Litcius/Paper detail

Rhodium catalysed C-3/5 methylation of pyridines using temporary dearomatisation

Alexandru Grozavu, Hamish B. Hepburn, Elliot P. Bailey, Peter J. Lindsay‐Scott, Timothy J. Donohoe

2020Chemical Science57 citationsDOIOpen Access PDF

Abstract

Pyridines are ubiquitous aromatic rings used in organic chemistry and are crucial elements of the drug discovery process. Herein we describe a new catalytic method that directly introduces a methyl group onto the aromatic ring; this new reaction is related to hydrogen borrowing, and is notable for its use of the feedstock chemicals methanol and formaldehyde as the key reagents. Conceptually, the C-3/5 methylation of pyridines was accomplished by exploiting the interface between aromatic and non-aromatic compounds, and this allows an oscillating reactivity pattern to emerge whereby normally electrophilic aromatic compounds become nucleophilic in the reaction after activation by reduction. Thus, a set of C-4 functionalised pyridines can be mono or doubly methylated at the C-3/5 positions.

Topics & Concepts

FormaldehydeRhodiumMethylationChemistryCombinatorial chemistryReduction (mathematics)Medicinal chemistryCatalysisOrganic chemistryBiochemistryMathematicsGeneGeometryAsymmetric Hydrogenation and CatalysisCarbon dioxide utilization in catalysisCatalytic C–H Functionalization Methods
Rhodium catalysed C-3/5 methylation of pyridines using temporary dearomatisation | Litcius