Consistency of SINE Insertion Topology and Flanking Sequence Tree: Quantifying Relationships Among Cetartiodactyls

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Molecular Biology and Evolution 17:1417-1424 (2000)
© 2000 Society for Molecular Biology and Evolution

ARTICLE

Consistency of SINE Insertion Topology and Flanking Sequence Tree: Quantifying Relationships Among Cetartiodactyls

J. Koji Lum^*, Masato Nikaido, Mitsuru Shimamura, Hidetoshi Shimodaira^*, Andrew M. Shedlock^*, Norihiro Okada and Masami Hasegawa²^,*

*Institute of Statistical Mathematics, Tokyo, Japan; and
${dagger}$ Tokyo Institute of Technology, Yokohama, Japan

Short interspersed nuclear elements (SINEs) have been used togenerate unambiguous phylogenetic topologies relating eukaryotictaxa. The irreversible nature of SINE retroposition is supportedby a large body of comparative genome data and is a fundamentalassumption inherent in the value of this qualitative methodof inference. Here, we assess the key assumption of unidirectionalSINE insertion by comparing the SINE insertion–derivedtopology and the phylogenetic tree based on seven independentloci of five taxa in the order Cetartiodactyla (Cetacea + Artiodactyla).The data sets and analyses were largely independent, but theloci were, by definition, linked, and thus their consistencysupported an irreversible pattern of SINE retroposition. Moreover,our analyses of the flanking sequences provided estimates ofdivergence times among cetartiodactyl lineages unavailable fromSINE insertion analysis alone. Unexpected rate heterogeneityamong sites of SINE-flanking sequences and other noncoding DNAsequences were observed. Sequence simulations suggest that thisrate heterogeneity may be an artifact resulting from the inaccuraciesof the substitution model used.

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