The aim of this work is to build Boolean models to simulate specifically prostate cancer in individual patients or clones. That way, we seek to understand by which means the cells become cancerous and propose appropriate drug interventions to personally treat the patient
The structure and functioning of signaling networks is complex, and they are differently deregulated...
In this paper we show how Boolean genetic networks could be used to address complex problems in canc...
The purpose of the project is to reconstruct Boolean models of signaling. Conventionally, large-scal...
<p>The aim of this work is to build Boolean models to simulate specifically prostate cancer in indiv...
The aim of this work is to build Boolean models to simulate specifically prostate cancer in individu...
Prostate cancer is the second most occurring cancer in men worldwide. To better understand the mecha...
Prostate cancer is the second most occurring cancer in men worldwide. To better understand the mecha...
Abstract Cancer is a multifactorial disease. Aberrant functioning of the underlying complex signalin...
We developed a logical model that considers major pathways responsible for prostate cancer developme...
A Boolean dynamical system integrating the main signaling pathways involved in cancer is constructed...
<div><p>A Boolean dynamical system integrating the main signaling pathways involved in cancer is con...
The field of systems biology has become very popular as a means to deal with cancer as well as other...
BACKGROUND:Signal transduction networks are increasingly studied with mathematical modelling approac...
Abstract—Cancer forms a robust system capable of maintaining stable functioning (cell sustenance and...
Cancer involves the dysregulation of multiple signaling pathways in which computational modeling can...
The structure and functioning of signaling networks is complex, and they are differently deregulated...
In this paper we show how Boolean genetic networks could be used to address complex problems in canc...
The purpose of the project is to reconstruct Boolean models of signaling. Conventionally, large-scal...
<p>The aim of this work is to build Boolean models to simulate specifically prostate cancer in indiv...
The aim of this work is to build Boolean models to simulate specifically prostate cancer in individu...
Prostate cancer is the second most occurring cancer in men worldwide. To better understand the mecha...
Prostate cancer is the second most occurring cancer in men worldwide. To better understand the mecha...
Abstract Cancer is a multifactorial disease. Aberrant functioning of the underlying complex signalin...
We developed a logical model that considers major pathways responsible for prostate cancer developme...
A Boolean dynamical system integrating the main signaling pathways involved in cancer is constructed...
<div><p>A Boolean dynamical system integrating the main signaling pathways involved in cancer is con...
The field of systems biology has become very popular as a means to deal with cancer as well as other...
BACKGROUND:Signal transduction networks are increasingly studied with mathematical modelling approac...
Abstract—Cancer forms a robust system capable of maintaining stable functioning (cell sustenance and...
Cancer involves the dysregulation of multiple signaling pathways in which computational modeling can...
The structure and functioning of signaling networks is complex, and they are differently deregulated...
In this paper we show how Boolean genetic networks could be used to address complex problems in canc...
The purpose of the project is to reconstruct Boolean models of signaling. Conventionally, large-scal...
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