Induction temperature impacts the structure of recombinant HuGM-CSF inclusion bodies in thermoinducible E. coli

IF 2.3 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Electronic Journal of Biotechnology Pub Date : 2022-09-01 DOI:10.1016/j.ejbt.2022.08.004

Sara Restrepo-Pineda , Diego Rosiles-Becerril , Angélica B. Vargas-Castillo , Luis P. Ávila-Barrientos , Axel Luviano , Nuria Sánchez-Puig , Enrique García-Hernández , Nestor O. Pérez , Mauricio A. Trujillo-Roldán , Norma A. Valdez-Cruz

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引用次数: 0

Abstract

Background

The temperature upshift has been widely used as an induction system to produce recombinant proteins (RPs). However, thermoinduction could affect bacterial metabolism, RP production, and RP aggregation. Understanding the structure and functionality of those aggregates, known as inclusion bodies (IBs), is a research area of interest in bioprocesses being scarcely studied under thermoinduction. Here, we describe the effect of the thermoinduction (39°C or 42°C) on the production of the recombinant human granulocyte–macrophage colony-stimulating factor (rHuGM-CSF) using Escherichia coli W3110 under the system λpL/cI857.

Results

Results indicated that at 39°C, the production of biomass was almost doubled as well as the acetate accumulation compared to 42°C. Cultures thermoinduced at 42°C improved 1.5-fold the total protein over biomass yield and 1.25-fold the RP over total protein yield. Furthermore, 42°C accelerated the onset of IB formation, changing its architecture. Additionally, IBs formed at 42°C were less soluble and presented higher disorderly structures compared with IBs formed at 39°C, enriched in α-helix and amyloidal-like structures.

Conclusions

This study highlights the observation that IBs attain different architecture in response to small changes in environmental conditions, such as the induction temperature, being this helpful information to improve thermoinduced bioprocesses.

How to cite: Restrepo-Pineda S, Rosiles-Becerril D, Vargas-Castillo AB, et al. Induction temperature impacts the structure of recombinant HuGM-CSF inclusion bodies in thermoinducible E. coli. Electron J Biotechnol 2022;59. https://doi.org/10.1016/j.ejbt.2022.08.004.

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诱导温度影响热诱导大肠杆菌中重组HuGM-CSF包涵体的结构

温度升高作为一种诱导系统被广泛应用于重组蛋白(RPs)的生产。然而，热诱导会影响细菌的代谢、RP的产生和RP的聚集。了解这些被称为包涵体(IBs)的聚集体的结构和功能，是生物过程中很少在热感应下研究的一个研究领域。在这里，我们描述了在λpL/cI857体系下，用大肠杆菌W3110进行39°C或42°C的热诱导对重组人粒细胞-巨噬细胞集落刺激因子(rHuGM-CSF)产生的影响。结果表明，与42°C相比，39°C下的生物量产量和乙酸积累量几乎增加了一倍。42°C热诱导培养物的总蛋白比生物量产量提高1.5倍，RP比总蛋白产量提高1.25倍。此外，42°C加速了IB形成的开始，改变了其结构。此外，42°C形成的IBs与39°C形成的IBs相比，可溶性更低，具有更高的无序结构，富含α-螺旋和淀粉样结构。结论本研究强调了IBs在环境条件(如诱导温度)的微小变化下获得不同结构的观察结果，为改善热诱导生物过程提供了有益的信息。引用方式:Restrepo-Pineda S, Rosiles-Becerril D, Vargas-Castillo AB等。诱导温度影响热诱导大肠杆菌中重组HuGM-CSF包涵体的结构。中国生物医学工程学报(英文版);2011;https://doi.org/10.1016/j.ejbt.2022.08.004。

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

Electronic Journal of Biotechnology 工程技术-生物工程与应用微生物

CiteScore

5.60

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： Electronic Journal of Biotechnology is an international scientific electronic journal, which publishes papers from all areas related to Biotechnology. It covers from molecular biology and the chemistry of biological processes to aquatic and earth environmental aspects, computational applications, policy and ethical issues directly related to Biotechnology. The journal provides an effective way to publish research and review articles and short communications, video material, animation sequences and 3D are also accepted to support and enhance articles. The articles will be examined by a scientific committee and anonymous evaluators and published every two months in HTML and PDF formats (January 15th , March 15th, May 15th, July 15th, September 15th, November 15th). The following areas are covered in the Journal: • Animal Biotechnology • Biofilms • Bioinformatics • Biomedicine • Biopolicies of International Cooperation • Biosafety • Biotechnology Industry • Biotechnology of Human Disorders • Chemical Engineering • Environmental Biotechnology • Food Biotechnology • Marine Biotechnology • Microbial Biotechnology • Molecular Biology and Genetics •Nanobiotechnology • Omics • Plant Biotechnology • Process Biotechnology • Process Chemistry and Technology • Tissue Engineering