The grapheme-valued Wright–Fisher diffusion with mutation

IF 1.2 4区生物学 Q4 ECOLOGY Theoretical Population Biology Pub Date : 2024-05-29 DOI:10.1016/j.tpb.2024.04.007

Andreas Greven , Frank den Hollander , Anton Klimovsky , Anita Winter

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Abstract

In Athreya et al. (2021), models from population genetics were used to define stochastic dynamics in the space of graphons arising as continuum limits of dense graphs. In the present paper we exhibit an example of a simple neutral population genetics model for which this dynamics is a Markovian diffusion that can be characterized as the solution of a martingale problem. In particular, we consider a Markov chain in the space of finite graphs that resembles a Moran model with resampling and mutation. We encode the finite graphs as graphemes, which can be represented as a triple consisting of a vertex set (or more generally, a topological space), an adjacency matrix, and a sampling (Borel) measure. We equip the space of graphons with convergence of sample subgraph densities and show that the grapheme-valued Markov chain converges to a grapheme-valued diffusion as the number of vertices goes to infinity. We show that the grapheme-valued diffusion has a stationary distribution that is linked to the Griffiths–Engen–McCloskey (GEM) distribution. In a companion paper (Greven et al. 2023), we build up a general theory for obtaining grapheme-valued diffusions via genealogies of models in population genetics.

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有突变的粒度值赖特-费舍扩散。

在 Athreya 等人（2021 年）的论文中，人口遗传学模型被用来定义作为密集图的连续极限而产生的图子空间中的随机动力学。在本文中，我们展示了一个简单的中性种群遗传学模型的例子，该模型的动力学是马尔可夫扩散，可以表征为马丁格尔问题的解。我们特别考虑了有限图空间中的马尔可夫链，它类似于带有重采样和突变的莫兰模型。我们将有限图编码为图元，图元可以表示为由顶点集（或更广义地说，拓扑空间）、邻接矩阵和采样（Borel）度量组成的三元组。我们为图元空间配备了采样子图密度的收敛性，并证明当顶点数达到无穷大时，图元值马尔科夫链收敛于图元值扩散。我们还证明了该图元值扩散具有与格里菲斯-恩根-麦克洛斯基（GEM）分布相关联的静态分布。在另一篇论文（Greven et al. 2023）中，我们通过群体遗传学中模型的谱系，建立了一种获得图元值扩散的一般理论。

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

Theoretical Population Biology 生物-进化生物学

CiteScore

2.50

自引率

14.30%

发文量

审稿时长

6-12 weeks

期刊介绍： An interdisciplinary journal, Theoretical Population Biology presents articles on theoretical aspects of the biology of populations, particularly in the areas of demography, ecology, epidemiology, evolution, and genetics. Emphasis is on the development of mathematical theory and models that enhance the understanding of biological phenomena. Articles highlight the motivation and significance of the work for advancing progress in biology, relying on a substantial mathematical effort to obtain biological insight. The journal also presents empirical results and computational and statistical methods directly impinging on theoretical problems in population biology.

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