Reconstructing phylogenetic networks using maximum parsimony.

Luay Nakhleh, Guohua Jin, Fengmei Zhao, John Mellor-Crummey
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引用次数: 66

Abstract

Phylogenies - the evolutionary histories of groups of organisms - are one of the most widely used tools throughout the life sciences, as well as objects of research within systematics, evolutionary biology, epidemiology, etc. Almost every tool devised to date to reconstruct phylogenies produces trees; yet it is widely understood and accepted that trees oversimplify the evolutionary histories of many groups of organims, most prominently bacteria (because of horizontal gene transfer) and plants (because of hybrid speciation). Various methods and criteria have been introduced for phylogenetic tree reconstruction. Parsimony is one of the most widely used and studied criteria, and various accurate and efficient heuristics for reconstructing trees based on parsimony have been devised. Jotun Hein suggested a straightforward extension of the parsimony criterion to phylogenetic networks. In this paper we formalize this concept, and provide the first experimental study of the quality of parsimony as a criterion for constructing and evaluating phylogenetic networks. Our results show that, when extended to phylogenetic networks, the parsimony criterion produces promising results. In a great majority of the cases in our experiments, the parsimony criterion accurately predicts the numbers and placements of non-tree events.

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利用最大简约法重构系统发育网络。
系统发生学——生物体群体的进化史——是整个生命科学中使用最广泛的工具之一,也是系统学、进化生物学、流行病学等领域的研究对象。迄今为止,几乎所有用来重建系统发育的工具都能生成树;然而,人们普遍理解和接受的是,树木过度简化了许多生物群体的进化历史,最突出的是细菌(因为水平基因转移)和植物(因为杂交物种形成)。系统发育树重建的方法和标准多种多样。简约性是应用最广泛和研究最广泛的准则之一,人们设计了各种基于简约性的精确高效的树重构启发式方法。Jotun Hein建议将简约标准直接扩展到系统发育网络。在本文中,我们形式化了这一概念,并首次提供了将简约性质量作为构建和评价系统发育网络的标准的实验研究。我们的结果表明,当扩展到系统发育网络时,简约准则产生了有希望的结果。在我们的实验中的绝大多数情况下,简约标准准确地预测了非树事件的数量和位置。
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