1. Engineering carbon source division of labor for efficient α-carotene production in Corynebacterium glutamicum.
- Author
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Li, Kai, Li, Cheng, Liu, Chen-Guang, Zhao, Xin-Qing, Ou, Ruiwen, Swofford, Charles A., Bai, Feng-Wu, Stephanopoulos, Gregory, and Sinskey, Anthony J.
- Subjects
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CORYNEBACTERIUM glutamicum , *DIVISION of labor , *LIGNOCELLULOSE , *CAROTENES , *PERFORMANCE practice (Music performance) , *CARBON , *CELL growth - Abstract
Effective utilization of glucose, xylose, and acetate, common carbon sources in lignocellulose hydrolysate, can boost biomanufacturing economics. However, carbon leaks into biomass biosynthesis pathways instead of the intended target product remain to be optimized. This study aimed to enhance α-carotene production by optimizing glucose, xylose, and acetate utilization in a high-efficiency Corynebacterium glutamicum cell factory. Heterologous xylose pathway expression in C. glutamicum resulted in strain m4, exhibiting a two-fold increase in α-carotene production from xylose compared to glucose. Xylose utilization was found to boost the biosynthesis of pyruvate and acetyl-CoA, essential precursors for carotenoid biosynthesis. Additionally, metabolic engineering including pck, pyc, ppc , and aceE deletion, completely disrupted the metabolic connection between glycolysis and the TCA cycle, further enhancing α-carotene production. This strategic intervention directed glucose and xylose primarily towards target chemical production, while acetate supplied essential metabolites for cell growth recovery. The engineered strain C. glutamicum m8 achieved 30 mg/g α-carotene, 67% higher than strain m4. In fed-batch fermentation, strain m8 produced 1802 mg/L of α-carotene, marking the highest titer reported to date in microbial fermentation. Moreover, it exhibited excellent performance in authentic lignocellulosic hydrolysate, producing 216 mg/L α-carotene, 1.45 times higher than the initial strain (m4). These labor-division strategies significantly contribute to the development of clean processes for producing various valuable chemicals from lignocellulosic resources. • The carbon source division of labor strategy is an effective approach to address carbon leaks into biomass biosynthesis. • Xylose utilization enhances the biosynthesis of pyruvate and acetyl-CoA, essential precursors for carotenoid biosynthesis. • The highest titer of α-carotene (1.8 g/L) in any microorganism reported to date. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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