Does Membrane Thickness Affect the Transport of Selective Ions Mediated by Ionophores in Synthetic Membranes?

Macromolecular Rapid Communications
Mihai LomoraCornelia G Palivan

Abstract

Biomimetic polymer nanocompartments (polymersomes) with preserved architecture and ion-selective membrane permeability represent cutting-edge mimics of cellular compartmentalization. Here it is studied whether the membrane thickness affects the functionality of ionophores in respect to the transport of Ca2+ ions in synthetic membranes of polymersomes, which are up to 2.6 times thicker than lipid membranes (5 nm). Selective permeability toward calcium ions is achieved by proper insertion of ionomycin, and demonstrated by using specific fluorescence markers encapsulated in their inner cavities. Preservation of polymersome architecture is shown by a combination of light scattering, transmission electron microscopy, and fluorescence spectroscopy. By using a combination of stopped-flow and fluorescence spectroscopy, it is shown that ionomycin can function and transport calcium ions across polymer membranes with thicknesses in the range 10.7-13.4 nm (7.1-8.9 times larger than the size of the ionophore). Thicker membranes induce a decrease in transport, but do not block it due to the intrinsic flexibility of these synthetic membranes. The design of ion selective biomimetic nanocompartments represents a new path toward the development ...Continue Reading

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Citations

Feb 10, 2017·Journal of Molecular Modeling·Daniel Garcez S QuattrociocchiLeonardo Moreira da Costa
Oct 9, 2018·Langmuir : the ACS Journal of Surfaces and Colloids·Serena RigoCornelia G Palivan
Feb 4, 2021·ACS Central Science·Alisha J MillerRachel K O'Reilly

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