Efficient targeted mutation of genomic essential genes in yeast Saccharomyces cerevisiae

酿酒酵母 生物 基因 计算生物学 正向遗传学 清脆的 基因组 表型 功能基因组学 代谢工程 突变体 遗传学 突变 基因组学
作者
Shan Yang,Xuan Cao,Wei Yu,Shengying Li,Yongjin J. Zhou
出处
期刊:Applied Microbiology and Biotechnology [Springer Science+Business Media]
卷期号:104 (7): 3037-3047 被引量:18
标识
DOI:10.1007/s00253-020-10405-5
摘要

Targeted gene mutation by allelic replacement is important for functional genomic analysis and metabolic engineering. However, it is challenging in mutating the essential genes with the traditional method by using a selection marker, since the first step of essential gene knockout will result in a lethal phenotype. Here, we developed a two-end selection marker (Two-ESM) method for site-directed mutation of essential genes in Saccharomyces cerevisiae with the aid of the CRISPR/Cas9 system. With this method, single and double mutations of the essential gene ERG20 (encoding farnesyl diphosphate synthase) in S. cerevisiae were successfully constructed with high efficiencies of 100%. In addition, the Two-ESM method significantly improved the mutation efficiency and simplified the genetic manipulation procedure compared with traditional methods. The genome integration and mutation efficiencies were further improved by dynamic regulation of mutant gene expression and optimization of the integration modules. This Two-ESM method will facilitate the construction of genomic mutations of essential genes for functional genomic analysis and metabolic flux regulation in yeasts. KEY POINTS: • A Two-ESM strategy achieves mutations of essential genes with high efficiency of 100%. • The optimized three-module method improves the integration efficiency by more than three times. • This method will facilitate the functional genomic analysis and metabolic flux regulation.

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