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Influence of Calcium Ions on the Thermal Characteristics of α-amylase from Thermophilic Anoxybacillus sp. GXS-BL

[ Vol. 26 , Issue. 2 ]

Author(s):

Si-Ming Liao, Ge Liang, Jing Zhu, Bo Lu, Li-Xin Peng, Qing-Yan Wang, Yu-Tuo Wei, Guo-Ping Zhou* and Ri-Bo Huang*   Pages 148 - 157 ( 10 )

Abstract:


Background: α-Amylases are starch-degrading enzymes and used widely, the study on thermostability of α-amylase is a central requirement for its application in life science and biotechnology.

Objective: In this article, our motivation is to study how the effect of Ca2+ ions on the structure and thermal characterization of α-amylase (AGXA) from thermophilic Anoxybacillus sp.GXS-BL.

Methods: α-Amylase activity was assayed with soluble starch as the substrate, and the amount of sugar released was determined by DNS method. For AGXA with calcium ions and without calcium ions, optimum temperature (Topt), half-inactivation temperature (T50) and thermal inactivation (halflife, t1/2) was evaluated. The thermal denaturation of the enzymes was determined by DSC and CD methods. 3D structure of AGXA was homology modeled with α-amylase (5A2A) as the template.

Results: With calcium ions, the values of Topt, T50, t1/2, Tm and ΔH in AGXA were significantly higher than those of AGXA without calcium ions, showing calcium ions had stabilizing effects on α-amylase structure with the increased temperature. Based on DSC measurements AGXA underwent thermal denaturation by adopting two-state irreversible unfolding processes. Based on the CD spectra, AGXA without calcium ions exhibited two transition states upon unfolding, including α- helical contents increasing, and the transition from α-helices to β-sheet structures, which was obviously different in AGXA with Ca2+ ions, and up to 4 Ca2+ ions were located on the inter-domain or intra-domain regions according to the modeling structure.

Conclusion: These results reveal that Ca2+ ions have pronounced influences on the thermostability of AGXA structure.

Keywords:

α-amylase, calcium ions, circular dichroism, differential scanning calorimetry, homology modeling, thermostability.

Affiliation:

National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007, National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007, National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007, National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007, National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007, National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007, College of Life Science and Technology, Guangxi University, Nanning, Guangxi, 530004, National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007, National Engineering Research Center for Non-food Biorefinery, State Key Laboratory of Non-food Biomass and Enzyme Technology, Guangxi Key Laboratory of Bio-refinery, Guangxi Academy of Sciences, 98 Daling Road, Nanning, 530007

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