Searching journal content for articles similar to Zhang et al. 31 (7): 1121.

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  1. Method: Examining the dynamics of three-dimensional genome organization with multitask matrix factorization
    • Da-Inn Lee and
    • Sushmita Roy
    Genome Res. May 2025 35: 1179-1193; Published in Advance March 20, 2025, doi:10.1101/gr.279930.124
    ...Examining the dynamics of three-dimensional organization with multitask matrix factorization Da-Inn Lee1 and Sushmita Roy1,2 1Department of Biostatistics and Medical Informatics, University of Wisconsin–Madison, Madison, Wisconsin 53715, USA; 2Wisconsin Institute for Discovery, Madison, Wisconsin...
  2. Research: Epigenetic and evolutionary features of ape subterminal heterochromatin
    • DongAhn Yoo,
    • Katherine M. Munson,
    • and Evan E. Eichler
    Genome Res. January 2026 36: 38-49; Published in Advance October 22, 2025, doi:10.1101/gr.280987.125
    ...DongAhn Yoo1, Katherine M. Munson1 and Evan E. Eichler1,2 1Department of Genome Sciences, University of Washington School of Medicine, Seattle, Washington 98195, USA; 2Howard Hughes Medical Institute, University of Washington, Seattle, Washington 98195, USA Corresponding author: ee3@uw...
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  3. Research: Suv39h-catalyzed H3K9me3 is critical for euchromatic genome organization and the maintenance of gene transcription
    • Christine R. Keenan,
    • Hannah D. Coughlan,
    • Nadia Iannarella,
    • Andres Tapia del Fierro,
    • Andrew Keniry,
    • Timothy M. Johanson,
    • Wing Fuk Chan,
    • Alexandra L. Garnham,
    • Lachlan W. Whitehead,
    • Marnie E. Blewitt,
    • Gordon K. Smyth,
    • and Rhys S. Allan
    Genome Res. April 2024 34: 556-571; Published in Advance May 6, 2024, doi:10.1101/gr.279119.124
    ...of the three-dimensional (3D) nucleome through Lamin B1 ChIP-seq and in situ Hi-C.ResultsLoss of Suv39-dependent H3K9me3 results in paradoxical gene repressionTo investigate the molecular consequences of heterochromatin loss, we performed RNA-seq on Suv39DKO and littermate control CD4+ CD8+ double-positive (DP...
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  4. Review: A systematic guide for identifying transcription factors that directly regulate the expression of a gene of interest
    • Andrew D. Bates,
    • Dawid Grzela,
    • Maciej Studzian,
    • Louise Brennan,
    • Moli Williams,
    • Conor Fawcett,
    • Beth Hammond,
    • Manreen Grewal,
    • Marcin Ratajewski,
    • Lukasz Pulaski,
    • and Urszula L. McClurg
    Genome Res. March 2026 36: 433-459; Published in Advance February 17, 2026, doi:10.1101/gr.281154.125
    ...first approach the question of what regulates your GOI transcriptionally, you should start by compiling available information on chromatin landscape (especially regulatory region hallmarks) and TF binding from browsers (e.g., UCSC Genome Browser) and user-friendly databases (e.g., Harmonizome). For most...
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  5. Research: Loss of multilevel 3D genome organization during breast cancer progression
    • Roberto Rossini,
    • Saleh Oshaghi,
    • Maxim Nekrasov,
    • Aurélie Bellanger,
    • Renae Domaschenz,
    • Yasmin Dijkwel,
    • Mohamed Abdelhalim,
    • Rahul Agrawal,
    • Marit Ledsaak,
    • Philippe Collas,
    • Ragnhild Eskeland,
    • David Tremethick,
    • and Jonas Paulsen
    Genome Res. January 2026 36: 20-37; Published in Advance October 9, 2025, doi:10.1101/gr.280791.125
    ...Medicine, Oslo University Hospital, 0424 Oslo, Norway Corresponding authors: david.tremethick@anu.edu.au, jonas.paulsen@ibv.uio.noAbstractBreast cancer entails intricate alterations in organization and expression. However, how three-dimensional (3D) chromatin structure changes in the progression from...
