Induced Mutagenesis of High Lipase Productivity Strain and Immobilization of Produced Lipase

China Biotechnology

2009, Vol. 29

Issue (05): 88-94 DOI:

Induced Mutagenesis of High Lipase Productivity Strain and Immobilization of Produced Lipase

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Abstract A mutant strain RZ13 with high lipase productivity was obtained through treating the Rhizopus sp. RXF12 by UV and microwave, and its activity was 2.62fold of the original one. The high lipase productivity of the mutant strain could be inherited after repetitious subcultures．The optimal culture conditions of the RZ13 for producing lipase were studied．The lipase with highest activity (67.32U/ml) was obtained on the conditions of 25℃, pH 8.0, 5 %(v/v) single spore suspension (1×107spore/ml) and 120 r/min for 84h, and stable under 40℃ and pH 8.5. In addition, the lipase was immobilized by adsorption onto Mg-Al hydrotalcite at 25℃ for 4 h by screening carriers and optimizing the immobilization. The results showed that the optimal reaction temperature and pH were 35~55℃ and 7.5~9.0, respectively, much wider than the free lipase.

Key words： lipase;ultraviolet;microwave;mutation breeding;immobilization;hydrotalcite

Received: 18 September 2008 Published: 06 May 2009

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	YAN Kui
	ZENG Hong-Yan
	JIANG He
	SA Lian-Hui
	HUANG Li

Cite this article:

. Induced Mutagenesis of High Lipase Productivity Strain and Immobilization of Produced Lipase. China Biotechnology, 2009, 29(05): 88-94.

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https://manu60.magtech.com.cn/biotech/ OR https://manu60.magtech.com.cn/biotech/Y2009/V29/I05/88

［1］ Jaeger K E, Eggert T. Lipase for Biotechnology . Cur Opin Biotechnol,2002, 13: 390~397 ［2］颜兴和, 王栋, 徐岩. 根酶脂肪酶的研究进展. 工业微生物, 2005, 35(3): 45~49 Yan X H, Wang D, Xu Y.Industrial Microorganism, 2005, 35(3): 45~49 ［3］ Hiol A, Jonzo M D, Rugani N,et al. Purification and Characterization of an Extracellular Lipase from a Thermophilic Rhizopus oryzae Strain Isolated from Ppalm Fruit. Enzyme Microb Technol, 2000, 26: 421~430 ［4］ Sharma R, Chisti Y, Banerjee U C. Production, Purification, Characterization, and Applications of Lipase. Biotechnol Adv, 2001, 19(8): 627~667 ［5］高阳, 谭天伟, 聂开立, 等. 大孔树脂固定化脂肪酶及在微水相中催化合成生物柴油的研究. 生物工程学报, 2006, 22(1): 114~118 Gao Y, Tan T W, Nie K L, et al.Chin J Biotech, 2006, 22(1): 114~118 ［6］蔡宏举, 王满意, 周鑫, 等. 大孔载体制备及其固定化脂肪酶. 化工学报, 2007, 58(6): 1529~1534 Cai H J, Wang M Y, Zhou X, et al.Journal of Chemical Industry and Engineering, 2007, 58(6): 1529~1534 ［7］籍宏, 王艳辉, 马润宇. 水滑石固定化木瓜蛋白酶制备的研究. 北京化工大学学报, 自然科学版, 2004, 31(1): 26~29 Ji H, Wang Y H, Ma R Y.Journal of Beijing University of Chemical Technology(Natural Science Edition), 2004, 31(1): 26~29 ［8］邓欣, 曾虹燕, 冯震. 纳米晶镁铝水滑石制备机理及抗毒性研究. 功能材料, 2007, 38(6): 965~971 Deng X, Zeng H Y, Feng Z.Function Material, 2007, 38(6): 965~971 ［9］杨学昊, 尹春华, 傅四周, 等. 根酶脂肪酶发酵优化和酶性质的研究. 中国油脂, 2004, 29(7): 29~32 Yang X H, Yin C H, Fu S Z, et al.China Grease, 2004, 29(7): 29~32 ［10］徐岩, 谢红想, 王栋, 等. 一株根酶产脂肪酶发酵条件的研究. 工业微生物, 1999, 29(1): 6~10 Xu Y, Xie H X, Wang D, et al.Industrial Microbiology, 1999, 29(1): 6~10

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