Umi Baroroh, Nindi Salma Chantika, Ade R R Firdaus, Taufik Ramdani Tohari, Toto Subroto, Safri Ishmayana, Agus Safari, Saadah Diana Rachman, Muhammad Yusuf
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引用次数: 0
Abstract
The thermostability of enzymes plays a significant role in the starch hydrolysis process in the industry. The structural difference between thermostable Bacillus licheniformis α-amylase (BLA) and thermolabile Aspergillus niger α-amylase (ANA) is interesting to be explored. This work aimed to study the thermostability-determining factor of BLA as compared to a non-thermostable enzyme, ANA, using molecular dynamics (MD) simulation at a high temperature. A 100 ns of classical MD, which was followed by 200 ns accelerated MD was conducted to explore the conformational changes of the enzyme. It is revealed that the intramolecular interactions through salt bridge interactions and the presence of calcium ions dominates the stability effect of BLA, despite the absence of a disulfide bond in the structure. These results should be useful in designing a thermostable enzyme that can be used in industrial processes.Communicated by Ramaswamy H. Sarma.
酶的热稳定性在工业淀粉水解过程中起着重要的作用。耐热性地衣芽孢杆菌α-淀粉酶(BLA)与耐热性黑曲霉α-淀粉酶(ANA)的结构差异值得探讨。本工作旨在利用分子动力学(MD)模拟研究高温下BLA与非热稳定性酶ANA的热稳定性决定因素。通过100 ns经典磁振扫描和200 ns加速磁振扫描来观察酶的构象变化。结果表明,尽管在结构中没有二硫键,但通过盐桥相互作用的分子内相互作用和钙离子的存在主导了BLA的稳定性效应。这些结果将有助于设计可用于工业过程的耐热酶。由Ramaswamy H. Sarma传达。
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The Journal of Biomolecular Structure and Dynamics welcomes manuscripts on biological structure, dynamics, interactions and expression. The Journal is one of the leading publications in high end computational science, atomic structural biology, bioinformatics, virtual drug design, genomics and biological networks.
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