雅罗维亚
代谢工程
生物化学
酵母
生物合成
发酵
代谢途径
生物
化学
内质网
前列腺素
过氧化物酶体
生物转化
蛋白质工程
合成生物学
从头合成
花生四烯酸
脂滴
生产过剩
工业发酵
脂质代谢
酶
工业微生物学
甘油
作者
Guo-Wei He,La-mei Ding,Xiao Fan,Chong Wang,Xiang-Yang Lu,Yun Tian,Ji Xiaojun,He Huang,Hu-Hu Liu
标识
DOI:10.1038/s42003-025-09510-w
摘要
Prostaglandin F2α (PGF2α) is an important lipid mediator with diverse physiological activities, but its reliance on chemical synthesis presents challenges and limitations, driving the need for efficient microbial fermentation. This study engineered the oleaginous yeast Yarrowia lipolytica to establish a microbial platform for the de novo biosynthesis of PGF2α from glucose. Firstly, in vitro biotransformation of arachidonic acid (ARA) was achieved using engineered Y. lipolytica expressing prostaglandin H synthase and prostaglandin F synthase. Subsequently, the complete biosynthetic pathway was reconstituted in vivo. To overcome the rate-limiting Δ-8 desaturation step, a high-efficiency Δ-8 desaturase from I. galbana was selected, and a Δ9-elongase/Δ8-desaturase fusion protein with a GGGGS linker was constructed. Further systematic metabolic engineering including dual organelle engineering targeting the endoplasmic reticulum and lipid droplets, and enhanced acetyl-CoA supply via carnitine O-acetyltransferase (Cat2) overexpression - a strategy that proved more effective than regulating NADPH generation. Finally, fermentation optimization with the optimized YAO medium significantly boosted PGF2α production. These combined metabolic engineering strategies enabled Y. lipolytica de novo production of PGF2α from glucose, reaching a titer of 32.63 μg/L (nearly 3.58 μg/g DCW). Overall, this research offers a promising platform for advancing the green biosynthesis of PGF2α and other prostaglandins.
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