Exploring the impact of taurine on the biochemical properties of urate oxidase: response surface methodology and molecular dynamics simulation

IF 5.7 3区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS Journal of Biological Engineering Pub Date : 2024-01-22 DOI:10.1186/s13036-023-00397-x
Parisa Shahmoradipour, Maryam Zaboli, Masoud Torkzadeh-Mahani
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Abstract

This paper investigates the impact of taurine as an additive on the structural and functional stability of urate oxidase. First, the effect of the processing parameters for the stabilization of Urate Oxidase (UOX) using taurine was examined using the response surface methodology (RSM) and the central composite design (CCD) model. Also, the study examines thermodynamic and kinetic parameters as well as structural changes of urate oxidase with and without taurine. Fluorescence intensity changes indicated static quenching during taurine binding. The obtained result indicates that taurine has the ability to preserve the native structural conformation of UOX. Furthermore, molecular dynamics simulation is conducted in order to get insights into the alterations in the structure of urate oxidase in the absence and presence of taurine under optimal conditions. The molecular dynamics simulation section investigated the formation of hydrogen bonds (H-bonds) between different components as well as analysis of root mean square deviation (RMSD), root mean square fluctuations (RMSF) and secondary structure. Lower Cα-RMSD and RMSF values indicate greater stabilization of the taurine-treated UOX structure compared to the free enzyme. The results of molecular docking indicate that the binding of taurine to the UOX enzyme through hydrophobic interactions is associated with a negative value for the Gibbs free energy.
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探索牛磺酸对尿酸氧化酶生化特性的影响:响应面方法和分子动力学模拟
本文研究了牛磺酸作为添加剂对尿酸氧化酶结构和功能稳定性的影响。首先,使用响应面方法(RSM)和中心复合设计(CCD)模型研究了使用牛磺酸稳定尿酸盐氧化酶(UOX)的加工参数的影响。此外,该研究还考察了尿酸氧化酶的热力学和动力学参数以及结构变化,包括使用和不使用牛磺酸的情况。荧光强度变化表明牛磺酸结合过程中存在静态淬灭。结果表明,牛磺酸能够保持尿酸氧化酶的原生结构构象。此外,还进行了分子动力学模拟,以深入了解尿酸氧化酶在无牛磺酸和有牛磺酸的最佳条件下的结构变化。分子动力学模拟部分研究了不同成分之间氢键(H 键)的形成,并分析了均方根偏差(RMSD)、均方根波动(RMSF)和二级结构。较低的 Cα-RMSD 和 RMSF 值表明,与游离酶相比,经过牛磺酸处理的 UOX 结构更加稳定。分子对接的结果表明,牛磺酸通过疏水作用与 UOX 酶结合时,吉布斯自由能为负值。
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来源期刊
Journal of Biological Engineering
Journal of Biological Engineering BIOCHEMICAL RESEARCH METHODS-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
CiteScore
7.10
自引率
1.80%
发文量
32
审稿时长
17 weeks
期刊介绍: Biological engineering is an emerging discipline that encompasses engineering theory and practice connected to and derived from the science of biology, just as mechanical engineering and electrical engineering are rooted in physics and chemical engineering in chemistry. Topical areas include, but are not limited to: Synthetic biology and cellular design Biomolecular, cellular and tissue engineering Bioproduction and metabolic engineering Biosensors Ecological and environmental engineering Biological engineering education and the biodesign process As the official journal of the Institute of Biological Engineering, Journal of Biological Engineering provides a home for the continuum from biological information science, molecules and cells, product formation, wastes and remediation, and educational advances in curriculum content and pedagogy at the undergraduate and graduate-levels. Manuscripts should explore commonalities with other fields of application by providing some discussion of the broader context of the work and how it connects to other areas within the field.
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