Analysis of structural changes in active site of luciferase adsorbed on nanofabricated hydrophilic Si surface by molecular-dynamics simulations

Katsuhiko Nishiyama; Tadatsugu Hoshino

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Analysis of structural changes in active site of luciferase adsorbed on nanofabricated hydrophilic Si surface by molecular-dynamics simulations

机译：通过分子动力学模拟分析吸附在纳米亲水硅表面的荧光素酶活性位点的结构变化

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摘要

Interactions between luciferase and a nanofabricated hydrophilic Si surface were explored by molecular-dynamics simulations. The structural changes in the active-site residues, the residues affecting the luciferin binding, and the residues affecting the bioluminescence color were smaller on the nanofabricated hydrophilic Si surface than on both a hydrophobic Si surface and a hydrophilic Si surface. The nanofabrication and wet-treatment techniques are expected to prevent the decrease in activity of luciferase on the Si surface.

机译：通过分子动力学模拟探索萤光素酶和纳米加工的亲水性硅表面之间的相互作用。活性部位残基，影响荧光素结合的残基和影响生物发光颜色的残基的结构变化在纳米级亲水性Si表面上均比在疏水性Si表面和亲水性Si表面上都小。期望纳米加工和湿处理技术能够防止萤光素酶在Si表面的活性降低。

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来源
《Applied Physics Letters》 |2007年第21期|p.213901.1-213901.3|共3页
作者
Katsuhiko Nishiyama; Tadatsugu Hoshino;
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作者单位

Tsuruoka National College of Technology, 104 Sawada, Inooka, Tsuruoka City, Yamagata 997-8511, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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入库时间 2022-08-18 03:21:07

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1. Analysis of binding energies between luciferin and luciferase adsorbed on Si surface by docking simulations [J] . Nishiyama K, Watanabe T, Hoshino T, Chemical Physics Letters . 2007,第1a3期

机译：荧光素和荧光素酶在硅表面吸附的结合能的对接模拟分析
2. Analysis of binding energies between luciferin and luciferase adsorbed on Si surface by docking simulations [J] . Nishiyama K, Watanabe T, Hoshino T, Chemical Physics Letters . 2007,第1a3期

机译：荧光素和荧光素酶在硅表面吸附的结合能的对接模拟分析
3. Structural analysis of peptides that fill sites near the active center of the two different enzyme molecules by artificial intelligence and computer simulations [J] . Katsuhiko Nishiyama AIP Advances . 2018,第5期

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4. Localization of the active site of an enzyme bacterial luciferase using two-quantum affinity modification [C] . L.Z. Benimetskaya, Institute of Automation, Electrometry, Future Trends in Biomedical Applications of Lasers . 1991

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5. Atomistic Simulations for Investigating Structural Stability and Selecting Initial Adsorption Orientation of Lysozyme and Apo-alpha-Lactalbumin at Hydrophobic and Hydrophilic Surfaces. [D] . Pansri, Siriporn. 2012

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Analysis of structural changes in active site of luciferase adsorbed on nanofabricated hydrophilic Si surface by molecular-dynamics simulations

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