Recombinant production of Paenibacillus wynnii β-galactosidase with Komagataella phaffii.

IF 4.3 2区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Microbial Cell Factories Pub Date : 2024-10-05 DOI:10.1186/s12934-024-02544-5

Anna Bechtel, Ines Seitl, Eva Pross, Frank Hetzel, Mario Keutgen, Lutz Fischer

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引用次数: 0

Abstract

Background: The β-galactosidase from Paenibacillus wynnii (β-gal-Pw) is a promising candidate for lactose hydrolysis in milk and dairy products, as it has a higher affinity for the substrate lactose (low K_M value) compared to industrially used β-galactosidases and is not inhibited by the hydrolysis-generated product D-galactose. However, β-gal-Pw must firstly be produced cost-effectively for any potential industrial application. Accordingly, the yeast Komagataella phaffii was chosen to investigate its feasibility to recombinantly produce β-gal-Pw since it is approved for the regulated production of food enzymes. The aim of this study was to find the most suitable way to produce the β-gal-Pw in K. phaffii either extracellularly or intracellularly.

Results: Firstly, 11 different signal peptides were tested for extracellular production of β-gal-Pw by K. phaffii under the control of the constitutive GAP promoter. None of the signal peptides resulted in a secretion of β-gal-Pw, indicating problems within the secretory pathway of this enzyme. Therefore, intracellular β-gal-Pw production was investigated using the GAP or methanol-inducible AOX1 promoter. A four-fold higher volumetric β-galactosidase activity of 7537 ± 66 µkat_oNPGal/L_culture was achieved by the K. phaffii clone 27 using the AOX1 promoter in fed-batch bioreactor cultivations, compared to the clone 5 using the GAP promoter. However, a two-fold higher specific productivity of 3.14 ± 0.05 µkat_oNPGal/g_DCW/h was achieved when using the GAP promoter for β-gal-Pw production compared to the AOX1 promoter. After partial purification, a β-gal-Pw enzyme preparation with a total β-galactosidase activity of 3082 ± 98 µkat_oNPGal was obtained from 1 L of recombinant K. phaffii culture (using AOX1 promoter).

Conclusion: This study showed that the β-gal-Pw was produced intracellularly by K. phaffii, but the secretion was not achieved with the signal peptides chosen. Nevertheless, a straightforward approach to improve the intracellular β-gal-Pw production with K. phaffii by using either the GAP or AOX1 promoter in bioreactor cultivations was demonstrated, offering insights into alternative production methods for this enzyme.

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用 Komagataella phaffii 重组生产 Paenibacillus wynnii β-半乳糖苷酶。

背景：与工业上使用的 β-半乳糖苷酶相比，β-半乳糖苷酶对底物乳糖具有更高的亲和力（KM 值低），而且不会受到水解生成物 D-半乳糖的抑制，因此它是牛奶和乳制品中乳糖水解的理想候选物。然而，要想实现任何潜在的工业应用，首先必须以具有成本效益的方式生产出 β-gal-Pw。因此，我们选择了 Komagataella phaffii 酵母菌来研究其重组生产 β-gal-Pw 的可行性，因为它已被批准用于食品酶的规范生产。本研究的目的是找到在 K. phaffii 细胞外或细胞内生产 β-gal-Pw 的最合适方法：首先，在组成型 GAP 启动子的控制下，对 11 种不同的信号肽进行了测试，以检测 K. phaffii 在细胞外生产 β-gal-Pw 的情况。没有一个信号肽能导致β-gal-Pw的分泌，这表明该酶的分泌途径存在问题。因此，我们使用 GAP 或甲醇诱导的 AOX1 启动子研究了细胞内 β-gal-Pw 的产生。与使用 GAP 启动子的克隆 5 相比，使用 AOX1 启动子的 K. phaffii 克隆 27 在进料批次生物反应器培养中的体积β-半乳糖苷酶活性（7537 ± 66 µkatoNPGal/Lculture ）高出四倍。然而，与使用 AOX1 启动子的克隆 5 相比，使用 GAP 启动子生产 β-gal-Pw 的特定生产率高出两倍，达到 3.14 ± 0.05 µkatoNPGal/gDCW/h。经过部分纯化后，从 1 升重组 K. phaffii 培养物（使用 AOX1 启动子）中获得了总 β-半乳糖苷酶活性为 3082 ± 98 µkatoNPGal 的 β-gal-Pw 酶制剂：本研究表明，噬菌体可在细胞内产生β-gal-Pw，但所选信号肽无法实现分泌。尽管如此，通过在生物反应器培养中使用 GAP 或 AOX1 启动子，证明了一种提高 K. phaffii 细胞内 β-gal-Pw 产率的直接方法，为该酶的替代生产方法提供了启示。

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