English

Family-joining: A fast distance-based method for constructing generally labeled trees

Populations and Evolution 2017-01-12 v3

Abstract

The widely used model for evolutionary relationships is a bifurcating tree with all taxa/observations placed at the leaves. This is not appropriate if the taxa have been densely sampled across evolutionary time and may be in a direct ancestral relationship, or if there is not enough information to fully resolve all the branching points in the evolutionary tree. In this paper, we present a fast distance-based agglomeration method called family-joining (FJ) for constructing so-called generally labeled trees in which taxa may be placed at internal vertices and the tree may contain polytomies. FJ constructs such trees on the basis of pairwise distances and a distance threshold. We tested three methods for threshold selection, FJ-AIC, FJ-BIC and FJ-CV, which minimize Akaike information criterion, Bayesian information criterion, and cross-validation error, respectively. When compared with related methods on simulated data, FJ-BIC was among the best at reconstructing the correct tree across a wide range of simulation scenarios. FJ-BIC was applied to HIV sequences sampled from individuals involved in a known transmission chain. The FJ-BIC tree was found to be compatible with almost all transmission events. On average, internal branches in the FJ-BIC tree have higher bootstrap support than branches in the leaf-labeled bifurcating tree constructed using RAxML. 36%36\% and 25%25\% of the internal branches in the FJ-BIC tree and RAxML tree, respectively, have bootstrap support greater than 70%70\%. To the best of our knowledge the method presented here is the first attempt at modeling evolutionary relationships using generally labeled trees.

Keywords

Cite

@article{arxiv.1602.06893,
  title  = {Family-joining: A fast distance-based method for constructing generally labeled trees},
  author = {Prabhav Kalaghatgi and Nico Pfeifer and Thomas Lengauer},
  journal= {arXiv preprint arXiv:1602.06893},
  year   = {2017}
}
R2 v1 2026-06-22T12:55:20.617Z