Department of Chemistry & Chemical Biology, The University of New Mexico , Albuquerque, New Mexico 87131, United States.
J Org Chem. 2018 Mar 2;83(5):2920-2936. doi: 10.1021/acs.joc.8b00184. Epub 2018 Feb 22.
We disclose a (terpy)NiBr-catalyzed reaction protocol that regioselectively difunctionalizes unactivated olefins with tethered alkyl halides and arylzinc reagents. The reaction shows an excellent functional group tolerance (such as ketones, esters, nitriles, and halides) and a moderate to good level of diastereoselectivity. The current cyclization/cross-coupling also tolerates molecules containing base-sensitive racemizable stereocenters, which are preserved without racemization during the reaction. This cyclization/cross-coupling provides a rapid access to (arylmethyl)carbo- and heterocyclic scaffolds, which occur widely as structural cores in various natural products and bioactive molecules. In order to show synthetic utility and generality, we have applied this new method in gram-scale quantities to the concise synthesis of six lignan natural products containing three different structural frameworks. We further conducted mechanistic investigations with radical probes and selectivity studies, which indicated that the current reaction proceeds via a single electron transfer (SET) process.
我们公开了一种(terpy)NiBr 催化反应方案,该方案可选择性地将带有连接烷基卤和芳基锌试剂的未活化烯烃双官能化。该反应具有出色的官能团耐受性(如酮、酯、腈和卤化物)和中等至良好的非对映选择性水平。目前的环化/交叉偶联还可以耐受含有碱敏感外消旋手性中心的分子,这些分子在反应过程中保持不发生外消旋。这种环化/交叉偶联为(芳基甲基)碳环和杂环支架的快速构建提供了途径,这些支架广泛存在于各种天然产物和生物活性分子的结构核心中。为了展示合成的实用性和通用性,我们已经将这种新方法应用于克级规模,以简洁地合成六种含有三种不同结构骨架的木质素天然产物。我们进一步进行了自由基探针的机理研究和选择性研究,表明当前的反应是通过单电子转移(SET)过程进行的。
