(2016) Engineering and introduction of de novo disulphide bridges in organophosphorus hydrolase enzyme for thermostability improvement. Journal of Biosciences. pp. 577-588. ISSN 0250-5991
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Engineering and introduction of de novo disulphide bridges in organophosphorus hydrolase enzyme for thermostability improvement.pdf Download (3MB) |
Abstract
The organophosphorus hydrolase (OPH) has been used to degrade organophosphorus chemicals, as one of the most frequently used decontamination methods. Under chemical and thermal denaturing conditions, the enzyme has been shown to unfold. To utilize this enzyme in various applications, the thermal stability is of importance. The engineering of de novo disulphide bridges has been explored as a means to increase the thermal stability of enzymes in the rational method of protein engineering. In this study, Disulphide by Design software, homology modelling and molecular dynamics simulations were used to select appropriate amino acid pairs for the introduction of disulphide bridge to improve protein thermostability. The thermostability of the wild-type and three selected mutant enzymes were evaluated by half-life, Delta G inactivation (Delta Gi) and structural studies (fluorescence and far-UV CD analysis). Data analysis showed that half-life of A204C/T234C and T128C/E153C mutants were increased up to 4 and 24 min, respectively; however, for the G74C/A78C mutant, the half-life was decreased up to 9 min. For the T128C/E124C mutant, both thermal stability and Catalytic efficiency (kcat) were also increased. The half-life and Delta Gi results were correlated to the obtained information from structural studies by circular dichroism (CD) spectrometry and extrinsic fluorescence experiments; as rigidity increased in A204C/T2234C and T128C/E153C mutants, half-life and Delta Gi also increased. For G74C/A78C mutant, these parameters decreased due to its higher flexibility. The results were submitted a strong evidence for the possibility to improve the thermostability of OPH enzyme by introducing a disulphide bridge after bioinformatics design, even though this design would not be always successful.
Item Type: | Article |
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Keywords: | Bioinformatics design disulphide bridge organophosphorus chemicals organophosphorus hydrolase thermostability methyl parathion hydrolase thermal-stability degrading enzyme rational design stabilization flexibility mutagenesis proteins synthase increase Life Sciences & Biomedicine - Other Topics |
Divisions: | |
Page Range: | pp. 577-588 |
Journal or Publication Title: | Journal of Biosciences |
Journal Index: | ISI |
Volume: | 41 |
Number: | 4 |
Identification Number: | https://doi.org/10.1007/s12038-016-9643-8 |
ISSN: | 0250-5991 |
Depositing User: | مهندس مهدی شریفی |
URI: | http://eprints.bmsu.ac.ir/id/eprint/4771 |
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