Searching journal content for articles similar to Marbach et al. 22 (7): 1334.

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  1. Research: Rapid evolution of piRNA clusters in the Drosophila melanogaster ovary
    • Satyam P. Srivastav,
    • Cédric Feschotte,
    • and Andrew G. Clark
    Genome Res. May 2024 34: 711-724; Published in Advance May 15, 2024, doi:10.1101/gr.278062.123
    ...in Drosophila melanogaster, much less is known about the origin and evolution of piCs in this or any other species. To investigate piC origin and evolution, we use a population genomic approach to compare piC activity and sequence composition across eight geographically distant strains of D. melanogaster...
  2. Research: Transposable elements contribute to the evolution of host shift–related genes in cactophilic Drosophila species
    • Daniel Siqueira de Oliveira,
    • Anaïs Larue,
    • William Vilas Boas Nunes,
    • Francois Sabot,
    • Alejandra Bodelón,
    • María Pilar García Guerreiro,
    • Cristina Vieira,
    • and Claudia Marcia Aparecida Carareto
    Genome Res. March 2026 36: 487-505; Published in Advance February 10, 2026, doi:10.1101/gr.280463.125
    ...-derived sequences (Lipatov et al. 2005). A recent transcriptome-wide study identified 327 genes in Drosophila melanogaster that generate chimeric transcripts across different populations (Oliveira et al. 2023). Among all genes, 76 generate chimeric transcripts from TE insertions that were present in one strain...
  3. 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
    ...organism Encyclopedia of Regulatory Networks) consortia to systematically assay TF binding events in vivo in two major model organisms, Drosophila melanogaster (fly) and Caenorhabditis elegans (worm). These data sets comprise 605 TFs identifying 3.6 M sites in the fly and 356 TFs identifying 0.9 M sites...
  4. Research: Mapping multitissue regulatory variants reveals a liver-centric coexpression network associated with duck egg-laying performance
    • Yang Xi,
    • Jingjing Qi,
    • Zhao Yang,
    • Yutian Zeng,
    • Huicong Zhang,
    • Qiuyu Tao,
    • Mengru Xu,
    • Anqi Huang,
    • Shenqiang Hu,
    • Chunchun Han,
    • Lili Bai,
    • Jiwei Hu,
    • Jiwen Wang,
    • Liang Li,
    • Lingzhao Fang,
    • and Hehe Liu
    Genome Res. October 2025 35: 2211-2225; Published in Advance September 10, 2025, doi:10.1101/gr.280345.124
    ..., interacting physiological systems. An increasing number of studies indicate that, beyond the traditionally emphasized hypothalamic–pituitary–gonadal (HPG) axis, metabolic and immune tissues are integral components of the regulatory network controlling laying performance. For instance, the liver sustains high...
  5. Research: Transcriptional programs mediating neuronal toxicity and altered glial–neuronal signaling in a Drosophila knock-in tauopathy model
    • Hassan Bukhari,
    • Vanitha Nithianandam,
    • Rachel A. Battaglia,
    • Anthony Cicalo,
    • Souvarish Sarkar,
    • Aram Comjean,
    • Yanhui Hu,
    • Matthew J. Leventhal,
    • Xianjun Dong,
    • and Mel B. Feany
    Genome Res. April 2024 34: 590-605; Published in Advance April 10, 2024, doi:10.1101/gr.278576.123
    ...Transcriptional programs mediating neuronal toxicity and altered glial–neuronal signaling in a Drosophila knock-in tauopathy model Hassan Bukhari1,2, Vanitha Nithianandam1,2, Rachel A. Battaglia1,2, Anthony Cicalo2,3,4, Souvarish Sarkar1, Aram Comjean5, Yanhui Hu5, Matthew J. Leventhal6,7, Xianjun...
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  6. Research: tRNA-derived small RNAs are embedded in the gene regulatory network instructing Drosophila metamorphosis
    • Junling Shi,
    • Jiaqi Xu,
    • Jun Ma,
    • and Feng He
    Genome Res. December 2023 33: 2119-2132; Published in Advance November 16, 2023, doi:10.1101/gr.278128.123
    ...are tightly controlled, raising the possibility that their breakdown products, tsRNAs, may provide a link between the overall translational status of a cell to specific changes in gene regulatory network. We hypothesize that Drosophila pupation, being a special developmental stage during which...
  7. Research: Population genomics reveals mechanisms and dynamics of de novo expressed open reading frame emergence in Drosophila melanogaster
    • Anna Grandchamp,
    • Lucas Kühl,
    • Marie Lebherz,
    • Kathrin Brüggemann,
    • John Parsch,
    • and Erich Bornberg-Bauer
    Genome Res. June 2023 33: 872-890; Published in Advance July 13, 2023, doi:10.1101/gr.277482.122
    ...and that (few) surviving transcripts gain stable and broader expressions, presumably via fast epigenetic control (Schmitz et al. 2020). Zhao et al. (2014) identified 106 de novo genes specifically expressed in the testis of laboratory strains of Drosophila melanogaster. Furthermore, Moyers and Zhang (2016...
  8. Research: Kinetic networks identify TWIST2 as a key regulatory node in adipogenesis
    • Arun B. Dutta,
    • Daniel S. Lank,
    • Roza K. Przanowska,
    • Piotr Przanowski,
    • Lixin Wang,
    • Bao Nguyen,
    • Ninad M. Walavalkar,
    • Fabiana M. Duarte,
    • and Michael J. Guertin
    Genome Res. March 2023 33: 314-331; Published in Advance February 21, 2023, doi:10.1101/gr.277559.122
    ...as covariation in their accessibility and transcription to infer functional links, termed cis-edges, in our networks. We define cis-edges as predicted regulatory relationships between REs and genes. For example, if GR binds a RE within a gene's promoter and induces gene activation, we draw a cis-edge between...
    OPEN ACCESS ARTICLE
  9. 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
    ...in purifying selection pressure on regulatory networks important for brain function compared with liver function. One expectation from this hypothesis would be that TF binding motifs with a strong brain bias in TF binding would be depleted in TE sequences. To test this, we first inferred tissue bias in TF...
  10. Research: Single-cell analysis reveals transcriptional dynamics in healthy primary parathyroid tissue
    • Aarthi Venkat,
    • Maximillian J. Carlino,
    • Betty R. Lawton,
    • Manju L. Prasad,
    • Matthew Amodio,
    • Courtney E. Gibson,
    • Caroline J. Zeiss,
    • Scott E. Youlten,
    • Smita Krishnaswamy,
    • and Diane S. Krause
    Genome Res. June 2024 34: 837-850; Published in Advance July 8, 2024, doi:10.1101/gr.278215.123
    ...target genes as identified by the ENCODE data set ENCSR407MOM, including HERC4, RIF1, TEAD1, and STAT5B (Subramanian et al. 2005; Sloan et al. 2016; Kolmykov et al. 2021). Although derived from Drosophila cells, this ChIP-seq data set has 2444 candidate target genes with human or primate orthologs...
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