Effect of pH on the conformational structure of cytochrome c and subsequent enzymatic cross-linking catalyzed by laccase

IF 2.3 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Electronic Journal of Biotechnology Pub Date : 2022-11-01 DOI:10.1016/j.ejbt.2022.07.002

Du-Xin Li, Zi-Yan Qi, Jiang-Yun Liu, Jian-Qin Zhou

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引用次数: 0

Abstract

Background

The aim of the present study was to investigate the effect of substrate conformational structure changes on the laccase-induced protein cross-linking. The effects of laccase amount, pH, and ferulic acid (FA) on the enzymatic cross-linking of substrate, Cyt C, were determined by sodium dodecyl sulfate–polyacrylamide gel electrophoresis. High-performance size exclusion chromatography, laser particle size analysis and isothermal titration calorimetry (ITC) were also applied to investigate the cross-linking product and enthalpy changes. Structural changes of Cyt C at different pH values were analyzed by ultraviolet–visible (UV–vis), fluorescence, and circular dichroism (CD) measurements.

Results

Complete cross-linking, partial cross-linking, minute cross-linking, and no cross-linking occurred at pH 2.0, 4.0, 6.0, and 8.0, respectively. ITC analysis demonstrated that the enzymatic cross-linking of Cyt C was an endothermic process. The UV–vis, fluorescence, and CD measurements exhibited that the tertiary structure of Cyt C was disrupted, and part of the α-helical polypeptide region unfolded at pH 2.0. The structural flexibilities decreased, and the tertiary structure of Cyt C became increasingly compact with the increase in pH values from 4.0 to 8.0. The gradual changes in the structure of Cyt C at different pH values were in accordance with the cross-linking results of Cyt C catalyzed by laccase.

Conclusions

The results demonstrated that minute structure changes of substrate had a remarkable effect on the laccase-induced cross-linking. The findings promote the understanding of the substrate requirement of laccase in protein cross-linking and are instructive for the modulation of laccase-induced protein cross-linking.

How to cite: Li D-X, Qi Z-Y, Liu J-Y, et al. Effect of pH on the conformational structure of cytochrome c and subsequent enzymatic cross-linking catalyzed by laccase. Electron J Biotechnol 2022;60. https://doi.org/10.1016/j.ejbt.2022.07.002.

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pH对细胞色素c构象结构的影响及随后漆酶催化的酶交联

本研究的目的是研究底物构象结构变化对漆酶诱导的蛋白交联的影响。采用十二烷基硫酸钠-聚丙烯酰胺凝胶电泳法测定了漆酶用量、pH和阿威酸(FA)对底物Cyt C酶交联的影响。采用高效粒径排除色谱、激光粒度分析和等温滴定量热法(ITC)对交联产物和焓变进行了研究。通过紫外-可见(UV-vis)、荧光和圆二色性(CD)测量分析不同pH值下Cyt C的结构变化。结果pH值分别为2.0、4.0、6.0和8.0时发生完全交联、部分交联、微小交联和无交联。ITC分析表明，Cyt - C的酶交联是一个吸热过程。紫外可见、荧光和CD测定表明，在pH为2.0时，Cyt C的三级结构被破坏，部分α-螺旋多肽区展开。随着pH值从4.0到8.0的增加，Cyt C的结构柔韧性降低，三级结构变得越来越致密。不同pH值下Cyt C结构的逐渐变化与漆酶催化Cyt C交联的结果一致。结论底物结构的微小变化对漆酶诱导的交联反应有显著影响。这一发现促进了对漆酶在蛋白质交联过程中对底物的要求的认识，并对漆酶诱导的蛋白质交联的调控具有指导意义。如何引用:李德旭，齐志勇，刘建勇，等。pH对细胞色素c构象结构的影响及随后漆酶催化的酶交联。中国生物医学工程学报(英文版);2009;16。https://doi.org/10.1016/j.ejbt.2022.07.002。

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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