Mathematically modelling the effects of counting factor in Dictyostelium discoideum

John Dallon; Wonhee Jang; Richard H. Gomer

doi:10.1093/imammb/dqi016

Mathematically modelling the effects of counting factor in Dictyostelium discoideum

John Dallon
, Wonhee Jang
, Richard H. Gomer

Department of Life Science

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Size regulation is a crucial feature in many biological systems, with misregulation leading to dysplasia or hyperplasia. The recent discovery of counting factor (CF) in Dictyostelium discoideum will lead to a greater understanding of how the system regulates the size of a group of cells. In this paper we mathematically model the known effects of CF using two different models: a cellular automata model and a discrete continuum hybrid model. With the use of these models we are able to understand how modulation of adhesion and motile forces by CF can facilitate stream breakup. In addition, the modelling suggests a new possible mechanism for stream breakup involving the frequency of cell reorientation.

Original language	English
Pages (from-to)	45-62
Number of pages	18
Journal	Mathematical Medicine and Biology
Volume	23
Issue number	1
DOIs	https://doi.org/10.1093/imammb/dqi016
State	Published - Mar 2006

Keywords

Cell movement
Cell-number counting
Cellular adhesion
Group size
Orientation
Size regulation

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10.1093/imammb/dqi016

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abstract = "Size regulation is a crucial feature in many biological systems, with misregulation leading to dysplasia or hyperplasia. The recent discovery of counting factor (CF) in Dictyostelium discoideum will lead to a greater understanding of how the system regulates the size of a group of cells. In this paper we mathematically model the known effects of CF using two different models: a cellular automata model and a discrete continuum hybrid model. With the use of these models we are able to understand how modulation of adhesion and motile forces by CF can facilitate stream breakup. In addition, the modelling suggests a new possible mechanism for stream breakup involving the frequency of cell reorientation.",

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AU - Gomer, Richard H.

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N2 - Size regulation is a crucial feature in many biological systems, with misregulation leading to dysplasia or hyperplasia. The recent discovery of counting factor (CF) in Dictyostelium discoideum will lead to a greater understanding of how the system regulates the size of a group of cells. In this paper we mathematically model the known effects of CF using two different models: a cellular automata model and a discrete continuum hybrid model. With the use of these models we are able to understand how modulation of adhesion and motile forces by CF can facilitate stream breakup. In addition, the modelling suggests a new possible mechanism for stream breakup involving the frequency of cell reorientation.

AB - Size regulation is a crucial feature in many biological systems, with misregulation leading to dysplasia or hyperplasia. The recent discovery of counting factor (CF) in Dictyostelium discoideum will lead to a greater understanding of how the system regulates the size of a group of cells. In this paper we mathematically model the known effects of CF using two different models: a cellular automata model and a discrete continuum hybrid model. With the use of these models we are able to understand how modulation of adhesion and motile forces by CF can facilitate stream breakup. In addition, the modelling suggests a new possible mechanism for stream breakup involving the frequency of cell reorientation.

KW - Cell movement

KW - Cell-number counting

KW - Cellular adhesion

KW - Group size

KW - Orientation

KW - Size regulation

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SN - 1477-8599

VL - 23

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EP - 62

JO - Mathematical Medicine and Biology

JF - Mathematical Medicine and Biology

IS - 1

ER -

Mathematically modelling the effects of counting factor in Dictyostelium discoideum

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Keywords

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