Synthesis of Non‐Classical Arylated C‐Saccharides through Nickel/Photoredox Dual Catalysis

Dumoulin, Audrey; Matsui, Jennifer K.; Gutiérrez‐Bonet, Álvaro; Molander, Gary A.

doi:10.1002/anie.201802282

Cited by 165 publications

(73 citation statements)

References 60 publications

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“…Both sets of conditions allow the cross-coupling of various alkyl radicals with either aryl bromides or iodides.S accharide-derived DHPs can also be used in the Ni/photoredox cross-coupling cycle to afford reversed C-aryl glycosides such as 53 (Scheme 4B). [56] The latter substrate would be prone to b-elimination using traditional cross-coupling methods.Arecent report indicated the possibility of direct photoexcitation of DHPs to trigger the formation of alkyl radicals in the absence of ap hotocatalyst with 400 nm light (Scheme 4C). [57] 2.5.…”

Section: Couplings With Dihydropyridine Radical Precursorsmentioning

confidence: 99%

Alkyl Carbon–Carbon Bond Formation by Nickel/Photoredox Cross‐Coupling

et al. 2019

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Section: Couplings With Dihydropyridine Radical Precursorsmentioning

confidence: 99%

Alkyl Carbon–Carbon Bond Formation by Nickel/Photoredox Cross‐Coupling

et al. 2019

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“…A desire to integrate greater functional density within the radical precursor led to the exploration of monosaccharide moieties that were recently highlighted in publications from our group. 28 Pleasingly, pyranose DHP afforded the allylated products 2i-j in high E/Z ratios and diastereoselectivity.…”

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confidence: 99%

Photoredox/Nickel‐Catalyzed Single‐Electron Tsuji–Trost Reaction: Development and Mechanistic Insights

et al. 2018

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A regioselective, nickel-catalyzed photoredox allylation of secondary, benzyl, and α-alkoxy radical precursors is disclosed. Through this manifold, a variety of linear allylic alcohols and allylated monosaccharides are accessible in high yields under mild reaction conditions. Quantum mechanical calculations [DFT and DLPNO-CCSD(T)] support the mechanistic hypothesis of a Ni(0) to Ni(II) oxidative addition pathway followed by radical addition and inner-sphere allylation.

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“…An organic dye (4CzIPN) was used as the photocatalyst in the presence of blue light to achieve oxidative cleavage of the DHP group, thus generating the alkyl radical that enters the Ni‐catalyzed cross coupling process. By replacing the activated acid with arylhalogenides, similar conditions lead to the synthesis of 5‐arylmonosaccharides . The mild conditions required for the process and the high tolerance for functional groups are attractive for late stage functionalization of complex bioactive molecules.…”

Section: Exocyclic Oxygen Replacementmentioning

confidence: 99%

Design and synthesis of glycomimetics: Recent advances

Tamburrini

Colombo

Bernardi

2019

Medicinal Research Reviews

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In the past few decades, our understanding of glycan information‐encoding power has notably increased, thus leading to a significant growth also in the design and synthesis of glycomimetic probes. Combining data from multiple analytical sources, such as crystallography, nuclear magnetic resonance spectroscopy, and other biophysical methods (eg, surface plasmon resonance and carbohydrate microarrays) has allowed to shed light on the key interaction events between carbohydrates and their protein‐targets. However, the low metabolic stability of carbohydrates and their high hydrophilicity, which translates in low bioavailability, undermine their development as drugs. In this framework, the design of chemically modified analogues (called carbohydrate mimics or glycomimetics) appears as a valid alternative for the development of therapeutic agents. Glycomimetics, as structural and functional mimics of carbohydrates, can replace the native ligands in the interaction with target proteins, but are designed to show enhanced enzymatic stability and bioavailability and, possibly, an improved affinity and selectivity toward the target. In the present account, we specifically focus on the most recent advances in the design and synthesis of glycomimetics. In particular, we highlight the efforts of the scientific community in the development of straightforward synthetic procedures for the preparation of sugar mimics and in their preliminary biological evaluation.

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Synthesis of Non‐Classical Arylated C‐Saccharides through Nickel/Photoredox Dual Catalysis

Cited by 165 publications

References 60 publications

Alkyl Carbon–Carbon Bond Formation by Nickel/Photoredox Cross‐Coupling

Alkyl Carbon–Carbon Bond Formation by Nickel/Photoredox Cross‐Coupling

Photoredox/Nickel‐Catalyzed Single‐Electron Tsuji–Trost Reaction: Development and Mechanistic Insights

Design and synthesis of glycomimetics: Recent advances

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