A simple and sensitive fluorescent sensor for methyl parathion based on L-tyrosine methyl ester functionalized carbon dots

In this paper, a simple and sensitive fluorescent sensor for methyl parathion is developed based on L-tyrosine methyl ester functionalized carbon dots (Tyr-CDs) and tyrosinase system. The carbon dots are obtained by simple hydrothermal reaction using citric acid as carbon resource and L-tyrosine met...

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Veröffentlicht in:	Biosensors & bioelectronics 2015-06, Vol.68, p.20-26
Hauptverfasser:	Hou, Juying, Dong, Jing, Zhu, Haishuang, Teng, Xue, Ai, Shiyun, Mang, Minglin
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Sprache:	eng
Schlagworte:	Biosensing Techniques Brassica Carbon Carbon - chemistry Citric Acid - chemistry Esters Fluorescence Methyl parathion Methyl Parathion - chemistry Methyl Parathion - isolation & purification Monophenol Monooxygenase - chemistry Nanoparticles Quantum Dots - chemistry Sensors Tyrosinase Tyrosine - analogs & derivatives Tyrosine - chemistry X-Ray Diffraction X-rays
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creator	Hou, Juying Dong, Jing Zhu, Haishuang Teng, Xue Ai, Shiyun Mang, Minglin
description	In this paper, a simple and sensitive fluorescent sensor for methyl parathion is developed based on L-tyrosine methyl ester functionalized carbon dots (Tyr-CDs) and tyrosinase system. The carbon dots are obtained by simple hydrothermal reaction using citric acid as carbon resource and L-tyrosine methyl ester as modification reagent. The carbon dots are characterized by transmission electron microscope, high resolution transmission electron microscopy, X-ray diffraction spectrum, Fourier transform infrared spectroscopy, and X-ray photoelectron spectroscopy. The carbon dots show strong and stable photoluminescence with a quantum yield of 3.8%. Tyrosinase can catalyze the oxidation of tyrosine methyl ester on the surface of carbon dots to corresponding quinone products, which can quench the fluorescence of carbon dots. When organophosphorus pesticides (OPs) are introduced in system, they can decrease the enzyme activity, thus decrease the fluorescence quenching rate. Methyl parathion, as a model of OPs, was detected. Experimental results show that the enzyme inhibition rate is proportional to the logarithm of the methyl parathion concentration in the range 1.0×10(-10)-1.0×10(-4) M with the detection limit (S/N=3) of 4.8×10(-11) M. This determination method shows a low detection limit, wide linear range, good selectivity and high reproducibility. This sensing system has been successfully used for the analysis of cabbage, milk and fruit juice samples.
doi_str_mv	10.1016/j.bios.2014.12.037
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The carbon dots are obtained by simple hydrothermal reaction using citric acid as carbon resource and L-tyrosine methyl ester as modification reagent. The carbon dots are characterized by transmission electron microscope, high resolution transmission electron microscopy, X-ray diffraction spectrum, Fourier transform infrared spectroscopy, and X-ray photoelectron spectroscopy. The carbon dots show strong and stable photoluminescence with a quantum yield of 3.8%. Tyrosinase can catalyze the oxidation of tyrosine methyl ester on the surface of carbon dots to corresponding quinone products, which can quench the fluorescence of carbon dots. When organophosphorus pesticides (OPs) are introduced in system, they can decrease the enzyme activity, thus decrease the fluorescence quenching rate. Methyl parathion, as a model of OPs, was detected. Experimental results show that the enzyme inhibition rate is proportional to the logarithm of the methyl parathion concentration in the range 1.0×10(-10)-1.0×10(-4) M with the detection limit (S/N=3) of 4.8×10(-11) M. This determination method shows a low detection limit, wide linear range, good selectivity and high reproducibility. 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Experimental results show that the enzyme inhibition rate is proportional to the logarithm of the methyl parathion concentration in the range 1.0×10(-10)-1.0×10(-4) M with the detection limit (S/N=3) of 4.8×10(-11) M. This determination method shows a low detection limit, wide linear range, good selectivity and high reproducibility. 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Experimental results show that the enzyme inhibition rate is proportional to the logarithm of the methyl parathion concentration in the range 1.0×10(-10)-1.0×10(-4) M with the detection limit (S/N=3) of 4.8×10(-11) M. This determination method shows a low detection limit, wide linear range, good selectivity and high reproducibility. This sensing system has been successfully used for the analysis of cabbage, milk and fruit juice samples.</abstract><cop>England</cop><pmid>25558870</pmid><doi>10.1016/j.bios.2014.12.037</doi><tpages>7</tpages></addata></record>
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subjects	Biosensing Techniques Brassica Carbon Carbon - chemistry Citric Acid - chemistry Esters Fluorescence Methyl parathion Methyl Parathion - chemistry Methyl Parathion - isolation & purification Monophenol Monooxygenase - chemistry Nanoparticles Quantum Dots - chemistry Sensors Tyrosinase Tyrosine - analogs & derivatives Tyrosine - chemistry X-Ray Diffraction X-rays
title	A simple and sensitive fluorescent sensor for methyl parathion based on L-tyrosine methyl ester functionalized carbon dots
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