DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries

Laura Wiehle; Graeme J. Thorn; Günter Raddatz; Christopher T. Clarkson; Karsten Rippe; Frank Lyko; Achim Breiling; Vladimir B. Teif

doi:https://doi.org/10.1101/gr.239707.118

doi.org/10.1101/gr.239707.118

DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries

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..., Vladimir B. Teif

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Genome Research7.00

Volume: 29, Issue: 5, Pages: 750 - 761

Published: Apr 4, 2019

Abstract

Coordinated changes of DNA (de)methylation, nucleosome positioning, and chromatin binding of the architectural protein CTCF play an important role for establishing cell-type-specific chromatin states during differentiation. To elucidate molecular mechanisms that link these processes, we studied the perturbed DNA modification landscape in mouse embryonic stem cells (ESCs) carrying a double knockout (DKO) of the Tet1 and Tet2 dioxygenases. These...

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Paper Details

Title

DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries

DOI

doi.org/10.1101/gr.239707.118

Published Date

Apr 4, 2019

Journal

Genome Research

Volume

29

Issue

5

Pages

750 - 761

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