Department of Chemical Science and Engineering, Graduate School of Engineering, Kobe University, Kobe, Japan.
Department of Chemical Engineering, Osaka Prefecture University, Osaka, Japan.
Biotechnol Bioeng. 2020 Jul;117(7):2153-2164. doi: 10.1002/bit.27350. Epub 2020 Apr 17.
Microbial production of mevalonate from renewable feedstock is a promising and sustainable approach for the production of value-added chemicals. We describe the metabolic engineering of Escherichia coli to enhance mevalonate production from glucose and cellobiose. First, the mevalonate-producing pathway was introduced into E. coli and the expression of the gene atoB, which encodes the gene for acetoacetyl-CoA synthetase, was increased. Then, the deletion of the pgi gene, which encodes phosphoglucose isomerase, increased the NADPH/NADP ratio in the cells but did not improve mevalonate production. Alternatively, to reduce flux toward the tricarboxylic acid cycle, gltA, which encodes citrate synthetase, was disrupted. The resultant strain, MGΔgltA-MV, increased levels of intracellular acetyl-CoA up to sevenfold higher than the wild-type strain. This strain produced 8.0 g/L of mevalonate from 20 g/L of glucose. We also engineered the sugar supply by displaying β-glucosidase (BGL) on the cell surface. When cellobiose was used as carbon source, the strain lacking gnd displaying BGL efficiently consumed cellobiose and produced mevalonate at 5.7 g/L. The yield of mevalonate was 0.25 g/g glucose (1 g of cellobiose corresponds to 1.1 g of glucose). These results demonstrate the feasibility of producing mevalonate from cellobiose or cellooligosaccharides using an engineered E. coli strain.
利用可再生原料生产微生物甲羟戊酸是生产高附加值化学品的一种很有前途和可持续的方法。我们描述了大肠杆菌的代谢工程改造,以提高葡萄糖和纤维二糖生产甲羟戊酸的能力。首先,引入了甲羟戊酸生成途径,并增加了编码乙酰乙酰辅酶 A 合酶的 atoB 基因的表达。然后,敲除编码磷酸葡萄糖异构酶的 pgi 基因增加了细胞内的 NADPH/NADP 比值,但并没有提高甲羟戊酸的产量。或者,为了减少三羧酸循环的通量,敲除编码柠檬酸合酶的 gltA 基因。所得的 MGΔgltA-MV 菌株,细胞内乙酰辅酶 A 的水平比野生型菌株高 7 倍。该菌株能够从 20g/L 的葡萄糖中生产 8.0g/L 的甲羟戊酸。我们还通过在细胞表面展示β-葡萄糖苷酶(BGL)来设计糖源供应。当使用纤维二糖作为碳源时,缺乏 gnd 并展示 BGL 的菌株能够有效地消耗纤维二糖,并以 5.7g/L 的浓度生产甲羟戊酸。甲羟戊酸的产率为 0.25g/g 葡萄糖(1g 纤维二糖相当于 1.1g 葡萄糖)。这些结果表明,利用工程化的大肠杆菌菌株从纤维二糖或纤维寡糖生产甲羟戊酸是可行的。
