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Thermostabilization of Bacillus circulans xylanase: Computational optimization of unstable residues based on thermal fluctuation analysis

Authors
Joo, Jeong ChanPack, Seung PilKim, Yong HwanYoo, Young Je
Issue Date
10-1월-2011
Publisher
ELSEVIER SCIENCE BV
Keywords
Protein engineering; Thermostability; Flexibility; Molecular dynamics simulation; Computational design; Xylanase
Citation
JOURNAL OF BIOTECHNOLOGY, v.151, no.1, pp.56 - 65
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF BIOTECHNOLOGY
Volume
151
Number
1
Start Page
56
End Page
65
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/113278
DOI
10.1016/j.jbiotec.2010.10.002
ISSN
0168-1656
Abstract
Low thermostability often hampers the applications of xylanases in industrial processes operated at high temperature, such as degradation of biomass or pulp bleaching. Thermostability of enzymes can be improved by the optimization of unstable residues via protein engineering. In this study, computational modeling instead of random mutagenesis was used to optimize unstable residues of Bacillus circulans xylanase (Bcx). The thermal fluctuations of unstable residues known as important to the thermal unfolding of Bcx were investigated by the molecular dynamics (MD) simulations at 300 K and 330 K to identify promising residues. The N52 site in unstable regions showed the highest thermal fluctuations. Subsequently, computational design was conducted to predict the optimal sequences of unstable residues. Five optimal single mutants were predicted by the computational design, and the N52Y mutation showed the thermostabilization effect. The N52 residue is conserved in Bacillus species xylanases and the structure analysis revealed that the N52Y mutation introduced more hydrophobic clusters for thermostability, as well as a more favorable aromatic stacking environment for substrate binding. We confirm that flexible residues at high temperature in unstable regions can be promising targets to improve thermostability of enzymes. (C) 2010 Elsevier B.V. All rights reserved.
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