Direct fitting improves the accuracy of the horse radish peroxidase competition assay for peroxidase activity

Redox Biochemistry and Chemistry Pub Date : 2024-04-26 DOI:10.1016/j.rbc.2024.100025

Christopher J. Barry , Ché S. Pillay , Johann M. Rohwer

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Abstract

The peroxiredoxins are an important antioxidant protein family and their ability to neutralise oxidants is regularly investigated using horse radish peroxidase in a competition assay system. In this method, the rate constant of a peroxiredoxin is calculated from the fractional inhibition of horse radish peroxidase activity caused by competition with the peroxiredoxin for an oxidant substrate. We developed a model capable of simulating this assay and, using this model, demonstrate that the fractional inhibition calculation significantly and systematically mis-estimates the rate constant under fairly common conditions. We go on to develop a method for fitting simulated assay time-courses to experimental data directly, which significantly outperforms the fractional inhibition method yielding more accurate results. Based on our findings, we recommend using the direct fitting approach to determine peroxidase rate constants from horseradish peroxidase experiments.

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直接拟合提高了萝卜过氧化物酶竞争测定法测定过氧化物酶活性的准确性

过氧化还原酶是一个重要的抗氧化蛋白家族，人们经常使用竞争分析系统中的萝卜过氧化物酶来研究它们中和氧化剂的能力。在这种方法中，过氧化还原酶的速率常数是通过与过氧化还原酶竞争氧化剂底物而导致的萝卜过氧化物酶活性抑制分数计算出来的。我们开发了一个能够模拟这种检测方法的模型，并利用该模型证明，在相当常见的条件下，分数抑制率计算会明显地、系统地误估速率常数。我们进而开发了一种方法，可将模拟测定的时间历程与实验数据直接拟合，其效果明显优于分数抑制法，得出的结果也更准确。根据我们的研究结果，我们建议使用直接拟合法来确定辣根过氧化物酶实验中的过氧化物酶速率常数。

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Redox Biochemistry and Chemistry

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