Reference: Zhou X, et al. (2024) Structure-guided engineering of 4-coumarate: CoA ligase for efficient production of rosmarinic acid in Saccharomyces cerevisiae. J Biotechnol 396:140-149

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Abstract


The utilization of genetically modified microbial cells for rosmarinic acid (RA) production is gaining increased attention as a cost-effective and sustainable approach. However, the substrate promiscuity of 4-coumarate: CoA ligase and RA synthase has been considered as a critical factor for low RA yields. In this study, we rationally engineered the substrate preference of 4-coumarate: CoA ligase (OPc4CL2) from Petroselinum crispum, resulting in a significant enhancement in RA production. Particularly, the introduction of the Y240C mutation led to a remarkable 176 % increase in RA yield. Subsequent enzymatic analysis of OPc4CL2 variants revealed diminished activity towards p-coumaric acid, resulting in insufficient time for the transformation of p-coumaric acid to 4-coumaroyl CoA to generate byproduct. Furthermore, to minimize the formation of undesired byproducts, the overexpression of 4-hydroxyphenylacetate 3-monooxygenase (OHpaB) and NADPH-flavin oxidoreductase (HpaC) was carried out to facilitate the conversion of p-coumaric acid to caffeic acid and 4-hydroxyphenyllactate to salvianic acid A, thus achieving a significant increase in RA yield of up to 329.9 mg/L (16.5 mg/g yield on glucose) in shake-flask cultivation. Finally, the engineered strain YRA113-24BHM achieved a notable RA production of 3.6 g/L (about 20.2 mg/g yield on glucose) by fed-batch fermentation. This study serves as a foundation for the sustainable biosynthesis of RA and other caffeic acid derivatives.

Reference Type
Journal Article
Authors
Zhou X, Du J, Zhu J, Pang X, Yin X, Zhou P
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