在填充膜反应器中连续酶法生产木糖醇并同时进行辅酶再生。

Continuous enzymatic production of xylitol with simultaneous coenzyme regeneration in a charged membrane reactor.

作者信息

Nidetzky B, Neuhauser W, Haltrich D, Kulbe K D

机构信息

Division of Biochemical Engineering, Institute of Food Technology, Universität für Bodenkultur Wien, Peter Jordan-Strasse 82, A-1190 Vienna, Austria.

出版信息

Biotechnol Bioeng. 1996 Nov 5;52(3):387-96. doi: 10.1002/(SICI)1097-0290(19961105)52:3<387::AID-BIT4>3.0.CO;2-G.

DOI:10.1002/(SICI)1097-0290(19961105)52:3<387::AID-BIT4>3.0.CO;2-G

PMID:18629908

Abstract

We have developed a new process for the production of xylitol from D-xylose by enzyme technology. An NADH-dependent xylose reductase (XR) from Candida tenuis catalyzes the reduction of xylose, which is coupled to enzymatic oxidations of D-glucose or D-xylose by glucose dehydrogenase from Bacillus cereus to make achievable an up to 10,000-fold regeneration of NADH per cycle of discontinuous conversion. Using a simple kinetic model as a tool for process optimization, suitable conditions with regard to performance and stability of the multi-component reaction system were established, and 300 g/L of substrate could be converted in yields above 96% in one single batch reaction. Due to selective and over 98% complete retention of the native coenzyme by negatively charged nanofiltration membranes used in a continuously operated enzyme reactor, a specific productivity of 80 g xylitol per liter, day, and kilounit of XR was maintained over the 150-h reaction time with only a single dosage of NADH. (c) 1996 John Wiley & Sons, Inc.

摘要

我们已经开发出一种通过酶技术从D-木糖生产木糖醇的新工艺。来自纤细假丝酵母的一种依赖NADH的木糖还原酶（XR）催化木糖的还原反应，该反应与蜡状芽孢杆菌的葡萄糖脱氢酶对D-葡萄糖或D-木糖的酶促氧化反应相偶联，从而在每一个间歇转化循环中实现高达10000倍的NADH再生。使用一个简单的动力学模型作为工艺优化工具，确定了多组分反应体系在性能和稳定性方面的合适条件，并且在单次分批反应中可以将300 g/L的底物以高于96%的产率进行转化。由于在连续运行的酶反应器中使用的带负电荷的纳滤膜对天然辅酶具有选择性且保留率超过98%，在仅单次添加NADH的情况下，在150小时的反应时间内维持了每升、每天和每千单位XR 80 g木糖醇的比生产率。(c) 1996约翰威立父子出版公司

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在填充膜反应器中连续酶法生产木糖醇并同时进行辅酶再生。

Continuous enzymatic production of xylitol with simultaneous coenzyme regeneration in a charged membrane reactor.

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