Theoretical study of active secondary transport: Unexpected differences in molecular mechanisms for antiporters and symporters

Date
2022
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AIP Publishing LLC
Abstract

Successful functioning of biological cells relies on efficient translocation of different materials across cellular membranes. An important part of this transportation system is membrane channels that are known as antiporters and symporters. They exploit the energy stored as a trans-membrane gradient of one type of molecules to transport the other types of molecules against their gradients. For symporters, the directions of both fluxes for driving and driven species coincide, while for antiporters, the fluxes move in opposite directions. There are surprising experimental observations that despite differing only by the direction of transport fluxes, the molecular mechanisms of translocation adopted by antiporters and symporters seem to be drastically different. We present chemical-kinetic models to quantitatively investigate this phenomenon. Our theoretical approach allows us to explain why antiporters mostly utilize a single-site transportation when only one molecule of any type might be associated with the channel. At the same time, the transport in symporters requires two molecules of different types to be simultaneously associated with the channel. In addition, we investigate the kinetic constraints and efficiency of symporters and compare them with the same properties of antiporters. Our theoretical analysis clarifies some important physical–chemical features of cellular trans-membrane transport.

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Berlaga, Alex and Kolomeisky, Anatoly B.. "Theoretical study of active secondary transport: Unexpected differences in molecular mechanisms for antiporters and symporters." The Journal of Chemical Physics, 156, (2022) AIP Publishing LLC: https://doi.org/10.1063/5.0082589.

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