Add to ORKGRecent technological advances in high-throughput data collection give biologists the ability to study increasingly complex systems. A new methodology is needed to develop and test biological models based on experimental observations and predict the effect of perturbations of the network (e.g. genetic engineering, pharmaceuticals, gene therapy). Diverse modeling approaches have been proposed, in two general categories: modeling a biological pathway as (a) a logical circuit or (b) a chemical reaction network. Boolean logic models can not represent necessary biological details. Chemical kinetics simulations require large numbers of parameters that are very difficult to accurately measure. Based on the way biologists have traditionally thought ...
DNA microarray technology allows for the parallel analysis of the expression of genes in an organism...
Computational modeling of biological processes is a promising tool in biomedical research. While a l...
Abstract—Gene regulatory networks model regulation in living organisms. Fuzzy logic can effectively ...
Abstract—Recent technological advances in high-throughput data collection give biologists the abilit...
Abstract: Interactions between genes and the proteins they synthesize shape genetic regulatory netwo...
Biological systems such as mammalian cell cycle are complex systems consisting of a large number of ...
International audienceMechanistic computational models enable the study of regulatory mechanisms imp...
In the context of reverse engineering of biological networks, simulators are helpful to test and com...
In the context of reverse engineering of biological networks, simulators are helpful to test and com...
Abstract. This paper proposes modifications to current fuzzy models of gene interaction. Current alg...
Recent technological advances in high-throughput data collection allow for the study of increasingly...
To address one of the most challenging issues at the cellular level, this paper surveys the fuzzy me...
An important objective of modeling biological phenomena is to develop therapeutic intervention strat...
Interactions between genes and the proteins they synthesize shape genetic regulatory networks (GRN)....
Biological systems such as cell cycle are “complex systems “consisting of an enormous number of elem...
DNA microarray technology allows for the parallel analysis of the expression of genes in an organism...
Computational modeling of biological processes is a promising tool in biomedical research. While a l...
Abstract—Gene regulatory networks model regulation in living organisms. Fuzzy logic can effectively ...
Abstract—Recent technological advances in high-throughput data collection give biologists the abilit...
Abstract: Interactions between genes and the proteins they synthesize shape genetic regulatory netwo...
Biological systems such as mammalian cell cycle are complex systems consisting of a large number of ...
International audienceMechanistic computational models enable the study of regulatory mechanisms imp...
In the context of reverse engineering of biological networks, simulators are helpful to test and com...
In the context of reverse engineering of biological networks, simulators are helpful to test and com...
Abstract. This paper proposes modifications to current fuzzy models of gene interaction. Current alg...
Recent technological advances in high-throughput data collection allow for the study of increasingly...
To address one of the most challenging issues at the cellular level, this paper surveys the fuzzy me...
An important objective of modeling biological phenomena is to develop therapeutic intervention strat...
Interactions between genes and the proteins they synthesize shape genetic regulatory networks (GRN)....
Biological systems such as cell cycle are “complex systems “consisting of an enormous number of elem...
DNA microarray technology allows for the parallel analysis of the expression of genes in an organism...
Computational modeling of biological processes is a promising tool in biomedical research. While a l...
Abstract—Gene regulatory networks model regulation in living organisms. Fuzzy logic can effectively ...