Bifurcation-based approach reveals synergism and optimal combinatorial perturbation

Abstract: Cells accomplish the process of fate decisions and form terminal lineages through a series of binary choices in which cells switch stable states from one branch to another as the interacting strengths of regulatory factors continuously vary. Various combinatorial effects may occur because almost all regulatory processes are managed in a combinatorial fashion. Combinatorial regulation is crucial for cell fate decisions because it may effectively integrate many different signaling pathways to meet the higher reg… Show more

“…Thus, we need to examine how multiple perturbations affect the choice of cell fates in a combinatorial way. Bifurcation under combinatorial perturbations has been used to study synergism and antagonism in biological systems [25]. In addition, scholars have also examined drug or target combinations [26].…”

Fate decisions mediated by crosstalk of autophagy and apoptosis in mammalian cells

“…Thus, we need to examine how multiple perturbations affect the choice of cell fates in a combinatorial way. Bifurcation under combinatorial perturbations has been used to study synergism and antagonism in biological systems [25]. In addition, scholars have also examined drug or target combinations [26].…”

Fate decisions mediated by crosstalk of autophagy and apoptosis in mammalian cells

Computational analysis of synergism in small networks with different logic

Dynamic evolutions of HIV infection on treatment with combinatorial drugs