A new approach to the modular, complex systems analysis of nonlinear dynamics of arrested neural cell Differentiation--induced cell proliferation during organismic development and the analogous cell cycling network transformations involved in carcinogenesis is proposed. Neural tissue arrested differentiation that induces cell proliferation during perturbed development and Carcinogenesis are complex processes that involve dynamically inter-connected biomolecules in the intercellular, membrane, cytosolic, nuclear and nucleolar compartments. Such 'dynamically inter-connected' biomolecules form numerous inter-related pathways referred to as 'molecular networks'. One such family of signaling pathways contains the cell cyclins. Cyclins are prote...
The discovery that phosphorylation of selected proteins by cyclin-dependent kinases is the engine wh...
AbstractA kinetic model of a molecular control system for the cellular decision to proliferate or di...
Formation of the central nervous system requires a period of extensive progenitor cell proliferation...
A new approach to the modular, complex systems analysis of nonlinear dynamics of arrested neural cel...
A new approach to the modular, complex systems analysis of nonlinear dynamics in cell cycling networ...
A new approach to the modular, complex systems analysis of nonlinear dynamics in cell cycling networ...
A network of cyclin-dependent kinases (Cdks) controls progression along the successive phases G1, S,...
Background: The cell cycle is a complex process that allows eukaryotic cells to replicate chromosoma...
There is a widening recognition that cancer cells are products of complex developmental processes. C...
The molecular circuits of cell cycle control serve as a key hub to integrate from endogenous and env...
Deregulation of mechanisms driving normal embryonic development is associated with diseases includin...
Cell proliferation and differentiation show a remarkable inverse relationship. Precursor cells conti...
To understand the dynamics of the cell cycle, we need to characterize the balance between cell cycle...
It is hypothesized that the many human cell types corresponding to multiple states is supported by a...
There is a widening recognition that cancer cells are products of complex developmental processes. C...
The discovery that phosphorylation of selected proteins by cyclin-dependent kinases is the engine wh...
AbstractA kinetic model of a molecular control system for the cellular decision to proliferate or di...
Formation of the central nervous system requires a period of extensive progenitor cell proliferation...
A new approach to the modular, complex systems analysis of nonlinear dynamics of arrested neural cel...
A new approach to the modular, complex systems analysis of nonlinear dynamics in cell cycling networ...
A new approach to the modular, complex systems analysis of nonlinear dynamics in cell cycling networ...
A network of cyclin-dependent kinases (Cdks) controls progression along the successive phases G1, S,...
Background: The cell cycle is a complex process that allows eukaryotic cells to replicate chromosoma...
There is a widening recognition that cancer cells are products of complex developmental processes. C...
The molecular circuits of cell cycle control serve as a key hub to integrate from endogenous and env...
Deregulation of mechanisms driving normal embryonic development is associated with diseases includin...
Cell proliferation and differentiation show a remarkable inverse relationship. Precursor cells conti...
To understand the dynamics of the cell cycle, we need to characterize the balance between cell cycle...
It is hypothesized that the many human cell types corresponding to multiple states is supported by a...
There is a widening recognition that cancer cells are products of complex developmental processes. C...
The discovery that phosphorylation of selected proteins by cyclin-dependent kinases is the engine wh...
AbstractA kinetic model of a molecular control system for the cellular decision to proliferate or di...
Formation of the central nervous system requires a period of extensive progenitor cell proliferation...