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Rieske 双加氧酶过氧化物歧化酶中间体的 NRVS 研究及其与天然 Fe-O 反应的关系。

NRVS Studies of the Peroxide Shunt Intermediate in a Rieske Dioxygenase and Its Relation to the Native Fe O Reaction.

机构信息

Department of Chemistry , Stanford University , Stanford , California 94305 , United States.

Department of Biochemistry, Molecular Biology, & Biophysics , University of Minnesota , Minneapolis , Minnesota 55455 , United States.

出版信息

J Am Chem Soc. 2018 Apr 25;140(16):5544-5559. doi: 10.1021/jacs.8b01822. Epub 2018 Apr 11.

DOI:10.1021/jacs.8b01822
PMID:29618204
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5973823/
Abstract

The Rieske dioxygenases are a major subclass of mononuclear nonheme iron enzymes that play an important role in bioremediation. Recently, a high-spin Fe-(hydro)peroxy intermediate (BZDOp) has been trapped in the peroxide shunt reaction of benzoate 1,2-dioxygenase. Defining the structure of this intermediate is essential to understanding the reactivity of these enzymes. Nuclear resonance vibrational spectroscopy (NRVS) is a recently developed synchrotron technique that is ideal for obtaining vibrational, and thus structural, information on Fe sites, as it gives complete information on all vibrational normal modes containing Fe displacement. In this study, we present NRVS data on BZDOp and assign its structure using these data coupled to experimentally calibrated density functional theory calculations. From this NRVS structure, we define the mechanism for the peroxide shunt reaction. The relevance of the peroxide shunt to the native Fe/O reaction is evaluated. For the native Fe/O reaction, an Fe-superoxo intermediate is found to react directly with substrate. This process, while uphill thermodynamically, is found to be driven by the highly favorable thermodynamics of proton-coupled electron transfer with an electron provided by the Rieske [2Fe-2S] center at a later step in the reaction. These results offer important insight into the relative reactivities of Fe-superoxo and Fe-hydroperoxo species in nonheme Fe biochemistry.

摘要

Rieske 双加氧酶是一类重要的单核非血红素铁酶,在生物修复中起着重要作用。最近,一种高自旋 Fe-(水)过氧中间物(BZDOp)已在苯甲酸盐 1,2-双加氧酶的过氧化物分流反应中被捕获。确定这种中间物的结构对于理解这些酶的反应性至关重要。核共振振动光谱学(NRVS)是一种最近开发的同步加速器技术,非常适合获取 Fe 位点的振动(因此是结构)信息,因为它提供了包含 Fe 位移的所有振动正则模态的完整信息。在这项研究中,我们提出了 BZDOp 的 NRVS 数据,并使用这些数据结合经过实验校准的密度泛函理论计算来确定其结构。根据这个 NRVS 结构,我们定义了过氧化物分流反应的机制。评估了过氧化物分流对天然 Fe/O 反应的相关性。对于天然的 Fe/O 反应,发现 Fe-超氧中间物直接与底物反应。尽管热力学上是上坡,但通过在反应的稍后步骤中由 Rieske [2Fe-2S] 中心提供电子的质子偶联电子转移的高度有利热力学,发现这个过程是可以驱动的。这些结果为非血红素 Fe 生物化学中 Fe-超氧和 Fe-过氧物种的相对反应性提供了重要的见解。

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