Copper catalyzed arylation with boronic acids for the synthesis of N1-aryl purine nucleosides

Synthetic applications and methodology development of Chan-Lam coupling: a review

Chan-Lam coupling is one of the most popular and easy methods to perform arylation of amines (N-arylations). This cross-coupling is generally performed by reacting aryl boronate derivatives with a variety of substrates involving nitrogen containing functional groups such as amines, amides, ureas, hydrazine, carbamates. This article summarizes the synthetic applications of this reaction and the efforts of scientists to develop novel and efficient methodologies for this reaction.

New developments in direct functionalization of C–H and N–H bonds of purine bases via metal catalyzed cross-coupling reactions

This review provides a concise overview on the cross-coupling reactions in direct functionalization of purine bases in recent years.

C-N bond formation under Cu-catalysis: synthesis and in vitro evaluation of N-aryl substituted thieno[2,3-d]pyrimidin-4(3H)-ones against chorismate mutase

A series of novel N-aryl substituted thieno[2,3-d]pyrimidin-4(3H)-ones were designed and synthesized as potential inhibitors of chorismate mutase. Synthesis of this class of compounds was carried out by using Cu-mediated C-N bond forming reaction between thieno[2,3-d]pyrimidin-4(3H)-ones and aryl boronic acids. The reaction can be performed in an open flask as the conversion was found to be not sensitive to the presence of air or atmospheric moisture. A range of compounds were prepared by using this method and single crystal X-ray diffraction study was performed using a representative compound. In vitro pharmacological data of some of the compounds synthesized along with dose response studies using active molecules are presented. In silico interactions of these molecules with chorismate mutase are also presented.

Copper-mediated N-arylation of electron-deficient pyrroles and indoles

We have found that it is possible to N-arylate electron-deficient pyrroles and indoles having no carbonyl group α to the nitrogen ring in good to excellent yields under the Chan and Lam conditions using N-Ethyldiisopropylamine (DIEA) base as a substitute for triethylamine (TEA) and pyridine.Key words: cupric acetate, arylboronic acid, N-arylation, pyrroles, indoles.