Department of Physiology and Developmental Biology, Brigham Young University, Provo, Utah, USA.
Biophys J. 2010 Apr 21;98(8):1486-93. doi: 10.1016/j.bpj.2009.11.055.
Gramicidin channels are archetypal molecular subjects for solid-state NMR studies and investigations of single-channel or cation conductance. Until now, the transitions between on and off conductance states have been thought, based on multichannel studies, to represent monomer <--> dimer reactions. Here we use a single-molecule deposition method (vesicle fusion to a planar bilayer) to show that gramicidin dimer channels do not normally dissociate when conductance terminates. Furthermore, the observation of two 13C peaks in solid-state NMR indicates very stable dichotomous conformations for both the first and second peptide bonds in the monomers, and a two-dimensional chemical exchange spectrum with a 12-s mixing time demonstrates that the Val1 carbonyl conformations exchange slowly, with lifetimes of several seconds. It is proposed that gramicidin channels are gated by small conformational changes in the channel near the permeation pathway. These studies demonstrate how regulation of conformations governing closed <--> open transitions may be achieved and studied at the molecular level.
短杆菌肽通道是固态 NMR 研究和单通道或阳离子传导研究的典型分子对象。到目前为止,基于多通道研究,人们认为开和关电导状态之间的转变代表单体<-->二聚体反应。在这里,我们使用单分子沉积方法(囊泡融合到平面双层)来证明当电导终止时,短杆菌肽二聚体通道通常不会解离。此外,固态 NMR 中观察到两个 13C 峰表明单体中第一个和第二个肽键都具有非常稳定的二分构象,并且具有 12 秒混合时间的二维化学交换谱表明 Val1 羰基构象缓慢交换,寿命数秒。据提议,短杆菌肽通道通过渗透途径附近通道中的小构象变化来进行门控。这些研究表明如何在分子水平上实现和研究控制关闭<-->开放转变的构象的调节。