Profiling Phylogenetic Informativeness

doi:10.1080/10635150701311362

Systematic Biology 2007 56(2):222-231; doi:10.1080/10635150701311362

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Profiling Phylogenetic Informativeness

Jeffrey P. Townsend

¹ Department of Ecology and Evolutionary Biology, Yale University New Haven, Connecticut 06520, USA E-mail: Jeffrey.Townsend{at}Yale.edu

Edited by Gavin Naylor: Associate Editor

Abstract

The resolution of four controversial topics in phylogeneticexperimental design hinges upon the informativeness of charactersabout the historical relationships among taxa. These controversiesregard the power of different classes of phylogenetic character,the relative utility of increased taxonomic versus charactersampling, the differentiation between lack of phylogenetic signaland a historical rapid radiation, and the design of taxonomicallybroad phylogenetic studies optimized by taxonomically sparsegenome-scale data. Quantification of the informativeness ofcharacters for resolution of phylogenetic hypotheses duringspecified historical epochs is key to the resolution of thesecontroversies. Here, such a measure of phylogenetic informativenessis formulated. The optimal rate of evolution of a characterto resolve a dated four-taxon polytomy is derived. By scalingthe asymptotic informativeness of a character evolving at anonoptimal rate by the derived asymptotic optimum, and by normalizingso that net phylogenetic informativeness is equivalent for allrates when integrated across all of history, an informativenessprofile across history is derived. Calculation of the informativenessper base pair allows estimation of the cost-effectiveness ofcharacter sampling. Calculation of the informativeness per millionyears allows comparison across historical radiations of theutility of a gene for the inference of rapid adaptive radiation.The theory is applied to profile the phylogenetic informativenessof the genes BRCA1, RAG1, GHR, and c-myc from a muroid rodentsequence data set. Bounded integrations of the phylogeneticprofile of these genes over four epochs comprising the diversificationsof the muroid rodents, the mammals, the lobe-limbed vertebrates,and the early metazoans demonstrate the differential power ofthese genes to resolve the branching order among ancestral lineages.This measure of phylogenetic informativeness yields a new kindof information for evaluation of phylogenetic experiments. Itconveys the utility of the addition of characters a phylogeneticstudy and it provides a basis for deciding whether appropriatephylogenetic power has been applied to a polytomy that is proposedto be a rapid radiation. Moreover, it provides a quantitativemeasure of the capacity of a gene to resolve soft polytomies.

Keywords: Character; information; noise; phylogeny; power; rapid radiation; signal; taxon

Received April 7, 2006; Revised August 10, 2006; Accepted October 19, 2006
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