Palladium-Catalyzed Nondirected Late-Stage C–H Deuteration of Arenes

Farizyan, Mirxan; Mondal, Arup; Mal, Sourjya; Deufel, Fritz; Gemmeren, Manuel van

doi:10.1021/jacs.1c08233

Cited by 48 publications

(23 citation statements)

References 117 publications

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“…In this context, a dual ligand system composed of bulky amides derived from amino acids in combination with a pyridine derivative was shown to assist the concerted metalation deprotonation (CMD) step of palladium-catalyzed C–H activation, thus facilitating this reaction . Further modification of the amino-acid-derived ligands by substituting the carboxylic acid functionality by a sulfonamide lead to highly active catalyst systems that prove its value in the HIE of a broad range of aromatic substrates using deuterium oxide as deuterium source . While the exchange proceeds slower at more sterically hindered positions, high deuterium incorporations could generally be achieved (Scheme d).…”

Section: Hydrogen Isotope Exchangementioning

confidence: 99%

Recent Developments for the Deuterium and Tritium Labeling of Organic Molecules

et al. 2022

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Organic compounds labeled with hydrogen isotopes play a crucial role in numerous areas, from materials science to medicinal chemistry. Indeed, while the replacement of hydrogen by deuterium gives rise to improved absorption, distribution, metabolism, and excretion (ADME) properties in drugs and enables the preparation of internal standards for analytical mass spectrometry, the use of tritium-labeled compounds is a key technique all along drug discovery and development in the pharmaceutical industry. For these reasons, the interest in new methodologies for the isotopic enrichment of organic molecules and the extent of their applications are equally rising. In this regard, this Review intends to comprehensively discuss the new developments in this area over the last years (2017−2021). Notably, besides the fundamental hydrogen isotope exchange (HIE) reactions and the use of isotopically labeled analogues of common organic reagents, a plethora of reductive and dehalogenative deuteration techniques and other transformations with isotope incorporation are emerging and are now part of the labeling toolkit.

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Section: Hydrogen Isotope Exchangementioning

confidence: 99%

Recent Developments for the Deuterium and Tritium Labeling of Organic Molecules

et al. 2022

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“…The versatile applications of Raman-tagged cellular imaging are still expanding and would benefit from facile synthesis of new vibrationally tagged molecules. Toward this front, we envision that the recent synthetic advances in late-stage functionalization − could provide convenient synthetic routes to deuterium or triple-bond tagged molecular targets beyond currently available pools.…”

Section: Small-molecule Raman Taggingmentioning

confidence: 99%

Bringing Vibrational Imaging to Chemical Biology with Molecular Probes

Wang

2022

ACS Chem. Biol.

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As an emerging optical imaging modality, stimulated Raman scattering (SRS) microscopy provides invaluable opportunities for chemical biology studies using its rich chemical information. Through rapid progress over the past decade, the development of Raman probes harnessing the chemical biology toolbox has proven to play a key role in advancing SRS microscopy and expanding biological applications. In this perspective, we first discuss the development of biorthogonal SRS imaging using small tagging of triple bonds or isotopes and highlight their unique advantages for metabolic pathway analysis and microbiology investigations. Potential opportunities for chemical biology studies integrating small tagging with SRS imaging are also proposed. We next summarize the current designs of highly sensitive and super-multiplexed SRS probes, as well as provide future directions and considerations for next-generation functional probe design. These rationally designed SRS probes are envisioned to bridge the gap between SRS microscopy and chemical biology research and should benefit their mutual development.

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“…On the other hand, the use of iron or manganese nanoparticles with D 2 O under hydrogen pressure allows for the labeling of electron‐rich (hetero)arenes with substantially higher degree of deuteration (Figure 1A) [5h,i] . Multisite homogeneous Pd‐catalyzed H/D exchange was also successfully achieved via the design of dedicated amide ligands but this method can suffer from low deuterium incorporation at sterically hindered positions or from catalyst poisoning by nitrogen‐containing substrates (Figure 1B) [6d] …”

Section: Introductionmentioning

confidence: 99%

Superacid‐Mediated Late‐Stage Aromatic Polydeuteration of Pharmaceuticals

Appert

Martin‐Mingot

Karam³

et al. 2022

Chemistry A European J

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The field of medicinal chemistry is currently witnessing a deuterium rush owing to the remarkable properties of this element as bioisoster of hydrogen atom. Aromatic hydrogen isotope exchange (HIE) is one of the most studied strategies nowadays as it promises to access deuterium‐modified drugs directly from their non‐labeled parents. While most of the recent studies focus on metal‐catalyzed C−H activation strategy, the use of superacidic conditions has been largely overlooked. This study shows that the use of TfOD as reaction medium allows the late‐stage polydeuteration of a broad library of pharmaceuticals bearing a wide array of functional groups, complementing existing procedures.

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Palladium-Catalyzed Nondirected Late-Stage C–H Deuteration of Arenes

Cited by 48 publications

References 117 publications

Recent Developments for the Deuterium and Tritium Labeling of Organic Molecules

Recent Developments for the Deuterium and Tritium Labeling of Organic Molecules

Bringing Vibrational Imaging to Chemical Biology with Molecular Probes

Superacid‐Mediated Late‐Stage Aromatic Polydeuteration of Pharmaceuticals

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