Some biological networks exhibit oscillations in their components to convert stimuli to time-dependent responses. The eukaryotic cell cycle is such a case, being governed by waves of cyclin-dependent kinase (cyclin/Cdk) activities that rise and fall with specific timing and guarantee its timely occurrence. Disruption of cyclin/Cdk oscillations could result in dysfunction through reduced cell division. Therefore, it is of interest to capture properties of network designs that exhibit robust oscillations. Here we show that a minimal yeast cell cycle network is able to oscillate autonomously, and that cyclin/Cdk-mediated positive feedback loops (PFLs) and Clb3-centered regulations sustain cyclin/Cdk oscillations, in known and hypothetical netw...
International audienceIn present-day eukaryotes, the cell division cycle is controlled by a complex ...
AbstractThe eukaryotic cell cycle is characterized by alternating oscillations in the activities of ...
In present-day eukaryotes, the cell division cycle is controlled by a complex network of interacting...
Some biological networks exhibit oscillations in their components to convert stimuli to time-depende...
Some biological networks exhibit oscillations in their components to convert stimuli to time-depende...
Eukaryotic cell division is known to be controlled by the cyclin/cyclin dependent kinase (CDK) machi...
AbstractThe cell division cycle requires oscillations in activity of B-type cyclin (Clb)-Cdk1 kinase...
We previously proposed an integrated computational model for the network of cyclin-dependent kinases...
International audienceControl of eukaryotic cell proliferation involves an extended regulatory netwo...
We recently proposed a detailed model describing the dynamics of the network of cyclin-dependent kin...
We recently proposed a detailed model describing the dynamics of the network of cyclin-dependent kin...
Eukaryotic cell division is known to be controlled by the cyclin/ CDK machinery. However, eukaryotes...
The transitions between the G(1), S, G(2) and M phases of the mammalian cell cycle are driven by a n...
A network of cyclin-dependent kinases (Cdks) regulated by multiple negative and positive feedback lo...
The eukaryotic cell cycle is characterized by alternating oscillations in the activities of cyclin-d...
International audienceIn present-day eukaryotes, the cell division cycle is controlled by a complex ...
AbstractThe eukaryotic cell cycle is characterized by alternating oscillations in the activities of ...
In present-day eukaryotes, the cell division cycle is controlled by a complex network of interacting...
Some biological networks exhibit oscillations in their components to convert stimuli to time-depende...
Some biological networks exhibit oscillations in their components to convert stimuli to time-depende...
Eukaryotic cell division is known to be controlled by the cyclin/cyclin dependent kinase (CDK) machi...
AbstractThe cell division cycle requires oscillations in activity of B-type cyclin (Clb)-Cdk1 kinase...
We previously proposed an integrated computational model for the network of cyclin-dependent kinases...
International audienceControl of eukaryotic cell proliferation involves an extended regulatory netwo...
We recently proposed a detailed model describing the dynamics of the network of cyclin-dependent kin...
We recently proposed a detailed model describing the dynamics of the network of cyclin-dependent kin...
Eukaryotic cell division is known to be controlled by the cyclin/ CDK machinery. However, eukaryotes...
The transitions between the G(1), S, G(2) and M phases of the mammalian cell cycle are driven by a n...
A network of cyclin-dependent kinases (Cdks) regulated by multiple negative and positive feedback lo...
The eukaryotic cell cycle is characterized by alternating oscillations in the activities of cyclin-d...
International audienceIn present-day eukaryotes, the cell division cycle is controlled by a complex ...
AbstractThe eukaryotic cell cycle is characterized by alternating oscillations in the activities of ...
In present-day eukaryotes, the cell division cycle is controlled by a complex network of interacting...