Searching journal content for articles similar to Greenman et al. 22 (2): 346.

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  1. Research: Pangenome analysis reveals families of ubiquitin-ligase adaptors as key genomic divergence drivers that lead to hybrid incompatibility
    • Dongying Xie,
    • Pohao Ye,
    • Yiming Ma,
    • and Zhongying Zhao
    Genome Res. March 2026 36: 506-521; Published in Advance February 17, 2026, doi:10.1101/gr.280885.125
    ...Pan analysis reveals families of ubiquitin-ligase adaptors as key genomic divergence drivers that lead to hybrid incompatibility Dongying Xie1,2,3, Pohao Ye1,3, Yiming Ma1 and Zhongying Zhao1 1Department of Biology, Hong Kong Baptist University, Hong Kong SAR, China; 2Institute for Research...
  2. Research: MHC in newts illuminates the evolutionary dynamics of complex regions in giant genomes
    • Wiesław Babik,
    • Katarzyna Dudek,
    • Gemma Palomar,
    • Marzena Marszałek,
    • Grzegorz Dubin,
    • Maximina H. Yun,
    • and Magdalena Migalska
    Genome Res. February 2026 36: 303-317; Published in Advance January 12, 2026, doi:10.1101/gr.281127.125
    ...the formation of unfit MHC-I–APG recombinants. This theory, based on research in chicken and rat, assumes a single dominantly expressed MHC-I gene that coevolves with APGs (Kaufman 1999, 2015). Such a state has been suggested as ancestral for jawed vertebrates, with a “lucky” accident of a genomic rearrangement...
  3. Research: Stable genome structures in living fossil fishes
    • Cheng Wang,
    • Chase D. Brownstein,
    • Wenjun Chen,
    • Zufa Ding,
    • Dan Yu,
    • Yu Deng,
    • Chenguang Feng,
    • Thomas J. Near,
    • Shunping He,
    • and Liandong Yang
    Genome Res. February 2026 36: 318-329; Published in Advance January 13, 2026, doi:10.1101/gr.280800.125
    ...contributed equally to this work. Corresponding authors: thomas.near@yale.edu, clad@ihb.ac.cn, yangliandong1987@163.comAbstractGenomic evolution can propel and restrict species diversification. Rapid molecular evolution and genomic rearrangement is often associated with increased species diversification...
  4. Method: Partitioned multi-MUM finding for scalable pangenomics with MumemtoM
    • Vikram S. Shivakumar and
    • Ben Langmead
    Genome Res. February 2026 36: 397-404; Published in Advance November 7, 2025, doi:10.1101/gr.280940.125
    ...inversion located in accessions from the Madeira islands, and (E) a complex inversion/rearrangement in the North American subgroup Chr 5 centromere. (C) Coverage of internal nodes in the phylogeny compared to the number of leaves under node. Three highlighted subgroups show particularly high coverage...
  5. Method: ScisTree2 enables large-scale inference of cell lineage trees and genotype calling using efficient local search
    • Haotian Zhang,
    • Yiming Zhang,
    • Teng Gao,
    • and Yufeng Wu
    Genome Res. December 2025 35: 2781-2791; Published in Advance September 3, 2025, doi:10.1101/gr.280542.125
    ...inference of single-cell phylogenies from scDNA-seq data. Genome Biol 23: 37. doi:10.1186/s13059-021-02583-w ↵Kuipers J, Singer J, Beerenwinkel N. 2022. Single-cell mutation calling and phylogenetic tree reconstruction with loss and recurrence. Bioinformatics 38: 4713–4719. doi:10.1093/bioinformatics...
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  6. Resource: High-quality assembly of the Chinese white truffle genome and recalibrated divergence time estimate provide insight into the evolutionary dynamics of Tuberaceae
    • Jacopo Martelossi,
    • Jacopo Vujovic,
    • Yue Huang,
    • Alessia Tatti,
    • Kaiwei Xu,
    • Federico Puliga,
    • Yuanxue Chen,
    • Omar Rota Stabelli,
    • Fabrizio Ghiselli,
    • Xiaoping Zhang,
    • and Alessandra Zambonelli
    Genome Res. November 2025 35: 2601-2616; Published in Advance August 21, 2025, doi:10.1101/gr.280368.124
    ...(TEs) and other repetitive sequences are known to be one of the major causes of structural variations within individuals and species, promoting expansion, gene duplication, gene loss, genomic rearrangements, and reshaping of the overall genomic regulatory network (Bourque et al. 2018). Among fungi...
  7. Research: Synergistic regulation by H3K36 and H3K27 methylation defines the chromatin landscape to control virulence and secondary metabolism in a fungal pathogen
    • Xingmin Han,
    • Chenghui Xu,
    • Yiyi Ren,
    • Meiling Guo,
    • Jiayue Yan,
    • Xuan Wang,
    • Chao Liu,
    • Qin Gu,
    • Xing-Xing Shen,
    • Zhonghua Ma,
    • and Yun Chen
    Genome Res. November 2025 35: 2472-2487; Published in Advance October 14, 2025, doi:10.1101/gr.280560.125
    ...al. 2024). Limited phylogenetic analyses of SET domain proteins across 20 representative fungal species suggested extensive gene duplications, losses, and domain rearrangements, implying unique HMT regulatory mechanisms in fungi (Ding et al. 2022). However, comprehensive, systematic analysis of SET...
  8. 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
    ...@tamu.edu, jje@uci.eduAbstractMany essential functions of organisms are encoded in highly repetitive genomic regions, including histones involved in DNA packaging, centromeres that are core components of chromosome segregation, ribosomal RNA comprising the protein translation machinery, telomeres that ensure...
    OPEN ACCESS ARTICLE
  9. Research: Continuous infiltration and evolutionary trajectory of nuclear organelle DNA in Oryza
    • Chenbo Gong,
    • Yicheng Huang,
    • Mengmeng Liu,
    • Yong Zhou,
    • Yinwei Xu,
    • Nahed Mohammed,
    • Xintong Qiao,
    • Andrea Zuccolo,
    • Weibo Xie,
    • Rod A. Wing,
    • Jianwei Zhang,
    • Fei Zhou,
    • and Yongjun Lin
    Genome Res. June 2025 35: 1349-1363; Published in Advance April 25, 2025, doi:10.1101/gr.279609.124
    ...,E; Supplemental Table S8), which are difficult to explain by c-NHEJ- or alt-EJ-mediated mechanisms. In addition to DSBR pathways, RBMs such as FoSTeS/MMBIR could explain nonrecurrent structural variants such as complex genomic rearrangements containing multiple breakpoints, insertions of DNA segments...
  10. Research: Extreme heterochiasmy and high rates of sex-reversed recombination result in large yet homomorphic sex chromosomes in the Emei moustache toad
    • Siyu Xie,
    • Jun Li,
    • Wanyan Chen,
    • Lydia J.M. Fong,
    • Chunhua Huang,
    • Yan Feng,
    • Qingbo Ai,
    • Mian Zhao,
    • Judith E. Mank,
    • and Hua Wu
    Genome Res. June 2025 35: 1325-1336; Published in Advance April 24, 2025, doi:10.1101/gr.280161.124
    ...chromosomes over large genomic regions.The evolution of sex chromosomes represents one of the major innovations of inheritance and plays a core role in sexual evolution in the animal kingdom (Charlesworth 1991; Wright et al. 2016). In species with genetic sex determination mechanisms, sex chromosomes carry...
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