25SrRNA Methyltransferase CgBMT5 From Candida glycerinogenes Improves Tolerance and Fermentation Performance of Saccharomyces cerevisiae and Yarrowia lipolytica From Undetoxified Cellulose Hydrolysate.

The hydrolysis of cellulose generates inhibitors like acetate, suppressing fermentation performance. Here, 25SrRNA methyltransferase CgBMT5 from stress-tolerant yeast Candida glycerinogenes was used as an anti-stress gene element in Saccharomyces cerevisiae and Yarrowia lipolytica. Expression of CgBMT5 in S. cerevisiae increased cell tolerance to acetate, high osmolarity, and heat stress and rescued the delay in cell growth under acetate stress. Ethanol productivity was improved from 0.52 g·(L/h) to 0.69 g·(L/h). CgBMT5 improved GFP expression. The transcription factor ARG81 binds to the promoter of CgBMT5. CgBMT5 upregulated HOG1, GPD1, HAA1, and PMA1 and reduced ROS level, thereby improving cell resistance to acetate. CgBMT5 also improved resistance of Y. lipolytica Po1g to multiple-stress. The lipid titer was improved by 37% in the typical medium. Y. lipolytica-CgBMT5 produced 94 mg/L lipid in the undetoxified cellulose hydrolysate.
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