Microbial pathogenesis
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Microbial pathogenesis · May 2019
Molecular docking and biological evaluation of novel urea-tailed mannich base against Pseudomonas aeruginosa.
Emergence of multi-drug resistant bacterial pathogens is escalating and it is essential to develop novel strategies to combat these super bugs. LasR is a regulator switch that plays a vital role in quorum sensing (QS) and pathogenesis of Pseudomonas aeruginosa. The present study reports two novel Mannich base (1-(phenyl (o-tolylamino) methyl) urea and 3-((1H-Imidazole-1-yl) methylnaphthalene-2-ol with enhanced anti-QS and antibiofilm activities. ⋯ Importantly, C1 and C2 played a crucial role in antagonizing LasR receptor by forming H-bonds with Tyr47 in the LasR active site and the presence of urea moiety on one of the Mannich base was a discrete advantage. Taken together, the insilico and invitro assays revealed similar evidences, thus confirming the mode of action of the Mannich bases. Overall the findings will assist in drug designing and for developing newer drugs with Mannich bases and its derivatives for treatment of P. aeruginosa.