<p>(a) Random distribution of two types of sites with high and low fitness’s for mutant cells. (b) Evenly distributed high and low fitness sites with equal ratios (ideal case). This is the onset of successful fixation.</p
Spatial heterogeneity greatly affects the population spread. Although the theory for biolo...
<p>Each column denotes the configuration for <i>p</i><sub><i>CC</i></sub> = 0.1 (a, d, g), <i>p</i><...
We study the evolution of recombination using a microscopic model developed within the frame of the ...
Numerous experimental studies have demonstrated that the microenvironment is a key regulator influen...
Fixation probability, the probability that the frequency of a newly arising mutation in a population...
We consider a spatial (line) model for invasion of a population by a single mutant with a stochastic...
<p>Parameters: Lattice size = 21×21, <i>r</i><sub><i>A</i></sub> = 1.0, 〈<i>r</i><sub><i>B</i></sub>...
In this work we discuss a spatial evolutionary model for a heterogeneous cancer cell population. We ...
Background: We study the selection dynamics in a heterogeneous spatial colony of cells. We use two s...
International audienceWe analyze the role of the spatial distribution of the initial condition in re...
Populations in spatially structured environments may be divided into a number of (semi-) isolated su...
The literature about mutant invasion and fixation typically assumes populations to exist in isolatio...
The mean conditional fixation time of a mutant is an important measure of stochastic population dyna...
Disentangling proximate and ultimate factors of dispersal, and assessing their relative effects requ...
<p>Parameters: Lattice size = 21×21, <i>r</i><sub><i>A</i></sub> = 1.0, <i>m</i><sub><i>A</i></sub> ...
Spatial heterogeneity greatly affects the population spread. Although the theory for biolo...
<p>Each column denotes the configuration for <i>p</i><sub><i>CC</i></sub> = 0.1 (a, d, g), <i>p</i><...
We study the evolution of recombination using a microscopic model developed within the frame of the ...
Numerous experimental studies have demonstrated that the microenvironment is a key regulator influen...
Fixation probability, the probability that the frequency of a newly arising mutation in a population...
We consider a spatial (line) model for invasion of a population by a single mutant with a stochastic...
<p>Parameters: Lattice size = 21×21, <i>r</i><sub><i>A</i></sub> = 1.0, 〈<i>r</i><sub><i>B</i></sub>...
In this work we discuss a spatial evolutionary model for a heterogeneous cancer cell population. We ...
Background: We study the selection dynamics in a heterogeneous spatial colony of cells. We use two s...
International audienceWe analyze the role of the spatial distribution of the initial condition in re...
Populations in spatially structured environments may be divided into a number of (semi-) isolated su...
The literature about mutant invasion and fixation typically assumes populations to exist in isolatio...
The mean conditional fixation time of a mutant is an important measure of stochastic population dyna...
Disentangling proximate and ultimate factors of dispersal, and assessing their relative effects requ...
<p>Parameters: Lattice size = 21×21, <i>r</i><sub><i>A</i></sub> = 1.0, <i>m</i><sub><i>A</i></sub> ...
Spatial heterogeneity greatly affects the population spread. Although the theory for biolo...
<p>Each column denotes the configuration for <i>p</i><sub><i>CC</i></sub> = 0.1 (a, d, g), <i>p</i><...
We study the evolution of recombination using a microscopic model developed within the frame of the ...
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