石墨烯量子点对pyralis萤火虫荧光素酶催化效率的影响

IF 1.4 Q4 NANOSCIENCE & NANOTECHNOLOGY
E. Samadi, M. Javanmardi, S. J. Porzani, S. Hosseinkhani
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引用次数: 1

摘要

目的:萤火虫萤光素酶是一种单加氧酶,在酶促反应中会发出闪光。萤光素酶已被用于从ATP检测方法到体内成像的许多生物分析领域。近几十年来,人们对纳米粒子的荧光特性进行了研究。半导体量子点具有独特的可调谐特性,使其成为生物和生物医学研究的有前途的工具,如纳米传感器、光电化学和发光器件。石墨烯量子点(GQDs)等碳基纳米颗粒具有低毒性、合适的发光性和易于制备等优点。材料和方法:本研究基于N-末端His标签表达并纯化了重组吡喃毕赤酵母萤光素酶,然后计算了在存在和不存在GQDs的情况下酶活性的动力学参数,如Km和Vmax值。结果:在GQDs存在下,ATP和荧光素底物的Km增加。荧光光谱显示在GQD存在下蛋白质结构或荧光光谱的显著变化和荧光素酶活性的降低。活性的损失和底物Km的增加都表明催化效率的降低可能是由于结构的改变。结论:从这些数据可以得出结论,GQD影响下的蛋白质结构可能发生了变化,导致酶活性的改变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decrease of catalytic efficiency of Photinus pyralis firefly luciferase in the presence of graphene quantum dots
Objective(s): Firefly luciferase is a monooxygenase enzyme that emits flash of light during the enzymatic reaction. Luciferase has been used in many bioanalytical fields from ATP detection methods to in vivo imaging. In recent decades, focus has been carried out on nanoparticles for their fluorescence properties. Semiconductor quantum dots have unique tunable properties that turn them promising tools in biological and biomedical researches, as nanosensors, photo-electrochemical and light-emitting devices. Carbon-based nanoparticles such as graphene quantum dots (GQDs) have useful benefits such as low toxicity, suitable luminescence and easy preparation. Materials and Methods: In this study, recombinant P. pyralis luciferase was expressed and purified based on N-terminal His-tag and then kinetic parameters of enzyme activity such as Km and Vmax values in presence and absence of GQDs were calculated. Results: The results showed that Km for ATP and luciferin substrates in the presence of GQDs were increased. Fluorescence spectroscopy showed significant changes in protein structure or in fluorescence spectra and decrease in the activity of the luciferase in presence of GQD. Both loss of activity and increase of substrates Km showed decrease of catalytic efficiency presumably through structural alteration. Conclusion: From these data it can be concluded that the protein structure under the influence of GQD may have changed that lead to alteration of enzyme activity.
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来源期刊
Nanomedicine Journal
Nanomedicine Journal NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
3.40
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12 weeks
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