A Dichotomy Law for Certain Classes of Phylogenetic Networks.

IF 2.2 4区数学 Q2 BIOLOGY

Bulletin of Mathematical Biology Pub Date : 2025-09-30 DOI:10.1007/s11538-025-01536-9

Michael Fuchs, Mike Steel

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引用次数: 0

Abstract

Many classes of phylogenetic networks have been proposed in the literature. A feature of several of these classes is that if one restricts a network in the class to a subset of its leaves, then the resulting network may no longer lie within this class. This has implications for their biological applicability, since some species - which are the leaves of an underlying evolutionary network - may be missing (e.g., they may have become extinct, or there are no data available for them) or we may simply wish to focus attention on a subset of the species. On the other hand, certain classes of networks are 'closed' when we restrict to subsets of leaves, such as (i) the classes of all phylogenetic networks or all phylogenetic trees; (ii) the classes of galled networks, simplicial networks, galled trees; and (iii) the classes of networks that have some parameter that is monotone-under-leaf-subsampling (e.g., the number of reticulations, height, etc.) bounded by some fixed value. It is easily shown that a closed subclass of phylogenetic trees is either all trees or a vanishingly small proportion of them (as the number of leaves grows). In this short paper, we explore whether this dichotomy phenomenon holds for other classes of phylogenetic networks, and their subclasses.

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一类系统发育网络的二分法。

文献中提出了许多种类的系统发育网络。其中几个类的一个特性是，如果将类中的网络限制为其叶子的一个子集，则生成的网络可能不再位于该类中。这对它们的生物学适用性有影响，因为一些物种——它们是潜在进化网络的叶子——可能缺失（例如，它们可能已经灭绝，或者没有可用的数据），或者我们可能只是希望将注意力集中在物种的一个子集上。另一方面，当我们限制树叶的子集时，某些类别的网络是“封闭的”，例如(i)所有系统发育网络或所有系统发育树的类别；（ii）磨损网络、简单网络、磨损树的分类；（iii）具有某些参数为单调叶下子采样的网络类（例如，网格的数量，高度等）由某个固定值限定。很容易证明，系统发育树的一个封闭子类要么是所有的树，要么是其中的一小部分（随着叶子数量的增加）。在这篇短文中，我们探讨了这种二分法现象是否适用于其他类型的系统发育网络及其子类。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bulletin of Mathematical Biology 生物-生物学

CiteScore

3.90

自引率

8.60%

发文量

123

审稿时长

7.5 months

期刊介绍： The Bulletin of Mathematical Biology, the official journal of the Society for Mathematical Biology, disseminates original research findings and other information relevant to the interface of biology and the mathematical sciences. Contributions should have relevance to both fields. In order to accommodate the broad scope of new developments, the journal accepts a variety of contributions, including: Original research articles focused on new biological insights gained with the help of tools from the mathematical sciences or new mathematical tools and methods with demonstrated applicability to biological investigations Research in mathematical biology education Reviews Commentaries Perspectives, and contributions that discuss issues important to the profession All contributions are peer-reviewed.