Effect of Urea on Activity and Conformation of a Glycoprotein 被引量：1

Effect of Urea on Activity and Conformation of a Glycoprotein

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摘要 The changes of the activity and conformation of Aspergillus niger phytase in urea were detected by farultraviolet circular dichroism （CD） spectra, fluorescence spectra, and enzyme activity assays. The results show that no enzyme activity can be detected after phytase is incubated for 10 h in 3.0 mol/L urea, even though at this urea concentration, less than 20% of the tertiary and secondary structures in the native enzyme changed. The inactivation reaction kinetics is found to be a monophasic first-order reaction, but the unfolding is a biphasic process consisting of two first-order reactions. The inactivation rates of the free enzyme and the substrate-enzyme complex are much faster than the conformational changes during urea denaturation. All of the results indicate that, as a glycoprotein, phytase＇s actiVity is strongly dependent on its conformational integrity. The phytase active sites seem to be located in a limited region in the molecule and display more conformational fragility and flexibility to denaturants than enzyme molecular structure as a whole. The changes of the activity and conformation of Aspergillus niger phytase in urea were detected by farultraviolet circular dichroism （CD） spectra, fluorescence spectra, and enzyme activity assays. The results show that no enzyme activity can be detected after phytase is incubated for 10 h in 3.0 mol/L urea, even though at this urea concentration, less than 20% of the tertiary and secondary structures in the native enzyme changed. The inactivation reaction kinetics is found to be a monophasic first-order reaction, but the unfolding is a biphasic process consisting of two first-order reactions. The inactivation rates of the free enzyme and the substrate-enzyme complex are much faster than the conformational changes during urea denaturation. All of the results indicate that, as a glycoprotein, phytase＇s actiVity is strongly dependent on its conformational integrity. The phytase active sites seem to be located in a limited region in the molecule and display more conformational fragility and flexibility to denaturants than enzyme molecular structure as a whole.

作者魏香王晓云周波周海梦

机构地区 Department of Biological Sciences and Biotechnology College of Life Science

出处《Tsinghua Science and Technology》 SCIE EI CAS 2006年第4期400-407,共8页 清华大学学报（自然科学版（英文版）

基金 Supported by the National Natural Science Foundation of China (No. 30471261)

关键词 PHYTASE urea denaturation INACTIVATION UNFOLDING phytase urea denaturation inactivation unfolding

分类号 Q513.2 [生物学—生物化学]

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