Title of article
Positive circuits and d-dimensional spatial differentiation: Application to the formation of sense organs in Drosophila
Author/Authors
Anne Crumière، نويسنده , , Mathieu Sablik، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
7
From page
102
To page
108
Abstract
We discuss a rule proposed by the biologist Thomas according to which the possibility for a genetic network (represented by a signed directed graph called a regulatory graph) to have several stable states implies the existence of a positive circuit. This result is already known for different models, differential or discrete formalism, but always with a network of genes contained in a single cell. Thus, we can ask about the validity of this rule for a system containing several cells and with intercellular genetic interactions. In this paper, we consider the genetic interactions between several cells located on a d-dimensional lattice, i.e., each point of lattice represents a cell to which we associate the expression level of n genes contained in this cell. With this configuration, we show that the existence of a positive circuit is a necessary condition for a specific form of multistationarity, which naturally corresponds to spatial differentiation. We then illustrate this theorem through the example of the formation of sense organs in Drosophila.
Keywords
Spatial differentiationIntercellular genetic interactionsRegulatory graphPositive circuit
Journal title
BioSystems
Serial Year
2008
Journal title
BioSystems
Record number
498057
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