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Peptides exert important biological functions but their application is hindered by their susceptibility to proteolysis and poor stability in vivo.Thus,functional peptide mimics have drawn a great deal of attention to address this challenge.Poly(2-oxazoline)s,a class of biocompatible and proteolysis-resistant polymer,can work as host defense peptide mimics without following the general membrane-targeting mecha-nism as shown in our previous work.This observation encouraged us to figure out if poly(2-oxazoline)s are special and break the general membrane-targeting mechanism of host defense peptides and their mimics.In this study,we aimed at the connection between structure and antibacterial mechanism of poly(2-oxazoline)s.A new γ-aminobutyric acid (GABA)-pendent poly(2-oxazoline) was synthesized and investigated to compare with glycine-pendent poly(2-oxazoline) in our previous study,with the former polymer has two extra CH2 groups in the sidechain to increase the hydrophobicity and amphiphilicity.Membrane depolarization assay suggested that incorporating two more CH2 groups into the sidechain of poly(2-oxazoline) resulted in a mechanism switch from DNA-targeting to membrane-targeting,which was supported by the slow time-kill kinetics and slightly distorted and sunken membrane morphol-ogy.Besides,GABA-pendent poly(2-oxazoline) showed potent activity against methicillin-resistant S.aureus and low hemolysis on human red blood cells.Moreover,repeated use of the antimicrobial poly(2-oxazoline) did not stimulate bacteria to obtain resistance,which was an obvious advantage of membrane-targeting antimicrobial agents.