Yee A S, Corley D E, McNamee M G
Biochemistry. 1986 Apr 22;25(8):2110-9. doi: 10.1021/bi00356a040.
The effects of thiol-group modifications on acetylcholine receptor (ACHR) function were measured with purified ACHR reconstituted into asolectin vesicles. N-Phenylmaleimide (NPM) was used to modify sulfhydryl groups on ACHR in the absence of any prior reduction of dithiothreitol, so that only the functional relevance of free sulfhydryls was examined. Modification by NPM led to the inhibition of ion-channel activity without a detectable effect on ligand binding. The ion flux inhibition by NPM primarily affected channel activation, since the initial rates of activation were decreased over a wide range of carbamylcholine concentrations. The [3H]NPM subunit labeling pattern of ACHR (a multisubunit membrane protein with alpha 2 beta gamma delta stoichiometry) revealed that there was preferential labeling of the gamma subunit. At high NPM concentrations, the number of sulfhydryl groups on the gamma subunit that could be modified with NPM was approximately two. Detergent was required during labeling for functionally relevant thiol-group modifications, and most of the label was protected from protease digestion in the reconstituted membranes. These results are consistent with the presence of the NPM modification in a bilayer and/or cytoplasmic domain.
用重组到大豆卵磷脂囊泡中的纯化乙酰胆碱受体(ACHR)测量巯基修饰对ACHR功能的影响。在没有预先用二硫苏糖醇还原的情况下,使用N-苯基马来酰亚胺(NPM)修饰ACHR上的巯基,以便仅研究游离巯基的功能相关性。NPM修饰导致离子通道活性受到抑制,而对配体结合没有可检测到的影响。NPM对离子通量的抑制主要影响通道激活,因为在广泛的氨甲酰胆碱浓度范围内,激活的初始速率降低。ACHR(一种具有α2βγδ化学计量比的多亚基膜蛋白)的[3H]NPM亚基标记模式显示,γ亚基存在优先标记。在高NPM浓度下,可用NPM修饰的γ亚基上的巯基数约为两个。标记过程中需要去污剂以进行功能相关的巯基修饰,并且在重组膜中大部分标记物受到蛋白酶消化的保护。这些结果与双层和/或细胞质结构域中存在NPM修饰一致。
