Yin Mao scite author profile

Malic acid is mainly used as an acidulant and taste enhancer in the beverage and food industry. Previously, a mutant strain Thermobifida fusca muC, obtained by adaptive evolution was found to accumulate malic acid on cellulose with low yield. In this study, the malic acid synthesis pathway in T. fusca muC was confirmed to be from phosphoenolpyruvate to oxaloacetate, followed by reduction of oxaloacetate to malate. To increase the yield of malic acid by the muC strain significantly, the carbon flux from pyruvate was redirected to oxaloacetate by expressing an exogenous pyruvate carboxylase (PCx) gene from Corynebacterium glutamicum ATCC 13032 in the chromosome of T. fusca muC-16. The yield of malic acid in the engineered strain muC-16 was increased by 47.9% compared to the parent strain muC. The muC-16 strain was then grown on ∼100 g/L cellulose and the highest titer of malic acid was 62.76 g/L by batch fermentation. T. fusca muC-16 strain converted milled corn stover to malic acid with the highest titer of 21.47 g/L with minimal treatment.

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Metabolic engineering of E. coli for efficient production of glycolic acid from glucose

Deng

Mao

Zhang

2015

Biochemical Engineering Journal

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Yin Mao

Biological production of adipic acid from renewable substrates: Current and future methods

Production of adipic acid by the native-occurring pathway in Thermobifida fusca B6

Balancing the carbon flux distributions between the TCA cycle and glyoxylate shunt to produce glycolate at high yield and titer in Escherichia coli

Metabolic engineering of a laboratory-evolvedThermobifida fuscamuC strain for malic acid production on cellulose and minimal treated lignocellulosic biomass

Metabolic engineering of E. coli for efficient production of glycolic acid from glucose

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