The gene regulatory mechanisms shaping the heterogeneity of venom production in the Cape coral snake

IF 10.1 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Genome Biology Pub Date : 2025-05-19 DOI:10.1186/s13059-025-03602-w

Pedro G. Nachtigall, Brett R. Hamilton, Taline D. Kazandjian, Paolo Stincone, Daniel Petras, Nicholas R. Casewell, Eivind A. B. Undheim

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引用次数: 0

Abstract

Venoms and their associated glands and delivery structures have evolved numerous times among animals. Within these venom systems, the molecular, cellular, and morphological components interact and co-evolve to generate distinct, venom phenotypes that are increasingly recognized as models for studying adaptive evolution. However, toxins are often unevenly distributed across venom-producing tissues in patterns that are not necessarily adaptive but instead likely result from constraints associated with protein secretion. We generate a high-quality draft genome of the Cape coral snake (Aspidelaps lubricus) and combine analyses of venom gland single-cell RNA-seq data with spatial venom gland in situ toxin distributions. Our results reveal that while different toxin families are produced by distinct populations of cells, toxin expression is fine-tuned by regulatory modules that result in further specialization of toxin production within each cell population. We also find that the evolution of regulatory elements closely mirrors the evolution of their associated toxin genes, resulting in spatial association of closely related and functionally similar toxins in the venom gland. While this compartmentalization is non-adaptive, the modularity of the underlying regulatory network likely facilitated the repeated evolution of defensive venom in spitting cobras. Our results provide new insight into the variability of toxin regulation across snakes, reveal the molecular mechanisms underlying the heterogeneous toxin production in snake venom glands, and provide an example of how constraints can result in non-adaptive character states that appear to be adaptive, which may nevertheless facilitate evolutionary innovation and novelty.

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形成海角珊瑚蛇毒液生产异质性的基因调控机制

在动物中，毒液及其相关的腺体和输送结构已经进化了无数次。在这些毒液系统中，分子、细胞和形态成分相互作用并共同进化，产生不同的毒液表型，这些表型越来越被认为是研究适应进化的模型。然而，毒素往往不均匀地分布在产生毒液的组织中，其模式不一定是适应性的，而可能是与蛋白质分泌有关的限制的结果。我们生成了海角珊瑚蛇（Aspidelaps lubricus）的高质量基因组草图，并将毒液腺单细胞RNA-seq数据分析与毒液腺原位毒素分布的空间分布相结合。我们的研究结果表明，虽然不同的毒素家族是由不同的细胞群体产生的，但毒素的表达是通过调节模块进行微调的，从而导致每个细胞群体中毒素产生的进一步专业化。我们还发现，调控元件的进化与其相关毒素基因的进化密切相关，导致在毒腺中存在密切相关且功能相似的毒素的空间关联。虽然这种划分是不适应的，但潜在调节网络的模块化可能促进了吐口蛇防御性毒液的反复进化。我们的研究结果为蛇类毒素调节的可变性提供了新的见解，揭示了蛇毒腺中异质毒素产生的分子机制，并提供了一个例子，说明限制如何导致非适应性的特征状态，而这些状态似乎是适应性的，这可能促进进化创新和新颖性。

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

Genome Biology Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

21.00

自引率

3.30%

发文量

241

审稿时长

2 months

期刊介绍： Genome Biology stands as a premier platform for exceptional research across all domains of biology and biomedicine, explored through a genomic and post-genomic lens. With an impressive impact factor of 12.3 (2022),* the journal secures its position as the 3rd-ranked research journal in the Genetics and Heredity category and the 2nd-ranked research journal in the Biotechnology and Applied Microbiology category by Thomson Reuters. Notably, Genome Biology holds the distinction of being the highest-ranked open-access journal in this category. Our dedicated team of highly trained in-house Editors collaborates closely with our esteemed Editorial Board of international experts, ensuring the journal remains on the forefront of scientific advances and community standards. Regular engagement with researchers at conferences and institute visits underscores our commitment to staying abreast of the latest developments in the field.