AI Article Synopsis
- The study aimed to enhance the production of oleanoic acid using genetically modified yeast cell factories.
- The researchers introduced specific genes into a yeast strain, resulting in improved fermentation and increased yields of beta-amyrin and oleanolic acid.
- The optimized yeast strain produced significantly higher levels of oleanolic acid, suggesting a viable alternative to plant extraction for producing this compound.
Article Abstract
Objective: To optimize the synthetic pathway and fermentation process of yeast cell factories for production of oleanoic acid.
Method: Using the DNA assembler method, one copy of Glycyrrhiza glabra beta-amyrin synthase (GgbAS), Medicago truncatula oleanolic acid synthase (MtOAS) and Arabidopsis thaliana cytochrome P450 reductase 1 (AtCPR1) genes were introduced into Saccharomyces cerevisiae strain BY-OA, resulting in strain BY-20A. YPD medium with different glucose concentration were then used to cultivate strain BY-2OA.
Result: Increasing gene copies of GgbAS, MtOAS and AtCPR1 resulted in increased beta-amyrin and oleanolic acid production. The strain BY-2OA produced 136.5 mg x L(-1) beta-amyrin and 92.5 mg x L(-1) oleanolic acid, which were 54% and 30% higher than the parent strain BY-OA. Finally, the titer of oleanolic acid increased to 165.7 mg x L(-1) when cultivated in YPD medium with 40 mg x L(-1) glucose.
Conclusion: Production of oleanoic acid increased significantly in the yeast strain BY-2OA, which can provide the basis for creating an alternative way for production of oleanoic acid in place of extraction from plant sources.
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