Characterization of MAP c21873-1 as a new counter-selectable marker for unmarked genetic modification of Pichia pastoris.

IF 4.3 2区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Microbial Cell Factories Pub Date : 2024-08-08 DOI:10.1186/s12934-024-02496-w

Minzhi Liu, Sihan Zhou, Yunsong Cao, Keqin Yang, Yao Xiao, Wei Wang

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引用次数: 0

Abstract

Background: Selection markers are useful in genetic modification of yeast Pichia pastoris. However, the leakage of the promoter caused undesired expression of selection markers especially those toxic proteins like MazF, halting the cell growth and hampering the genetic manipulation in procaryotic system. In this study, a new counter-selectable marker-based strategy has been established for seamless modification with high efficiency and low toxicity.

Results: At first, the leaky expression of the enhanced green fluorescent protein (EGFP) as a reporter gene under the control of six inducible promoters of P. pastoris was investigated in two hosts Escherichia coli and P. pastoris, respectively. The results demonstrated that the DAS1 and FDH1 promoters (P_DAS1 and P_FDH1) had the highest leakage expression activities in procaryotes and eukaryotes, and the DAS2 promoter (P_DAS2) was inducible with medium strength but low leakage expression activity, all of which were selected for further investigation. Next, Mirabilis antiviral proteins (MAPs) c21873-1, c21873-1T (truncated form of c21873-1) and c23467 were mined as the new counter-selectable markers, and hygromycin B (Hyg B) resistance gene was used as the positive-selectable marker, respectively. Then, modular plasmids with MAP-target gene-Hyg B cassettes were constructed and used to transform into P. pastoris cells after linearization, and the target genes were integrated into its genome at the BmT1 locus through single-crossover homologous recombination (HR). After counter-selection induced by methanol medium, the markers c21873-1 and c21873-1T were recycled efficiently. But c23467 failed to be recycled due to its toxic effect on the P. pastoris cells. At last, the counter-selectable marker c21873-1 under the tightly regulated P_DAS2 enabled the encoding genes of reporter EGFP and tested proteins to be integrated into the target locus and expressed successfully.

Conclusions: We have developed MAP c21873-1 as a novel counter-selectable marker which could perform efficient gene knock-in by site-directed HR. Upon counter-selection, the marker could be recycled for repeated use, and no undesirable sequences were introduced except for the target gene. This unmarked genetic modification strategy may be extended to other genetic modification including but not limited to gene knock-out and site-directed mutagenesis in future.

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MAP c21873-1 作为用于无标记转基因 Pichia pastoris 的新反选择标记的特征。

背景：选择标记在酵母 Pichia pastoris 的基因改造中非常有用。然而，启动子的泄漏会导致选择标记的错误表达，尤其是那些有毒蛋白（如 MazF），从而导致细胞停止生长，阻碍原核系统中的遗传操作。本研究建立了一种基于反选择标记的新策略，可实现高效、低毒的无缝修饰：结果：首先，研究了增强型绿色荧光蛋白（EGFP）作为报告基因分别在大肠杆菌和牧杆菌两个宿主中，在六个诱导启动子控制下的漏表达情况。结果表明，DAS1和FDH1启动子（PDAS1和PFDH1）在原核生物和真核生物中具有最高的泄漏表达活性，DAS2启动子（PDAS2）具有中等强度的诱导性，但泄漏表达活性较低，所有这些启动子都被选作进一步研究的对象。接着，分别挖掘出了 Mirabilis 抗病毒蛋白（MAPs）c21873-1、c21873-1T（c21873-1 的截短形式）和 c23467 作为新的反选择标记，并以百粒霉素 B（Hyg B）抗性基因作为正选择标记。然后，构建了带有 MAP-目的基因-Hyg B 盒的模块质粒，线性化后用于转化 P. pastoris 细胞，并通过单交叉同源重组（HR）将目的基因整合到其基因组的 BmT1 位点上。经甲醇培养基诱导反选择后，标记 c21873-1 和 c21873-1T 被有效回收。但 c23467 由于对 P. pastoris 细胞有毒性作用而未能被回收。最后，在 PDAS2 的严格调控下，反选择标记 c21873-1 使报告基因 EGFP 和测试蛋白的编码基因整合到目标基因座并成功表达：我们已开发出 MAP c21873-1 作为一种新型反选择标记，可通过定点定向 HR 实现高效基因敲入。反选择后，该标记可循环重复使用，除目的基因外，没有引入任何不良序列。这种无标记基因修饰策略可扩展到其他基因修饰领域，包括但不限于基因敲除和定点诱变。

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

Microbial Cell Factories 工程技术-生物工程与应用微生物

CiteScore

9.30

自引率

4.70%

发文量

235

审稿时长

2.3 months

期刊介绍： Microbial Cell Factories is an open access peer-reviewed journal that covers any topic related to the development, use and investigation of microbial cells as producers of recombinant proteins and natural products, or as catalyzers of biological transformations of industrial interest. Microbial Cell Factories is the world leading, primary research journal fully focusing on Applied Microbiology. The journal is divided into the following editorial sections: -Metabolic engineering -Synthetic biology -Whole-cell biocatalysis -Microbial regulations -Recombinant protein production/bioprocessing -Production of natural compounds -Systems biology of cell factories -Microbial production processes -Cell-free systems