Ectoine is an important natural secondary metabolite widely used in biomedical fields, novel cosmetics development, and the food industry. Due to the increasing market demand for ectoine, more cost-effective production methods are being explored. With the rapid development of synthetic biology and metabolic engineering technologies, the production of ectoine using traditional halophilic bacteria is gradually being replaced by higher-yielding and environmentally friendly nonhalophilic engineered strains. By introducing the ectoine synthesis pathway into model strains and optimizing the fermentation process through various metabolic regulations, high-level production of ectoine can be achieved. This review focuses on strategies for the microbial production of ectoine, including screening of wild strains, mutation breeding, and metabolic engineering of model strains, to elucidate the current research status and provide insights for the industrial production of ectoine.
Keywords: ectoine; halophilic bacteria; metabolic engineering; model strain.