一种新的蔗糖诱导表达体系及其在黑曲霉生物质降解酶生产中的应用。

Lu Wang, Yijia Xie, Jingjing Chang, Juan Wang, Hong Liu, Mei Shi, Yaohua Zhong
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引用次数: 4

摘要

背景:丝状真菌因其优越的分泌能力而被广泛开发为重要的酶生产者。然而,它们分泌组的复杂性极大地损害了异源酶的效价和纯度。同时,生物质降解酶等大宗酶的高效评价和生产需要构建强大的生物精炼厂表达系统。结果:构建了以宿主菌株黑曲霉ATCC 20611和β-果糖呋喃苷酶启动子(PfopA)为载体的蔗糖诱导表达体系。黑曲霉ATCC 20611优先利用蔗糖快速生长和生产β-果糖呋喃苷酶。它的分泌背景比较干净,因为负责蔗糖利用的关键酶β-果糖呋喃苷酶基本没有分泌到培养基中,细胞外蛋白酶活性较低。此外,PfopA启动子表现出蔗糖浓度依赖的诱导模式,不受葡萄糖抑制。此外,与常用的以增强型绿色荧光蛋白(EGFP)为报告基因的甘油醛-3-磷酸脱氢酶启动子(PgpdA)相比,ppfa的强度高7.68倍。因此,本研究利用结合PfopA启动子的黑曲霉ATCC 20611作为表达体系,从黑曲霉C112中表达β-葡萄糖苷酶基因(bgla),以17.84 U/mL的滴度产生β-葡萄糖苷酶。将粗制β-葡萄糖苷酶添加到里氏木霉QM9414纤维素酶混合物中,可以显著提高预处理玉米芯渣糖化葡萄糖的产率。通过共表达T. reesei衍生的几丁质酶Chi46和β- n-乙酰氨基葡萄糖苷酶Nag1,得到了一种高效的几丁质降解酶混合物,该混合物可实现胶体几丁质生产n-乙酰-d -氨基葡萄糖苷的转化率为91.83%。此外,在粗培养上清中,上述分泌的生物质降解酶的纯度在86%以上。结论:该pfopa驱动表达系统拓展了黑曲霉的遗传工具箱,拓宽了传统产低聚果糖菌株黑曲霉ATCC 20611的应用领域,使其成为高效产酶细胞工厂。特别是蔗糖诱导的表达系统具有高水平产生生物质降解酶的能力,并且可以避免内源蛋白质的干扰,为生物精炼厂的应用提供了一个潜在的无需纯化的酶生产平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A novel sucrose-inducible expression system and its application for production of biomass-degrading enzymes in Aspergillus niger.

A novel sucrose-inducible expression system and its application for production of biomass-degrading enzymes in Aspergillus niger.

A novel sucrose-inducible expression system and its application for production of biomass-degrading enzymes in Aspergillus niger.

A novel sucrose-inducible expression system and its application for production of biomass-degrading enzymes in Aspergillus niger.

Background: Filamentous fungi are extensively exploited as important enzyme producers due to the superior secretory capability. However, the complexity of their secretomes greatly impairs the titer and purity of heterologous enzymes. Meanwhile, high-efficient evaluation and production of bulk enzymes, such as biomass-degrading enzymes, necessitate constructing powerful expression systems for bio-refinery applications.

Results: A novel sucrose-inducible expression system based on the host strain Aspergillus niger ATCC 20611 and the β-fructofuranosidase promoter (PfopA) was constructed. A. niger ATCC 20611 preferentially utilized sucrose for rapid growth and β-fructofuranosidase production. Its secretory background was relatively clean because β-fructofuranosidase, the key enzyme responsible for sucrose utilization, was essentially not secreted into the medium and the extracellular protease activity was low. Furthermore, the PfopA promoter showed a sucrose concentration-dependent induction pattern and was not subject to glucose repression. Moreover, the strength of PfopA was 7.68-fold higher than that of the commonly used glyceraldehyde-3-phosphate dehydrogenase promoter (PgpdA) with enhanced green fluorescence protein (EGFP) as a reporter. Thus, A. niger ATCC 20611 coupled with the PfopA promoter was used as an expression system to express a β-glucosidase gene (bgla) from A. niger C112, allowing the production of β-glucosidase at a titer of 17.84 U/mL. The crude β-glucosidase preparation could remarkably improve glucose yield in the saccharification of pretreated corncob residues when added to the cellulase mixture of Trichoderma reesei QM9414. The efficacy of this expression system was further demonstrated by co-expressing the T. reesei-derived chitinase Chi46 and β-N-acetylglucosaminidase Nag1 to obtain an efficient chitin-degrading enzyme cocktail, which could achieve the production of N-acetyl-D-glucosamine from colloidal chitin with a conversion ratio of 91.83%. Besides, the purity of the above-secreted biomass-degrading enzymes in the crude culture supernatant was over 86%.

Conclusions: This PfopA-driven expression system expands the genetic toolbox of A. niger and broadens the application field of the traditional fructo-oligosaccharides-producing strain A. niger ATCC 20611, advancing it to become a high-performing enzyme-producing cell factory. In particular, the sucrose-inducible expression system possessed the capacity to produce biomass-degrading enzymes at a high level and evade endogenous protein interference, providing a potential purification-free enzyme production platform for bio-refinery applications.

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