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C2-Selective, Functional-Group-Divergent Amination of Pyrimidines by Enthalpy-Controlled Nucleophilic Functionalization

Won Seok Ham, Hoonchul Choi, Jianbo Zhang, Dongwook Kim, Sukbok Chang

2022Journal of the American Chemical Society38 citationsDOI

Abstract

Synthesis of heteroaryl amines has been an important topic in organic chemistry because of their importance in small-molecule discovery. In particular, 2-aminopyrimidines represent a highly privileged structural motif that is prevalent in bioactive molecules, but a general strategy to introduce the pyrimidine C2-N bonds via direct functionalization is elusive. Here we describe a synthetic platform for site-selective C-H functionalization that affords pyrimidinyl iminium salt intermediates, which then can be transformed into various amine products in situ. Mechanism-based reagent design allowed for the C2-selective amination of pyrimidines, opening the new scope of site-selective heteroaryl C-H functionalization. Our method is compatible with a broad range of pyrimidines with sensitive functional groups and can access complex aminopyrimidines with high selectivity.

Topics & Concepts

ChemistrySurface modificationAminationIminiumCombinatorial chemistryFunctional groupPyrimidineReagentMoleculeNucleophileAmine gas treatingOrganic chemistryStereochemistryCatalysisPolymerPhysical chemistryCatalytic C–H Functionalization MethodsSynthesis and Catalytic ReactionsAsymmetric Hydrogenation and Catalysis
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