脊椎动物性别决定的随机表观遗传修饰与进化

IF 2.1 3区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Molecular Evolution Pub Date : 2024-11-20 DOI:10.1007/s00239-024-10213-9

Sergio Branciamore, Andrei S Rodin, Arthur D Riggs

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引用次数: 0

摘要

在本报告中，我们提出了一个基于随机表观遗传修饰（SEM）机制的脊椎动物性别决定起源与进化的新型数学模型。我们之前已经证明，随机表观遗传修饰（SEM）的速率与实验观察结果一致，既能提高基因固定的速率，又能减少假基因的产生，从而显著提高进化的效率。在这里，我们提出了一个关于性别决定起源和进化的猜想模型，在这个模型中，SEM机制本身就足以在不预设任何等位基因频率差异的情况下，从最初的同态染色体构型出发，解析性地引发和引导异态性染色体的进化。在这一理论模型下，SEM机制（i）早于脊椎动物性别决定的起源和进化，（ii）在进化过渡到现存脊椎动物性别决定系统的过程中，被脊椎动物性别决定系统方便而恰当地采用，很可能是在这些系统的 "顶端 "发挥作用，（iii）与所有已知的脊椎动物性别决定系统一起，作为一种普遍的泛脊椎动物性别决定调节机制继续存在。

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Stochastic Epigenetic Modification and Evolution of Sex Determination in Vertebrates.

In this report, we propose a novel mathematical model of the origin and evolution of sex determination in vertebrates that is based on the stochastic epigenetic modification (SEM) mechanism. We have previously shown that SEM, with rates consistent with experimental observation, can both increase the rate of gene fixation and decrease pseudogenization, thus dramatically improving the efficacy of evolution. Here, we present a conjectural model of the origin and evolution of sex determination wherein the SEM mechanism alone is sufficient to parsimoniously trigger and guide the evolution of heteromorphic sex chromosomes from the initial homomorphic chromosome configuration, without presupposing any allele frequency differences. Under this theoretical model, the SEM mechanism (i) predated vertebrate sex determination origins and evolution, (ii) has been conveniently and parsimoniously co-opted by the vertebrate sex determination systems during the evolutionary transitioning to the extant vertebrate sex determination, likely acting "on top" of these systems, and (iii) continues existing, alongside all known vertebrate sex determination systems, as a universal pan-vertebrate sex determination modulation mechanism.

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来源期刊

Journal of Molecular Evolution 生物-进化生物学

CiteScore

5.50

自引率

2.60%

发文量

审稿时长

3 months

期刊介绍： Journal of Molecular Evolution covers experimental, computational, and theoretical work aimed at deciphering features of molecular evolution and the processes bearing on these features, from the initial formation of macromolecular systems through their evolution at the molecular level, the co-evolution of their functions in cellular and organismal systems, and their influence on organismal adaptation, speciation, and ecology. Topics addressed include the evolution of informational macromolecules and their relation to more complex levels of biological organization, including populations and taxa, as well as the molecular basis for the evolution of ecological interactions of species and the use of molecular data to infer fundamental processes in evolutionary ecology. This coverage accommodates such subfields as new genome sequences, comparative structural and functional genomics, population genetics, the molecular evolution of development, the evolution of gene regulation and gene interaction networks, and in vitro evolution of DNA and RNA, molecular evolutionary ecology, and the development of methods and theory that enable molecular evolutionary inference, including but not limited to, phylogenetic methods.