祖先物种中的细分在基因树中产生不对称性。
Subdivision in an ancestral species creates asymmetry in gene trees.
作者信息
Slatkin Montgomery, Pollack Joshua L
机构信息
Department of Integrative Biology, University of California at Berkeley, USA.
出版信息
Mol Biol Evol. 2008 Oct;25(10):2241-6. doi: 10.1093/molbev/msn172. Epub 2008 Aug 9.
Abstract
We consider gene trees in three species for which the species tree is known. We show that population subdivision in ancestral species can lead to asymmetry in the frequencies of the two gene trees not concordant with the species tree and, if subdivision is extreme, cause the one of the nonconcordant gene trees to be more probable than the concordant gene tree. Although published data for the human-chimp-gorilla clade and for three species of Drosophila show asymmetry consistent with our model, sequencing error could also account for observed patterns. We show that substantial levels of persistent ancestral subdivision are needed to account for the observed levels of asymmetry found in these two studies.
摘要
我们研究了已知物种树的三个物种的基因树。我们表明,祖先物种中的种群细分会导致与物种树不一致的两种基因树的频率出现不对称,并且,如果细分程度极端,会使其中一种不一致的基因树比一致的基因树更有可能出现。尽管人类-黑猩猩-大猩猩进化枝以及三种果蝇的已发表数据显示出与我们模型一致的不对称性,但测序错误也可能解释观察到的模式。我们表明,需要相当程度的持续祖先细分才能解释这两项研究中观察到的不对称水平。
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