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利用树脂吸附并结合包埋与交联的方法进行微生物胞外乳糖酶的固定化。固定化乳糖酶体现了良好的操作稳定性。以5%乳糖溶液为底物,分批反应11次后,乳糖水解率仍保持85%以上;在填充床反应器中进行连续水解乳糖实验,反应62天后,乳糖水解率保持在80%。
Abstract:The immobilized lactase was prepared by resin absorption, entrap and crosslink. It exhibited excellent operational stability. With 5% lactose as the substrate, the lactose hydrolysis was maintained at 85% after 11 cycles; the lactose hydrolysis was kept at 80% when the immobilized lactase was applied in the packed-bed reactor after 62 days.
[1]陆淳,檀志芬,邱泉若等,中国乳品工业[J],2005,33(8):41~42.
[2]许牡丹,檀志芬,食品研究与开发[J],2003,24(6):42~44.
[3]张伟,范云六,姚斌,微生物学报[J],2005,45(2):247~252.
[4]孙志浩,张伟,范云六等,一种微生物乳糖酶的固定化方法及其应用[P],CN200510080492.0.
[5]Ate?S.,Mehmeto?luü.,Process Biochemistry[J],1997,32(5):433~436.
[6]许牡丹,范金波,张嫱等,食品添加剂[J],2004,25(12):79,105~106.
[7]温燕梅,邱彩虹,湛江海洋大学学报[J],2001,21(4):42~46.
[8]石家骥,崔福绵,中国抗生素杂志[J],2001,26(5):334~336.
[9]李笃信,贾德民,周萍,华南理工大学学报(自然科学版)[J],1998,26(8):63~67.
[10]王芳芳,郑艺华,徐斐等,离子交换与吸附[J],2005,21(1):9~16.
[11]Greenberg N.A.,Mahoney R.R.,Process Biochemistry[J],1981,16(2):2~8,49.
[12]Satish C.Mohapatra,James T.Journal of Chemical Technology and Biotechnology[J],2000,75:519~525.
[13]薛屏,卢冠忠,郭杨龙等,功能高分子学报[J],2005,18(2):340~346.
[14]肖正华,张梦军,王云霞等,国外医药抗生素分册[J],2004,25(4):156~160.
基本信息:
中图分类号:Q814.2
引用信息:
[1]俞宏峰,孙志浩,郑璞,等.树脂吸附法制备固定化乳糖酶及其操作稳定性的研究[J].离子交换与吸附,2006(05):423-428.
基金信息:
国家自然科学基金(20476039);; 国家“973”(2003CB716008);; 长江学者和创新团队发展计划资助(IRT0532)