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Different Roles for Tet1 and Tet2 Proteins in Reprogramming-Mediated Erasure of Imprints Induced by EGC Fusion

机译：Tet1和Tet2蛋白在重编程介导的EGC融合诱导的印迹消除中的不同作用。

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Genomic imprinting directs the allele-specific marking and expression of loci according to their parental origin. Differential DNA methylation at imprinted control regions (ICRs) is established in gametes and, although largely preserved through development, can be experimentally reset by fusing somatic cells with embryonic germ cell (EGC) lines. Here, we show that the Ten-Eleven Translocation proteins Tet1 and Tet2 participate in the efficient erasure of imprints in this model system. The fusion of B cells with EGCs initiates pluripotent reprogramming, in which rapid re-expression of Oct4 is accompanied by an accumulation of 5-hydroxymethylcytosine (5hmC) at several ICRs. Tet2 was required for the efficient reprogramming capacity of EGCs, whereas Tet1 was necessary to induce 5-methylcytosine oxidation specifically at ICRs. These data show that the Tet1 and Tet2 proteins have discrete roles in cell-fusion-mediated pluripotent reprogramming and imprint erasure in somatic cells. © 2013 Elsevier Inc.

机译：基因组印迹根据其亲本来源指导等位基因特异性标记和基因座表达。在配子中建立了在印迹控制区（ICR）的差异DNA甲基化，尽管通过发育在很大程度上得以保留，但可以通过将体细胞与胚胎生殖细胞（EGC）融合来进行实验重置。在这里，我们显示了十一个十一易位蛋白Tet1和Tet2参与此模型系统中烙印的有效擦除。 B细胞与EGC的融合启动了多能性重编程，其中Oct4的快速重新表达伴随着5-羟甲基胞嘧啶（5hmC）在几个ICR处的积累。 Tet2是EGC的有效重编程能力所必需的，而Tet1是诱导5-甲基胞嘧啶在ICR上特异性氧化所必需的。这些数据表明，Tet1和Tet2蛋白在体细胞中细胞融合介导的多能性重编程和印迹清除中具有离散的作用。 ©2013爱思唯尔公司。

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Piccolo, FM; Bagci, H; Brown, KE; Landeira, D; Soza-Ried, J; Feytout, A; Mooijman, D; Hajkova, P; Leitch, HG; Tada, T; Kriaucionis, S; Dawlaty, MM; Jaenisch, R; Merkenschlager, M; Fisher, AG;
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1. Different Roles for Tet1 and Tet2 Proteins in Reprogramming-Mediated Erasure of Imprints Induced by EGC Fusion [J] . PiccoloF.M., BagciH., BrownK.E., Molecular cell . 2013 ,第6期

机译：Tet1和Tet2蛋白在重新编程介导的EGC融合诱导的印迹消除中的不同作用。
2. Stage-specific roles for Tet1 and Tet2 in DNA demethylation in primordial germ cells [J] . VincentJ.J., HuangY., ChenP.-Y., Cell stem cell . 2013 ,第4期

机译：Tet1和Tet2在原始生殖细胞DNA脱甲基中的阶段特异性作用
3. Role of Tetl in erasure of genomic imprinting [J] . Shinpei Yamaguchi, Li Shen, Yuting Liu, Nature . 2013 ,第7480期

机译：Tetl在消除基因组印迹中的作用
4. Peptide-induced membrane fusion: Towards the understanding of the mechanism of protein-induced fusion [C] . Dick Hoekstra, Isabelle Martin, Jean-Marie Ruysschaert, International symposium on controlled release of bioactive materials;Consumer and diversified products conference . 2000

机译：肽诱导的膜融合：对蛋白质诱导的融合机理的理解
5. Exploring the Role of TET1 in Genomic Imprinting [D] . Myers SanMiguel, Jennifer. 2018

机译：探索TET1在基因组印记中的作用
6. Different Roles for Tet1 and Tet2 Proteins in Reprogramming-Mediated Erasure of Imprints Induced by EGC Fusion [O] . Francesco M. Piccolo, Hakan Bagci, Karen E. Brown, -1

机译：Tet1和Tet2蛋白在重编程介导的EGC融合诱导的印迹消除中的不同作用。
7. Errata to Different roles for tet1 and tet2 proteins in reprogramming-mediated erasure of imprints induced by egc fusion [Molecular Cell, 49 (2013) 1023-1033] [O] . Piccolo, FM, Bagci, H, Brown, KE, 2013

机译：对于ete1和tet2蛋白在重新编程介导的egc融合诱导的印迹清除中的不同作用，有勘误表[Molecular Cell，49（2013）1023-1033]

Different Roles for Tet1 and Tet2 Proteins in Reprogramming-Mediated Erasure of Imprints Induced by EGC Fusion

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