The epigenetic landscape was introduced by Conrad Waddington as a metaphor of cellular development. Like a ball rolling down a hillside is channelled through a succession of valleys until it reaches the bottom, cells follow specific trajectories from a pluripotent state to a committed state. Transcription factors (TFs) interacting as a network (the gene regulatory network (GRN)) orchestrate this developmental process within each cell. Here, we quantitatively model the epigenetic landscape using a kind of artificial neural network called the Hopfield network (HN). An HN is composed of nodes (genes/TFs) and weighted undirected edges, resulting in a weight matrix (W) that stores interactions among the nodes over the entire network. We used gen...
In this work the authors propose the use of a high-level Petri net formalism for modeling developmen...
The mechanism by which morphogenetic signals engage the regulatory networks responsible for early em...
The lack of understanding of stem cell differentiation and proliferation is a fundamental problem in...
C.H. Waddington introduced the epigenetic landscape as a metaphor to represent cellular decision-mak...
<div><p>A common metaphor for describing development is a rugged “epigenetic landscape” where cell f...
Genome-wide regulatory networks enable cells to function, develop, and survive. Perturbation of thes...
Genome-wide regulatory networks enable cells to function, develop, and survive. Perturbation of thes...
Cellular reprogramming has been recently intensively studied experimentally. We developed a global p...
Recently, the field of computational stem cell biology, a new subdiscipline of developmental biology...
Biology is currently in the midst of a revolution. Great technological advances have led to unpreced...
Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many...
Cellular differentiation, reprogramming and transdifferentiation are determined by underlying gene r...
<p>(A) Phenotypes are the response of the cell to external signals mediated by cellular networks and...
Recent progress in stem cell biology, notably cell fate conversion, calls for novel theoretical unde...
Experimental and computational efforts are constantly made to elucidate mechanisms controlling cell ...
In this work the authors propose the use of a high-level Petri net formalism for modeling developmen...
The mechanism by which morphogenetic signals engage the regulatory networks responsible for early em...
The lack of understanding of stem cell differentiation and proliferation is a fundamental problem in...
C.H. Waddington introduced the epigenetic landscape as a metaphor to represent cellular decision-mak...
<div><p>A common metaphor for describing development is a rugged “epigenetic landscape” where cell f...
Genome-wide regulatory networks enable cells to function, develop, and survive. Perturbation of thes...
Genome-wide regulatory networks enable cells to function, develop, and survive. Perturbation of thes...
Cellular reprogramming has been recently intensively studied experimentally. We developed a global p...
Recently, the field of computational stem cell biology, a new subdiscipline of developmental biology...
Biology is currently in the midst of a revolution. Great technological advances have led to unpreced...
Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many...
Cellular differentiation, reprogramming and transdifferentiation are determined by underlying gene r...
<p>(A) Phenotypes are the response of the cell to external signals mediated by cellular networks and...
Recent progress in stem cell biology, notably cell fate conversion, calls for novel theoretical unde...
Experimental and computational efforts are constantly made to elucidate mechanisms controlling cell ...
In this work the authors propose the use of a high-level Petri net formalism for modeling developmen...
The mechanism by which morphogenetic signals engage the regulatory networks responsible for early em...
The lack of understanding of stem cell differentiation and proliferation is a fundamental problem in...