Aldehydes are ubiquitous metabolites in living cells. As reactive electrophiles, they have the capacity to form adducts with cellular protein thiols and amines, leading to potential toxicity. Dynamic regulation has proven to be an effective strategy for addressing the accumulation of toxic metabolites. However, there are limited reports on applying dynamic control specifically to mitigate aldehyde accumulation. In this study, the cinnamaldehyde accumulation in the biosynthesis of cinnamylamine was used as a model to evaluate a two-way dynamic regulation strategy. First, we utilized whole-genome transcript arrays to identify the cinnamaldehyde-responsive promoters: the upregulated promoter P