Progress on Pyridotriazole Chemistry: Synthesis and Transformations

Shen, Ruwei; Yin, Kaixin; Yu, Mengyuan; Li, Xiaojie

doi:10.1002/ajoc.202200631

Cited by 6 publications

(4 citation statements)

References 139 publications

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“…These heterocyclic compounds are robust, stable, and easily available . Recently, transition metal-catalyzed denitrogenative transformations of pyridotriazoles have emerged as a powerful tool for synthesis of diverse N -heterocyclic scaffolds. , These transformations take advantage of the ring–chain tautomerization of pyridotriazoles in solution into the corresponding diazo tautomer. Although the generation of carbene species from pyridotriazoles under photochemical conditions has been reported, it is important to note that these photolysis approaches involved the use of harmful, high-energy UVC irradiation, leading to many side reactions, thus limiting the synthetic applications of these methods .…”

Section: Precursors Of Diazo Compoundsmentioning

confidence: 99%

Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Zhang,

Gevorgyan

2024

Chem. Rev.

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In recent years, visible light-induced reactions of diazo compounds have attracted increasing attention in organic synthesis, leading to improvement of existing reactions, as well as to the discovery of unprecedented transformations. Thus, photochemical or photocatalytic generation of both carbenes and radicals provide milder tools toward these key intermediates for many valuable transformations. However, the vast majority of the transformations represent new reactivity modes of diazo compounds, which are achieved by the photochemical decomposition of diazo compounds and photoredox catalysis. In particular, the use of a redox-active photocatalysts opens the avenue to a plethora of radical reactions. The application of these methods to diazo compounds led to discovery of transformations inaccessible by the classical reactivity associated with carbenes and metal carbenes. In most cases, diazo compounds act as radical sources but can also serve as radical acceptors. Importantly, the described processes operate under mild, practical conditions. This Review describes this subfield of diazo compound chemistry, particularly focusing on recent advancements.

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Section: Precursors Of Diazo Compoundsmentioning

confidence: 99%

Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Zhang,

Gevorgyan

2024

Chem. Rev.

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“…Fused 1,2,3-triazoles have gained high importance both as valuable scaffolds in medicinal chemistry 1 and as a stable “resting state” for the highly reactive diazoimines. 2 The discovery of catalytic approaches to 1,4- 3 and 1,5-disubstituted triazoles 4 rendered them as affordable and viable starting materials for the formation of fused triazoles. 5 Thus, the common route, utilizing the thermal intramolecular Huisgen cycloaddition 6 (Scheme 1A-1), was augmented by interrupted CuAAC combined with Ullmann-type C–C coupling (Scheme 1A-2) 7 or oxidative 8 capture (Scheme 1A-3).…”

Section: Introductionmentioning

confidence: 99%

Divergent cyclization of 2-(5-iodo-1,2,3-triazolyl)benzamides toward triazole-fused lactams and cyclic imidates

Kotovshchikov,

Tatevosyan,

Latyshev

et al. 2023

New J. Chem.

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“…39 Following pioneering reports on the use of 1,2,3-pyridotriazoles for rhodium-catalyzed Si-H insertion reactions, 40 these reagents have found utility in transannulations, insertions, ylide formation, and rearrangements for the synthesis of heterocycles. [41][42][43] More recently, 1,2,3-pyridotriazoles were also successfully employed for cyclopropanation reactions via in situ generation in combination with Co-porphyrin catalysts 39,44 or via light induced activation. 45 However, asymmetric variants of these reactions have so far remained elusive.…”

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confidence: 99%

New Carbene Donor for Biocatalysis: Stereodivergent Synthesis of Pyridyl Cyclopropanes via Enzymatic Activation of Pyridyltriazoles

Roy,

Wang,

Zhao

et al. 2024

Preprint

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Hemoproteins have recently emerged as powerful biocatalysts for new-to-nature carbene transfer reactions. Despite this progress, these strategies have remained largely limited to diazo-based carbene precursor reagents. Here, we report the development of a biocatalytic strategy for the stereoselective construction of pyridine-functionalized cyclopropanes via hemoprotein-mediated activation of pyridyl triazoles (PyTz) as stable and readily accessible carbene sources. This method enables the asymmetric cyclopropanation of a variety of olefins, including electronrich and electrodeficient ones, with high activity, high stereoselectivity, and enantiodivergent selectivity, providing access mono- and diaryl-cyclopropanes that incorporate a pyridine moiety, and thus two structural motifs of high value in medicinal chemistry. Mechanistic studies reveal a multifaceted role of 7-halogen substitution in the pyridyltriazole reagent toward favoring multiple catalytic steps in the transformation. This work provides a first example of asymmetric olefin cyclopropanation with pyridotriazoles, paving the way to the exploitation of these attractive and versatile reagents for enzyme-catalyzed carbene-mediated reactions.

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Progress on Pyridotriazole Chemistry: Synthesis and Transformations

Cited by 6 publications

References 139 publications

Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Divergent cyclization of 2-(5-iodo-1,2,3-triazolyl)benzamides toward triazole-fused lactams and cyclic imidates

New Carbene Donor for Biocatalysis: Stereodivergent Synthesis of Pyridyl Cyclopropanes via Enzymatic Activation of Pyridyltriazoles

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