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31 results on '"Koizumi, Akihiko"'

5. Enhancement of the Catalytic Activity Associated with Carbon Deposition Formed on NiO/Al2O3 during the Dehydrogenation of Ethane and Propane

Author

Sugiyama, Shigeru, Koizumi, Akihiko, Iwaki, Takahisa, Shimoda, Naohiro, Kato, Yuki, and Ninomiya, Wataru

Subjects
Ethane, Propane, Nickel Oxide, Catalyst Deactivation, Dehydrogenation
Abstract

In the recent study, the dehydrogenation of isobutane to isobutene was accomplished using a NiO/γ-Al2O3 catalyst, and significant improvement in the time-on-stream yield of isobutene was accomplished. During the normal catalytic dehydrogenation of alkanes, the catalyst is covered by the carbon deposition that is generated during the reaction, which drastically reduces activity with time-on-stream. Therefore, no examples of the catalytic dehydrogenation of isobutane have yet been reported. This study used either ethane or propane as a source of isobutane to examine whether the activity was improved with time-on-stream. As a result, in the dehydrogenations of both ethane and propane on a NiO/γ-Al2O3 catalyst, the catalytic activity decreased with time-on-stream when the supporting amounts of NiO was small. By contrast, when the supporting amount of NiO was large, the catalytic activity improved with time-on-stream. The results using a NiO/γ-Al2O3 catalyst with small and large NiO loadings were similar to those of isobutane dehydrogenation and it was confirmed that the dehydrogenation activity was improved with time-on-stream in the catalytic dehydrogenations of ethane, propane, and isobutane using large NiO loadings. Intermediate behavior using a moderate amount of NiO loading, which was not detected in the dehydrogenation of isobutane, was also observed, which resulted in a maximum yield of either ethylene or propylene at 2.0 or 3.25 h on-stream, respectively. We concluded that the reason the catalytic activity did not improve with time-on-stream when using a NiO/γ-Al2O3 catalyst was because the supporting amount of NiO was too small. These results show that activity with time-on-stream could also be improved in the dehydrogenations of other alkanes.

Published
2022

27. Further structural characterization of the Echinococcus granulosus laminated layer carbohydrates: The blood-antigen P1-motif gives rise to branches at different points of the O-glycan chains

Author

Lin, Gerardo, primary, Todeschini, Adriane R, additional, Koizumi, Akihiko, additional, Neves, Jorge L, additional, González, Humberto, additional, Dematteis, Sylvia, additional, Hada, Noriyasu, additional, Previato, Jose O, additional, Ferreira, Fernando, additional, Mendonça-Previato, Lucia, additional, and Díaz, Alvaro, additional

Published
2012
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30. Synthesis of Unprecedented Sulfonylated Phosphono-exo-Glycals Designed as Inhibitors of the Three Mycobacterial Galactofuranose Processing Enzymes.

Author

Frédéric CJ, Tikad A, Fu J, Pan W, Zheng RB, Koizumi A, Xue X, Lowary TL, and Vincent SP

Subjects
Carbohydrates chemistry, Stereoisomerism, Carbohydrates chemical synthesis, Ethers chemistry, Mycobacterium chemistry, Uridine Diphosphate chemistry
Abstract

This study reports a new methodology to synthesize exo-glycals bearing both a sulfone and a phosphonate. This synthetic strategy provides a way to generate exo-glycals displaying two electron-withdrawing groups and was applied to eight different carbohydrates from the furanose and pyranose series. The Z/E configurations of these tetrasubstituted enol ethers could be ascertained using NMR spectroscopic techniques. Deprotection of an exo-glycal followed by an UMP (uridine monophosphate) coupling generated two new UDP (uridine diphosphate)-galactofuranose analogues. These two Z/E isomers were evaluated as inhibitors of UGM, GlfT1, and GlfT2, the three mycobacterial galactofuranose processing enzymes. Molecule 46-(E) is the first characterized inhibitor of GlfT1 reported to date and was also found to efficiently inhibit UGM in a reversible manner. Interestingly, GlfT2 showed a better affinity for the (Z) isomer. The three enzymes studied in the present work are not only interesting because, mechanistically, they are still the topic of intense investigations, but also because they constitute very important targets for the development of novel antimycobacterial agents., (© 2016 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2016
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31. Construction of a high-mannose-type glycan library by a renewed top-down chemo-enzymatic approach.

Author

Fujikawa K, Koizumi A, Hachisu M, Seko A, Takeda Y, and Ito Y

Subjects
Glycoside Hydrolases metabolism, Humans, N-Acetylglucosaminyltransferases metabolism, Acetylglucosamine chemistry, Glycoside Hydrolases chemistry, Mannose chemistry, N-Acetylglucosaminyltransferases chemistry, Polysaccharides chemistry
Abstract

A comprehensive method for the construction of a high-mannose-type glycan library by systematic chemo-enzymatic trimming of a single Man9-based precursor was developed. It consists of the chemical synthesis of a non-natural tridecasaccharide precursor, the orthogonal demasking of the non-reducing ends, and trimming by glycosidases, which enabled a comprehensive synthesis of high-mannose-type glycans in their mono- or non-glucosylated forms. It employed glucose, isopropylidene, and N-acetylglucosamine groups for blocking the A-, B-, and C-arms, respectively. After systematic trimming of the precursor, thirty-seven high-mannose-type glycans were obtained. The power of the methodology was demonstrated by the enzymatic activity of human recombinant N-acetylglucosaminyltransferase-I toward M7-M3 glycans, clarifying the substrate specificity in the context of high-mannose-type glycans., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2015
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