抑癌基因 p53TAD 与转移相关 S100A4 形成模糊复合物：NMR/MD 方法的结构见解和动力学。

Tumor-Suppressor p53TAD Forms a Fuzzy Complex with Metastasis-Associated S100A4: Structural Insights and Dynamics by an NMR/MD Approach.

机构信息

Laboratory of Structural Chemistry and Biology, Eötvös Loránd University, Pázmány Péter sétány 1/a, Budapest, 1117, Hungary.

MTA-ELTE Protein Modelling Research Group, Pázmány Péter sétány. 1/a, Budapest, 1117, Hungary.

出版信息

Chembiochem. 2020 Nov 2;21(21):3087-3095. doi: 10.1002/cbic.202000348. Epub 2020 Jul 22.

DOI:10.1002/cbic.202000348

PMID:32511842

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7689910/

Abstract

Conformationally flexible protein complexes represent a major challenge for structural and dynamical studies. We present herein a method based on a hybrid NMR/MD approach to characterize the complex formed between the disordered p53TAD and the metastasis-associated S100A4. Disorder-to-order transitions of both TAD1 and TAD2 subdomains upon interaction is detected. Still, p53TAD remains highly flexible in the bound form, with residues L26, M40, and W53 being anchored to identical hydrophobic pockets of the S100A4 monomer chains. In the resulting "fuzzy" complex, the clamp-like binding of p53TAD relies on specific hydrophobic anchors and on the existence of extended flexible segments. Our results demonstrate that structural and dynamical NMR parameters (cumulative Δδ, SSP, temperature coefficients, relaxation time, hetNOE) combined with MD simulations can be used to build a structural model even if, due to high flexibility, the classical solution structure calculation is not possible.

摘要

构象灵活的蛋白质复合物是结构和动力学研究的主要挑战。本文提出了一种基于 NMR/MD 混合方法的方法，用于表征无规 p53TAD 与转移相关的 S100A4 之间形成的复合物。在相互作用过程中，TAD1 和 TAD2 亚结构域的无序到有序的转变被检测到。尽管如此，p53TAD 在结合形式下仍然保持高度的灵活性，残基 L26、M40 和 W53 被锚定在 S100A4 单体链的相同疏水性口袋中。在形成的“模糊”复合物中，p53TAD 的夹状结合依赖于特定的疏水性锚点和扩展的柔性片段的存在。我们的结果表明，结构和动力学 NMR 参数（累积Δδ、SSP、温度系数、弛豫时间、hetNOE）与 MD 模拟相结合可用于构建结构模型，即使由于高灵活性，经典的溶液结构计算是不可能的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7f6d/7689910/d28e4e7f0dac/CBIC-21-3087-g001.jpg

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抑癌基因 p53TAD 与转移相关 S100A4 形成模糊复合物：NMR/MD 方法的结构见解和动力学。

Tumor-Suppressor p53TAD Forms a Fuzzy Complex with Metastasis-Associated S100A4: Structural Insights and Dynamics by an NMR/MD Approach.

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