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Volatile Organic Compound Specific Detection by Electrochemical Signals Using a Cell-Based Sensor  

Chung, Sang-Gwi (Department of Environmental Engineering, KonKuk University)
Kim, Jo-Chun (Department of Environmental Engineering, KonKuk University)
Park, Chong-Ho (Department of Chemical & Biomolecular Engineering, Sogang University)
Ahn, Woong-Shick (Department of Obstetrics and Gynecology, College of Medicine, The Catholic University of Korea)
Kim, Yong-Wan (Department of Neuro-oncology, The University of Texas M.D. Anderson Cancer Center)
Choi, Jeong-Woo (Department of Chemical & Biomolecular Engineering, Sogang University)
Publication Information
Journal of Microbiology and Biotechnology / v.18, no.1, 2008 , pp. 145-152 More about this Journal
Abstract
A cell-based in vitro exposure system was developed to determine whether oxidative stress plays a role in the cytotoxic effects of volatile organic compounds (VOCs) such as benzene, toluene, xylene, and chlorobenzene, using human epithelial HeLa cells. Thin films based on cysteine-terminated synthetic oligopeptides were fabricated for immobilization of the HeLa cells on a gold (Au) substrate. In addition, an immobilized cell-based sensor was applied to the electrochemical detection of the VOCs. Layer formation and immobilization of the cells were investigated with surface plasmon resonance (SPR), cyclic voltammetry (CV), and electrochemical impedance spectroscopy (EIS). The adhered living cells were exposed to VOCs; this caused a change in the SPR angle and the VOC-specific electrochemical signal. In addition, VOC toxicity was found to correlate with the degree of nitric oxide (NO) generation and EIS. The primary reason for the marked increase in impedance was the change of aqueous electrolyte composition as a result of cell responses. The p53 and NF-${\kappa}B $ downregulation were closely related to the magnitude of growth inhibition associated with increasing concentrations of each VOC. Therefore, the proposed cell immobilization method, using a self-assembly technique and VOC-specific electrochemical signals, can be applied to construct a cell microarray for onsite VOC monitoring.
Keywords
Cell-based sensor; VOCs; surface plasmon resonance; electrochemical impedance spectroscopy;
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