As advances in molecular biology continue to reveal additional layers of complexity in gene regulation, computational models need to incorporate additional features to explore the implications of new theories and hypotheses. It has recently been suggested that eukaryotic organisms owe their phenotypic complexity and diversity to the exploitation of small RNAs as signalling molecules. Previous models of genetic systems are, for several reasons, inadequate to investigate this theory. In this study, we present an artificial genome model of genetic regulatory networks based upon previous work by Torsten Reil, and demonstrate how this model generates networks with biologically plausible structural and dynamic properties. We also extend the model...
The interactions of biological macromolecules and the flow of regulatory information that controls d...
Understanding gene regulation is of central importance to biology because controlling when, where, a...
The evolution of the genome has led to very sophisticated and complex regulation. Because of the abu...
As the genomes of an increasing number of organisms continue to be sequenced, the challenge remains ...
NetworksInternational audienceGene regulatory networks are a central mechanism in the regulation of ...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
This thesis presents the results of mathematical modeling of both individual genes and small network...
Living cells can maintain their internal states, react to changing environments, grow, differentiate...
In eukaryotic cells, protein-coding sequences constitute a relatively small part of the genome. The ...
Complex systems techniques provide a powerful tool to study the emergent properties of networks of i...
In nature, gene regulatory networks are a key mediator between the information stored in the DNA of ...
Abstract Background At a time when genomes are being sequenced by the hundreds, much attention has s...
We present a simple model of genetic regulatory networks in which regulatory connections among genes...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
It is increasingly becoming clear in the post-genomic era that proteins in a cell do not work in iso...
The interactions of biological macromolecules and the flow of regulatory information that controls d...
Understanding gene regulation is of central importance to biology because controlling when, where, a...
The evolution of the genome has led to very sophisticated and complex regulation. Because of the abu...
As the genomes of an increasing number of organisms continue to be sequenced, the challenge remains ...
NetworksInternational audienceGene regulatory networks are a central mechanism in the regulation of ...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
This thesis presents the results of mathematical modeling of both individual genes and small network...
Living cells can maintain their internal states, react to changing environments, grow, differentiate...
In eukaryotic cells, protein-coding sequences constitute a relatively small part of the genome. The ...
Complex systems techniques provide a powerful tool to study the emergent properties of networks of i...
In nature, gene regulatory networks are a key mediator between the information stored in the DNA of ...
Abstract Background At a time when genomes are being sequenced by the hundreds, much attention has s...
We present a simple model of genetic regulatory networks in which regulatory connections among genes...
Abstract: To understand most cellular processes, one must understand how genetic information is proc...
It is increasingly becoming clear in the post-genomic era that proteins in a cell do not work in iso...
The interactions of biological macromolecules and the flow of regulatory information that controls d...
Understanding gene regulation is of central importance to biology because controlling when, where, a...
The evolution of the genome has led to very sophisticated and complex regulation. Because of the abu...