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. 2026 Jan 18;47(1):117-127.
doi: 10.24272/j.issn.2095-8137.2025.088.

Molecular divergence of TRPA1 in cetaceans supports lineage-specific adaptation to aquatic life

Tian-Zhen Wu  1 Xian-Ting Huang  2 Yu-Qing Deng  2 Luo-Ying Deme  2 Shi-Xia Xu  3 Guang Yang  1   4
Affiliations
Free article

Molecular divergence of TRPA1 in cetaceans supports lineage-specific adaptation to aquatic life

Tian-Zhen Wu et al. Zool Res. .
Free article

Abstract
in English, Chinese

Gene loss represents a powerful driver of adaptive evolution. Cetaceans, which underwent a profound transition from terrestrial to fully aquatic life, provide an excellent model for investigating this process. Comparative genomic analysis of the cold-sensitive ion channel transient receptor potential ankyrin 1 ( TRPA1) revealed lineage-specific patterns of degeneration across cetaceans. In toothed whales, the ancestral lineage exhibited extensive exon loss within the TRPA1 locus, whereas baleen whales showed signatures consistent with markedly reduced or absent TRPA1 expression. These molecular alterations were inferred to disrupt or abolish TRPA1 protein function across cetaceans. Integration of these findings with established experimental evidence from human and murine TRPA1 studies supported several adaptive hypotheses for TRPA1 gene loss, including tolerance to abrupt thermal fluctuations, attenuation of nociceptive responses in aquatic environments, specialization of integumentary sensory systems, and the emergence of echolocation-associated sensory trade-offs in toothed whales. Collectively, these findings expand the gene loss repertoire of cetaceans and provide novel insights into the molecular underpinnings of secondary aquatic adaptation in mammals.

基因丢失是适应性进化的一种重要机制。鲸类由于其从陆地向水生环境的进化转变,成为研究基因丢失的理想模式。在该研究中,我们分析了鲸类中对冷敏感的离子通道——瞬时受体电位锚蛋白1( TRPA1)基因的序列,发现齿鲸和须鲸在该基因上表现出不同的进化改变。齿鲸祖先的 TRPA1基因发生了显著的外显子缺失,而须鲸则可能经历了 TRPA1表达的减少甚至缺失。这些序列变化导致鲸类TRPA1蛋白功能受损或丢失。基于以往在人类和小鼠中对 TRPA1的实验研究,我们提出了 TRPA1基因丢失的多种适应性假设,包括对快速降温事件的适应、海洋环境中疼痛感知的减弱、皮肤的特化,以及齿鲸中的回声定位能力。该研究为鲸类的基因丢失谱系增添了新成员,为哺乳动物的次生性水生适应进化提供了新的见解。.

Keywords: Cetacean; Evolutionary adaptation; Gene loss; Molecular evolution; TRPA1.

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References

    1. Altschul SF, Gish W, Miller W, et al. 1990. Basic local alignment search tool. Journal of Molecular Biology, 215(3): 403–410.
    1. Andersson DA, Gentry C, Moss S, et al. 2008. Transient receptor potential A1 is a sensory receptor for multiple products of oxidative stress. Journal of Neuroscience, 28(10): 2485–2494.
    1. Balemans D, Boeckxstaens GE, Talavera K, et al. 2017. Transient receptor potential ion channel function in sensory transduction and cellular signaling cascades underlying visceral hypersensitivity. American Journal of Physiology-Gastrointestinal and Liver Physiology, 312(6): G635–G648.
    1. Bautista DM, Jordt SE, Nikai T, et al. 2006. TRPA1 mediates the inflammatory actions of environmental irritants and proalgesic agents. Cell, 124(6): 1269–1282.
    1. Bellono NW, Kammel LG, Zimmerman AL, et al. 2013. UV light phototransduction activates transient receptor potential A1 ion channels in human melanocytes. Proceedings of the National Academy of Sciences of the United States of America, 110(6): 2383–2388.

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