Histone H3.3 phosphorylation amplifies stimulation-induced transcription
Armache, Anja, Yang, Shuang, Martínez de Paz, Alexia, Robbins, Lexi E., Durmaz, Ceyda, Cheong, Jin Q., Ravishankar, Arjun, Daman, Andrew W., Ahimovic, Dughan J., Klevorn, Thaís, Yue, Yuan, Arslan, Tanja, Lin, Shu, Panchenko, Tanya, Hrit, Joel, Wang, Miao, Thudium, Samuel, Garcia, Benjamin A., Korb, Erica, Armache, Karim-Jean, Rothbart, Scott B., Hake, Sandra B., Allis, C. David, Li, Haitao, Josefowicz, Steven Z.
Published in Nature (London) (30.07.2020)
Published in Nature (London) (30.07.2020)
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Journal Article
Phosphorylation of the ancestral histone variant H3.3 amplifies stimulation-induced transcription
Armache, Anja, Yang, Shuang, Robbins, Lexi E, Durmaz, Ceyda, Daman, Andrew W, Jeong, Jin Q, Martínez De Paz, Alexia, Ravishankar, Arjun, Arslan, Tanja, Lin, Shu, Panchenko, Tanya, Garcia, Benjamin A, Hake, Sandra, Li, Haitao, Allis, C David, Josefowicz, Steven Z
Published in bioRxiv (17.10.2019)
Published in bioRxiv (17.10.2019)
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