Searching journal content for articles similar to Swan et al. 12 (7): 1100.

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  1. Resource: CGC1, a new reference genome for Caenorhabditis elegans
    • Kazuki Ichikawa,
    • Massa J. Shoura,
    • Karen L. Artiles,
    • Dae-Eun Jeong,
    • Chie Owa,
    • Haruka Kobayashi,
    • Yoshihiko Suzuki,
    • Manami Kanamori,
    • Yu Toyoshima,
    • Yuichi Iino,
    • Ann E. Rougvie,
    • Lamia Wahba,
    • Andrew Z. Fire,
    • Erich M. Schwarz,
    • and Shinichi Morishita
    Genome Res. August 2025 35: 1902-1918; Published in Advance July 15, 2025, doi:10.1101/gr.280274.124
    ..., a Moerman Gene Knockout Laboratory subculture of N2 obtained from the Caenorhabditis Genetics Center (https://cgc.umn.edu) in 2002 and first described by Flibotte et al. (2010).C. elegans and gene annotation versionsIn analyzing gDNA from the N2 assembly, we have used the most recent stable version from...
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  2. Research: Endonucleolytic cleavage is the primary mechanism of decay elicited by C. elegans nonsense-mediated mRNA decay
    • Marcus J. Viscardi,
    • Enisha Sehgal,
    • and Joshua A. Arribere
    Genome Res. June 2025 35: 1337-1348; Published in Advance May 9, 2025, doi:10.1101/gr.280046.124
    ...targeted mRNAs and mitigate truncated protein production. The presence of independent degradation pathways conflicts with genetic evidence supporting the requirement of all of SMG-1 through SMG-7 in Caenorhabditis elegans’ NMD (Hodgkin et al. 1989; Cali et al. 1999; Anders et al. 2003).A contemporary SMG-5...
  3. Research: Cohesin organizes 3D DNA contacts surrounding active enhancers in C. elegans
    • Jun Kim,
    • Haoyu Wang,
    • and Sevinç Ercan
    Genome Res. May 2025 35: 1108-1123; Published in Advance April 10, 2025, doi:10.1101/gr.279365.124
    ..., such as Caenorhabditis elegans.C. elegans is a small nematode with an ∼100 Mb and ∼20,000 genes (Heger et al. 2009). Median gene length is ∼2 kb, and intergenic distances between genes (excluding operons encompassing ∼15% of genes) range from ∼2 to 10 kb (Nelson et al. 2004; Girard et al. 2007; Allen et al. 2011). Like...
  4. Resource: Recompleting the Caenorhabditis elegans genome
    • Jun Yoshimura,
    • Kazuki Ichikawa,
    • Massa J. Shoura,
    • Karen L. Artiles,
    • Idan Gabdank,
    • Lamia Wahba,
    • Cheryl L. Smith,
    • Mark L. Edgley,
    • Ann E. Rougvie,
    • Andrew Z. Fire,
    • Shinichi Morishita,
    • and Erich M. Schwarz
    Genome Res. June 2019 29: 1009-1022; Published in Advance May 23, 2019, doi:10.1101/gr.244830.118
    ...Recompleting the Caenorhabditis elegans Jun Yoshimura1,7, Kazuki Ichikawa1,7, Massa J. Shoura2,7, Karen L. Artiles2,7, Idan Gabdank3, Lamia Wahba2, Cheryl L. Smith2,3, Mark L. Edgley4, Ann E. Rougvie5, Andrew Z. Fire2,3, Shinichi Morishita1 and Erich M. Schwarz6 1Department of Computational Biology...
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  5. 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...
  6. Research: A low-abundance class of Dicer-dependent siRNAs produced from a variety of features in C. elegans
    • Thiago L. Knittel,
    • Brooke E. Montgomery,
    • Alex J. Tate,
    • Ennis W. Deihl,
    • Anastasia S. Nawrocki,
    • Frederic J. Hoerndli,
    • and Taiowa A. Montgomery
    Genome Res. December 2024 34: 2203-2216; Published in Advance December 2, 2024, doi:10.1101/gr.279083.124
    ...and Ruvkun 2020).Endogenous siRNAs may constitute a distinct class of small RNAs largely overlooked in C. elegans. Presumably, such siRNAs are rare in wild-type C. elegans since they have not emerged from high-throughput small RNA sequencing (sRNA-seq) studies characterizing small RNAs (Ruby et al. 2006...
  7. Resource: Comprehensive characterization of tissue-specific chromatin accessibility in L2 Caenorhabditis elegans nematodes
    • Timothy J. Durham,
    • Riza M. Daza,
    • Louis Gevirtzman,
    • Darren A. Cusanovich,
    • Olubusayo Bolonduro,
    • William Stafford Noble,
    • Jay Shendure,
    • and Robert H. Waterston
    Genome Res. October 2021 31: 1952-1969; Published in Advance April 22, 2021, doi:10.1101/gr.271791.120
    ...accessibility profiles of single cells has improved greatly. This technology relies on the assay for transposase-accessible chromatin followed by high-throughput sequencing (ATAC-seq) (Buenrostro et al. 2013), which treats permeabilized nuclei with a hyperactive Tn5 transposome from prokaryotes (Adey et al...
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  8. Research: Characterization of the distribution and dynamics of chromatin states in the C. elegans germline reveals substantial H3K4me3 remodeling during oogenesis
    • Mariateresa Mazzetto,
    • Lauren E. Gonzalez,
    • Nancy Sanchez,
    • and Valerie Reinke
    Genome Res. January 2024 34: 57-69; Published in Advance December 26, 2023, doi:10.1101/gr.278247.123
    .... We recently addressed this limitation by developing a protocol to isolate undifferentiated germ nuclei (IGN) at sufficient numbers that allow for genomic assays (Han et al. 2019). Over the past few years, we and others have successfully used this protocol for different high-throughput sequencing...
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  9. Resource: Direct full-length RNA sequencing reveals unexpected transcriptome complexity during Caenorhabditis elegans development
    • Runsheng Li,
    • Xiaoliang Ren,
    • Qiutao Ding,
    • Yu Bi,
    • Dongying Xie,
    • and Zhongying Zhao
    Genome Res. February 2020 30: 287-298; Published in Advance February 5, 2020, doi:10.1101/gr.251512.119
    ...been revealed at the transcriptome scale, which is mainly due to the rapid development in detection technology based on high-throughput sequencing (Dominissini et al. 2012). For example, transcriptome-wide RNA modification is mainly achieved by coupling antibody immunoprecipitation (Meyer et al. 2012...
  10. Research: Natural variation in C. elegans short tandem repeats
    • Gaotian Zhang,
    • Ye Wang,
    • and Erik C. Andersen
    Genome Res. October 2022 32: 1852-1861; Published in Advance October 4, 2022, doi:10.1101/gr.277067.122
    ...of their repetitive nature causing errors such as “PCR stutters” (Gymrek 2017). Recent advances provided opportunities to identify -wide STR variation accurately in large scales using high-throughput sequencing data (Willems et al. 2017).In this work, we focused on characterization of STRs with motif lengths of 1...
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