Negative Regulation of Kog1 on Lipid Accumulation in the Oleaginous Fungus .

Oleaginous microorganisms can produce polyunsaturated fatty acids beneficial to human health through adjusting the nitrogen content in the medium. The target of rapamycin complex 1 (TORC1) is important for nitrogen sensing and then regulates lipid metabolism. However, the function of Kog1, a subunit of TORC1, in TORC1-regulated lipid metabolism in oleaginous microorganisms remains unclear. In this study, the gene was knocked out to explore the mechanism of lipid accumulation in the oleaginous fungus under nitrogen-limited and nitrogen-rich conditions. The results showed that the cell dry weight (CDW) of the deletion mutant was obviously decreased from 22.2 to 15.4 g/L under nitrogen-limited conditions; however, the lipid content markedly increased by 43.2% compared to the control, from 20.8% of CDW to 29.9%. A similar trend was observed under nitrogen-rich conditions; the cell growth was significantly inhibited, the CDW was decreased from 28.6 to 23.0 g/L, and the lipid content increased by 79.6% compared to the control strain, reaching 9.7% of CDW. The addition of rapamycin further enhanced lipid accumulation in the knockout mutant but not in the knockout mutant, indicating that Kog1 is the upstream target of rapamycin (TOR) in regulating lipid regulation. Transcriptional analysis under both nitrogen-limited and nitrogen-rich conditions notably suggested that nitrogen stress may activate Snf1/AMPK to inhibit Kog1, facilitating SREBP-1c nuclear translocation and activating fatty acid biosynthesis genes.