Co-Repressive Interaction and Clustering of Degrade-and-Fire Oscillators
Résumé
Strongly nonlinear degrade-and-fire (DF) oscillations may emerge in genetic circuits having a delayed negative feedback loop as their core element. Here we study the synchronization of DF oscillators coupled through a common repressor field. For weak coupling, initially distinct oscillators remain de-synchronized. For stronger coupling, oscillators can be forced to wait in the repressed state until the global repressor field is sufficiently degraded, and then they fire simultaneously forming a synchronized cluster. Our analytical theory provides necessary and sufficient conditions for clustering and specifies the maximum the number of clusters which can be formed in the asymptotic regime. We find that in the thermodynamic limit a phase transition occurs at a certain coupling strength from the weakly-clustered regime with only microscopic clusters to a strongly clustered regime when at least one giant cluster has to be present.
Fichier principal
FernandezTsimringDegradeFireOscillators.pdf (496.73 Ko)
Télécharger le fichier
SupplementaryText.pdf (277.99 Ko)
Télécharger le fichier
Origine : Fichiers produits par l'(les) auteur(s)
Format : Autre