Chen Xiao-Wang, Yue Jun-Ping, Wang Kuai, Gui Yong-Yuan, Niu Ya-Nan, Liu Jie, Ran Chuan-Kun, Kong Wangqing, Zhou Wen-Jun, Yu Da-Gang
Key Laboratory of Green Chemistry & Technology of Ministry of Education, College of Chemistry, Sichuan University, 29 Wangjiang Road, Chengdu, 610064, P. R. China.
The Center for Precision Synthesis, Institute for Advanced Studies, Wuhan University, Wuhan, 430072, P. R. China.
Angew Chem Int Ed Engl. 2021 Jun 14;60(25):14068-14075. doi: 10.1002/anie.202102769. Epub 2021 May 11.
Reductive carboxylation of organo (pseudo)halides with CO is a powerful method to provide carboxylic acids quickly. Notably, the catalytic reductive carbo-carboxylation of unsaturated hydrocarbons via CO fixation is a highly challenging but desirable approach for structurally diverse carboxylic acids. There are only a few reports and no examples of alkenes via transition metal catalysis. We report the first asymmetric reductive carbo-carboxylation of alkenes with CO via nickel catalysis. A variety of aryl (pseudo)halides, such as aryl bromides, aryl triflates and inert aryl chlorides of particular note, undergo the reaction smoothly to give important oxindole-3-acetic acid derivatives bearing a C3-quaternary stereocenter. This transformation features mild reaction conditions, wide substrate scope, facile scalability, good to excellent chemo-, regio- and enantioselectivities. The method highlights the formal synthesis of (-)-Esermethole, (-)-Physostigmine and (-)-Physovenine, and the total synthesis of (-)-Debromoflustramide B, (-)-Debromoflustramine B and (+)-Coixspirolactam A; thereby, opening an avenue for the total synthesis of chiral natural products with CO .
有机(拟)卤化物与一氧化碳的还原羧化反应是一种快速制备羧酸的有效方法。值得注意的是,通过一氧化碳固定不饱和烃的催化还原碳羧化反应是一种极具挑战性但又很理想的方法,可用于制备结构多样的羧酸。目前仅有少数相关报道,且尚无通过过渡金属催化实现烯烃反应的实例。我们报道了首例通过镍催化实现烯烃与一氧化碳的不对称还原碳羧化反应。多种芳基(拟)卤化物,如芳基溴化物、芳基三氟甲磺酸酯,特别是惰性芳基氯化物,都能顺利进行该反应,生成带有C3-季碳立体中心的重要吲哚-3-乙酸衍生物。该转化反应具有反应条件温和、底物范围广、易于放大、化学、区域和对映选择性良好至优异等特点。该方法突出了(-)-依色美托、(-)-毒扁豆碱和(-)-毒藜碱的形式合成,以及(-)-去溴氟司他明B、(-)-去溴氟司他明B和(+)-薏苡仁螺旋内酯A的全合成;从而为利用一氧化碳进行手性天然产物的全合成开辟了一条途径。
