鸟类生命之树免疫基因的分子进化。

D. Outlaw, V. W. Walstrom, Haley N. Bodden, Chuan-yu Hsu, Mark A. Arick, D. Peterson
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引用次数: 2

摘要

所有生物体都会遇到病原体,鸟类特别容易受到疟疾寄生虫和其他血吸虫的感染。了解免疫基因,主要是作为宿主第一道防线的先天免疫基因,是如何在鸟类这一高度多样化的四足动物群体中进化的,这一点很重要。在这里,我们发现先天免疫基因在整个鸟类生命树中是高度保守的,尽管大多数显示出在特定谱系或分支中积极或多样化选择的证据,但在这种假定约束的更广泛背景下,位点的数量通常是成比例的低。相反,证据表明,在这些先天免疫基因(而不是适应性免疫基因)中存在更高水平的负性或净化性选择,这与鸟类与病原体的长期共同进化历史以及保持对感染的快速反应的需要是一致的。通过比较野生鸟类(1)未感染血孢子虫、(2)感染疟原虫和(3)感染嗜血杆菌(副嗜血杆菌)的差异基因表达,我们进一步探讨了鸟类对血孢子虫的反应。我们发现每个属感染特有的一些基因的显著差异表达模式和“治疗”组之间共享的一些基因,但没有与系统发育研究中包含的基因重叠。
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Molecular evolution in immune genes across the avian tree of life.
All organisms encounter pathogens, and birds are especially susceptible to infection by malaria parasites and other haemosporidians. It is important to understand how immune genes, primarily innate immune genes which are the first line of host defense, have evolved across birds, a highly diverse group of tetrapods. Here, we find that innate immune genes are highly conserved across the avian tree of life and that although most show evidence of positive or diversifying selection within specific lineages or clades, the number of sites is often proportionally low in this broader context of putative constraint. Rather, the evidence shows a much higher level of negative or purifying selection in these innate immune genes - rather than adaptive immune genes - which is consistent with birds' long coevolutionary history with pathogens and the need to maintain a rapid response to infection. We further explored avian responses to haemosporidians by comparing differential gene expression in wild birds (1) uninfected with haemosporidians, (2) infected with Plasmodium, and (3) infected with Haemoproteus (Parahaemoproteus). We found patterns of significant differential expression with some genes unique to infection with each genus and a few shared between "treatment" groups, but none that overlapped with the genes included in the phylogenetic study.
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