Continuous Asymmetric Reduction Of 4-Oxoisophorone By Thermophilic Bacteria Using A Hollow Fiber Reactor |
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| Authors: | Koji Sode Kazuhito Kajiwara Eiichi Tamiya Isao Karube Youichi Mikami Nobuaki Hori Tsuyoshi Yanagimoto |
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| Institution: |
a Research Laboratory of Resources Utilization, Tokyo Institute of Technology, Yokohama, Japan
b Central Research Institute, Japan Tobacco Inc, Yokohama, Japan
c Research Department, Engineering Division, NOK Corporation, Fujisawa-shi, Japan |
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| Abstract: | Continuous asymmetric reduction of 4-oxoisophorone by the thermophilic bacterium Thermomonospora curvata JTS321 was examined using three reactor systems: packed bed, fluidized bed and hollow fiber. T. curvata was immobilized in polyacrylamide-hydrazide gels when used in the packed and fluidized bed reactors. Of the three reactor systems, the highest productivity (964 mg.1-1.h-1) was observed in the fluidized bed reactor. However, many cells grew outside of the gel matrix, causing product contamination. The productivity of the hollow fiber reactor was 504 mg.1-1.h-1; the problem of cell contamination of the product was avoided, as the molecular cut-off of the hollow fibers (400 000) was of an appropriate size to prevent cell leakage to the product stream. We therefore consider that the hollow fiber reactor is most suitable for continuous microbial conversions. |
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| Keywords: | Thermophile asymmetric reduction hollow fiber 4-oxoisophorone |
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