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Immobilization-stabilization of glucoamylase: Chemical modification of the enzyme surface followed by covalent attachment on highly activated glyoxyl-agarose supports

机译：葡糖淀粉酶的固定化稳定化：酶表面的化学修饰，然后共价附着在高度活化的乙醛-琼脂糖支持物上

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Commercial glucoamylase immobilizes very slowly on highly activated glyoxyl-agarose supports. The resulting derivatives were only 6-fold more stable than soluble enzyme. The unmodified glucoamylase, highly glycosylated, seems to have a low number of Lys able to react with glyoxyl groups on the support. Thus, the enzyme surface was highly enriched in amino groups by chemical modification of carboxyl groups (activated with carbodiimide) with ethylenediamine. The aminated enzyme preserves a good percentage of activity (80%) and it exhibits the same stability than unmodified enzyme. The aminated enzyme was immobilized very rapidly on highly activated glyoxyl-agarose support. The new resulting derivatives preserved 50% of activity and were more than 500-fold more stable than soluble enzyme in experiments of thermal inactivation. © 2010 Elsevier Ltd. All rights reserved.

机译：商业葡糖淀粉酶非常缓慢地固定在高度活化的乙醛-琼脂糖支持物上。所得衍生物的稳定性仅比可溶性酶高6倍。高度糖基化的未修饰的葡糖淀粉酶似乎具有少量Lys，能够与支持物上的乙醛基反应。因此，通过用乙二胺化学修饰羧基（被碳二亚胺激活），酶表面的氨基高度富集。胺化酶保留了很高的活性百分比（80％），并且与未修饰的酶具有相同的稳定性。胺化酶非常迅速地固定在高度活化的乙醛-琼脂糖支持物上。在热灭活实验中，新得到的衍生物保留了50％的活性，并且比可溶性酶稳定了500倍以上。 ©2010 ElsevierLtd。保留所有权利。

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Tardioli Paulo W.; Betancor Lorena; Mateo González César; Fernández-Lorente Gloria; Guisán José Manuel;
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年度 2012
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1. Immobilization-stabilization of glucoamylase: Chemical modification of the enzyme surface followed by covalent attachment on highly activated glyoxyl-agarose supports [J] . Paulo Waldir Tardioli, Marcelo Fernandes Vieira, Angelica Marquetotti Salcedo Vieira, Process Biochemistry . 2011,第1期

机译：葡糖淀粉酶的固定化稳定化：酶表面的化学修饰，然后共价附着在高度活化的乙醛-琼脂糖支持物上
2. Immobilization and stabilization of a cyclodextrin glycosyltransferase by covalent attachment on highly activated glyoxyl-agarose supports [J] . Ferrarotti SA, Bolivar JM, Mateo C, Biotechnology Progress . 2006,第4期

机译：通过共价附着在高度活化的乙醛-琼脂糖支持物上固定和稳定环糊精糖基转移酶
3. Effect of the support and experimental conditions in the intensity of the multipoint covalent attachment of proteins on glyoxyl-agarose supports:Correlation between enzyme-support linkages and thermal stability [J] . Justo Pedroche, Maria del Mar Yust, Cesar Mateo Enzyme and Microbial Technology . 2007,第5期

机译：载体和实验条件对乙醛-琼脂糖载体上蛋白质多点共价结合强度的影响：酶-载体键与热稳定性之间的关系
4. Chemical Modification of Surfaces Utilizing Non-Covalent Interactions [C] . Mu-San Chen, Walter J. Dressick, Terry L. Schull, Society of Photo-Optical Instrumentation Engineers Conference on Nanostructure Science, Metrology, and Technology . 2002

机译：非共价相互作用的表面的化学改性
5. Surface modification and chromophore attachment via ionic assembly and covalent fixation. [D] . Hubbell, Christopher Allen. 2009

机译：通过离子组装和共价固定进行表面修饰和生色团附着。
6. Covalent Attachment of Proteins to Solid Supports and Surfaces via Sortase-Mediated Ligation [O] . Lilyan Chan, Hannah F. Cross, Joseph K. She, 2007

机译：通过分选酶介导的连接将蛋白质共价附着于固体支持物和表面
7. Covalent immobilization of glucoamylase enzyme onto chemically activated surface of κ-carrageenan [O] . Mohamed E. Hassan, Qingyu Yang, Zhigang Xiao 2019

机译：将葡糖淀粉酶的共价固定在κ树壳蛋白的化学活性表面上
8. Flavin Cofactors Covalently Attached to Electron Conducting Supports. Electrochemical and Enzyme Activity [R] . Wingard, L. B., Narasimhan, K., Miyawaki, O. 1984

机译：Flavin Cofactors共价连接到电子传导支持物。电化学和酶活性

Immobilization-stabilization of glucoamylase: Chemical modification of the enzyme surface followed by covalent attachment on highly activated glyoxyl-agarose supports

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