Adaptive evolution of stress response genes in parasites aligns with host niche diversity.

IF 4.4 1区生物学 Q1 BIOLOGY

BMC Biology Pub Date : 2025-01-13 DOI:10.1186/s12915-024-02091-w

Armando J Cruz-Laufer, Maarten P M Vanhove, Lutz Bachmann, Maxwell Barson, Hassan Bassirou, Arnold R Bitja Nyom, Mare Geraerts, Christoph Hahn, Tine Huyse, Gyrhaiss Kapepula Kasembele, Samuel Njom, Philipp Resl, Karen Smeets, Nikol Kmentová

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Abstract

Background: Stress responses are key the survival of parasites and, consequently, also the evolutionary success of these organisms. Despite this importance, our understanding of the evolution of molecular pathways dealing with environmental stressors in parasitic animals remains limited. Here, we tested the link between adaptive evolution of parasite stress response genes and their ecological diversity and species richness. We comparatively investigated antioxidant, heat shock, osmoregulatory, and behaviour-related genes (foraging) in two model parasitic flatworm lineages with contrasting ecological diversity, Cichlidogyrus and Kapentagyrus (Platyhelminthes: Monopisthocotyla), through whole-genome sequencing of 11 species followed by in silico exon bait capture as well as phylogenetic and codon analyses.

Results: We assembled the sequences of 48 stress-related genes and report the first foraging (For) gene orthologs in flatworms. We found duplications of heat shock (Hsp) and oxidative stress genes in Cichlidogyrus compared to Kapentagyrus. We also observed positive selection patterns in genes related to mitochondrial protein import (Hsp) and behaviour (For) in species of Cichlidogyrus infecting East African cichlids-a host lineage under adaptive radiation. These patterns are consistent with a potential adaptation linked to a co-radiation of these parasites and their hosts. Additionally, the absence of cytochrome P450 and kappa and sigma-class glutathione S-transferases in monogenean flatworms is reported, genes considered essential for metazoan life.

Conclusions: This study potentially identifies the first molecular function linked to a flatworm radiation. Furthermore, the observed gene duplications and positive selection indicate the potentially important role of stress responses for the ecological adaptation of parasite species.

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寄生物应激反应基因的适应性进化与寄主生态位多样性一致。

背景：应激反应是寄生虫生存的关键，因此也是这些生物进化成功的关键。尽管如此，我们对寄生动物处理环境压力源的分子途径进化的理解仍然有限。在此，我们测试了寄生虫应激反应基因的适应性进化与其生态多样性和物种丰富度之间的联系。本文通过对11个寄生扁形虫（Platyhelminthes: Monopisthocotyla）种进行全基因组测序，并进行系统发育和密码子分析，对比研究了生态多样性不同的两个模式扁形虫系（Cichlidogyrus和Kapentagyrus）的抗氧化、热休克、渗透调节和行为相关基因（觅食）。结果：收集了48个与应激相关的基因序列，首次报道了扁虫的觅食（For）基因同源物。与Kapentagyrus相比，我们发现了重复的热休克（Hsp）和氧化应激基因。我们还观察到，在感染东非慈鲷（一种适应辐射的宿主谱系）的慈鲷中，与线粒体蛋白输入（Hsp）和行为（For）相关的基因存在正向选择模式。这些模式与这些寄生虫及其宿主的共同辐射有关的潜在适应是一致的。此外，在单基因扁形虫中缺乏细胞色素P450和kappa和sigma级谷胱甘肽s转移酶，这些基因被认为是后生动物生命所必需的。结论：这项研究可能确定了与扁虫辐射有关的第一个分子功能。此外，观察到的基因复制和正选择表明，胁迫响应在寄生虫物种的生态适应中可能发挥重要作用。

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.