Degenerated vision, altered lipid metabolism, and expanded chemoreceptor repertoires enable Lindaspio polybranchiata to thrive in deep-sea cold seeps.

IF 4.4 1区生物学 Q1 BIOLOGY

BMC Biology Pub Date : 2025-01-13 DOI:10.1186/s12915-025-02112-2

Yujie Yan, Inge Seim, Yang Guo, Xupeng Chi, Zhaoshan Zhong, Dantong Wang, Mengna Li, Haining Wang, Huan Zhang, Minxiao Wang, Chaolun Li

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Abstract

Background: Lindaspio polybranchiata, a member of the Spionidae family, has been reported at the Lingshui Cold Seep, where it formed a dense population around this nascent methane vent. We sequenced and assembled the genome of L. polybranchiata and performed comparative genomic analyses to investigate the genetic basis of adaptation to the deep sea. Supporting this, transcriptomic and fatty acid data further corroborate our findings.

Results: We report the first genome of a deep-sea spionid, L. polybranchiata. Over long-term adaptive evolution, genes associated with vision and biological rhythmicity were lost, which may indirectly benefit oligotrophy by eliminating energetically costly processes. Compared to its shallow-sea relatives, L. polybranchiata has a significantly higher proportion of polyunsaturated fatty acids (PUFAs) and expanded gene families involved in the biosynthesis of unsaturated fatty acids and chromatin stabilization, possibly in response to high hydrostatic pressure. Additionally, L. polybranchiata has broad digestive scope, allowing it to fully utilize the limited food resources in the deep sea to sustain a large population. As a pioneer species, L. polybranchiata has an expanded repertoire of genes encoding potential chemoreceptor proteins, including ionotropic receptors (IRs) and gustatory receptor-like receptors (GRLs). These proteins, characterized by their conserved 3D structures, may enhance the organism's ability to detect chemical cues in chemosynthetic ecosystems, facilitating rapid settlement in suitable environments.

Conclusions: Our results shed light on the adaptation of Lindaspio to the darkness, high hydrostatic pressure, and food deprivation in the deep sea, providing insights into the molecular basis for L. polybranchiata becoming a pioneer species.

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视力退化、脂质代谢改变和化学感受器功能的扩展使多鳃水母能够在深海冷渗漏中茁壮成长。

背景：在陵水冷渗区发现了多branchiata，是一种蛛科动物，在此新生的甲烷喷口附近形成了密集的种群。本研究对多branchiata的基因组进行了测序和组装，并进行了比较基因组分析，探讨了多branchiata适应深海的遗传基础。转录组学和脂肪酸数据进一步证实了我们的发现。结果：我们报道了深海蛛形纲L. polybranchiata的首个基因组。在长期的适应性进化过程中，与视觉和生物节律相关的基因丢失了，这可能通过消除能量昂贵的过程间接地有利于少营养。与浅海近亲相比，多branchiata的多不饱和脂肪酸（PUFAs）比例显著增加，参与不饱和脂肪酸生物合成和染色质稳定的基因家族也扩大，这可能是对高静水压力的响应。此外，多branchiata具有广泛的消化范围，使其能够充分利用深海有限的食物资源来维持庞大的种群。作为一个先锋物种，多branchiata具有扩展的基因库，编码潜在的化学受体蛋白，包括嗜离子受体（IRs）和味觉受体样受体（GRLs）。这些蛋白质以其保守的3D结构为特征，可以增强生物体在化学合成生态系统中检测化学线索的能力，促进在合适环境中的快速定居。结论：本研究结果揭示了林达皮亚鱼对深海黑暗、高静水压力和食物匮乏的适应，为多branchiata成为先驱物种提供了分子基础。

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

BMC Biology 生物-生物学

CiteScore

7.80

自引率

1.90%

发文量

260

审稿时长

3 months

期刊介绍： BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.