DNA methylation predicts age and provides insight into exceptional longevity of bats
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2021
Autor:innen
Wilkinson, Gerald S.
Adams, Danielle M.
Haghani, Amin
Lu, Ake T.
Zoller, Joseph
Breeze, Charles E.
Arnold, Bryan D.
Horvath, Steve
et al.
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Nature Communications. Nature Publishing Group. 2021, 12(1), 1615. eISSN 2041-1723. Available under: doi: 10.1038/s41467-021-21900-2
Zusammenfassung
Exceptionally long-lived species, including many bats, rarely show overt signs of aging, making it difficult to determine why species differ in lifespan. Here, we use DNA methylation (DNAm) profiles from 712 known-age bats, representing 26 species, to identify epigenetic changes associated with age and longevity. We demonstrate that DNAm accurately predicts chronological age. Across species, longevity is negatively associated with the rate of DNAm change at age-associated sites. Furthermore, analysis of several bat genomes reveals that hypermethylated age- and longevity-associated sites are disproportionately located in promoter regions of key transcription factors (TF) and enriched for histone and chromatin features associated with transcriptional regulation. Predicted TF binding site motifs and enrichment analyses indicate that age-related methylation change is influenced by developmental processes, while longevity-related DNAm change is associated with innate immunity or tumorigenesis genes, suggesting that bat longevity results from augmented immune response and cancer suppression.
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WILKINSON, Gerald S., Danielle M. ADAMS, Amin HAGHANI, Ake T. LU, Joseph ZOLLER, Charles E. BREEZE, Bryan D. ARNOLD, Dina K. N. DECHMANN, Edward HURME, Steve HORVATH, 2021. DNA methylation predicts age and provides insight into exceptional longevity of bats. In: Nature Communications. Nature Publishing Group. 2021, 12(1), 1615. eISSN 2041-1723. Available under: doi: 10.1038/s41467-021-21900-2BibTex
@article{Wilkinson2021methy-53528,
year={2021},
doi={10.1038/s41467-021-21900-2},
title={DNA methylation predicts age and provides insight into exceptional longevity of bats},
number={1},
volume={12},
journal={Nature Communications},
author={Wilkinson, Gerald S. and Adams, Danielle M. and Haghani, Amin and Lu, Ake T. and Zoller, Joseph and Breeze, Charles E. and Arnold, Bryan D. and Dechmann, Dina K. N. and Hurme, Edward and Horvath, Steve},
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<dcterms:abstract xml:lang="eng">Exceptionally long-lived species, including many bats, rarely show overt signs of aging, making it difficult to determine why species differ in lifespan. Here, we use DNA methylation (DNAm) profiles from 712 known-age bats, representing 26 species, to identify epigenetic changes associated with age and longevity. We demonstrate that DNAm accurately predicts chronological age. Across species, longevity is negatively associated with the rate of DNAm change at age-associated sites. Furthermore, analysis of several bat genomes reveals that hypermethylated age- and longevity-associated sites are disproportionately located in promoter regions of key transcription factors (TF) and enriched for histone and chromatin features associated with transcriptional regulation. Predicted TF binding site motifs and enrichment analyses indicate that age-related methylation change is influenced by developmental processes, while longevity-related DNAm change is associated with innate immunity or tumorigenesis genes, suggesting that bat longevity results from augmented immune response and cancer suppression.</dcterms:abstract>
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