Comparative Study
doi: 10.1038/nchembio.1405.
Epub 2013 Dec 1.
Pyridomycin bridges the NADH- and substrate-binding pockets of the enoyl reductase InhA
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- PMID: 24292073
- DOI: 10.1038/nchembio.1405
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Comparative Study
Pyridomycin bridges the NADH- and substrate-binding pockets of the enoyl reductase InhA
Nat Chem Biol.
2014 Feb.
Abstract
Pyridomycin, a natural product with potent antituberculosis activity, inhibits a major drug target, the InhA enoyl reductase. Here, we unveil the co-crystal structure and unique ability of pyridomycin to block both the NADH cofactor- and lipid substrate-binding pockets of InhA. This is to our knowledge a first-of-a-kind binding mode that discloses a new means of InhA inhibition. Proof-of-principle studies show how structure-assisted drug design can improve the activity of new pyridomycin derivatives.
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