Despite their traditional and continuing prominence in studies of interordinal mammalian phylogenetics, treeshrews (order Scandentia) remain relatively unstudied with respect to their intraordinal relationships. At the same time, significant morphological variation among living treeshrews has been shown to have direct relevance to higher-level interpretations of character state change as reconstructed in traditional interordinal studies, which have often included only a single species of treeshrew. Therefore, the importance of resolving relationships among treeshrews extends well beyond a better understanding of patterns of diversification within the order. A recent review highlighted several shortcomings in published studies of treeshrew phylogenetics based on morphology. Here we present the first investigation of treeshrew phylogenetics based on DNA sequences, utilizing previously published sequences from the mitochondrial 12S rRNA gene and combining them with newly generated sequence data from 15 species. Parsimony, likelihood, and Bayesian analyses all strongly support a sister relationship between Ptilocercus and the remaining species, further substantiating its recent elevation to familial status. Dendrogale is consistently recovered as the next taxon to diverge, but relationships among the remaining taxa are poorly supported by these data. We provide evidence for a relatively rapid radiation within the genera Tupaia and Urogale, but limited resolution precludes more than a cursory interpretation of biogeographic patterns.