Inhibition of Jack Bean Urease by N-(n-butyl)thiophosphorictriamide and N-(n-butyl)phosphorictriamide: Determination of the Inhibition Mechanism

Journal of enzyme inhibition Pub Date : 2001-01-01 DOI:10.1080/14756360127569

M. Kot, W. Zaborska, Kinga Orlinska

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引用次数: 26

Abstract

N-(n-butyl)thiophosphorictriamide (NBPT) and its oxygen analogue N-(n-butyl)phosphorictriamide (NBPTO) were studied as inhibitors of jack bean urease. NBPTO was obtained by spontaneous conversion of NBPT into NBPTO. The conversion under laboratory conditions was slow and did not affect NBPT studies. The mechanisms of NBPT and NBPTO inhibition were determined by analysis of the reaction progress curves in the presence of different inhibitor concentrations. The obtained plots were time-dependent and characteristic of slow-binding inhibition. The effects of different concentration of NBPT and NBPTO on the initial and steady-state velocities as well as the apparent first-order velocity constants obeyed the relationships for a one-step enzyme-inhibitor interaction, qualified as mechanism A. The inhibition constants of urease by NBPT and NBPTO were found to be 0.15 μM and 2.1 nM, respectively. The inhibition constant for NBPT was also calculated by steady-state analysis and was found to be 0.13 μM. NBPTO was found to be a very strong inhibitor of urease in contrast to NBPT.

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N-(正丁基)硫代磷三酰胺和N-(正丁基)磷三酰胺对豆角脲酶的抑制作用:抑制机制的测定

研究了N-(正丁基)硫代磷三酰胺(NBPT)及其氧类似物N-(正丁基)磷三酰胺(NBPTO)作为豆角脲酶抑制剂的作用。NBPT自发转化为NBPTO，得到NBPTO。实验室条件下的转化是缓慢的，不影响NBPT的研究。通过分析不同抑制剂浓度下NBPT和NBPTO的反应过程曲线，确定了NBPT和NBPTO的抑制机制。获得的图具有时间依赖性和慢结合抑制特征。不同浓度NBPT和NBPTO对脲酶初始速度和稳态速度以及表观一阶速度常数的影响符合酶-抑制剂一步相互作用的关系，可作为机制a。NBPT和NBPTO对脲酶的抑制常数分别为0.15 μM和2.1 nM。通过稳态分析计算出NBPT的抑制常数为0.13 μM。与NBPT相比，NBPTO是一种非常强的脲酶抑制剂。

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Journal of enzyme inhibition

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