Add to ORKGIt might surprise you that networks play a role in biology, but networks are ubiquitous. All living things have DNA within their cells. This DNA contains the building blocks of an organism. The process of creating such a building block requires mRNA and proteins. The concentration of a certain mRNA molecule plays a part in the making of these proteins. In biology these processes are called transcription and translation. These interacting processes can be transformed into a mathematical model, a network. This network is a collection of nodes and edges, which represent the interactions between different mRNA concentrations. Since these interactions are unknown, random matrix theory is used to model these interactions. It is interesting how th...
Complex systems techniques provide a powerful tool to study the emergent properties of networks of i...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
This article presents an abstract, tunable model containing two of the principal information-process...
In this thesis we study genetic regulatory networks using a minimal nonlinearmodel from literature a...
This thesis presents the results of mathematical modeling of both individual genes and small network...
Abstract Background At a time when genomes are being sequenced by the hundreds, much attention has s...
We know that some proteins can regulate the expression of genes in a living organism. The regulation...
The central question of systems biology is to understand how individual components of a biological s...
<p>(A) A gene network can be described as a graph or as a matrix in which positive entries (green sq...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
A network facilitates the description of selective interactions among the variables of a system. In ...
Recent advances in biology have revolutionized our understanding of living systems. For the first ti...
Abstract. We propose a new method to explore the characteristics of genetic networks whose dynamics ...
Many real systems can be represented by networks, that is a set of nodes connected to each other. Th...
Many real systems can be represented by networks, that is a set of nodes connected to each other. Th...
Complex systems techniques provide a powerful tool to study the emergent properties of networks of i...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
This article presents an abstract, tunable model containing two of the principal information-process...
In this thesis we study genetic regulatory networks using a minimal nonlinearmodel from literature a...
This thesis presents the results of mathematical modeling of both individual genes and small network...
Abstract Background At a time when genomes are being sequenced by the hundreds, much attention has s...
We know that some proteins can regulate the expression of genes in a living organism. The regulation...
The central question of systems biology is to understand how individual components of a biological s...
<p>(A) A gene network can be described as a graph or as a matrix in which positive entries (green sq...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
A network facilitates the description of selective interactions among the variables of a system. In ...
Recent advances in biology have revolutionized our understanding of living systems. For the first ti...
Abstract. We propose a new method to explore the characteristics of genetic networks whose dynamics ...
Many real systems can be represented by networks, that is a set of nodes connected to each other. Th...
Many real systems can be represented by networks, that is a set of nodes connected to each other. Th...
Complex systems techniques provide a powerful tool to study the emergent properties of networks of i...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
This article presents an abstract, tunable model containing two of the principal information-process...