2022
DOI: 10.1021/acsami.2c01385
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Double-Edged Nanobiotic Platform with Protean Functionality: Leveraging the Synergistic Antibacterial Activity of a Food-Grade Peptide to Mitigate Multidrug-Resistant Bacterial Pathogens

Abstract: While persistent efforts are being made to develop a novel arsenal against bacterial pathogens, the development of such materials remains a formidable challenge. One such strategy is to develop a multimodel antibacterial agent which will synergistically combat bacterial pathogens, including multidrug-resistant bacteria. Herein, we used pediocin, a class IIa bacteriocin, to decorate Ag° and developed a double-edged nanoplatform (Pd-SNPs) that inherits intrinsic properties of both antibacterial moieties, which e… Show more

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Cited by 5 publications
(2 citation statements)
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References 67 publications
(107 reference statements)
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“…DiSC3(5) fluorescent dye can be absorbed by polarized cells and gathered in the phospholipid bilayer accompanied by fluorescence self-quenching. Once the membrane potential is disturbed, the dyes are released from cells and give off strong fluorescence, providing a manner to measure bacterial membrane potential [ 54 , 55 , 56 ]. As exhibited in Figure 7 , after incubation with different concentrations of coumarin 11f , the fluorescence intensity presented a dose-dependent increase, indicating that PHCI 11f could obviously dissipate the membrane potential and lead to membrane depolarization.…”
Section: Resultsmentioning
confidence: 99%
“…DiSC3(5) fluorescent dye can be absorbed by polarized cells and gathered in the phospholipid bilayer accompanied by fluorescence self-quenching. Once the membrane potential is disturbed, the dyes are released from cells and give off strong fluorescence, providing a manner to measure bacterial membrane potential [ 54 , 55 , 56 ]. As exhibited in Figure 7 , after incubation with different concentrations of coumarin 11f , the fluorescence intensity presented a dose-dependent increase, indicating that PHCI 11f could obviously dissipate the membrane potential and lead to membrane depolarization.…”
Section: Resultsmentioning
confidence: 99%
“…Silver nanoparticles (Ag NPs), which are used as a common antibacterial material, have been extensively studied in the past several decades [8,9], for example, in inhibiting the growth of bacteria [10], antimicrobial activity endurance [11], and the lack of risk of resistance of bacteria [12]. Relevant experiments have demonstrated the antibacterial mechanism of silver, that is, silver ions can cause the denaturation of proteins in the cell membrane of bacteria [13][14][15], and when the Ag + enters into the bacterial cell, it quickly combines with DNA in the cell and prevents the replication of the DNA double-helix structure [16]. It is commonly known that there is an accepted view of nanomaterials in a biological context, that is the smaller the particle size of the nanomaterial, the larger its specific surface area, which, in turn, makes it more biologically active [17,18].…”
Section: Introductionmentioning
confidence: 99%