The performance of phylogenetic algorithms in estimating haplotype genealogies with migration

Genealogies estimated from haplotypic genetic data play a prominent role in various biological disciplines in general and in phylogenetics, population genetics and phylogeography in particular. Several software packages have specifically been developed for the purpose of reconstructing genealogies f...

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Published in:Molecular ecology 2011-05, Vol.20 (9), p.1952-1963
Main Authors: SALZBURGER, WALTER, EWING, GREG B., Von HAESELER, ARNDT
Format: Article
Language:English
Subjects:
Algorithms
Animal migration
Computer Simulation - statistics & numerical data
Emigration and Immigration
haplotype genealogy
Haplotypes
Humans
maximum likelihood
maximum parsimony
Models, Genetic
Mutation - genetics
neighbour-joining
networks
Pedigree
Phylogenetics
Phylogeny
Phylogeography
Software
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cited_by cdi_FETCH-LOGICAL-c5206-9fb746e7c5c3e9c01073c3edf1d73bef24d6e25ff7d1dc043abb9e71478cf5d83
cites cdi_FETCH-LOGICAL-c5206-9fb746e7c5c3e9c01073c3edf1d73bef24d6e25ff7d1dc043abb9e71478cf5d83
container_end_page 1963
container_issue 9
container_start_page 1952
container_title Molecular ecology
container_volume 20
creator SALZBURGER, WALTER
EWING, GREG B.
Von HAESELER, ARNDT
description Genealogies estimated from haplotypic genetic data play a prominent role in various biological disciplines in general and in phylogenetics, population genetics and phylogeography in particular. Several software packages have specifically been developed for the purpose of reconstructing genealogies from closely related, and hence, highly similar haplotype sequence data. Here, we use simulated data sets to test the performance of traditional phylogenetic algorithms, neighbour‐joining, maximum parsimony and maximum likelihood in estimating genealogies from nonrecombining haplotypic genetic data. We demonstrate that these methods are suitable for constructing genealogies from sets of closely related DNA sequences with or without migration. As genealogies based on phylogenetic reconstructions are fully resolved, but not necessarily bifurcating, and without reticulations, these approaches outperform widespread ‘network’ constructing methods. In our simulations of coalescent scenarios involving panmictic, symmetric and asymmetric migration, we found that phylogenetic reconstruction methods performed well, while the statistical parsimony approach as implemented in TCS performed poorly. Overall, parsimony as implemented in the PHYLIP package performed slightly better than other methods. We further point out that we are not making the case that widespread ‘network’ constructing methods are bad, but that traditional phylogenetic tree finding methods are applicable to haplotypic data and exhibit reasonable performance with respect to accuracy and robustness. We also discuss some of the problems of converting a tree to a haplotype genealogy, in particular that it is nonunique.
doi_str_mv 10.1111/j.1365-294X.2011.05066.x
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In our simulations of coalescent scenarios involving panmictic, symmetric and asymmetric migration, we found that phylogenetic reconstruction methods performed well, while the statistical parsimony approach as implemented in TCS performed poorly. Overall, parsimony as implemented in the PHYLIP package performed slightly better than other methods. We further point out that we are not making the case that widespread ‘network’ constructing methods are bad, but that traditional phylogenetic tree finding methods are applicable to haplotypic data and exhibit reasonable performance with respect to accuracy and robustness. 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source Wiley-Blackwell Read & Publish Collection
subjects Algorithms
Animal migration
Computer Simulation - statistics & numerical data
Emigration and Immigration
haplotype genealogy
Haplotypes
Humans
maximum likelihood
maximum parsimony
Models, Genetic
Mutation - genetics
neighbour-joining
networks
Pedigree
Phylogenetics
Phylogeny
Phylogeography
Software
title The performance of phylogenetic algorithms in estimating haplotype genealogies with migration
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