使用半合成 HydF 蛋白监测 H 簇组装。

Monitoring H-cluster assembly using a semi-synthetic HydF protein.

机构信息

Molecular Biomimetics, Department of Chemistry -Ångström Laboratory, Uppsala University, 75120 Uppsala, Sweden.

出版信息

Dalton Trans. 2019 May 7;48(18):5978-5986. doi: 10.1039/c8dt04294b.

DOI:10.1039/c8dt04294b

PMID:30632592

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6509880/

Abstract

The [FeFe] hydrogenase enzyme interconverts protons and molecular hydrogen with remarkable efficiency. The reaction is catalysed by a unique metallo-cofactor denoted as the H-cluster containing an organometallic dinuclear Fe component, the [2Fe] subsite. The HydF protein delivers a precursor of the [2Fe] subsite to the apo-[FeFe] hydrogenase, thus completing the H-cluster and activating the enzyme. Herein we generate a semi-synthetic form of HydF by loading it with a synthetic low valent dinuclear Fe complex. We show that this semi-synthetic protein is practically indistinguishable from the native protein, and utilize this form of HydF to explore the mechanism of H-cluster assembly. More specifically, we show that transfer of the precatalyst from HydF to the hydrogenase enzyme results in the release of CO, underscoring that the pre-catalyst is a four CO species when bound to HydF. Moreover, we propose that an electron transfer reaction occurs during H-cluster assembly, resulting in an oxidation of the [2Fe] subsite with concomitant reduction of the [4Fe4S] cluster present on the HydF protein.

摘要

[FeFe]氢化酶能够高效地将质子和氢气相互转化。该反应由一种独特的金属辅因子催化，该辅因子被称为 H 簇，包含一个有机金属双核 Fe 组件，即 [2Fe]亚基。HydF 蛋白向脱辅基 [FeFe]氢化酶提供 [2Fe]亚基的前体，从而完成 H 簇的组装并激活酶。在此，我们通过加载合成的低氧化态双核 Fe 配合物来制备半合成形式的 HydF。我们表明，这种半合成蛋白与天然蛋白几乎没有区别，并利用这种形式的 HydF 来探索 H 簇组装的机制。更具体地说，我们表明，预催化剂从 HydF 转移到氢化酶酶会导致 CO 的释放，这强调了当预催化剂与 HydF 结合时，它是一个四 CO 物种。此外，我们提出在 H 簇组装过程中发生电子转移反应，导致 [2Fe]亚基被氧化，同时 HydF 蛋白上的 [4Fe4S]簇被还原。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4823/6509880/319bd0899167/c8dt04294b-f1.jpg

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使用半合成 HydF 蛋白监测 H 簇组装。

Monitoring H-cluster assembly using a semi-synthetic HydF protein.

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