Designing prokaryotic gene expression regulatory elements: From genomic mining to artificial intelligence-driven generation.

Gene expression regulatory elements (GEREs) play a pivotal role in the control of gene transcription and translation. The design of GEREs with precise and tunable activity remains a major challenge in synthetic biology. Over the past decades, engineering strategies have evolved from empirical sequence mining and random mutagenesis to increasingly rational approaches guided by biophysical models and artificial intelligence. In this review, we systematically examine the design principles, representative studies, and implementation strategies for each GERE class, highlighting how mining, modular recombination, targeted mutagenesis, and deep generative modeling contribute to the development of functional regulatory elements. We further discuss the strengths and limitations of these strategies, offering practical guidance for optimizing microbial cell factory bioproduction through the fine-tuning of gene expression.