AbstractDeterministic descriptions of three biochemical reaction channels formerly considered by Bratsun et al. (2005) [19] are studied. These descriptions are based on the mass action law and for the simple protein production with delayed degradation differ from that proposed by Bratsun et al. An explicit solution to this model is calculated. For the model of reaction with negative feedback and delayed production, global stability of a unique positive steady state is proved. According to the models of these two reaction channels considered in the present paper there cannot appear delayed induced oscillations. For the model of reaction with negative feedback, dimerisation and delayed protein production, local stability for a unique positive...
<p><b>A</b>. Oscillation regions (marked by “OSC") under different degradation kinetic conditions. T...
We extend discrete event models (DEM) of substrate-enzyme reactions to include regulatory feedback a...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...
AbstractDeterministic descriptions of three biochemical reaction channels formerly considered by Bra...
Delayed processes are ubiquitous in biological systems and are often characterized by delay differen...
This work quantifies the nature of delays in genetic regulatory networks and their effect on system ...
AbstractIn this work we study oscillations appearing in the simple linear delayed differential equat...
AbstractCertain biochemical reaction can be modeled by a coupled system of time-delayed ordinary dif...
Complex regulation of biochemical pathways in a cell is brought about by the interaction of simpler ...
Delay is an important and ubiquitous aspect of many biochemical processes. For example, delay plays ...
International audienceDelays appear in the dynamics of many systems due to non-vanishing reaction ti...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...
Complex signaling cascades involve many interlocked positive and negative feedback loops which have ...
AbstractStochastic models of reaction networks are widely used to depict gene expression dynamics. H...
AbstractIn this paper, we investigate the qualitative behavior of a class of deterministic models wi...
<p><b>A</b>. Oscillation regions (marked by “OSC") under different degradation kinetic conditions. T...
We extend discrete event models (DEM) of substrate-enzyme reactions to include regulatory feedback a...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...
AbstractDeterministic descriptions of three biochemical reaction channels formerly considered by Bra...
Delayed processes are ubiquitous in biological systems and are often characterized by delay differen...
This work quantifies the nature of delays in genetic regulatory networks and their effect on system ...
AbstractIn this work we study oscillations appearing in the simple linear delayed differential equat...
AbstractCertain biochemical reaction can be modeled by a coupled system of time-delayed ordinary dif...
Complex regulation of biochemical pathways in a cell is brought about by the interaction of simpler ...
Delay is an important and ubiquitous aspect of many biochemical processes. For example, delay plays ...
International audienceDelays appear in the dynamics of many systems due to non-vanishing reaction ti...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...
Complex signaling cascades involve many interlocked positive and negative feedback loops which have ...
AbstractStochastic models of reaction networks are widely used to depict gene expression dynamics. H...
AbstractIn this paper, we investigate the qualitative behavior of a class of deterministic models wi...
<p><b>A</b>. Oscillation regions (marked by “OSC") under different degradation kinetic conditions. T...
We extend discrete event models (DEM) of substrate-enzyme reactions to include regulatory feedback a...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...