Redistributing Carbon Flux by Impairing Saccharide Synthesis to Enhance Lipid Yield in Oleaginous Fungus Mortierella alpina.

Abstract

Increasing carbon flux toward target metabolites is important in improving microbial productivity and economic value. To improve the efficiency of lipid production in Mortierella alpina, we knocked down genes for trehalose-6-phosphate synthetase (Matps) and phosphoenolpyruvate carboxykinase (Mapepck) in the major pathways for saccharide synthesis. The knockdown of Matps reduced trehalose content by an average of 31.87%, while the knockdown of Mapepck reduced the total saccharide content by 28.6%, and both recombinant strains showed more than 20% increased lipid yield. Trehalose plays a vital role in stress resistance, but a higher polyunsaturated fatty acid-rich lipid content was found to partly compensate for the loss of trehalose after Matps knockdown. As compared with Matps knockdown, the knockdown of Mapepck gave better lipid production by bringing forward the time to maximum lipid yield by three days in a scale-up test. The arachidonic acid yield after the Mapepck knockdown reached 1.23 g/L, which was 39.9% higher than that of the original strain. The present research provided an efficient strategy for redistributing carbon flux among different metabolites and therefore promoted microbial lipid yield in a shorter fermentation period.