The α‐Glycosidation of Partially Unprotected N‐Acetyl and N‐Glycolyl Sialyl Donors in the Absence of a Nitrile Solvent Effect |
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| Authors: | Taku Aoyagi Dr. Shuichi Ohira Dr. Shinichiro Fuse Dr. Jun Uzawa Dr. Yoshiki Yamaguchi Dr. Hiroshi Tanaka |
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| Affiliation: | 1. Department of Chemical Science and Engineering, Tokyo Institute of Technology, Tokyo, Japan;2. Laboratory of Chemical and Life Science, Innovative Research, Tokyo Institute of Technology, Yokohama, Japan;3. RIKEN–Max-Planck Joint Research Center for Systems Chemical Biology, RIKEN Global Research Cluster, Saitama, Japan |
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| Abstract: | The synthesis of α‐sialosides is one of the most difficult reactions in carbohydrate chemistry and is considered to be both a thermodynamically and kinetically disfavored process. The use of acetonitrile as a solvent is an effective solution for the α‐selective glycosidation of N‐acetyl sialic acids. In this report, we report on the α‐glycosidation of partially unprotected N‐acetyl and N‐glycolyl donors in the absence of a nitrile solvent effect. The 9‐O‐benzyl‐N‐acetylthiosialoside underwent glycosidation in CH2Cl2 with a good α‐selectivity. On the other hand, the 4,7,8‐O‐triacetyl‐9‐O‐benzyl‐N‐acetylthiosialoside was converted to β‐sialoside as a major product under the same reaction conditions. The results indicate that the O‐acetyl protection of the sialyl donor was a major factor in reducing the α‐selectivity of sialylation. After tuning of the protecting groups of the hydroxy groups at the 4,7,8 position on the sialyl donor, we found that the 9‐O‐benzyl‐4‐O‐chloroacetyl‐N‐acetylthiosialoside underwent sialylation with excellent α‐selectivity in CH2Cl2. To demonstrate the utility of the method, straightforward synthesis of α(2,9) disialosides containing N‐acetyl and/or N‐glycolyl groups was achieved by using the two N‐acetyl and N‐glycolyl sialyl donors. |
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| Keywords: | acetonitrile glycosylation neuraminic acids oligosaccharides thioglycoside |
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