论文信息 - Discrimination of pungent-tasting substances using surface-polarity controlled sensor with indirect in situ modification

Discrimination of pungent-tasting substances using surface-polarity controlled sensor with indirect in situ modification

Taste qualities were studied using a method for detecting the change in interactions between an electrode surface and taste substances in aqueous solution. The present method to detect chemicals was categorized into impedance spectroscopy in electrochemistry. Taste substances affect the electrochemical impedance by adsorption to the electrode surface. Dependences of the impedance on the electrode potential showed different patterns for five basic taste substances with different taste qualities. Furthermore, the response profiles obtained for capsaicin, piperine and allyl isothiocyanate, which are natural pungent-taste substances and have strong hydrophobic groups, were discriminated from those for bitter taste substances using a new method detecting the change of electrode impedance by addition of the mediators of chemical interactions to the taste substances. Hydrophobic substances, which were difficult to discriminate using the electrochemical method, could be discriminated by a proposed method; hence, it was possible to detect wide range of chemical substances from hydrophilic electrolytes to various hydrophobic non-electrolytes.

[1] P. Blumberg,et al. Vanilloid (Capsaicin) receptors and mechanisms. , 1999, Pharmacological reviews.

[2] D. Julius,et al. The capsaicin receptor: a heat-activated ion channel in the pain pathway , 1997, Nature.

[3] Kiyoshi Toko,et al. Biomimetic Sensor Technology , 2000 .

[4] K Toko,et al. Responses of lipid membranes of taste sensor to astringent and pungent substances. , 1994, Chemical senses.

[5] Kiyoshi Toko,et al. Chemical Sensor Using Polarity Controlled Fractal Surface , 2001 .

[6] P. Holzer. Capsaicin: cellular targets, mechanisms of action, and selectivity for thin sensory neurons. , 1991, Pharmacological reviews.

[7] K. Hayashi,et al. Analysis of tastes of amino acids using surface-polarity controlled sensors , 2001 .

[8] Linda M. Bartoshuk,et al. Taste mixtures: Is mixture suppression related to compression? , 1975, Physiology & Behavior.

[9] M. I. Florit,et al. Constant phase element behavior in the poly(o-toluidine) impedance response , 2001 .

[10] Surface acoustic wave sensor response and molecular modeling: selective binding of nitrobenzene derivatives to (aminopropyl)triethoxysilane , 1990 .

[11] J. Hart,et al. Sensing with chemically and biologically modified carbon electrodes. A review. , 1995, The Analyst.

[12] H. Moskowitz. Umami: A basic taste Y. Kamamura and M. R. Kare (Eds.). Pp. 649, New York, Marcel Dekker, Inc., 1986, $65.00 , 1987, Appetite.