A network of cyclin-dependent kinases (Cdks) regulated by multiple negative and positive feedback loops controls progression in the mammalian cell cycle. We previously proposed a detailed computational model for this network, which consists of four coupled Cdk modules. Both this detailed model and a reduced, skeleton version show that the Cdk network is capable of temporal self-organization in the form of sustained Cdk oscillations, which correspond to the orderly progression along the different cell cycle phases G1, S (DNA replication), G2 and M (mitosis). We use the skeleton model to revisit the role of positive feedback (PF) loops on the dynamics of the mammalian cell cycle by showing that the multiplicity of PF loops extends the range o...
AbstractThe eukaryotic cell cycle is characterized by alternating oscillations in the activities of ...
Fifteen years ago, it was proposed that the cell cycle in fission yeast can be driven by quantitativ...
International audienceThe cellular division cycle is an essential process to ensure healthy tissue h...
A network of cyclin-dependent kinases (Cdks) regulated by multiple negative and positive feedback lo...
The transitions between the G(1), S, G(2) and M phases of the mammalian cell cycle are driven by a n...
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...
We recently proposed a detailed model describing the dynamics of the network of cyclin-dependent kin...
We previously proposed a detailed, 39-variable model for the network of cyclin-dependent kinases (Cd...
We previously proposed an integrated computational model for the network of cyclin-dependent kinases...
AbstractRepetitive cell cycles, which are essential to the perpetuation of life, are orchestrated by...
A network of cyclin-dependent kinases (Cdks) controls progression along the successive phases G1, S,...
AbstractMultisite phosphorylation of regulatory proteins has been proposed to underlie ultrasensitiv...
The eukaryotic cell cycle is characterized by alternating oscillations in the activities of cyclin-d...
International audienceFifteen years ago, it was proposed that the cell cycle in fission yeast can be...
AbstractThe eukaryotic cell cycle is characterized by alternating oscillations in the activities of ...
Fifteen years ago, it was proposed that the cell cycle in fission yeast can be driven by quantitativ...
International audienceThe cellular division cycle is an essential process to ensure healthy tissue h...
A network of cyclin-dependent kinases (Cdks) regulated by multiple negative and positive feedback lo...
The transitions between the G(1), S, G(2) and M phases of the mammalian cell cycle are driven by a n...
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...
We recently proposed a detailed model describing the dynamics of the network of cyclin-dependent kin...
We previously proposed a detailed, 39-variable model for the network of cyclin-dependent kinases (Cd...
We previously proposed an integrated computational model for the network of cyclin-dependent kinases...
AbstractRepetitive cell cycles, which are essential to the perpetuation of life, are orchestrated by...
A network of cyclin-dependent kinases (Cdks) controls progression along the successive phases G1, S,...
AbstractMultisite phosphorylation of regulatory proteins has been proposed to underlie ultrasensitiv...
The eukaryotic cell cycle is characterized by alternating oscillations in the activities of cyclin-d...
International audienceFifteen years ago, it was proposed that the cell cycle in fission yeast can be...
AbstractThe eukaryotic cell cycle is characterized by alternating oscillations in the activities of ...
Fifteen years ago, it was proposed that the cell cycle in fission yeast can be driven by quantitativ...
International audienceThe cellular division cycle is an essential process to ensure healthy tissue h...