抑制因子
酿酒酵母
生物化学
诱导剂
代谢工程
生物
发酵
生物合成
异源的
代谢途径
上游和下游(DNA)
合成生物学
基因
转录因子
计算生物学
上游(联网)
计算机科学
计算机网络
作者
Wenping Xie,Lidan Ye,Xiaomei Lv,Haoming Xu,Hongwei Yu
标识
DOI:10.1016/j.ymben.2014.11.007
摘要
Balanced utilization of metabolic intermediates and controllable expression of genes in biosynthetic pathways are key issues for the effective production of value-added chemicals in microbes. An inducer/repressor-free sequential control strategy regulated by glucose concentration in the growth environment was proposed to address these issues, and its efficiency was validated using heterologous beta-carotenoid biosynthesis in Saccharomyces cerevisiae as an example. Through sequential control of the downstream, upstream, and competitive pathways of farnesyl diphosphate (FPP), the crucial metabolic node in the biosynthesis of terpenoids, in a predetermined order, a carotenoid production of 1156 mg/L (20.79 mg/g DCW) was achieved by high-cell density fermentation. Quantitative PCR analysis of the regulated genes demonstrated that the transcription patterns were controlled in a sequential manner as expected. The inducer/repressor-free nature of this strategy offers a both practical and economically efficient approach to improved biosynthetic production of value-added chemicals.
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