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Abstract
Au(I)-catalyzed hydration of alkynes is followed with transaminase-catalyzed reductive amination, leading to enantioenriched chiral
secondary amines. The approach features a one-pot reaction with no particular need for a compartmentalization strategy. Final
functionalization performed in situ leads to a variety of chiral amines, pyrroles and pyrrolines obtained in high enantioselectivities. The
method demonstrated applicability to the synthesis of bioactive drugs such as clobenzorex (44% yield, 3 steps, 96% ee) and a precursor
of lidexamfetamine (34% yield, 3 steps dr, 98:2).
