Dna demethylation in pluripotency and reprogramming: The role of Tet proteins and cell division

BagciH.; FisherA.G.

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Dna demethylation in pluripotency and reprogramming: The role of Tet proteins and cell division

机译：Dna去甲基化的多能性和重编程：Tet蛋白和细胞分裂的作用

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Cytosine methylation is found in the genomes of many plants and animals and has been associated with transcriptional silencing in mammals. At critical stages in embryo development, when cellular potential is reset, DNA methylation is lost in a series of "sequential waves." The mechanism underlying this is controversial and complex. Several new reports now suggest that TET enzymes and cell division are important for these in vivo transitions as well as for experimentally induced reprogramming.

机译：胞嘧啶甲基化存在于许多动植物的基因组中，并与哺乳动物的转录沉默有关。在胚胎发育的关键阶段，当细胞电势复位时，DNA甲基化会在一系列“顺序波”中丢失。造成这种情况的机制是有争议的且复杂的。现在，一些新的报告表明，TET酶和细胞分裂对于这些体内转换以及实验诱导的重编程很重要。

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《Cell stem cell》 |2013年第3期|共5页
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BagciH.; FisherA.G.;
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正文语种 eng
中图分类细胞生物学;
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1. Dna demethylation in pluripotency and reprogramming: The role of Tet proteins and cell division [J] . BagciH., FisherA.G. Cell stem cell . 2013,第3期

机译：Dna去甲基化的多能性和重编程：Tet蛋白和细胞分裂的作用
2. AID in reprogramming: Quick and efficient: identification of a key enzyme called AID, and its activity in DNA demethylation, may help to overcome a pivotal epigenetic barrier in reprogramming somatic cells toward pluripotency [J] . Deng Wenbin BioEssays : . 2010,第5期

机译：重编程中的AID：快速有效：识别一种称为AID的关键酶及其在DNA去甲基化中的活性，可能有助于克服将体细胞重编程为多能性的关键表观遗传障碍。
3. DNA demethylation, Tet proteins and 5-hydroxymethylcytosine in epigenetic reprogramming: An emerging complex story [J] . Hill PeterW. S., Amouroux Rachel, Hajkova Petra Genomics . 2014,第5期

机译：表观遗传重编程中的DNA脱甲基，Tet蛋白和5-羟甲基胞嘧啶：一个新兴的复杂故事
4. Emerging pathogens with unusual cellular systems: characterising DNA replication, transcription and cell division proteins from Acinetobacter spp. bacteria [C] . Robinson A., Brzoska A.J., Turner K.M. Incorporating of the Australian Society for Biochemistry and Molecular Biology Combio . 2009

机译：具有不寻常的细胞系统的新出现病原体：表征DNA复制，转录和细胞分裂蛋白质来自Acinetobacter SPP。细菌
5. Dna methylation of endothelial cell-enriched genes during in vitro mouse ES cell differentiation and the role of TET proteins [D] . Vexelshtein, Olga. 2016

机译：小鼠胚胎干细胞体外分化过程中内皮细胞富集基因的Dna甲基化及TET蛋白的作用
6. Oplr16 serves as a novel chromatin factor to control stem cell fate by modulating pluripotency-specific chromosomal looping and TET2-mediated DNA demethylation [O] . Lin Jia, Yichen Wang, Cong Wang, 2020

机译：Oplr16通过调节多能性特异性染色体环和TET2介导的DNA脱甲基化作用成为控制干细胞命运的新型染色质因子
7. DNA Demethylation in Pluripotency and Reprogramming: The Role of Tet Proteins and Cell Division [O] . Bagci Hakan, Fisher Amanda G. 2013

机译：多能性和重编程中的DNA脱甲基作用：Tet蛋白和细胞分裂的作用

Dna demethylation in pluripotency and reprogramming: The role of Tet proteins and cell division

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