rtREV: An amino acid substitution matrix for inference of retrovirus and reverse transcriptase phylogeny

Matthew W. Dimmic; Joshua S. Rest; David P. Mindell; Richard A. Goldstein

doi:10.1007/s00239-001-2304-y

rtREV: An amino acid substitution matrix for inference of retrovirus and reverse transcriptase phylogeny

Matthew W. Dimmic
, Joshua S. Rest
, David P. Mindell
, Richard A. Goldstein

Ecology and Evolution

University of Michigan, Ann Arbor

Research output: Contribution to journal › Article › peer-review

188 Scopus citations

Abstract

Retroviral and other reverse transcriptase (RT)-containing sequences may be subject to unique evolutionary pressures, and models of molecular sequence evolution developed using other kinds of sequences may not be optimal. Here we develop and present a new substitution matrix for maximum likelihood (ML) phylogenetic analysis which has been optimized on a dataset of 33 amino acid sequences from the retroviral Pol proteins. When compared to other matrices, this model (rtREV) yields higher loglikelihood values on a range of datasets including lentiviruses, spumaviruses, betaretroviruses, gamma-retroviruses, and other elements containing reverse transcriptase. We provide evidence that rtREV is a more realistic evolutionary model for analyses of the pol gene, although it is inapplicable to analyses involving the gag gene.

Original language	English
Pages (from-to)	65-73
Number of pages	9
Journal	Journal of Molecular Evolution
Volume	55
Issue number	1
DOIs	https://doi.org/10.1007/s00239-001-2304-y
State	Published - 2002

Keywords

General reversible transition Markov model
HIV
Lentivirus
Maximum likelihood method
Pol gene
Retroid

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title = "rtREV: An amino acid substitution matrix for inference of retrovirus and reverse transcriptase phylogeny",

abstract = "Retroviral and other reverse transcriptase (RT)-containing sequences may be subject to unique evolutionary pressures, and models of molecular sequence evolution developed using other kinds of sequences may not be optimal. Here we develop and present a new substitution matrix for maximum likelihood (ML) phylogenetic analysis which has been optimized on a dataset of 33 amino acid sequences from the retroviral Pol proteins. When compared to other matrices, this model (rtREV) yields higher loglikelihood values on a range of datasets including lentiviruses, spumaviruses, betaretroviruses, gamma-retroviruses, and other elements containing reverse transcriptase. We provide evidence that rtREV is a more realistic evolutionary model for analyses of the pol gene, although it is inapplicable to analyses involving the gag gene.",

keywords = "General reversible transition Markov model, HIV, Lentivirus, Maximum likelihood method, Pol gene, Retroid",

author = "Dimmic, \{Matthew W.\} and Rest, \{Joshua S.\} and Mindell, \{David P.\} and Goldstein, \{Richard A.\}",

year = "2002",

doi = "10.1007/s00239-001-2304-y",

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T2 - An amino acid substitution matrix for inference of retrovirus and reverse transcriptase phylogeny

AU - Dimmic, Matthew W.

AU - Rest, Joshua S.

AU - Mindell, David P.

AU - Goldstein, Richard A.

PY - 2002

Y1 - 2002

N2 - Retroviral and other reverse transcriptase (RT)-containing sequences may be subject to unique evolutionary pressures, and models of molecular sequence evolution developed using other kinds of sequences may not be optimal. Here we develop and present a new substitution matrix for maximum likelihood (ML) phylogenetic analysis which has been optimized on a dataset of 33 amino acid sequences from the retroviral Pol proteins. When compared to other matrices, this model (rtREV) yields higher loglikelihood values on a range of datasets including lentiviruses, spumaviruses, betaretroviruses, gamma-retroviruses, and other elements containing reverse transcriptase. We provide evidence that rtREV is a more realistic evolutionary model for analyses of the pol gene, although it is inapplicable to analyses involving the gag gene.

AB - Retroviral and other reverse transcriptase (RT)-containing sequences may be subject to unique evolutionary pressures, and models of molecular sequence evolution developed using other kinds of sequences may not be optimal. Here we develop and present a new substitution matrix for maximum likelihood (ML) phylogenetic analysis which has been optimized on a dataset of 33 amino acid sequences from the retroviral Pol proteins. When compared to other matrices, this model (rtREV) yields higher loglikelihood values on a range of datasets including lentiviruses, spumaviruses, betaretroviruses, gamma-retroviruses, and other elements containing reverse transcriptase. We provide evidence that rtREV is a more realistic evolutionary model for analyses of the pol gene, although it is inapplicable to analyses involving the gag gene.

KW - General reversible transition Markov model

KW - HIV

KW - Lentivirus

KW - Maximum likelihood method

KW - Pol gene

KW - Retroid

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DO - 10.1007/s00239-001-2304-y

M3 - Article

C2 - 12165843

AN - SCOPUS:0036017382

SN - 0022-2844

VL - 55

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EP - 73

JO - Journal of Molecular Evolution

JF - Journal of Molecular Evolution

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rtREV: An amino acid substitution matrix for inference of retrovirus and reverse transcriptase phylogeny

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Keywords

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