Onyeabor, M.; Nieves, L. M.; Kurgan, G.; Xiao, J.; Kurgan, L.; Retallack, B.; Gu, H.; Wang, X.

Malic acid is a C4 dicarboxylic acid traditionally produced from petroleum and widely used in the food industry. As a sustainable alternative, it can also be produced as a value-added platform chemical from biomass. Previously, the Escherichia coli strain XZ658 was engineered to produce L-malate via the carbon-fixation reductive branch of the TCA cycle. In this study, we further improved this system by relieving allosteric regulation of citrate synthase, addressing redox imbalance, and enhancing malate export. These modifications approximately doubled the L-malate titer in the final strain MO128 compared to XZ658 under simple batch fermentation conditions. The process achieved a high mass yield of 1.2 g malate per g glucose, highlighting the carbon-fixation capacity of the reductive TCA pathway for fermentative malate production.