Publication | Closed Access
Cyclization and unsaturation rather than isomerisation of side chains govern the selective antibacterial activity of cationic-amphiphilic polymers
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Citations
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References
2016
Year
Side Chain ArchitectureEngineeringAntibiotic ResistanceDrug ResistancePolymersMembrane-active AgentsSelective Antibacterial ActivityAntimicrobial ResistancePolymer ChemistryAntibacterial AgentAntimicrobial CompoundPharmacologyBiomolecular EngineeringCationic-amphiphilic PolymersPolymer ScienceAmphiphilic SystemSide ChainsMedicinePolymer Reaction
Membrane-active agents represent a promising alternative to overcome antibiotic resistance. Here, we report cationic-amphiphilic polymers with variations in the side chain architecture such as cyclization, isomerization and unsaturation that resulted in potent antibacterial activity and low mammalian cell toxicity with a membrane-active mode of action.
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