  6. Research: Genome-wide nucleosome and transcription factor responses to genetic perturbations reveal chromatin-mediated mechanisms of transcriptional regulation
    • Kevin Moyung,
    • Yulong Li,
    • Heather K. MacAlpine,
    • Alexander J. Hartemink,
    • and David M. MacAlpine
    Genome Res. January 2026 36: 115-128; Published in Advance December 9, 2025, doi:10.1101/gr.279637.124
    ...-wide landscape of chromatin occupancy for 201 transcriptional regulator mutants. (A) Functional classification of the 201 mutants in our MNase-seq data set. Labels are derived from the Saccharomyces Genome Database. (B) Schematic illustrating chromatin occupancy profiling of 201 yeast mutants via MNase...
  7. Resource: Multiscale network modeling reveals the gene regulatory landscape driving cancer prognosis in 32 cancer types
    • Peng Xu and
    • Bin Zhang
    Genome Res. October 2023 33: 1806-1817; Published in Advance October 31, 2023, doi:10.1101/gr.278063.123
    ...if each pair can be placed on the three-dimensional topological sphere without intersecting with other edges, a process referred to as the planarity test. The resulting coexpression network formed part of a category of geometrical networks known as planar filtered networks (PFNs), which can be depicted...
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  8. Research: H3K27 and H3K9 methylation mask potential CTCF binding sites to maintain 3D genome integrity
    • Kei Fukuda,
    • Chikako Shimura,
    • and Yoichi Shinkai
    Genome Res. October 2025 35: 2199-2210; Published in Advance August 5, 2025, doi:10.1101/gr.280732.125
    ..., Yamanashi 400-8510, Japan Corresponding authors: yshinkai@riken.jp, k.fukuda@yamanashi.ac.jpAbstractThe three-dimensional (3D) structure is essential for gene regulation and various genomic functions. CTCF plays a key role in organizing topologically associated domains (TADs) and promoter-enhancer loops...
  9. Research: Stable genome structures in living fossil fishes
    • Cheng Wang,
    • Chase D. Brownstein,
    • Wenjun Chen,
    • Zufa Ding,
    • Dan Yu,
    • Yu Deng,
    • Chenguang Feng,
    • Thomas J. Near,
    • Shunping He,
    • and Liandong Yang
    Genome Res. February 2026 36: 318-329; Published in Advance January 13, 2026, doi:10.1101/gr.280800.125
    ...contributed equally to this work. Corresponding authors: thomas.near@yale.edu, clad@ihb.ac.cn, yangliandong1987@163.comAbstractGenomic evolution can propel and restrict species diversification. Rapid molecular evolution and genomic rearrangement is often associated with increased species diversification...
  10. Research: Three-dimensional disorganization of the cancer genome occurs coincident with long-range genetic and epigenetic alterations
    • Phillippa C. Taberlay,
    • Joanna Achinger-Kawecka,
    • Aaron T.L. Lun,
    • Fabian A. Buske,
    • Kenneth Sabir,
    • Cathryn M. Gould,
    • Elena Zotenko,
    • Saul A. Bert,
    • Katherine A. Giles,
    • Denis C. Bauer,
    • Gordon K. Smyth,
    • Clare Stirzaker,
    • Sean I. O'Donoghue,
    • and Susan J. Clark
    Genome Res. June 2016 26: 719-731; Published in Advance April 6, 2016, doi:10.1101/gr.201517.115
    ...spatial proximity of genomic elements in three-dimensional space. Interestingly, cancer cells have been shown to display differential spatial interactions across the well-studied 8q24 region containing MYC in prostate cancer (Jia et al. 2009; Pomerantz et al. 2009; Ahmadiyeh et al. 2010; Du et al. 2015...
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