Dynamics of Competitive Evolution on a Smooth Landscape

D. A. Kessler; D. A. Kessler; H. Lodish; Herbert Levine; P. Collet; P. H. von Hippel; R. Bürger; Terence Hwa; U. Gerland; Ulrich Gerland; W. P. C. Stemmer; Weiqun Peng

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Dynamics of Competitive Evolution on a Smooth Landscape

Authors: D. A. Kessler
D. A. Kessler
H. Lodish
Herbert Levine
P. Collet
P. H. von Hippel
R. Bürger
Terence Hwa
U. Gerland
Ulrich Gerland
W. P. C. Stemmer
Weiqun Peng
Publication date: 16 January 2003
Publisher: 'American Physical Society (APS)'
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Abstract

We study competitive DNA sequence evolution directed by {\it in vitro} protein binding. The steady-state dynamics of this process is well described by a shape-preserving pulse which decelerates and eventually reaches equilibrium. We explain this dynamical behavior within a continuum mean-field framework. Analytical results obtained on the motion of the pulse agree with simulations. Furthermore, finite population correction to the mean-field results are found to be insignificant.Comment: 4 pages, 2 figures, revised, to appear in Phys. Rev. Let

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