Structural and Dynamical Properties of a Full-length HIV-1 Integrase: Molecular Dynamics Simulations |
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| Authors: | Atchara Wijitkosoom Somsak Tonmunphean Thanh N. Truong Supot Hannongbua |
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| Affiliation: | 1. Department of Chemistry Faculty of Science , Chulalongkorn University , Patumwan, Bangkok , 10330 , Thailand;2. Department of Chemistry , University of Utah , 315 So. 1400 East, Rm 2020, Salt Lake City , Utah , 84102 , USA;3. Department of Chemistry Faculty of Science , Chulalongkorn University , Patumwan, Bangkok , 10330 , Thailand;4. Department of Chemistry , University of Utah , 315 So. 1400 East, Rm 2020, Salt Lake City , Utah , 84102 , USA |
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| Abstract: | Abstract The structural and dynamical properties of the complete full-length structure of HIV-1 integrase were investigated using Molecular Dynamics approach. Simulations were carried out for the three systems, core domain only (CORE), full-length structure without (FULL) and with a Mg2+ (FULL+ION) in its active site, aimed to investigate the difference in the molecular properties of the full-length models due to their different construction procedures as well as the effects of the two ends, C- and N-terminal, on those properties in the core domain. The full-length structure was prepared from the two experimental structures of two-domain fragment. The following properties were observed to differ significantly from the previous reports: (i) relative topology formed by an angle between the three domains; (ii) the cavity size defined by the catalytic triad, Asp64, Asp116, and Glul52; (iii) distances and solvation of the Mg2+; and (iv) conformation of the catalytic residues. In addition, the presence of the two terminal domains decreases the mobility of the central core domain significantly. |
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| Keywords: | Molecular dynamics HIV-1 integrase Full-length Structure |
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