Nobuo Enomoto scite author profile

Amylose was prepared by enzymatic polymerization of alpha-D-glucose 1-phosphate dipotassium catalyzed by a phosphorylase using two kinds of the primers derived from maltopentaose, and then it was chemically bonded to silica gel to be used as a chiral stationary phase (CSP) in high-performance liquid chromatography. In method I, maltopentaose was first lactonized and allowed to react with (3-aminopropyl)triethoxysilane to form an amide bond. Amylose chains with a desired chain length and a narrow molecular weight distribution were then constructed by the enzymatic polymerization. The resulting amylose bearing a trialkoxysilyl group at the terminal was allowed to react with silica gel for immobilization. In method II, maltopentaose was first oxidized to form a potassium gluconate at the reducing terminal. After the enzymatic polymerization was performed with the potassium gluconate, the amylose end was lactonized to be immobilized to 3-aminopropyl-silanized silica gel through amide bond formation. Two amylose-conjugated silica gels thus obtained were treated with a large excess of 3,5-dimethylphenyl isocyanate to convert hydroxy groups of amylose to corresponding carbamate residues. The CSP derived through method II was superior in chiral recognition to the CSP derived from method I and showed better resolving power and higher durability against solvents such as tetrahydrofuran compared with a coated-type CSP. Influences of degree of polymerization of amylose, the spacer length between amylose and silica gel, and mobile phase compositions on chiral recognition were investigated.

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Amylose-Carrying Styrene Macromonomer and Its Homo- and Copolymers: Synthesis via Enzyme-Catalyzed Polymerization and Complex Formation with Iodine

Kobayashi

Kamiya

Enomoto³

1996

Macromolecules

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The objective of our research was to prepare novel conjugates between polysaccharides and vinyl polymers by applying enzymes as polymerization catalyst for polysaccharide synthesis. An approach was attained using amylose-substituted styrene macromonomers (vinylbenzyl amylose amide, VAA; the number-average degree of polymerization of amylose = 24 and 150) which were synthesized from maltopentaose-substituted styrene (VM5A) by phosphorylase-catalyzed polymerization of glucose 1-phosphate. Radical homo- and copolymerization of VAA gave an uncommon type of graft copolymers consisting of polystyrene and polyacrylamide backbones and amylose side chains of uniform length. Water-insoluble amylose was solubilized into water by incorporating VAA units into polyacrylamide main chains and also by hydroxypropylation of the amylose moieties of water-insoluble copolymers. Structural features of these graft copolymers were discussed on the basis of amylose−iodine complexation investigated by UV spectroscopy. Schematic structures of two different types of polystyrene-graft-amylose prepared via homopolymerization of VAA and via enzymatic elongation from poly(VM5A) were proposed. These amylose-carrying polyacrylamide and polystyrene prepared by applying enzyme-catalyzed polymerization are of interest as a new type of biomedical material and a well-defined model for conformational analysis.

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Formation of diastereoisomeric 3a-hydroxypyrroloindoles from a tryptophan residue analog mediated by iron(II)-EDTA and l-ascorbate

Uchida

Enomoto

Itakura

et al. 1990

Archives of Biochemistry and Biophysics

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The hydroxyl radical generated by an iron(II)/EDTA/ascorbate system preferentially attacks tryptophan residues of the protein.

Uchida

Enomoto

Itakura

et al. 1989

Agricultural and Biological Chemistry

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Silicalite Membrane for Separation of Acetic Acid / Water Mixture

Sano¹,

Ejiri²,

Hasegawa³

et al. 1995

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Nobuo Enomoto

Preparation of Silica Gel-Bonded Amylose through Enzyme-Catalyzed Polymerization and Chiral Recognition Ability of Its Phenylcarbamate Derivative in HPLC

Amylose-Carrying Styrene Macromonomer and Its Homo- and Copolymers: Synthesis via Enzyme-Catalyzed Polymerization and Complex Formation with Iodine

Formation of diastereoisomeric 3a-hydroxypyrroloindoles from a tryptophan residue analog mediated by iron(II)-EDTA and l-ascorbate

The hydroxyl radical generated by an iron(II)/EDTA/ascorbate system preferentially attacks tryptophan residues of the protein.

Silicalite Membrane for Separation of Acetic Acid / Water Mixture

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