草履虫中庞大的全球有效种群规模。

Large global effective population sizes in Paramecium.

作者信息

Snoke Margaret S, Berendonk Thomas U, Barth Dana, Lynch Michael

机构信息

Department of Biology, Indiana University, IN, USA.

出版信息

Mol Biol Evol. 2006 Dec;23(12):2474-9. doi: 10.1093/molbev/msl128. Epub 2006 Sep 20.

DOI:10.1093/molbev/msl128

PMID:16987953

Abstract

The genetic effective population size (N(e)) of a species is an important parameter for understanding evolutionary dynamics because it mediates the relative effects of selection. However, because most N(e) estimates for unicellular organisms are derived either from taxa with poorly understood species boundaries or from host-restricted pathogens and most unicellular species have prominent phases of clonal propagation potentially subject to strong selective sweeps, the hypothesis that N(e) is elevated in single-celled organisms remains controversial. Drawing from observations on well-defined species within the genus Paramecium, we report exceptionally high levels of silent-site polymorphism, which appear to be a reflection of large N(e).

摘要

一个物种的遗传有效种群大小（N(e)）是理解进化动态的一个重要参数，因为它介导了选择的相对效应。然而，由于大多数单细胞生物的N(e)估计值要么来自物种边界了解甚少的分类群，要么来自宿主受限的病原体，并且大多数单细胞物种具有可能遭受强烈选择清除的显著克隆繁殖阶段，所以单细胞生物中N(e)升高这一假设仍然存在争议。基于对草履虫属内明确界定物种的观察，我们报告了异常高水平的沉默位点多态性，这似乎反映了较大的N(e)。

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草履虫中庞大的全球有效种群规模。

Large global effective population sizes in Paramecium.

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