Improving the Z3EV promoter system to create the strongest yeast promoter.

IF 2.4 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Rina Higuchi, Yuri Fujita, Shotaro Namba, Hisao Moriya
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引用次数: 0

Abstract

Promoters for artificial control of gene expression are central tools in genetic engineering. In the budding yeast Saccharomyces cerevisiae, a variety of constitutive and controllable promoters with different strengths have been constructed using endogenous gene promoters, synthetic transcription factors and their binding sequences, and artificial sequences. However, there have been no attempts to construct the highest strength promoter in yeast cells. In this study, by incrementally increasing the binding sequences of the synthetic transcription factor Z3EV, we were able to construct a promoter (P36) with ~1.4 times the strength of the TDH3 promoter. This is stronger than any previously reported promoter. Although the P36 promoter exhibits some leakage in the absence of induction, the expression induction by estradiol is maintained. When combined with a multicopy plasmid, it can express up to ~50% of total protein as a heterologous protein. This promoter system can be used to gain knowledge about the cell physiology resulting from the ultimate overexpression of excess proteins and is expected to be a useful tool for heterologous protein expression in yeast.

改进 Z3EV 启动子系统,创建最强的酵母启动子。
人工控制基因表达的启动子是基因工程的核心工具。在芽殖酵母 S. cerevisiae 中,人们利用内源基因启动子、合成转录因子及其结合序列和人工序列构建了多种不同强度的组成型和可控型启动子。然而,还没有人尝试过在酵母细胞中构建强度最高的启动子。在本研究中,通过逐步增加合成转录因子 Z3EV 的结合序列,我们构建了一个强度约为 TDH3 启动子 1.4 倍的启动子(P36)。这比之前报道的任何启动子都要强。虽然 P36 启动子在没有诱导的情况下会出现一些泄漏,但雌二醇的表达诱导作用仍能维持。当与多拷贝质粒结合时,它可以作为异源蛋白表达高达约 50%的总蛋白。该启动子系统可用于了解最终过量表达过量蛋白质所导致的细胞生理现象,有望成为酵母中异源蛋白质表达的有用工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
FEMS yeast research
FEMS yeast research 生物-生物工程与应用微生物
CiteScore
5.70
自引率
6.20%
发文量
54
审稿时长
1 months
期刊介绍: FEMS Yeast Research offers efficient publication of high-quality original Research Articles, Mini-reviews, Letters to the Editor, Perspectives and Commentaries that express current opinions. The journal will select for publication only those manuscripts deemed to be of major relevance to the field and generally will not consider articles that are largely descriptive without insights on underlying mechanism or biology. Submissions on any yeast species are welcome provided they report results within the scope outlined below and are of significance to the yeast field.
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