| Autor: |
Gani, Osman A.B.S.M., Adekoya, Olayiwola A., Giurato, Laura, Spyrakis, Francesca, Cozzini, Pietro, Guccione, Salvatore, Winberg, Jan-Olof, Sylte, Ingebrigt |
| Zdroj: |
Biophysical Journal; February 2008, Vol. 94 Issue: 4 p1412-1427, 16p |
| Abstrakt: |
Three highly conserved active site residues (Ser, Tyr, and Lys) of the family of short-chain alcohol dehydrogenases/reductases (SDRs) were demonstrated to be essential for catalytic activity and have been denoted the catalytic triad of SDRs. In this study computational methods were adopted to study the ionization properties of these amino acids in SDRs from Drosophila melanogaster and Drosophila lebanonensis. Three enzyme models, with different ionization scenarios of the catalytic triad that might be possible when inhibitors bind to the enzyme cofactor complex, were constructed. The binding of the two alcohol competitive inhibitors were studied using automatic docking by the Internal Coordinate Mechanics program, molecular dynamic (MD) simulations with the AMBER program package, calculation of the free energy of ligand binding by the linear interaction energy method, and the hydropathic interactions force field. The calculations indicated that deprotonated Tyr acts as a strong base in the binary enzyme-NAD+ complex. Molecular dynamic simulations for 5ns confirmed that deprotonated Tyr is essential for anchoring and orientating the inhibitors at the active site, which might be a general trend for the family of SDRs. The findings here have implications for the development of therapeutically important SDR inhibitors. |
| Databáze: |
Supplemental Index |
| Externí odkaz: |
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