The Reliability and Stability of an Inferred Phylogenetic Tree from Empirical Data

Y Katsura; CE Stanley; S Kumar; M Nei

doi:10.1093/molbev/msw272

The Reliability and Stability of an Inferred Phylogenetic Tree from Empirical Data

Y Katsura, CE Stanley, S Kumar, M Nei

Nuclear Dynamics and Cancer (NDC)

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7 Scopus citations

Abstract

The reliability of a phylogenetic tree obtained from empirical data is usually measured by the bootstrap probability (Pb) of interior branches of the tree. If the bootstrap probability is high for most branches, the tree is considered to be reliable. If some interior branches show relatively low bootstrap probabilities, we are not sure that the inferred tree is really reliable. Here, we propose another quantity measuring the reliability of the tree called the stability of a subtree. This quantity refers to the probability of obtaining a subtree (Ps) of an inferred tree obtained. We then show that if the tree is to be reliable, both Pb and Ps must be high. We also show that Ps is given by a bootstrap probability of the subtree with the closest outgroup sequence, and computer program RESTA for computing the Pb and Ps values will be presented.

Original language	American English
Pages (from-to)	718-723
Number of pages	6
Journal	Molecular Biology and Evolution
Volume	34
Issue number	3
DOIs	https://doi.org/10.1093/molbev/msw272
State	Published - Mar 2017

Keywords

MHC class II beta chain genes
Bootstrap probability
computer program RESTA
Phylogenetic trees
Reliability
Stability
Subtrees

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10.1093/molbev/msw272

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title = "The Reliability and Stability of an Inferred Phylogenetic Tree from Empirical Data",

abstract = "The reliability of a phylogenetic tree obtained from empirical data is usually measured by the bootstrap probability (Pb) of interior branches of the tree. If the bootstrap probability is high for most branches, the tree is considered to be reliable. If some interior branches show relatively low bootstrap probabilities, we are not sure that the inferred tree is really reliable. Here, we propose another quantity measuring the reliability of the tree called the stability of a subtree. This quantity refers to the probability of obtaining a subtree (Ps) of an inferred tree obtained. We then show that if the tree is to be reliable, both Pb and Ps must be high. We also show that Ps is given by a bootstrap probability of the subtree with the closest outgroup sequence, and computer program RESTA for computing the Pb and Ps values will be presented.",

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author = "Y Katsura and CE Stanley and S Kumar and M Nei",

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T1 - The Reliability and Stability of an Inferred Phylogenetic Tree from Empirical Data

AU - Katsura, Y

AU - Stanley, CE

AU - Kumar, S

AU - Nei, M

N1 - Publisher Copyright: © The Author 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.

PY - 2017/3

Y1 - 2017/3

N2 - The reliability of a phylogenetic tree obtained from empirical data is usually measured by the bootstrap probability (Pb) of interior branches of the tree. If the bootstrap probability is high for most branches, the tree is considered to be reliable. If some interior branches show relatively low bootstrap probabilities, we are not sure that the inferred tree is really reliable. Here, we propose another quantity measuring the reliability of the tree called the stability of a subtree. This quantity refers to the probability of obtaining a subtree (Ps) of an inferred tree obtained. We then show that if the tree is to be reliable, both Pb and Ps must be high. We also show that Ps is given by a bootstrap probability of the subtree with the closest outgroup sequence, and computer program RESTA for computing the Pb and Ps values will be presented.

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KW - MHC class II beta chain genes

KW - Bootstrap probability

KW - computer program RESTA

KW - Phylogenetic trees

KW - Reliability

KW - Stability

KW - Subtrees

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The Reliability and Stability of an Inferred Phylogenetic Tree from Empirical Data

Abstract

Keywords

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