What question did this study set out to answer?

To evaluate the effectiveness of a vanadium-dependent chloroperoxidase for the chlorination of amines.

March 25, 2026Open Access

Chlorination of Amines by a Vanadium-Dependent Chloroperoxidase

Key Points

To evaluate the effectiveness of a vanadium-dependent chloroperoxidase for the chlorination of amines.
Utilized the vanadium-dependent chloroperoxidase from Curvularia inaequalis as a biocatalyst.
Performed selective chlorination on diverse amines to produce chloramines and chlorimines.
Applied the catalyst system to chemoenzymatic synthesis of nitriles and amides.
Investigated halide divergent reactivity in chloride and bromide transformations.
Successfully chlorinated a broad range of structurally diverse amines.
Produced chloramines and chlorimines with high selectivity.
Demonstrated scalability of the catalyst system for practical applications.
Showed ability for chloride-selective chlorimine formation and bromide-selective aldehyde formation.

Abstract

Organic chloramines are an important class of compounds containing a covalent nitrogen–chlorine bond. Despite the growing interest in their applications in small molecule synthesis and polymer science, selective catalyst systems for their preparation have remained elusive. We recently discovered that the vanadium-dependent chloroperoxidase from Curvularia inaequalis (CiVCPO) is an effective biocatalyst for selective chlorination of a broad range of structurally diverse amines to give the corresponding chloramines and chlorimines. The catalyst system is readily scalable and applied to chemoenzymatic nitrile and amide synthesis. Finally, halide divergent reactivity is demonstrated through chloride-selective chlorimine formation and bromide-selective aldehyde formation using the same biocatalyst.

Chlorination of Amines by a Vanadium-Dependent Chloroperoxidase

Key Points

Abstract

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