Multi-level genomic convergence of secondary aquatic adaptation in marine mammals.

IF 33.2 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

The Innovation Pub Date : 2025-01-03 eCollection Date: 2025-03-03 DOI:10.1016/j.xinn.2025.100798

Shixia Xu, Lei Shan, Ran Tian, Zhenpeng Yu, Di Sun, Zhenhua Zhang, Inge Seim, Ming Zhou, Linxia Sun, Na Liang, Qian Zhang, Simin Chai, Daiqing Yin, Luoying Deme, Tianzhen Wu, Yongjie Chen, Zhikang Xu, Yu Zheng, Wenhua Ren, Guang Yang

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引用次数: 0

Abstract

Marine mammals provide a valuable model for studying the molecular basis of convergent evolution during secondary aquatic adaptation. Using multi-omics data and functional experiments, including CRISPR-Cas9 mouse models and luciferase reporter assays, this study explored the molecular mechanisms driving this transition across coding regions, regulatory elements, and genomic architecture. Convergent amino acid substitutions in APPL1 ^P378L and NEIL1 ^E71G were found to promote lipid accumulation and suppress cancer cell proliferation, likely contributing to the evolution of extensive blubber layers and cancer resistance. Convergently evolved conserved non-exonic elements (CNEs) and lineage-specific regulatory variations were shown to influence the activity of nearby genes (e.g., NKX3-2, SOX9, HAND2), shaping cetacean limb phenotypes. Additionally, convergent shifts in topologically associating domains (TADs) across cetaceans and pinnipeds were implicated in the regulation of ASXL3 and FAM43B expression, playing a role in the formation of thickened blubber layers and mitigating cancer susceptibility. Structural variations within conserved TADs were associated with the expression of neuronal genes, including NUP153 and ID4, potentially driving cognitive and social adaptations. These findings provide novel insights into the molecular foundations of the convergent evolution of secondary aquatic adaptations in mammals.

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海洋哺乳动物次生水生适应的多层次基因组趋同。

海洋哺乳动物为研究次生水生适应过程中趋同进化的分子基础提供了一个有价值的模型。利用多组学数据和功能实验，包括CRISPR-Cas9小鼠模型和荧光素酶报告基因分析，本研究探索了驱动这种跨编码区、调控元件和基因组结构转变的分子机制。发现APPL1 P378L和NEIL1 E71G的趋同氨基酸替换促进脂质积累，抑制癌细胞增殖，可能有助于广泛脂肪层的进化和抗癌。趋同进化的保守非外显子元件（CNEs）和谱系特异性调控变异被证明会影响附近基因（如NKX3-2、SOX9、HAND2）的活性，从而塑造鲸类肢体表型。此外，鲸类和鳍足类的拓扑相关结构域（TADs）的趋同转移涉及ASXL3和FAM43B表达的调控，在增厚鲸脂层的形成和减轻癌症易感性中发挥作用。保守tad内的结构变化与神经元基因的表达有关，包括NUP153和ID4，可能推动认知和社会适应。这些发现为哺乳动物次生水生适应趋同进化的分子基础提供了新的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The Innovation MULTIDISCIPLINARY SCIENCES-

CiteScore

38.30

自引率

1.20%

发文量

134

审稿时长

6 weeks

期刊介绍： The Innovation is an interdisciplinary journal that aims to promote scientific application. It publishes cutting-edge research and high-quality reviews in various scientific disciplines, including physics, chemistry, materials, nanotechnology, biology, translational medicine, geoscience, and engineering. The journal adheres to the peer review and publishing standards of Cell Press journals. The Innovation is committed to serving scientists and the public. It aims to publish significant advances promptly and provides a transparent exchange platform. The journal also strives to efficiently promote the translation from scientific discovery to technological achievements and rapidly disseminate scientific findings worldwide. Indexed in the following databases, The Innovation has visibility in Scopus, Directory of Open Access Journals (DOAJ), Web of Science, Emerging Sources Citation Index (ESCI), PubMed Central, Compendex (previously Ei index), INSPEC, and CABI A&I.