Immobilization of Trehalose Synthase on Mesoporous Molecular Sieve

Immobilization of Trehalose Synthase on Mesoporous Molecular Sieve

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摘要 [ Objective] This study aimed to explore the immobitizatian of trehalose synthase on mesoporous molecular sieves. [ Method] With trehalose synthase produced by genetically engineered bacteria as experimental material, rnesoporous molecular sieve MCM-41 was used as a carrier for immobilization of trehalase syn- thase. Properties of trehalose synthase before and after immobilization were compared. [ Result ] Trehalose synthase could be immohihzed on mesoporous molecular sieve MCM-41 by using physical adsorption method. Immobilization of trehalose synthase achieved the best effect at pH 3.0, with enzyme amount of 62.5 mg/g and immobilization duration of 12 h. Compared with the free u, ehalose synthase, immobilized trehalose synthase showed significantly improved pH stability and thermal stability with repeatable operation, which was conducive to the utilization and storage of enzyme. [ Conclusion] This study provided theoretical basis for the devel- opment of new immobilized trehalose synthase. [ Objective] This study aimed to explore the immobitizatian of trehalose synthase on mesoporous molecular sieves. [ Method] With trehalose synthase produced by genetically engineered bacteria as experimental material, rnesoporous molecular sieve MCM-41 was used as a carrier for immobilization of trehalase syn- thase. Properties of trehalose synthase before and after immobilization were compared. [ Result ] Trehalose synthase could be immohihzed on mesoporous molecular sieve MCM-41 by using physical adsorption method. Immobilization of trehalose synthase achieved the best effect at pH 3.0, with enzyme amount of 62.5 mg/g and immobilization duration of 12 h. Compared with the free u, ehalose synthase, immobilized trehalose synthase showed significantly improved pH stability and thermal stability with repeatable operation, which was conducive to the utilization and storage of enzyme. [ Conclusion] This study provided theoretical basis for the devel- opment of new immobilized trehalose synthase.

作者 Hongli SHANG Ying GU

机构地区 Liaoning Medical College

出处《Agricultural Biotechnology》 CAS 2012年第2期28-31,共4页 农业生物技术（英文版）

基金 Supported by Fund of Liaoning Provincial Department of Education ( L2010335)

关键词 TREHALOSE Trehalose synthase Mesoporous molecular sieve IMMOBILIZATION Trehalose Trehalose synthase Mesoporous molecular sieve Immobilization

分类号 TQ925 [轻工技术与工程—发酵工程]

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1王炎,郑旭翰,姜兆华.有序介孔材料在生物医药领域中的应用[J].化学进展,2006,18(10):1345-1351. 被引量：14
2宋锡瑾,王杰.分子筛固定氨基酰化酶I的研究[J].高校化学工程学报,2004,18(5):617-620. 被引量：11
3Taguchi A,Schuth F.Ordered mesoporous materials in catalysis[].Microporous and Mesoporous Materials.2005
4Diaz J F,Balkus K J.Enzyme immobilization in MCM-41 molecular sieve[].Journal of Molecular Catalysis B Enzymatic.1996
5KRESGE C,LEONOWICZ M E,ROTH W J,et al.Composition of synthetic porous crystalline material,its synthesis[].US.1992

二级参考文献84

1李彦锋,李军荣,伏莲娣.固定化酶的制备及应用[J].高分子通报,2001(2):13-17. 被引量：51
2高波,陈静,朱广山,傅学奇,王春雷,裘式伦.介孔材料MCFs的合成及组装青霉素酰化酶的性质研究[J].高等学校化学学报,2004,25(11):1998-2000. 被引量：14
3高波,朱广山,付学奇,辛明红,陈静,王春雷,裘式纶.不同介孔材料固定青霉素酰化酶的稳定性研究[J].高等学校化学学报,2005,26(10):1852-1854. 被引量：21
4HU Bao-hua(胡宝华), WU Wei-jiang(吴维江)译. Immobilized Enzyme(固定化酶) [M]. Shijiazhuang(石家庄): Hebei People Press(河北人民出版社), 1981, 10-80.
5Duran Nelson,Rosa M A, Annibale A D, et al. Applications of laccase and tyrosinases (phenoloxidase)immobilized on different supports:A review [J]. Enzyme Microbial Technology, 2002, 31: 907-931.
6WU Cheng-we, LEE Jin-gang, LEE Wen-chien. Protein and enzyme immobilization on non-porous microspheres of polystyrene [J]. Biotechnol Appl Biochem , 1998, 27: 225-230.
7ZHANG Long-xiang(张龙翔), ZHANG Ting-fang(张庭芳), LI Ling-yuan(李令媛). Method and Technology of Biochemical Experiment(生化实验方法和技术) [M]. Bejing(北京): Higher Education Press(高等教育出版社), 1981.155.
8LI Jian-wu(李建武), YU Rui-yuan(余瑞元), YUAN Ming-xiu, et al (袁明秀等). Principle and Method of Biochemical Experiment(生物化学实验原理和方法) [M]. Bejing(北京): Bejing University Press(北京大学出版社), 1994, 174.
9SU Er-fu(苏尔馥), HU Zhang-zu(胡章助)译. Bioreaction Engineering (生物反应工程) [M]. Shanghai (上海): Shanghai Science Technology Press(上海科学技术出版社), 1989, 27.
10Fan J, Lei J, Zhao D Y, et al. Chem. Commun., 2003, 2140-2141

