Grb2 衔接蛋白的 cSH3 结构域与 Gab1 衔接蛋白 Dock 区内两个不同的 RXXK 基序结合采用了不同的机制。

Binding of the cSH3 domain of Grb2 adaptor to two distinct RXXK motifs within Gab1 docker employs differential mechanisms.

机构信息

Department of Biochemistry & Molecular Biology, USylvester Braman Family Breast Cancer Institute, Leonard Miller School of Medicine, University of Miami, Miami, FL 33136, USA.

出版信息

J Mol Recognit. 2011 Jul-Aug;24(4):585-96. doi: 10.1002/jmr.1080. Epub 2010 Dec 13.

DOI:10.1002/jmr.1080

PMID:21472810

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3116947/

Abstract

A ubiquitous component of cellular signaling machinery, Gab1 docker plays a pivotal role in routing extracellular information in the form of growth factors and cytokines to downstream targets such as transcription factors within the nucleus. Here, using isothermal titration calorimetry (ITC) in combination with macromolecular modeling (MM), we show that although Gab1 contains four distinct RXXK motifs, designated G1, G2, G3, and G4, only G1 and G2 motifs bind to the cSH3 domain of Grb2 adaptor and do so with distinct mechanisms. Thus, while the G1 motif strictly requires the PPRPPKP consensus sequence for high-affinity binding to the cSH3 domain, the G2 motif displays preference for the PXVXRXLKPXR consensus. Such sequential differences in the binding of G1 and G2 motifs arise from their ability to adopt distinct polyproline type II (PPII)- and 3(10) -helical conformations upon binding to the cSH3 domain, respectively. Collectively, our study provides detailed biophysical insights into a key protein-protein interaction involved in a diverse array of signaling cascades central to health and disease.

摘要

Gab1 衔接蛋白是细胞信号转导机制中普遍存在的组成部分，在将生长因子和细胞因子等形式的细胞外信息传递到细胞核内的转录因子等下游靶标方面发挥着关键作用。在这里，我们使用等温滴定量热法（ITC）结合大分子建模（MM），表明尽管 Gab1 包含四个不同的 RXXK 基序，分别命名为 G1、G2、G3 和 G4，但只有 G1 和 G2 基序与 Grb2 衔接子的 cSH3 结构域结合，并且具有不同的机制。因此，虽然 G1 基序严格需要 PPRPPKP 共识序列才能与 cSH3 结构域高亲和力结合，但 G2 基序对 PXVXRXLKPXR 共识表现出偏好。G1 和 G2 基序结合的这种顺序差异源于它们在与 cSH3 结构域结合时分别能够采用不同的脯氨酸 II 型（PPII）和 3(10)-螺旋构象。总之，我们的研究为涉及健康和疾病中多种信号级联反应的关键蛋白-蛋白相互作用提供了详细的生物物理见解。

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