A.R. McTaggart , T.Y. James , R.G. Shivas , A. Drenth , B.D. Wingfield , B.A. Summerell , T.A. Duong
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We tested the hypothesis that sexual reproduction occurred in the evolutionary history of FOSC by examining the distribution of idiomorphs at the mating locus, phylogenetic conflict and independent measures of recombination from genome-wide SNPs and genes. A phylogenomic dataset of 40 single copy orthologs was used to define structure <em>a priori</em> within FOSC based on genealogical concordance. Recombination within FOSC was tested using the pairwise homoplasy index and divergence ages were estimated by molecular dating. We called SNPs from assembled genomes using a k-mer approach and tested for significant linkage disequilibrium as an indication of PCE. We clone-corrected and tested whether SNPs were randomly associated as an indication of recombination. Our analyses provide evidence for sexual or parasexual reproduction within, but not between, clades of FOSC that diversified from a most recent common ancestor about 500 000 years ago. 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引用次数: 5
摘要
尖孢镰刀菌种复合体(Fusarium oxysporum species complex, FOSC)是一组密切相关的植物病原体,长期以来被认为是严格克隆的,因为从未记录过性阶段。一些研究质疑FOSC是否发生重组,如果发生,其性质和频率尚不清楚。我们分析了410个组装的基因组,以回答FOSC是否通过偶尔的有性繁殖穿插大量无性繁殖周期而多样化,类似于优势克隆进化(PCE)模型。我们通过考察自形在交配位点的分布、系统发育冲突以及全基因组snp和基因重组的独立测量,验证了FOSC进化史上有性繁殖的假设。利用40个单拷贝同源物的系统基因组数据集,基于家谱一致性先验地定义了FOSC内的结构。利用双同源性指数检测FOSC内的重组,并通过分子定年法估计分化年龄。我们使用k-mer方法从组装的基因组中提取snp,并测试是否存在明显的连锁不平衡,作为PCE的指示。我们进行了克隆校正,并测试了snp是否随机相关,作为重组的指示。我们的分析提供了在FOSC分支内有性繁殖或准有性繁殖的证据,而不是在它们之间。FOSC分支是在大约50万年前从最近的共同祖先分化而来的。没有证据表明基于地理或宿主的子结构可能表明进化枝是如何多样化的。在我们的研究结果的背景下讨论了FOSC的竞争进化假设。
Population genomics reveals historical and ongoing recombination in the Fusarium oxysporum species complex
The Fusarium oxysporum species complex (FOSC) is a group of closely related plant pathogens long-considered strictly clonal, as sexual stages have never been recorded. Several studies have questioned whether recombination occurs in FOSC, and if it occurs its nature and frequency are unknown. We analysed 410 assembled genomes to answer whether FOSC diversified by occasional sexual reproduction interspersed with numerous cycles of asexual reproduction akin to a model of predominant clonal evolution (PCE). We tested the hypothesis that sexual reproduction occurred in the evolutionary history of FOSC by examining the distribution of idiomorphs at the mating locus, phylogenetic conflict and independent measures of recombination from genome-wide SNPs and genes. A phylogenomic dataset of 40 single copy orthologs was used to define structure a priori within FOSC based on genealogical concordance. Recombination within FOSC was tested using the pairwise homoplasy index and divergence ages were estimated by molecular dating. We called SNPs from assembled genomes using a k-mer approach and tested for significant linkage disequilibrium as an indication of PCE. We clone-corrected and tested whether SNPs were randomly associated as an indication of recombination. Our analyses provide evidence for sexual or parasexual reproduction within, but not between, clades of FOSC that diversified from a most recent common ancestor about 500 000 years ago. There was no evidence of substructure based on geography or host that might indicate how clades diversified. Competing evolutionary hypotheses for FOSC are discussed in the context of our results.
期刊介绍:
The international journal Studies in Mycology focuses on advancing the understanding of filamentous fungi, yeasts, and various aspects of mycology. It publishes comprehensive systematic monographs as well as topical issues covering a wide range of subjects including biotechnology, ecology, molecular biology, pathology, and systematics. This Open-Access journal offers unrestricted access to its content.
Each issue of Studies in Mycology consists of around 5 to 6 papers, either in the form of monographs or special focused topics. Unlike traditional length restrictions, the journal encourages submissions of manuscripts with a minimum of 50 A4 pages in print. This ensures a thorough exploration and presentation of the research findings, maximizing the depth of the published work.