Cascaded Antithetic Integral Feedback Motifs for Robust Stability and Performance Improvement

Armin M. Zand, Ankit Gupta, Mustafa Khammash
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Abstract

Precise intracellular regulation and robust perfect adaptation can be achieved using biomolecular integral controllers and it holds enormous potential for synthetic biology applications. In this letter, we consider the cascaded implementation of a class of such integrator motifs. Our cascaded integrators underpin proportional-integral-derivative (PID) control structures, which we leverage to suggest ways to improve dynamic performance. Moreover, we demonstrate how our cascaded strategy can be harnessed to enhance robust stability in a class of uncertain reaction networks. We also discuss the genetic implementation of our controllers and the natural occurrence of their cascaded sequestration pairs in bacterial pathogens.
级联式反嵌合积分反馈动机实现稳健稳定性和性能改进
利用生物分子积分控制器可以实现精确的细胞内调控和稳健的完美适应,它在合成生物学应用中具有巨大的潜力。在这封信中,我们考虑了这类积分器图案的级联实现。我们的级联积分器是比例-积分-派生(PID)控制结构的基础,我们利用这种结构提出了改善动态性能的方法。此外,我们还展示了如何利用我们的级联策略来增强一类不确定反应网络的稳健稳定性。我们还讨论了我们的控制器的遗传实现及其在细菌病原体中自然出现的级联封存对。
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