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Evolution of diapause in the African turquoise killifish by remodeling the ancient gene regulatory landscape
Param Priya Singh, G. Reeves, Kévin Contrepois, Katharina Papsdorf, Jason W. Miklas, Mathew Ellenberger, Chi‐Kuo Hu, M Snyder, Anne Brunet
Cell · 2024 · ▲ 31 citations
Abstract
Suspended animation states allow organisms to survive extreme environments. The African turquoise killifish has evolved diapause as a form of suspended development to survive a complete drought. However, the mechanisms underlying the evolution of extreme survival states are unknown. To understand diapause evolution, we performed integrative multi-omics (gene expression, chromatin accessibility, and lipidomics) in the embryos of multiple killifish species. We find that diapause evolved by a recent remodeling of regulatory elements at very ancient gene duplicates (paralogs) present in all vertebrates. CRISPR-Cas9-based perturbations identify the transcription factors REST/NRSF and FOXOs as critical for the diapause gene expression program, including genes involved in lipid metabolism. Indeed, diapause shows a distinct lipid profile, with an increase in triglycerides with very-long-chain fatty acids. Our work suggests a mechanism for the evolution of complex adaptations and offers strategies to promote long-term survival by activating suspended animation programs in other species.
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- 10.1016/j.cell.2024.04.048
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APA
Singh, P.P., Reeves, G., Contrepois, K., Papsdorf, K., Miklas, J.W., Ellenberger, M., Hu, C., Snyder, M., & Brunet, A. (2024). Evolution of diapause in the African turquoise killifish by remodeling the ancient gene regulatory landscape. <em>Cell</em>. https://doi.org/10.1016/j.cell.2024.04.048
Vancouver
Singh PP, Reeves G, Contrepois K, Papsdorf K, Miklas JW, Ellenberger M, et al. Evolution of diapause in the African turquoise killifish by remodeling the ancient gene regulatory landscape. Cell. 2024. doi:10.1016/j.cell.2024.04.048.
BibTeX
@article{param2024Evolut,
title = {Evolution of diapause in the African turquoise killifish by remodeling the ancient gene regulatory landscape},
author = {Param Priya Singh and G. Reeves and Kévin Contrepois and Katharina Papsdorf and Jason W. Miklas and Mathew Ellenberger and Chi‐Kuo Hu and M Snyder and Anne Brunet},
journal = {Cell},
year = {2024},
doi = {10.1016/j.cell.2024.04.048},
}
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