Phylogenomics including new sequence data of phytoplankton-infecting chytrids reveals multiple independent lifestyle transitions across the phylum.

IF 3.6 1区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Molecular Phylogenetics and Evolution Pub Date : 2024-08-01 Epub Date: 2024-05-14 DOI:10.1016/j.ympev.2024.108103
Pauline C Thomé, Justyna Wolinska, Silke Van Den Wyngaert, Albert Reñé, Doris Ilicic, Ramsy Agha, Hans-Peter Grossart, Esther Garcés, Michael T Monaghan, Jürgen F H Strassert
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Abstract

Parasitism is the most common lifestyle on Earth and has emerged many times independently across the eukaryotic tree of life. It is frequently found among chytrids (Chytridiomycota), which are early-branching unicellular fungi that feed osmotrophically via rhizoids as saprotrophs or parasites. Chytrids are abundant in most aquatic and terrestrial environments and fulfil important ecosystem functions. As parasites, they can have significant impacts on host populations. They cause global amphibian declines and influence the Earth's carbon cycle by terminating algal blooms. To date, the evolution of parasitism within the chytrid phylum remains unclear due to the low phylogenetic resolution of rRNA genes for the early diversification of fungi, and because few parasitic lineages have been cultured and genomic data for parasites is scarce. Here, we combine transcriptomics, culture-independent single-cell genomics and a phylogenomic approach to overcome these limitations. We newly sequenced 29 parasitic taxa and combined these with existing data to provide a robust backbone topology for the diversification of Chytridiomycota. Our analyses reveal multiple independent lifestyle transitions between parasitism and saprotrophy among chytrids and multiple host shifts by parasites. Based on these results and the parasitic lifestyle of other early-branching holomycotan lineages, we hypothesise that the chytrid last common ancestor was a parasite of phytoplankton.

Abstract Image

包括浮游植物感染糜烂丝虫新序列数据在内的系统发生组学揭示了整个糜烂丝虫门多种独立生活方式的转变。
寄生是地球上最常见的生活方式,在真核生物生命树上曾多次独立出现。糜生真菌(糜生菌群)是一种早期分支单细胞真菌,通过根状茎吸水或寄生。糜状寄生虫在大多数水生和陆生环境中都很丰富,具有重要的生态系统功能。作为寄生虫,它们会对宿主种群产生重大影响。它们会导致全球两栖动物数量减少,并通过终止藻类大量繁殖来影响地球的碳循环。迄今为止,由于真菌早期多样化的 rRNA 基因的系统发育分辨率较低,而且很少有寄生虫品系被培养出来,寄生虫的基因组数据也很少,因此糜烂菌门内的寄生性进化仍不清楚。在这里,我们将转录组学、独立于培养的单细胞基因组学和系统发生组学方法结合起来,以克服这些局限性。我们对 29 个寄生类群进行了新的测序,并将这些数据与现有数据相结合,为蜱霉菌群的多样化提供了一个强大的骨干拓扑结构。我们的分析揭示了糜状寄生菌在寄生和吸附之间的多种独立生活方式转变,以及寄生虫的多种宿主转移。基于这些结果以及其他早期分支全真菌纲各系的寄生生活方式,我们推测糜皮虫的最后共同祖先是浮游植物的寄生虫。
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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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