共引文献20

1郭红彦,赵林,宋正孝,杨瑞东.DEAE-D/H树脂固定化氨基酰化酶[J].化工进展,2006,25(5):538-541. 被引量：3
2徐坚,王玉军,骆广生,戴猷元.膜材料的亲疏水性对固定化脂肪酶的影响[J].高校化学工程学报,2006,20(3):395-400. 被引量：13
3李丽,薛屏.介孔分子筛在生物酶固定化中的应用[J].化学研究与应用,2007,19(1):10-16. 被引量：13
4杨昊,杨笑鹤,武恩贺,潘敏,陈裕泉.亲水纳米二氧化硅修饰丝网印刷碳糊电极的改进性能研究[J].分析化学,2007,35(10):1475-1478. 被引量：2
5王炎,郑旭翰,赵敏.漆酶在介孔分子筛MCM-41上的固定化研究[J].高校化学工程学报,2008,22(1):83-87. 被引量：20
6刘璘,梅乐和,柳行,谢世俱,姚黎存.酶催化制备p-羟基苯乙基β-D-葡萄糖苷过程强化[J].高校化学工程学报,2009,23(1):87-91. 被引量：5
7魏美英,邱芹,刘世权.Al_2O_3-SiO_2复合中空微球的制备与表征[J].山东陶瓷,2009,32(1):3-7.
8张海东.药物在有序介孔氧化硅纳米孔道中组装与控缓释研究进展[J].材料导报,2009,23(15):88-91. 被引量：5
9尚宏丽,顾英.介孔分子筛固定化海藻糖合酶的研究[J].安徽农业科学,2012,40(10):6173-6176. 被引量：2
10王亮亮,刘雪松,宋伟明,邓启刚.α-淀粉酶在MCM-41介孔分子筛上的固定化研究[J].日用化学工业,2012,42(3):196-200. 被引量：4

1王家东,张茜,侯红萍.介孔分子筛MCM-41固定糖化酶的研究[J].中国酿造,2013,32(1):116-119. 被引量：2
2肖宁,赵炳超,王艳辉,马润宇.介孔分子筛MCM-41固定化木瓜蛋白酶的研究[J].北京化工大学学报（自然科学版）,2005,32(4):41-43. 被引量：7
3张梦娟,郭艳丽,阎宏涛,张昆.金纳米微粒修饰毛细管电泳分离蛋白质的研究[J].分析科学学报,2011,27(1):1-5. 被引量：5
4徐鹏,吴克,俞志敏,金杰,彭书传.介孔分子筛MCM-41固定中性脂肪酶条件的研究[J].生物学杂志,2012,29(3):27-30.
5王炎,郑旭翰,赵敏.漆酶在介孔分子筛MCM-41上的固定化研究[J].高校化学工程学报,2008,22(1):83-87. 被引量：20
6姜廷顺,李梅,李艳慧,李萌,殷恒波.采用负载铁的介孔分子筛催化模板剂合成多壁碳纳米管[J].硅酸盐学报,2009,37(9):1490-1494. 被引量：3
7宁华,王戈林,沈萍.酪氨酸酶基因工程菌所产黑色素的性质研究[J].湖北第二师范学院学报,1999,0(5):63-66. 被引量：3
8卓俊睿,陈永正.生物催化硫醚底物的不对称氧化反应研究进展[J].合成化学,2015,23(5):456-460. 被引量：1
9高贵,韩四平,王智,翁梁,王柏婧,冯雁,曹淑桂.硅藻土固定化脂肪酶[J].吉林大学学报（理学版）,2002,40(3):324-326. 被引量：30
10尹伟.Fluorescence of Nanosized Composite of Mesoporous Molecular Sieve and Europium (Ⅲ) Complex[J].Journal of Rare Earths,2004,22(S1):1-7.

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Immobilization of Trehalose Synthase on Mesoporous Molecular Sieve

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