The ongoing cancer research has shown that malignant tumour cells have highly disrupted signalling transduction pathways. In cancer cells, signalling pathways are altered to satisfy the demands of continuous proliferation and survival. The changes in signalling pathways supporting uncontrolled cell growth, termed as rewiring, can lead to dysregulation of cell fates e.g. apoptosis. Hence comparative analysis of normal and oncogenic signal transduction pathways may provide insights into mechanisms of cancer drug-resistance and facilitate the discovery of novel and effective anti-cancer therapies. Here we propose a hybrid modelling approach based on ordinary differential equation (ODE) and machine learning to map network rewiring in the apopto...
Abstract Background Mechanistic models of within-cell signal transduction networks can explain how t...
Computational models in the field of cancer research have focused primarily on estimates of biologic...
In this report, we describe a strategy for the optimized selection of protein targets suitable for d...
The ongoing cancer research has shown that malignant tumour cells have highly disrupted signalling t...
An important area of research within the discipline of the Computational Systems Biology is to inves...
In the last few decades, extensive computational studies have been conducted on signaling pathways w...
Cancer involves the dysregulation of multiple signaling pathways in which computational modeling can...
SummaryCrosstalk and complexity within signaling pathways and their perturbation by oncogenes limit ...
We present a powerful experimental-computational technology for inferring network models that predic...
Crosstalk and complexity within signaling pathways and their perturbation by oncogenes limit compone...
<div><p>We present a powerful experimental-computational technology for inferring network models tha...
Chemotherapy resistance is a major challenge to the effective treatment of cancer. Thus, a systemati...
Computational cell fate modelling for discovery of rewiring in apoptotic network for enhanced cancer...
Cancer is a leading cause of death in the world, and the mechanisms that underlie this disease are s...
Dysregulation in signal transduction pathways can lead to a variety of complex disorders, including ...
Abstract Background Mechanistic models of within-cell signal transduction networks can explain how t...
Computational models in the field of cancer research have focused primarily on estimates of biologic...
In this report, we describe a strategy for the optimized selection of protein targets suitable for d...
The ongoing cancer research has shown that malignant tumour cells have highly disrupted signalling t...
An important area of research within the discipline of the Computational Systems Biology is to inves...
In the last few decades, extensive computational studies have been conducted on signaling pathways w...
Cancer involves the dysregulation of multiple signaling pathways in which computational modeling can...
SummaryCrosstalk and complexity within signaling pathways and their perturbation by oncogenes limit ...
We present a powerful experimental-computational technology for inferring network models that predic...
Crosstalk and complexity within signaling pathways and their perturbation by oncogenes limit compone...
<div><p>We present a powerful experimental-computational technology for inferring network models tha...
Chemotherapy resistance is a major challenge to the effective treatment of cancer. Thus, a systemati...
Computational cell fate modelling for discovery of rewiring in apoptotic network for enhanced cancer...
Cancer is a leading cause of death in the world, and the mechanisms that underlie this disease are s...
Dysregulation in signal transduction pathways can lead to a variety of complex disorders, including ...
Abstract Background Mechanistic models of within-cell signal transduction networks can explain how t...
Computational models in the field of cancer research have focused primarily on estimates of biologic...
In this report, we describe a strategy for the optimized selection of protein targets suitable for d...
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