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生物催化肉桂醇制备3-苯丙醇

张笮晦1,2,刘雄民1,马 丽1,陈晓水1   

  1. 1广西大学化学化工学院,广西 南宁 530004;2广西水产研究所,广西 南宁 530021
  • 出版日期:2010-12-05 发布日期:2010-12-05

Hydrogenation of cinnamyl alcohol to 3-phenylpropanol by biocatalysis

ZHANG Zuohui1,2,LIU Xiongmin1,MA Li1,CHEN Xiaoshui1   

  1. 1 School of Chemistry & Chemical Engineering,Guangxi University,Nanning 530004,Guangxi,China;2Guangxi Institute of Fisheries,Nanning 530021,Guangxi,China
  • Online:2010-12-05 Published:2010-12-05

摘要:

筛选到能催化肉桂醇生成3-苯丙醇的菌株CG10该菌株被鉴定为毛霉菌(Mucor sp.)。对其进行生物催化研究,用气相色谱-质谱联用仪、红外光谱仪、高效液相色谱仪对产物进行了表征。通过对微生物催化反应条件的优化及对底物的耐受性实验得到最优降解条件为:糊精质量浓度为3 g/L,蛋白胨质量浓度为1.6 g/L,反应体系初始 pH = 5,肉桂醇的初始加入量为2 mL/L30 反应24 h,二次加入量为0.5 mL/L,反应8 h3次加入量为0.5 mL/L,反应16 h。在此条件下肉桂醇的转化率为99%3-苯丙醇的选择性为92%,转化液中3-苯丙醇的产量较优化前提高了123%,达到2.9 g/ L

Abstract:

A CG10 strain was isolated which could transform cinnamyl alcohol to 3-phenylpropanol. The strain was proved as Mucor sp. by bacteria identification. The biocatalyzed reaction product was characterizated by GC-MSIR and HPLC. The optimized degradation conditions were found as 30 g/L dextrin16 g/L peptone with the initial cinnamyl alcohol addition amount of 2 mL/L at pH 5.0 under 30 for 24 h of reaction. The secondary cinnamyl alcohol addition amount was 0.5 mL/L for 8 h of reactionand the third cinnamyl alcohol addition amount was 0.5 mL/L for 16 h of reaction. Under the optimized conditionsthe conversion of cinnamyl alcohol was 99%the selectivity for 3-phenylpropanol was 92% and the yield of 3-phenylpropanol in the transformation liquid was up to 2.9 g/Lwhich was 123% higher than the control one.

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