Tuning genetic control through promoter engineering

发起人 生物 基因 代谢工程 功能基因组学 遗传学 基因表达 酿酒酵母 计算生物学 合成生物学 表型 饱和突变 基因组学 基因组 突变体
作者
Hal S. Alper,Curt R. Fischer,Elke Nevoigt,Gregory Stephanopoulos
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:102 (36): 12678-12683 被引量:888
标识
DOI:10.1073/pnas.0504604102
摘要

Gene function is typically evaluated by sampling the continuum of gene expression at only a few discrete points corresponding to gene knockout or overexpression. We argue that this characterization is incomplete and present a library of engineered promoters of varying strengths obtained through mutagenesis of a constitutive promoter. A multifaceted characterization of the library, especially at the single-cell level to ensure homogeneity, permitted quantitative assessment correlating the effect of gene expression levels to improved growth and product formation phenotypes in Escherichia coli . Integration of these promoters into the chromosome can allow for a quantitative accurate assessment of genetic control. To this end, we used the characterized library of promoters to assess the impact of phosphoenolpyruvate carboxylase levels on growth yield and deoxy-xylulose-P synthase levels on lycopene production. The multifaceted characterization of promoter strength enabled identification of optimal expression levels for ppc and dxs , which maximized the desired phenotype. Additionally, in a strain preengineered to produce lycopene, the response to deoxy-xylulose-P synthase levels was linear at all levels tested, indicative of a rate-limiting step, unlike the parental strain, which exhibited an optimum expression level, illustrating that optimal gene expression levels are variable and dependent on the genetic background of the strain. This promoter library concept is illustrated as being generalizable to eukaryotic organisms ( Saccharomyces cerevisiae ) and thus constitutes an integral platform for functional genomics, synthetic biology, and metabolic engineering endeavors.
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