Searching journal content for articles similar to Natarajan et al. 22 (9): 1711.

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  1. Resource: Cell type–specific gene regulatory atlas prioritizes drug targets and repurposable medicines in Alzheimer's disease
    • Yunxiao Ren,
    • Ming Hu,
    • Yang E. Li,
    • Andrew A. Pieper,
    • Jeffrey Cummings,
    • and Feixiong Cheng
    Genome Res. March 2026 36: 645-659; Published in Advance January 21, 2026, doi:10.1101/gr.280436.125
    .... By integrating transcription factor (TF)–target gene relationships, chromatin accessibility, and genetic variation, this framework aims to elucidate the cell type–specific regulatory mechanisms underlying AD progression, link genetic risk variants to cis-regulatory elements and target genes, and prioritize...
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  2. 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
    ...regulators in GSC-like cells. To characterize chromatin landscapes, we develop a cell-type-specific chromatin profiling assay to map H3K4me3-, H3K27me3-, and H3K9me3-enriched regions, corresponding to the euchromatic, facultative heterochromatic, and constitutive heterochromatic domains, respectively...
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  3. Method: Highly accurate reference and method selection for universal cross–data set cell type annotation with CAMUS
    • Qunlun Shen,
    • Shuqin Zhang,
    • and Shihua Zhang
    Genome Res. November 2025 35: 2527-2538; Published in Advance October 1, 2025, doi:10.1101/gr.280821.125
    ...and reliability in various biological scenarios. It is worth noting that, for the clustering of scST data, the limited number of genes measured may lead to blurry clustering boundaries or different cell types being wrongly mixed into a single cluster. Specifically, we focused on the mouse hypothalamic region sc...
  4. 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
    ...a comprehensive APA atlas for 261 cell types across 19 porcine tissues based on single-nucleus RNA sequencing (snRNA-seq) data. This analysis reveals tissue- and cell type–specific patterns of APA. We find that many genes display a clear correlation between the average length of 3′ untranslated regions (3′ UTRs...
  5. 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
    ...and maintain these structures are largely shared between different cell types and between different vertebrate species, the specific genomic regions that interact can differ strongly between species, cell types, and even between sick and healthy cells (Rao et al. 2014; Lupiáñez et al. 2015; Dekker and Mirny...
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  6. Method: A scalable computational framework for predicting gene expression from candidate cis-regulatory elements
    • Qinhu Zhang,
    • Siguo Wang,
    • Zhipeng Li,
    • Wenzheng Bao,
    • Wenjian Liu,
    • and De-Shuang Huang
    Genome Res. February 2026 36: 361-374; Published in Advance January 16, 2026, doi:10.1101/gr.281219.125
    ...in predicting gene expression, chromatin states, and variant effects. However, because this method only uses sequences, it cannot recognize cell type–specific cCREs, signifying that its adaptability to unseen data from new cell types is limited (Sasse et al. 2023). Moreover, training a new model from scratch...
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  7. 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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  8. Method: Early feature extraction drives model performance in high-resolution chromatin accessibility prediction
    • Aayush Grover,
    • Till Muser,
    • Liine Kasak,
    • Lin Zhang,
    • Ekaterina Krymova,
    • and Valentina Boeva
    Genome Res. March 2026 36: 619-629; Published in Advance January 12, 2026, doi:10.1101/gr.281042.125
    ...for downstream tasks, including prediction of transcription factor binding (Cazares et al. 2023), cell type–specific chromatin structure (Tan et al. 2023; Yang et al. 2023; Zhang et al. 2023; Gao et al. 2024; Grover et al. 2024), and gene expression (Karbalayghareh et al. 2022; Zhang et al. 2023). Therefore...
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  9. 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
    ...with a more direct effect of genetic variants on chromatin accessibility than gene expression.Regulatory mechanisms at GWAS signalsAt caQTL signals colocalized with GWAS signals, we used predicted caPeak target genes and disrupted TF motifs to predict regulatory mechanisms. Of the 998 unique ca...
  10. Research: Clustered and diverse transcription factor binding underlies cell type specificity of enhancers for housekeeping genes
    • Iris Zhu and
    • David Landsman
    Genome Res. October 2023 33: 1662-1672; Published in Advance October 26, 2023, doi:10.1101/gr.278130.123
    ...expressed in both ES and MEF cells (∼25 RPKM in both cells) and is the only active gene in the flanking 300-kb region. The associated enhancers of Tgif1, however, are located at different sites in the two cell types. Additional examples of the same gene associated with cell type–specific enhancers in ES...
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