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Mutants of Helicobacter pylori IMPDH: Kinetics and in silico Studies to Determine the Structural and Functional Role of Key Amino Acids.

Haritha DilipGayathri PurushothamanGaurav SharmaAishwarya MenonVijay ThiruvenkatamSivapriya Kirubakaran
Published in: Chemistry, an Asian journal (2022)
The emergence of antibiotic-resistant strains of Helicobacter pylori necessitates the development of novel therapeutic strategies to fight against its infection. Recently, the enzyme inosine-5'-monophosphate dehydrogenase (IMPDH) has emerged as a promising target to treat bacterial infections due to its crucial role in the de novo purine biosynthesis pathway. The differences between the prokaryotic and eukaryotic IMPDHs, in the NAD + binding domain and flap region, allow the identification of pathogen-specific inhibitors. In the present study, seven point mutants of wild type Helicobacter pylori IMPDH are constructed by site-directed mutagenesis, and characterized using in silico and kinetic studies. Point mutations in the NAD + binding domain and the flap region are shown to impart significant changes in the enzyme's structure and function. In addition, the product inhibition characteristics of the Arg396-Tyr397 dyad (RY dyad) show that both the residues are important for water activation in the reaction. The results obtained are beneficial for the design and development of small-molecule inhibitors, capable of species-specific inhibition.
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