Searching journal content for articles similar to Ashburner and Bergman 15 (12): 1661.

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  1. Research: Strong bias in long-read sequencing prevents assembly of Drosophila melanogaster Y-linked genes
    • A. Bernardo Carvalho,
    • Bernard Y. Kim,
    • and Fabiana Uno
    Genome Res. January 2026 36: 71-82; Published in Advance October 1, 2025, doi:10.1101/gr.280604.125
    ..., the clearest one against GA-rich repeats in the human . However, our study reveals a systematic failure of both technologies to sequence and assemble specific exons of Drosophila melanogaster genes, indicating an overlooked limitation. Namely, multiple Y-linked exons are nearly or completely absent from raw...
  2. Research: Genetic variation in recalcitrant repetitive regions of the Drosophila melanogaster genome
    • Harsh G. Shukla,
    • Mahul Chakraborty,
    • and J.J. Emerson
    Genome Res. September 2025 35: 2023-2040; Published in Advance July 16, 2025, doi:10.1101/gr.280728.125
    ...Genetic variation in recalcitrant repetitive regions of the Drosophila melanogaster Harsh G. Shukla1,2, Mahul Chakraborty3 and J.J. Emerson1,4 1Department of Ecology and Evolutionary Biology, University of California Irvine, Irvine, California 92697, USA; 2Graduate Program in Mathematical...
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  3. Method: Automated interpretable artificial intelligence genomic prediction with AlGP
    • Lei Wei,
    • Ziqin Jiang,
    • Baoliang Fan,
    • Yidan Yan,
    • Zhenqiang Xu,
    • Xiaoxiang Hu,
    • and Yuzhe Wang
    Genome Res. March 5, 2026 ; Published in Advance March 5, 2026, doi:10.1101/gr.281006.125
    ..., China; 3College of Animal Science and Technology, Hebei Agricultural University, Baoding 071001, China; 4National Research Facility for Phenotypic and Genotypic Analysis of Model Animals (Beijing), China Agricultural University, Beijing 100193, China Predicting phenotypes from genomic mutations remains...
  4. 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...
  5. 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...
  6. Research: Polycomb misregulation in enterocytes drives tissue decline in the aging Drosophila intestine
    • Sarah M. Leichter,
    • Kami Ahmad,
    • and Steven Henikoff
    Genome Res. January 2026 36: 102-114; Published in Advance November 17, 2025, doi:10.1101/gr.281058.125
    ...chromatin than previously profiled Drosophila tissues (Supplemental Fig. S9A,B). Genome-wide analyses have shown that the majority of Pc binding sites in other Drosophila tissues are located outside of H3K27me3-marked domains (Orsi et al. 2014; Loubiere et al. 2016; Brown et al. 2018). Promoter-proximal Pc...
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  7. 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
    ...stem cells (CySCs), the Drosophila testis provides an excellent in vivo model for studying adult stem cells. However, the small number of stem cells and the cellular heterogeneity of this tissue have limited comprehensive genomic studies. In this study, we develop cell-type-specific genomic techniques...
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  8. Research: Variation in mutation, recombination, and transposition rates in Drosophila melanogaster and Drosophila simulans
    • Yiguan Wang,
    • Paul McNeil,
    • Rashidatu Abdulazeez,
    • Marta Pascual,
    • Susan E. Johnston,
    • Peter D. Keightley,
    • and Darren J. Obbard
    Genome Res. April 2023 33: 587-598; Published in Advance April 10, 2023, doi:10.1101/gr.277383.122
    ...identified in a West African and a European population of Drosophila melanogaster, and a European population of Drosophila simulans. (A) The genomic positions of the SNMs on chromosomes. Each gray bar represents the of one offspring. Point color represents mutation type and point shape represents...
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  9. Research: Causes and consequences of a complex recombinational landscape in the ant Cardiocondyla obscurior
    • Mohammed Errbii,
    • Jürgen Gadau,
    • Kerstin Becker,
    • Lukas Schrader,
    • and Jan Oettler
    Genome Res. June 2024 34: 863-876; Published in Advance June 5, 2024, doi:10.1101/gr.278392.123
    ...). In the following, we investigated potential factors contributing to the variation in the number of crossovers and, consequently, recombination rate in C. obscurior.Recombination rate distribution and architecture in C. obscuriorTo investigate the genomic determinants of recombination in C. obscurior, we estimated...
  10. Perspective: Functional assays in Drosophila facilitate classification of variants of uncertain significance associated with rare diseases
    • Jung-Wan Mok,
    • Shelley B. Gibson,
    • Haley A. Dostalik,
    • and Shinya Yamamoto
    Genome Res. July 2025 35: 1473-1484; Published in Advance June 4, 2025, doi:10.1101/gr.278291.123
    ...significance (GUS) that are difficult to interpret, even with the integration of the latest bioinformatic tools. In this Perspective, we review how studies using the fruit fly Drosophila melanogaster have facilitated rare disease diagnosis by uncovering the clinical relevance of GUS and classifying rare...
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