Add to ORKGProliferation of individual cells is one of the hallmarks of living systems, and collectively the cells within a colony or tissue form highly structured patterns, influencing the properties at the population level. We investigate the joint effect of proliferation in the form of cell division and cell sorting due to differential adhesion using a cellular automaton model. Through simulations and theoretical analysis akin to interface growth, we show that this model gives rise to slower than exponential growth in the case of a single cell type as well as novel colony patterns in the case of two cell types. In particular, engulfment of one cell type by the other is strongly enhanced compared to the prediction from the differential adhesion hypo...
Cell–cell adhesion is essential for biological development: cells migrate to their target sites, whe...
As a theoretical framework for understanding the self-assembly of living cells into tissues, Steinbe...
<p>a) In this simulation, D = 0.0001*D0 i.e. low intensity of adhesions. We began from two cells and...
Cell colonies of bacteria, tumor cells, and fungi, under nutrient limited growth conditions, exhibit...
This thesis extends an existing cell population modelling framework to investigate two different hyp...
Cells adhere to each other through the binding of cell adhesion molecules at the cell surface. This ...
We discuss several continuum cell-cell adhesion models based on the underlying microscopic assumptio...
Cells adhere to each other through the binding of cell adhesion molecules at the cell surface. This ...
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
This paper investigates cell proliferation dynamics in small tumor cell aggregates using an individu...
Many cell types form clumps or aggregates when cultured in vitro through a variety of mechanisms inc...
Cell-cell adhesion is essential for biological development: cells migrate to their target sites, whe...
This paper investigates cell proliferation dynamics in small tumor cell aggregates using an individu...
Studying the biophysical interactions between cells is crucial to understanding how normal tissue de...
Cell–cell adhesion is essential for biological development: cells migrate to their target sites, whe...
As a theoretical framework for understanding the self-assembly of living cells into tissues, Steinbe...
<p>a) In this simulation, D = 0.0001*D0 i.e. low intensity of adhesions. We began from two cells and...
Cell colonies of bacteria, tumor cells, and fungi, under nutrient limited growth conditions, exhibit...
This thesis extends an existing cell population modelling framework to investigate two different hyp...
Cells adhere to each other through the binding of cell adhesion molecules at the cell surface. This ...
We discuss several continuum cell-cell adhesion models based on the underlying microscopic assumptio...
Cells adhere to each other through the binding of cell adhesion molecules at the cell surface. This ...
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
This paper investigates cell proliferation dynamics in small tumor cell aggregates using an individu...
Many cell types form clumps or aggregates when cultured in vitro through a variety of mechanisms inc...
Cell-cell adhesion is essential for biological development: cells migrate to their target sites, whe...
This paper investigates cell proliferation dynamics in small tumor cell aggregates using an individu...
Studying the biophysical interactions between cells is crucial to understanding how normal tissue de...
Cell–cell adhesion is essential for biological development: cells migrate to their target sites, whe...
As a theoretical framework for understanding the self-assembly of living cells into tissues, Steinbe...
<p>a) In this simulation, D = 0.0001*D0 i.e. low intensity of adhesions. We began from two cells and...