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pH驱动的DLC8构象动力学及二聚体到单体的转变

pH driven conformational dynamics and dimer-to-monomer transition in DLC8.

作者信息

Mohan P M Krishna, Barve Maneesha, Chatterjee Amarnath, Hosur Ramakrishna V

机构信息

Department of Chemical Sciences, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400 005, India.

出版信息

Protein Sci. 2006 Feb;15(2):335-42. doi: 10.1110/ps.051854906. Epub 2005 Dec 29.

DOI:10.1110/ps.051854906
PMID:16385004
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2242461/
Abstract

Dynein light chain protein, a part of the cytoplasmic motor assembly, is a homodimer at physiological pH and dissociates below pH 4.5 to a monomer. The dimer binds to a variety of cargo, whereas the monomer does not bind any of the target proteins. We report here the pH induced stepwise structural and motional changes in the protein, as derived from line broadening and 15N transverse relaxation measurements. At pH 7 and below until 5, partial protonation and consequent interconversion between molecules carrying protonated and neutral histidines, causes conformational dynamics in the dimeric protein and this increases with decreasing pH. Enhanced dynamics in turn leads to partial loosening of the structure. This would have implications for different efficacies of binding by target proteins due to small variations in pH in different parts of the cell, and hence for cargo trafficking from one part to another. Below pH 5, enhanced charge repulsions, partial loss of hydrophobic interactions, and destabilization of H-bonds across the dimer interface cause further loosening of the dimeric structure, leading eventually to the dissociation of the dimer.

摘要

动力蛋白轻链蛋白是细胞质运动组件的一部分,在生理pH值下为同型二聚体,在pH值低于4.5时解离为单体。二聚体可结合多种货物,而单体不结合任何靶蛋白。我们在此报告了由谱线展宽和15N横向弛豫测量得出的该蛋白在pH诱导下的逐步结构和运动变化。在pH 7及以下直至5时,部分质子化以及携带质子化组氨酸和中性组氨酸的分子之间随之发生的相互转化,导致二聚体蛋白的构象动力学变化,且这种变化随pH值降低而增加。动力学增强进而导致结构部分松弛。这可能会因细胞不同部位pH值的微小变化而影响靶蛋白结合的不同效率,从而影响货物从一个部位运输到另一个部位。在pH 5以下,电荷排斥增强、疏水相互作用部分丧失以及二聚体界面处氢键的不稳定导致二聚体结构进一步松弛,最终导致二聚体解离。

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