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W2882141451 endingPage "343" @default.
W2882141451 startingPage "335" @default.
W2882141451 abstract "The droplet interface bilayer (DIB) method offers simple control over initial leaflet compositions in model membranes, enabling an experimental path to filling gaps in our knowledge about the interplay between compositional lipid asymmetry, membrane properties, and the behaviors of membrane-active species. Yet, the stability of lipid leaflet asymmetry in DIBs has received very little attention, particularly in the presence of peptides and ion channels that are often studied in DIBs. Herein, we demonstrate for the first time parallel, capacitance-based measurements of intramembrane potential with arrays of asymmetric DIBs assembled in a microfluidic device to characterize the stability of leaflet asymmetry over many hours in the presence and absence of membrane-active peptides. DIBs assembled from opposing monolayers of the ester (DPhPC) and ether (DOPhPC) forms of diphytanoyl-phosphatidylcholine yielded asymmetric bilayers with leaflet compositions that were stable for at least 18 h as indicated by a stable |137 mV| intramembrane potential. In contrast, the addition of surface-bound alamethicin peptides caused a gradual, concentration-dependent decrease in the magnitude of the dipole potential difference. Intermittent current-voltage measurements revealed that alamethicin in asymmetric DIBs also shifts the threshold voltage required to drive peptide insertion and ion channel formation. These outcomes take place over the course of 1 to 5 h after membrane formation, and suggest that alamethicin peptides promote lipid flip-flop, even in the un-inserted, surface-bound state, by disordering lipids in the monolayer to which they bind. Moreover, this methodology establishes the use of parallel electrophysiology for efficiently studying membrane asymmetry in arrays of DIBs." @default.
W2882141451 created "2018-07-19" @default.
W2882141451 creator A5021852362 @default.
W2882141451 creator A5025597821 @default.
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W2882141451 creator A5053153638 @default.
W2882141451 creator A5060187205 @default.
W2882141451 creator A5090544504 @default.
W2882141451 date "2019-01-01" @default.
W2882141451 modified "2023-10-02" @default.
W2882141451 title "Electrophysiological interrogation of asymmetric droplet interface bilayers reveals surface-bound alamethicin induces lipid flip-flop" @default.
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W2882141451 doi "https://doi.org/10.1016/j.bbamem.2018.07.001" @default.
W2882141451 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30006208" @default.
W2882141451 hasPublicationYear "2019" @default.
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