SecY复合体形成了一个能够进行离子识别的通道。
The SecY complex forms a channel capable of ionic discrimination.
作者信息
Dalal Kush, Duong Franck
机构信息
Department of Biochemistry and Molecular Biology, Life Sciences Institute, Faculty of Medicine, University of British Columbia, Vancouver, British Columbia, Canada.
出版信息
EMBO Rep. 2009 Jul;10(7):762-8. doi: 10.1038/embor.2009.87. Epub 2009 May 29.
Abstract
Protein translocation across the bacterial membrane occurs at the SecY complex or channel. The resting SecY channel is impermeable to small molecules owing to a plug domain that creates a seal. Here, we report that a channel loosely sealed, or with a plug locked open, does not, however, lead to general membrane permeability. Instead, strong selectivity towards small monovalent anions, especially chloride, is observed. Mutations in the pore ring-structure increase both the translocation activity of the channel and its ionic conductance, however the selectivity is maintained. The same ionic specificity also occurs at the onset of protein translocation and across the archaeal SecY complex. Thus, the ion-conducting characteristic of the channel seems to be conserved as a normal consequence of protein translocation. We propose that the pore ring-structure forms a selectivity filter, allowing cells to tolerate channels with imperfect plugs.
摘要
蛋白质穿过细菌膜的转运发生在SecY复合体或通道处。静止状态的SecY通道由于存在一个形成密封的塞子结构域而对小分子不可渗透。在此,我们报告称,一个密封松散或塞子锁定打开的通道,并不会导致细胞膜普遍通透。相反,观察到对单价小阴离子,尤其是氯离子具有很强的选择性。孔环结构中的突变增加了通道的转运活性及其离子电导率,但选择性得以维持。在蛋白质转运开始时以及跨古细菌SecY复合体时,同样会出现这种离子特异性。因此,通道的离子传导特性似乎作为蛋白质转运的正常结果而得以保留。我们提出,孔环结构形成了一个选择性过滤器,使细胞能够耐受塞子不完善的通道。
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