Searching journal content for articles similar to Postlethwait et al. 10 (12): 1890.

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Resource: Common and specific gene regulatory programs in zebrafish caudal fin regeneration at single-cell resolution
- Yujie Chen,
- Yiran Hou,
- Qinglin Zeng,
- Irene Wang,
- Meiru Shang,
- Kwangdeok Shin,
- Christopher Hemauer,
- Xiaoyun Xing,
- Junsu Kang,
- Guoyan Zhao,
- and Ting Wang
Genome Res. January 2025 35: 202-218; Published in Advance January 14, 2025, doi:10.1101/gr.279372.124
...; 2The Edison Family Center for Genome Sciences and Systems Biology, Washington University School of Medicine, St. Louis, Missouri 63110, USA; 3McDonnell Genome Institute, Washington University School of Medicine, St. Louis, Missouri, USA; 4Department of Cell and Regenerative Biology, School...
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Resource: Genome biology of the darkedged splitfin, Girardinichthys multiradiatus, and the evolution of sex chromosomes and placentation
- Kang Du,
- Martin Pippel,
- Susanne Kneitz,
- Romain Feron,
- Irene da Cruz,
- Sylke Winkler,
- Brigitta Wilde,
- Edgar G. Avila Luna,
- Gene Myers,
- Yann Guiguen,
- Constantino Macias Garcia,
- and Manfred Schartl
Genome Res. March 2022 32: 583-594; Published in Advance January 26, 2022, doi:10.1101/gr.275826.121
...on the Y was identified covering 80% of Chromosome 20, allowing some first inferences on the recent origin and a candidate male sex determining gene. Genome-wide transcriptomics uncovered sex-specific differences in brain gene expression with an enrichment for neurosteroidogenesis and testis genes in males...
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Resource: Zebrafish transposable elements show extensive diversification in age, genomic distribution, and developmental expression
- Ni-Chen Chang,
- Quirze Rovira,
- Jonathan Wells,
- Cédric Feschotte,
- and Juan M. Vaquerizas
Genome Res. July 2022 32: 1408-1423; Published in Advance January 5, 2022, doi:10.1101/gr.275655.121
...insertions are removed from the zebrafish at a faster rate than shorter insertions.Genomic distribution of TEs is nonrandomWe next looked at the distribution of TEs across chromosomes (Fig. 2A; for details, see Fig. 2B). Visual inspection of TE density plots reveals notable patterns in the distribution...
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Research: Chromatin architecture transitions from zebrafish sperm through early embryogenesis
- Candice L. Wike,
- Yixuan Guo,
- Mengyao Tan,
- Ryohei Nakamura,
- Dana Klatt Shaw,
- Noelia Díaz,
- Aneasha F. Whittaker-Tademy,
- Neva C. Durand,
- Erez Lieberman Aiden,
- Juan M. Vaquerizas,
- David Grunwald,
- Hiroyuki Takeda,
- and Bradley R. Cairns
Genome Res. June 2021 31: 981-994; Published in Advance May 18, 2021, doi:10.1101/gr.269860.120
...chromatin shows extensive remodeling during embryonic development, and although the cleavage-stage embryos of most species lack structure before zygotic activation (pre-ZGA), zebrafish has been reported to have structure. Here, we aimed to determine the chromosomal architecture in paternal/sperm zebrafish...
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Resource: Epigenomic analysis reveals prevalent contribution of transposable elements to cis-regulatory elements, tissue-specific expression, and alternative promoters in zebrafish
- Hyung Joo Lee,
- Yiran Hou,
- Ju Heon Maeng,
- Nakul M. Shah,
- Yujie Chen,
- Heather A. Lawson,
- Hongbo Yang,
- Feng Yue,
- and Ting Wang
Genome Res. July 2022 32: 1424-1436; Published in Advance June 1, 2022, doi:10.1101/gr.276052.121
...characteristics that are distinct from mammalian TEs (Supplemental Fig. S1). The most abundant TE class in zebrafish is the DNA transposon, comprising 34% of the (Howe et al. 2013). In human and mouse, DNA transposons occupy only 3% and 2% of the , respectively (International Human Genome Sequencing Consortium...
