Switchable solvent-controlled divergent synthesis: an efficient and regioselective approach to pyrimidine and dibenzo[b,f][1,4]oxazepine derivatives

An efficient solvent-controlled regioselective reaction has been developed. The reaction represents a novel protocol for the divergent one-pot synthesis of pyrimidine and dihydrodibenzo[b,f][1,4]oxazepine derivatives.

The synthesis and preliminary cytotoxicity evaluation of hexahydrodispiro[indole-3,3′-indolizine-2′,3″-piperidine]-2(1H),4″-dione compounds

Seven hexahydrodispiro[indole-3,3′-indolizine-2′,3″-piperidine]-2(1 H),4″-dione compounds were synthesized by a catalyst-free 1,3-dipolar cycloaddition reaction in a one-pot three-component system containing 3,5-diarylidene-1-benzylpiperidin-4-one, isatin and l-pipecolic acid. The structures of these compounds were characterized by nuclear magnetic resonance, high-resolution mass spectrometry and X-ray data analysis. These chemical entities were evaluated for their cytotoxicity (brine shrimp assay), and five compounds were found potential in this bioassay. Compound 2e was the most prominent target against Artemia salina with an LC50 value of 7.27 μg/mL.

C-H alkylation reactions of indoles mediated by Pd(ii) and norbornene: applications and recent developments

The Catellani reaction enables an ortho-C-H activation based on oxidative addition of Pd(0) and an intermediary carbopalladation of norbornene. Among its variants, the recently developed C2-selective alkylation of indoles is particular as it employs Pd(ii) as the source of palladium. This review describes the mechanistic background of this transformation. Applications in total synthesis and in the synthesis of biologically relevant molecules are illustrated and further developments of the method are discussed.