Searching journal content for articles similar to Saul et al. 27 (6): 959.

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  1. Research: Genomic regulatory landscape underlying the antiviral response of Atlantic salmon
    • Shahmir Naseer,
    • Thomas C Clark,
    • Bertrand Collet,
    • Pooran Dewari,
    • Damir Baranasic,
    • Daniel J Macqueen,
    • Pierre Boudinot,
    • and Samuel A.M. Martin
    Genome Res. October 22, 2025 gr.280579.125; Published in Advance October 22, 2025, doi:10.1101/gr.280579.125
    ...” and “innate immune response”. The 288 prevalence of IRF8 motifs within these genes further supports this TF’s role as a critical 289 transcription factor driving interferon-stimulated regulatory networks during poly I:C 290 stimulation. 291 292 Chromatin state dynamics and TFBS using whole ATAC-seq and Ch...
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  2. Research: Functional genomics analysis of developing zebrafish and human endoderm reveals highly conserved cis-regulatory modules acting during vertebrate organogenesis
    • Daniela M Riley,
    • Randa Elsayed,
    • Mark D Walsh,
    • Simaran Johal,
    • Ying Lin,
    • Harry Walton,
    • Till Bretschneider,
    • Sascha Ott,
    • and Andrew C Nelson
    Genome Res. March 4, 2026 gr.280838.125; Published in Advance March 4, 2026, doi:10.1101/gr.280838.125
    ...to mediate 57 consistent phenotypic outcomes there must also be consistent regulation of such genes by 58 cis-regulatory modules (CRMs). CRMs consist of clusters of transcription factor binding sites 59 (TFBSs) that regulate the expression of target genes through collective or competitive binding 60...
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  3. 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
    ...polyploidization as well as changes in calcium dynamics and metabolism following stress with endothelin-1. Collectively, these results identify regulatory mechanisms of cardiac gene programs that modulate cardiomyocyte maturation, affect cellular stress response, and could serve as potential therapeutic targets...
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  4. Research: Transcriptional modulation unique to vulnerable motor neurons predicts ALS across species and SOD1 mutations
    • Irene Mei,
    • Susanne Nichterwitz,
    • Melanie Leboeuf,
    • Jik Nijssen,
    • Isadora Lenoel,
    • Dirk Repsilber,
    • Christian S. Lobsiger,
    • and Eva Hedlund
    Genome Res. September 2025 35: 1975-1991; Published in Advance July 17, 2025, doi:10.1101/gr.279501.124
    ...) that innervate skeletal muscles. However, certain MN groups including ocular MNs, are relatively resilient. To reveal key drivers of resilience versus vulnerability in ALS, we investigate the transcriptional dynamics of four distinct MN populations in SOD1G93A ALS mice using LCM-seq and single...
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  5. Resource: Multitissue single-nucleus RNA-seq reveals cell type–specific regulatory patterns of alternative polyadenylation in pigs
    • Qiuhan Wen,
    • Zhen Wang,
    • Qi Bao,
    • Tianli Ding,
    • Haihan Zhang,
    • Jianbo Li,
    • Zhuang Liu,
    • Jieping Huang,
    • and Guoqiang Yi
    Genome Res. September 2025 35: 2116-2129; Published in Advance June 16, 2025, doi:10.1101/gr.280095.124
    ...that the global 3′ UTR landscape changes dynamically with oocyte meiotic maturation, suggesting a significant regulatory role in the meiotic processes of oocytes (Zhao et al. 2023). Another study demonstrated that 3′ UTRs regulate the response of porcine immature Sertoli cells to acute heat stress (Wang et al...
  6. Research: Androgen receptor–mediated assisted loading of the glucocorticoid receptor modulates transcriptional responses in prostate cancer cells
    • Johannes Hiltunen,
    • Laura Helminen,
    • Niina Aaltonen,
    • Kaisa-Mari Launonen,
    • Hanna Laakso,
    • Marjo Malinen,
    • Einari A. Niskanen,
    • Jorma J. Palvimo,
    • and Ville Paakinaho
    Genome Res. August 2025 35: 1717-1732; Published in Advance June 2, 2025, doi:10.1101/gr.280224.124
    ...factors (TFs) to regulatory elements at enhancers plays a crucial role in shaping the development and function of cells by driving specific gene expression patterns (Field and Adelman 2020; Jindal and Farley 2021). The regulatory capabilities of TFs stem from their ability to recruit coregulators...
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  7. Resource: Binding profiles for 961 Drosophila and C. elegans transcription factors reveal tissue-specific regulatory relationships
    • Michelle Kudron,
    • Louis Gevirtzman,
    • Alec Victorsen,
    • Bridget C. Lear,
    • Jiahao Gao,
    • Jinrui Xu,
    • Swapna Samanta,
    • Emily Frink,
    • Adri Tran-Pearson,
    • Chau Huynh,
    • Dionne Vafeados,
    • Ann Hammonds,
    • William Fisher,
    • Martha Wall,
    • Greg Wesseling,
    • Vanessa Hernandez,
    • Zhichun Lin,
    • Mary Kasparian,
    • Kevin White,
    • Ravi Allada,
    • Mark Gerstein,
    • LaDeana Hillier,
    • Susan E. Celniker,
    • Valerie Reinke,
    • and Robert H. Waterston
    Genome Res. December 2024 34: 2319-2334; Published in Advance October 22, 2024, doi:10.1101/gr.279037.124
    ...authors: watersto@uw.edu, valerie.reinke@yale.eduAbstractA catalog of transcription factor (TF) binding sites in the is critical for deciphering regulatory relationships. Here, we present the culmination of the efforts of the modENCODE (model organism Encyclopedia of DNA Elements) and modERN (model...
  8. 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
    ...Corresponding authors: gcooper@hudsonalpha.org, rmyers@hudsonalpha.orgAbstractDifferential gene expression in response to perturbations is mediated at least in part by changes in binding of transcription factors (TFs) and other proteins at specific genomic regions. Association of these cis-regulatory elements...
  9. Research: Transposable elements drive the evolution of metazoan zinc finger genes
    • Jonathan N. Wells,
    • Ni-Chen Chang,
    • John McCormick,
    • Caitlyn Coleman,
    • Nathalie Ramos,
    • Bozhou Jin,
    • and Cédric Feschotte
    Genome Res. August 2023 33: 1325-1339; Published in Advance September 15, 2023, doi:10.1101/gr.277966.123
    ...contributed equally to this work. Corresponding authors: jnw72@cornell.edu, cf458@cornell.eduAbstractCys2-His2 zinc finger genes (ZNFs) form the largest family of transcription factors in metazoans. ZNF evolution is highly dynamic and characterized by the rapid expansion and contraction of numerous...
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  10. Method: A gene regulatory network–aware graph learning method for cell identity annotation in single-cell RNA-seq data
    • Mengyuan Zhao,
    • Jiawei Li,
    • Xiaoyi Liu,
    • Ke Ma,
    • Jijun Tang,
    • and Fei Guo
    Genome Res. July 2024 34: 1036-1051; Published in Advance August 12, 2024, doi:10.1101/gr.278439.123
    ...(Fig. 1B). scHGR integrates gene relationships that are prevalent in human and mouse from the GREDB, BioGRID, TRRUST, and RegNetwork databases. In contrast to cell type–specific and tissue-specific gene regulatory networks, such gene relationships do not vary with cell type and tissue. Transcriptional...
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