Genome-wide regulatory networks enable cells to function, develop, and survive. Perturbation of these networks can lead to appearance of a disease phenotype. Inspired by Conrad Waddington's epigenetic landscape of cell development, we use a Hopfield network formalism to construct an attractor landscape model of disease progression based on protein- or gene-correlation networks of Parkinson's disease, glioma, and colorectal cancer. Attractors in this landscape correspond to normal and disease states of the cell. We introduce approaches to estimate the size and robustness of these attractors, and take a network-based approach to study their biological features such as the key genes and their functions associated with the attractors. Our resul...
A Boolean dynamical system integrating the main signaling pathways involved in cancer is constructed...
Malignant transformation is known to involve substantial rearrangement of the molecular genetic land...
From the perspective of systems science, tumorigenesis can be hypothesized as a critical transition ...
Genome-wide regulatory networks enable cells to function, develop, and survive. Perturbation of thes...
Motivation: Cancer is a heterogeneous progressive disease caused by perturbations of the underlying ...
Motivation: Cancer is a heterogeneous, progressive disease caused by perturbations of the underlying...
Motivation: Cancer is a heterogeneous progressive disease caused by perturbations of the underlying ...
Ageing is a natural phenomenon that is inherently complex and remains a mystery. Conceptual model of...
Ageing is a natural phenomenon that is inherently complex and remains a mystery. Conceptual model of...
The asymmetric Hopfield model is used to simulate signaling dynamics in gene regulatory networks. Th...
C.H. Waddington introduced the epigenetic landscape as a metaphor to represent cellular decision-mak...
<div><p>From the perspective of systems science, tumorigenesis can be hypothesized as a critical tra...
The epigenetic landscape was introduced by Conrad Waddington as a metaphor of cellular development. ...
<div><p>A Boolean dynamical system integrating the main signaling pathways involved in cancer is con...
<div><p>Malignant transformation is known to involve substantial rearrangement of the molecular gene...
A Boolean dynamical system integrating the main signaling pathways involved in cancer is constructed...
Malignant transformation is known to involve substantial rearrangement of the molecular genetic land...
From the perspective of systems science, tumorigenesis can be hypothesized as a critical transition ...
Genome-wide regulatory networks enable cells to function, develop, and survive. Perturbation of thes...
Motivation: Cancer is a heterogeneous progressive disease caused by perturbations of the underlying ...
Motivation: Cancer is a heterogeneous, progressive disease caused by perturbations of the underlying...
Motivation: Cancer is a heterogeneous progressive disease caused by perturbations of the underlying ...
Ageing is a natural phenomenon that is inherently complex and remains a mystery. Conceptual model of...
Ageing is a natural phenomenon that is inherently complex and remains a mystery. Conceptual model of...
The asymmetric Hopfield model is used to simulate signaling dynamics in gene regulatory networks. Th...
C.H. Waddington introduced the epigenetic landscape as a metaphor to represent cellular decision-mak...
<div><p>From the perspective of systems science, tumorigenesis can be hypothesized as a critical tra...
The epigenetic landscape was introduced by Conrad Waddington as a metaphor of cellular development. ...
<div><p>A Boolean dynamical system integrating the main signaling pathways involved in cancer is con...
<div><p>Malignant transformation is known to involve substantial rearrangement of the molecular gene...
A Boolean dynamical system integrating the main signaling pathways involved in cancer is constructed...
Malignant transformation is known to involve substantial rearrangement of the molecular genetic land...
From the perspective of systems science, tumorigenesis can be hypothesized as a critical transition ...