The Dynamics of an Oscillating Enzymatic Reaction Network is Crucially Determined by Side Reactions

Synthetic complex chemical systems are often subject to perturbations in reaction conditions. To ensure robust functioning of these systems in real‐world applications, a better understanding is required of how resilience to perturbations could be included in the design of these systems. In order to develop such an understanding we need a deeper insight into how chemical systems respond to perturbations. Here, we study the effect of spiking concentrations in an oscillating enzymatic reaction network. We identify that a different magnitude of a perturbation triggers two distinctive responses: obtaining sustained oscillations and causing the loss of the amplitude. We rationalise our findings based on non‐linear dynamics and identify that non‐essential
side reactions crucially tailor the observed behaviour.