| 论文题目 | Assessment of the electrical penetration of cell membrane using four-frequency impedance cytometry |
| 论文题目(英文) | Assessment of the electrical penetration of cell membrane using four-frequency impedance cytometry |
| 作者 | Tao Tang;Xun Liu;Yapeng Yuan;Tianlong Zhang;Ryota Kiya;杨阳;Kengo Suzuki;Yo Tanaka;Ming Li;Yoichiroh Hosokawa;Yaxiaer Yalikun |
| 发表年度 | 2022-06 |
| 卷 | 8 |
| 期 | 68 |
| 页码 | |
| 期刊名称 | Microsystems & Nanoengineering |
| 摘要 | |
| 摘要_英文 |
The electrical penetration of the cell membrane is vital for determining the cell interior via impedance cytometry. Herein, we propose a method for determining the conductivity of the cell membrane through the tilting levels of impedance pulses. When electrical penetration occurs, a high-frequency current freely passes through the cell membrane; thus, the intracellular distribution can directly act on the high-frequency impedance pulses. Numerical simulation shows that an uneven intracellular component distribution can affect the tilting levels of impedance pulses, and the tilting levels start increasing when the cell membrane is electrically penetrated. Experimental evidence shows that higher detection frequencies (>7 MHz) lead to a wider distribution of the tilting levels of impedance pulses when measuring cell populations with four-frequency impedance cytometry. This finding allows us to determine that a detection frequency of 7 MHz is able to pass through the membrane of Euglena gracilis (E. gracilis) cells. Additionally, we provide a possible application of four-frequency impedance cytometry in the biomass monitoring of single E. gracilis cells. High-frequency impedance (≥7 MHz) can be applied to monitor these biomass changes, and low-frequency impedance (<7 MHz) can be applied to track the corresponding biovolume changes. Overall, this work demonstrates an easy determination method for the electrical penetration of the cell membrane, and the proposed platform is applicable for the multiparameter assessment of the cell state during cultivation.
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