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Efficient production of astaxanthin in Yarrowia lipolytica through metabolic and enzyme engineering

Chalak Najat Abdullah, Mengsu Liu, Qihang Chen, Song Gao, Changtai Zhang, Shike Liu, Jingwen Zhou

2025Synthetic and Systems Biotechnology24 citationsDOIOpen Access PDF

Abstract

Astaxanthin is a natural red carotenoid, commonly used as an additive in the pharmaceutical industry and as a nutritional supplement owing to its notable antioxidant benefits. However, a complex biosynthetic pathway poses a challenge to de novo biosynthesis of astaxanthin. Here, Yarrowia lipolytica was engineered through multiple strategies for high level production of astaxanthin using a cheap mineral medium. For the production of β-carotene, a platform strain was constructed in which 411.7 mg/L of β-carotene was produced at a shake-flask level. Integration of algal β-carotene ketolase and β-carotene hydroxylase led to the production of 12.3 mg/L of astaxanthin. Furthermore, construction of HpBKT and HpCrtZ as a single enzyme complex along with the enhanced catalytic activity of the enzymes led to the accumulation of 41.0 mg/L of astaxanthin. Iterative gene integration into the genome and direction of the astaxanthin production pathway into sub-organelles substantially increased astaxanthin production (172.1 mg/L). Finally, restoration of the auxotrophic markers and medium optimization further improved astaxanthin production to 237.3 mg/L. The aforementioned approaches were employed in fed-batch fermentation to produce 2820 mg/L of astaxanthin (229-fold improvement regarding the starter strain), with an average productivity of 434 mg/L/d and a yield of 5.6 mg/g glucose, which is the highest reported productivity in Y. lipolytica .

Topics & Concepts

YarrowiaAstaxanthinMetabolic engineeringProduction (economics)ChemistryEnzymeBiochemistryFood scienceBiotechnologyYeastBiologyEconomicsCarotenoidMacroeconomicsEnzyme Catalysis and ImmobilizationPhotosynthetic Processes and MechanismsMicrobial Metabolic Engineering and Bioproduction