Controlling gene regulatory networks (GRNs) is an important and hard problem. As it is the case in all control problems, the curse of dimensionality is the main issue in real applications. It is possible that hundreds of genes may regulate one biological activity in an organism; this implies a huge state space, even in the case of Boolean models. This is also evident in the literature that shows that only models of small portions of the genome could be used in control applications. In this paper, we empower our framework for controlling GRNs by eliminating the need for expert knowledge to specify some crucial threshold that is necessary for producing effective results. Our framework is characterized by applying the factored Markov decision ...
In the post-genomic era, the construction and control of genetic regulatory networks using gene expr...
Probabilistic Boolean Networks (PBN’s), which form a subclass of Marko-vian Genetic Regulatory Netwo...
All high-level living organisms are made of small cell units, containing DNA, RNA, genes, proteins e...
Control of Probabilistic Boolean Networks as models of gene regulation is an important problem; the ...
In this paper, we study a control model for gene intervention in a genetic regulatory network. At ea...
The construction and control of genetic regulatory networks using gene expression data is an importa...
The need to analyze and closely study the gene related mechanisms motivated the research on the mode...
Objective: Interactions between genes are realized as gene regulatory networks (GRNs). The control o...
Objective: Formulate the induction and control of gene regulatory networks (GRNs) from gene expressi...
A Gene Regulatory Network (GRN) is the functional circuitry of a living organism that exhibits the r...
Motivation: A basic issue for translational genomics is to model gene interaction via gene regulator...
Gene regulatory network (GRN) represents a set of genes and their regulatory interactions. The infer...
Probabilistic Boolean Networks (PBN’s), which form a subclass of Markovian Genetic Regulatory Networ...
Gene regulatory networks (GRNs) consist of thousands of genes and proteins which are dynamically int...
Over the last decade, modeling and controlling gene regulation has received much attention. In this ...
In the post-genomic era, the construction and control of genetic regulatory networks using gene expr...
Probabilistic Boolean Networks (PBN’s), which form a subclass of Marko-vian Genetic Regulatory Netwo...
All high-level living organisms are made of small cell units, containing DNA, RNA, genes, proteins e...
Control of Probabilistic Boolean Networks as models of gene regulation is an important problem; the ...
In this paper, we study a control model for gene intervention in a genetic regulatory network. At ea...
The construction and control of genetic regulatory networks using gene expression data is an importa...
The need to analyze and closely study the gene related mechanisms motivated the research on the mode...
Objective: Interactions between genes are realized as gene regulatory networks (GRNs). The control o...
Objective: Formulate the induction and control of gene regulatory networks (GRNs) from gene expressi...
A Gene Regulatory Network (GRN) is the functional circuitry of a living organism that exhibits the r...
Motivation: A basic issue for translational genomics is to model gene interaction via gene regulator...
Gene regulatory network (GRN) represents a set of genes and their regulatory interactions. The infer...
Probabilistic Boolean Networks (PBN’s), which form a subclass of Markovian Genetic Regulatory Networ...
Gene regulatory networks (GRNs) consist of thousands of genes and proteins which are dynamically int...
Over the last decade, modeling and controlling gene regulation has received much attention. In this ...
In the post-genomic era, the construction and control of genetic regulatory networks using gene expr...
Probabilistic Boolean Networks (PBN’s), which form a subclass of Marko-vian Genetic Regulatory Netwo...
All high-level living organisms are made of small cell units, containing DNA, RNA, genes, proteins e...