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Journal Abstract Search

590 related items for PubMed ID: 24390346

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  • 22. TET1 promotes RXRα expression and adipogenesis through DNA demethylation.
    Qian H, Zhao J, Yang X, Wu S, An Y, Qu Y, Li Z, Ge H, Li E, Qi W.
    Biochim Biophys Acta Mol Cell Biol Lipids; 2021 Jun; 1866(6):158919. PubMed ID: 33684567
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  • 23. Conversion of 5-methylcytosine to 5-hydroxymethylcytosine in mammalian DNA by MLL partner TET1.
    Tahiliani M, Koh KP, Shen Y, Pastor WA, Bandukwala H, Brudno Y, Agarwal S, Iyer LM, Liu DR, Aravind L, Rao A.
    Science; 2009 May 15; 324(5929):930-5. PubMed ID: 19372391
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  • 29. Comparative dynamics of 5-methylcytosine reprogramming and TET family expression during preimplantation mammalian development in mouse and sheep.
    Jafarpour F, Hosseini SM, Ostadhosseini S, Abbasi H, Dalman A, Nasr-Esfahani MH.
    Theriogenology; 2017 Feb 15; 89():86-96. PubMed ID: 28043375
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  • 34. Genome-wide analysis reveals TET- and TDG-dependent 5-methylcytosine oxidation dynamics.
    Shen L, Wu H, Diep D, Yamaguchi S, D'Alessio AC, Fung HL, Zhang K, Zhang Y.
    Cell; 2013 Apr 25; 153(3):692-706. PubMed ID: 23602152
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  • 36. Flanking sequences influence the activity of TET1 and TET2 methylcytosine dioxygenases and affect genomic 5hmC patterns.
    Adam S, Bräcker J, Klingel V, Osteresch B, Radde NE, Brockmeyer J, Bashtrykov P, Jeltsch A.
    Commun Biol; 2022 Jan 24; 5(1):92. PubMed ID: 35075236
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  • 37. Generation and replication-dependent dilution of 5fC and 5caC during mouse preimplantation development.
    Inoue A, Shen L, Dai Q, He C, Zhang Y.
    Cell Res; 2011 Dec 24; 21(12):1670-6. PubMed ID: 22124233
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  • 38. TET-mediated active DNA demethylation: mechanism, function and beyond.
    Wu X, Zhang Y.
    Nat Rev Genet; 2017 Sep 24; 18(9):517-534. PubMed ID: 28555658
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