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Homology modeling of lanosterol 14alpha-demethylase of Candida albicans and Aspergillus fumigatus and insights into the enzyme-substrate Interactions |
ShengC,ZhangW,ZhangM,SongY,JiH,ZhuJ,YaoJ,YuJ,YangS,ZhouY,LuJ |
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Homology modeling of lanosterol 14alpha-demethylase of Candida albicans and Aspergillus fumigatus and insights into the enzyme-substrate Interactions |
Sheng C,Zhang W,Zhang M,Song Y,Ji H,Zhu J,Yao J,Yu J,Yang S,Zhou Y,Lu J |
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Abstract: |
The crystal structure of 14alpha-sterol demethylase from Mycobacterium tuberculosis (MT_14DM) provides a good template for modeling the three dimensional structure of lanosterol 14alpha-demethylase, which is the target of azole antifungal agents. Homologous 3D models of lanosterol 14alpha-demethylase from Candida albicans (CA_14DM) and Aspergillus fumigatus (AF_14DM) were built on the basis of the crystal coordinates of MT_14DM in complex with 4-phenylimidazole and fluconazole. The reliability of the two models was assessed by Ramachandran plots, Profile-3D analysis, and by analyzing the consistency of the two models with the experimental data on the P450(14DM). The overall structures of the resulting CA_14DM model and AF_14DM model are similar to those of the template structures. The two models remain the core structure characteristic for cytochrome P450s and most of the insertions and deletions expose the molecular surface. The structurally and functionally important residues such as the heme binding residues, the residues lining the substrate access channel, and residues in active site were identified from the model. To explore the binding mode of the substrate with the two models, 24(28)-methylene-24,25-dihydrolanosterol was docked into the active site of the two models and hydrophobic interaction and hydrogen-bonding were found to play an important role in substrate recognition and orientation. These results provided a basis for experiments to probe structure-function relationships in the P450(14DM). Although CA_14DM and AF_14DM shared similar core structural character, the active site of the two models were quite different, thus allowing the rational design of specific inhibitors to the target enzyme and the discovery of novel antifungal agents with broad spectrum. |
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