[铁铁]氢化酶的金属辅因子组装

Metallocofactor assembly for [FeFe]-hydrogenases.

作者信息

Dinis Pedro, Wieckowski Beata M, Roach Peter L

机构信息

Chemistry and the Institute for Life Sciences, University of Southampton, Highfield Campus, Southampton SO17 1BJ, UK.

出版信息

Curr Opin Struct Biol. 2016 Dec;41:90-97. doi: 10.1016/j.sbi.2016.06.004. Epub 2016 Jun 23.

DOI:10.1016/j.sbi.2016.06.004

PMID:27344601

Abstract

Hydrogenases are a potential source of environmentally benign bioenergy, using complex cofactors to catalyze the reversible reduction of protons to form hydrogen. The most active subclass, the [FeFe]-hydrogenases, is dependent on a metallocofactor, the H cluster, that consists of a two iron subcluster ([2Fe]) bridging to a classical cubane cluster ([4Fe-4S]). The ligands coordinating to the diiron subcluster include an azadithiolate, three carbon monoxides, and two cyanides. To assemble this complex cofactor, three maturase enzymes, HydG, HydE and HydF are required. The biosynthesis of the diatomic ligands proceeds by an unusual fragmentation mechanism, and structural studies in combination with spectroscopic analysis have started to provide insights into the HydG mediated assembly of a [2Fe] subcluster precursor.

摘要

氢化酶是一种潜在的环境友好型生物能源来源，它利用复杂的辅因子催化质子的可逆还原以形成氢气。活性最高的亚类，即[FeFe] -氢化酶，依赖于一种金属辅因子，即H簇，它由一个双铁亚簇（[2Fe]）与一个经典的立方烷簇（[4Fe - 4S]）桥连而成。与双铁亚簇配位的配体包括一个氮杂二硫醇盐、三个一氧化碳和两个氰化物。为了组装这种复杂的辅因子，需要三种成熟酶，即HydG、HydE和HydF。双原子配体的生物合成通过一种不寻常的断裂机制进行，结合光谱分析的结构研究已开始为HydG介导的[2Fe]亚簇前体的组装提供见解。

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[铁铁]氢化酶的金属辅因子组装

Metallocofactor assembly for [FeFe]-hydrogenases.

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