Homoplasy for size at microsatellite loci in humans and chimpanzees.

Abstract

Homoplasy (convergence in the size of different alleles) at microsatellite loci was examined by sequencing multiple alleles of two compound microsatellites and single copies of alleles of the same size at two other compound loci in both chimpanzees and humans. At one of the two loci for which multiple alleles were sequenced, extensive homoplasy for size was uncovered both within and between species. At the three loci for which alleles of the same size were examined in the two species, sequencing demonstrated different internal structures. These results confirm theoretical predictions that a certain fraction of mutations at microsatellite loci should produce alleles that are identical in size but differ by a number of mutations. The sequence data reveal a previously unrecognized class of variation at microsatellites and open up the possibility that DNA sequencing may allow the extraction of more information from these loci, thus increasing their power as variable markers for genetic mapping studies. Conversely, the data also indicate that the assumption that alleles of the same size are identical in sequence, which is implicit in several methods of analysis, is violated in some cases. Therefore, caution should be used when employing microsatellites in phylogenetic and other studies in which the individuals being examined are separated by a great number of generations from a common ancestor.