Competition between protons and substrate for binding to the major facilitator superfamily multidrug/H+ antiporter MdtM

C. J. Law
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引用次数: 0

Abstract

Abstract Proton electrochemical gradient-driven multidrug efflux activity of representatives of the major facilitator superfamily (MFS) of secondary active transporters contributes to antimicrobial resistance of pathogenic bacteria. Integral to the mechanism of these transporters is a proposed competition between substrate and protons for the binding site of the protein. The current work investigated the competition between protons and antimicrobial substrate for binding to the Escherichia coli MFS multidrug/H+ antiporter MdtM by measuring the quench of intrinsic protein fluorescence upon titration of substrate tetraphenylphosphonium into a solution of purified MdtM over a range of pH values between pH 8.8 and 5.9. The results, which revealed that protons inhibit binding of substrate to MdtM in a competitive manner, are consistent with those reported in a study on the related MFS multidrug/H+ antiporter MdfA and provide further evidence that competition for binding between substrate and protons is a general feature of secondary multidrug efflux.
质子和底物之间的竞争,以结合到主要促进剂超家族多药/H+反转运体MdtM
摘要:次级活性转运体主要促进剂超家族(MFS)代表的质子电化学梯度驱动多药外排活性与病原菌的耐药有关。这些转运体的整体机制是提出的底物和质子之间对蛋白质结合位点的竞争。本研究通过测定底物四苯基磷在pH值为8.8 - 5.9的纯化MdtM溶液中固有蛋白荧光的猝灭,研究了质子和抗菌底物在与大肠杆菌MFS多药/H+反转运体MdtM结合时的竞争。结果表明,质子以竞争方式抑制底物与MdtM的结合,这与相关MFS多药/H+反转运体MdfA的研究结果一致,并进一步证明底物与质子之间的竞争结合是继发性多药外排的一般特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
1.50
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