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Enhancing Mycoprotein Yield: Metabolic Modulation of Chitin Synthase in <i>Fusarium venenatum</i>

Ruru Hong, Sheng Tong, Mengdan Chai, Wuxi Chen, Xizhen Liu, Yuxiang Chen, Demao Li

2024Journal of Agricultural and Food Chemistry23 citationsDOI

Abstract

Fusarium venenatum is being extensively utilized for microbial protein production. However, its high dietary fiber content results in substantial carbon loss. Inhibition of chitin biosynthesis presents a promising strategy to improve the mycoprotein yield. Through transcriptomic and bioinformatics analyses, chitin synthase gene FvChs3 was identified as crucial for chitin synthesis in F. venenatum . Knockout of the FvChs3 gene resulted in mycelial expansion and a 26% reduction in the chitin content of strain Δ FvChs3 . Ethanol production from fermentation decreased by 47%, while the carbon conversion efficiency and protein conversion increased by 16% and 36%, respectively. Transcriptomic analysis revealed an upregulation of nitrogen metabolism in Δ FvChs3, while genes related to the glycolysis pathway for ethanol synthesis were downregulated. Further knockout of pyruvate decarboxylase gene FvPDC6 in Δ FvChs3 accelerated growth, leading to improvements in carbon and protein conversion of 29% and 40%, respectively. This research lays the foundation for enhancing fungal protein production.

Topics & Concepts

ChitinFusariumChemistryYield (engineering)BiochemistryFood scienceChitin synthaseBiologyEnzymeBotanyChitosanMaterials scienceMetallurgyBiofuel production and bioconversionMicrobial Metabolites in Food BiotechnologyEnzyme Production and Characterization
Enhancing Mycoprotein Yield: Metabolic Modulation of Chitin Synthase in <i>Fusarium venenatum</i> | Litcius