控制转录因子CarH中异源钴胺素的反应性和催化作用

Controlling Non-Native Cobalamin Reactivity and Catalysis in the Transcription Factor CarH.

作者信息

Yang Xinhang, Gerroll Benjamin H R, Jiang Yuhua, Kumar Amardeep, Zubi Yasmine S, Baker Lane A, Lewis Jared C

机构信息

Department of Chemistry, Indiana University, Bloomington, Indiana 47405, United States.

出版信息

ACS Catal. 2022 Jan 21;12(2):935-942. doi: 10.1021/acscatal.1c04748. Epub 2021 Dec 30.

DOI:10.1021/acscatal.1c04748

PMID:35340760

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8955669/

Abstract

Vitamin B derivatives catalyze a wide range of organic transformations, but B-dependent enzymes are underutilized in biocatalysis relative to other metalloenzymes. In this study, we engineered a variant of the transcription factor CarH, called CarH*, that catalyzes styrene C-H alkylation with improved yields (2-6.5-fold) and selectivity relative to cobalamin. While the native function of CarH involves transcription regulation via adenosylcobalamin (AdoCbl) Co(III)-carbon bond cleavage and -hydride elimination to generate 4',5'-didehydroadenosine, CarH*-catalyzed styrene alkylation proceeds via non-native oxidative addition and olefin addition coupled with a native-like -hydride elimination. Mechanistic studies on this reaction echo findings from earlier studies on AdoCbl homolysis to suggest that CarH* selectivity results from its ability to impart a cage effect on radical intermediates. These findings lay the groundwork for the development of B-dependent enzymes as catalysts for non-native transformations.

摘要

维生素B衍生物可催化多种有机转化反应，但相对于其他金属酶而言，依赖维生素B的酶在生物催化中的应用尚未得到充分开发。在本研究中，我们设计了一种转录因子CarH的变体，称为CarH*，它催化苯乙烯的C-H烷基化反应，与钴胺素相比，产率提高了（2至6.5倍），选择性也更高。虽然CarH的天然功能涉及通过腺苷钴胺素（AdoCbl）的Co(III)-碳键裂解和氢化物消除来进行转录调控，从而生成4',5'-二脱氢腺苷，但CarH催化的苯乙烯烷基化反应是通过非天然的氧化加成和烯烃加成，再结合类似天然的氢化物消除来进行的。对该反应的机理研究与早期关于AdoCbl均裂的研究结果相呼应，表明CarH的选择性源于其对自由基中间体施加笼效应的能力。这些发现为将依赖维生素B的酶开发为非天然转化反应的催化剂奠定了基础。

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