Open AccessSubdivision in an Ancestral Species Creates Asymmetry in Gene Trees
Author(s) -
Montgomery Slatkin,
Joshua L. Pollack
Publication year - 2008
Publication title -
molecular biology and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.637
H-Index - 218
eISSN - 1537-1719
pISSN - 0737-4038
DOI - 10.1093/molbev/msn172
Subject(s) - biology , subdivision , clade , evolutionary biology , gene flow , population , gene , tree (set theory) , phylogenetic tree , fluctuating asymmetry , genetics , genetic variation , history , mathematical analysis , demography , mathematics , archaeology , sociology
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.
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