Department of Biotechnology, Korea University, Seoul, 02841, Republic of Korea.
Department of Biotechnology, Korea University, Seoul, 02841, Republic of Korea.
Metab Eng. 2021 Jul;66:217-228. doi: 10.1016/j.ymben.2021.04.013. Epub 2021 May 1.
Recently, heme has attracted much attention as a main ingredient that mimics meat flavor in artificial meat in the food industry. Here, we developed Corynebacterium glutamicum capable of high-yield production of heme with systems metabolic engineering and modification of membrane surface. The combination of two precursor pathways based on thermodynamic information increased carbon flux toward heme and porphyrin intermediate biosynthesis. The co-overexpression of genes involved in a noncanonical downstream pathway and the gene encoding the transcriptional regulator DtxR significantly enhanced heme production. The overexpression of the putative heme exporters, knockout of heme-binding proteins, modification of the cell wall by chemical treatment, and reduction of intermediate UP III substantially improved heme secretion. The fed-batch fermentation showed a maximum heme titer of 309.18 ± 16.43 mg l, including secreted heme of 242.95 ± 11.45 mg l, a yield on glucose of 0.61 mmol mol, and productivity of 6.44 mg lh, which are the highest values reported to date. These results demonstrate that engineered C. glutamicum can be an attractive cell factory for animal-free heme production.
最近,血红素作为食品工业中人工肉模拟肉味的主要成分引起了广泛关注。在这里,我们通过系统代谢工程和细胞膜表面修饰,开发出能够高产血红素的谷氨酸棒杆菌。基于热力学信息的两种前体途径的组合增加了血红素和卟啉中间产物生物合成的碳通量。涉及非典型下游途径的基因和编码转录调节因子 DtxR 的基因的共过表达显著提高了血红素的产量。假定血红素外排蛋白的过表达、血红素结合蛋白的敲除、细胞壁的化学修饰以及中间 UP III 的减少都大大改善了血红素的分泌。分批补料发酵显示血红素的最高产量为 309.18±16.43 mg l,包括分泌的血红素 242.95±11.45 mg l,葡萄糖得率为 0.61 mmol mol,生产强度为 6.44 mg lh,这是迄今为止报道的最高值。这些结果表明,工程化的谷氨酸棒杆菌可以成为一种有吸引力的无动物血红素生产的细胞工厂。
