Abstract
Eicosapentaenoic acid (EPA) is an essential nutritional supplement for human health. The most prominent dietary source of EPA is fish oil, which is unsustainable because of the decline in fishery resources and serious environmental pollution. Alternatively, a heterologous polyketide synthase pathway for EPA biosynthesis was assembled in Thraustochytrid Aurantiochytrium. A 2A peptide-based facile assembly platform that can achieve multigene expression as a polycistron was first established. The platform was then applied to express the EPA biosynthetic gene cluster from Shewanella japonica in Aurantiochytrium. In the shake flask fermentation, the lipid and PUFA yields of the mutant were increased by 26.9 and 36.0%, respectively, and led to about 5-fold increase of the EPA yield. The final EPA titer reached 2.7 g/L in fed-batch fermentation. This study provides a novel metabolic engineering strategy to regulate the EPA ratio in microalgal oil for human nutritional supplementation.
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