Searching journal content for articles similar to Gómez-Escoda and Wu 28 (8): 1179.

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Research: Suv39h-catalyzed H3K9me3 is critical for euchromatic genome organization and the maintenance of gene transcription
- Christine R. Keenan,
- Hannah D. Coughlan,
- Nadia Iannarella,
- Andres Tapia del Fierro,
- Andrew Keniry,
- Timothy M. Johanson,
- Wing Fuk Chan,
- Alexandra L. Garnham,
- Lachlan W. Whitehead,
- Marnie E. Blewitt,
- Gordon K. Smyth,
- and Rhys S. Allan
Genome Res. April 2024 34: 556-571; Published in Advance May 6, 2024, doi:10.1101/gr.279119.124
...Suv39h-catalyzed H3K9me3 is critical for euchromatic organization and the maintenance of gene transcription Christine R. Keenan1,2,4,6, Hannah D. Coughlan1,2,4, Nadia Iannarella1, Andres Tapia del Fierro1,2, Andrew Keniry1,2, Timothy M. Johanson1,2, Wing Fuk Chan1,2,7, Alexandra L. Garnham1...
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Research: Genomic regulatory landscape underlying the antiviral response of Atlantic salmon
- Shahmir Naseer,
- Thomas C Clark,
- Bertrand Collet,
- Pooran Dewari,
- Damir Baranasic,
- Daniel J Macqueen,
- Pierre Boudinot,
- and Samuel A.M. Martin
Genome Res. October 22, 2025 gr.280579.125; Published in Advance October 22, 2025, doi:10.1101/gr.280579.125
...provides novel insights into the genomic regulatory landscape underlying antiviral 33 immunity in a farmed fish with a complex . 34 Introduction 35 The innate immune response to viral infection, which is mainly based on the type I interferon 36 (type I IFN) pathway is crucial to both disease progression...
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Review: Navigating the landscape of epitranscriptomics and host immunity
- Elaine Huang,
- Clara Frydman,
- and Xinshu Xiao
Genome Res. April 2024 34: 515-529; Published in Advance May 3, 2024, doi:10.1101/gr.278412.123
.... Importantly, cytoplasmic localization is a key factor in determining substrate immunogenicity. Thus, ascertaining cellular localization ought to be a critical consideration in any investigation on immunogenic targets.Regulation of genes involved in immune system defensesIn the above sections, we discussed how...
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Research: Fusion, fission, and scrambling of the bilaterian genome in Bryozoa
- Thomas D. Lewin,
- Isabel Jiah-Yih Liao,
- Mu-En Chen,
- John D.D. Bishop,
- Peter W.H. Holland,
- and Yi-Jyun Luo
Genome Res. January 2025 35: 78-92; Published in Advance January 6, 2025, doi:10.1101/gr.279636.124
...fission, leaving the main cluster on Chr 1 and duplicated genes on Chr 2.Given the critical dependence of Hox gene regulation on genomic organization, we hypothesized that physical separation might alter gene expression. To investigate this, we analyzed the expression of bryozoan Hox paralogs located...
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Research: Resetting of the 24-nt siRNA landscape in rice zygotes
- Chenxin Li,
- Jonathan I. Gent,
- Hengping Xu,
- Hong Fu,
- Scott D. Russell,
- and Venkatesan Sundaresan
Genome Res. February 2022 32: 309-323; Published in Advance December 23, 2021, doi:10.1101/gr.275981.121
...of the epigenetic reprogramming that occurred during gamete formation.Gametes and zygotes constitute critical developmental stages in the life cycle of all sexually reproducing organisms. During fertilization, the egg cell fuses with a sperm cell to form the zygote, which is an undifferentiated and totipotent stem...
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Research: Epigenetic maintenance of topological domains in the highly rearranged gibbon genome
- Nathan H. Lazar,
- Kimberly A. Nevonen,
- Brendan O'Connell,
- Christine McCann,
- Rachel J. O'Neill,
- Richard E. Green,
- Thomas J. Meyer,
- Mariam Okhovat,
- and Lucia Carbone
Genome Res. July 2018 28: 983-997; Published in Advance June 18, 2018, doi:10.1101/gr.233874.117
...and epigenetic landscape in gibbons, in spite of extensive genomic shuffling.The spatial organization of a and its chromatin interactions play a crucial role in mediating vital cellular functions, such as gene regulation (Lieberman-Aiden et al. 2009) and DNA replication (Pope et al. 2014). Intra-genomic...
