Title :
Data Requirement for Phylogenetic Inference from Multiple Loci: A New Distance Method
Author :
Dasarathy, Gautam ; Nowak, Robert ; Roch, Sebastien
Author_Institution :
Wisconsin Inst. for Discovery, Madison, WI, USA
Abstract :
We consider the problem of estimating the evolutionary history of a set of species (phylogeny or species tree) from several genes. It is known that the evolutionary history of individual genes (gene trees) might be topologically distinct from each other and from the underlying species tree, possibly confounding phylogenetic analysis. A further complication in practice is that one has to estimate gene trees from molecular sequences of finite length. We provide the first full data-requirement analysis of a species tree reconstruction method that takes into account estimation errors at the gene level. Under that criterion, we also devise a novel reconstruction algorithm that provably improves over all previous methods in a regime of interest.
Keywords :
bioinformatics; data analysis; evolution (biological); genetic algorithms; genetics; molecular biophysics; molecular configurations; trees (mathematics); data requirement; distance method; estimation errors; evolutionary history estimation; finite length molecular sequences; full data-requirement analysis; gene trees; multiple loci; phylogenetic inference; regime-of-interest; species tree reconstruction algorithm; Bioinformatics; History; Phylogeny; Reconstruction algorithms; Sociology; Statistics; Vegetation; Phylogenetic inference; distance methods; incomplete lineage sorting; molecular clock; multispecies coalescent; phylogenetic inference; sample complexity;
Journal_Title :
Computational Biology and Bioinformatics, IEEE/ACM Transactions on
DOI :
10.1109/TCBB.2014.2361685
