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Determination of ligand position in aspartic proteases by correlating tanimoto coefficient and binding affinity with root mean square deviation
Sandra Megantara, Maria Immaculata Iwo, Jutti Levita, Slamet Ibrahim
Universitas Padjadjaran, Journal of Applied Pharmaceutical Science Vol. 6 (01), pp. 125-129, January, 2016 Available online at https://www.japsonline.com DOI: 10.7324/JAPS.2016.600120 ISSN 2231-3354
Bahasa Inggris
Universitas Padjadjaran, Journal of Applied Pharmaceutical Science Vol. 6 (01), pp. 125-129, January, 2016 Available online at https://www.japsonline.com DOI: 10.7324/JAPS.2016.600120 ISSN 2231-3354
HIV-1 protease, inhibitoraspartic protease, plasmepsins, structure-based virtual screening.
The objective of this study was to develop and validate of Structure-Based Virtual Screening (SBVS) protocol which was used to select the best pose of inhibitor-aspartic protease complex interaction in the active sites of HIV-1 protease, plasmepsin I, II, and IV. Retrospective validation was performed on enhanced dataset of ligands and decoys (DUD-E) for HIV-1 protease. The crystal structures 1XL2, 3QS1, 1SME, and 1LS5 were obtained from Protein Data Bank. The protocol was then challenged to re-dock the ligands to its origin places in the active sites by correlating Tanimoto coefficient (Tc) and binding affinity (Ei) with Root Mean Square Deviation (RMSD). Enrichment factor at 1% false positives (EF1%) values for Tc and Ei were 18.26 and 9.03, respectively, while the Area Under Curve (AUC) values for Tc and Ei were 76.84 and 60.95. The SBVS protocol was validand showed better virtual screening qualities in ligand identification for HIV-1 protease compared to the originalprotocol accompanying the release of DUD-E and showed its ability to reproduce the co-crystal pose in the HIV1 protease, plasmepsin I,II,and IV to its origin places in the active sites.