1,3-Dihydroxyacetone (DHA), a natural ketose, is widely used in the chemical, cosmetic, and pharmaceutical industries. The current method for DHA production is Gluconobacter oxydans ( G. oxydans ) fermentation, but th...1,3-Dihydroxyacetone (DHA), a natural ketose, is widely used in the chemical, cosmetic, and pharmaceutical industries. The current method for DHA production is Gluconobacter oxydans ( G. oxydans ) fermentation, but the high concentration of glycerol in the fermentation broth inhibits cells growth. To overcome this obstacle, in this study, we overexpressed the glycerol transporter (GlpFp) by the use of promoters P tufB , P gmr , P glp1 , and P glp2 in G. oxydans 621H. The results show that the glycerol tolerances of strains overexpressing G lpF were all much better than that of the control strain. The glycerol dehydrogenase gene (G dh) was overexpressed by the promoters P tufB and P gdh , which increased the DHA titer by 12.7% compared with that of the control group. When G lpF and Gdh genes were co-overexpressed in G. oxydans 621H, the OD600 value of the engineered strains all increased, but the DHA titers decreased in di erent degrees, as compared with strains that overexpressed only G dh . This study provides a reference for future research on DHA production.展开更多
基金supported by the Major Research Plan of Tianjin (16YFXTSF00460)
文摘1,3-Dihydroxyacetone (DHA), a natural ketose, is widely used in the chemical, cosmetic, and pharmaceutical industries. The current method for DHA production is Gluconobacter oxydans ( G. oxydans ) fermentation, but the high concentration of glycerol in the fermentation broth inhibits cells growth. To overcome this obstacle, in this study, we overexpressed the glycerol transporter (GlpFp) by the use of promoters P tufB , P gmr , P glp1 , and P glp2 in G. oxydans 621H. The results show that the glycerol tolerances of strains overexpressing G lpF were all much better than that of the control strain. The glycerol dehydrogenase gene (G dh) was overexpressed by the promoters P tufB and P gdh , which increased the DHA titer by 12.7% compared with that of the control group. When G lpF and Gdh genes were co-overexpressed in G. oxydans 621H, the OD600 value of the engineered strains all increased, but the DHA titers decreased in di erent degrees, as compared with strains that overexpressed only G dh . This study provides a reference for future research on DHA production.
