Johanna Klughammer, Daria Romanovskaia, Amelie Nemc, Annika Posautz, Charlotte A. Seid, Linda C. Schuster, Melissa C. Keinath, Juan S. Lugo Ramos, Lindsay Kosack, Ann M. Evankow, Dieter Printz, Stefanie Kirchberger, Bekir Ergüner, Paul Datlinger, Nikolaus Fortelny, Christian Schmidl, Matthias Farlik, Kaja H. Skjærven, Andreas Bergthaler, Miriam Liedvogel, Denise Thaller, Pamela A. Burger, Marcela Hermann, Martin Distel, Daniel L. Distel, Anna Kübber‐Heiss, Christoph Bock

doi:10.1038/s41467-022-34828-y

Comparative analysis of genome-scale, base-resolution DNA methylation profiles across 580 animal species

Johanna Klughammer, Daria Romanovskaia, Amelie Nemc, Annika Posautz, Charlotte A. Seid, Linda C. Schuster, Melissa C. Keinath, Juan S. Lugo Ramos, Lindsay Kosack, Ann M. Evankow, Dieter Printz, Stefanie Kirchberger, Bekir Ergüner, Paul Datlinger, Nikolaus Fortelny, Christian Schmidl, Matthias Farlik, Kaja H. Skjærven, Andreas Bergthaler, Miriam Liedvogel, Denise Thaller, Pamela A. Burger, Marcela Hermann, Martin Distel, Daniel L. Distel, Anna Kübber‐Heiss, Christoph Bock

Nature Communications · 2023

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Summary

Methylation of cytosines is a prototypic epigenetic modification of the DNA. It has been implicated in various regulatory mechanisms across the animal kingdom and particularly in vertebrates. We mapped DNA methylation in 580 animal species (535 vertebrates, 45 invertebrates), resulting in 2443 genome-scale DNA methylation profiles of multiple organs. Bioinformatic analysis of this large dataset quantified the association of DNA methylation with the underlying genomic DNA sequence throughout vertebrate evolution. We observed a broadly conserved link with two major transitions-once in the first vertebrates and again with the emergence of reptiles. Cross-species comparisons focusing on individual organs supported a deeply conserved association of DNA methylation with tissue type, and cross-ma

Source type: Peer-reviewed study
DOI: 10.1038/s41467-022-34828-y
Catalogue ID: SNmoj7nui9-5q0i0m

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