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Abstract Results pertaining to the mechanism of the oxidation of the tertiary amine 1‐methyl‐4‐(1‐methyl‐1‐H‐pyrrol‐2‐yl)‐1,2,3,6‐tetrahydropyridine (MMTP, a close analog of the Parkinsonism inducing compound MPTP) by 3‐methyllumiflavin (3MLF), a chemical model for the FAD cofactor of monoamine oxidase, are reported. MMTP and related compounds are among the few tertiary amines that are monoamine oxidase B (MAO−B) substrates. The MMTP/3MLF reaction is catalytic in the presence of O₂and the results under anaerobic conditions strongly suggest the involvement of radical intermediates, consistent with a single electron transfer mechanism. These observations support a new hypothesis to explain the MAO‐catalyzed oxidations of amines. In general, electron transfer is thermodynamically unfavorable, and as a result, most 1° and 2° amines react via one of the currently accepted polar pathways. Steric constraints prevent 3° amines from reacting via a polar pathway. Those select 3° amines that are MAO substrates possess certain structural features (e. g., a C−H bond that is α‐ both to nitrogen and a C=C) that dramatically lower the pK_aof the corresponding radical cation. Consequently, the thermodynamically unfavorable electron transfer equilibrium is driven towards products by an extremely favorable deprotonation step in the context of Le Chatelier's principle.