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Difference between revisions of "The application of statistical physics to evolutionary biology"

From Complex Time
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|title=The application of statistical physics to evolutionary biology
 
|title=The application of statistical physics to evolutionary biology
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|authors=Guy Sella; Aaron E. Hirsh
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|year=2005
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|source name=PNAS
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|doi=https://doi.org/10.1073/pnas.0501865102
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|abstract=A number of fundamental mathematical models of the evolutionary process exhibit dynamics that can be difficult to understand analytically. Here we show that a precise mathematical analogy can be drawn between certain evolutionary and thermodynamic systems, allowing application of the powerful machinery of statistical physics to analysis of a family of evolutionary models. Analytical results that follow directly from this approach include the steady-state distribution of fixed genotypes and the load in finite populations. The analogy with statistical physics also reveals that, contrary to a basic tenet of the nearly neutral theory of molecular evolution, the frequencies of adaptive and deleterious substitutions at steady state are equal. Finally, just as the free energy function quantitatively characterizes the balance between energy and entropy, a free fitness function provides an analytical expression for the balance between natural selection and stochastic drift.
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|volume=102
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|issue=27
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|websites=https://www.pnas.org/content/102/27/9541/tab-article-info
 
}}
 
}}

Latest revision as of 21:34, February 8, 2019

Category
General Reference
author-supplied keywords
keywords
authors
Guy Sella
Aaron E. Hirsh
title
The application of statistical physics to evolutionary biology
year
2005
source
PNAS
volume
102
issue
27

Abstract

A number of fundamental mathematical models of the evolutionary process exhibit dynamics that can be difficult to understand analytically. Here we show that a precise mathematical analogy can be drawn between certain evolutionary and thermodynamic systems, allowing application of the powerful machinery of statistical physics to analysis of a family of evolutionary models. Analytical results that follow directly from this approach include the steady-state distribution of fixed genotypes and the load in finite populations. The analogy with statistical physics also reveals that, contrary to a basic tenet of the nearly neutral theory of molecular evolution, the frequencies of adaptive and deleterious substitutions at steady state are equal. Finally, just as the free energy function quantitatively characterizes the balance between energy and entropy, a free fitness function provides an analytical expression for the balance between natural selection and stochastic drift.

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