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Resource: A mosquito small RNA genomics resource reveals dynamic evolution and host responses to viruses and transposons
- Qicheng Ma,
- Satyam P. Srivastav,
- Stephanie Gamez,
- Gargi Dayama,
- Fabiana Feitosa-Suntheimer,
- Edward I. Patterson,
- Rebecca M. Johnson,
- Erik M. Matson,
- Alexander S. Gold,
- Douglas E. Brackney,
- John H. Connor,
- Tonya M. Colpitts,
- Grant L. Hughes,
- Jason L. Rasgon,
- Tony Nolan,
- Omar S. Akbari,
- and Nelson C. Lau
Genome Res. March 2021 31: 512-528; Published in Advance January 8, 2021, doi:10.1101/gr.265157.120
...University Genome Science Institute and the National Emerging Infectious Disease Laboratory, Boston, Massachusetts 02118, USA ↵8 These authors contributed equally to this work. Corresponding author: nclau@bu.eduAbstractAlthough mosquitoes are major transmission vectors for pathogenic arboviruses, viral...
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Resource: High resolution annotation of zebrafish transcriptome using long-read sequencing
- German Nudelman,
- Antonio Frasca,
- Brandon Kent,
- Kirsten C. Sadler,
- Stuart C. Sealfon,
- Martin J. Walsh,
- and Elena Zaslavsky
Genome Res. September 2018 28: 1415-1425; Published in Advance July 30, 2018, doi:10.1101/gr.223586.117
.... Here, we leveraged the SMRT platform to study the transcriptome of zebrafish embryos before and after ZGA. Our analysis revealed additional novelty and complexity in the zebrafish transcriptome, identifying 2539 high-confidence novel transcripts that originated from previously unannotated loci and 1835...
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Research: Dynamic RNA–protein interactions underlie the zebrafish maternal-to-zygotic transition
- Vladimir Despic,
- Mario Dejung,
- Mengting Gu,
- Jayanth Krishnan,
- Jing Zhang,
- Lydia Herzel,
- Korinna Straube,
- Mark B. Gerstein,
- Falk Butter,
- and Karla M. Neugebauer
Genome Res. July 2017 27: 1184-1194; Published in Advance April 5, 2017, doi:10.1101/gr.215954.116
...noncoding RNAs derived from zebrafish Chromosome 4, including pri-mir430. Nuclear Hnrnpa1 promotes pri-mir-430 processing, thereby indirectly contributes to consequential CCR4-NOT-mediated deadenylation and clearance of ZD decay mRNAs. RNA–protein interactions in zebrafish embryos Genome Research 1191 www...
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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
...immunity. Our results underscore the importance of salamanders for understanding the evolution of complex regions in giant s and the architecture of the tetrapod MHC.The Major Histocompatibility Complex (MHC) is a large genomic region originally identified as the genetic locus responsible for rapid...
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Resource: Epigenomics of embryogenesis in turbot
- Oscar Aramburu,
- Belen G Pardo,
- Ada Jimenez-Gonzalez,
- Andrés Blanco-Hortas,
- Daniel Macqueen,
- Carmen Bouza,
- and Paulino Martinez
Genome Res. November 4, 2025 gr.280355.124; Published in Advance November 4, 2025, doi:10.1101/gr.280355.124
...the expression profiles of the 46 and 47 annotated Hox family genes 495 annotated in the turbot and zebrafish s, respectively. Each species 496 harbours seven Hox clusters distributed in Chromosomes 1, 11, 14, 15, 18, 19 497 and 22 in turbot and Chromosomes 3, 9, 11, 12, 16, 19 and 23 in zebrafish, for 498...
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