Mikael Elias scite author profile

Numerous bacteria utilize molecular communication systems referred to as quorum sensing (QS) to synchronize the expression of certain genes regulating, among other aspects, the expression of virulence factors and the synthesis of biofilm. To achieve this process, bacteria use signaling molecules, known as autoinducers (AIs), as chemical messengers to share information. Naturally occurring strategies that interfere with bacterial signaling have been extensively studied in recent years, examining their potential to control bacteria. To interfere with QS, bacteria use quorum sensing inhibitors (QSIs) to block the action of AIs and quorum quenching (QQ) enzymes to degrade signaling molecules. Recent studies have shown that these strategies are promising routes to decrease bacterial pathogenicity and decrease biofilms, potentially enhancing bacterial susceptibility to antimicrobial agents including antibiotics and bacteriophages. The efficacy of QSIs and QQ enzymes has been demonstrated in various animal models and are now considered in the development of new medical devices against bacterial infections, including dressings, and catheters for enlarging the therapeutic arsenal against bacteria.

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Structural Basis for Natural Lactonase and Promiscuous Phosphotriesterase Activities

Elias

Dupuy

Merone

et al. 2008

Journal of Molecular Biology

164

165

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Mikael Elias

Catalytic Versatility and Backups in Enzyme Active Sites: The Case of Serum Paraoxonase 1

Interference in Bacterial Quorum Sensing: A Biopharmaceutical Perspective

Structural Basis for Natural Lactonase and Promiscuous Phosphotriesterase Activities

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