振动冲击模式对蛋白质水溶液自发化学发光的影响

IF 1.1 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
M. E. Astashev, D. A. Serov, R. M. Sarimov, S. V. Gudkov
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引用次数: 2

摘要

水和水溶液的一个特征是自发化学发光。在此之前,我们已经发现了水在振动过程中自发化学发光被激活的现象,随后化学发光强度下降并达到一个平稳的水平。目前尚不清楚水的自发化学发光如何依赖于振动条件。同样令人感兴趣的是,机械震动或交变磁场等物理因素如何影响具有生物物体的溶液中的化学发光,例如在水性蛋白质溶液中。本研究考察了牛血清白蛋白溶液自发化学发光对机械冲击条件(频率、振幅和持续时间)的依赖关系,以及交流磁场对免疫球蛋白G溶液自发化学发光的影响。在白蛋白溶液的情况下,与没有暴露于振动的对照白蛋白样品相比,振幅为12毫米的振动影响导致化学发光强度降低。影响的严重程度与振动冲击的时间和频率无关。频率为30 Hz、振幅为2.3 mm的振动增加了平均化学发光强度。水的自发化学发光在更大程度上取决于机械冲击的幅度和持续时间,而不是其频率。浓度为1mg /mL的牛血清白蛋白溶液在所有震动模式下的化学发光强度都比对照样品下降。在振幅为12毫米和/或频率为30赫兹时,观察到最明显的影响。在振幅为12 mm,频率为30 Hz的模态中观察到时间依赖性。因此,蛋白质水溶液的自发化学发光在很大程度上取决于振幅和振动频率,而在较小程度上取决于冲击持续时间。叙述了交流磁场对水的物理特性的影响。我们发现磁场对水化学发光参数没有影响,但改变了IgG水溶液的化学发光强度和均方根偏差。影响的严重程度取决于外加交流磁场的频率和蛋白质浓度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Influence of the Vibration Impact Mode on the Spontaneous Chemiluminescence of Aqueous Protein Solutions

Influence of the Vibration Impact Mode on the Spontaneous Chemiluminescence of Aqueous Protein Solutions

A characteristic feature of water and aqueous solutions is spontaneous chemiluminescence. Previously we have discovered the phenomenon of activation of the spontaneous chemiluminescence of water during shaking, with subsequent decreasing chemiluminescence intensity and reaching a stationary level. It is unclear how spontaneous chemiluminescence of water depends on the shaking conditions. It is also of interest how such physical factors as mechanical shaking or alternating magnetic field may affect the chemiluminescence in solutions with biological objects, for example, in aqueous protein solutions. In this study we investigated the dependence of the spontaneous chemiluminescence of bovine serum albumin solution on the mechanical impact conditions (frequency, amplitude, and duration), as well as the influence of ac magnetic field on the spontaneous chemiluminescence of immunoglobulin G solution. In the case of albumin solution a vibration impact with an amplitude of 12 mm caused a decrease in the chemiluminescence intensity in comparison with a control albumin sample, which was not exposed to vibrations. The severity of the effect was independent of the time and frequency of the vibration impact. Shaking with a frequency of 30 Hz and an amplitude of 2.3 mm increased the average chemiluminescence intensity. Spontaneous chemiluminescence of water depends to a greater extent on the amplitude and duration of the mechanical impact rather than on its frequency. The chemiluminescence intensity of a bovine serum albumin solution with a concentration of 1 mg/mL decreased in comparison with the check sample in all shaking modes. The most pronounced effects were observed for an amplitude of 12 mm and/or a frequency of 30 Hz. Time dependence was observed for the mode with an amplitude of 12 mm and a frequency of 30 Hz. Therefore, the spontaneous chemiluminescence of aqueous protein solutions depends to a greater extent on the amplitude and vibration frequency and to a lesser extent on the impact duration. The influence of ac magnetic field on the physical characteristics of water is described. We found that the magnetic field did not affect the water chemiluminescence parameters but changed the intensity and RMS deviation of the chemiluminescence intensity of IgG aqueous solutions. The effect severity depended on both the frequency of applied ac magnetic field and on the protein concentration.

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来源期刊
Physics of Wave Phenomena
Physics of Wave Phenomena PHYSICS, MULTIDISCIPLINARY-
CiteScore
2.50
自引率
21.40%
发文量
43
审稿时长
>12 weeks
期刊介绍: Physics of Wave Phenomena publishes original contributions in general and nonlinear wave theory, original experimental results in optics, acoustics and radiophysics. The fields of physics represented in this journal include nonlinear optics, acoustics, and radiophysics; nonlinear effects of any nature including nonlinear dynamics and chaos; phase transitions including light- and sound-induced; laser physics; optical and other spectroscopies; new instruments, methods, and measurements of wave and oscillatory processes; remote sensing of waves in natural media; wave interactions in biophysics, econophysics and other cross-disciplinary areas.
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