Searching journal content for articles similar to Schmidl et al. 19 (7): 1165.

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  1. Method: Dynamics of intronic polyadenylation in the hematopoietic lineage and its regulation by DNA methylation
    • Richa Rashmi,
    • Abhinaya Muruganandham,
    • Pranita Borkar,
    • Sumana Mallick,
    • Taylor Hubbs,
    • Ari Aviles,
    • Daniel Chung,
    • and Irtisha Singh
    Genome Res. April 13, 2026 gr.281044.125; Published in Advance April 13, 2026, doi:10.1101/gr.281044.125
    ...is widespread, gene and cell-type specific, and responsive to stimuli, we know little 279 about factors enhancing or preventing its usage (Lee et al. 2018; Singh et al. 2018). Epigenetic 280 modifications like DNA methylation modulate gene expression without altering DNA sequence, 281 which is analogous...
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  2. Research: Distinct classes of lamina-associated domains are defined by differential patterns of repressive histone methylation
    • Caden J. Martin,
    • Elizabeth A. Oser,
    • Prabakaran Nagarajan,
    • Liudmila V. Popova,
    • Benjamin D. Sunkel,
    • Benjamin Z. Stanton,
    • and Mark R. Parthun
    Genome Res. September 2025 35: 1959-1974; Published in Advance August 5, 2025, doi:10.1101/gr.280380.124
    ...that the different patterns of PTM enrichment between the three LAD clusters could affect their three-dimensional organization within the nucleus. We performed 3D DNA FISH to test whether the association with the nuclear lamina varies between clusters, using Lamin A/C staining to visualize the nuclear periphery (Fig...
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  3. Research: Characterization of DNA methylation reader proteins in Arabidopsis thaliana
    • Jonathan Cahn,
    • James P.B. Lloyd,
    • Ino D. Karemaker,
    • Pascal W.T.C. Jansen,
    • Jahnvi Pflueger,
    • Owen Duncan,
    • Jakob Petereit,
    • Ozren Bogdanovic,
    • A. Harvey Millar,
    • Michiel Vermeulen,
    • and Ryan Lister
    Genome Res. December 2024 34: 2229-2243; Published in Advance December 4, 2024, doi:10.1101/gr.279379.124
    ...author: ryan.lister@uwa.edu.auAbstractIn plants, cytosine DNA methylation (mC) is largely associated with transcriptional repression of transposable elements, but it can also be found in the body of expressed genes, referred to as gene body methylation (gbM). gbM is correlated with ubiquitously expressed...
  4. Research: Evolutionary rewiring of the wheat transcriptional regulatory network by lineage-specific transposable elements
    • Yuyun Zhang,
    • Zijuan Li,
    • Yu'e Zhang,
    • Kande Lin,
    • Yuan Peng,
    • Luhuan Ye,
    • Yili Zhuang,
    • Meiyue Wang,
    • Yilin Xie,
    • Jingyu Guo,
    • Wan Teng,
    • Yiping Tong,
    • Wenli Zhang,
    • Yongbiao Xue,
    • Zhaobo Lang,
    • and Yijing Zhang
    Genome Res. December 2021 31: 2276-2289; Published in Advance September 9, 2021, doi:10.1101/gr.275658.121
    ...merged, ∼5%) of the TE-embedded TFBSs are open and strongly associated with active chromatin signatures, including reduced DNA methylation and active histone marks (Fig. 4C). These signatures were shared between TFBSs contributed by TE sequences and by non-TE sequences, suggesting their common regulatory...
  5. Research: Synergistic regulation by H3K36 and H3K27 methylation defines the chromatin landscape to control virulence and secondary metabolism in a fungal pathogen
    • Xingmin Han,
    • Chenghui Xu,
    • Yiyi Ren,
    • Meiling Guo,
    • Jiayue Yan,
    • Xuan Wang,
    • Chao Liu,
    • Qin Gu,
    • Xing-Xing Shen,
    • Zhonghua Ma,
    • and Yun Chen
    Genome Res. November 2025 35: 2472-2487; Published in Advance October 14, 2025, doi:10.1101/gr.280560.125
    ....Transcriptional regulation in eukaryotes is profoundly influenced by chromatin status, integrating diverse cellular signals to control gene expression (Berger 2007). Chromatin dynamics are modulated by multiple mechanisms, including histone modifications, DNA methylation, and chromatin remodeling complexes (Shilatifard 2006...
