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From electric circuits to chemical networks

Luca Cardelli, Mirco Tribastone, Max Tschaikowski

2020IRIS Research product catalog (Sapienza University of Rome)35 citationsDOI

Abstract

Abstract Electric circuits manipulate electric charge and magnetic flux via a small set of discrete components to implement useful functionality over continuous time-varying signals represented by currents and voltages. Much of the same functionality is useful to biological organisms, where it is implemented by a completely different set of discrete components (typically proteins) and signal representations (typically via concentrations). We describe how to take a linear electric circuit and systematically convert it to a chemical reaction network of the same functionality, as a dynamical system. Both the structure and the components of the electric circuit are dissolved in the process, but the resulting chemical network is intelligible. This approach provides access to a large library of well-studied devices, from analog electronics, whose chemical network realization can be compared to natural biochemical networks, or used to engineer synthetic biochemical networks.

Topics & Concepts

Realization (probability)Electronic circuitComputer scienceProcess (computing)VoltageElectrical networkSet (abstract data type)SIGNAL (programming language)Electrical elementTheory of computationElectronicsBiological systemElectrical engineeringTopology (electrical circuits)Electronic engineeringAlgorithmEngineeringMathematicsStatisticsOperating systemProgramming languageBiologyGene Regulatory Network AnalysisOrigins and Evolution of LifePhotoreceptor and optogenetics research
From electric circuits to chemical networks | Litcius