次级膜转运蛋白的离子释放态。
Ion-releasing state of a secondary membrane transporter.
出版信息
Biophys J. 2009 Dec 2;97(11):L29-31. doi: 10.1016/j.bpj.2009.09.005.
Abstract
The crystal structure of Na(+)-coupled galactose symporter (vSGLT) reports the transporter in its substrate-bound state, with a Na(+) ion modeled in a binding site corresponding to that of a homologous protein, leucine transporter (LeuT). In repeated molecular dynamics simulations, however, we find the Na(+) ion instable, invariably and spontaneously diffusing out of the transporter through a pathway lined by D189, which appears to facilitate the diffusion of the ion toward the cytoplasm. Further analysis of the trajectories and close structural examination, in particular, comparison of the Na(+)-binding sites of vSGLT and LeuT, strongly indicates that the crystal structure of vSGLT actually represents an ion-releasing state of the transporter. The observed dynamics of the Na(+) ion, in contrast to the substrate, also suggests that the cytoplasmic release of the Na(+) ion precedes that of the substrate, thus shedding light on a key step in the transport cycle of this secondary transporter.
摘要
Na(+)-偶联半乳糖转运蛋白(vSGLT)的晶体结构报告了转运蛋白在其底物结合状态下的结构,其中一个钠离子模型位于与同源蛋白亮氨酸转运蛋白(LeuT)相对应的结合位点中。然而,在反复的分子动力学模拟中,我们发现钠离子不稳定,总是自发地通过由 D189 排列的途径扩散出转运蛋白,这似乎促进了离子向细胞质的扩散。对轨迹的进一步分析和结构的仔细检查,特别是对 vSGLT 和 LeuT 的钠离子结合位点的比较,强烈表明 vSGLT 的晶体结构实际上代表了转运蛋白的离子释放状态。与底物相比,观察到的钠离子动力学也表明,钠离子的细胞质释放先于底物的释放,从而为这个次级转运蛋白的运输循环中的一个关键步骤提供了线索。
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