Evan P. Vanable scite author profile

A Rh-catalyzed enantioselective hydroamination of allylamines using a chiral BIPHEP-type ligand is reported. Enantioenriched 1,2-diamines are formed in good yields and with excellent enantioselectivities. A diverse array of nucleophiles and amine directing groups are demonstrated, including deprotectable motifs. Finally, the methodology was demonstrated toward the rapid synthesis of 2-methyl-moclobemide.

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Anti-Markovnikov Hydroamination of Homoallylic Amines

Ensign

Vanable

Kortman

et al. 2015

J. Am. Chem. Soc.

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The development of an anti-Markovnikov-selective hydroamination of unactivated alkenes is a significant challenge in organometallic chemistry. Herein, we present the rhodium-catalyzed anti-Markovnikov-selective hydroamination of homoallylic amines. The proximal Lewis basic amine serves to promote reactivity and enforce regioselectivity through the formation of the favored metallacycle, thus over-riding the inherent reactivity of the alkene. The scope of both the amine nucleophiles and homoallylic amines that participate in the reaction is demonstrated.

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Synthesis of Unsymmetrical Vicinal Diamines via Directed Hydroamination

et al. 2022

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Vicinal diamines are a common motif found in biologically active molecules. The hydroamination of allyl amine derivatives is a powerful approach for the synthesis of substituted 1,2-diamines. Herein, the rhodium-catalyzed hydroamination of primary and secondary allylic amines using diverse amine nucleophiles, including primary, secondary, acyclic, and cyclic aliphatic amines to access a wide range of unsymmetrical vicinal diamines, is presented. The utility of this methodology is further demonstrated through the rapid synthesis of several bioactive molecules and analogs.

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Current Progress in the Chemoenzymatic Synthesis of Natural Products

2022

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Natural products, with their array of structural complexity, diversity, and biological activity, have inspired generations of chemists and driven the advancement of techniques in their total syntheses. The field of natural product synthesis continuously evolves through the development of methodologies to improve stereoselectivity, yield, scalability, substrate scope, late-stage functionalization, and/or enable novel reactions. One of the more interesting and unique techniques to emerge in the last thirty years is the use of chemoenzymatic reactions in the synthesis of natural products. This review highlights some of the recent examples and progress in the chemoenzymatic synthesis of natural products from 2019–2022.

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Rhodium-/Iridium-Catalyzed Hydroamination for the Synthesis of 1,2-, 1,3-, or 1,4-Diamines

Ensign

Vanable

et al. 2022

ACS Catal.

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The Ir-catalyzed regioselective hydroamination of allyl amines as well as the catalyst-controlled regiodivergent hydroamination of homoallylic amines with aniline nucleophiles is reported. These directed hydroamination reactions afford a variety of 1,2-, 1,3-, and 1,4-diamines in good to excellent yields and high regio- and chemoselectivities. Mechanistic investigations suggest that the reactions are proceeding through an oxidative addition into the ArHN–H bond and that the observed regioselectivity is due to the selective formation of a five- or six-membered metallacyclic intermediate depending on the catalyst employed.

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Evan P. Vanable

Rhodium-Catalyzed Asymmetric Hydroamination of Allyl Amines

Anti-Markovnikov Hydroamination of Homoallylic Amines

Synthesis of Unsymmetrical Vicinal Diamines via Directed Hydroamination

Current Progress in the Chemoenzymatic Synthesis of Natural Products

Rhodium-/Iridium-Catalyzed Hydroamination for the Synthesis of 1,2-, 1,3-, or 1,4-Diamines

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