Bioelectrochemical biosensor for water toxicity detection: generation of dual signals for electrochemical assay confirmation

Toxicity assessment of water is of great important to the safety of human health and to social security because of more and more toxic compounds that are spilled into the aquatic environment. Therefore, the development of fast and reliable toxicity assessment methods is of great interest and attract...

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Veröffentlicht in:	Analytical and bioanalytical chemistry 2018-02, Vol.410 (4), p.1231-1236
Hauptverfasser:	Yang, Yuan, Wang, Yan-Zhai, Fang, Zhen, Yu, Yang-Yang, Yong, Yang-Chun
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical Chemistry Aquatic environment Biochemistry Biosensing Techniques Biosensors Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Chlorophenols - analysis Electrochemical analysis Electrochemical Techniques - instrumentation Electrochemistry Environmental monitoring Evaluation Food Science Laboratory Medicine Measurement Methods Microbial Biosensors for Analytical Applications Monitoring/Environmental Analysis Quality assessment Quality control Research Paper Shewanella - metabolism Social security Toxicity Water Pollutants, Chemical - toxicity Water pollution Water quality Water quality assessments
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container_title	Analytical and bioanalytical chemistry
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creator	Yang, Yuan Wang, Yan-Zhai Fang, Zhen Yu, Yang-Yang Yong, Yang-Chun
description	Toxicity assessment of water is of great important to the safety of human health and to social security because of more and more toxic compounds that are spilled into the aquatic environment. Therefore, the development of fast and reliable toxicity assessment methods is of great interest and attracts much attention. In this study, by using the electrochemical activity of Shewanella oneidensis MR-1 cells as the toxicity indicator, 3,5-dichlorophenol (DCP) as the model toxic compound, a new biosensor for water toxicity assessment was developed. Strikingly, the presence of DCP in the water significantly inhibited the maximum current output of the S. oneidensis MR-1 in a three-electrode system and also retarded the current evolution by the cells. Under the optimized conditions, the maximum current output of the biosensor was proportional to the concentration of DCP up to 30 mg/L. The half maximal inhibitory concentration of DCP determined by this biosensor is about 14.5 mg/L. Furthermore, simultaneous monitoring of the retarded time (Δ t ) for current generation allowed the identification of another biosensor signal in response to DCP which could be employed to verify the electrochemical result by dual confirmation. Thus, the present study has provided a reliable and promising approach for water quality assessment and risk warning of water toxicity.
doi_str_mv	10.1007/s00216-017-0656-4
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Furthermore, simultaneous monitoring of the retarded time (Δ t ) for current generation allowed the identification of another biosensor signal in response to DCP which could be employed to verify the electrochemical result by dual confirmation. 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Furthermore, simultaneous monitoring of the retarded time (Δ t ) for current generation allowed the identification of another biosensor signal in response to DCP which could be employed to verify the electrochemical result by dual confirmation. Thus, the present study has provided a reliable and promising approach for water quality assessment and risk warning of water toxicity.</description><subject>Analytical Chemistry</subject><subject>Aquatic environment</subject><subject>Biochemistry</subject><subject>Biosensing Techniques</subject><subject>Biosensors</subject><subject>Characterization and Evaluation of Materials</subject><subject>Chemistry</subject><subject>Chemistry and Materials Science</subject><subject>Chlorophenols - analysis</subject><subject>Electrochemical analysis</subject><subject>Electrochemical Techniques - instrumentation</subject><subject>Electrochemistry</subject><subject>Environmental monitoring</subject><subject>Evaluation</subject><subject>Food Science</subject><subject>Laboratory Medicine</subject><subject>Measurement</subject><subject>Methods</subject><subject>Microbial Biosensors for Analytical Applications</subject><subject>Monitoring/Environmental Analysis</subject><subject>Quality 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Yang-Chun</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Bioelectrochemical biosensor for water toxicity detection: generation of dual signals for electrochemical assay confirmation</atitle><jtitle>Analytical and bioanalytical chemistry</jtitle><stitle>Anal Bioanal Chem</stitle><addtitle>Anal Bioanal Chem</addtitle><date>2018-02-01</date><risdate>2018</risdate><volume>410</volume><issue>4</issue><spage>1231</spage><epage>1236</epage><pages>1231-1236</pages><issn>1618-2642</issn><eissn>1618-2650</eissn><abstract>Toxicity assessment of water is of great important to the safety of human health and to social security because of more and more toxic compounds that are spilled into the aquatic environment. Therefore, the development of fast and reliable toxicity assessment methods is of great interest and attracts much attention. In this study, by using the electrochemical activity of Shewanella oneidensis MR-1 cells as the toxicity indicator, 3,5-dichlorophenol (DCP) as the model toxic compound, a new biosensor for water toxicity assessment was developed. Strikingly, the presence of DCP in the water significantly inhibited the maximum current output of the S. oneidensis MR-1 in a three-electrode system and also retarded the current evolution by the cells. Under the optimized conditions, the maximum current output of the biosensor was proportional to the concentration of DCP up to 30 mg/L. The half maximal inhibitory concentration of DCP determined by this biosensor is about 14.5 mg/L. Furthermore, simultaneous monitoring of the retarded time (Δ t ) for current generation allowed the identification of another biosensor signal in response to DCP which could be employed to verify the electrochemical result by dual confirmation. Thus, the present study has provided a reliable and promising approach for water quality assessment and risk warning of water toxicity.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>28965160</pmid><doi>10.1007/s00216-017-0656-4</doi><tpages>6</tpages></addata></record>
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subjects	Analytical Chemistry Aquatic environment Biochemistry Biosensing Techniques Biosensors Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Chlorophenols - analysis Electrochemical analysis Electrochemical Techniques - instrumentation Electrochemistry Environmental monitoring Evaluation Food Science Laboratory Medicine Measurement Methods Microbial Biosensors for Analytical Applications Monitoring/Environmental Analysis Quality assessment Quality control Research Paper Shewanella - metabolism Social security Toxicity Water Pollutants, Chemical - toxicity Water pollution Water quality Water quality assessments
title	Bioelectrochemical biosensor for water toxicity detection: generation of dual signals for electrochemical assay confirmation
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