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Noise properties of adaptation-conferring biochemical control modules

Brayden Kell, Ryan Ripsman, Andreas Hilfinger

2023Proceedings of the National Academy of Sciences11 citationsDOIOpen Access PDF

Abstract

A key goal of synthetic biology is to develop functional biochemical modules with network-independent properties. Antithetic integral feedback (AIF) is a recently developed control module in which two control species perfectly annihilate each other's biological activity. The AIF module confers robust perfect adaptation to the steady-state average level of a controlled intracellular component when subjected to sustained perturbations. Recent work has suggested that such robustness comes at the unavoidable price of increased stochastic fluctuations around average levels. We present theoretical results that support and quantify this trade-off for the commonly analyzed AIF variant in the idealized limit with perfect annihilation. However, we also show that this trade-off is a singular limit of the control module: Even minute deviations from perfect adaptation allow systems to achieve effective noise suppression as long as cells can pay the corresponding energetic cost. We further show that a variant of the AIF control module can achieve significant noise suppression even in the idealized limit with perfect adaptation. This atypical configuration may thus be preferable in synthetic biology applications.

Topics & Concepts

Robustness (evolution)Limit (mathematics)Synthetic biologyAdaptation (eye)Noise (video)Control theory (sociology)Biological systemComputer scienceControl (management)MathematicsBiologyBioinformaticsNeuroscienceArtificial intelligenceImage (mathematics)Mathematical analysisGeneBiochemistryGene Regulatory Network AnalysisReceptor Mechanisms and SignalingMicrobial Metabolic Engineering and Bioproduction
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