Synthesis of ¹⁵N-Pyridines and Higher Mass Isotopologs via Zincke Imine Intermediates

Journal of the American Chemical Society, Journal Year: 2024, Volume and Issue: 146(5), P. 2944 - 2949

Published: Jan. 16, 2024

Methods to incorporate stable radioisotopes are integral pharmaceutical and agrochemical development. However, despite the prevalence of pyridines in candidate compounds, methods 15N atoms within their structures limited. Here, we present a general approach pyridine 15N-labeling that proceeds via ring-opening NTf-Zincke imines then ring-closure with commercially available 15NH4Cl salts. This process functions on range substituted pyridines, from simple building block-type compounds late-stage labeling complex pharmaceuticals, 15N-incorporation is >95% most cases. The reactivity Zincke imine intermediates also enables deuteration C3- C5-positions, resulting higher mass isotopologs required for LCMS analysis biological fluids during drug

Language: Английский

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Photocatalytic furan-to-pyrrole conversion

Science, Journal Year: 2024, Volume and Issue: 386(6717), P. 99 - 105

Published: Oct. 3, 2024

The identity of a heteroatom within an aromatic ring influences the chemical properties that heterocyclic compound. Systematically evaluating effect single atom, however, poses synthetic challenges, primarily as result thermodynamic mismatches in atomic exchange processes. We present photocatalytic strategy swaps oxygen atom furan with nitrogen group, directly converting into pyrrole analog intermolecular reaction. High compatibility was observed various derivatives and nucleophiles commonly used drug discovery, late-stage functionalization furnished otherwise difficult-to-access pyrroles from naturally occurring furans high molecular complexity. Mechanistic analysis suggested polarity inversion through electron transfer initiates redox-neutral processes at room temperature.

Language: Английский

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N‐(Sulfonio)Sulfilimine Reagents: Non‐Oxidizing Sources of Electrophilic Nitrogen Atom for Skeletal Editing

Angewandte Chemie International Edition, Journal Year: 2024, Volume and Issue: 63(25)

Published: April 16, 2024

The one-pot synthesis of λ

Language: Английский

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Synthesis of benzenes from pyridines via N to C switch

Chem, Journal Year: 2024, Volume and Issue: 10(6), P. 1940 - 1949

Published: June 1, 2024

The skeletal editing of heteroarenes introduces new disconnections to the chemistry lexicon, enabling interconversion ring systems via selective breaking/re-making carbon framework. We describe one-pot transformation pyridines into benzene derivatives, using a nucleophilic addition ring-opening/ring-closing (ANRORC) process with soft nucleophiles such as malonate. Triflic anhydride activates pyridine ANRORC synthesis an isolable amine intermediate, which aromatizes on simple heating. reaction has been exemplified room temperature protocol, along direct syntheses drug-like, tertiary-alkylated, and isotopically labeled benzoates.

Language: Английский

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N-Oxide-to-Carbon Transmutations of Azaarene N-Oxides

Organic Letters, Journal Year: 2024, Volume and Issue: 26(20), P. 4280 - 4285

Published: May 13, 2024

Reactions that change the identity of an atom within a ring system are emerging as valuable tools for site-selective editing molecular structures. Herein, we describe expansion underdeveloped transformation directly converts azaarene-derived N-oxides to all-carbon arenes. This transmutation exhibits good functional group tolerance and replaces N-oxide moiety with either unsubstituted, substituted, or isotopically labeled carbon atoms in single laboratory operation.

Language: Английский

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Synthesis of naphthalene derivatives via nitrogen-to-carbon transmutation of isoquinolines

Science Advances, Journal Year: 2025, Volume and Issue: 11(5)

Published: Jan. 29, 2025

Heteroarene skeletal editing is gaining popularity in synthetic chemistry. Transmuting single atoms generates molecules that have distinctly varied properties, thereby fostering potent molecular exchanges can be extensively used to synthesize functional molecules. Herein, we present a convenient protocol for nitrogen-carbon single-atom transmutations isoquinolines, which inspired by the Wittig reaction and enables easy access substituted naphthalene derivatives. The uses an inexpensive commercially available phosphonium ylide as carbon source furnish wide range of naphthalenes. key success this transformation formation triene intermediate through ring opening, undergoes 6π-electrocyclization elimination processes afford product. Furthermore, strategy facile synthesis 13 C-labeled naphthalenes using CH 3 PPh I commercial C facilitates modifying directing group C─H functionalization.

