6941-70-4Relevant articles and documents
Synthesis and pharmacological activities of some sesquiterpene quinones and hydroquinones
Laube, Thorsten,Bernet, Andreas,Dahse, Hans-Martin,Jacobsen, Ilse D.,Seifert, Karlheinz
, p. 1422 - 1427 (2009)
Synthesis of protected siphonodictyal C was achieved via drim-7-en-11-al. Some sesquiterpene quinones and hydroquinones were tested for their pharmacological activities in assays in search of antiproliferative, cytotoxic, antiphlogistic, antirheumatic and anti-inflammatory drugs. Wiedendiol B is a ten times stronger cyclooxygenase-2 inhibitor than the reference compound indomethacine. Cyclooxygenase-2 inhibitors are drugs with antiphlogistic and antirheumatic activity.
Expedient Pd-Catalyzed α-Arylation towards Dibenzoxepinones: Pivotal Manske's Ketone for the Formal Synthesis of Cularine Alkaloids
Deichert, Julie A.,Mizufune, Hideya,Patel, Jignesh J.,Hurst, Timothy E.,Maheta, Ashish,Kitching, Matthew O.,Ross, Avena C.,Snieckus, Victor
supporting information, p. 4693 - 4697 (2020/05/08)
The general synthesis of diversely substituted dibenzoxepinones by a combined Pd-catalyzed α-arylation and SNAr strategy is reported and applied to the synthesis of Manske's ketone, a key intermediate en route to the total synthesis of cularine alkaloids. In the course of this work, an unanticipated ring contraction reaction to a xanthone was observed and serves as a caveat for the conditions of the widely used α-arylation reaction.
A Three-Phase Four-Component Coupling Reaction: Selective Synthesis of o-Chloro Benzoates by KCl, Arynes, CO2, and Chloroalkanes
Jiang, Huanfeng,Zhang, Yu,Xiong, Wenfang,Cen, Jinghe,Wang, Lu,Cheng, Ruixiang,Qi, Chaorong,Wu, Wanqing
supporting information, p. 345 - 349 (2019/01/24)
A transition-metal-free three-phase four-component coupling reaction (3P-4CR) involving KCl, arynes, chloroalkanes and CO2 has been reported for the first time, enabling the incorporation of both chloro and CO2 into an aryne simultaneously. The reactions for the synthesis of different types of o-chloro benzoates can be selectively modulated by the chloroalkane utilized. The corresponding products can be alternatively transformed for postsynthetic functionalizations conveniently.