Empirical Tests of the Reliability of Phylogenetic Trees Constructed With Microsatellite DNA

Naoko Takezaki^*^,1 and Masatoshi Nei

^* Life Science Research Center, Kagawa University, Mikicho, Kitagun, Kagawa 761-0793, Japan and Institute of Molecular Evolutionary Genetics, Pennsylvania State University, University Park, Pennsylvania 16802

^¹ Corresponding author: Life Science Research Center, Kagawa University, 1750-1 Ikenobe, Mikicho, Kitagun, Kagawa 761-0793, Japan.
E-mail: takezaki{at}med.kagawa-u.ac.jp

Microsatellite DNA loci or short tandem repeats (STRs) are abundantin eukaryotic genomes and are often used for constructing phylogenetictrees of closely related populations or species. These phylogenetictrees are usually constructed by using some genetic distancemeasure based on allele frequency data, and there are many distancemeasures that have been proposed for this purpose. In the pastthe efficiencies of these distance measures in constructingphylogenetic trees have been studied mathematically or by computersimulations. Recently, however, allele frequencies of 783 STRloci have been compiled from various human populations. We havetherefore used these empirical data to investigate the relativeefficiencies of different distance measures in constructingphylogenetic trees. The results showed that (1) the probabilityof obtaining the correct branching pattern of a tree (P_C) isgenerally highest for D_A distance; (2) F_ST*, standard geneticdistance (D_S), and Formula

give similar P_C-values, F_ST* being slightly better than the other two; and(3) ( ${delta}$ µ)² shows P_C-values much lower than the other distancemeasures. To have reasonably high P_C-values for trees similarto ours, at least 30 loci with a minimum of 15 individuals arerequired when D_A distance is used.