通过对映选择性、自由基介导的δ C-H氰化反应从非环胺合成手性哌啶。
Chiral piperidines from acyclic amines via enantioselective, radical-mediated δ C-H cyanation.
作者信息
Zhang Zuxiao, Zhang Xin, Nagib David A
机构信息
Department of Chemistry and Biochemistry, The Ohio State University, Columbus, OH 43210, United States.
Lead Contact.
出版信息
Chem. 2019 Dec 12;5(12):3127-3134. doi: 10.1016/j.chempr.2019.09.010. Epub 2019 Oct 17.
Abstract
Piperidines are the most prevalent heterocycle found in medicines. Yet, while they are often chiral, there remain no robust methods for their asymmetric syntheses. To solve this challenge, we have interrupted the century-old Hofmann-Löffler-Freytag (HLF) reaction to afford this privileged heterocycle. The catalytic, regio- and enantio- selective δ C-H cyanation of acyclic amines described herein, incorporates a carbonyl equivalent selectively at the δ position. This δ C-H cyanation is enabled by a chiral Cu catalyst, which both initiates and terminates intramolecular hydrogen atom transfer (HAT) by an N-centered radical relay mechanism. The broad scope and utility of this highly enantioselective method for δ C-C formation is presented, as well as conversion of the resulting enantioenriched δ amino nitriles to a family of chiral piperidines. Experiments probing the chemo-, regio-, and enantio- selectivity of this HAT mechanism are also included to enable extension to other stereoselective δ C-H functionalizations.
摘要
哌啶是药物中最常见的杂环。然而,尽管它们通常是手性的,但目前仍没有可靠的不对称合成方法。为了解决这一挑战,我们中断了具有百年历史的霍夫曼-勒夫勒-弗赖塔格(HLF)反应,以得到这种具有特殊地位的杂环。本文所述的无环胺的催化、区域和对映选择性δ C-H氰化反应,能在δ位选择性地引入一个羰基等价物。这种δ C-H氰化反应由一种手性铜催化剂实现,该催化剂通过以氮为中心的自由基接力机制引发和终止分子内氢原子转移(HAT)。本文展示了这种用于δ C-C形成的高对映选择性方法的广泛范围和实用性,以及将所得对映体富集的δ氨基腈转化为一系列手性哌啶的过程。还包括了探索这种HAT机制的化学、区域和对映选择性的实验,以便将其扩展到其他立体选择性δ C-H官能团化反应中。
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