Journal
Genome research
Publication Date
5-1-2022
Volume
32
Issue
5
First Page
825
Last Page
837
Document Type
Open Access Publication
DOI
10.1101/gr.276383.121
Rights and Permissions
Chen H, Hu B, Horth C, Bareke E, Rosenbaum P, Kwon SY, Sirois J, Weinberg DN, Robison FM, Garcia BA, Lu C, Pastor WA, Majewski J. H3K36 dimethylation shapes the epigenetic interaction landscape by directing repressive chromatin modifications in embryonic stem cells. Genome Res. 2022 May;32(5):825-837. doi.org10.1101/gr.276383.121 This article, published in Genome Research, is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/.
Recommended Citation
Chen, Haifen; Hu, Bo; Horth, Cynthia; Bareke, Eric; Rosenbaum, Phillip; Kwon, Sin Young; Sirois, Jacinthe; Weinberg, Daniel N; Robison, Faith M; Garcia, Benjamin A; Lu, Chao; Pastor, William A; and Majewski, Jacek, "H3K36 dimethylation shapes the epigenetic interaction landscape by directing repressive chromatin modifications in embryonic stem cells." Genome research. 32, 5. 825 - 837. (2022).
https://digitalcommons.wustl.edu/open_access_pubs/11994
H3K36 Supplementary_Fig_S1.pdf (3088 kB)
H3K36 Supplementary_Fig_S2.pdf (5549 kB)
H3K36 Supplementary_Fig_S3.pdf (12464 kB)
H3K36 Supplementary_Fig_S4.pdf (1132 kB)
H3K3 Supplementary_Methods.docx (24 kB)
H3K36 Supplementary_Table_S1.xlsx (10 kB)
H3K36 Supplementary_Table_S2.xlsx (55 kB)
H3K36 Supplementary_Table_S3.xlsx (11 kB)
