Investigation of micro-aqueous covalent immobilization of horseradish peroxidase by "conformation memory".
- Author:
Yixuan CAI
1
;
Junhua CHEN
;
Dongsheng YAO
;
Daling LIU
Author Information
1. Institute of Microbial Biotechnology, College of Life Science and Technology, JinaP University, Guangzhou 510632, China.
- Publication Type:Journal Article
- MeSH:
Chitosan;
chemistry;
Enzyme Stability;
Enzymes, Immobilized;
metabolism;
Freeze Drying;
Horseradish Peroxidase;
chemistry;
metabolism;
Protein Conformation;
Solvents
- From:
Chinese Journal of Biotechnology
2009;25(12):1969-1975
- CountryChina
- Language:Chinese
-
Abstract:
We has studied the feasibility of preventing protein from denature during covalent immobilization by "conformation memory", which was achieved by freeze-drying under enzyme active conformation and cross-linked with carrier under micro-aqueous media (MAM). Horseradish peroxidase (HRP) and chitosan beads have been used as the model enzyme and carrier. The MAM consisted of 99% dioxane and 1% water. We compared the immobilized HRP under MAM with that under traditional aqueous solvent, found that the optimum temperature of both was raised to 60 degrees C, and the optimum pH was 6.5. However, the MAM-immobilized HRP had shown less activity loss during usage and six times higher activity than that immobilized under aqueous solvent. After 30 min incubation at 70 degrees C, the MAM-immobilized HRP remained 75.42% activity while the aqueous-media-immobilized enzyme only 15.4%. The MAM-immobilized HRP has shown a better operation stability with 77.69% residue activity after 5 times of repeat operation while the aqueous-media-immobilized enzyme only 16.67%. In addition, the MAM-immobilized HRP had also shown more advantages when used in phenol removal. We constructed enzyme electrodes (CS-HRP-SWCNTs/Au) to further display the different properties of the two immobilized HRP. MAM-immobilized HRP-electrode has shown two times stronger response signal to H2O2 than that immobilized under aqueous media, which indicated a better enzyme activity of MAM-immobilized HRP. Our research demonstrated that the conformation memory, to some extent, did contribute to preventing protein from denaturing when use HRP as a model, and it is feasible to immobilize enzyme by covalent cross-linking method under micro-aqueous media.
