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An overview of the privileged synthetic heterocycles as urease enzyme inhibitors: Structure–activity relationship

Saghi Sepehri, Mina Khedmati

2023Archiv der Pharmazie10 citationsDOI

Abstract

ions, found in some plants, bacteria, fungi, microorganisms, invertebrate animals, and animal tissues. Urease acts as a significant virulence factor, mainly in catheter blockage and infective urolithiasis as well as in the pathogenesis of gastric infection. Therefore, studies on urease lead to novel synthetic inhibitors. In this review, the synthesis and antiurease activities of a collection of privileged synthetic heterocycles such as (thio)barbiturate, (thio)urea, dihydropyrimidine, and triazol derivatives were described and discussed according to structure-activity relationship findings in search of the best moieties and substituents that are answerable for encouraging the desired activity even more potent than the standard. It was found that linking substituted phenyl and benzyl rings to the heterocycles led to potent urease inhibitors.

Topics & Concepts

UreaseThio-EnzymeChemistryBacteriaUreaIsozymeBiochemistryMicrobiologyCombinatorial chemistryStereochemistryBiologyGeneticsMicrobial Applications in Construction MaterialsSynthesis and biological activitySynthesis and Characterization of Heterocyclic Compounds
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