通过热敏电阻中具有催化活性的分子印迹聚合物（MIP）和固定化酪氨酸酶进行顺序转化

Sequential conversion by catalytically active MIP and immobilized tyrosinase in a thermistor.

作者信息

Lettau K, Katterle M, Warsinke A, Scheller F W

机构信息

University of Potsdam, Analytical Biochemistry, Karl-Liebknecht-Str 24-25, Potsdam-Golm, Germany.

出版信息

Biosens Bioelectron. 2008 Feb 28;23(7):1216-9. doi: 10.1016/j.bios.2007.10.021. Epub 2007 Nov 4.

DOI:10.1016/j.bios.2007.10.021

PMID:18077148

Abstract

To amplify the heat-signal generated by MIP catalyzed solvolysis of phenylacetate the reaction has been combined for the first time in a reactor with the subsequent oxidation by immobilized tyrosinase. The polymer cleaves the substrate and the released phenol is afterwards converted to o-benzoquinone by the tyrosinase. The separated and sequentially coupled reactions are characterized by the heat generated in a thermistor. The sequential substrate conversion results in a combined heat generation which results a five times higher signal than compared to the polymer alone.

摘要

为了放大由MIP催化苯乙酸溶剂解产生的热信号，该反应首次在一个反应器中与随后通过固定化酪氨酸酶进行的氧化反应相结合。聚合物裂解底物，释放出的苯酚随后被酪氨酸酶转化为邻苯醌。分离且顺序耦合的反应通过热敏电阻中产生的热量来表征。底物的顺序转化导致产生组合热信号，该信号比单独的聚合物产生的信号高五倍。

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通过热敏电阻中具有催化活性的分子印迹聚合物（MIP）和固定化酪氨酸酶进行顺序转化

Sequential conversion by catalytically active MIP and immobilized tyrosinase in a thermistor.

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