谷氨酸棒杆菌
代谢工程
代谢途径
大肠杆菌
白藜芦醇
聚酮
化学
生物化学
木糖
生物合成
发酵
新陈代谢
酶
基因
作者
Daisuke Nonaka,Mayumi Kishida,Yuuki Hirata,Ayana Mori,Akihiko Kondo,Yutaro Mori,Shuhei Noda,Tsutomu Tanaka
标识
DOI:10.1021/acs.jafc.5c00804
摘要
Separating metabolic pathways for microbial chemical production is a promising approach for allocating resources based on target compounds. We modularized an artificial resveratrol biosynthetic pathway in Escherichia coli to supply p -coumaric acid and malonyl-CoA as precursors independently via the coutilization of glucose and xylose. The optimization of resveratrol synthetic gene expression, sugar concentration, and Corynebacterium glutamicum pyc overexpression improved the resveratrol titer in the engineered strain. Furthermore, introducing acetate into the malonyl-CoA supply module as a third carbon source resulted in an increased resveratrol titer. The cultivation of a strain overexpressing pyc and resveratrol synthetic genes in a 1-L bioreactor produced 273.5 mg/L resveratrol. The modularization of metabolic pathways to supply p -coumaric acid and malonyl-CoA from independent sources, such as sugars and acetate, enabled resveratrol production. Overall, this study contributes to the high production of chemicals whose biosynthetic pathways require multiple precursors such as polyketide.
科研通智能强力驱动
Strongly Powered by AbleSci AI