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3. TNRC18 engages H3K9me3 to mediate silencing of endogenous retrotransposons

8. DNMT1 reads heterochromatic H4K20me3 to reinforce LINE-1 DNA methylation.

9. Genetic interaction mapping informs integrative structure determination of protein complexes

10. BAHCC1 binds H3K27me3 via a conserved BAH module to mediate gene silencing and oncogenesis

11. Direct readout of heterochromatic H3K9me3 regulates DNMT1-mediated maintenance DNA methylation

12. Histone H3 proline 16 hydroxylation regulates mammalian gene expression

15. The histone methyltransferase SETD2 regulates HIV expression and latency

16. Binding to medium and long chain fatty acyls is a common property of HEAT and ARM repeat modules.

18. Taf2 mediates DNA binding of Taf14

22. An Allosteric Interaction Links USP7 to Deubiquitination and Chromatin Targeting of UHRF1

23. Identification of a BET Family Bromodomain/Casein Kinase II/TAF-Containing Complex as a Regulator of Mitotic Condensin Function

25. SETD2 maintains nuclear lamina stability to safeguard the genome

26. SETD2 safeguards the genome against isochromosome formation

27. Combined noncanonical NF-[kappa]B agonism and targeted BET bromodomain inhibition reverse HIV latency ex vivo

30. The histone and non-histone methyllysine reader activities of the UHRF1 tandem Tudor domain are dispensable for the propagation of aberrant DNA methylation patterning in cancer cells

35. A Course-Based Undergraduate Research Experience Investigating p300 Bromodomain Mutations

37. An acetylation-mediated chromatin switch governs H3K4 methylation read-write capability

38. Data from SETD2 Haploinsufficiency for Microtubule Methylation Is an Early Driver of Genomic Instability in Renal Cell Carcinoma

39. Figure S5 from SETD2 Haploinsufficiency for Microtubule Methylation Is an Early Driver of Genomic Instability in Renal Cell Carcinoma

40. Supplementary Fig Legends from SETD2 Haploinsufficiency for Microtubule Methylation Is an Early Driver of Genomic Instability in Renal Cell Carcinoma

43. Histone H3K23-specific acetylation by MORF is coupled to H3K14 acylation

46. C. David Allis (1951–2023)

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