PSD-95 的 N 端 PDZ 串联结构域在全长蛋白中保持定向。

Domain orientation in the N-Terminal PDZ tandem from PSD-95 is maintained in the full-length protein.

机构信息

Department of Pharmacological Sciences, Stony Brook University, Stony Brook, NY 11794, USA.

出版信息

Structure. 2011 Jun 8;19(6):810-20. doi: 10.1016/j.str.2011.02.017.

DOI:10.1016/j.str.2011.02.017

PMID:21645852

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3116789/

Abstract

Tandem PDZ domains have been suggested to form structurally independent supramodules. However, dissimilarity between crystallography and NMR models emphasize their malleable conformation. Studies in full-length scaffold proteins are needed to examine the effect of tertiary interactions within their native context. Using single-molecule fluorescence to characterize the N-terminal PDZ tandem in PSD-95, we provide the first direct evidence that PDZ tandems can be structurally independent within a full-length scaffold protein. Molecular refinement using our data converged on a single structure with an antiparallel alignment of the ligand-binding sites. Devoid of interaction partners, single-molecule conditions captured PSD-95 in its unbound, ground state. Interactions between PDZ domains could not be detected while fluctuation correlation spectroscopy showed that other conformations are dynamically sampled. We conclude that ultra-weak interactions stabilize the conformation providing a "low-relief" energy landscape that allows the domain orientation to be flipped by environmental interactions.

摘要

串联 PDZ 结构域被认为可以形成结构上独立的超模块。然而，晶体学和 NMR 模型之间的差异强调了它们可塑的构象。需要对全长支架蛋白进行研究，以检查其在天然环境下的三级相互作用的影响。本研究使用单分子荧光技术对 PSD-95 中的 N 端 PDZ 串联结构域进行了表征，首次直接证明 PDZ 串联结构域在全长支架蛋白中可以是结构独立的。利用我们的数据进行分子精修，得出了一个具有配体结合位点反平行排列的单一结构。在没有相互作用伴侣的情况下，单分子条件捕获了 PSD-95 的未结合的基态。在波动相关光谱法中没有检测到 PDZ 结构域之间的相互作用，表明其他构象也在动态地被采样。我们的结论是，超弱相互作用稳定了构象，提供了一个“低浮雕”的能量景观，允许环境相互作用翻转结构域的取向。

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