats in models of both disease prevention and disease reversal. In the prevention of MCT-induced PAH, iPSC-based therapy led to the decreased accumulation of inflammatory cells and down-regulated the expression of the IL-1β, IL-6, IL-12α, IL-12β, IL-23 and IFNγ genes in lung specimens, which implied that iPSC-based therapy may be involved in the regulation of inflammation. NF-κB signaling is essential to the inflammatory cascade, which is activated via the phosphorylation of the NF-κB molecule. Using the chemical inhibitor specifically blocked the phosphorylation of NF-κB, and in vitro assays of cultured human M1 macrophages implied that the anti-inflammation effect of iPSC-based therapy may contribute to the disturbance of NF-κB activation. Here, we showed that iPSC-based therapy could restore the hemodynamic function of right ventricle with benefits for preventing the ongoing inflammation in the lungs of MCT-induced PAH rats by regulating NF-κB phosphorylation. 相似文献
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C-C chemokine receptor 5 (CCR5) is a receptor for chemokines and a co-receptor for HIV-1 entry into the target CD4+ cells. CCR5 delta 32 deletion is a loss-of-function mutation, resistant to HIV-1 infection. We tried to induce the CCR5 delta 32 mutation harnessing the genome editing technique, CRISPR-Cas9 (Clustered Regularly Interspaced Short Palindromic Repeats, CRISPR and CRISPR associated protein 9, Cas9) in the commonly used cell line human embryonic kidney HEK 293T cells. Surprisingly, we found that HEK293T cells are heterozygous for CCR5 delta 32 mutation, in contrast to the wild type CCR5 cells, human acute T cell leukemia cell line Jurkat and human breast adenocarcinoma cell line MDA-MB-231 cells. This finding indicates that at least one human cell line is heterozygous for the CCR5 delta 32 mutation. We also found that in PCR amplification, wild type CCR5 DNA and mutant delta 32 DNA can form mismatched heteroduplex and move slowly in gel electrophoresis. 相似文献
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CRISPR-STAT: an easy and reliable PCR-based method to evaluate target-specific sgRNA activity 总被引:1,自引:0,他引:1
Blake Carrington Gaurav K. Varshney Shawn M. Burgess Raman Sood 《Nucleic acids research》2015,43(22):e157
CRISPR/Cas9 has emerged as a versatile genome-engineering tool that relies on a single guide RNA (sgRNA) and the Cas9 enzyme for genome editing. Simple, fast and economical methods to generate sgRNAs have made targeted mutagenesis routine in cultured cells, mice, zebrafish and other model systems. Pre-screening of sgRNAs for target efficacy is desirable both for successful mutagenesis and minimizing wasted animal husbandry on targets with poor activity. Here, we describe an easy, quick and cost-effective fluorescent polymerase chain reaction (PCR)-based method, CRISPR Somatic Tissue Activity Test (CRISPR-STAT), to determine target-specific efficiency of sgRNA. As a proof of principle, we validated our method using 28 sgRNAs with known and varied levels of germline transmission efficiency in zebrafish by analysis of their somatic activity in injected embryos. Our data revealed a strong positive correlation between the fluorescent PCR profiles of the injected embryos and the germline transmission efficiency. Furthermore, the assay was sensitive enough to evaluate multiplex gene targeting. This method is easy to implement by laboratories with access to a capillary sequencer. Although we validated the method using CRISPR/Cas9 and zebrafish, it can be applied to other model systems and other genome targeting nucleases. 相似文献
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Hamanaka S Yamaguchi T Kobayashi T Kato-Itoh M Yamazaki S Sato H Umino A Wakiyama Y Arai M Sanbo M Hirabayashi M Nakauchi H 《PloS one》2011,6(7):e22008