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Literature DB >> 34710357

A bipartite element with allele-specific functions safeguards DNA methylation imprints at the Dlk1-Dio3 locus.

Boaz E Aronson¹, Laurianne Scourzic¹, Veevek Shah¹, Emily Swanzey², Andreas Kloetgen³, Alexander Polyzos¹, Abhishek Sinha⁴, Annabel Azziz⁵, Inbal Caspi⁶, Jiexi Li¹, Bobbie Pelham-Webb⁷, Rachel A Glenn⁸, Thomas Vierbuchen⁹, Hynek Wichterle¹⁰, Aristotelis Tsirigos¹¹, Meelad M Dawlaty¹², Matthias Stadtfeld¹³, Effie Apostolou¹⁴.

Abstract

Loss of imprinting (LOI) results in severe developmental defects, but the mechanisms preventing LOI remain incompletely understood. Here, we dissect the functional components of the imprinting control region of the essential Dlk1-Dio3 locus (called IG-DMR) in pluripotent stem cells. We demonstrate that the IG-DMR consists of two antagonistic elements: a paternally methylated CpG island that prevents recruitment of TET dioxygenases and a maternally unmethylated non-canonical enhancer that ensures expression of the Gtl2 lncRNA by counteracting de novo DNA methyltransferases. Genetic or epigenetic editing of these elements leads to distinct LOI phenotypes with characteristic alternations of allele-specific gene expression, DNA methylation, and 3D chromatin topology. Although repression of the Gtl2 promoter results in dysregulated imprinting, the stability of LOI phenotypes depends on the IG-DMR, suggesting a functional hierarchy. These findings establish the IG-DMR as a bipartite control element that maintains imprinting by allele-specific restriction of the DNA (de)methylation machinery.

Entities: Chemical

Keywords: DNA methylation; Dlk1-Dio3; Dnmt3; IG-DMR; Tet enzymes; bipartite element; enhancer; epigenome editing; genomic imprinting; pluripotent stem cells

Mesh：

Substances：

Year: 2021 PMID： 34710357 PMCID： PMC8628258 DOI： 10.1016/j.devcel.2021.10.004

Source DB: PubMed Journal: Dev Cell ISSN： 1534-5807 Impact factor: 12.270

93 in total

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Journal: Dev Cell Date: 2014-09-25 Impact factor: 12.270

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8. H3K27ac bookmarking promotes rapid post-mitotic activation of the pluripotent stem cell program without impacting 3D chromatin reorganization.

Authors: Bobbie Pelham-Webb; Alexander Polyzos; Luke Wojenski; Andreas Kloetgen; Jiexi Li; Dafne Campigli Di Giammartino; Theodore Sakellaropoulos; Aristotelis Tsirigos; Leighton Core; Effie Apostolou
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