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- Title
Toward Mycobacterium tuberculosis DXR inhibitor design: homology modeling and molecular dynamics simulations.
- Authors
Singh, Nidhi; Avery, Mitchell A.; McCurdy, Christopher
- Abstract
Mycobacterium tuberculosis 1-deoxy- d-xylulose-5-phosphate reductoisomerase ( MtDXR) is a potential target for antitubercular chemotherapy. In the absence of its crystallographic structure, our aim was to develop a structural model of MtDXR. This will allow us to gain early insight into the structure and function of the enzyme and its likely binding to ligands and cofactors and thus, facilitate structure-based inhibitor design. To achieve this goal, initial models of MtDXR were generated using MODELER. The best quality model was refined using a series of minimizations and molecular dynamics simulations. A protein–ligand complex was also developed from the initial homology model of the target protein by including information about the known ligand as spatial restraints and optimizing the mutual interactions between the ligand and the binding site. The final model was evaluated on the basis of its ability to explain several site-directed mutagenesis data. Furthermore, a comparison of the homology model with the X-ray structure published in the final stages of the project shows excellent agreement and validates the approach. The knowledge gained from the current study should prove useful in the design and development of inhibitors as potential novel therapeutic agents against tuberculosis by either de novo drug design or virtual screening of large chemical databases.
- Subjects
MYCOBACTERIUM tuberculosis; MOLECULAR dynamics; CHEMICAL inhibitors; DRUGS; MYCOBACTERIUM
- Publication
Journal of Computer-Aided Molecular Design, 2007, Vol 21, Issue 9, p511
- ISSN
0920-654X
- Publication type
Article
- DOI
10.1007/s10822-007-9132-0