Joint inference of microsatellite mutation models, population history and genealogies using transdimensional Markov Chain Monte Carlo
Joint inference of microsatellite mutation models, population history and genealogies using transdimensional Markov Chain Monte Carlo
We provide a framework for Bayesian coalescent inference from microsatellite data that enables inference of population history parameters averaged over microsatellite mutation models. To achieve this we first implemented a rich family of microsatellite mutation models and related components in the software package BEAST. BEAST is a powerful tool that performs Bayesian MCMC analysis on molecular data to make coalescent and evolutionary inferences. Our implementation permits the application of existing nonparametric methods to microsatellite data. The implemented microsatellite models are based on the replication slippage mechanism and focus on three properties of microsatellite mutation: length dependency of mutation rate, mutational bias toward expansion or contraction, and number of repeat units changed in a single mutation event. We develop a new model that facilitates microsatellite model averaging and Bayesian model selection by transdimensional MCMC. With Bayesian model averaging, the posterior distributions of population history parameters are integrated across a set of microsatellite models and thus account for model uncertainty. Simulated data are used to evaluate our method in terms of accuracy and precision of θ estimation and also identification of the true mutation model. Finally we apply our method to a red colobus monkey data set as an example.
MICROSATELLITES, also called short tandem repeats (STRs), are repetitions of a DNA sequence motif with length between 1 and 6 bp. Because they are abundant, widely distributed in the genome, and highly polymorphic, microsatellites have become one of the most popular genetic markers for making inferences on molecular evolution and population genetics (Shikanoet al. 2010; Sponget al. 2010).
151-164
Wu, Chieh-Hsi
ace630c6-2095-4ade-b657-241692f6b4d3
Drummond, Alexei J
9178c794-fbc9-4f0b-b63d-44b724848223
2011
Wu, Chieh-Hsi
ace630c6-2095-4ade-b657-241692f6b4d3
Drummond, Alexei J
9178c794-fbc9-4f0b-b63d-44b724848223
Wu, Chieh-Hsi and Drummond, Alexei J
(2011)
Joint inference of microsatellite mutation models, population history and genealogies using transdimensional Markov Chain Monte Carlo.
Genetics, 188 (1), .
(doi:10.1534/genetics.110.125260).
Abstract
We provide a framework for Bayesian coalescent inference from microsatellite data that enables inference of population history parameters averaged over microsatellite mutation models. To achieve this we first implemented a rich family of microsatellite mutation models and related components in the software package BEAST. BEAST is a powerful tool that performs Bayesian MCMC analysis on molecular data to make coalescent and evolutionary inferences. Our implementation permits the application of existing nonparametric methods to microsatellite data. The implemented microsatellite models are based on the replication slippage mechanism and focus on three properties of microsatellite mutation: length dependency of mutation rate, mutational bias toward expansion or contraction, and number of repeat units changed in a single mutation event. We develop a new model that facilitates microsatellite model averaging and Bayesian model selection by transdimensional MCMC. With Bayesian model averaging, the posterior distributions of population history parameters are integrated across a set of microsatellite models and thus account for model uncertainty. Simulated data are used to evaluate our method in terms of accuracy and precision of θ estimation and also identification of the true mutation model. Finally we apply our method to a red colobus monkey data set as an example.
MICROSATELLITES, also called short tandem repeats (STRs), are repetitions of a DNA sequence motif with length between 1 and 6 bp. Because they are abundant, widely distributed in the genome, and highly polymorphic, microsatellites have become one of the most popular genetic markers for making inferences on molecular evolution and population genetics (Shikanoet al. 2010; Sponget al. 2010).
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Accepted/In Press date: 18 February 2011
e-pub ahead of print date: 5 May 2011
Published date: 2011
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Local EPrints ID: 437872
URI: http://eprints.soton.ac.uk/id/eprint/437872
ISSN: 1943-2631
PURE UUID: f1153efa-4323-4929-8955-a60739baa488
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Date deposited: 21 Feb 2020 17:30
Last modified: 17 Mar 2024 04:00
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Author:
Alexei J Drummond
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