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Publication Type : Book Chapter
Thematic Areas : Center for Computational Engineering and Networking (CEN)
Publisher : Springer
Source : Information and Communication Technologies, Springer, Number 101 (2010)
Campus : Amritapuri, Kochi
School : School of Biotechnology
Center : Computational Chemistry, Computational Engineering and Networking
Department : Center for Computational Engineering and Networking (CEN)
Year : 2010
Abstract : Chikungunya fever is an overwhelming, but non-fatal viral illness that has been reported in many parts of the country. The E1 domain of Q1El92_CHIKV virus that helps in binding with the host has been determined by using comparative homology modeling program MODELLER based on crystal structure of the homotrimer of fusion glycoprotein E1 from Semliki Forest virus as a template protein and it had 63% sequence identity. The modeled structure‘s energy was minimized and validated using structure validation server in which 82.8% of the residues were present in the most favored regions of the Ramachandran plot. Disulphide bonds which help in protein folding of the proteins were analyzed and it was found to be conserved for both the homologous and the modeled structures. The ion pairs which contribute to fusion of viral membranes and that help in solvent protein interactions were analyzed. Docking studies was carried out with various phytochemicals and it was found that osltamivir had the most stable interaction with the E1 domain of the Q1El92_CHIKV virus. Thus from the complex scoring and binding ability it was interpreted that Osltamivir could be a promising inhibitor for E1 domain of Q1El92_CHIKV virus as the drug target yet pharmacological studies have to confirm it.
Cite this Research Publication : C. S. Vasavi, R Devi, R., Anand, L., Varma, M. P., P. K. Krishnan Namboori, and , “Homology Modeling and Protein Ligand Interaction to Identify Potential Inhibitor for E1 Protein of Chikungunya”, in Information and Communication Technologies, Springer, 2010.