网状进化:系统发生组学时代的检测与应用

IF 3.6 1区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Saelin Bjornson , Heroen Verbruggen , Nathan S. Upham , Jacob L. Steenwyk
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引用次数: 0

摘要

系统发生组学丰富了我们的认识,即生命之树在某些类群和基因之间可能具有网络状或网状结构。两种非垂直进化模式--杂交/入侵和水平基因转移--偏离了严格的分叉树模型,造成了非网状结构。然而,这些网状过程可能会产生与不完全系分类或重组类似的模式,从而可能导致模糊不清。在此,我们简要介绍了推断生物历史的系统发生学工作流程,并比较了区分网状进化模式的方法。我们讨论了凝聚事件的发生时间如何帮助区分引种和不完全世系分类,以及水平基因转移事件如何帮助确定物种分化事件的相对时间。在此过程中,我们发现了某些方法的缺陷,并讨论了如何将这些方法的实用性扩展到整个生命之树。本文讨论的工作流程、方法和未来发展方向强调了采用网状进化模式来了解进化事件的时间和速度的必要性,从而提供了一个更清晰的生命历史视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Reticulate evolution: Detection and utility in the phylogenomics era

Reticulate evolution: Detection and utility in the phylogenomics era

Phylogenomics has enriched our understanding that the Tree of Life can have network-like or reticulate structures among some taxa and genes. Two non-vertical modes of evolution – hybridization/introgression and horizontal gene transfer – deviate from a strictly bifurcating tree model, causing non-treelike patterns. However, these reticulate processes can produce similar patterns to incomplete lineage sorting or recombination, potentially leading to ambiguity. Here, we present a brief overview of a phylogenomic workflow for inferring organismal histories and compare methods for distinguishing modes of reticulate evolution. We discuss how the timing of coalescent events can help disentangle introgression from incomplete lineage sorting and how horizontal gene transfer events can help determine the relative timing of speciation events. In doing so, we identify pitfalls of certain methods and discuss how to extend their utility across the Tree of Life. Workflows, methods, and future directions discussed herein underscore the need to embrace reticulate evolutionary patterns for understanding the timing and rates of evolutionary events, providing a clearer view of life’s history.

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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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