Mechanistic Investigation, Wavelength-Dependent Reactivity, and Expanded Reactivity of <i>N</i>–Aryl Azacycle Photomediated Ring Contractions

Kim, Sojung F.; Schwarz, Henrik; Jurczyk, Justin; Nebgen, Bailey R.; Hendricks, Hailey; Park, Hojoon; Radosevich, Andrew; Zuerch, Michael W.; Harper, Kaid; Lux, Michaelyn C.; Yeung, Charles S.; Sarpong, Richmond

doi:10.1021/jacs.3c13982

J. Am. Chem. Soc.

2024

DOI: 10.1021/jacs.3c13982

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Mechanistic Investigation, Wavelength-Dependent Reactivity, and Expanded Reactivity of N–Aryl Azacycle Photomediated Ring Contractions

Sojung F. Kim,

Henrik Schwarz,

Justin Jurczyk

et al.

Abstract: Under mild blue-light irradiation, α-acylated saturated heterocycles undergo a photomediated one-atom ring contraction that extrudes a heteroatom from the cyclic core. However, for nitrogenous heterocycles, this powerful skeletal edit has been limited to substrates bearing electron-withdrawing substituents on nitrogen. Moreover, the mechanism and wavelength-dependent efficiency of this transformation have remained unclear. In this work, we increased the electron richness of nitrogen in saturated azacycles to i… Show more

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Cited by 6 publications

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Ring Contraction of Saturated Cyclic Amines and Rearrangement of Acyclic Amines Through Their Corresponding Hydroxylamines

Peng,

Wang,

Klare

et al. 2024

Angewandte Chemie

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Compared to modifications at the molecular periphery, skeletal adjustments present greater challenges. Within this context, skeletal rearrangement technology stands out for its significant advantages in rapidly achieving structural diversity. Yet, the development of this technology for ring contraction of saturated cyclic amines remains exceedingly rare. While most existing methods rely on specific substitution patterns to achieve ring contraction, there is a persistent demand for a more general strategy for substitution‐free cyclic amines. To address this issue, we report a B(C6F5)3‐catalyzed skeletal rearrangement of hydroxylamines with hydrosilanes. This methodology, when combined with the N‐hydroxylation of amines, enables the regioselective ring contraction of cyclic amines and proves equally effective for rapid reorganization of acyclic amine skeletons. By this, the direct scaffold hopping of drug molecules and the strategic deletion of carbon atoms are achieved in a mild manner. Based on mechanistic experiments and density functional theory calculations, a possible mechanism for this process is proposed.

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Ring Contraction of Saturated Cyclic Amines and Rearrangement of Acyclic Amines Through Their Corresponding Hydroxylamines

Peng,

Wang,

Klare

et al. 2024

Angewandte Chemie

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Homologation of Alkenyl Carbonyls via a Cyclopropanation/Light‐Mediated Selective C−C Cleavage Strategy

Nguyen,

Brownsey,

Bossonnet

et al. 2024

Angewandte Chemie

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We report herein our studies on the direct photoactivation of carbonyl cyclopropanes to give biradical intermediates, leading to selective cleavage of the more substituted carbon‐carbon bond. Depending on the substrate structure, extended alkenes were isolated or directly reacted in a photo‐Nazarov process to give bicyclic products. Based on these results, a unified reductive ring‐opening reaction was developed by using diphenyl disulfide as a HAT reagent. By performing a sequential cyclopropanation/selective ring opening reaction, we achieved a CH2 insertion into the α,β bond of both acyclic and cyclic unsaturated carbonyl compounds. Our protocol provides a further tool for the modification of the carbon framework of organic compounds, complementing the recent progress in “skeletal editing”.

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Ring Contraction of Saturated Cyclic Amines and Rearrangement of Acyclic Amines Through Their Corresponding Hydroxylamines

Peng,

Wang,

Klare

et al. 2024

Angew Chem Int Ed

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show abstract

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Mechanistic Investigation, Wavelength-Dependent Reactivity, and Expanded Reactivity of N–Aryl Azacycle Photomediated Ring Contractions

Cited by 6 publications

References 67 publications

Ring Contraction of Saturated Cyclic Amines and Rearrangement of Acyclic Amines Through Their Corresponding Hydroxylamines

Ring Contraction of Saturated Cyclic Amines and Rearrangement of Acyclic Amines Through Their Corresponding Hydroxylamines

Homologation of Alkenyl Carbonyls via a Cyclopropanation/Light‐Mediated Selective C−C Cleavage Strategy

Ring Contraction of Saturated Cyclic Amines and Rearrangement of Acyclic Amines Through Their Corresponding Hydroxylamines

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