Estimation of evolutionary distance for reconstructing molecular phylogenetic trees

Abstract

The most commonly used measure of evolutionary distance in molecular phylogenetics is the number of nucleotide substitutions per site. However, this number is not necessarily most efficient for reconstructing a phylogenetic tree. In order to evaluate the accuracy of evolutionary distance, D(t), for obtaining the correct tree topology, an accuracy index, A(t), was proposed. This index is defined as D'(t)/√V[D(t)], where D'(t) is the first derivative of D(t) with respect to evolutionary time and V[D(t)] is the sampling variance of evolutionary distance. Using A(t), namely, finding the condition under which A(t) gives the maximum value, we can obtain an evolutionary distance which is efficient for obtaining the correct topology. Under the assumption that the transversional changes do not occur as frequently as the transitional changes, we obtained the evolutionary distances which are expected to give the correct topology more often than are the other distances.