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Research: Long-read genome assembly of the insect model organism Tribolium castaneum reveals spread of satellite DNA in gene-rich regions by recurrent burst events
- Marin Volarić,
- Evelin Despot-Slade,
- Damira Veseljak,
- Brankica Mravinac,
- and Nevenka Meštrović
Genome Res. November 2024 34: 1878-1894; Published in Advance October 22, 2024, doi:10.1101/gr.279225.124
...(Supplemental Fig. S4). More specifically, we wanted to determine whether the arrays were organized in tandem continuously (consisting exclusively of monomers of a particular Cast satDNA) or had mixed tandem organization (with a different sequence incorporated into the arrays). The results showed that arrays...
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Research: Genome-wide profiles of H3K9me3, H3K27me3 modifications, and DNA methylation during diapause of Asian corn borer (Ostrinia furnacalis)
- Pengfei Lv,
- Xingzhuo Yang,
- Xianguo Zhao,
- Zhangwu Zhao,
- and Juan Du
Genome Res. May 2024 34: 725-739; Published in Advance June 12, 2024, doi:10.1101/gr.278661.123
...or increased percentage of diapause occurrence, respectively. To determine the genomic distribution of DNA methylation and histone modifications (specifically H3K9me3 and H3K27me3) in the heads of the Asian corn borer, we used whole- bisulfite sequencing (WGBS) and ChIP-seq analysis, respectively. The analysis...
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Research: H3K36 dimethylation shapes the epigenetic interaction landscape by directing repressive chromatin modifications in embryonic stem cells
- Haifen Chen,
- Bo Hu,
- Cynthia Horth,
- Eric Bareke,
- Phillip Rosenbaum,
- Sin Young Kwon,
- Jacinthe Sirois,
- Daniel N. Weinberg,
- Faith M. Robison,
- Benjamin A. Garcia,
- Chao Lu,
- William A. Pastor,
- and Jacek Majewski
Genome Res. May 2022 32: 825-837; Published in Advance April 8, 2022, doi:10.1101/gr.276383.121
..., Quebec H3A 1B1, Canada; 2McGill University Genome Centre, Montreal, Quebec H3A 0G1, Canada; 3Department of Biochemistry, McGill University, Montreal, Quebec H3G 1Y6, Canada; 4The Rosalind & Morris Goodman Cancer Institute, McGill University, Montreal, Quebec H3A 1A3, Canada; 5Laboratory of Chromatin...
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Resource: The genome of the colonial hydroid Hydractinia reveals that their stem cells use a toolkit of evolutionarily shared genes with all animals
- Christine E. Schnitzler,
- E. Sally Chang,
- Justin Waletich,
- Gonzalo Quiroga-Artigas,
- Wai Yee Wong,
- Anh-Dao Nguyen,
- Sofia N. Barreira,
- Liam B. Doonan,
- Paul Gonzalez,
- Sergey Koren,
- James M. Gahan,
- Steven M. Sanders,
- Brian Bradshaw,
- Timothy Q. DuBuc,
- Febrimarsa,
- Danielle de Jong,
- Eric P. Nawrocki,
- Alexandra Larson,
- Samantha Klasfeld,
- Sebastian G. Gornik,
- R. Travis Moreland,
- Tyra G. Wolfsberg,
- Adam M. Phillippy,
- James C. Mullikin,
- Oleg Simakov,
- Paulyn Cartwright,
- Matthew Nicotra,
- Uri Frank,
- and Andreas D. Baxevanis
Genome Res. March 2024 34: 498-513; Published in Advance March 20, 2024, doi:10.1101/gr.278382.123
...animals in our orthology analysis. These results indicate that Hydractinia’s stem cells and early progenitor cells may use a toolkit shared with all animals, making it a promising model organism for future exploration of stem cell biology and regenerative medicine. The genomic and transcriptomic resources...
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