圆柱假丝酵母脂肪酶在无机载体上的固定化研究

Q4 Chemical Engineering

分子催化 Pub Date : 1994-10-27 DOI:10.1016/0304-5102(94)00108-1

J.M. Moreno, J.V. Sinisterra

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引用次数: 53

摘要

以三氯三嗪为载体(氧化铝、二氧化硅和两种可控孔玻璃)，对圆柱假丝酵母脂肪酶进行共价固定化。确定了活化工艺的最佳条件(预处理、溶剂、活化剂/载体克数比和反应时间)。考察了酶的浓度和温度对固定化过程的影响。在二氧化硅和氧化铝上固定的衍生物表现出更大的残余活性，并且比在受控孔玻璃上固定的衍生物更能抵抗温度(50°C)的失活。在氧化铝和二氧化硅上得到的衍生物被用于水解(R,S) 2-苯基丙酸乙酯，只得到S(+)酸。讨论了NaI和cai对脂肪酶活性的影响。在50℃条件下，固定化产物的稳定性是天然酶的37倍，336 h后活性达到80%

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Immobilization of lipase from Candida cylindracea on inorganic supports

Lipase from Candida cylindracea has been covalently immobilized on trichlorotriazine activated supports (alumina, silica and two types of controlled pore glass). The optimum conditions of the activation process have been determined (pretreatment, solvent, gram of activating agent/gram of support ratio and reaction time). The influence of the enzyme concentration and of the temperature on the immobilization process has been evaluated. The immobilized derivatives on silica and alumina exhibited greater residual activity and were more resistant to inactivation by temperature (50°C) than their immobilized counterpart on controlled pore glasses. The derivatives obtained on alumina and silica have been used in the hydrolysis of (R,S) ethyl 2-phenylpropionate only yielding the S(+) acid. The influence of Na^I and Ca^II on the lipase activity is discussed. The immobilized derivative on silica, stored at 50°C, was 37 times more stable than the native enzyme and displayed 80% residual activity after 336 h of operating time

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来源期刊

分子催化 Chemical Engineering-Catalysis

CiteScore

1.50

自引率

0.00%

发文量

2959

期刊介绍： Journal of Molecular Catalysis (China) is a bimonthly journal, founded in 1987. It is a bimonthly journal, founded in 1987, sponsored by Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, under the supervision of Chinese Academy of Sciences, and published by Science Publishing House, which is a scholarly journal openly circulated both at home and abroad. The journal mainly reports the latest progress and research results on molecular catalysis. It contains academic papers, research briefs, research reports and progress reviews. The content focuses on coordination catalysis, enzyme catalysis, light-ribbed catalysis, stereochemistry in catalysis, catalytic reaction mechanism and kinetics, the study of catalyst surface states and the application of quantum chemistry in catalysis. We also provide contributions on the activation, deactivation and regeneration of homogeneous catalysts, solidified homogeneous catalysts and solidified enzyme catalysts in industrial catalytic processes, as well as on the optimisation and characterisation of catalysts for new catalytic processes. The main target readers are scientists and postgraduates working in catalysis in research institutes, industrial and mining enterprises, as well as teachers and students of chemistry and chemical engineering departments in colleges and universities. Contributions from related professionals are welcome.