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Epigenetic regulation of cardiac electrophysiology in atrial fibrillation: HDAC2 determines action potential duration and suppresses NRSF in cardiomyocytes

Patrick Lugenbiel, Katharina Govorov, Pascal Syren, Ann‐Kathrin Rahm, Teresa Wieder, Maximilian N. Wunsch, Nadine Weiberg, Emili Manolova, Dominik Gramlich, Rasmus Rivinius, Daniel Finke, Lorenz Lehmann, Patrick A. Schweizer, Derk Frank, Fadwa A. El Tahry, Claus Bruehl, Tanja Heimberger, Steffi Sandke, Tanja Weis, Patrick Most, Bastian Schmack, Arjang Ruhparwar, Matthias Karck, Norbert Frey, Hugo A. Katus, Dierk Thomas

2021Basic Research in Cardiology17 citationsDOI

Topics & Concepts

Histone deacetylase 2EpigeneticsHistoneChromatin immunoprecipitationBiologyAtrial fibrillationChromatinCell biologyRegulation of gene expressionGene expressionMyocyteInternal medicineHistone deacetylaseMedicineGeneGeneticsPromoterParkinson's Disease Mechanisms and TreatmentsHistone Deacetylase Inhibitors ResearchSignaling Pathways in Disease
Epigenetic regulation of cardiac electrophysiology in atrial fibrillation: HDAC2 determines action potential duration and suppresses NRSF in cardiomyocytes | Litcius