Real-time detection of the transport of water cluster across cytomembrane with piezoelectric sensor

IF 1.2 4区 化学 Q4 CHEMISTRY, ANALYTICAL Chinese Journal of Analytical Chemistry Pub Date : 2023-08-15 DOI:10.1016/j.cjac.2023.100307
Peihui Yang, Yeyan Zhu, Yan Hao
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Abstract

Acquiring insight into the transport of water clusters across cytomembrane is vital and essential for elucidating cell functions and water channels. Herein, A highly sensitive living cell analysis platform was developed for monitoring the transport dynamics of water clusters through water channels by combining the piezoelectric transducer and the hypotonicity-caused cell volume regulation. The various drinking water was used as the hypotonic perfusate to stimulate vascular endothelial cells and the temporal frequency response to cells was obtained to analyze the transport rate of the influx and efflux of water clusters which is related to water structure. The sensor is capable to distinguish the transport dynamics of different water clusters in five drinking water which the transport rates of water influx of cells are 5.1 ± 0.40, 6.6 ± 0.96, 7.4 ± 0.46, 8.1 ± 0.86, and 8.4 ± 0.80 Hz min−1 (n = 3), respectively, showed that they are ranked in the increasing order: M-water, C-water, S-water, RO-water, d-water. Moreover, inhibitor of HgCl2 was used to block water channels to reveal the water transport via water channels. Conductivity and infrared spectroscopy assays further confirmed the differences of transport dynamics between these drinking water due to the structure or size of water clusters caused by the mineral substance or the electromagnetic field. Therefore, this work provides a novel, simple and effective method for monitoring the transport of different water cluster across cytomembrane.

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利用压电传感器实时检测水簇在细胞膜上的传输
深入了解水簇在细胞膜上的转运对于阐明细胞功能和水通道至关重要。在此,通过将压电换能器和低张力引起的细胞体积调节相结合,开发了一个高灵敏度的活细胞分析平台,用于监测水团簇通过水道的传输动力学。以不同的饮用水作为低渗灌流液刺激血管内皮细胞,获得对细胞的时频响应,分析与水结构有关的水团簇流入和流出的传输速率。该传感器能够区分五种饮用水中不同水团簇的传输动力学,细胞的水流入传输速率分别为5.1±0.40、6.6±0.96、7.4±0.46、8.1±0.86和8.4±0.80 Hz min−1(n=3),表明它们的排列顺序依次为:M-水、C-水、S-水、RO水、d-水。此外,使用HgCl2抑制剂阻断水通道,以揭示水通过水通道的传输。电导率和红外光谱分析进一步证实了由于矿物质或电磁场引起的水团簇的结构或大小,这些饮用水之间的传输动力学存在差异。因此,本工作为监测不同水团簇在细胞膜上的转运提供了一种新的、简单有效的方法。
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来源期刊
CiteScore
3.60
自引率
25.00%
发文量
17223
审稿时长
35 days
期刊介绍: Chinese Journal of Analytical Chemistry(CJAC) is an academic journal of analytical chemistry established in 1972 and sponsored by the Chinese Chemical Society and Changchun Institute of Applied Chemistry, Chinese Academy of Sciences. Its objectives are to report the original scientific research achievements and review the recent development of analytical chemistry in all areas. The journal sets up 5 columns including Research Papers, Research Notes, Experimental Technique and Instrument, Review and Progress and Summary Accounts. The journal published monthly in Chinese language. A detailed abstract, keywords and the titles of figures and tables are provided in English, except column of Summary Accounts. Prof. Wang Erkang, an outstanding analytical chemist, academician of Chinese Academy of Sciences & Third World Academy of Sciences, holds the post of the Editor-in-chief.
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