含镍(II)的维生素 B 衍生物与辅因子 F430 型π-系统。

A Nickel(II)-Containing Vitamin B Derivative with a Cofactor-F430-type π-System.

机构信息

Department of Chemistry, University of Zurich, Winterthurerstrasse 190, 8057, Zurich, Switzerland.

出版信息

Angew Chem Int Ed Engl. 2018 Dec 10;57(50):16308-16312. doi: 10.1002/anie.201810983. Epub 2018 Nov 15.

DOI:10.1002/anie.201810983

Abstract

F430 is a unique enzymatic cofactor in the production and oxidation of methane by strictly anaerobic bacteria. The key enzyme methyl coenzyme M reductase (MCR) contains a hydroporphinoid nickel complex with a characteristic absorption maximum at around 430 nm in its active site. Herein, the three-step semisynthesis of a hybrid Ni -containing corrinoid that partly resembles F430 in its structural and spectroscopic features from vitamin B is presented. A key step of the route is the simultaneous demetalation and ring closure reaction of a 5,6-secocobalamin to metal-free 5,6-dihydroxy-5,6-dihydrohydrogenobalamin with cobaltocene and KCN under reductive conditions. Studies on the coordination chemistry of the novel compound support an earlier hypothesis why nature carefully selected a corphin over a corrin ligand in F430 for challenging nickel-catalyzed biochemical reactions.

摘要

F430 是一种独特的酶辅酶，在严格厌氧菌中参与甲烷的生成和氧化。关键酶甲基辅酶 M 还原酶（MCR）在其活性位点中含有一个 hydroporphinoid 镍络合物，其特征吸收最大值在 430nm 左右。本文报道了一种混合镍卟啉的三步半合成方法，该方法部分类似于 F430 的结构和光谱特征，从维生素 B 开始。该路线的关键步骤是在还原条件下，用二茂钴和 KCN 同时对 5,6-次氮杂钴胺素进行脱金属和环合反应，生成无金属的 5,6-二羟基-5,6-二氢氢化钴胺素。对新型化合物配位化学的研究支持了早期的假设，即为什么自然界在 F430 中选择了 corphin 而不是 corrin 配体来进行具有挑战性的镍催化生化反应。

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含镍(II)的维生素 B 衍生物与辅因子 F430 型π-系统。

A Nickel(II)-Containing Vitamin B Derivative with a Cofactor-F430-type π-System.

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