Abstract
Menaquinone-7, a form of vitamin K(2), plays a critical role in the treatment of hemorrhagic diseases caused by vitamin K deficiency and in the prevention of bone fractures. Microbial fermentation has emerged as a promising method for MK-7 production due to its high product optical purity and significant physiological activity. However, the current production efficiency of MK-7 remains insufficient to meet industrial demands. In this study, we employed a combination of single-factor experiments, Plackett-Burman design, steepest ascent experiments, and Box-Behnken design to optimize the fermentation medium for MK-7 production by Bacillus subtilis BS-ΔackA. Through regression analysis and consideration of practical production constraints, the optimal fermentation medium parameters were determined as follows: 20 g/L sucrose, 20.7 g/L glycerol, 47.3 g/L soy peptone, 4 g/L yeast extract, and 1.9 g/L KH(2)PO(4), 0.1 g/L MgSO(4)·7 H(2)O. Under these optimized conditions, the MK-7 yield reached 154.6 ± 1.32 mg/L. The experimental results demonstrated excellent stability and reliability, aligning closely with the model predictions. This study significantly enhances MK-7 production at the shake-flask fermentation level, providing valuable insights for large-scale industrial applications.