English

`Lassoing' a phylogenetic tree I: Basic properties, shellings, and covers

Populations and Evolution 2011-07-15 v3 Computational Engineering, Finance, and Science Data Structures and Algorithms

Abstract

A classical result, fundamental to evolutionary biology, states that an edge-weighted tree TT with leaf set XX, positive edge weights, and no vertices of degree 2 can be uniquely reconstructed from the set of leaf-to-leaf distances between any two elements of XX. In biology, XX corresponds to a set of taxa (e.g. extant species), the tree TT describes their phylogenetic relationships, the edges correspond to earlier species evolving for a time until splitting in two or more species by some speciation/bifurcation event, and their length corresponds to the genetic change accumulating over that time in such a species. In this paper, we investigate which subsets of (X2)\binom{X}{2} suffice to determine (`lasso') a tree from the leaf-to-leaf distances induced by that tree. The question is particularly topical since reliable estimates of genetic distance - even (if not in particular) by modern mass-sequencing methods - are, in general, available only for certain combinations of taxa.

Keywords

Cite

@article{arxiv.1102.0309,
  title  = {`Lassoing' a phylogenetic tree I: Basic properties, shellings, and covers},
  author = {A. W. M. Dress and K. T. Huber and M. Steel},
  journal= {arXiv preprint arXiv:1102.0309},
  year   = {2011}
}
R2 v1 2026-06-21T17:20:17.067Z