Glycosylation from the Non-reducing End Using a Combination of Thioglycoside and Glycosyl Sulfoxide as the Glycosyl Donor and the Acceptor

被引:6
|
作者
Kajimoto, Tetsuya [1 ]
Arimitsu, Kenji [2 ]
Ozeki, Minoru [2 ]
Node, Manabu [2 ]
机构
[1] Osaka Univ Pharmaceut Sci, Osaka 5691094, Japan
[2] Kyoto Pharmaceut Univ, Yamashina Ku, Kyoto 6078412, Japan
来源
CHEMICAL & PHARMACEUTICAL BULLETIN | 2010年 / 58卷 / 05期
关键词
glycosylation; glycosyl sulfoxide; thioglycoside; odorless benzenethiol; ODORLESS THIOLS; COREY-KIM; SYNTHETIC EQUIVALENTS; SWERN OXIDATIONS; BENZYL MERCAPTAN; HYDROGEN-SULFIDE; BENZENETHIOLS; REAGENTS;
D O I
10.1248/cpb.58.758
中图分类号
R914 [药物化学];
学科分类号
100701 ;
摘要
A glycosylation reaction was performed using a combination of thioglycoside and glycosyl sulfoxide, which were prepared with odorless p-octyloxybenzenethiol, as a glycosyl donor and an acceptor, respectively. Promising results were obtained when p-octyloxylphenyl N-phthaloyl-D-thio-glucosaminide was activated with N-iodosuccinimide (NIS) and triflic acid (TfOH) for glycosylation of the hydroxyl group of the C-6 position of derivatives of n-glucosyl sulfoxide. Successive reduction of the resulting disaccharyl sulfoxides provided the corresponding thioglycosides, which could be used as the glycosyl donors in another glycosylation reaction to afford trisaccharides in good yield. The present method would be useful for the block synthesis of glycosyl donors in the total synthesis of blanched oligosaccharides, especially when N-acetylglucosamines are presented at the non-reducing ends.
引用
收藏
页码:758 / 764
页数:7
相关论文
共 41 条
  • [31] Pectin biosynthesis:: a solubilized α1,4-galacturonosyltransferase from tobacco catalyzes the transfer of galacturonic acid from UDP-galacturonic acid onto the non-reducing end of homogalacturonan
    Scheller, HV
    Doong, RL
    Ridley, BL
    Mohnen, D
    PLANTA, 1999, 207 (04) : 512 - 517
  • [32] Pectin biosynthesis: a solubilized α1,4-galacturonosyltransferase from tobacco catalyzes the transfer of galacturonic acid from UDP-galacturonic acid onto the non-reducing end of homogalacturonan
    Henrik Vibe Scheller
    Ron Lou Doong
    Brent Lee Ridley
    Debra Mohnen
    Planta, 1999, 207 : 512 - 517
  • [33] Product identification of non-reducing polyketide synthases with C-terminus methyltransferase domain from Talaromyces stipitatus using Aspergillus oryzae heterologous expression
    Hashimoto, Makoto
    Wakana, Daigo
    Ueda, Miki
    Kobayashi, Daisuke
    Goda, Yukihiro
    Fujii, Isao
    BIOORGANIC & MEDICINAL CHEMISTRY LETTERS, 2015, 25 (07) : 1381 - 1384
  • [34] Sequential removal of monosaccharides from the reducing end of oligosaccharides .3. Preparation, conformation, and mild hydrolysis of 1-glycosyl-2-acetylhydrazines of the hexoses, pentoses, 2-acetamido-2-deoxyhexoses, and fucose
    Bendiak, B
    CARBOHYDRATE RESEARCH, 1997, 304 (01) : 85 - 90
  • [35] Safety evaluation of the food enzyme cellulose 1,4-β-cellobiosidase (non-reducing end) from the non-genetically modified Trichoderma citrinoviride strain C1-5-2
    Zorn, Holger
    EFSA Panel Food Enzymes FEZ, Jose Manuel
    Barat Baviera, Jose Manuel
    Bolognesi, Claudia
    Catania, Francesco
    Gadermaier, Gabriele
    Greiner, Ralf
    Mayo, Baltasar
    Mortensen, Alicja
    Roos, Yrjo Henrik
    Solano, Marize L. M.
