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化学工业与工程 2013, Vol. 30 Issue (2) :7-13    DOI:
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Attachment of Lipase on Amino Functionalized Titania Submicrospheres via Covalent Binding
WU Hong, LIANG Yanpeng, SHI Jiafu, WANG Xiaoli
School of Chemical Engineering and Technology, Tianjin University
Attachment of Lipase on Amino Functionalized Titania Submicrospheres via Covalent Binding
WU Hong, LIANG Yan-peng, SHI Jia-fu, WANG Xiao-li
School of Chemical Engineering and Technology, Tianjin University

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摘要 A facile and effective method for immobilized lipase was presented. The titania submicrospheres were synthesized via a modified sol-gel method followed by amino functionalization through the chelation between dopamine and titania. Lipase was covalently attached on the functionalized titania surface using glutaraldehyde as the cross linking agent. The loading ratio and relative activity of the immobilized lipase were 230 mg/g titania submicrospheres and 65%, respectively. The kinetic parameters including the Michaelis constant (Km) and the maximum reaction rate (Vmax) changed slightly after immobilization. Compared to free lipase, the immobilized lipase showed favorable pH stability, thermostability, recycling stability and storage stability. The immobilized lipase retained 90% activity after incubation at  50 ℃  for 2 h, while the free lipase retained only 60% activity. The immobilized lipase retained more than 80% activity after 8 batches.
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关键词lipase   titania   covalent   immobilization   stability     
Abstract: A facile and effective method for immobilized lipase was presented. The titania submicrospheres were synthesized via a modified sol-gel method followed by amino functionalization through the chelation between dopamine and titania. Lipase was covalently attached on the functionalized titania surface using glutaraldehyde as the cross linking agent. The loading ratio and relative activity of the immobilized lipase were 230 mg/g titania submicrospheres and 65%, respectively. The kinetic parameters including the Michaelis constant (Km) and the maximum reaction rate (Vmax) changed slightly after immobilization. Compared to free lipase, the immobilized lipase showed favorable pH stability, thermostability, recycling stability and storage stability. The immobilized lipase retained 90% activity after incubation at  50 ℃  for 2 h, while the free lipase retained only 60% activity. The immobilized lipase retained more than 80% activity after 8 batches.
Keywordslipase   titania   covalent   immobilization   stability     
Received 2012-11-10;
Fund:

National Science Foundation of China (21076145), the Natural Science Foundation of Tianjin (09JCYBJC06700) and the Program for New Century Excellent Talents in University (NCET-10-0623).

Corresponding Authors: Wu Hong, Tel:(022)23500086,E-mail:wuhong2000@gmail.com.      Email: wuhong2000@gmail.com
About author: Wu Hong, Tel:(022)23500086,E-mail:wuhong2000@gmail.com.
引用本文:   
WU Hong, LIANG Yanpeng, SHI Jiafu, WANG Xiaoli .Attachment of Lipase on Amino Functionalized Titania Submicrospheres via Covalent Binding[J].  化学工业与工程, 2013,30(2): 7-13
WU Hong, LIANG Yan-peng, SHI Jia-fu, WANG Xiao-li .Attachment of Lipase on Amino Functionalized Titania Submicrospheres via Covalent Binding[J].  Chemcial Industry and Engineering, 2013,30(2): 7-13
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