Su Zhenjie, Amin Pathan Mosim, Wang Shaozhong
State Key Laboratory of Coordination Chemistry, Jiangsu Key Laboratory of Advanced Organic Materials, School of Chemistry and Chemical Engineering, Nanjing University, 163 Xianlin Avenue, Nanjing, Jiangsu, 210023, China.
Chemistry. 2023 Nov 21;29(65):e202302044. doi: 10.1002/chem.202302044. Epub 2023 Oct 13.
Alkyne-carbonyl metathesis is a type of carbon-carbon forming reaction involving the construction a carbon-carbon double bond and a carbonyl group in one transformation. Herein, a Au(I)-catalyzed ring-closing alkyne-carbonyl metathesis protocol has been developed to make densely substituted γ-butenolides from propargyl α-ketoesters. It features 100 % atom economy, excellent substrate flexibility and benign functional group tolerance. Mechanistic studies demonstrate that the coordinative interaction between the gold catalyst and the alkyne might initiate the transfer of an oxygen atom and the formation of the carbon-carbon double bond. By using this gold-catalyzed ring-closing alkyne-carbonyl metathesis as a key step reaction, four naturally occurring butenolide-type compounds including decumbic acid (45 % yield for 3 steps), deoxyisosporothric acid (32 % yield for 5 steps), lichesterinic acid (34 % yield for 5 steps) and isomuronic acid (6 % yield for 8 steps) have been synthesized starting from commercially available starting materials.
炔基-羰基复分解反应是一种碳-碳形成反应,涉及在一次转化中构建碳-碳双键和一个羰基。在此,已开发出一种金(I)催化的闭环炔基-羰基复分解反应方案,用于从炔丙基α-酮酯制备高度取代的γ-丁烯内酯。它具有100%的原子经济性、出色的底物灵活性和良好的官能团耐受性。机理研究表明,金催化剂与炔之间的配位相互作用可能引发氧原子的转移和碳-碳双键的形成。通过使用这种金催化的闭环炔基-羰基复分解反应作为关键步骤反应,已从市售起始原料合成了四种天然存在的丁烯内酯型化合物,包括降卧酸(三步产率45%)、脱氧异孢子酸(五步产率32%)、地衣硬酸(五步产率34%)和异鼠李酸(八步产率6%)。
