Plant Heat Shock Proteins Are More Effective in Enhancing Recombinant Alcohol Dehydrogenase Activity than Bacterial Ones In Vitro.

IF 1.6 4区生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Iranian Journal of Biotechnology Pub Date : 2024-07-01 DOI:10.30498/ijb.2024.442517.3878

Minjae Jung, Yunjin Park, Yeh-Jin Ahn

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Abstract

Background: Recombinant proteins produced in the cell factories are used in biological research, pharmaceutical production, and biochemical and agricultural applications. Molecular chaperones, such as heat shock proteins (Hsps), are co-expressed with recombinant proteins to enhance their yield, stability, and activity. When Escherichia coli (E. coli) is used as a cell factory, E. coli Hsps are the frequently used co-expression partners.

Objectives: We examined if there are differences in the molecular chaperone activities of plant and bacterial Hsps on recombinant protein activity. We compared the effects of the Hsps from carrot (Daucus carota) and E. coli on enhancing the recombinant alcohol dehydrogenase (ADH) activity and solubility under normal and heat conditions in vitro.

Materials and methods: His-tagged carrot Hsps (DcHsp17.7 and DcHsp70), E. coli Hsps (IbpA, IbpB, and DnaK), and ADH from a thermophile Geobacillus stearothermophilus were individually cloned in a pET11a or a pET26b vector, introduced into E. coli BL21(DE3), and expressed by isopropyl β-D-1-thiogalactopyranoside treatment (0.5 mM, 16 °C , 20 h). The recombinant proteins were purified using Ni-NTA affinity chromatography and resolved in SDS-PAGE (17%). The recombinant ADH was treated with the individual Hsps or in combination, and the enzyme activity was examined by measuring the NADH product levels at O.D.₃₄₀.

Results: The recombinant ADH was expressed at high levels in E. coli and very thermotolerant when the purified enzyme reacted (up to 70 °C). All five Hsps enhanced the ADH activity under normal and heat conditions in vitro, compared to the control. DcHsp17.7 and DcHsp70 were the most effective for improving the enzyme activity by up to 13.0- and 11.6-fold, respectively, followed by IbpA (8.4-fold), DnaK (6.5-fold), and IbpB (3.4-fold), at 37 °C . Combined incubation of DcHsp17.7-DcHsp70 and DcHsp17.7-DnaK further enhanced the ADH activity by 13.8 and 14.2-fold, respectively. DcHsp70 effectively enhanced ADH's solubility at 37 °C in vitro.

Conclusion: Our results suggest that plant Hsps can enhance recombinant protein activity, such as ADH, more effectively than their bacterial counterparts. Identifying effective molecular chaperones in the bacterial and eukaryotic domains will help enhance the production of recombinant proteins in E. coli.

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植物热休克蛋白比细菌热休克蛋白更有效地提高重组乙醇脱氢酶活性。

背景：在细胞工厂中生产的重组蛋白被用于生物学研究、制药生产、生化和农业应用。分子伴侣，如热休克蛋白（Hsps），与重组蛋白共表达，以提高其产量，稳定性和活性。当使用大肠杆菌作为细胞工厂时，大肠杆菌热休克蛋白是常用的共表达伙伴。目的：研究植物热休克蛋白和细菌热休克蛋白分子伴侣活性对重组蛋白活性的影响。比较了胡萝卜热蛋白和大肠杆菌热蛋白对体外正常和高温条件下重组醇脱氢酶（ADH）活性和溶解度的影响。材料和方法：分别在pET11a或pET26b载体上克隆his标记的胡萝卜Hsps （DcHsp17.7和DcHsp70）、大肠杆菌Hsps （IbpA、IbpB和DnaK）和ADH，导入大肠杆菌BL21(DE3)，用异丙基β- d -1-硫代半乳糖苷处理（0.5 mM, 16°C, 20 h），重组蛋白用Ni-NTA亲和层析纯化，SDS-PAGE（17%）分离。重组ADH分别用单独或联合热休克蛋白处理，在od值340时测定NADH产物水平，检测酶活性。结果：重组ADH在大肠杆菌中高水平表达，当纯化酶反应时（高达70°C）具有很强的耐热性。与对照组相比，在正常和高温条件下，这5种热休克蛋白均能提高体外ADH活性。在37°C条件下，DcHsp17.7和DcHsp70对酶活性的提高最有效，分别达到13.0和11.6倍，其次是IbpA（8.4倍）、DnaK（6.5倍）和IbpB（3.4倍）。DcHsp17.7-DcHsp70和DcHsp17.7-DnaK联合孵育，ADH活性分别提高13.8倍和14.2倍。DcHsp70能有效提高ADH在体外37℃的溶解度。结论：植物热休克蛋白能比细菌热休克蛋白更有效地提高重组蛋白的活性，如ADH。在细菌和真核结构域中鉴定有效的分子伴侣将有助于提高大肠杆菌重组蛋白的生产。

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来源期刊

Iranian Journal of Biotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-

CiteScore

2.60

自引率

7.70%

发文量

期刊介绍： Iranian Journal of Biotechnology (IJB) is published quarterly by the National Institute of Genetic Engineering and Biotechnology. IJB publishes original scientific research papers in the broad area of Biotechnology such as, Agriculture, Animal and Marine Sciences, Basic Sciences, Bioinformatics, Biosafety and Bioethics, Environment, Industry and Mining and Medical Sciences.