A generic systems-theoretic approach to identify biological networks capable of adaptation

Abstract: Constructing biological networks capable of performing specific biological functionalities has been of sustained interest in synthetic biology. Adaptation is one such ubiquitous functional property, which enables every living organism to sense a change in its surroundings and return to its operating condition prior to the disturbance. In this paper, we present a generic systems theory-driven method for designing adaptive protein networks. First, we translate the necessary qualitative conditions for adaptation … Show more

“…Tangirala and co-workers [8] have proposed a generic systems theory-driven approach to design protein networks capable of perfect adaptation. They use systems theory to obtain mathematical constraints from the necessary qualitative conditions for adaptation; these constraints further provide design requirements for the underlying networks, unravelling key design principles.…”

Designing biological circuits: from principles to applications

“…Tangirala and co-workers [8] have proposed a generic systems theory-driven approach to design protein networks capable of perfect adaptation. They use systems theory to obtain mathematical constraints from the necessary qualitative conditions for adaptation; these constraints further provide design requirements for the underlying networks, unravelling key design principles.…”

Designing biological circuits: from principles to applications