    Sramkova, Monika
    Van Loveren, Henk
    Vernis, Laurence
    Chesson, Andrew
    Herman, Lieve
    Kovalkovicova, Natalia
    Andryszkiewicz, Magdalena
    Cavanna, Daniele
    Lunardi, Simone
    de Nijs, Roos Anna
    Liu, Yi
    EFSA JOURNAL, 2025, 23 (04)
  • [36] Safety evaluation of the food enzyme containing endo-polygalacturonase, pectinesterase, pectin lyase and non-reducing end α-L-arabinofuranosidase activities from the Aspergillus niger strain PEC
    Lambre, Claude
    Baviera, Jose Manuel Barat
    Bolognesi, Claudia
    Cocconcelli, Pier Sandro
    Crebelli, Riccardo
    Gott, David Michael
    Grob, Konrad
    Lampi, Evgenia
    Mengelers, Marcel
    Mortensen, Alicja
    Riviere, Gilles
    Steffensen, Inger-Lise
    Tlustos, Christina
    Van Loveren, Henk
    Vernis, Laurence
    Zorn, Holger
    Glandorf, Boet
    Cavanna, Daniele
    Liu, Yi
    Nielsen, Elsa
    Norby, Karin
    di Piazza, Giulio
    de Sousa, Rita Ferreira
    Chesson, Andrew
    EFSA JOURNAL, 2022, 20 (07)
  • [37] Effects of unsaturated uronic acid residues at non-reducing end on bond cleavage frequency of poly(1,4-α-1-guluronide) lyase from Enterobacter cloacae M-1
    Shimokawa, T
    Yoshida, S
    Kusakabe, I
    BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY, 1998, 62 (01) : 164 - 166
  • [38] Safety evaluation of an extension of use of a food enzyme containing endo-polygalacturonase, pectinesterase, pectin lyase and non-reducing end α-L-arabinofuranosidase activities from the non-genetically modified Aspergillus niger strain PEC
    Zorn, Holger
    Baviera, Jose Manuel Barat
    Bolognesi, Claudia
    Catania, Francesco
    Gadermaier, Gabriele
    Greiner, Ralf
    Mayo, Baltasar
    Mortensen, Alicja
    Roos, Yrjo Henrik
    Solano, Marize L. M.
    Sramkova, Monika
    Van Loveren, Henk
    Vernis, Laurence
    Cavanna, Daniele
    de Nijs, Roos Anna
    Di Piazza, Giulio
    Liu, Yi
    EFSA JOURNAL, 2024, 22 (10)
  • [39] Chemo-enzymatic synthesis of Lacto-N-biose I catalyzed by β-1,3-galactosidase from Bacillus circulans using 4,6-dimethoxy-1,3,5-triazin-2-yl β-galactopyranoside as a glycosyl donor
    Ohnuma, Takayuki
    Taku, Tomoki
    Nagatani, Takeshi
    Horii, Atsushi
    Imaoka, Shun
    Tanaka, Tomonari
    BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY, 2021, 85 (07) : 1716 - 1719
  • [40] 'Immunosequencing' of heparan sulfate from human cell lines and rat kidney: the (GlcNS6S-IdoA2S)3 motif, recognized by antibody NS4F5, is located towards the non-reducing end
    van Wijk, Xander M. R.
    Oosterhof, Arie
    Versteeg, Elly M. M.
    van de Westerlo, Els M. A.
    van Kuppevelt, Toin H.
    BIOCHEMICAL JOURNAL, 2014, 461 : 461 - 468
12345