Evolutionary innovation in conserved regulatory elements across the mammalian tree of life

Publication date

2024-01-31

Authors

Uebbing, SeverinORCID 0000-0003-2439-6946ISNI 0000000458350134
Kocher, Acadia A.
Baumgartner, Marybeth
Ji, Yu
Bai, Suxia
Xing, Xiaojun
Nottoli, Timothy
Noonan, James P.

Editors

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Document Type

/dk/atira/pure/researchoutput/researchoutputtypes/workingpaper/preprint
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License

cc_by_nc_nd

Abstract

Transcriptional enhancers orchestrate cell type- and time point-specific gene expression programs. Evolution of enhancer sequences can alter target gene expression without causing detrimental misexpression in other contexts. It has long been thought that this modularity allows evolutionary changes in enhancers to escape pleiotropic constraints, which is especially important for evolutionary constrained developmental patterning genes. However, there is still little data supporting this hypothesis. Here we identified signatures of accelerated evolution in conserved enhancer elements across the mammalian phylogeny. We found that pleiotropic genes involved in gene regulatory and developmental processes were enriched for accelerated sequence evolution within their enhancer elements. These genes were associated with an excess number of enhancers compared to other genes, and due to this they exhibit a substantial degree of sequence acceleration over all their enhancers combined. We provide evidence that sequence acceleration is associated with turnover of regulatory function. We studied one acceleration event in depth and found that its sequence evolution led to the emergence of a new enhancer activity domain that may be involved in the evolution of digit reduction in hoofed mammals. Our results provide tangible evidence that enhancer evolution has been a frequent contributor to modifications involving constrained developmental signaling genes in mammals.

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Citation

Uebbing, S, Kocher, A A, Baumgartner, M, Ji, Y, Bai, S, Xing, X, Nottoli, T & Noonan, J P 2024 'Evolutionary innovation in conserved regulatory elements across the mammalian tree of life' bioRxiv : the preprint server for biology, bioRxiv, pp. 1-33. https://doi.org/10.1101/2024.01.31.578197