通过串联氮杂-Claisen 重排-碳环化序列,从 N-烯丙基炔酰胺合成环戊烯亚胺。
Synthesis of cyclopentenimines from N-allyl ynamides via a tandem aza-Claisen rearrangement-carbocyclization sequence.
机构信息
Division of Pharmaceutical Sciences and Department of Chemistry, 777 Highland Avenue, University of Wisconsin, Madison, Wisconsin 53705-2222, United States.
出版信息
J Org Chem. 2013 Jun 21;78(12):6233-44. doi: 10.1021/jo400960e. Epub 2013 Jun 10.
Abstract
We describe here details of our investigations into Pd-catalyzed and thermal aza-Claisen-carbocyclizations of N-allyl ynamides to prepare a variety of α,β-unsaturated cyclopentenimines. The nature of the ynamide electron-withdrawing group and β-substituent plays critical roles in the success of this tandem cascade. With N-sulfonyl ynamides, the use of palladium catalysis is required, as facile 1,3-sulfonyl shifts dominate under thermal conditions. However, since no analogous 1,3-phosphoryl shift is operational, N-phosphoryl ynamides could be used to prepare similar cyclopentenimines under thermal conditions through zwitter ionic intermediates that undergo N-promoted H-shifts. Alternatively, by employing ynamides bearing tethered carbon nucleophiles, the zwitter ionic intermediates could be intercepted, giving rise rapidly to more complex fused bi- and tricyclic scaffolds.
摘要
我们在这里描述了我们对 Pd 催化和热氮杂-Claisen-环化反应的研究细节,该反应是通过 N-烯丙基炔酰胺制备各种α,β-不饱和环戊烯亚胺的。炔酰胺吸电子基团和β-取代基的性质在该串联级联反应的成功中起着关键作用。对于 N-磺酰基炔酰胺,需要使用钯催化,因为在热条件下,易于发生 1,3-磺酰基迁移。然而,由于没有类似的 1,3-膦酰基迁移,N-膦酰基炔酰胺可以通过热条件下的两性离子中间体来制备类似的环戊烯亚胺,该中间体通过 N-促进的 H-迁移。或者,通过使用带有桥连碳亲核试剂的炔酰胺,可以拦截两性离子中间体,快速得到更复杂的稠合双环和三环支架。
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