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K. Kitamura, Y. Ando, T. Matsumoto, K Suzuki, H. Liao, J. Ma, H. Yao, X.‐W Liu, D. P. Zhu, B. Yu (2017)
Total synthesis of aryl C‐glycoside natural products: strategies and tactics, 118
D. E. Levy, C. Tang, T. Bililign, B. R. Griffithb, J. S. Structure Thorson (1995)
The Chemistry of C‐Glycosides, 22
M. J. McKay, H. M Nguyen (2012)
Recent advances in transition metal‐ catalyzed glycosylation, 2
Y. Ihara, Y. Inai, M. Ikezaki, I. S. Matsui, L. S. Manabe, Y. Ito (2014)
C‐Mannosylation: A Modification on Tryptophan in Cellular Proteins
Q. Wang, Y. Fu, W. Zhu, S. An, Q. Zhou, S.‐F. Zhu, G. He, P. Liu, G. Chen, S. An, Q. Wang, W. Zhu, Q. Sun, G. He, P. Liu, G. Chen (2020)
Total Synthesis of C‐α‐Mannosyl Tryptophan via Palladium‐catalyzed C–H Glycosylation, 2
L. Nicolas, P. Angibaud, I. Stansfield, P. Bonnet, L. Meerpoel, S. Reymond, J Cossy, J. Zeng, J. Ma, S. Xiang, S. Cai, X.‐W Liu, F. Zhu, M. J. Rourke, T. Yang, J. Rodriguez, M. A Walczak, F. Zhu, J. Rodriguez, T. Yang, I. Kevlishvili, E. Miller, D. Yi, S. O'Neill, M. J. Rourke, P. Liu, M. A Walczak, L. Adak, S. Kawamura, G. Toma, T. Takenaka, K. Isozaki, H. Takaya, A. Orita, H. C. Li, T. K. M. Shing, M Nakamura, C. Zhao, X. Jia, X. Wang, H.‐G Gong, Y. Dai, B. Tian, H. Chen, Q Zhang, Q. Wang, J. Duan, P. Tang, G. Chen, G. He (2008)
Diastereoselective metal‐catalyzed synthesis of C‐aryl and C‐vinyl glycosides, 51
Q.‐Q. Wang, S. An, Z.‐Q. Deng, W.‐J. Zhu, Z.‐Y. Huang, G. He, G. Chen (2019)
Palladium‐catalysed C−H glycosylation for synthesis of C‐aryl glycosides, 2
W. Lv, Y. Chen, S. Wen, D. Ba, G Cheng, Y.‐N. Ding, W.‐Y. Shi, C. Liu, N. Zheng, M. Li, Y. An, Z. Zhang, C.‐T. Wang, B.‐S. Zhang, Y.‐M Liang (2020)
Modular and Stereoselective Synthesis of C‐Aryl Glycosides via Catellani Reaction, 142
A set of Pd‐catalyzed ortho‐directed C—H glycosylation reactions with glycosyl chloride donors using various N‐linked bidentate auxiliaries has been developed for synthesis of C‐aryl glycosides. A broad range of pyranose and furanose moieties can be installed on the ortho position of arylamine, carbazole, indole and benzylamine type substrates in high yield and with high regio‐ and diastereoselectivity. These auxiliaries can be readily installed and removed under relatively mild conditions.
Chinese Journal of Chemistry – Wiley
Published: Mar 1, 2021
Keywords: ; ; ; ;
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