H3K36 dimethylation shapes the epigenetic interaction landscape by directing repressive chromatin modifications in embryonic stem cells

Chen, H., Hu, B., Horth, C., Bareke, E., Rosenbaum, P., Kwon, S. Y., Sirois, J., Weinberg, D. N., Robison, F. M., Garcia, B. A., Lu, C., Pastor, W. A., & Majewski, J. (2022). H3K36 dimethylation shapes the epigenetic interaction landscape by directing repressive chromatin modifications in embryonic stem cells. Genome Research. https://doi.org/10.1101/gr.276383.121
Authors:
Haifen Chen
Bo Hu
Cynthia Horth
Eric Bareke
Phillip Rosenbaum
Sin Young Kwon
Jacinthe Sirois
Daniel N. Weinberg
Faith M. Robison
Benjamin A. Garcia
Chao Lu
William A. Pastor
Jacek Majewski
Affiliated Authors:
Chao Lu
Columbia Affiliation:
Subjects:
Chromatin (MeSH)
Histones (MeSH)
Epigenetic Modifications and Their Functional Implications (OpenAlex Topic)
Regulation of Chromatin Structure and Function (OpenAlex Topic)
Protein Arginine Methylation in Mammals (OpenAlex Topic)
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Publication Type:
Article
Unique ID:
10.1101/gr.276383.121
PMID:
35396277
DOI:
10.1101/gr.276383.121
Journal:
Genome Research
Publication Date:
Data Source:
Scopus
Source Link:
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