Investigation on bioactive protection of LEA protein to insulin by molecular simulation |
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| Authors: | Daixi Li Baolin Liu Baisong Guo Fei Xu Chunsheng Yang Chenglung Chen |
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| Affiliation: | 1. Institute of Biothermal Engineering, University of Shanghai for Science and Technology , Shanghai , P.R. China dxli75@126.com;3. Institute of Biothermal Engineering, University of Shanghai for Science and Technology , Shanghai , P.R. China;4. Shanghai Tofflon Science and Technology Co., Ltd , Shanghai , P.R. China;5. Department of Chemistry , National Sun Yat-Sen University , Kaohsiung , Taiwan, ROC |
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| Abstract: | ![]()
Nowadays various protein medicines are increasingly playing a key role on treatment of many diseases, while the bioactivity of such kinds of protein medicines is unstable because of their heat sensitivity. In order to explore a protective method and to explain the protective mechanism of protein medicines, the bioactive protection of the late embryogenesis abundant (LEA) protein to insulin was researched by molecular dynamics simulation. The results suggest that LEA proteins preserve the native structure of the insulin well. Compared with the desiccated insulin without any protection, the structure of insulin protected by LEA protein have smaller values, more centralised configurational space, lower free energies and structural cluster more closer to the native structure. All the above results prove that the LEA protein does protect the bioactivity of insulin during desiccation. The LEA protein is a perfect bioactive protectant for heat-sensitive protein medicines. Such LEA proteins can match the shape of insulin and form multisite binding interaction with insulin. |
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| Keywords: | insulin late embryogenesis abundant protein bioactive protection replica exchange molecular dynamics simulation free-energy landscape |
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