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吗啡酮还原酶的诱变诱导了多种反应构型,并揭示了酶隧穿机制动力学分析中潜在的模糊性。

Mutagenesis of morphinone reductase induces multiple reactive configurations and identifies potential ambiguity in kinetic analysis of enzyme tunneling mechanisms.

作者信息

Pudney Christopher R, Hay Sam, Pang Jiayun, Costello Claire, Leys David, Sutcliffe Michael J, Scrutton Nigel S

机构信息

Manchester Interdisciplinary Biocentre, Faculty of Life Sciences, University of Manchester, 131 Princess Street, Manchester, M1 7DN, U.K.

出版信息

J Am Chem Soc. 2007 Nov 14;129(45):13949-56. doi: 10.1021/ja074463h. Epub 2007 Oct 16.

Abstract

We have identified multiple reactive configurations (MRCs) of an enzyme-coenzyme complex that have measurably different kinetic properties. In the complex formed between morphinone reductase (MR) and the NADH analogue 1,4,5,6-tetrahydro-NADH (NADH4) the nicotinamide moiety is restrained close to the FMN isoalloxazine ring by hydrogen bonds from Asn-189 and His-186 as determined from the X-ray crystal structure. Molecular dynamic simulations indicate that removal of one of these hydrogen bonds in the N189A MR mutant allows the nicotinamide moiety to occupy a region of configurational space not accessible in wild-type enzyme. Using stopped-flow spectroscopy, we show that reduction of the FMN cofactor by NADH in N189A MR is multiphasic, identifying at least four different reactive configurations of the MR-NADH complex. This contrasts with wild-type MR in which hydride transfer occurs by environmentally coupled tunneling in a single kinetic phase [Pudney et al. J. Am. Chem. Soc. 2006, 128, 14053-14058]. Values for primary and alpha-secondary kinetic isotope effects, and their temperature dependence, for three of the kinetic phases in the N189A MR are consistent with hydride transfer by tunneling. Our analysis enables derivation of mechanistic information concerning different reactive configurations of the same enzyme-coenzyme complex using ensemble stopped-flow methods. Implications for the interpretation from kinetic data of tunneling mechanisms in enzymes are discussed.

摘要

我们已经确定了一种酶 - 辅酶复合物的多种反应性构型(MRCs),它们具有可测量的不同动力学性质。在吗啡酮还原酶(MR)与NADH类似物1,4,5,6 - 四氢 - NADH(NADH4)形成的复合物中,根据X射线晶体结构确定,烟酰胺部分通过来自Asn - 189和His - 186的氢键被限制在接近FMN异咯嗪环的位置。分子动力学模拟表明,在N189A MR突变体中去除这些氢键之一会使烟酰胺部分占据野生型酶中无法进入的构型空间区域。使用停流光谱法,我们表明N189A MR中NADH对FMN辅因子的还原是多相的,确定了MR - NADH复合物至少四种不同的反应性构型。这与野生型MR形成对比,在野生型MR中,氢化物转移通过环境耦合隧穿在单一动力学阶段发生[Pudney等人,《美国化学会志》2006年,128卷,14053 - 14058页]。N189A MR中三个动力学阶段的一级和α - 二级动力学同位素效应值及其温度依赖性与隧穿导致的氢化物转移一致。我们的分析能够使用整体停流方法推导关于同一酶 - 辅酶复合物不同反应性构型相关的机理信息。讨论了对从酶中隧穿机制的动力学数据进行解释的意义。

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