用光诱导产氢的方式将 [FeFe]-氢化酶与光合系统 I 连接起来。

Wiring an [FeFe]-hydrogenase with photosystem I for light-induced hydrogen production.

机构信息

Department of Chemistry, The Pennsylvania State University, University Park, PA 16802, USA.

出版信息

Biochemistry. 2010 Dec 7;49(48):10264-6. doi: 10.1021/bi1016167. Epub 2010 Nov 11.

Abstract

A molecular wire is used to connect two proteins through their physiologically relevant redox cofactors to facilitate direct electron transfer. Photosystem I (PS I) and an [FeFe]-hydrogenase (H(2)ase) serve as the test bed for this new technology. By tethering a photosensitizer with a hydrogen-evolving catalyst, attached by Fe-S coordination bonds between the F(B) iron-sulfur cluster of PS I and the distal iron-sulfur cluster of H(2)ase, we assayed electron transfer between the two components via light-induced hydrogen generation. These hydrogen-producing nanoconstructs self-assemble when the PS I variant, the H(2)ase variant, and the molecular wire are combined.

摘要

分子导线用于通过其生理相关的氧化还原辅助因子将两种蛋白质连接起来，以促进直接电子转移。光系统 I（PSI）和[FeFe]-氢化酶（H（2）ase）作为这项新技术的测试平台。通过将光敏剂与产氢催化剂连接，通过 PS I 的 F（B）铁-硫簇和 H（2）ase 的远端铁-硫簇之间的 Fe-S 配位键连接，我们通过光诱导的氢生成来测定两个组件之间的电子转移。当 PS I 变体、H（2）ase 变体和分子导线组合时，这些产氢纳米结构会自组装。

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用光诱导产氢的方式将 [FeFe]-氢化酶与光合系统 I 连接起来。

Wiring an [FeFe]-hydrogenase with photosystem I for light-induced hydrogen production.

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