National Institutes of Health/National Institute of General Medical Sciences (NIH/NIGMS)
GM24485
米国
引用
ジャーナル: Proc Natl Acad Sci U S A / 年: 2022 タイトル: Molecular basis of multistep voltage activation in plant two-pore channel 1. 著者: Miles Sasha Dickinson / Jinping Lu / Meghna Gupta / Irene Marten / Rainer Hedrich / Robert M Stroud / 要旨: Voltage-gated ion channels confer excitability to biological membranes, initiating and propagating electrical signals across large distances on short timescales. Membrane excitation requires channels ...Voltage-gated ion channels confer excitability to biological membranes, initiating and propagating electrical signals across large distances on short timescales. Membrane excitation requires channels that respond to changes in electric field and couple the transmembrane voltage to gating of a central pore. To address the mechanism of this process in a voltage-gated ion channel, we determined structures of the plant two-pore channel 1 at different stages along its activation coordinate. These high-resolution structures of activation intermediates, when compared with the resting-state structure, portray a mechanism in which the voltage-sensing domain undergoes dilation and in-membrane plane rotation about the gating charge-bearing helix, followed by charge translocation across the charge transfer seal. These structures, in concert with patch-clamp electrophysiology, show that residues in the pore mouth sense inhibitory Ca and are allosterically coupled to the voltage sensor. These conformational changes provide insight into the mechanism of voltage-sensor domain activation in which activation occurs vectorially over a series of elementary steps.