Evaluation of a simplified generic bi-substrate rate equation for computational systems biology.

J M Rohwer, A J Hanekom, C Crous, J L Snoep, J H S Hofmeyr
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引用次数: 35

Abstract

The evaluation of a generic simplified bi-substrate enzyme kinetic equation, whose derivation is based on the assumption of equilibrium binding of substrates and products in random order, is described. This equation is much simpler than the mechanistic (ordered and ping-pong) models, in that it contains fewer parameters (that is, no K(i) values for the substrates and products). The generic equation fits data from both the ordered and the ping-pong models well over a wide range of substrate and product concentrations. In the cases where the fit is not perfect, an improved fit can be obtained by considering the rate equation for only a single set of product concentrations. Due to its relative simplicity in comparison to the mechanistic models, this equation will be useful for modelling bi-substrate reactions in computational systems biology.

计算系统生物学中简化的双底物速率方程的评价。
描述了一个通用的简化双底物酶动力学方程的评价,该方程的推导基于底物和产物以随机顺序平衡结合的假设。这个方程比机械模型(有序模型和乒乓模型)简单得多,因为它包含的参数更少(也就是说,底物和产物没有K(i)值)。一般方程适用于有序模型和乒乓模型的数据,适用于底物和产物浓度的广泛范围。在拟合不完美的情况下,可以通过仅考虑一组产品浓度的速率方程来获得改进的拟合。由于其相对简单的机制模型相比,这个方程将是有用的模拟双底物反应在计算系统生物学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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