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Journal Abstract Search

378 related items for PubMed ID: 26937014

  • 1. Hydroxymethylation of microRNA-365-3p Regulates Nociceptive Behaviors via Kcnh2.
    Pan Z, Zhang M, Ma T, Xue ZY, Li GF, Hao LY, Zhu LJ, Li YQ, Ding HL, Cao JL.
    J Neurosci; 2016 Mar 02; 36(9):2769-81. PubMed ID: 26937014
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  • 5. Epigenetic silencing of TET2 and TET3 induces an EMT-like process in melanoma.
    Gong F, Guo Y, Niu Y, Jin J, Zhang X, Shi X, Zhang L, Li R, Chen L, Ma RZ.
    Oncotarget; 2017 Jan 03; 8(1):315-328. PubMed ID: 27852070
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  • 7. MicroRNA-29b/Tet1 regulatory axis epigenetically modulates mesendoderm differentiation in mouse embryonic stem cells.
    Tu J, Ng SH, Luk AC, Liao J, Jiang X, Feng B, Lun Mak KK, Rennert OM, Chan WY, Lee TL.
    Nucleic Acids Res; 2015 Sep 18; 43(16):7805-22. PubMed ID: 26130713
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  • 8. Role of ten-eleven translocation proteins and 5-hydroxymethylcytosine in hepatocellular carcinoma.
    Wang P, Yan Y, Yu W, Zhang H.
    Cell Prolif; 2019 Jul 18; 52(4):e12626. PubMed ID: 31033072
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  • 9. Altering TET dioxygenase levels within physiological range affects DNA methylation dynamics of HEK293 cells.
    Grosser C, Wagner N, Grothaus K, Horsthemke B.
    Epigenetics; 2015 Jul 18; 10(9):819-33. PubMed ID: 26186463
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  • 10. Distinct and overlapping control of 5-methylcytosine and 5-hydroxymethylcytosine by the TET proteins in human cancer cells.
    Putiri EL, Tiedemann RL, Thompson JJ, Liu C, Ho T, Choi JH, Robertson KD.
    Genome Biol; 2014 Jun 23; 15(6):R81. PubMed ID: 24958354
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  • 11. MYC deregulates TET1 and TET2 expression to control global DNA (hydroxy)methylation and gene expression to maintain a neoplastic phenotype in T-ALL.
    Poole CJ, Lodh A, Choi JH, van Riggelen J.
    Epigenetics Chromatin; 2019 Jul 02; 12(1):41. PubMed ID: 31266538
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  • 12. Specific functions of TET1 and TET2 in regulating mesenchymal cell lineage determination.
    Cakouros D, Hemming S, Gronthos K, Liu R, Zannettino A, Shi S, Gronthos S.
    Epigenetics Chromatin; 2019 Jan 03; 12(1):3. PubMed ID: 30606231
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  • 13. Role of Tet proteins in 5mC to 5hmC conversion, ES-cell self-renewal and inner cell mass specification.
    Ito S, D'Alessio AC, Taranova OV, Hong K, Sowers LC, Zhang Y.
    Nature; 2010 Aug 26; 466(7310):1129-33. PubMed ID: 20639862
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  • 14. A novel cancer-germline transcript carrying pro-metastatic miR-105 and TET-targeting miR-767 induced by DNA hypomethylation in tumors.
    Loriot A, Van Tongelen A, Blanco J, Klaessens S, Cannuyer J, van Baren N, Decottignies A, De Smet C.
    Epigenetics; 2014 Aug 26; 9(8):1163-71. PubMed ID: 25089631
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  • 15. Ten-eleven translocation (Tet) and thymine DNA glycosylase (TDG), components of the demethylation pathway, are direct targets of miRNA-29a.
    Zhang P, Huang B, Xu X, Sessa WC.
    Biochem Biophys Res Commun; 2013 Aug 02; 437(3):368-73. PubMed ID: 23820384
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  • 17. Differential expression of ten-eleven translocation genes in endometrial cancers.
    Ciesielski P, Jóźwiak P, Wójcik-Krowiranda K, Forma E, Cwonda Ł, Szczepaniec S, Bieńkiewicz A, Bryś M, Krześlak A.
    Tumour Biol; 2017 Mar 02; 39(3):1010428317695017. PubMed ID: 28349832
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  • 19. 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 02; 1866(6):158919. PubMed ID: 33684567
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  • 20. Simultaneous deletion of the methylcytosine oxidases Tet1 and Tet3 increases transcriptome variability in early embryogenesis.
    Kang J, Lienhard M, Pastor WA, Chawla A, Novotny M, Tsagaratou A, Lasken RS, Thompson EC, Surani MA, Koralov SB, Kalantry S, Chavez L, Rao A.
    Proc Natl Acad Sci U S A; 2015 Aug 04; 112(31):E4236-45. PubMed ID: 26199412
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