Chemical reaction networks (CRNs) serve as powerful frameworks for designing robust synthetic biological feedback control circuits. Recently, we identified a two-state motif that employs ultrasensitive feedback regulation to maintain a homeostatic equilibrium, inherently robust to environmental fluctuations. In this work, we construct a CRN that embeds the proposed two-state motif through cooperative reactions and demonstrate that increasing the level of cooperation enhances adaptive homeostasis, ensuring robustness against system uncertainties and external disturbances.
Embedding ultrasensitivity via cooperation in biomolecular circuit design: a framework for robust adaptation
Montefusco, Francesco;Ariola, Marco;
2025-01-01
Abstract
Chemical reaction networks (CRNs) serve as powerful frameworks for designing robust synthetic biological feedback control circuits. Recently, we identified a two-state motif that employs ultrasensitive feedback regulation to maintain a homeostatic equilibrium, inherently robust to environmental fluctuations. In this work, we construct a CRN that embeds the proposed two-state motif through cooperative reactions and demonstrate that increasing the level of cooperation enhances adaptive homeostasis, ensuring robustness against system uncertainties and external disturbances.File in questo prodotto:
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