Direct N‐Glycofunctionalization of Amides with Glycosyl Trichloroacetimidate by Thiourea/Halogen Bond Donor Co‐Catalysis

Direct N‐Glycofunctionalization of Amides with Glycosyl Trichloroacetimidate by Thiourea/Halogen Bond Donor Co‐Catalysis

Using a halogen bond (XB) donor and Schreiner's thiourea as cooperative catalysts, various amides, including the asparagine residues of several peptides, were directly coupled with glycosyl trichloroacetimidates to give unique N‐acylorthoamides in good yields. Synthetic applications of N‐acylor...

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Veröffentlicht in:Angewandte Chemie International Edition 2018-03, Vol.57 (14), p.3646-3650
Hauptverfasser: Kobayashi, Yusuke, Nakatsuji, Yuya, Li, Shanji, Tsuzuki, Seiji, Takemoto, Yoshiji
Format: Artikel
Sprache:eng
Schlagworte:
Amides
Asparagine
Brønsted acid catalysis
carbohydrates
Catalysis
Catalysts
glycosylation
organocatalysis
Peptides
Thiourea
Thioureas
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Zusammenfassung:Using a halogen bond (XB) donor and Schreiner's thiourea as cooperative catalysts, various amides, including the asparagine residues of several peptides, were directly coupled with glycosyl trichloroacetimidates to give unique N‐acylorthoamides in good yields. Synthetic applications of N‐acylorthoamides, including rearrangement to the corresponding β‐N‐glycoside, were also demonstrated. Transformation of amides: Using a halogen bond (XB) donor and Schreiner's thiourea as cooperative catalysts, various amides were directly coupled with glycosyl trichloroacetimidates to give unique N‐acylorthoamides in good yields. Synthetic applications of N‐acylorthoamides, including rearrangement to the corresponding β‐N‐glycosides, were also demonstrated.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201712726