Language: Английский

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Transition Metal-Catalyzed Nitrogen Atom Insertion into Carbocycles

Accounts of Chemical Research, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 26, 2025

ConspectusN-Heterocycles are essential in pharmaceutical engineering, materials science, and synthetic chemistry. Recently, skeletal editing, which involves making specific point changes to the core of a molecule through single-atom insertion, deletion, or transmutation, has gained attention for its potential modify complex substrates. In this context, insertion nitrogen atoms into carbocycles form N-heterocycles emerged as significant research focus modern chemistry owing novel logic. This distinctive retrosynthetic approach enables late-stage modification molecular skeletons provides different pathway synthesizing multiply substituted N-heterocycles. Nevertheless, atom proven challenging because inherent inertness carbon-based difficulty cleaving C-C bonds. Therefore, selective editing remains growing field Account primarily highlights contributions our laboratory active acknowledges key from other researchers. It is organized two sections based on type carbocycle. The first section explores cycloalkenes. Recent Co-catalyzed oxidative azidation strategies have enabled cyclobutenes, cyclopentenes, cyclohexenes, facilitating synthesis polysubstituted pyridines, been conventionally pyridine cross-coupling. subsequent discovery realm arenes. site-selective stable arenes We developed method intramolecular benzene rings 2-amino biaryls by suppressing competing C-H process using paddlewheel dirhodium catalyst. addition, address issues we employed arenols substrates, could act controlling elements editing. reported Cu-catalyzed arenols, proceeds dearomative azidation/aryl migration process, enabling incorporation Inspired result, recently extended reaction model Fe-catalyst facilitate ring contraction nitrogen-inserted product, achieving carbon-to-nitrogen transmutation arenols. Various polyaromatic effectively undergo desired atom's presenting considerable various applications Account, present an overview achievements reactions, with scopes, mechanistic features, applications. anticipate that will provide valuable insights propel development innovative methodologies both N-heterocycle synthesis.

Language: Английский

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Carbon–nitrogen transmutation in polycyclic arenol skeletons to access N-heteroarenes

Nature Communications, Journal Year: 2024, Volume and Issue: 15(1)

Published: May 4, 2024

Abstract Developing skeletal editing tools is not a trivial task, and realizing the corresponding single-atom transmutation in ring system without altering size even more challenging. Here, we introduce strategy that enables polycyclic arenols, highly prevalent motif bioactive molecules, to be readily converted into N -heteroarenes through carbon–nitrogen transmutation. The reaction features selective nitrogen insertion C–C bond of arenol frameworks by azidative dearomatization aryl migration, followed ring-opening, ring-closing (ANRORC) achieve carbon-to-nitrogen aromatic framework arenol. Using widely available arenols as -heteroarene precursors, this alternative approach allows streamlined assembly complex heteroaromatics with broad functional group tolerance. Finally, pertinent transformations products, including synthesis biheteroarene skeletons, were conducted exhibited significant potential materials chemistry.

Language: Английский

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Regioselective Pyridine to Benzene Edit Inspired by Water-Displacement

Journal of the American Chemical Society, Journal Year: 2024, Volume and Issue: 146(29), P. 19660 - 19666

Published: July 12, 2024

Late-stage derivatization of drug-like functional groups can accelerate drug discovery efforts by swiftly exchanging hydrogen-bond donors with acceptors, or modulating key physicochemical properties like logP, solubility, polar surface area. A proven strategy to improve ligand potency is extend the displace water molecules that are mediating interactions a receptor. Inspired this application, we developed method regioselectively transmute nitrogen atom from pyridine into carbon bearing an ester, flexible group handle. We applied variety substituted pyridines, as well late-stage transformation FDA-approved drugs.

Language: Английский

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Nitrogen-to-functionalized carbon atom transmutation of pyridine

Chemical Science, Journal Year: 2024, Volume and Issue: 15(37), P. 15205 - 15211

Published: Jan. 1, 2024

The targeted and selective replacement of a single atom in an aromatic system represents powerful strategy for the rapid interconversion molecular scaffolds. Herein, we report pyridine-to-benzene transformation

Language: Английский

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