溶液中 MscS 机械敏感通道构象状态的脉冲电子-电子双共振(PELDOR)光谱学研究。
Conformational state of the MscS mechanosensitive channel in solution revealed by pulsed electron-electron double resonance (PELDOR) spectroscopy.
机构信息
Biomedical Sciences Research Complex, University of St Andrews, North Haugh, St Andrews KY16 9ST, United Kingdom.
出版信息
Proc Natl Acad Sci U S A. 2012 Oct 2;109(40):E2675-82. doi: 10.1073/pnas.1202286109. Epub 2012 Sep 10.
Abstract
The heptameric mechanosensitive channel of small conductance (MscS) provides a critical function in Escherichia coli where it opens in response to increased bilayer tension. Three approaches have defined different closed and open structures of the channel, resulting in mutually incompatible models of gating. We have attached spin labels to cysteine mutants on key secondary structural elements specifically chosen to discriminate between the competing models. The resulting pulsed electron-electron double resonance (PELDOR) spectra matched predicted distance distributions for the open crystal structure of MscS. The fit for the predictions by structural models of MscS derived by other techniques was not convincing. The assignment of MscS as open in detergent by PELDOR was unexpected but is supported by two crystal structures of spin-labeled MscS. PELDOR is therefore shown to be a powerful experimental tool to interrogate the conformation of transmembrane regions of integral membrane proteins.
摘要
七聚体机械敏感的小电导通道(MscS)在大肠杆菌中提供了一个关键功能,因为它在双层张力增加时会打开。三种方法定义了通道的不同关闭和打开结构,导致相互不兼容的门控模型。我们已经将自旋标记物附着到关键二级结构元件上的半胱氨酸突变体上,这些突变体是专门选择来区分竞争模型的。所得的脉冲电子-电子双共振(PELDOR)光谱与 MscS 开放晶体结构的预测距离分布相匹配。其他技术衍生的 MscS 结构模型的预测拟合并不令人信服。通过 PELDOR 将 MscS 鉴定为去污剂中的开放状态出乎意料,但得到了两个自旋标记的 MscS 晶体结构的支持。因此,PELDOR 被证明是一种强大的实验工具,可以检测整合膜蛋白跨膜区域的构象。
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