Arie P. Otte merges many fields, such as Molecular biology and Cell biology, in his writings. He performs multidisciplinary study in Cell biology and DNA in his work. Borrowing concepts from Molecular biology, he weaves in ideas under DNA. Borrowing concepts from Histone H2A, he weaves in ideas under Histone H3. Histone H2A and Histone code are two areas of study in which Arie P. Otte engages in interdisciplinary research. He combines Histone code and Histone H1 in his studies. In his works, he conducts interdisciplinary research on Histone H1 and Histone H4. Arie P. Otte merges Histone H4 with Histone methyltransferase in his study. His work blends Histone methyltransferase and Histone methylation studies together.
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Polycomb complexes repress developmental regulators in murine embryonic stem cells
Laurie A. Boyer;Kathrin Plath;Kathrin Plath;Julia Zeitlinger;Tobias Brambrink.
Control of developmental regulators by Polycomb in human embryonic stem cells.
Tong Ihn Lee;Richard G. Jenner;Laurie A. Boyer;Matthew G. Guenther.
Role of histone H3 lysine 27 methylation in X inactivation.
Kathrin Plath;Jia Fang;Susanna K. Mlynarczyk-Evans;Ru Cao.
Polycomb Group Proteins Ring1A/B Link Ubiquitylation of Histone H2A to Heritable Gene Silencing and X Inactivation
Mariana de Napoles;Jacqueline E. Mermoud;Rika Wakao;Y.Amy Tang.
Developmental Cell (2004)
Epigenetic dynamics of imprinted X inactivation during early mouse development.
Ikuhiro Okamoto;Arie P. Otte;C. David Allis;Danny Reinberg.
Establishment of Histone H3 Methylation on the Inactive X Chromosome Requires Transient Recruitment of Eed-Enx1 Polycomb Group Complexes
Jose Silva;Winifred Mak;Ilona Zvetkova;Ruth Appanah.
Developmental Cell (2003)
Reactivation of the Paternal X Chromosome in Early Mouse Embryos
Winifred Mak;Tatyana B. Nesterova;Mariana de Napoles;Ruth Appanah.
Akt-Mediated Phosphorylation of EZH2 Suppresses Methylation of Lysine 27 in Histone H3
Tai Lung Cha;Tai Lung Cha;Binhua P. Zhou;Weiya Xia;Yadi Wu.
Dynamic chromatin modifications characterise the first cell cycle in mouse embryos.
Fátima Santos;Antoine H. Peters;Arie P. Otte;Wolf Reik.
Developmental Biology (2005)
The murine polycomb group protein Eed is required for global histone H3 lysine-27 methylation
Nathan D. Montgomery;Della Yee;Andrew Chen;Sundeep Kalantry.
Current Biology (2005)
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