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Improving acetoin production through construction of a genome-scale metabolic model

COMPUTERS IN BIOLOGY AND MEDICINE [2023]
Jinyi Qian, Yuzhou Wang, Xiner Liu, Zijian Hu, Nan Xu, Yuetong Wang, Tianqiong Shi, Chao Ye
ABSTRACT

Acetoin was widely used in food, medicine, and other industries, because of its unique fragrance. Bacillus amyloliquefaciens was recognized as a safe strain and a promising acetoin producer in fermentation. However, due to the complexity of its metabolic network, it had not been fully utilized. Therefore, a genome-scale metabolic network model ( i JYQ746) of B. amyloliquefaciens was constructed in this study, containing 746 genes, 1736 reactions, and 1611 metabolites. The results showed that Mg 2+ , Mn 2+ , and Fe 2+ have inhibitory effects on acetoin. When the stirring speed was 400 rpm, the maximum titer was 49.8 g L −1 . Minimization of metabolic adjustments (MOMA) was used to identify potential metabolic modification targets 2-oxoglutarate aminotransferase ( serC , EC 2.6.1.52) and glucose-6-phosphate isomerase ( pgi , EC 5.3.1.9). These targets could effectively accumulate acetoin by increasing pyruvate content, and the acetoin synthesis rate was increased by 610% and 10%, respectively. This provides a theoretical basis for metabolic engineering to reasonably transform B. amyloliquefaciens and produce acetoin.

MATERIALS

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