Searching journal content for articles similar to Huvet et al. 17 (9): 000.

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  1. 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
    ...of the link between chromatin architecture and gene regulation in disease contexts (Paulsen et al. 2017).Indeed, transcriptional dysregulation has been attributed to alterations in 3D organization in diseases, including cancer (Feng and Pauklin 2020; Osman et al. 2022), yet analysis of multiple cancers shows...
  2. 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
    ...Suv39h-catalyzed H3K9me3 is critical for euchromatic organization and the maintenance of gene transcription Christine R. Keenan1,2,4,6, Hannah D. Coughlan1,2,4, Nadia Iannarella1, Andres Tapia del Fierro1,2, Andrew Keniry1,2, Timothy M. Johanson1,2, Wing Fuk Chan1,2,7, Alexandra L. Garnham1...
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  3. Method: Gene duplication is associated with gene diversification and potential neofunctionalization in lung cancer evolution
    • Paul Ashford,
    • Alexander M. Frankell,
    • Zofia Piszka,
    • Camilla S.M. Pang,
    • Mahnaz Abbasian,
    • Maise Al Bakir,
    • Mariam Jamal-Hanjani,
    • Nicholas McGranahan,
    • Charles Swanton,
    • and Christine A. Orengo
    Genome Res. March 2026 36: 561-577; Published in Advance February 19, 2026, doi:10.1101/gr.278663.123
    ...s (Van de Peer et al. 2009; Kondrashov 2012; Wang et al. 2012). Although increased ploidy following WGD incurs fitness costs to an organism, it can confer advantages during times of environmental change and stress, including increased adaptability and robustness of gene regulatory networks (Ebadi et...
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  4. 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
    ...-translational modifications, play a crucial role in regulating programs integral to a cell's identity, like gene expression and DNA replication. However, the transcriptional, chromatin, and replication timing profiles of adult stem cells in vivo remain poorly understood. Containing germline stem cells (GSCs) and somatic cyst...
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  5. 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
    ...Untangling the relationship between 3D organization and gene expression remains a key question in regulatory genomics. Although a direct mechanistic link between transcription and 3D organization has been observed (Heinz et al. 2018; van Steensel and Furlong 2019) during cell state transitions (Chen et al. 2024; Pollex et al...
  6. Resource: Single-nucleus multiomic profiling of the aging mouse substantia nigra reveals conserved gene alterations linked to Parkinson's disease
    • Kangli Wang,
    • Weikun Xia,
    • Yingli Gu,
    • Songpeng Zu,
    • Qian Yang,
    • Maria Luisa Amaral,
    • Yaozhi Wang,
    • Allen Wang,
    • Xiang-Dong Fu,
    • William C. Mobley,
    • and Bing Ren
    Genome Res. March 4, 2026 gr.281113.125; Published in Advance March 4, 2026, doi:10.1101/gr.281113.125
    ...primarily employed RNA sequencing(Jin et al. 2025), which, while 63 informative, does not fully elucidate the complex regulatory mechanisms underlying 64 transcriptional programs. Gene expression is regulated by cis-regulatory elements (CREs) in a 65 spatiotemporal manner through precise gene regulatory...
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  7. Research: Comprehensive functional annotation of ESR1-driven enhancers in breast cancer reveals hierarchical activity independent of genomic and epigenomic contexts
    • Yanis Zekri,
    • Sebastian Gregoricchio,
    • Elif Yapıcı,
    • Chia-Chi Flora Huang,
    • Tunç Morova,
    • Umut Berkay Altıntaş,
    • Gozde Korkmaz,
    • Nathan A. Lack,
    • and Wilbert Zwart
    Genome Res. July 2025 35: 1530-1543; Published in Advance June 10, 2025, doi:10.1101/gr.280320.124
    ...on the pioneer factor FOXA1 (Carroll et al. 2005). Once bound to DNA, ESR1 recruits a large spectrum of coactivators and corepressors in a highly coordinated fashion to regulate transcription (Yi et al. 2015). Because most ERBS are located far from gene promoters, their regulatory effects are mediated...
  8. Research: Integrating genetic variation with deep learning provides context for variants impacting transcription factor binding during embryogenesis
    • Olga M. Sigalova,
    • Mattia Forneris,
    • Frosina Stojanovska,
    • Bingqing Zhao,
    • Rebecca R. Viales,
    • Adam Rabinowitz,
    • Fayrouz Hammal,
    • Benoît Ballester,
    • Judith B. Zaugg,
    • and Eileen E.M. Furlong
    Genome Res. May 2025 35: 1138-1153; Published in Advance April 15, 2025, doi:10.1101/gr.279652.124
    ...variants occur in the noncoding (Edwards et al. 2013; Buniello et al. 2019) and likely affect gene regulation (Claringbould and Zaugg 2021). One mechanism by which mutations impact transcriptional programs is through the disruption of transcription factor (TF) binding sites within regulatory elements...
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  9. Research: A gene regulatory element modulates myosin expression and controls cardiomyocyte response to stress
    • Taylor Anglen,
    • Irene M. Kaplow,
    • Baekgyu Choi,
    • Enya Dewars,
    • Robin M. Perelli,
    • Kevin T. Hagy,
    • Duc Tran,
    • Megan E. Ramaker,
    • Svati H. Shah,
    • Inkyung Jung,
    • Andrew P. Landstrom,
    • Ravi Karra,
    • Yarui Diao,
    • and Charles A. Gersbach
    Genome Res. November 2025 35: 2418-2432; Published in Advance October 22, 2025, doi:10.1101/gr.280825.125
    ....Cardiac development is driven by the temporal and spatial coordination of gene expression and cell signaling. Disruption of these pathways has been implicated in heart disease across all stages of life (May et al. 2012; Dirkx et al. 2013). Gene regulation is typically coordinated by distal cis-regulatory elements...
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  10. Research: Genetic effects on chromatin accessibility uncover mechanisms of liver gene regulation and quantitative traits
    • Kevin W. Currin,
    • Hannah J. Perrin,
    • Gautam K. Pandey,
    • Abdalla A. Alkhawaja,
    • Swarooparani Vadlamudi,
    • Annie E. Musser,
    • Amy S. Etheridge,
    • K. Alaine Broadaway,
    • Jonathan D. Rosen,
    • Arushi Varshney,
    • Amarjit S. Chaudhry,
    • Paul J. Gallins,
    • Fred A. Wright,
    • Yi-hui Zhou,
    • Stephen C.J. Parker,
    • Laura M. Raffield,
    • Erin G. Schuetz,
    • Federico Innocenti,
    • and Karen L. Mohlke
    Genome Res. July 2025 35: 1485-1502; Published in Advance May 20, 2025, doi:10.1101/gr.279741.124
    ...the same direction of effect (Degner et al. 2012; Currin et al. 2021); the remaining 18% of caQTL–eQTL colocalizations may represent transcriptional silencers. Among nonpromoter caQTLs, caPeaks linked by Hi-C were further from the gene TSS compared with caPeaks linked by eQTLs or coordination with promoter...
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