  6. Research: Cell-type- and chromosome-specific chromatin landscapes and DNA replication programs of Drosophila testis tumor stem cell–like cells
    • Jennifer A. Urban,
    • Daniel Ringwalt,
    • John M. Urban,
    • Wingel Xue,
    • Ryan Gleason,
    • Keji Zhao,
    • and Xin Chen
    Genome Res. January 2026 36: 83-101; Published in Advance December 10, 2025, doi:10.1101/gr.280809.125
    ...fate determinants plays a critical role in specifying these identities. Epigenetic mechanisms, such as histones and their post-translational modifications, regulate chromatin compaction, transcription, and DNA replication timing to influence cell fate decisions. In stem cells, epigenetic regulation...
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  7. Research: Incomplete erasure of histone marks during epigenetic reprogramming in medaka early development
    • Hiroto S. Fukushima,
    • Hiroyuki Takeda,
    • and Ryohei Nakamura
    Genome Res. April 2023 33: 572-586; Published in Advance April 28, 2023, doi:10.1101/gr.277577.122
    ...and Xie 2020). In mice, DNA methylation and histone modifications transmitted from parental germ cells are globally reset in early embryos. However, some modifications are known to persist and play essential roles in later development (Xia and Xie 2020). Such examples include DNA methylation at specific...
  8. Research: DNA methylation epitypes highlight underlying developmental and disease pathways in acute myeloid leukemia
    • Brian Giacopelli,
    • Min Wang,
    • Ada Cleary,
    • Yue-Zhong Wu,
    • Anna Reister Schultz,
    • Maximilian Schmutz,
    • James S. Blachly,
    • Ann-Kathrin Eisfeld,
    • Bethany Mundy-Bosse,
    • Sebastian Vosberg,
    • Philipp A. Greif,
    • Rainer Claus,
    • Lars Bullinger,
    • Ramiro Garzon,
    • Kevin R. Coombes,
    • Clara D. Bloomfield,
    • Brian J. Druker,
    • Jeffrey W. Tyner,
    • John C. Byrd,
    • and Christopher C. Oakes
    Genome Res. May 2021 31: 747-761; Published in Advance March 11, 2021, doi:10.1101/gr.269233.120
    ...-cell-like phenotypes. Detailed analyses of DNA methylation patterns identified unique patterns of aberrant hyper- and hypomethylation among epitypes, with variable involvement of transcription factors influencing promoter, enhancer, and repressed regions. Patients in epitypes with stem-cell-like methylation features...
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  9. Method: methyl-ATAC-seq measures DNA methylation at accessible chromatin
    • Roman Spektor,
    • Nathaniel D. Tippens,
    • Claudia A. Mimoso,
    • and Paul D. Soloway
    Genome Res. June 2019 29: 969-977; Published in Advance June 3, 2019, doi:10.1101/gr.245399.118
    ...these assays into a single protocol identifies the locations of open chromatin and reveals, unambiguously, the DNA methylation state of the underlying DNA. Such combinatorial methods eliminate the need to perform assays independently and infer where features are coincident.Active promoters, enhancers...
  10. Research: Plant polymerase IV sensitizes chromatin through histone modifications to preclude spread of silencing into protein-coding domains
    • Vivek Hari Sundar G,
    • Chenna Swetha,
    • Debjani Basu,
    • Kannan Pachamuthu,
    • Steffi Raju,
    • Tania Chakraborty,
    • Rebecca A. Mosher,
    • and P.V. Shivaprasad
    Genome Res. May 2023 33: 715-728; Published in Advance June 5, 2023, doi:10.1101/gr.277353.122
    ...-specific polymerases, not just in establishing effective silencing via sRNAs and DNA methylation but also in influencing chromatin boundaries.The chromatin is decorated with modifications to DNA and histones constituting epigenetic modifications (Law and Jacobsen 2010; Feng and Michaels 2015). The proportion...
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