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配体-金属协同作用实现环丙基酮的净开环C-C活化/双官能化

Ligand-Metal Cooperation Enables Net Ring-Opening C-C Activation / Difunctionalization of Cyclopropyl Ketones.

作者信息

Gilbert Michael M, Trenerry Michael J, Longley Victoria R, Castro Anthony J, Berry John F, Weix Daniel J

机构信息

Department of Chemistry, University of Wisconsin-Madison, Madison, WI, USA 53706.

出版信息

ACS Catal. 2023 Sep 1;13(17):11277-11290. doi: 10.1021/acscatal.3c02643. Epub 2023 Aug 11.

DOI:10.1021/acscatal.3c02643
PMID:39386022
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11463996/
Abstract

Reactions that cleave C-C bonds and enable functionalization at both carbon sites are powerful strategic tools in synthetic chemistry. Stereodefined cyclopropyl ketones have become readily available and would be an ideal source of 3-carbon fragments, but general approaches to net C-C activation / difunctionalization are unknown. Herein we demonstrate the cross-coupling of cyclopropyl ketones with organozinc reagents and chlorotrimethylsilane to form 1,3-difunctionalized, ring-opened products. A combination of experimental and theoretical studies rule out more established mechanisms and shed light on how cooperation between the redox-active terpyridine (tpy) ligand and the nickel atom enables the C-C bond activation step. The reduced (tpy)Ni species activates the C-C bond via a concerted asynchronous ring-opening transition state. The resulting alkylnickel(II) intermediate can then be engaged by aryl-, alkenyl-, and alkylzinc reagents to furnish cross-coupled products. This allows quick access to products that are difficult to make by conjugate addition methods, such as β-allylated and β -benzylated enol ethers. The utility of this approach is demonstrated in the synthesis of a key (±)-taiwaniaquinol B intermediate and the total synthesis of prostaglandin D.

摘要

在合成化学中,能够裂解碳 - 碳键并在两个碳位点实现官能化的反应是强大的战略工具。立体定向的环丙基酮已很容易获得,并且将是三碳片段的理想来源,但净碳 - 碳活化/双官能化的通用方法尚不清楚。在此,我们展示了环丙基酮与有机锌试剂和三甲基氯硅烷的交叉偶联反应,以形成1,3 - 双官能化的开环产物。实验和理论研究相结合排除了更成熟的机理,并揭示了氧化还原活性三联吡啶(tpy)配体与镍原子之间的协同作用如何实现碳 - 碳键活化步骤。还原态的(tpy)Ni物种通过协同的异步开环过渡态活化碳 - 碳键。生成的烷基镍(II)中间体随后可与芳基、烯基和烷基锌试剂反应,以提供交叉偶联产物。这使得能够快速获得通过共轭加成方法难以制备的产物,例如β - 烯丙基化和β - 苄基化的烯醇醚。这种方法的实用性在关键的(±) - 台湾杉醇B中间体的合成以及前列腺素D的全合成中得到了证明。

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