A gene network model for developing cell lineages
A gene network model for developing cell lineages
Biological development is a remarkably complex process. A single cell, in an appropriate environment, contains sufficient information to generate a variety of differentiated cell types, whose spatial and temporal dynamics interact to form detailed morphological patterns. While several different physical and chemical processes play an important role in the development of an organism, the locus of control is the cell’s gene regulatory network. We designed dynamic recurrent gene network (DRGN) model and evaluated its ability to control the developmental trajectories of cells during embryogenesis. Three tasks were developed to evaluate the model, inspired by cell lineage specification in C. elegans, describing the variation in gene activity required for early cell diversification, combinatorial control of cell lineages and cell lineage termination. Three corresponding sets of simulations compared performance on the tasks for different gene network sizes, demonstrating the ability of DRGNs to perform the tasks with minimal external input. The model and task definition represent a new means of linking the fundamental properties of genetic networks with the topology of the cell lineages whose development they control.
simulation models, genetic networks, developmental biology, cell lineages
249-268
Geard, N L
c8d726f5-9161-4c9e-9f3f-d87d4ceed9fa
Wiles, J
4b566453-d3c4-441a-97bd-404c378d1f67
2005
Geard, N L
c8d726f5-9161-4c9e-9f3f-d87d4ceed9fa
Wiles, J
4b566453-d3c4-441a-97bd-404c378d1f67
Geard, N L and Wiles, J
(2005)
A gene network model for developing cell lineages.
Artificial Life, 11 (3), .
Abstract
Biological development is a remarkably complex process. A single cell, in an appropriate environment, contains sufficient information to generate a variety of differentiated cell types, whose spatial and temporal dynamics interact to form detailed morphological patterns. While several different physical and chemical processes play an important role in the development of an organism, the locus of control is the cell’s gene regulatory network. We designed dynamic recurrent gene network (DRGN) model and evaluated its ability to control the developmental trajectories of cells during embryogenesis. Three tasks were developed to evaluate the model, inspired by cell lineage specification in C. elegans, describing the variation in gene activity required for early cell diversification, combinatorial control of cell lineages and cell lineage termination. Three corresponding sets of simulations compared performance on the tasks for different gene network sizes, demonstrating the ability of DRGNs to perform the tasks with minimal external input. The model and task definition represent a new means of linking the fundamental properties of genetic networks with the topology of the cell lineages whose development they control.
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Published date: 2005
Keywords:
simulation models, genetic networks, developmental biology, cell lineages
Organisations:
Electronics & Computer Science
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Local EPrints ID: 263951
URI: http://eprints.soton.ac.uk/id/eprint/263951
PURE UUID: e7e34aa1-93fa-49f4-a0d4-cafa9c480c56
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Date deposited: 23 May 2007
Last modified: 14 Mar 2024 07:40
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Author:
N L Geard
Author:
J Wiles
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