Kinetic Resolution of Enantiomers in Enantiomerically Enriched 2-Alkanol by Pseudomonas cepacia Lipase Catalyzed Transesterification with Vinyl Acetate in Organic Solvent
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概要
- 論文の詳細を見る
Kinetic resolution of (R )- and (S )-2-alkanols by Pseudomonas cepacia lipase catalyzed transesterification has been studied using vinyl acetate as an acetylating reagent, six 2-alkanols and three organic solvents. The optical resolution of (S )-2-alkanol with enantiomeric excess (ee ) >95% was attained by controlling the extent of conversion, but (R )-2-alkanol with ee>95% could not resolved from the racemate due to the moderate enantioselectivity. New equations as functions of the optical resolution data were introduced for predicting the ee values of enantiomers resolved by the transesterification with enantiomerically enriched 2-alkanol and they were experimentally verified: the predicted and experimentally obtained ee values showed an excellent agreement in all systems studied. Based on these observations, optically pure (R )- and (S )-2-alkanols (ee≥99%) were resolved from the racemates in a preparative scale by repeating the transesterification.
- 日本油化学会の論文
- 2003-02-01
著者
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Kamo Naoki
Graduate School of Life Science, Hokkaido University
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Kamo Naoki
Graduate School Of Pharmaceutical Sciences Hokkaido University
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Chen Y‐g
Research Institute Of Higher Education Programs Hokkaido Tokai University
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HIRATA Hirofumi
Department of Bioscience and Technology, School of Engineering, Hokkaido Tokai University
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OHNO Masako
Graduate School of Pharmaceutical Sciences, Hokkaido University
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KAWAUCHI Keiyo
Department of Bioscience and Technology, School of Engineering, Hokkaido Tokai University
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MAYAMA Motomi
Department of Bioscience and Technology, School of Engineering, Hokkaido Tokai University
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CHEN Yun-Gang
Research Institute of Higher Education Programs, Hokkaido Tokai University
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YANAGISHITA Hiroshi
AIST Tsukuba Central 5, National Institute of Advanced industrial Science
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Ohno Masako
Graduate School Of Pharmaceutical Sciences Hokkaido University
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Mayama M
Department Of Bioscience And Technology School Of Engineering Hokkaido Tokai University
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Mayama Motomi
Department Of Bioscience And Technology School Of Engineering Hokkaido Tokai University
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Kamo N
Graduate School Of Pharmaceutical Sciences Hokkaido University
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Yanagishita H
Aist Tsukuba Central 5 National Institute Of Advanced Industrial Science And Technology
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Yanagishita Hiroshi
Aist Tsukuba Central 5 National Inst. Of Advanced Industrial Sci. And Technol.
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Hirata Hirofumi
Department Of Bioscience And Technology School Of Engineering Hokkaido Tokai University
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