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ab10483 has been referenced in 34 publications.

  • Sherrard A  et al. Streamlined histone-based fluorescence lifetime imaging microscopy (FLIM) for studying chromatin organisation. Biol Open 7:N/A (2018). PubMed: 29535103
  • Pavlaki I  et al. The long non-coding RNA Paupar promotes KAP1-dependent chromatin changes and regulates olfactory bulb neurogenesis. EMBO J 37:N/A (2018). PubMed: 29661885
  • Durant ST  et al. The brain-penetrant clinical ATM inhibitor AZD1390 radiosensitizes and improves survival of preclinical brain tumor models. Sci Adv 4:eaat1719 (2018). PubMed: 29938225
  • Cassano M  et al. Polyphenic trait promotes liver cancer in a model of epigenetic instability in mice. Hepatology 66:235-251 (2017). PubMed: 28370258
  • Li J  et al. TRIM28 interacts with EZH2 and SWI/SNF to activate genes that promote mammosphere formation. Oncogene 36:2991-3001 (2017). PubMed: 28068325
  • Wang C  et al. ATM-Deficient Colorectal Cancer Cells Are Sensitive to the PARP Inhibitor Olaparib. Transl Oncol 10:190-196 (2017). WB . PubMed: 28182994
  • Czerwinska P  et al. TRIM28 multi-domain protein regulates cancer stem cell population in breast tumor development. Oncotarget 8:863-882 (2017). WB ; Human . PubMed: 27845900
  • Qi Z  et al. miR-491 regulates glioma cells proliferation by targeting TRIM28 in vitro. BMC Neurol 16:248 (2016). WB ; Human . PubMed: 27905892
  • Lakisic G  et al. Role of the BAHD1 Chromatin-Repressive Complex in Placental Development and Regulation of Steroid Metabolism. PLoS Genet 12:e1005898 (2016). PubMed: 26938916
  • Anvar Z  et al. ZFP57 recognizes multiple and closely spaced sequence motif variants to maintain repressive epigenetic marks in mouse embryonic stem cells. Nucleic Acids Res 44:1118-32 (2016). ChIP . PubMed: 26481358
  • Mita P  et al. URI Regulates KAP1 Phosphorylation and Transcriptional Repression via PP2A Phosphatase in Prostate Cancer Cells. J Biol Chem 291:25516-25528 (2016). PubMed: 27780869
  • McKenna B  et al. Dynamic recruitment of functionally distinct Swi/Snf chromatin remodeling complexes modulates Pdx1 activity in islet ß cells. Cell Rep 10:2032-42 (2015). PubMed: 25801033
  • Elsässer SJ  et al. Histone H3.3 is required for endogenous retroviral element silencing in embryonic stem cells. Nature 522:240-244 (2015). Mouse . PubMed: 25938714
  • Kamon M  et al. Identification of Ccr4-not complex components as regulators of transition from partial to genuine induced pluripotent stem cells. Stem Cells Dev 23:2170-9 (2014). PubMed: 24200330
  • Calderon MR  et al. Ligand-dependent corepressor contributes to transcriptional repression by C2H2 zinc-finger transcription factor ZBRK1 through association with KRAB-associated protein-1. Nucleic Acids Res 42:7012-27 (2014). ChIP . PubMed: 24829459
  • Castro-Diaz N  et al. Evolutionally dynamic L1 regulation in embryonic stem cells. Genes Dev 28:1397-409 (2014). Human . PubMed: 24939876
  • Friedli M  et al. Loss of transcriptional control over endogenous retroelements during reprogramming to pluripotency. Genome Res 24:1251-9 (2014). PubMed: 24879558
  • Ohnuki M  et al. Dynamic regulation of human endogenous retroviruses mediates factor-induced reprogramming and differentiation potential. Proc Natl Acad Sci U S A 111:12426-31 (2014). Human . PubMed: 25097266
  • Cho S  et al. AGO2 and SETDB1 cooperate in promoter-targeted transcriptional silencing of the androgen receptor gene. Nucleic Acids Res N/A:N/A (2014). PubMed: 25183519
  • Van Meter M  et al. SIRT6 represses LINE1 retrotransposons by ribosylating KAP1 but this repression fails with stress and age. Nat Commun 5:5011 (2014). PubMed: 25247314
  • Joliot V  et al. The SWI/SNF subunit/tumor suppressor BAF47/INI1 is essential in cell cycle arrest upon skeletal muscle terminal differentiation. PLoS One 9:e108858 (2014). WB ; Mouse . PubMed: 25271443
  • Cruvinel E  et al. Reactivation of maternal SNORD116 cluster via SETDB1 knockdown in Prader-Willi syndrome iPSCs. Hum Mol Genet 23:4674-85 (2014). PubMed: 24760766
  • Turelli P  et al. Interplay of TRIM28 and DNA methylation in controlling human endogenous retroelements. Genome Res 24:1260-70 (2014). IP ; Human . PubMed: 24879559
  • Britton S  et al. A new method for high-resolution imaging of Ku foci to decipher mechanisms of DNA double-strand break repair. J Cell Biol 202:579-95 (2013). WB ; Mouse, Human . PubMed: 23897892
  • Baglivo I  et al. Genetic and epigenetic mutations affect the DNA binding capability of human ZFP57 in transient neonatal diabetes type 1. FEBS Lett 587:1474-81 (2013). ChIP ; Mouse . PubMed: 23499433
  • Hu C  et al. Roles of Kruppel-associated Box (KRAB)-associated Co-repressor KAP1 Ser-473 Phosphorylation in DNA Damage Response. J Biol Chem 287:18937-52 (2012). WB . PubMed: 22496453
  • Yan L  et al. The B55a-containing PP2A holoenzyme dephosphorylates FOXO1 in islet ß-cells under oxidative stress. Biochem J 444:239-47 (2012). IHC-P ; Mouse . PubMed: 22417654
  • Zhou XF  et al. TRIM28 mediates chromatin modifications at the TCRa enhancer and regulates the development of T and natural killer T cells. Proc Natl Acad Sci U S A 109:20083-8 (2012). PubMed: 23169648
  • Cui S  et al. Nuclear Receptors TR2 and TR4 Recruit Multiple Epigenetic Transcriptional Corepressors That Associate Specifically with the Embryonic {beta}-Type Globin Promoters in Differentiated Adult Erythroid Cells. Mol Cell Biol 31:3298-311 (2011). PubMed: 21670149
  • Iyengar S  et al. Functional analysis of KAP1 genomic recruitment. Mol Cell Biol 31:1833-47 (2011). ICC/IF, ChIP ; Human . PubMed: 21343339
  • Frietze S  et al. ZNF274 recruits the histone methyltransferase SETDB1 to the 3' ends of ZNF genes. PLoS One 5:e15082 (2010). ChIP/Chip ; Human . PubMed: 21170338
  • Hu G  et al. A genome-wide RNAi screen identifies a new transcriptional module required for self-renewal. Genes Dev 23:837-48 (2009). ChIP ; Mouse . PubMed: 19339689
  • Rambaud J  et al. TIF1beta/KAP-1 is a coactivator of the orphan nuclear receptor NGFI-B/Nur77. J Biol Chem 284:14147-56 (2009). WB ; Human . PubMed: 19321449
  • O'Geen H  et al. Genome-wide analysis of KAP1 binding suggests autoregulation of KRAB-ZNFs. PLoS Genet 3:e89 (2007). ChIP, ChIP/Chip ; Human . PubMed: 17542650


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