使用板读数仪测定法实时监测酪氨酸羟化酶活性。
Real-time monitoring of tyrosine hydroxylase activity using a plate reader assay.
机构信息
Division of Medicinal and Natural Products Chemistry, College of Pharmacy, University of Iowa, Iowa City, IA 52242, USA.
出版信息
Anal Biochem. 2013 Jan 1;432(1):11-5. doi: 10.1016/j.ab.2012.09.005. Epub 2012 Sep 23.
Abstract
Tyrosine hydroxylase (TH) is the rate-limiting step in dopamine (DA) synthesis, oxidizing tyrosine to l-DOPA, which is further metabolized to DA. Current assays for monitoring activity of this enzyme require extensive work-up, require long analysis time, and measure end points, thereby lacking real-time kinetics. This work presents the development of the first real-time colorimetric assay for determining the activity of TH using a plate reader. The production of l-DOPA is followed using sodium periodate to oxidize l-DOPA to the chromophore dopachrome, which can be monitored at 475 nm. Advantages to this method include decreased sample analysis time, shorter assay work-up, and the ability to run a large number of samples at one time. Furthermore, the assay was adapted for high-throughput screening and demonstrated an excellent Z-factor (> 0.8), indicating suitability of this assay for high-throughput analysis. Overall, this novel assay reduces analysis time, increases sample number, and allows for the study of activity using real-time kinetics.
摘要
酪氨酸羟化酶(TH)是多巴胺(DA)合成的限速步骤,将酪氨酸氧化为 l-DOPA,进一步代谢为 DA。目前监测这种酶活性的测定方法需要大量的准备工作,需要很长的分析时间,并测量终点,因此缺乏实时动力学。本工作开发了第一个使用平板读数器测定 TH 活性的实时比色测定法。通过使用高碘酸钠将 l-DOPA 氧化为显色原儿茶酚来跟踪 l-DOPA 的产生,该过程可以在 475nm 处监测到。该方法的优点包括减少了样品分析时间、缩短了测定工作流程以及一次能够运行大量样品的能力。此外,该测定法适用于高通量筛选,并表现出出色的 Z 因子(>0.8),表明该测定法适用于高通量分析。总体而言,这种新型测定法缩短了分析时间,增加了样品数量,并允许使用实时动力学研究活性。
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