Yujia Zu scite author profile

Yujia Zu

2Publications

26Citation Statements Received

50Citation Statements Given

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Affiliations

Ministry of Education of the People's Republic of China, Shaanxi Normal University

Publications

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Stereoselective β‐Mannosylation with 2,6‐Lactone‐bridged Thiomannosyl Donor by Remote Acyl Group Participation

Chen

Zhang

et al. 2019

Chemistry An Asian Journal

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Stereoselective β‐mannosylation has been recognized as one of the greatest challenges of carbohydrate chemistry. Herein, we described a practical method for stereoselective construction of β‐mannosides by using a 2,6‐lactone‐bridged thiomannosyl donor through the remote acyl‐group participation as well as the steric effect of O‐4 substituent. The two effects are enabled through the conversion of a regular mannopyranosyl 4C1 conformation into a 2,6‐lactone bridged conformation. The lactone donor could be readily prepared in three steps on a gram scale and the β‐mannosylation proceeded smoothly with high stereoselectivity for primary, secondary and tertiary alcohol acceptors. In addition, this strategy was successfully applied to the synthesis of a naturally occurring trisaccharide.

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n-Pentenyl-Type Glycosides for Catalytic Glycosylation and Their Application in Single-Catalyst One-Pot Oligosaccharide Assemblies

Sheng

Cheng

et al. 2019

Org. Lett.

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We have developed a new type of n-pentenyl-type glycosides that can be activated by catalytic amounts of promoter, Hg(NTf2)2 or PPh3AuCl/AgNTf2, at room temperature. The mild activation conditions and outstanding stability of common protection/deprotection manipulations enable the enynyl donors to have broad applications in constructing various glycosidic bonds. Furthermore, under the Hg(NTf2)2-catalyzed conditions, the sequential activation of different types of donors was achieved, based on which a gentiotetrasaccharide was synthesized via the newly developed single-catalyst one-pot strategy.

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Yujia Zu

Stereoselective β‐Mannosylation with 2,6‐Lactone‐bridged Thiomannosyl Donor by Remote Acyl Group Participation

n-Pentenyl-Type Glycosides for Catalytic Glycosylation and Their Application in Single-Catalyst One-Pot Oligosaccharide Assemblies

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