Evolutionary analysis of species-specific duplications in flatworm genomes

IF 3.6 1区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Mauricio Langleib , Javier Calvelo , Alicia Costábile , Estela Castillo , José F. Tort , Federico G. Hoffmann , Anna V. Protasio , Uriel Koziol , Andrés Iriarte
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Abstract

Platyhelminthes, also known as flatworms, is a phylum of bilaterian invertebrates infamous for their parasitic representatives. The classes Cestoda, Monogenea, and Trematoda comprise parasitic helminths inhabiting multiple hosts, including fishes, humans, and livestock, and are responsible for considerable economic damage and burden on human health. As in other animals, the genomes of flatworms have a wide variety of paralogs, genes related via duplication, whose origins could be mapped throughout the evolution of the phylum. Through in-silico analysis, we studied inparalogs, i.e., species-specific duplications, focusing on their biological functions, expression changes, and evolutionary rate. These genes are thought to be key players in the adaptation process of species to each particular niche. Our results showed that genes related with specific functional terms, such as response to stress, transferase activity, oxidoreductase activity, and peptidases, are overrepresented among inparalogs. This trend is conserved among species from different classes, including free-living species. Available expression data from Schistosoma mansoni, a parasite from the trematode class, demonstrated high conservation of expression patterns between inparalogs, but with notable exceptions, which also display evidence of rapid evolution. We discuss how natural selection may operate to maintain these genes and the particular duplication models that fit better to the observations. Our work supports the critical role of gene duplication in the evolution of flatworms, representing the first study of inparalogs evolution at the genome-wide level in this group.

Abstract Image

扁形虫基因组中物种特异性重复的进化分析。
扁形动物(Platyhelminthes),又称扁形动物,是双脊无脊椎动物门的一个分支,因其寄生代表而臭名昭著。绦虫纲(Cestoda)、单精虫纲(Monogenea)和吸虫纲(Trematoda)由寄生蠕虫组成,栖息在鱼类、人类和家畜等多种宿主体内,造成了巨大的经济损失和人类健康负担。与其他动物一样,扁形动物的基因组中也有各种各样的旁系亲属,即通过重复而相关的基因,它们的起源可以在整个扁形动物门的进化过程中找到。通过模拟分析,我们研究了内同源物,即物种特异性复制,重点关注它们的生物学功能、表达变化和进化速度。这些基因被认为是物种适应每个特定生态位过程中的关键角色。我们的研究结果表明,与特定功能术语相关的基因,如应激反应、转移酶活性、氧化还原酶活性和肽酶等,在内切类中的比例较高。这一趋势在不同类别的物种(包括自由生活物种)中是一致的。来自曼氏血吸虫(一种吸虫类寄生虫)的现有表达数据显示,内表型之间的表达模式高度一致,但也有明显的例外,这些例外也显示了快速进化的证据。我们讨论了自然选择是如何维持这些基因的,以及更适合观察结果的特定复制模型。我们的工作证明了基因复制在扁形虫进化过程中的关键作用,这是首次在全基因组水平上研究该类扁形虫的内表型进化。
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来源期刊
Molecular Phylogenetics and Evolution
Molecular Phylogenetics and Evolution 生物-进化生物学
CiteScore
7.50
自引率
7.30%
发文量
249
审稿时长
7.5 months
期刊介绍: Molecular Phylogenetics and Evolution is dedicated to bringing Darwin''s dream within grasp - to "have fairly true genealogical trees of each great kingdom of Nature." The journal provides a forum for molecular studies that advance our understanding of phylogeny and evolution, further the development of phylogenetically more accurate taxonomic classifications, and ultimately bring a unified classification for all the ramifying lines of life. Phylogeographic studies will be considered for publication if they offer EXCEPTIONAL theoretical or empirical advances.
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