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In the nuclei of almost all eukaryotic cells genomic DNA is compacted with histone and non-histone proteins in a dynamic polymer called chromatin. Several epigenetic mechanisms, such as nucleosome remodeling, histone modifications, DNA methylation and non-coding RNA function together to organize chromatin into accessible (euchromatic) and inaccessible (heterochromatic) domains. We discovered the Suv39h enzymes as the first histone lysine methyltransferases (KMT) and have shown that Suv39h-dependent histone H3 lysine 9 (H3K9me3) methylation is a central epigenetic modification for a repressed chromatin state at heterochromatic regions.
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论文共 18 篇作者统计合作学者相似作者
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Katarzyna J Duda,Reagan W Ching, Lisa Jerabek,Nicholas Shukeir,Galina Erikson,Bettina Engist,Megumi Onishi-Seebacher,Valentina Perrera,Florian Richter,Gerhard Mittler, Katharina Fritz,Mark Helm,
Stylianos Lefkopoulos,Aikaterini Polyzou,Marta Derecka,Veronica Bergo,Thomas Clapes,Pierre Cauchy,Carolina Jerez-Longres,Megumi Onishi-Seebacher,Na Yin, Natalia-Adriana Martagon-Calderón,Kathryn S Potts,Lhéanna Klaeylé,
Oscar Velazquez Camacho,Carmen Galan,Kalina Swist-Rosowska,Reagan Ching,Michael Gamalinda,Fethullah Karabiber,Inti De La Rosa-Velazquez,Bettina Engist,Birgit Koschorz,Nicholas Shukeir,Megumi Onishi-Seebacher, Suzanne van de Nobelen,
eLife (2017)
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