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Lipid nanodomains change ion channel function.


ABSTRACT: Signaling proteins and neurotransmitter receptors often associate with saturated chain and cholesterol-rich domains of cell membranes, also known as lipid rafts. The saturated chains and high cholesterol environment in lipid rafts can modulate protein function, but evidence for such modulation of ion channel function in lipid rafts is lacking. Here, using raft-forming model membrane systems containing cholesterol, we show that lipid lateral phase separation at the nanoscale level directly affects the dissociation kinetics of the gramicidin dimer, a model ion channel.

SUBMITTER: Weinrich M 

PROVIDER: S-EPMC5599369 | biostudies-literature | 2017 Sep

REPOSITORIES: biostudies-literature

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Lipid nanodomains change ion channel function.

Weinrich Michael M   Worcester David L DL   Bezrukov Sergey M SM  

Nanoscale 20170901 35


Signaling proteins and neurotransmitter receptors often associate with saturated chain and cholesterol-rich domains of cell membranes, also known as lipid rafts. The saturated chains and high cholesterol environment in lipid rafts can modulate protein function, but evidence for such modulation of ion channel function in lipid rafts is lacking. Here, using raft-forming model membrane systems containing cholesterol, we show that lipid lateral phase separation at the nanoscale level directly affect  ...[more]

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