Department of Anesthesiology and Reanimatology, Faculty of Medical Sciences, University of Fukui, Yoshida-gun, Japan.
Life Science Innovation Center, University of Fukui, Yoshida-gun, Japan.
FEBS Lett. 2024 Aug;598(16):1955-1966. doi: 10.1002/1873-3468.14956. Epub 2024 Jun 16.
This study investigated how membrane thickness and tension modify the gating of KcsA potassium channels when simultaneously varied. The KcsA channel undergoes global conformational changes upon gating: expansion of the cross-sectional area and longitudinal shortening upon opening. Thus, membranes impose differential effects on the open and closed conformations, such as hydrophobic mismatches. Here, the single-channel open probability was recorded in the contact bubble bilayer, by which variable thickness membranes under a defined tension were applied. A fully open channel in thin membranes turned to sporadic openings in thick membranes, where the channel responded moderately to tension increase. Quantitative gating analysis prompted the hypothesis that tension augmented the membrane deformation energy when hydrophobic mismatch was enhanced in thick membranes.
本研究探讨了在同时改变膜厚度和张力时,它们如何调节 KcsA 钾通道的门控。KcsA 通道在门控时经历全局构象变化:打开时横截面积扩大和纵向缩短。因此,膜对开放和关闭构象产生不同的影响,例如疏水性失配。在这里,通过接触气泡双层记录单通道开放概率,其中施加了在定义的张力下具有可变厚度的膜。在薄膜中完全打开的通道在厚膜中变成零星打开,其中通道对张力增加的响应适中。定量门控分析促使假设,当在厚膜中增强疏水性失配时,张力会增加膜变形能。
