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Signatures of Mechanosensitive Gating

Published 25 Oct 2017 in physics.bio-ph and cond-mat.soft | (1710.09081v1)

Abstract: The question of how mechanically-gated membrane channels open and close is notoriously difficult to address, especially if the protein structure is not available. This perspective highlights the relevance of micropipette-aspirated single-particle tracking--- used to obtain a channel's diffusion coefficient, $D$, as a function of applied membrane tension, $\sigma$--- as an indirect assay for determining functional behaviour in mechanosensitive channels. Whilst ensuring that the protein remains integral to the membrane, such methods can be used to identify not only the gating mechanism of a protein, but also associated physical moduli, such as torsional- and dilational-rigidity, which correspond to the protein's effective shape change. As an example, three distinct $D$ versus $\sigma$ "signatures" are calculated, corresponding to gating by dilation, gating by tilt, and a combination of both dilation and tilt. Both advantages and disadvantages of the approach are discussed.

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