建立了一种多变量标定分光光度法测定醛氧化酶动力学常数的新方法

Mohammad-Hossein Sorouraddin , Ebrahim Fooladi , Abdolhossein Naseri , Mohammad-Reza Rashidi
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引用次数: 23

摘要

虽然菲咯啶经常被用作评估醛氧化酶活性的特定底物,但由于检测下限和动力学研究的有效性,这种方法的使用是值得怀疑的。本研究建立了一种基于偏最小二乘(PLS)的多变量校准方法,用于以菲咯啶为底物测定醛氧化酶活性。在0.1 ~ 30.0 μM的动态线性范围内制备了菲咯啉和菲咯啉二元混合物,在含EDTA (0.1 mM)的Sorenson磷酸缓冲液(pH 7.0)中,在210 ~ 280 nm范围内记录了溶液的吸收光谱。利用优化后的PLS校准模型计算预测集中各化学物质的浓度。部分纯化肝大鼠醛氧化酶,用PLS法计算不同浓度菲咯啶的初始氧化速率。这些值被用于从Lineweaver-Burk初速度对底物浓度的双倒数图中计算Michaelis-Menten常数。菲咯啶和菲咯啶酮的检出限分别为0.04±0.01 μM和0.03±0.01 μM (mean±SD, n = 5)。利用该方法计算出菲百啶氧化的Km值为1.72±0.09 μM (mean±SD, n = 3)。因此,本研究描述了一种新的分光光度法,为测量醛氧化酶氧化菲百啶的动力学提供了一种合适、灵敏且易于应用的方法,而无需昂贵的仪器。
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A novel spectrophotometric method for determination of kinetic constants of aldehyde oxidase using multivariate calibration method

Although phenanthridine has been frequently used as a specific substrate for the assessment of aldehyde oxidase activity, the use of this method is questionable due to a lower limit of detection and its validity for kinetic studies. In the present study, a novel sensitive multivariate calibration method based on partial least squares (PLS) has been developed for the measurement of aldehyde oxidase activity using phenanthridine as a substrate. Phenanthridine and phenanthridinone binary mixtures were prepared in a dynamic linear range of 0.1–30.0 μM and the absorption spectra of the solutions were recorded in the range of 210–280 nm in Sorenson's phosphate buffer (pH 7.0) containing EDTA (0.1 mM). The optimized PLS calibration model was used to calculate the concentration of each chemical in the prediction set. Hepatic rat aldehyde oxidase was partially purified and the initial oxidation rates of different concentrations of phenanthridine were calculated using the PLS method. The values were used for calculating Michaelis–Menten constants from a Lineweaver–Burk double reciprocal plot of initial velocity against the substrate concentration. The limits of detection for phenanthridine and phenanthridinone were found to be 0.04 ± 0.01 and 0.03 ± 0.01 μM (mean ± SD, n = 5), respectively. Using this method, the Km value for the oxidation of phenanthridine was calculated as 1.72 ± 0.09 μM (mean ± SD, n = 3). Thus, this study describes a novel spectrophotometric method that provides a suitable, sensitive and easily applicable means of measuring the kinetics of phenanthridine oxidation by aldehyde oxidase without the need for expensive instrumentation.

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