甲酸脱氢酶
化学
产量(工程)
代谢工程
倍半萜
商品化学品
生物化学
生物反应器
酿酒酵母
格式化
代谢途径
有机化学
松节油
制浆造纸工业
水解物
酶
合成生物学
单细胞蛋白
发酵
生产(经济)
作者
Yachao Xin,Jingping Du,Weiqiang Zhang,Haoran Bi,Limin Ba,Kai Wang,Yanhui Liu,Yachao Xin,Jingping Du,Weiqiang Zhang,Haoran Bi,Limin Ba,Kai Wang,Yanhui Liu
标识
DOI:10.1016/j.synbio.2025.10.014
摘要
Longifolene is a sesquiterpene commonly found in the heavy turpentine oil of pine plants, with various applications ranging from pest control and fragrance production to synthetic biofuels. While S. cerevisiae cell factories can effectively accumulate longifolene, further optimization and refinement of the metabolic modifications are still needed to improve the yield and conversion efficiency of longifolene production. In this study, we first explored enzyme fusion technology to enhance the efficiency of longifolene synthase catalysis, and improved acetyl-CoA availability by adjusting the pyruvate bypass pathway and introducing the synthetic chimeric citrate lyase pathway. The introduction of the formate dehydrogenase module was also used to supplement reducing power. By combining these strategies, the yield of longifolene reached 78.637 mg/L in shake flasks and 2063.7 mg/L in a 5 L bioreactor through fed-batch cultivation. This is the highest reported yield of longifolene to date. This study has important fundamental significance for the construction of biosynthetic factories for longifolene and other terpenes.
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