AI Article Synopsis
- The study focuses on finding new drug candidates to combat tuberculosis, a leading global cause of death, by targeting the IGPD enzyme involved in histidine biosynthesis.
- Researchers screened 6063 diverse plant secondary metabolites (PSM) to identify effective inhibitors, highlighting 150 with favorable binding energies from various chemical classes.
- Three specific PSMs, Bismahanine, Ashwagandhanolide, and Daurisoline, showed promising results as IGPD inhibitors, forming stable complexes and demonstrating strong interactions with key amino acid residues in the enzyme's active site.
Article Abstract
() is one of the major causes of death worldwide and there is a pressing need for the development of novel drug leads. The Imidazole Glycerol Phosphate Dehydratase (IGPD) of is one of the key enzymes in the histidine biosynthesis pathway and has been recognized as the potentially underexploited drug target for anti-tuberculosis treatment. In the present study, 6063 structurally diverse plant secondary metabolites (PSM) were screened for their efficiency in inhibiting the catalytic activity of IGPD through molecular docking. The top 150 PSMs with the lowest binding energy represent the chemical classes, including Tannins (34%), Flavonoid Glycosides (14%), Terpene Glycosides (10%), Steroid Lactones (9.3%), Flavonoids (6.6%), Steroidal Glycosides (4.6%), etc. Bismahanine, Ashwagandhanolide, and Daurisoline form stable IGPD-inhibitor complexes with binding free energies of -291.3 ± 16.5, -279.0 ± 25.0, and -279.8 ± 17.6 KJ/mol, respectively, as determined by molecular dynamics simulations. These PSM demonstrated strong H-bond interactions with the amino acid residues Ile279, Arg281, and Lys276 in the catalytic region of IGPD, as revealed by structural snapshots. On the basis of our findings, these three PSM could be considered as possible leads against IGPD and should be explored and .Communicated by Ramaswamy H. Sarma.
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| http://dx.doi.org/10.1080/07391102.2023.2245486 | DOI Listing |
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