Deaminative ring contraction for the synthesis of polycyclic heteroaromatics: a concise total synthesis of toddaquinoline

Kirkeby, Emily K.; Schwartz, Zachary T.; Lovasz, Myles A.; Roberts, Andrew G.

doi:10.1039/d3sc03936f

Chem. Sci.

2023

DOI: 10.1039/d3sc03936f

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Deaminative ring contraction for the synthesis of polycyclic heteroaromatics: a concise total synthesis of toddaquinoline

Emily K. Kirkeby,

Zachary T. Schwartz,

Myles A. Lovasz

et al.

Abstract: A concise strategy to prepare polycyclic heteroaromatics involving a deaminative contraction cascade is detailed. The efficient deaminative ring contraction involves the in situ methylation of a biaryl-linked dihydroazepine to form...

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Cited by 3 publications

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“…In addition, late-stage 15 N incorporation of benzoisoquinolines 3s and 3t proceeded smoothly, while high isotopic incorporations were also observed in the labeling of toddaisoquinoline (3u) and santiagonamine (3v) derivatives. 32 Finally, the labeled pyridine 3w was successfully accessed in 78% yield with high labeling efficiency, further articulating how drug scaffolds can be labeled in a late stage utilizing this synthetic strategy.…”

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confidence: 99%

¹⁵NRORC: An Azine Labeling Protocol

Tolchin,

Smith

2024

J. Am. Chem. Soc.

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A practical method for the synthesis of 15 N-labeled azines with a high degree of isotopic enrichment is described. Activation of azine heterocycles with an electron-deficient arene allows for the facile substitution of the nitrogen atom with a specifically designed 15 N-labeled reagent that undergoes a canonical ANRORC-type mechanism. A wide range of azines can be converted to their corresponding 15 N isotopologs using this method, and it also allows for dearomative access to reduced heterocyclic congeners. A short dearomative formal synthesis of 15 N-solifenacin is accomplished as well to demonstrate a practical application of this method for generating labeled pharmaceuticals.

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mentioning

confidence: 99%

¹⁵NRORC: An Azine Labeling Protocol

Tolchin,

Smith

2024

J. Am. Chem. Soc.

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Synthesis of Substituted Tetralins via Nitrogen Deletion/Diels–Alder Cascade Reaction

Zang,

Ye,

Cheng

et al. 2024

J. Org. Chem.

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Skeletal editing is an important approach for the modification and diversification of biologically active molecules. The utilization of nitrogen deletion strategies in skeletal editing has recently emerged as a new method for compound modification. Here, we report an unexpected nitrogen deletion in isoindolines. Contrary to the anticipated outcome of cyclobutane formation via intramolecular radical couplings, the nitrogen deletion of isoindoline triggers a Diels−Alder cycloaddition facilitated by the in situ formation of ortho-xylylene to yield tetraline. Inspired by this reaction, we developed a new strategy for synthesizing substituted tetralins, employing isoindoline, nitrogen deletion reagent (anomeric amide), and dienophiles. This methodology demonstrates a new pathway for tetralin synthesis and the modification and diversification of isoindolines.

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Heteroaromatic Annulation by Deaminative Ring Contraction

2023

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Deaminative ring contraction for the synthesis of polycyclic heteroaromatics: a concise total synthesis of toddaquinoline

Abstract: A concise strategy to prepare polycyclic heteroaromatics involving a deaminative contraction cascade is detailed. The efficient deaminative ring contraction involves the in situ methylation of a biaryl-linked dihydroazepine to form...

Cited by 3 publications

References 83 publications

¹⁵NRORC: An Azine Labeling Protocol

¹⁵NRORC: An Azine Labeling Protocol

Synthesis of Substituted Tetralins via Nitrogen Deletion/Diels–Alder Cascade Reaction

Heteroaromatic Annulation by Deaminative Ring Contraction

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Deaminative ring contraction for the synthesis of polycyclic heteroaromatics: a concise total synthesis of toddaquinoline

Abstract: A concise strategy to prepare polycyclic heteroaromatics involving a deaminative contraction cascade is detailed. The efficient deaminative ring contraction involves the in situ methylation of a biaryl-linked dihydroazepine to form...

Cited by 3 publications

References 83 publications

15NRORC: An Azine Labeling Protocol

15NRORC: An Azine Labeling Protocol

Synthesis of Substituted Tetralins via Nitrogen Deletion/Diels–Alder Cascade Reaction

Heteroaromatic Annulation by Deaminative Ring Contraction

Contact Info

Product

Resources

About

¹⁵NRORC: An Azine Labeling Protocol

¹⁵NRORC: An Azine Labeling Protocol