Open AccessTowards distance-based phylogenetic inference in average-case linear-time
Author(s) -
Maxime Crochemore,
Alexandre P. Francisco,
Solon P. Pissis,
Cátia Vaz
Publication year - 2017
Publication title -
hal (le centre pour la communication scientifique directe)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.4230/lipics.wabi.2017.00
Subject(s) - inference , phylogenetic tree , computer science , phylogenetic network , artificial intelligence , biology , genetics , gene
International audienceComputing genetic evolution distances among a set of taxa dominates the running time of many phylogenetic inference methods. Most of genetic evolution distance definitions rely, even if indirectly , on computing the pairwise Hamming distance among sequences or profiles. We propose here an average-case linear-time algorithm to compute pairwise Hamming distances among a set of taxa under a given distance threshold. This paper includes both a theoretical analysis and extensive experimental results concerning the proposed algorithm. We further show how this algorithm can be successfully integrated into a widely used phylogenetic inference method