邻苯二甲酸双加氧酶中外源配体和底物与非血红素亚铁活性位点结合的磁圆二色性研究。

Magnetic circular dichroism studies of exogenous ligand and substrate binding to the non-heme ferrous active site in phthalate dioxygenase.

作者信息

Pavel E G, Martins L J, Ellis W R, Solomon E I

机构信息

Department of Chemistry, Stanford University, CA 94305, USA.

出版信息

Chem Biol. 1994 Nov;1(3):173-83. doi: 10.1016/1074-5521(94)90007-8.

DOI:10.1016/1074-5521(94)90007-8

PMID:9383387

Abstract

BACKGROUND

Mononuclear non-heme iron centers are found in the active sites of a variety of enzymes that require molecular oxygen for catalysis. The mononuclear non-heme iron is believed to be the active site for catalysis, and is presumed to bind and activate molecular oxygen. The mechanism of this reaction is not understood. Phthalate dioxygenase is one such enzyme. Because it also contains a second iron site, the Rieske site, it is difficult to obtain information on the structure of the active site. We therefore used magnetic circular dichroism (MCD) spectroscopy to probe the mononuclear, non-heme Fe2+ site in this biodegradative enzyme.

RESULTS

The MCD spectrum of the resting enzyme shows features indicative of one six-coordinate Fe2+ site; substrate binding converts the site to two different five-coordinate species, opening up a coordination position for O2 binding. MCD spectra of the corresponding apoenzyme have been subtracted to account for temperature-independent contributions from the Rieske site. Azide binds both to the resting enzyme to produce a new six-coordinate species, showing that one of the ferrous ligands is exchangeable, and also to the enzyme-substrate complex to form a ternary species. The low azide binding constant for the substrate-enzyme species relative to the resting enzyme indicates steric interaction and close proximity between exogenous ligand and the substrate.

CONCLUSIONS

We have been able to provide some detailed structural insight into exogenous ligand and substrate binding to the non-heme Fe2+ site, even in the presence of the enzyme's [2Fe-2S] Rieske center. Further mechanistic studies are now required to maximize the molecular-level detail available from these spectroscopic studies.

摘要

背景

单核非血红素铁中心存在于多种需要分子氧进行催化的酶的活性位点中。单核非血红素铁被认为是催化活性位点，并推测其能结合并激活分子氧。该反应的机制尚不清楚。邻苯二甲酸双加氧酶就是这样一种酶。由于它还含有第二个铁位点，即 Rieske 位点，因此很难获得有关活性位点结构的信息。因此，我们使用磁圆二色性（MCD）光谱来探测这种生物降解酶中的单核非血红素 Fe2+ 位点。

结果

静息酶的 MCD 光谱显示出表明存在一个六配位 Fe2+ 位点的特征；底物结合将该位点转化为两种不同的五配位物种，为 O2 结合打开了一个配位位置。已减去相应脱辅基酶的 MCD 光谱，以考虑 Rieske 位点与温度无关的贡献。叠氮化物既与静息酶结合产生一种新的六配位物种，表明亚铁配体之一是可交换的，也与酶 - 底物复合物结合形成三元物种。相对于静息酶，底物 - 酶物种的低叠氮化物结合常数表明外源配体与底物之间存在空间相互作用且距离很近。

结论

即使在存在酶的 [2Fe - 2S] Rieske 中心的情况下，我们也能够提供一些关于外源配体和底物与非血红素 Fe2+ 位点结合的详细结构见解。现在需要进一步的机理研究，以最大限度地从这些光谱研究中获取分子水平的详细信息。

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邻苯二甲酸双加氧酶中外源配体和底物与非血红素亚铁活性位点结合的磁圆二色性研究。

Magnetic circular dichroism studies of exogenous ligand and substrate binding to the non-heme ferrous active site in phthalate dioxygenase.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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