Impact of the Error Structure on the Design and Analysis of Enzyme Kinetic Models.

Pub Date : 2023-01-01 Epub Date: 2022-06-09 DOI:10.1007/s12561-022-09347-5
Elham Yousefi, Werner G Müller
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Abstract

The statistical analysis of enzyme kinetic reactions usually involves models of the response functions which are well defined on the basis of Michaelis-Menten type equations. The error structure, however, is often without good reason assumed as additive Gaussian noise. This simple assumption may lead to undesired properties of the analysis, particularly when simulations are involved and consequently negative simulated reaction rates may occur. In this study, we investigate the effect of assuming multiplicative log normal errors instead. While there is typically little impact on the estimates, the experimental designs and their efficiencies are decisively affected, particularly when it comes to model discrimination problems.

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误差结构对设计和分析酶动力学模型的影响。
酶促反应的统计分析通常涉及反应函数模型,这些模型在 Michaelis-Menten 类型方程的基础上定义明确。然而,误差结构往往被无理假定为加性高斯噪声。这种简单的假设可能会导致分析结果出现不理想的性质,尤其是在涉及模拟的情况下,因此可能会出现负的模拟反应速率。在本研究中,我们研究了假设对数正态误差的影响。虽然对估计值的影响通常不大,但实验设计及其效率却会受到决定性的影响,尤其是在涉及模型判别问题时。
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