Searching journal content for articles similar to Bond et al. 33 (8): 1258.

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  1. Research: Mitotic chromosomes harbor cell type– and species-specific structural features within a universal loop array conformation
    • Marlies E. Oomen,
    • A. Nicole Fox,
    • Inma Gonzalez,
    • Amandine Molliex,
    • Thaleia Papadopoulou,
    • Pablo Navarro,
    • and Job Dekker
    Genome Res. August 2025 35: 1733-1744; Published in Advance June 6, 2025, doi:10.1101/gr.280648.125
    ...that mitotic chromosomes are not strict universal structures across eukaryotes and that the overall dimensions of the mitotic loop array arrangement as well as the local chromatin state can reflect both species-specific features as well as characteristics of its cell type identity.In this study, we first...
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  2. Research: Wnt signaling activation induces CTCF binding and loop formation at cis-regulatory elements of target genes
    • Anna Nordin,
    • Chaitali Chakraborty,
    • Mattias Jonasson,
    • Orgena Dano,
    • Gianluca Zambanini,
    • Pierfrancesco Pagella,
    • Silvia Remeseiro,
    • and Claudio Cantù
    Genome Res. August 2025 35: 1701-1716; Published in Advance June 23, 2025, doi:10.1101/gr.279684.124
    ...moves along the chromatin fiber, it traps a loop of chromatin within its ringlike structure until a pair of CCCTC binding factor (CTCF) molecules is reached, which dimerize to anchor and stabilize the loop (Ohlsson et al. 2001; Fudenberg et al. 2016; Davidson et al. 2023). Although TADs are large...
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  3. Method: Statistically rigorous and computationally efficient chromatin stripe detection with Quagga
    • Fan Feng,
    • Sean Moran,
    • Anders S. Hansen,
    • Xiaotian Zhang,
    • and Jie Liu
    Genome Res. January 2026 36: 159-168; Published in Advance November 12, 2025, doi:10.1101/gr.280132.124
    ...features in which a singular loop anchor interacts with a contiguous region of DNA so, at the bulk sequencing level, it appears as a long stripe on chromatin contact matrices. Stripes are thought to play an important role in gene regulation and have been implicated in regulating a cell's lineage...
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  4. Research: Estrogen-induced chromatin looping changes identify a subset of functional regulatory elements
    • Hosiana Abewe,
    • Alexandra Richey,
    • Jeffery M. Vahrenkamp,
    • Matthew Ginley-Hidinger,
    • Craig M. Rush,
    • Noel Kitchen,
    • Xiaoyang Zhang,
    • and Jason Gertz
    Genome Res. March 2025 35: 393-403; Published in Advance March 3, 2025, doi:10.1101/gr.279699.124
    ...active regulatory regions of endometrial cancer cells in response to estrogen treatment and uncovered significant differential long-range interactions strongly enriched for estrogen receptor alpha (ER, also known as ESR1)–bound sites (ERBSs). The ERBSs anchoring differential chromatin loops with either...
  5. Method: A fast and adaptive detection framework for genome-wide chromatin loop mapping from Hi-C data
    • Siyuan Chen,
    • Jiuming Wang,
    • Inkyung Jung,
    • Zhaowen Qiu,
    • Xin Gao,
    • and Yu Li
    Genome Res. August 2024 34: 1174-1184; Published in Advance August 13, 2024, doi:10.1101/gr.279274.124
    ...by YOLOOP against orthogonal CTCF binding sites in GM12878 cells. (Right) Density plots of the distance distribution for CTCF-supported loop anchors and non-CTCF-supported loop anchors.One prominent feature of chromatin organization is the significant enrichment of CCCTC transcription factor (CTCF) binding...
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  6. Mini-Review: The chromatin tapestry as a framework for neurodevelopment
    • Ben Nolan,
    • Timothy E. Reznicek,
    • Christopher T. Cummings,
    • and M. Jordan Rowley
    Genome Res. October 2024 34: 1477-1486; doi:10.1101/gr.278408.123
    .... On the existence and functionality of topologically associating domains. Nat Genet 52: 8–16. doi:10.1038/s41588-019-0561-1 ↵Bond ML, Davis ES, Quiroga IY, Dey A, Kiran M, Love MI, Won H, Phanstiel DH. 2023. Chromatin loop dynamics during cellular differentiation are associated with changes to both anchor...
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  7. Method: Diffusion-enhanced characterization of 3D chromatin structure reveals its linkage to gene regulatory networks and the interactome
    • Yueying He,
    • Yue Xue,
    • Jingyao Wang,
    • Yupeng Huang,
    • Lu Liu,
    • Yanyi Huang,
    • and Yi Qin Gao
    Genome Res. August 2023 33: 1354-1368; Published in Advance July 25, 2023, doi:10.1101/gr.277737.123
    ...correlated with downstream processes such as transcription, gene regulation, and even regulatory networking through affecting protein–protein interactions.The 3D architecture of chromatin is crucial to the functionality of 1D DNA sequences (Oudelaar and Higgs 2021) and is shown to be involved in many...
  8. Research: The role of transposon activity in shaping cis-regulatory element evolution after whole-genome duplication
    • Øystein Monsen,
    • Lars Grønvold,
    • Alex Datsomor,
    • Thomas Harvey,
    • James Kijas,
    • Alexander Suh,
    • Torgeir R. Hvidsten,
    • and Simen Rød Sandve
    Genome Res. March 2025 35: 475-488; Published in Advance February 12, 2025, doi:10.1101/gr.278931.124
    ...chromatin accessibility data from the liver and brain. Retroelements were both the dominant source of TE-CREs and had higher regulatory activity in MPRA experiments compared with DNA elements. A minority of TE subfamilies (16%) accounted for 46% of TE-CREs, but these “CRE superspreaders” were mostly active...
  9. Research: Revisiting chromatin packaging in mouse sperm
    • Qiangzong Yin,
    • Chih-Hsiang Yang,
    • Olga S. Strelkova,
    • Jingyi Wu,
    • Yu Sun,
    • Sneha Gopalan,
    • Liyan Yang,
    • Job Dekker,
    • Thomas G. Fazzio,
    • Xin Zhiguo Li,
    • Johan Gibcus,
    • and Oliver J. Rando
    Genome Res. December 2023 33: 2079-2093; Published in Advance December 21, 2023, doi:10.1101/gr.277845.123
    ..., allowing relatively free access to gene regulatory elements in the face of extensive physical compaction. In eukaryotes, the key principles of chromatin organization have been elucidated over the past half-century: A repeating nucleoprotein complex known as the nucleosome serves to compact ∼150 bp of DNA...
  10. Method: Probabilistic association of differentially expressed genes with cis-regulatory elements
    • Brian S. Roberts,
    • Ashlyn G. Anderson,
    • E. Christopher Partridge,
    • Gregory M. Cooper,
    • and Richard M. Myers
    Genome Res. April 2024 34: 620-632; Published in Advance April 17, 2024, doi:10.1101/gr.278598.123
    ...data sets, each using different perturbations and containing a variety of regulatory signal measurements, including chromatin openness, histone modifications, and TF occupancy. To test their efficacy, we compare DegCre associations to Hi-C loop calls and CRISPR-validated CRE-to-gene associations...
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