Glycosidase-catalyzed Deoxy Oligosaccharide Synthesis. Practical Synthesis of Monodeoxy Analogs of Ethyl β-Thioisomaltoside Using Aspergillus niger α-Glucosidase(Biochemistry & Molecular Biology)
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概要
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Enzymatic transglycosylation using four possible monodeoxy analogs of p-nitrophenyl α-D-glucopyranoside (Glcα-0-pNP), modified at the C-2, C-3, C-4, and C-6 positions (2D-, 3D-, 4D-, and 6D-Glcα-O-pNP, respectively), as glycosyl donors and six equivalents of ethyl β-D-thioglucopyranoside (Glcβ-S-Et) as a glycosyl acceptor, to yield the monodeoxy derivatives of glucooligosaccharides were done. The reaction was catalyzed using purified Aspergillus niger α-glucosidase in a mixture of 50 mM sodium acetate buffer (pH 4.0)/CH_3CN (1 : 1 v/v) at 37℃. High activity of the enzyme was observed in the reaction between 2D-Glcα-O-pNP and Glcβ-S-Et to afford the monodeoxy analogs of ethyl β-thiomaltoside and ethyl β-thioisomaltoside that contain a 2-deoxy α-D-glucopyranose moiety at their glycon portions, namely ethyl 2-deoxy-α-D-arabinohexopyranosyl- (1, 4) -β-D-thioglucopyranoside and ethyl 2-deoxy-α-D-arabino-hexopyranosyl- (1, 6) -β-D-thioglucopyranoside, in 6.72% and 46.6% isolated yields (based on 2D-Glcα-0-pNP), respectively. Moreover, from 3D-Glcα-O-pNP and Glcβ-S-Et, the enzyme also catalyzed the synthesis of the 3-deoxy analog of ethyl β-thioisomaltoside that was modified at the glycon α-D-glucopyranose moiety, namely ethyl 3-deoxy-α-D-ribo-hexopyranosyl- (1, 6) -β-D-thioglucopyranoside, in 23.0% isolated yield (based on 3D-Glcα-O-pNP). Products were not obtained from the enzymatic reactions between 4D- or 6D-Glcα-O-pNP and Glcβ-S-Et.
- 社団法人日本農芸化学会の論文
- 2003-05-23
著者
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HAKAMATA Wataru
Division of Organic Chemistry, National Institute of Health Sciences
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OKU Tadatake
Laboratory of Bio-organic Chemistry, Department of Biological Chemistry, College of Bioresource Scie
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Hakamata Wataru
Biomolecular Chemistry Lab. Graduate School Of Bioresource Sciences Nihon Univ.
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Hakamata Wataru
Division Of Organic Chemistry National Institute Of Health Sciences
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NISHIO Toshiyuki
Laboratory of Bio-organic Chemistry, College of Bioresource Sciences, Nihon University
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KANAI Chika
Laboratory of Bio-organic Chemistry, College of Bioresource Sciences, Nihon University
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OGAWA Masahiro
Laboratory of Bio-organic Chemistry, College of Bioresource Sciences, Nihon University
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NAKAJIMA Kousuke
Laboratory of Bio-organic Chemistry, College of Bioresource Sciences, Nihon University
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HOSHINO Shigeki
Laboratory of Bio-organic Chemistry, College of Bioresource Sciences, Nihon University
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MATSUISHI Akari
Laboratory of Bio-organic Chemistry, College of Bioresource Sciences, Nihon University
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KAWACHI Ryu
Laboratory of Bio-organic Chemistry, College of Bioresource Sciences, Nihon University
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KAWACHI Ryu
Department of Applied Biological Chemistry, The University of Tokyo
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Nishio Toshiyuki
Biomolecular Chemistry Lab. Graduate School Of Bioresource Sciences Nihon Univ.
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Nishio Toshiyuki
Department Of Biological Chemistry College Of Bioresource Sciences Nihon University
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Nishio Toshiyuki
Laboratory Of Bio-organic Chemistry College Of Bioresource Sciences Nihon University
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Ogawa M
Laboratory Of Bio-organic Chemistry College Of Bioresource Sciences Nihon University
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Kanai Chika
Laboratory Of Bio-organic Chemistry College Of Bioresource Sciences Nihon University
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Kawachi Ryu
Department Of Applied Biological Chemistry The University Of Tokyo
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Kawachi Ryu
Laboratory Of Bio-organic Chemistry College Of Bioresource Sciences Nihon University
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Oku Tadatake
Biomolecular Chemistry Lab. Graduate School Of Bioresource Sciences Nihon Univ.
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Oku Tadatake
Laboratory Of Bio-organic Chemistry Department Of Biological Chemistry College Of Bioresource Scienc
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Matsuishi Akari
Laboratory Of Bio-organic Chemistry College Of Bioresource Sciences Nihon University
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Hoshino Shigeki
Laboratory Of Bio-organic Chemistry College Of Bioresource Sciences Nihon University
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Nakajima Kousuke
Laboratory Of Bio-organic Chemistry College Of Bioresource Sciences Nihon University
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