Issue 5, 2023

Synchronization of opening and closing of two gramicidin A channels pulled together by a linker: possible relevance to channel clustering

Abstract

The linear 15-mer peptide gramicidin A (gA) produced by Bacillus brevis is known to form the simplest natural ion channel in lipid membranes representing a head-to-head transmembrane dimer. Its incorporation into a planar lipid bilayer manifests itself in regular electrical current transitions. If two gA subunits are tightly connected by a water-soluble, flexible linker of a certain length, the current transitions become heterogeneous: in a part of them, the amplitude is almost twofold higher than that of a single channel, thereby demonstrating the synchronous opening of two single channels. The lifetime, i.e. the open-state duration, of this dual channel is by several orders of magnitude longer than that of the single channel. Here, we used the ideas of the theory of excitons to hypothesize about the mechanism of synchronous opening and closing of two adjacent channels. Two independent (uncoupled) single channels can be described by two independent conformational coordinates q1 and q2, while two closely located channels can exhibit collective behavior, if the coupling between them produces mixing of the individual states (q1,0) and (0,q2). We suppose that a similar phenomenon can occur not only with synthetic derivatives of gA, but also with such natural channel-forming peptide antibiotics and toxins as alamethicin and syringomycin. In particular, channel clustering observed with these peptides may be also associated with formation of collective conductance states, resulting from mixing of their monomeric states, which allows us to explain the fact that clusters of these channels transmit ions and nonelectrolytes of the same size as the original single channels.

Graphical abstract: Synchronization of opening and closing of two gramicidin A channels pulled together by a linker: possible relevance to channel clustering

Supplementary files

Article information

Article type
Paper
Submitted
19 Oct 2022
Accepted
06 Jan 2023
First published
07 Jan 2023

Phys. Chem. Chem. Phys., 2023,25, 3752-3757

Synchronization of opening and closing of two gramicidin A channels pulled together by a linker: possible relevance to channel clustering

V. I. Novoderezhkin, T. I. Rokitskaya, E. A. Kotova and Y. N. Antonenko, Phys. Chem. Chem. Phys., 2023, 25, 3752 DOI: 10.1039/D2CP04884A

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