转运底物决定多药耐药转运蛋白 EmrE 的交换速率。

Transported substrate determines exchange rate in the multidrug resistance transporter EmrE.

机构信息

Department of Biochemistry and Molecular Biophysics, Washington University, St. Louis School of Medicine, St. Louis, Missouri 63110.

出版信息

J Biol Chem. 2014 Mar 7;289(10):6825-6836. doi: 10.1074/jbc.M113.535328. Epub 2014 Jan 21.

DOI:10.1074/jbc.M113.535328

PMID:24448799

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3945343/

Abstract

EmrE, a small multidrug resistance transporter, serves as an ideal model to study coupling between multidrug recognition and protein function. EmrE has a single small binding pocket that must accommodate the full range of diverse substrates recognized by this transporter. We have studied a series of tetrahedral compounds, as well as several planar substrates, to examine multidrug recognition and transport by EmrE. Here we show that even within this limited series, the rate of interconversion between the inward- and outward-facing states of EmrE varies over 3 orders of magnitude. Thus, the identity of the bound substrate controls the rate of this critical step in the transport process. The binding affinity also varies over a similar range and is correlated with substrate hydrophobicity within the tetrahedral substrate series. Substrate identity influences both the ground-state and transition-state energies for the conformational exchange process, highlighting the coupling between substrate binding and transport required for alternating access antiport.

摘要

EmrE 是一种小型多药耐药转运蛋白，是研究多药识别与蛋白质功能之间偶联的理想模型。EmrE 只有一个小的结合口袋，必须容纳该转运蛋白识别的全范围不同的底物。我们研究了一系列四面体化合物和一些平面底物，以研究 EmrE 的多药识别和转运。在这里，我们表明，即使在这个有限的系列中，EmrE 的内向和外向构象之间的转换速率也相差 3 个数量级。因此，结合底物的身份控制了运输过程中这一关键步骤的速率。结合亲和力也在相似的范围内变化，并与四面体底物系列中的底物疏水性相关。底物的身份影响构象交换过程的基态和过渡态能量，突出了结合和运输之间的偶联，这是交替访问反向转运所必需的。

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